From 16b9bac3ce1c734e91261e5010a174fa8a663543 Mon Sep 17 00:00:00 2001 From: 0xMochan Date: Wed, 8 May 2024 19:35:25 -0500 Subject: [PATCH] =?UTF-8?q?=F0=9F=8E=89?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- substreams/ethereum-curve/README.md | 16 + .../abi/crypto_swap_ng_factory.json | 996 ++ .../abi/pool_crypto_swap_ng.json | 1452 +++ .../ethereum-curve/abi/pool_tricrypto2.json | 1273 +++ .../ethereum-curve/abi/tricrypto_factory.json | 664 ++ substreams/ethereum-curve/params.json | 15 +- substreams/ethereum-curve/params.py | 8 - .../src/abi/crypto_swap_ng_factory.rs | 6173 +++++++++++ substreams/ethereum-curve/src/abi/mod.rs | 4 + .../src/abi/pool_crypto_swap_ng.rs | 9433 +++++++++++++++++ .../ethereum-curve/src/abi/pool_tricrypto2.rs | 7512 +++++++++++++ .../src/abi/tricrypto_factory.rs | 3785 +++++++ substreams/ethereum-curve/src/modules.rs | 2 +- substreams/ethereum-curve/src/pool_changes.rs | 91 +- .../ethereum-curve/src/pool_factories.rs | 147 +- substreams/ethereum-curve/src/pools.rs | 4 +- substreams/ethereum-curve/substreams.yaml | 12 +- 17 files changed, 31558 insertions(+), 29 deletions(-) create mode 100644 substreams/ethereum-curve/abi/crypto_swap_ng_factory.json create mode 100644 substreams/ethereum-curve/abi/pool_crypto_swap_ng.json create mode 100644 substreams/ethereum-curve/abi/pool_tricrypto2.json create mode 100644 substreams/ethereum-curve/abi/tricrypto_factory.json create mode 100644 substreams/ethereum-curve/src/abi/crypto_swap_ng_factory.rs create mode 100644 substreams/ethereum-curve/src/abi/pool_crypto_swap_ng.rs create mode 100644 substreams/ethereum-curve/src/abi/pool_tricrypto2.rs create mode 100644 substreams/ethereum-curve/src/abi/tricrypto_factory.rs diff --git a/substreams/ethereum-curve/README.md b/substreams/ethereum-curve/README.md index 908e8d0..fec075b 100644 --- a/substreams/ethereum-curve/README.md +++ b/substreams/ethereum-curve/README.md @@ -1,5 +1,21 @@ # Instructions +The run command for our substream is a little different here due to the inclusion of the dynamic parameters for manually admitted pools. + +This command will add extra parameters to the `map_components` module via the `python params.py` script. This embeds directly in the bash/zsh compatible command here. If `python` is not ideal, the script can be easily converted into `bash` but it would require the `jq` executable (I've used AI to convert it just fine in testing). + ```bash $ substreams run -e mainnet.eth.streamingfast.io:443 substreams.yaml map_protocol_changes --start-block 11507454 --stop-block +100 -p map_components=`python params.py` ``` + +## `params.json` + +This json file is a top-level array containing objects that describe a specific `ProtocolComponent`. Each object contains the following fields: + +- `name`: Just for documentation purposes +- `address`: The **lowercase** address of the component +- `tx_hash`: The hash of the transaction where the component was emitted +- `tokens`: A list of token addresses ordered in the exact same way as the Pool +- `attributes`: A nested object of key to value that represents the static attributes of the component. + +Please see the included 3 examples for `3pool`, `steth`, and `tricrypto2`. diff --git a/substreams/ethereum-curve/abi/crypto_swap_ng_factory.json b/substreams/ethereum-curve/abi/crypto_swap_ng_factory.json new file mode 100644 index 0000000..ab84ea4 --- /dev/null +++ b/substreams/ethereum-curve/abi/crypto_swap_ng_factory.json @@ -0,0 +1,996 @@ +[ + { + "name": "BasePoolAdded", + "inputs": [ + { + "name": "base_pool", + "type": "address", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "PlainPoolDeployed", + "inputs": [ + { + "name": "coins", + "type": "address[]", + "indexed": false + }, + { + "name": "A", + "type": "uint256", + "indexed": false + }, + { + "name": "fee", + "type": "uint256", + "indexed": false + }, + { + "name": "deployer", + "type": "address", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "MetaPoolDeployed", + "inputs": [ + { + "name": "coin", + "type": "address", + "indexed": false + }, + { + "name": "base_pool", + "type": "address", + "indexed": false + }, + { + "name": "A", + "type": "uint256", + "indexed": false + }, + { + "name": "fee", + "type": "uint256", + "indexed": false + }, + { + "name": "deployer", + "type": "address", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "LiquidityGaugeDeployed", + "inputs": [ + { + "name": "pool", + "type": "address", + "indexed": false + }, + { + "name": "gauge", + "type": "address", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "stateMutability": "nonpayable", + "type": "constructor", + "inputs": [ + { + "name": "_fee_receiver", + "type": "address" + }, + { + "name": "_owner", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "view", + "type": "function", + "name": "find_pool_for_coins", + "inputs": [ + { + "name": "_from", + "type": "address" + }, + { + "name": "_to", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "find_pool_for_coins", + "inputs": [ + { + "name": "_from", + "type": "address" + }, + { + "name": "_to", + "type": "address" + }, + { + "name": "i", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_base_pool", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_n_coins", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_meta_n_coins", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + }, + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_coins", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "address[]" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_underlying_coins", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "address[]" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_decimals", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256[]" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_underlying_decimals", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256[]" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_metapool_rates", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256[]" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_balances", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256[]" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_underlying_balances", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256[]" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_A", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_fees", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + }, + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_admin_balances", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256[]" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_coin_indices", + "inputs": [ + { + "name": "_pool", + "type": "address" + }, + { + "name": "_from", + "type": "address" + }, + { + "name": "_to", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "int128" + }, + { + "name": "", + "type": "int128" + }, + { + "name": "", + "type": "bool" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_gauge", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_implementation_address", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "is_meta", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "bool" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_pool_asset_types", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint8[]" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "deploy_plain_pool", + "inputs": [ + { + "name": "_name", + "type": "string" + }, + { + "name": "_symbol", + "type": "string" + }, + { + "name": "_coins", + "type": "address[]" + }, + { + "name": "_A", + "type": "uint256" + }, + { + "name": "_fee", + "type": "uint256" + }, + { + "name": "_offpeg_fee_multiplier", + "type": "uint256" + }, + { + "name": "_ma_exp_time", + "type": "uint256" + }, + { + "name": "_implementation_idx", + "type": "uint256" + }, + { + "name": "_asset_types", + "type": "uint8[]" + }, + { + "name": "_method_ids", + "type": "bytes4[]" + }, + { + "name": "_oracles", + "type": "address[]" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "deploy_metapool", + "inputs": [ + { + "name": "_base_pool", + "type": "address" + }, + { + "name": "_name", + "type": "string" + }, + { + "name": "_symbol", + "type": "string" + }, + { + "name": "_coin", + "type": "address" + }, + { + "name": "_A", + "type": "uint256" + }, + { + "name": "_fee", + "type": "uint256" + }, + { + "name": "_offpeg_fee_multiplier", + "type": "uint256" + }, + { + "name": "_ma_exp_time", + "type": "uint256" + }, + { + "name": "_implementation_idx", + "type": "uint256" + }, + { + "name": "_asset_type", + "type": "uint8" + }, + { + "name": "_method_id", + "type": "bytes4" + }, + { + "name": "_oracle", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "deploy_gauge", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "add_base_pool", + "inputs": [ + { + "name": "_base_pool", + "type": "address" + }, + { + "name": "_base_lp_token", + "type": "address" + }, + { + "name": "_asset_types", + "type": "uint8[]" + }, + { + "name": "_n_coins", + "type": "uint256" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_pool_implementations", + "inputs": [ + { + "name": "_implementation_index", + "type": "uint256" + }, + { + "name": "_implementation", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_metapool_implementations", + "inputs": [ + { + "name": "_implementation_index", + "type": "uint256" + }, + { + "name": "_implementation", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_math_implementation", + "inputs": [ + { + "name": "_math_implementation", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_gauge_implementation", + "inputs": [ + { + "name": "_gauge_implementation", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_views_implementation", + "inputs": [ + { + "name": "_views_implementation", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "commit_transfer_ownership", + "inputs": [ + { + "name": "_addr", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "accept_transfer_ownership", + "inputs": [], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_fee_receiver", + "inputs": [ + { + "name": "_pool", + "type": "address" + }, + { + "name": "_fee_receiver", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "add_asset_type", + "inputs": [ + { + "name": "_id", + "type": "uint8" + }, + { + "name": "_name", + "type": "string" + } + ], + "outputs": [] + }, + { + "stateMutability": "view", + "type": "function", + "name": "admin", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_admin", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "asset_types", + "inputs": [ + { + "name": "arg0", + "type": "uint8" + } + ], + "outputs": [ + { + "name": "", + "type": "string" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "pool_list", + "inputs": [ + { + "name": "arg0", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "pool_count", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "base_pool_list", + "inputs": [ + { + "name": "arg0", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "base_pool_count", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "base_pool_data", + "inputs": [ + { + "name": "arg0", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "tuple", + "components": [ + { + "name": "lp_token", + "type": "address" + }, + { + "name": "coins", + "type": "address[]" + }, + { + "name": "decimals", + "type": "uint256" + }, + { + "name": "n_coins", + "type": "uint256" + }, + { + "name": "asset_types", + "type": "uint8[]" + } + ] + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "base_pool_assets", + "inputs": [ + { + "name": "arg0", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "bool" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "pool_implementations", + "inputs": [ + { + "name": "arg0", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "metapool_implementations", + "inputs": [ + { + "name": "arg0", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "math_implementation", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "gauge_implementation", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "views_implementation", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "fee_receiver", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + } +] \ No newline at end of file diff --git a/substreams/ethereum-curve/abi/pool_crypto_swap_ng.json b/substreams/ethereum-curve/abi/pool_crypto_swap_ng.json new file mode 100644 index 0000000..6f07d65 --- /dev/null +++ b/substreams/ethereum-curve/abi/pool_crypto_swap_ng.json @@ -0,0 +1,1452 @@ +[ + { + "name": "Transfer", + "inputs": [ + { + "name": "sender", + "type": "address", + "indexed": true + }, + { + "name": "receiver", + "type": "address", + "indexed": true + }, + { + "name": "value", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "Approval", + "inputs": [ + { + "name": "owner", + "type": "address", + "indexed": true + }, + { + "name": "spender", + "type": "address", + "indexed": true + }, + { + "name": "value", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "TokenExchange", + "inputs": [ + { + "name": "buyer", + "type": "address", + "indexed": true + }, + { + "name": "sold_id", + "type": "int128", + "indexed": false + }, + { + "name": "tokens_sold", + "type": "uint256", + "indexed": false + }, + { + "name": "bought_id", + "type": "int128", + "indexed": false + }, + { + "name": "tokens_bought", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "TokenExchangeUnderlying", + "inputs": [ + { + "name": "buyer", + "type": "address", + "indexed": true + }, + { + "name": "sold_id", + "type": "int128", + "indexed": false + }, + { + "name": "tokens_sold", + "type": "uint256", + "indexed": false + }, + { + "name": "bought_id", + "type": "int128", + "indexed": false + }, + { + "name": "tokens_bought", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "AddLiquidity", + "inputs": [ + { + "name": "provider", + "type": "address", + "indexed": true + }, + { + "name": "token_amounts", + "type": "uint256[]", + "indexed": false + }, + { + "name": "fees", + "type": "uint256[]", + "indexed": false + }, + { + "name": "invariant", + "type": "uint256", + "indexed": false + }, + { + "name": "token_supply", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "RemoveLiquidity", + "inputs": [ + { + "name": "provider", + "type": "address", + "indexed": true + }, + { + "name": "token_amounts", + "type": "uint256[]", + "indexed": false + }, + { + "name": "fees", + "type": "uint256[]", + "indexed": false + }, + { + "name": "token_supply", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "RemoveLiquidityOne", + "inputs": [ + { + "name": "provider", + "type": "address", + "indexed": true + }, + { + "name": "token_id", + "type": "int128", + "indexed": false + }, + { + "name": "token_amount", + "type": "uint256", + "indexed": false + }, + { + "name": "coin_amount", + "type": "uint256", + "indexed": false + }, + { + "name": "token_supply", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "RemoveLiquidityImbalance", + "inputs": [ + { + "name": "provider", + "type": "address", + "indexed": true + }, + { + "name": "token_amounts", + "type": "uint256[]", + "indexed": false + }, + { + "name": "fees", + "type": "uint256[]", + "indexed": false + }, + { + "name": "invariant", + "type": "uint256", + "indexed": false + }, + { + "name": "token_supply", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "RampA", + "inputs": [ + { + "name": "old_A", + "type": "uint256", + "indexed": false + }, + { + "name": "new_A", + "type": "uint256", + "indexed": false + }, + { + "name": "initial_time", + "type": "uint256", + "indexed": false + }, + { + "name": "future_time", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "StopRampA", + "inputs": [ + { + "name": "A", + "type": "uint256", + "indexed": false + }, + { + "name": "t", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "ApplyNewFee", + "inputs": [ + { + "name": "fee", + "type": "uint256", + "indexed": false + }, + { + "name": "offpeg_fee_multiplier", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "SetNewMATime", + "inputs": [ + { + "name": "ma_exp_time", + "type": "uint256", + "indexed": false + }, + { + "name": "D_ma_time", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "stateMutability": "nonpayable", + "type": "constructor", + "inputs": [ + { + "name": "_name", + "type": "string" + }, + { + "name": "_symbol", + "type": "string" + }, + { + "name": "_A", + "type": "uint256" + }, + { + "name": "_fee", + "type": "uint256" + }, + { + "name": "_offpeg_fee_multiplier", + "type": "uint256" + }, + { + "name": "_ma_exp_time", + "type": "uint256" + }, + { + "name": "_coins", + "type": "address[]" + }, + { + "name": "_rate_multipliers", + "type": "uint256[]" + }, + { + "name": "_asset_types", + "type": "uint8[]" + }, + { + "name": "_method_ids", + "type": "bytes4[]" + }, + { + "name": "_oracles", + "type": "address[]" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "exchange", + "inputs": [ + { + "name": "i", + "type": "int128" + }, + { + "name": "j", + "type": "int128" + }, + { + "name": "_dx", + "type": "uint256" + }, + { + "name": "_min_dy", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "exchange", + "inputs": [ + { + "name": "i", + "type": "int128" + }, + { + "name": "j", + "type": "int128" + }, + { + "name": "_dx", + "type": "uint256" + }, + { + "name": "_min_dy", + "type": "uint256" + }, + { + "name": "_receiver", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "exchange_received", + "inputs": [ + { + "name": "i", + "type": "int128" + }, + { + "name": "j", + "type": "int128" + }, + { + "name": "_dx", + "type": "uint256" + }, + { + "name": "_min_dy", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "exchange_received", + "inputs": [ + { + "name": "i", + "type": "int128" + }, + { + "name": "j", + "type": "int128" + }, + { + "name": "_dx", + "type": "uint256" + }, + { + "name": "_min_dy", + "type": "uint256" + }, + { + "name": "_receiver", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "add_liquidity", + "inputs": [ + { + "name": "_amounts", + "type": "uint256[]" + }, + { + "name": "_min_mint_amount", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "add_liquidity", + "inputs": [ + { + "name": "_amounts", + "type": "uint256[]" + }, + { + "name": "_min_mint_amount", + "type": "uint256" + }, + { + "name": "_receiver", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "remove_liquidity_one_coin", + "inputs": [ + { + "name": "_burn_amount", + "type": "uint256" + }, + { + "name": "i", + "type": "int128" + }, + { + "name": "_min_received", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "remove_liquidity_one_coin", + "inputs": [ + { + "name": "_burn_amount", + "type": "uint256" + }, + { + "name": "i", + "type": "int128" + }, + { + "name": "_min_received", + "type": "uint256" + }, + { + "name": "_receiver", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "remove_liquidity_imbalance", + "inputs": [ + { + "name": "_amounts", + "type": "uint256[]" + }, + { + "name": "_max_burn_amount", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "remove_liquidity_imbalance", + "inputs": [ + { + "name": "_amounts", + "type": "uint256[]" + }, + { + "name": "_max_burn_amount", + "type": "uint256" + }, + { + "name": "_receiver", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "remove_liquidity", + "inputs": [ + { + "name": "_burn_amount", + "type": "uint256" + }, + { + "name": "_min_amounts", + "type": "uint256[]" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256[]" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "remove_liquidity", + "inputs": [ + { + "name": "_burn_amount", + "type": "uint256" + }, + { + "name": "_min_amounts", + "type": "uint256[]" + }, + { + "name": "_receiver", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256[]" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "remove_liquidity", + "inputs": [ + { + "name": "_burn_amount", + "type": "uint256" + }, + { + "name": "_min_amounts", + "type": "uint256[]" + }, + { + "name": "_receiver", + "type": "address" + }, + { + "name": "_claim_admin_fees", + "type": "bool" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256[]" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "withdraw_admin_fees", + "inputs": [], + "outputs": [] + }, + { + "stateMutability": "view", + "type": "function", + "name": "last_price", + "inputs": [ + { + "name": "i", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "ema_price", + "inputs": [ + { + "name": "i", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_p", + "inputs": [ + { + "name": "i", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "price_oracle", + "inputs": [ + { + "name": "i", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "D_oracle", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "transfer", + "inputs": [ + { + "name": "_to", + "type": "address" + }, + { + "name": "_value", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "bool" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "transferFrom", + "inputs": [ + { + "name": "_from", + "type": "address" + }, + { + "name": "_to", + "type": "address" + }, + { + "name": "_value", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "bool" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "approve", + "inputs": [ + { + "name": "_spender", + "type": "address" + }, + { + "name": "_value", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "bool" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "permit", + "inputs": [ + { + "name": "_owner", + "type": "address" + }, + { + "name": "_spender", + "type": "address" + }, + { + "name": "_value", + "type": "uint256" + }, + { + "name": "_deadline", + "type": "uint256" + }, + { + "name": "_v", + "type": "uint8" + }, + { + "name": "_r", + "type": "bytes32" + }, + { + "name": "_s", + "type": "bytes32" + } + ], + "outputs": [ + { + "name": "", + "type": "bool" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "DOMAIN_SEPARATOR", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "bytes32" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_dx", + "inputs": [ + { + "name": "i", + "type": "int128" + }, + { + "name": "j", + "type": "int128" + }, + { + "name": "dy", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_dy", + "inputs": [ + { + "name": "i", + "type": "int128" + }, + { + "name": "j", + "type": "int128" + }, + { + "name": "dx", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "calc_withdraw_one_coin", + "inputs": [ + { + "name": "_burn_amount", + "type": "uint256" + }, + { + "name": "i", + "type": "int128" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "totalSupply", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_virtual_price", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "calc_token_amount", + "inputs": [ + { + "name": "_amounts", + "type": "uint256[]" + }, + { + "name": "_is_deposit", + "type": "bool" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "A", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "A_precise", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "balances", + "inputs": [ + { + "name": "i", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_balances", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256[]" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "stored_rates", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256[]" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "dynamic_fee", + "inputs": [ + { + "name": "i", + "type": "int128" + }, + { + "name": "j", + "type": "int128" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "ramp_A", + "inputs": [ + { + "name": "_future_A", + "type": "uint256" + }, + { + "name": "_future_time", + "type": "uint256" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "stop_ramp_A", + "inputs": [], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_new_fee", + "inputs": [ + { + "name": "_new_fee", + "type": "uint256" + }, + { + "name": "_new_offpeg_fee_multiplier", + "type": "uint256" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_ma_exp_time", + "inputs": [ + { + "name": "_ma_exp_time", + "type": "uint256" + }, + { + "name": "_D_ma_time", + "type": "uint256" + } + ], + "outputs": [] + }, + { + "stateMutability": "view", + "type": "function", + "name": "N_COINS", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "coins", + "inputs": [ + { + "name": "arg0", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "fee", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "offpeg_fee_multiplier", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "admin_fee", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "initial_A", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_A", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "initial_A_time", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_A_time", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "admin_balances", + "inputs": [ + { + "name": "arg0", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "ma_exp_time", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "D_ma_time", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "ma_last_time", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "name", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "string" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "symbol", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "string" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "decimals", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint8" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "version", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "string" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "balanceOf", + "inputs": [ + { + "name": "arg0", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "allowance", + "inputs": [ + { + "name": "arg0", + "type": "address" + }, + { + "name": "arg1", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "nonces", + "inputs": [ + { + "name": "arg0", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "salt", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "bytes32" + } + ] + } +] \ No newline at end of file diff --git a/substreams/ethereum-curve/abi/pool_tricrypto2.json b/substreams/ethereum-curve/abi/pool_tricrypto2.json new file mode 100644 index 0000000..9d69bb5 --- /dev/null +++ b/substreams/ethereum-curve/abi/pool_tricrypto2.json @@ -0,0 +1,1273 @@ +[ + { + "name": "TokenExchange", + "inputs": [ + { + "name": "buyer", + "type": "address", + "indexed": true + }, + { + "name": "sold_id", + "type": "uint256", + "indexed": false + }, + { + "name": "tokens_sold", + "type": "uint256", + "indexed": false + }, + { + "name": "bought_id", + "type": "uint256", + "indexed": false + }, + { + "name": "tokens_bought", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "AddLiquidity", + "inputs": [ + { + "name": "provider", + "type": "address", + "indexed": true + }, + { + "name": "token_amounts", + "type": "uint256[3]", + "indexed": false + }, + { + "name": "fee", + "type": "uint256", + "indexed": false + }, + { + "name": "token_supply", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "RemoveLiquidity", + "inputs": [ + { + "name": "provider", + "type": "address", + "indexed": true + }, + { + "name": "token_amounts", + "type": "uint256[3]", + "indexed": false + }, + { + "name": "token_supply", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "RemoveLiquidityOne", + "inputs": [ + { + "name": "provider", + "type": "address", + "indexed": true + }, + { + "name": "token_amount", + "type": "uint256", + "indexed": false + }, + { + "name": "coin_index", + "type": "uint256", + "indexed": false + }, + { + "name": "coin_amount", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "CommitNewAdmin", + "inputs": [ + { + "name": "deadline", + "type": "uint256", + "indexed": true + }, + { + "name": "admin", + "type": "address", + "indexed": true + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "NewAdmin", + "inputs": [ + { + "name": "admin", + "type": "address", + "indexed": true + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "CommitNewParameters", + "inputs": [ + { + "name": "deadline", + "type": "uint256", + "indexed": true + }, + { + "name": "admin_fee", + "type": "uint256", + "indexed": false + }, + { + "name": "mid_fee", + "type": "uint256", + "indexed": false + }, + { + "name": "out_fee", + "type": "uint256", + "indexed": false + }, + { + "name": "fee_gamma", + "type": "uint256", + "indexed": false + }, + { + "name": "allowed_extra_profit", + "type": "uint256", + "indexed": false + }, + { + "name": "adjustment_step", + "type": "uint256", + "indexed": false + }, + { + "name": "ma_half_time", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "NewParameters", + "inputs": [ + { + "name": "admin_fee", + "type": "uint256", + "indexed": false + }, + { + "name": "mid_fee", + "type": "uint256", + "indexed": false + }, + { + "name": "out_fee", + "type": "uint256", + "indexed": false + }, + { + "name": "fee_gamma", + "type": "uint256", + "indexed": false + }, + { + "name": "allowed_extra_profit", + "type": "uint256", + "indexed": false + }, + { + "name": "adjustment_step", + "type": "uint256", + "indexed": false + }, + { + "name": "ma_half_time", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "RampAgamma", + "inputs": [ + { + "name": "initial_A", + "type": "uint256", + "indexed": false + }, + { + "name": "future_A", + "type": "uint256", + "indexed": false + }, + { + "name": "initial_gamma", + "type": "uint256", + "indexed": false + }, + { + "name": "future_gamma", + "type": "uint256", + "indexed": false + }, + { + "name": "initial_time", + "type": "uint256", + "indexed": false + }, + { + "name": "future_time", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "StopRampA", + "inputs": [ + { + "name": "current_A", + "type": "uint256", + "indexed": false + }, + { + "name": "current_gamma", + "type": "uint256", + "indexed": false + }, + { + "name": "time", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "ClaimAdminFee", + "inputs": [ + { + "name": "admin", + "type": "address", + "indexed": true + }, + { + "name": "tokens", + "type": "uint256", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "stateMutability": "nonpayable", + "type": "constructor", + "inputs": [ + { + "name": "owner", + "type": "address" + }, + { + "name": "admin_fee_receiver", + "type": "address" + }, + { + "name": "A", + "type": "uint256" + }, + { + "name": "gamma", + "type": "uint256" + }, + { + "name": "mid_fee", + "type": "uint256" + }, + { + "name": "out_fee", + "type": "uint256" + }, + { + "name": "allowed_extra_profit", + "type": "uint256" + }, + { + "name": "fee_gamma", + "type": "uint256" + }, + { + "name": "adjustment_step", + "type": "uint256" + }, + { + "name": "admin_fee", + "type": "uint256" + }, + { + "name": "ma_half_time", + "type": "uint256" + }, + { + "name": "initial_prices", + "type": "uint256[2]" + } + ], + "outputs": [] + }, + { + "stateMutability": "payable", + "type": "fallback" + }, + { + "stateMutability": "view", + "type": "function", + "name": "price_oracle", + "inputs": [ + { + "name": "k", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3361 + }, + { + "stateMutability": "view", + "type": "function", + "name": "price_scale", + "inputs": [ + { + "name": "k", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3391 + }, + { + "stateMutability": "view", + "type": "function", + "name": "last_prices", + "inputs": [ + { + "name": "k", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3421 + }, + { + "stateMutability": "view", + "type": "function", + "name": "token", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ], + "gas": 468 + }, + { + "stateMutability": "view", + "type": "function", + "name": "coins", + "inputs": [ + { + "name": "i", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ], + "gas": 582 + }, + { + "stateMutability": "view", + "type": "function", + "name": "A", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 597 + }, + { + "stateMutability": "view", + "type": "function", + "name": "gamma", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 11991 + }, + { + "stateMutability": "view", + "type": "function", + "name": "fee", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 21673 + }, + { + "stateMutability": "view", + "type": "function", + "name": "fee_calc", + "inputs": [ + { + "name": "xp", + "type": "uint256[3]" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 11096 + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_virtual_price", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 11582 + }, + { + "stateMutability": "payable", + "type": "function", + "name": "exchange", + "inputs": [ + { + "name": "i", + "type": "uint256" + }, + { + "name": "j", + "type": "uint256" + }, + { + "name": "dx", + "type": "uint256" + }, + { + "name": "min_dy", + "type": "uint256" + } + ], + "outputs": [] + }, + { + "stateMutability": "payable", + "type": "function", + "name": "exchange", + "inputs": [ + { + "name": "i", + "type": "uint256" + }, + { + "name": "j", + "type": "uint256" + }, + { + "name": "dx", + "type": "uint256" + }, + { + "name": "min_dy", + "type": "uint256" + }, + { + "name": "use_eth", + "type": "bool" + } + ], + "outputs": [] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_dy", + "inputs": [ + { + "name": "i", + "type": "uint256" + }, + { + "name": "j", + "type": "uint256" + }, + { + "name": "dx", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3122 + }, + { + "stateMutability": "view", + "type": "function", + "name": "calc_token_fee", + "inputs": [ + { + "name": "amounts", + "type": "uint256[3]" + }, + { + "name": "xp", + "type": "uint256[3]" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 26582 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "add_liquidity", + "inputs": [ + { + "name": "amounts", + "type": "uint256[3]" + }, + { + "name": "min_mint_amount", + "type": "uint256" + } + ], + "outputs": [], + "gas": 738687 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "remove_liquidity", + "inputs": [ + { + "name": "_amount", + "type": "uint256" + }, + { + "name": "min_amounts", + "type": "uint256[3]" + } + ], + "outputs": [], + "gas": 233981 + }, + { + "stateMutability": "view", + "type": "function", + "name": "calc_token_amount", + "inputs": [ + { + "name": "amounts", + "type": "uint256[3]" + }, + { + "name": "deposit", + "type": "bool" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3429 + }, + { + "stateMutability": "view", + "type": "function", + "name": "calc_withdraw_one_coin", + "inputs": [ + { + "name": "token_amount", + "type": "uint256" + }, + { + "name": "i", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 13432 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "remove_liquidity_one_coin", + "inputs": [ + { + "name": "token_amount", + "type": "uint256" + }, + { + "name": "i", + "type": "uint256" + }, + { + "name": "min_amount", + "type": "uint256" + } + ], + "outputs": [], + "gas": 648579 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "claim_admin_fees", + "inputs": [], + "outputs": [], + "gas": 389808 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "ramp_A_gamma", + "inputs": [ + { + "name": "future_A", + "type": "uint256" + }, + { + "name": "future_gamma", + "type": "uint256" + }, + { + "name": "future_time", + "type": "uint256" + } + ], + "outputs": [], + "gas": 163102 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "stop_ramp_A_gamma", + "inputs": [], + "outputs": [], + "gas": 157247 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "commit_new_parameters", + "inputs": [ + { + "name": "_new_mid_fee", + "type": "uint256" + }, + { + "name": "_new_out_fee", + "type": "uint256" + }, + { + "name": "_new_admin_fee", + "type": "uint256" + }, + { + "name": "_new_fee_gamma", + "type": "uint256" + }, + { + "name": "_new_allowed_extra_profit", + "type": "uint256" + }, + { + "name": "_new_adjustment_step", + "type": "uint256" + }, + { + "name": "_new_ma_half_time", + "type": "uint256" + } + ], + "outputs": [], + "gas": 306190 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "apply_new_parameters", + "inputs": [], + "outputs": [], + "gas": 683438 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "revert_new_parameters", + "inputs": [], + "outputs": [], + "gas": 23222 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "commit_transfer_ownership", + "inputs": [ + { + "name": "_owner", + "type": "address" + } + ], + "outputs": [], + "gas": 77260 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "apply_transfer_ownership", + "inputs": [], + "outputs": [], + "gas": 65937 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "revert_transfer_ownership", + "inputs": [], + "outputs": [], + "gas": 23312 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "kill_me", + "inputs": [], + "outputs": [], + "gas": 40535 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "unkill_me", + "inputs": [], + "outputs": [], + "gas": 23372 + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_admin_fee_receiver", + "inputs": [ + { + "name": "_admin_fee_receiver", + "type": "address" + } + ], + "outputs": [], + "gas": 38505 + }, + { + "stateMutability": "view", + "type": "function", + "name": "last_prices_timestamp", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3378 + }, + { + "stateMutability": "view", + "type": "function", + "name": "initial_A_gamma", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3408 + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_A_gamma", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3438 + }, + { + "stateMutability": "view", + "type": "function", + "name": "initial_A_gamma_time", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3468 + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_A_gamma_time", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3498 + }, + { + "stateMutability": "view", + "type": "function", + "name": "allowed_extra_profit", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3528 + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_allowed_extra_profit", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3558 + }, + { + "stateMutability": "view", + "type": "function", + "name": "fee_gamma", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3588 + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_fee_gamma", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3618 + }, + { + "stateMutability": "view", + "type": "function", + "name": "adjustment_step", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3648 + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_adjustment_step", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3678 + }, + { + "stateMutability": "view", + "type": "function", + "name": "ma_half_time", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3708 + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_ma_half_time", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3738 + }, + { + "stateMutability": "view", + "type": "function", + "name": "mid_fee", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3768 + }, + { + "stateMutability": "view", + "type": "function", + "name": "out_fee", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3798 + }, + { + "stateMutability": "view", + "type": "function", + "name": "admin_fee", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3828 + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_mid_fee", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3858 + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_out_fee", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3888 + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_admin_fee", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3918 + }, + { + "stateMutability": "view", + "type": "function", + "name": "balances", + "inputs": [ + { + "name": "arg0", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 4057 + }, + { + "stateMutability": "view", + "type": "function", + "name": "D", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 3978 + }, + { + "stateMutability": "view", + "type": "function", + "name": "owner", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ], + "gas": 4008 + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_owner", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ], + "gas": 4038 + }, + { + "stateMutability": "view", + "type": "function", + "name": "xcp_profit", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 4068 + }, + { + "stateMutability": "view", + "type": "function", + "name": "xcp_profit_a", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 4098 + }, + { + "stateMutability": "view", + "type": "function", + "name": "virtual_price", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 4128 + }, + { + "stateMutability": "view", + "type": "function", + "name": "is_killed", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "bool" + } + ], + "gas": 4158 + }, + { + "stateMutability": "view", + "type": "function", + "name": "kill_deadline", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 4188 + }, + { + "stateMutability": "view", + "type": "function", + "name": "transfer_ownership_deadline", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 4218 + }, + { + "stateMutability": "view", + "type": "function", + "name": "admin_actions_deadline", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ], + "gas": 4248 + }, + { + "stateMutability": "view", + "type": "function", + "name": "admin_fee_receiver", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ], + "gas": 4278 + } +] \ No newline at end of file diff --git a/substreams/ethereum-curve/abi/tricrypto_factory.json b/substreams/ethereum-curve/abi/tricrypto_factory.json new file mode 100644 index 0000000..ea3b3a3 --- /dev/null +++ b/substreams/ethereum-curve/abi/tricrypto_factory.json @@ -0,0 +1,664 @@ +[ + { + "name": "TricryptoPoolDeployed", + "inputs": [ + { + "name": "pool", + "type": "address", + "indexed": false + }, + { + "name": "name", + "type": "string", + "indexed": false + }, + { + "name": "symbol", + "type": "string", + "indexed": false + }, + { + "name": "weth", + "type": "address", + "indexed": false + }, + { + "name": "coins", + "type": "address[3]", + "indexed": false + }, + { + "name": "math", + "type": "address", + "indexed": false + }, + { + "name": "salt", + "type": "bytes32", + "indexed": false + }, + { + "name": "packed_precisions", + "type": "uint256", + "indexed": false + }, + { + "name": "packed_A_gamma", + "type": "uint256", + "indexed": false + }, + { + "name": "packed_fee_params", + "type": "uint256", + "indexed": false + }, + { + "name": "packed_rebalancing_params", + "type": "uint256", + "indexed": false + }, + { + "name": "packed_prices", + "type": "uint256", + "indexed": false + }, + { + "name": "deployer", + "type": "address", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "LiquidityGaugeDeployed", + "inputs": [ + { + "name": "pool", + "type": "address", + "indexed": false + }, + { + "name": "gauge", + "type": "address", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "UpdateFeeReceiver", + "inputs": [ + { + "name": "_old_fee_receiver", + "type": "address", + "indexed": false + }, + { + "name": "_new_fee_receiver", + "type": "address", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "UpdatePoolImplementation", + "inputs": [ + { + "name": "_implemention_id", + "type": "uint256", + "indexed": false + }, + { + "name": "_old_pool_implementation", + "type": "address", + "indexed": false + }, + { + "name": "_new_pool_implementation", + "type": "address", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "UpdateGaugeImplementation", + "inputs": [ + { + "name": "_old_gauge_implementation", + "type": "address", + "indexed": false + }, + { + "name": "_new_gauge_implementation", + "type": "address", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "UpdateMathImplementation", + "inputs": [ + { + "name": "_old_math_implementation", + "type": "address", + "indexed": false + }, + { + "name": "_new_math_implementation", + "type": "address", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "UpdateViewsImplementation", + "inputs": [ + { + "name": "_old_views_implementation", + "type": "address", + "indexed": false + }, + { + "name": "_new_views_implementation", + "type": "address", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "name": "TransferOwnership", + "inputs": [ + { + "name": "_old_owner", + "type": "address", + "indexed": false + }, + { + "name": "_new_owner", + "type": "address", + "indexed": false + } + ], + "anonymous": false, + "type": "event" + }, + { + "stateMutability": "nonpayable", + "type": "constructor", + "inputs": [ + { + "name": "_fee_receiver", + "type": "address" + }, + { + "name": "_admin", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "deploy_pool", + "inputs": [ + { + "name": "_name", + "type": "string" + }, + { + "name": "_symbol", + "type": "string" + }, + { + "name": "_coins", + "type": "address[3]" + }, + { + "name": "_weth", + "type": "address" + }, + { + "name": "implementation_id", + "type": "uint256" + }, + { + "name": "A", + "type": "uint256" + }, + { + "name": "gamma", + "type": "uint256" + }, + { + "name": "mid_fee", + "type": "uint256" + }, + { + "name": "out_fee", + "type": "uint256" + }, + { + "name": "fee_gamma", + "type": "uint256" + }, + { + "name": "allowed_extra_profit", + "type": "uint256" + }, + { + "name": "adjustment_step", + "type": "uint256" + }, + { + "name": "ma_exp_time", + "type": "uint256" + }, + { + "name": "initial_prices", + "type": "uint256[2]" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "deploy_gauge", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_fee_receiver", + "inputs": [ + { + "name": "_fee_receiver", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_pool_implementation", + "inputs": [ + { + "name": "_pool_implementation", + "type": "address" + }, + { + "name": "_implementation_index", + "type": "uint256" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_gauge_implementation", + "inputs": [ + { + "name": "_gauge_implementation", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_views_implementation", + "inputs": [ + { + "name": "_views_implementation", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "set_math_implementation", + "inputs": [ + { + "name": "_math_implementation", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "commit_transfer_ownership", + "inputs": [ + { + "name": "_addr", + "type": "address" + } + ], + "outputs": [] + }, + { + "stateMutability": "nonpayable", + "type": "function", + "name": "accept_transfer_ownership", + "inputs": [], + "outputs": [] + }, + { + "stateMutability": "view", + "type": "function", + "name": "find_pool_for_coins", + "inputs": [ + { + "name": "_from", + "type": "address" + }, + { + "name": "_to", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "find_pool_for_coins", + "inputs": [ + { + "name": "_from", + "type": "address" + }, + { + "name": "_to", + "type": "address" + }, + { + "name": "i", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_coins", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "address[3]" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_decimals", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256[3]" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_balances", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256[3]" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_coin_indices", + "inputs": [ + { + "name": "_pool", + "type": "address" + }, + { + "name": "_from", + "type": "address" + }, + { + "name": "_to", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + }, + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_gauge", + "inputs": [ + { + "name": "_pool", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "get_market_counts", + "inputs": [ + { + "name": "coin_a", + "type": "address" + }, + { + "name": "coin_b", + "type": "address" + } + ], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "admin", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "future_admin", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "fee_receiver", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "pool_implementations", + "inputs": [ + { + "name": "arg0", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "gauge_implementation", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "views_implementation", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "math_implementation", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "pool_count", + "inputs": [], + "outputs": [ + { + "name": "", + "type": "uint256" + } + ] + }, + { + "stateMutability": "view", + "type": "function", + "name": "pool_list", + "inputs": [ + { + "name": "arg0", + "type": "uint256" + } + ], + "outputs": [ + { + "name": "", + "type": "address" + } + ] + } +] \ No newline at end of file diff --git a/substreams/ethereum-curve/params.json b/substreams/ethereum-curve/params.json index 1a48ec9..1f44544 100644 --- a/substreams/ethereum-curve/params.json +++ b/substreams/ethereum-curve/params.json @@ -2,7 +2,7 @@ { "name": "3pool", "address": "bebc44782c7db0a1a60cb6fe97d0b483032ff1c7", - "tx_hash": "e90adc0e0a1ae9dde6c240b348adef761444e61f4194245a2096f7ca8310ac2f", + "tx_hash": "20793bbf260912aae189d5d261ff003c9b9166da8191d8f9d63ff1c7722f3ac6", "tokens": [ "6b175474e89094c44da98b954eedeac495271d0f", "a0b86991c6218b36c1d19d4a2e9eb0ce3606eb48", @@ -13,11 +13,22 @@ { "name": "steth", "address": "dc24316b9ae028f1497c275eb9192a3ea0f67022", - "tx_hash": "d844051b63ce310f0f354e29e8c7f550a02fcd3bc642592a2eae6a2804e17d9c", + "tx_hash": "fac67ecbd423a5b915deff06045ec9343568edaec34ae95c43d35f2c018afdaa", "tokens": [ "EeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE", "ae7ab96520DE3A18E5e111B5EaAb095312D7fE84" ], "attributes": {} + }, + { + "name": "tricrypto2", + "address": "d51a44d3fae010294c616388b506acda1bfaae46", + "tx_hash": "dafb6385ed988ce8aacecfe1d97b38ea5e60b1ebce74d2423f71ddd621680138", + "tokens": [ + "dAC17F958D2ee523a2206206994597C13D831ec7", + "2260FAC5E5542a773Aa44fBCfeDf7C193bc2C599", + "C02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2" + ], + "attributes": {} } ] \ No newline at end of file diff --git a/substreams/ethereum-curve/params.py b/substreams/ethereum-curve/params.py index fd6b9b3..f8770db 100644 --- a/substreams/ethereum-curve/params.py +++ b/substreams/ethereum-curve/params.py @@ -1,11 +1,3 @@ -""" -This script could be changed to used `jq` and bash. Usage: - -```bash -python params.py | substreams run -e mainnet.eth.streamingfast.io:443 substreams.yaml map_protocol_changes --start-block 11942410 --stop-block +100 -p map_components= -``` -""" - import json from typing import Any diff --git a/substreams/ethereum-curve/src/abi/crypto_swap_ng_factory.rs b/substreams/ethereum-curve/src/abi/crypto_swap_ng_factory.rs new file mode 100644 index 0000000..6f900b6 --- /dev/null +++ b/substreams/ethereum-curve/src/abi/crypto_swap_ng_factory.rs @@ -0,0 +1,6173 @@ + const INTERNAL_ERR: &'static str = "`ethabi_derive` internal error"; + /// Contract's functions. + #[allow(dead_code, unused_imports, unused_variables)] + pub mod functions { + use super::INTERNAL_ERR; + #[derive(Debug, Clone, PartialEq)] + pub struct AcceptTransferOwnership {} + impl AcceptTransferOwnership { + const METHOD_ID: [u8; 4] = [229u8, 234u8, 71u8, 184u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for AcceptTransferOwnership { + const NAME: &'static str = "accept_transfer_ownership"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct AddAssetType { + pub id: substreams::scalar::BigInt, + pub name: String, + } + impl AddAssetType { + const METHOD_ID: [u8; 4] = [78u8, 152u8, 129u8, 39u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(8usize), ethabi::ParamType::String], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + id: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + name: values + .pop() + .expect(INTERNAL_ERR) + .into_string() + .expect(INTERNAL_ERR), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.id.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::String(self.name.clone()), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for AddAssetType { + const NAME: &'static str = "add_asset_type"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct AddBasePool { + pub base_pool: Vec, + pub base_lp_token: Vec, + pub asset_types: Vec, + pub n_coins: substreams::scalar::BigInt, + } + impl AddBasePool { + const METHOD_ID: [u8; 4] = [169u8, 168u8, 239u8, 68u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Address, + ethabi::ParamType::Address, + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(8usize)), + ), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + base_pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + base_lp_token: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + asset_types: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + n_coins: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address( + ethabi::Address::from_slice(&self.base_pool), + ), + ethabi::Token::Address( + ethabi::Address::from_slice(&self.base_lp_token), + ), + { + let v = self + .asset_types + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::Array(v) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.n_coins.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for AddBasePool { + const NAME: &'static str = "add_base_pool"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Admin {} + impl Admin { + const METHOD_ID: [u8; 4] = [248u8, 81u8, 164u8, 64u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Admin { + const NAME: &'static str = "admin"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for Admin { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct AssetTypes { + pub arg0: substreams::scalar::BigInt, + } + impl AssetTypes { + const METHOD_ID: [u8; 4] = [241u8, 241u8, 1u8, 114u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(8usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.arg0.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::String], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_string() + .expect(INTERNAL_ERR), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for AssetTypes { + const NAME: &'static str = "asset_types"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for AssetTypes { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct BasePoolAssets { + pub arg0: Vec, + } + impl BasePoolAssets { + const METHOD_ID: [u8; 4] = [16u8, 160u8, 2u8, 223u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.arg0))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Bool], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_bool() + .expect(INTERNAL_ERR), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for BasePoolAssets { + const NAME: &'static str = "base_pool_assets"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for BasePoolAssets { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct BasePoolCount {} + impl BasePoolCount { + const METHOD_ID: [u8; 4] = [222u8, 94u8, 74u8, 59u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for BasePoolCount { + const NAME: &'static str = "base_pool_count"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for BasePoolCount { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct BasePoolData { + pub arg0: Vec, + } + impl BasePoolData { + const METHOD_ID: [u8; 4] = [237u8, 135u8, 73u8, 64u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.arg0))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result< + ( + Vec, + Vec>, + substreams::scalar::BigInt, + substreams::scalar::BigInt, + Vec, + ), + String, + > { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result< + ( + Vec, + Vec>, + substreams::scalar::BigInt, + substreams::scalar::BigInt, + Vec, + ), + String, + > { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Tuple( + vec![ + ethabi::ParamType::Address, + ethabi::ParamType::Array(Box::new(ethabi::ParamType::Address)), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Array(Box::new(ethabi::ParamType::Uint(8usize))) + ], + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let tuple_elements = values + .pop() + .expect("one output data should have existed") + .into_tuple() + .expect(INTERNAL_ERR); + ( + tuple_elements[0usize] + .clone() + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + tuple_elements[1usize] + .clone() + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + inner + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec() + }) + .collect(), + { + let mut v = [0 as u8; 32]; + tuple_elements[2usize] + .clone() + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + { + let mut v = [0 as u8; 32]; + tuple_elements[3usize] + .clone() + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + tuple_elements[4usize] + .clone() + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + ) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option< + ( + Vec, + Vec>, + substreams::scalar::BigInt, + substreams::scalar::BigInt, + Vec, + ), + > { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for BasePoolData { + const NAME: &'static str = "base_pool_data"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable< + ( + Vec, + Vec>, + substreams::scalar::BigInt, + substreams::scalar::BigInt, + Vec, + ), + > for BasePoolData { + fn output( + data: &[u8], + ) -> Result< + ( + Vec, + Vec>, + substreams::scalar::BigInt, + substreams::scalar::BigInt, + Vec, + ), + String, + > { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct BasePoolList { + pub arg0: substreams::scalar::BigInt, + } + impl BasePoolList { + const METHOD_ID: [u8; 4] = [34u8, 254u8, 86u8, 113u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.arg0.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for BasePoolList { + const NAME: &'static str = "base_pool_list"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for BasePoolList { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct CommitTransferOwnership { + pub addr: Vec, + } + impl CommitTransferOwnership { + const METHOD_ID: [u8; 4] = [107u8, 68u8, 26u8, 64u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + addr: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.addr))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for CommitTransferOwnership { + const NAME: &'static str = "commit_transfer_ownership"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct DeployGauge { + pub pool: Vec, + } + impl DeployGauge { + const METHOD_ID: [u8; 4] = [150u8, 190u8, 187u8, 52u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for DeployGauge { + const NAME: &'static str = "deploy_gauge"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for DeployGauge { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct DeployMetapool { + pub base_pool: Vec, + pub name: String, + pub symbol: String, + pub coin: Vec, + pub a: substreams::scalar::BigInt, + pub fee: substreams::scalar::BigInt, + pub offpeg_fee_multiplier: substreams::scalar::BigInt, + pub ma_exp_time: substreams::scalar::BigInt, + pub implementation_idx: substreams::scalar::BigInt, + pub asset_type: substreams::scalar::BigInt, + pub method_id: [u8; 4usize], + pub oracle: Vec, + } + impl DeployMetapool { + const METHOD_ID: [u8; 4] = [223u8, 140u8, 93u8, 115u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Address, + ethabi::ParamType::String, + ethabi::ParamType::String, + ethabi::ParamType::Address, + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(8usize), + ethabi::ParamType::FixedBytes(4usize), + ethabi::ParamType::Address, + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + base_pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + name: values + .pop() + .expect(INTERNAL_ERR) + .into_string() + .expect(INTERNAL_ERR), + symbol: values + .pop() + .expect(INTERNAL_ERR) + .into_string() + .expect(INTERNAL_ERR), + coin: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + a: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + offpeg_fee_multiplier: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + ma_exp_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + implementation_idx: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + asset_type: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + method_id: { + let mut result = [0u8; 4]; + let v = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_bytes() + .expect(INTERNAL_ERR); + result.copy_from_slice(&v); + result + }, + oracle: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address( + ethabi::Address::from_slice(&self.base_pool), + ), + ethabi::Token::String(self.name.clone()), + ethabi::Token::String(self.symbol.clone()), + ethabi::Token::Address(ethabi::Address::from_slice(&self.coin)), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.a.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.fee.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.offpeg_fee_multiplier.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.ma_exp_time.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.implementation_idx.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.asset_type.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::FixedBytes(self.method_id.as_ref().to_vec()), + ethabi::Token::Address(ethabi::Address::from_slice(&self.oracle)), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for DeployMetapool { + const NAME: &'static str = "deploy_metapool"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for DeployMetapool { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct DeployPlainPool { + pub name: String, + pub symbol: String, + pub coins: Vec>, + pub a: substreams::scalar::BigInt, + pub fee: substreams::scalar::BigInt, + pub offpeg_fee_multiplier: substreams::scalar::BigInt, + pub ma_exp_time: substreams::scalar::BigInt, + pub implementation_idx: substreams::scalar::BigInt, + pub asset_types: Vec, + pub method_ids: Vec<[u8; 4usize]>, + pub oracles: Vec>, + } + impl DeployPlainPool { + const METHOD_ID: [u8; 4] = [91u8, 205u8, 61u8, 131u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::String, + ethabi::ParamType::String, + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Address), + ), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(8usize)), + ), + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::FixedBytes(4usize)), + ), + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Address), + ), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + name: values + .pop() + .expect(INTERNAL_ERR) + .into_string() + .expect(INTERNAL_ERR), + symbol: values + .pop() + .expect(INTERNAL_ERR) + .into_string() + .expect(INTERNAL_ERR), + coins: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + inner.into_address().expect(INTERNAL_ERR).as_bytes().to_vec() + }) + .collect(), + a: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + offpeg_fee_multiplier: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + ma_exp_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + implementation_idx: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + asset_types: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + method_ids: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut result = [0u8; 4]; + let v = inner.into_fixed_bytes().expect(INTERNAL_ERR); + result.copy_from_slice(&v); + result + }) + .collect(), + oracles: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + inner.into_address().expect(INTERNAL_ERR).as_bytes().to_vec() + }) + .collect(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::String(self.name.clone()), + ethabi::Token::String(self.symbol.clone()), + { + let v = self + .coins + .iter() + .map(|inner| ethabi::Token::Address( + ethabi::Address::from_slice(&inner), + )) + .collect(); + ethabi::Token::Array(v) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.a.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.fee.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.offpeg_fee_multiplier.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.ma_exp_time.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.implementation_idx.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + { + let v = self + .asset_types + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::Array(v) + }, + { + let v = self + .method_ids + .iter() + .map(|inner| ethabi::Token::FixedBytes( + inner.as_ref().to_vec(), + )) + .collect(); + ethabi::Token::Array(v) + }, + { + let v = self + .oracles + .iter() + .map(|inner| ethabi::Token::Address( + ethabi::Address::from_slice(&inner), + )) + .collect(); + ethabi::Token::Array(v) + }, + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for DeployPlainPool { + const NAME: &'static str = "deploy_plain_pool"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for DeployPlainPool { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FeeReceiver {} + impl FeeReceiver { + const METHOD_ID: [u8; 4] = [202u8, 180u8, 211u8, 219u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FeeReceiver { + const NAME: &'static str = "fee_receiver"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for FeeReceiver { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FindPoolForCoins1 { + pub from: Vec, + pub to: Vec, + } + impl FindPoolForCoins1 { + const METHOD_ID: [u8; 4] = [168u8, 125u8, 240u8, 108u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + from: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + to: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address(ethabi::Address::from_slice(&self.from)), + ethabi::Token::Address(ethabi::Address::from_slice(&self.to)), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FindPoolForCoins1 { + const NAME: &'static str = "find_pool_for_coins1"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for FindPoolForCoins1 { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FindPoolForCoins2 { + pub from: Vec, + pub to: Vec, + pub i: substreams::scalar::BigInt, + } + impl FindPoolForCoins2 { + const METHOD_ID: [u8; 4] = [105u8, 130u8, 235u8, 11u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Address, + ethabi::ParamType::Address, + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + from: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + to: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address(ethabi::Address::from_slice(&self.from)), + ethabi::Token::Address(ethabi::Address::from_slice(&self.to)), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.i.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FindPoolForCoins2 { + const NAME: &'static str = "find_pool_for_coins2"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for FindPoolForCoins2 { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureAdmin {} + impl FutureAdmin { + const METHOD_ID: [u8; 4] = [23u8, 247u8, 24u8, 42u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureAdmin { + const NAME: &'static str = "future_admin"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for FutureAdmin { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GaugeImplementation {} + impl GaugeImplementation { + const METHOD_ID: [u8; 4] = [141u8, 242u8, 66u8, 7u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GaugeImplementation { + const NAME: &'static str = "gauge_implementation"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for GaugeImplementation { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetA { + pub pool: Vec, + } + impl GetA { + const METHOD_ID: [u8; 4] = [85u8, 179u8, 11u8, 25u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetA { + const NAME: &'static str = "get_A"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for GetA { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetAdminBalances { + pub pool: Vec, + } + impl GetAdminBalances { + const METHOD_ID: [u8; 4] = [193u8, 30u8, 69u8, 184u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetAdminBalances { + const NAME: &'static str = "get_admin_balances"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for GetAdminBalances { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetBalances { + pub pool: Vec, + } + impl GetBalances { + const METHOD_ID: [u8; 4] = [146u8, 227u8, 204u8, 45u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetBalances { + const NAME: &'static str = "get_balances"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for GetBalances { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetBasePool { + pub pool: Vec, + } + impl GetBasePool { + const METHOD_ID: [u8; 4] = [111u8, 32u8, 214u8, 221u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetBasePool { + const NAME: &'static str = "get_base_pool"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for GetBasePool { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetCoinIndices { + pub pool: Vec, + pub from: Vec, + pub to: Vec, + } + impl GetCoinIndices { + const METHOD_ID: [u8; 4] = [235u8, 133u8, 34u8, 109u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Address, + ethabi::ParamType::Address, + ethabi::ParamType::Address, + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + from: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + to: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address(ethabi::Address::from_slice(&self.pool)), + ethabi::Token::Address(ethabi::Address::from_slice(&self.from)), + ethabi::Token::Address(ethabi::Address::from_slice(&self.to)), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result< + (substreams::scalar::BigInt, substreams::scalar::BigInt, bool), + String, + > { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result< + (substreams::scalar::BigInt, substreams::scalar::BigInt, bool), + String, + > { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Bool, + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + values.reverse(); + Ok(( + { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + values.pop().expect(INTERNAL_ERR).into_bool().expect(INTERNAL_ERR), + )) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option<(substreams::scalar::BigInt, substreams::scalar::BigInt, bool)> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetCoinIndices { + const NAME: &'static str = "get_coin_indices"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable< + (substreams::scalar::BigInt, substreams::scalar::BigInt, bool), + > for GetCoinIndices { + fn output( + data: &[u8], + ) -> Result< + (substreams::scalar::BigInt, substreams::scalar::BigInt, bool), + String, + > { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetCoins { + pub pool: Vec, + } + impl GetCoins { + const METHOD_ID: [u8; 4] = [154u8, 201u8, 13u8, 61u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result>, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result>, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Address), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + inner.into_address().expect(INTERNAL_ERR).as_bytes().to_vec() + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option>> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetCoins { + const NAME: &'static str = "get_coins"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable>> for GetCoins { + fn output(data: &[u8]) -> Result>, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetDecimals { + pub pool: Vec, + } + impl GetDecimals { + const METHOD_ID: [u8; 4] = [82u8, 181u8, 21u8, 85u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetDecimals { + const NAME: &'static str = "get_decimals"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for GetDecimals { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetFees { + pub pool: Vec, + } + impl GetFees { + const METHOD_ID: [u8; 4] = [124u8, 219u8, 114u8, 176u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result< + (substreams::scalar::BigInt, substreams::scalar::BigInt), + String, + > { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result< + (substreams::scalar::BigInt, substreams::scalar::BigInt), + String, + > { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + values.reverse(); + Ok(( + { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + )) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option<(substreams::scalar::BigInt, substreams::scalar::BigInt)> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetFees { + const NAME: &'static str = "get_fees"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable< + (substreams::scalar::BigInt, substreams::scalar::BigInt), + > for GetFees { + fn output( + data: &[u8], + ) -> Result< + (substreams::scalar::BigInt, substreams::scalar::BigInt), + String, + > { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetGauge { + pub pool: Vec, + } + impl GetGauge { + const METHOD_ID: [u8; 4] = [218u8, 242u8, 151u8, 185u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetGauge { + const NAME: &'static str = "get_gauge"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for GetGauge { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetImplementationAddress { + pub pool: Vec, + } + impl GetImplementationAddress { + const METHOD_ID: [u8; 4] = [81u8, 13u8, 152u8, 164u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetImplementationAddress { + const NAME: &'static str = "get_implementation_address"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for GetImplementationAddress { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetMetaNCoins { + pub pool: Vec, + } + impl GetMetaNCoins { + const METHOD_ID: [u8; 4] = [235u8, 115u8, 243u8, 125u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result< + (substreams::scalar::BigInt, substreams::scalar::BigInt), + String, + > { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result< + (substreams::scalar::BigInt, substreams::scalar::BigInt), + String, + > { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + values.reverse(); + Ok(( + { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + )) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option<(substreams::scalar::BigInt, substreams::scalar::BigInt)> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetMetaNCoins { + const NAME: &'static str = "get_meta_n_coins"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable< + (substreams::scalar::BigInt, substreams::scalar::BigInt), + > for GetMetaNCoins { + fn output( + data: &[u8], + ) -> Result< + (substreams::scalar::BigInt, substreams::scalar::BigInt), + String, + > { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetMetapoolRates { + pub pool: Vec, + } + impl GetMetapoolRates { + const METHOD_ID: [u8; 4] = [6u8, 216u8, 241u8, 96u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetMetapoolRates { + const NAME: &'static str = "get_metapool_rates"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for GetMetapoolRates { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetNCoins { + pub pool: Vec, + } + impl GetNCoins { + const METHOD_ID: [u8; 4] = [148u8, 4u8, 148u8, 241u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetNCoins { + const NAME: &'static str = "get_n_coins"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for GetNCoins { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetPoolAssetTypes { + pub pool: Vec, + } + impl GetPoolAssetTypes { + const METHOD_ID: [u8; 4] = [168u8, 15u8, 36u8, 100u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(8usize)), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetPoolAssetTypes { + const NAME: &'static str = "get_pool_asset_types"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for GetPoolAssetTypes { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetUnderlyingBalances { + pub pool: Vec, + } + impl GetUnderlyingBalances { + const METHOD_ID: [u8; 4] = [89u8, 244u8, 243u8, 81u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetUnderlyingBalances { + const NAME: &'static str = "get_underlying_balances"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for GetUnderlyingBalances { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetUnderlyingCoins { + pub pool: Vec, + } + impl GetUnderlyingCoins { + const METHOD_ID: [u8; 4] = [167u8, 117u8, 118u8, 239u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result>, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result>, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Address), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + inner.into_address().expect(INTERNAL_ERR).as_bytes().to_vec() + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option>> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetUnderlyingCoins { + const NAME: &'static str = "get_underlying_coins"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable>> + for GetUnderlyingCoins { + fn output(data: &[u8]) -> Result>, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetUnderlyingDecimals { + pub pool: Vec, + } + impl GetUnderlyingDecimals { + const METHOD_ID: [u8; 4] = [76u8, 176u8, 136u8, 241u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetUnderlyingDecimals { + const NAME: &'static str = "get_underlying_decimals"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for GetUnderlyingDecimals { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct IsMeta { + pub pool: Vec, + } + impl IsMeta { + const METHOD_ID: [u8; 4] = [228u8, 211u8, 50u8, 169u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Bool], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_bool() + .expect(INTERNAL_ERR), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for IsMeta { + const NAME: &'static str = "is_meta"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for IsMeta { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct MathImplementation {} + impl MathImplementation { + const METHOD_ID: [u8; 4] = [161u8, 60u8, 143u8, 129u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for MathImplementation { + const NAME: &'static str = "math_implementation"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for MathImplementation { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct MetapoolImplementations { + pub arg0: substreams::scalar::BigInt, + } + impl MetapoolImplementations { + const METHOD_ID: [u8; 4] = [207u8, 239u8, 29u8, 107u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.arg0.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for MetapoolImplementations { + const NAME: &'static str = "metapool_implementations"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for MetapoolImplementations { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct PoolCount {} + impl PoolCount { + const METHOD_ID: [u8; 4] = [149u8, 106u8, 174u8, 58u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for PoolCount { + const NAME: &'static str = "pool_count"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for PoolCount { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct PoolImplementations { + pub arg0: substreams::scalar::BigInt, + } + impl PoolImplementations { + const METHOD_ID: [u8; 4] = [50u8, 115u8, 255u8, 71u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.arg0.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for PoolImplementations { + const NAME: &'static str = "pool_implementations"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for PoolImplementations { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct PoolList { + pub arg0: substreams::scalar::BigInt, + } + impl PoolList { + const METHOD_ID: [u8; 4] = [58u8, 29u8, 93u8, 142u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.arg0.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for PoolList { + const NAME: &'static str = "pool_list"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for PoolList { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetFeeReceiver { + pub pool: Vec, + pub fee_receiver: Vec, + } + impl SetFeeReceiver { + const METHOD_ID: [u8; 4] = [54u8, 210u8, 183u8, 122u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + fee_receiver: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address(ethabi::Address::from_slice(&self.pool)), + ethabi::Token::Address( + ethabi::Address::from_slice(&self.fee_receiver), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetFeeReceiver { + const NAME: &'static str = "set_fee_receiver"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetGaugeImplementation { + pub gauge_implementation: Vec, + } + impl SetGaugeImplementation { + const METHOD_ID: [u8; 4] = [143u8, 3u8, 24u8, 44u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + gauge_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address( + ethabi::Address::from_slice(&self.gauge_implementation), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetGaugeImplementation { + const NAME: &'static str = "set_gauge_implementation"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetMathImplementation { + pub math_implementation: Vec, + } + impl SetMathImplementation { + const METHOD_ID: [u8; 4] = [176u8, 116u8, 38u8, 244u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + math_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address( + ethabi::Address::from_slice(&self.math_implementation), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetMathImplementation { + const NAME: &'static str = "set_math_implementation"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetMetapoolImplementations { + pub implementation_index: substreams::scalar::BigInt, + pub implementation: Vec, + } + impl SetMetapoolImplementations { + const METHOD_ID: [u8; 4] = [28u8, 179u8, 3u8, 153u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize), ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + implementation_index: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.implementation_index.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Address( + ethabi::Address::from_slice(&self.implementation), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetMetapoolImplementations { + const NAME: &'static str = "set_metapool_implementations"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetPoolImplementations { + pub implementation_index: substreams::scalar::BigInt, + pub implementation: Vec, + } + impl SetPoolImplementations { + const METHOD_ID: [u8; 4] = [77u8, 192u8, 92u8, 251u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize), ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + implementation_index: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.implementation_index.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Address( + ethabi::Address::from_slice(&self.implementation), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetPoolImplementations { + const NAME: &'static str = "set_pool_implementations"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetViewsImplementation { + pub views_implementation: Vec, + } + impl SetViewsImplementation { + const METHOD_ID: [u8; 4] = [246u8, 250u8, 147u8, 127u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + views_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address( + ethabi::Address::from_slice(&self.views_implementation), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetViewsImplementation { + const NAME: &'static str = "set_views_implementation"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct ViewsImplementation {} + impl ViewsImplementation { + const METHOD_ID: [u8; 4] = [227u8, 21u8, 147u8, 216u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for ViewsImplementation { + const NAME: &'static str = "views_implementation"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for ViewsImplementation { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + } + /// Contract's events. + #[allow(dead_code, unused_imports, unused_variables)] + pub mod events { + use super::INTERNAL_ERR; + #[derive(Debug, Clone, PartialEq)] + pub struct BasePoolAdded { + pub base_pool: Vec, + } + impl BasePoolAdded { + const TOPIC_ID: [u8; 32] = [ + 204u8, + 106u8, + 253u8, + 254u8, + 199u8, + 157u8, + 166u8, + 190u8, + 8u8, + 20u8, + 46u8, + 206u8, + 226u8, + 92u8, + 241u8, + 75u8, + 102u8, + 89u8, + 97u8, + 226u8, + 93u8, + 48u8, + 216u8, + 235u8, + 164u8, + 89u8, + 89u8, + 190u8, + 149u8, + 71u8, + 99u8, + 95u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 32usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + base_pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for BasePoolAdded { + const NAME: &'static str = "BasePoolAdded"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct LiquidityGaugeDeployed { + pub pool: Vec, + pub gauge: Vec, + } + impl LiquidityGaugeDeployed { + const TOPIC_ID: [u8; 32] = [ + 101u8, + 107u8, + 179u8, + 76u8, + 32u8, + 73u8, + 25u8, + 112u8, + 168u8, + 193u8, + 99u8, + 243u8, + 189u8, + 98u8, + 234u8, + 216u8, + 32u8, + 34u8, + 179u8, + 121u8, + 195u8, + 146u8, + 73u8, + 96u8, + 236u8, + 96u8, + 246u8, + 219u8, + 252u8, + 90u8, + 171u8, + 59u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 64usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Address], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + gauge: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for LiquidityGaugeDeployed { + const NAME: &'static str = "LiquidityGaugeDeployed"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct MetaPoolDeployed { + pub coin: Vec, + pub base_pool: Vec, + pub a: substreams::scalar::BigInt, + pub fee: substreams::scalar::BigInt, + pub deployer: Vec, + } + impl MetaPoolDeployed { + const TOPIC_ID: [u8; 32] = [ + 1u8, + 243u8, + 28u8, + 210u8, + 171u8, + 222u8, + 180u8, + 229u8, + 225u8, + 11u8, + 165u8, + 0u8, + 242u8, + 219u8, + 15u8, + 147u8, + 125u8, + 158u8, + 140u8, + 115u8, + 90u8, + 176u8, + 70u8, + 129u8, + 146u8, + 84u8, + 65u8, + 180u8, + 234u8, + 55u8, + 237u8, + 165u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 160usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Address, + ethabi::ParamType::Address, + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Address, + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + coin: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + base_pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + a: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + deployer: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for MetaPoolDeployed { + const NAME: &'static str = "MetaPoolDeployed"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct PlainPoolDeployed { + pub coins: Vec>, + pub a: substreams::scalar::BigInt, + pub fee: substreams::scalar::BigInt, + pub deployer: Vec, + } + impl PlainPoolDeployed { + const TOPIC_ID: [u8; 32] = [ + 209u8, + 214u8, + 13u8, + 70u8, + 17u8, + 228u8, + 9u8, + 27u8, + 178u8, + 229u8, + 246u8, + 153u8, + 238u8, + 183u8, + 145u8, + 54u8, + 194u8, + 26u8, + 194u8, + 48u8, + 90u8, + 214u8, + 9u8, + 243u8, + 222u8, + 86u8, + 154u8, + 252u8, + 52u8, + 113u8, + 238u8, + 204u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() < 160usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Address), + ), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Address, + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + coins: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + inner.into_address().expect(INTERNAL_ERR).as_bytes().to_vec() + }) + .collect(), + a: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + deployer: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for PlainPoolDeployed { + const NAME: &'static str = "PlainPoolDeployed"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + } \ No newline at end of file diff --git a/substreams/ethereum-curve/src/abi/mod.rs b/substreams/ethereum-curve/src/abi/mod.rs index 3eb4174..784e62d 100644 --- a/substreams/ethereum-curve/src/abi/mod.rs +++ b/substreams/ethereum-curve/src/abi/mod.rs @@ -1,7 +1,11 @@ pub mod crypto_pool_factory; pub mod pool_tricrypto; +pub mod pool_crypto_swap_ng; +pub mod pool_tricrypto2; +pub mod crypto_swap_ng_factory; pub mod pool_steth; pub mod pool; +pub mod tricrypto_factory; pub mod main_registry; pub mod pool_3pool; pub mod meta_pool_factory; diff --git a/substreams/ethereum-curve/src/abi/pool_crypto_swap_ng.rs b/substreams/ethereum-curve/src/abi/pool_crypto_swap_ng.rs new file mode 100644 index 0000000..1ed38bc --- /dev/null +++ b/substreams/ethereum-curve/src/abi/pool_crypto_swap_ng.rs @@ -0,0 +1,9433 @@ + const INTERNAL_ERR: &'static str = "`ethabi_derive` internal error"; + /// Contract's functions. + #[allow(dead_code, unused_imports, unused_variables)] + pub mod functions { + use super::INTERNAL_ERR; + #[derive(Debug, Clone, PartialEq)] + pub struct A {} + impl A { + const METHOD_ID: [u8; 4] = [244u8, 70u8, 193u8, 208u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for A { + const NAME: &'static str = "A"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for A { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct APrecise {} + impl APrecise { + const METHOD_ID: [u8; 4] = [118u8, 162u8, 240u8, 240u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for APrecise { + const NAME: &'static str = "A_precise"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for APrecise { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct DomainSeparator {} + impl DomainSeparator { + const METHOD_ID: [u8; 4] = [54u8, 68u8, 229u8, 21u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result<[u8; 32usize], String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result<[u8; 32usize], String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::FixedBytes(32usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut result = [0u8; 32]; + let v = values + .pop() + .expect("one output data should have existed") + .into_fixed_bytes() + .expect(INTERNAL_ERR); + result.copy_from_slice(&v); + result + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option<[u8; 32usize]> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for DomainSeparator { + const NAME: &'static str = "DOMAIN_SEPARATOR"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable<[u8; 32usize]> for DomainSeparator { + fn output(data: &[u8]) -> Result<[u8; 32usize], String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct DMaTime {} + impl DMaTime { + const METHOD_ID: [u8; 4] = [156u8, 66u8, 88u8, 196u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for DMaTime { + const NAME: &'static str = "D_ma_time"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for DMaTime { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct DOracle {} + impl DOracle { + const METHOD_ID: [u8; 4] = [144u8, 122u8, 1u8, 107u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for DOracle { + const NAME: &'static str = "D_oracle"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for DOracle { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct NCoins {} + impl NCoins { + const METHOD_ID: [u8; 4] = [41u8, 53u8, 119u8, 80u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for NCoins { + const NAME: &'static str = "N_COINS"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for NCoins { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct AddLiquidity1 { + pub amounts: Vec, + pub min_mint_amount: substreams::scalar::BigInt, + } + impl AddLiquidity1 { + const METHOD_ID: [u8; 4] = [183u8, 45u8, 245u8, 222u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + amounts: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + min_mint_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let v = self + .amounts + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::Array(v) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.min_mint_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for AddLiquidity1 { + const NAME: &'static str = "add_liquidity1"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for AddLiquidity1 { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct AddLiquidity2 { + pub amounts: Vec, + pub min_mint_amount: substreams::scalar::BigInt, + pub receiver: Vec, + } + impl AddLiquidity2 { + const METHOD_ID: [u8; 4] = [167u8, 37u8, 109u8, 9u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Address, + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + amounts: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + min_mint_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + receiver: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let v = self + .amounts + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::Array(v) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.min_mint_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Address( + ethabi::Address::from_slice(&self.receiver), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for AddLiquidity2 { + const NAME: &'static str = "add_liquidity2"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for AddLiquidity2 { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct AdminBalances { + pub arg0: substreams::scalar::BigInt, + } + impl AdminBalances { + const METHOD_ID: [u8; 4] = [226u8, 231u8, 210u8, 100u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.arg0.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for AdminBalances { + const NAME: &'static str = "admin_balances"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for AdminBalances { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct AdminFee {} + impl AdminFee { + const METHOD_ID: [u8; 4] = [254u8, 227u8, 247u8, 249u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for AdminFee { + const NAME: &'static str = "admin_fee"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for AdminFee { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Allowance { + pub arg0: Vec, + pub arg1: Vec, + } + impl Allowance { + const METHOD_ID: [u8; 4] = [221u8, 98u8, 237u8, 62u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + arg1: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address(ethabi::Address::from_slice(&self.arg0)), + ethabi::Token::Address(ethabi::Address::from_slice(&self.arg1)), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Allowance { + const NAME: &'static str = "allowance"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for Allowance { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Approve { + pub spender: Vec, + pub value: substreams::scalar::BigInt, + } + impl Approve { + const METHOD_ID: [u8; 4] = [9u8, 94u8, 167u8, 179u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + spender: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + value: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address( + ethabi::Address::from_slice(&self.spender), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.value.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Bool], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_bool() + .expect(INTERNAL_ERR), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Approve { + const NAME: &'static str = "approve"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for Approve { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct BalanceOf { + pub arg0: Vec, + } + impl BalanceOf { + const METHOD_ID: [u8; 4] = [112u8, 160u8, 130u8, 49u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.arg0))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for BalanceOf { + const NAME: &'static str = "balanceOf"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for BalanceOf { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Balances { + pub i: substreams::scalar::BigInt, + } + impl Balances { + const METHOD_ID: [u8; 4] = [73u8, 3u8, 176u8, 209u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.i.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Balances { + const NAME: &'static str = "balances"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for Balances { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct CalcTokenAmount { + pub amounts: Vec, + pub is_deposit: bool, + } + impl CalcTokenAmount { + const METHOD_ID: [u8; 4] = [61u8, 176u8, 109u8, 216u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ethabi::ParamType::Bool, + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + amounts: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + is_deposit: values + .pop() + .expect(INTERNAL_ERR) + .into_bool() + .expect(INTERNAL_ERR), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let v = self + .amounts + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::Array(v) + }, + ethabi::Token::Bool(self.is_deposit.clone()), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for CalcTokenAmount { + const NAME: &'static str = "calc_token_amount"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for CalcTokenAmount { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct CalcWithdrawOneCoin { + pub burn_amount: substreams::scalar::BigInt, + pub i: substreams::scalar::BigInt, + } + impl CalcWithdrawOneCoin { + const METHOD_ID: [u8; 4] = [204u8, 43u8, 39u8, 215u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Int(128usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + burn_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.burn_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + { + let non_full_signed_bytes = self.i.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for CalcWithdrawOneCoin { + const NAME: &'static str = "calc_withdraw_one_coin"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for CalcWithdrawOneCoin { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Coins { + pub arg0: substreams::scalar::BigInt, + } + impl Coins { + const METHOD_ID: [u8; 4] = [198u8, 97u8, 6u8, 87u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.arg0.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Coins { + const NAME: &'static str = "coins"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for Coins { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Decimals {} + impl Decimals { + const METHOD_ID: [u8; 4] = [49u8, 60u8, 229u8, 103u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(8usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Decimals { + const NAME: &'static str = "decimals"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for Decimals { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct DynamicFee { + pub i: substreams::scalar::BigInt, + pub j: substreams::scalar::BigInt, + } + impl DynamicFee { + const METHOD_ID: [u8; 4] = [118u8, 169u8, 205u8, 62u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Int(128usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + j: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let non_full_signed_bytes = self.i.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + { + let non_full_signed_bytes = self.j.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for DynamicFee { + const NAME: &'static str = "dynamic_fee"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for DynamicFee { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct EmaPrice { + pub i: substreams::scalar::BigInt, + } + impl EmaPrice { + const METHOD_ID: [u8; 4] = [144u8, 210u8, 8u8, 55u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.i.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for EmaPrice { + const NAME: &'static str = "ema_price"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for EmaPrice { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Exchange1 { + pub i: substreams::scalar::BigInt, + pub j: substreams::scalar::BigInt, + pub dx: substreams::scalar::BigInt, + pub min_dy: substreams::scalar::BigInt, + } + impl Exchange1 { + const METHOD_ID: [u8; 4] = [61u8, 240u8, 33u8, 36u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + j: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + dx: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + min_dy: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let non_full_signed_bytes = self.i.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + { + let non_full_signed_bytes = self.j.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.dx.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.min_dy.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Exchange1 { + const NAME: &'static str = "exchange1"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for Exchange1 { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Exchange2 { + pub i: substreams::scalar::BigInt, + pub j: substreams::scalar::BigInt, + pub dx: substreams::scalar::BigInt, + pub min_dy: substreams::scalar::BigInt, + pub receiver: Vec, + } + impl Exchange2 { + const METHOD_ID: [u8; 4] = [221u8, 193u8, 245u8, 157u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Address, + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + j: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + dx: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + min_dy: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + receiver: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let non_full_signed_bytes = self.i.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + { + let non_full_signed_bytes = self.j.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.dx.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.min_dy.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Address( + ethabi::Address::from_slice(&self.receiver), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Exchange2 { + const NAME: &'static str = "exchange2"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for Exchange2 { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct ExchangeReceived1 { + pub i: substreams::scalar::BigInt, + pub j: substreams::scalar::BigInt, + pub dx: substreams::scalar::BigInt, + pub min_dy: substreams::scalar::BigInt, + } + impl ExchangeReceived1 { + const METHOD_ID: [u8; 4] = [126u8, 61u8, 176u8, 48u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + j: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + dx: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + min_dy: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let non_full_signed_bytes = self.i.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + { + let non_full_signed_bytes = self.j.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.dx.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.min_dy.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for ExchangeReceived1 { + const NAME: &'static str = "exchange_received1"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for ExchangeReceived1 { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct ExchangeReceived2 { + pub i: substreams::scalar::BigInt, + pub j: substreams::scalar::BigInt, + pub dx: substreams::scalar::BigInt, + pub min_dy: substreams::scalar::BigInt, + pub receiver: Vec, + } + impl ExchangeReceived2 { + const METHOD_ID: [u8; 4] = [175u8, 180u8, 48u8, 18u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Address, + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + j: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + dx: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + min_dy: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + receiver: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let non_full_signed_bytes = self.i.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + { + let non_full_signed_bytes = self.j.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.dx.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.min_dy.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Address( + ethabi::Address::from_slice(&self.receiver), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for ExchangeReceived2 { + const NAME: &'static str = "exchange_received2"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for ExchangeReceived2 { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Fee {} + impl Fee { + const METHOD_ID: [u8; 4] = [221u8, 202u8, 63u8, 67u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Fee { + const NAME: &'static str = "fee"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for Fee { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureA {} + impl FutureA { + const METHOD_ID: [u8; 4] = [180u8, 181u8, 119u8, 173u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureA { + const NAME: &'static str = "future_A"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for FutureA { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureATime {} + impl FutureATime { + const METHOD_ID: [u8; 4] = [20u8, 5u8, 34u8, 136u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureATime { + const NAME: &'static str = "future_A_time"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for FutureATime { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetBalances {} + impl GetBalances { + const METHOD_ID: [u8; 4] = [20u8, 240u8, 89u8, 121u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetBalances { + const NAME: &'static str = "get_balances"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for GetBalances { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetDx { + pub i: substreams::scalar::BigInt, + pub j: substreams::scalar::BigInt, + pub dy: substreams::scalar::BigInt, + } + impl GetDx { + const METHOD_ID: [u8; 4] = [103u8, 223u8, 2u8, 202u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + j: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + dy: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let non_full_signed_bytes = self.i.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + { + let non_full_signed_bytes = self.j.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.dy.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetDx { + const NAME: &'static str = "get_dx"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for GetDx { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetDy { + pub i: substreams::scalar::BigInt, + pub j: substreams::scalar::BigInt, + pub dx: substreams::scalar::BigInt, + } + impl GetDy { + const METHOD_ID: [u8; 4] = [94u8, 13u8, 68u8, 63u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + j: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + dx: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let non_full_signed_bytes = self.i.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + { + let non_full_signed_bytes = self.j.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.dx.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetDy { + const NAME: &'static str = "get_dy"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for GetDy { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetP { + pub i: substreams::scalar::BigInt, + } + impl GetP { + const METHOD_ID: [u8; 4] = [236u8, 2u8, 56u8, 98u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.i.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetP { + const NAME: &'static str = "get_p"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for GetP { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetVirtualPrice {} + impl GetVirtualPrice { + const METHOD_ID: [u8; 4] = [187u8, 123u8, 139u8, 128u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetVirtualPrice { + const NAME: &'static str = "get_virtual_price"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for GetVirtualPrice { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct InitialA {} + impl InitialA { + const METHOD_ID: [u8; 4] = [84u8, 9u8, 73u8, 26u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for InitialA { + const NAME: &'static str = "initial_A"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for InitialA { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct InitialATime {} + impl InitialATime { + const METHOD_ID: [u8; 4] = [32u8, 129u8, 6u8, 108u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for InitialATime { + const NAME: &'static str = "initial_A_time"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for InitialATime { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct LastPrice { + pub i: substreams::scalar::BigInt, + } + impl LastPrice { + const METHOD_ID: [u8; 4] = [57u8, 49u8, 171u8, 82u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.i.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for LastPrice { + const NAME: &'static str = "last_price"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for LastPrice { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct MaExpTime {} + impl MaExpTime { + const METHOD_ID: [u8; 4] = [27u8, 233u8, 19u8, 165u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for MaExpTime { + const NAME: &'static str = "ma_exp_time"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for MaExpTime { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct MaLastTime {} + impl MaLastTime { + const METHOD_ID: [u8; 4] = [29u8, 220u8, 59u8, 1u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for MaLastTime { + const NAME: &'static str = "ma_last_time"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for MaLastTime { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Name {} + impl Name { + const METHOD_ID: [u8; 4] = [6u8, 253u8, 222u8, 3u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::String], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_string() + .expect(INTERNAL_ERR), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Name { + const NAME: &'static str = "name"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for Name { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Nonces { + pub arg0: Vec, + } + impl Nonces { + const METHOD_ID: [u8; 4] = [126u8, 206u8, 190u8, 0u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.arg0))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Nonces { + const NAME: &'static str = "nonces"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for Nonces { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct OffpegFeeMultiplier {} + impl OffpegFeeMultiplier { + const METHOD_ID: [u8; 4] = [142u8, 223u8, 221u8, 95u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for OffpegFeeMultiplier { + const NAME: &'static str = "offpeg_fee_multiplier"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for OffpegFeeMultiplier { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Permit { + pub owner: Vec, + pub spender: Vec, + pub value: substreams::scalar::BigInt, + pub deadline: substreams::scalar::BigInt, + pub v: substreams::scalar::BigInt, + pub r: [u8; 32usize], + pub s: [u8; 32usize], + } + impl Permit { + const METHOD_ID: [u8; 4] = [213u8, 5u8, 172u8, 207u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Address, + ethabi::ParamType::Address, + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(8usize), + ethabi::ParamType::FixedBytes(32usize), + ethabi::ParamType::FixedBytes(32usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + owner: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + spender: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + value: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + deadline: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + v: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + r: { + let mut result = [0u8; 32]; + let v = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_bytes() + .expect(INTERNAL_ERR); + result.copy_from_slice(&v); + result + }, + s: { + let mut result = [0u8; 32]; + let v = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_bytes() + .expect(INTERNAL_ERR); + result.copy_from_slice(&v); + result + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address(ethabi::Address::from_slice(&self.owner)), + ethabi::Token::Address( + ethabi::Address::from_slice(&self.spender), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.value.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.deadline.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.v.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::FixedBytes(self.r.as_ref().to_vec()), + ethabi::Token::FixedBytes(self.s.as_ref().to_vec()), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Bool], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_bool() + .expect(INTERNAL_ERR), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Permit { + const NAME: &'static str = "permit"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for Permit { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct PriceOracle { + pub i: substreams::scalar::BigInt, + } + impl PriceOracle { + const METHOD_ID: [u8; 4] = [104u8, 114u8, 118u8, 83u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.i.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for PriceOracle { + const NAME: &'static str = "price_oracle"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for PriceOracle { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RampA { + pub future_a: substreams::scalar::BigInt, + pub future_time: substreams::scalar::BigInt, + } + impl RampA { + const METHOD_ID: [u8; 4] = [60u8, 21u8, 126u8, 100u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + future_a: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + future_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.future_a.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.future_time.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for RampA { + const NAME: &'static str = "ramp_A"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidity1 { + pub burn_amount: substreams::scalar::BigInt, + pub min_amounts: Vec, + } + impl RemoveLiquidity1 { + const METHOD_ID: [u8; 4] = [212u8, 13u8, 219u8, 140u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + burn_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + min_amounts: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.burn_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + { + let v = self + .min_amounts + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::Array(v) + }, + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for RemoveLiquidity1 { + const NAME: &'static str = "remove_liquidity1"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for RemoveLiquidity1 { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidity2 { + pub burn_amount: substreams::scalar::BigInt, + pub min_amounts: Vec, + pub receiver: Vec, + } + impl RemoveLiquidity2 { + const METHOD_ID: [u8; 4] = [94u8, 96u8, 76u8, 210u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ethabi::ParamType::Address, + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + burn_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + min_amounts: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + receiver: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.burn_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + { + let v = self + .min_amounts + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::Array(v) + }, + ethabi::Token::Address( + ethabi::Address::from_slice(&self.receiver), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for RemoveLiquidity2 { + const NAME: &'static str = "remove_liquidity2"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for RemoveLiquidity2 { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidity3 { + pub burn_amount: substreams::scalar::BigInt, + pub min_amounts: Vec, + pub receiver: Vec, + pub claim_admin_fees: bool, + } + impl RemoveLiquidity3 { + const METHOD_ID: [u8; 4] = [41u8, 105u8, 224u8, 74u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ethabi::ParamType::Address, + ethabi::ParamType::Bool, + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + burn_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + min_amounts: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + receiver: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + claim_admin_fees: values + .pop() + .expect(INTERNAL_ERR) + .into_bool() + .expect(INTERNAL_ERR), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.burn_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + { + let v = self + .min_amounts + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::Array(v) + }, + ethabi::Token::Address( + ethabi::Address::from_slice(&self.receiver), + ), + ethabi::Token::Bool(self.claim_admin_fees.clone()), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for RemoveLiquidity3 { + const NAME: &'static str = "remove_liquidity3"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for RemoveLiquidity3 { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidityImbalance1 { + pub amounts: Vec, + pub max_burn_amount: substreams::scalar::BigInt, + } + impl RemoveLiquidityImbalance1 { + const METHOD_ID: [u8; 4] = [119u8, 6u8, 219u8, 117u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + amounts: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + max_burn_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let v = self + .amounts + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::Array(v) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.max_burn_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for RemoveLiquidityImbalance1 { + const NAME: &'static str = "remove_liquidity_imbalance1"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for RemoveLiquidityImbalance1 { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidityImbalance2 { + pub amounts: Vec, + pub max_burn_amount: substreams::scalar::BigInt, + pub receiver: Vec, + } + impl RemoveLiquidityImbalance2 { + const METHOD_ID: [u8; 4] = [74u8, 110u8, 50u8, 198u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Address, + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + amounts: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + max_burn_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + receiver: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let v = self + .amounts + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::Array(v) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.max_burn_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Address( + ethabi::Address::from_slice(&self.receiver), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for RemoveLiquidityImbalance2 { + const NAME: &'static str = "remove_liquidity_imbalance2"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for RemoveLiquidityImbalance2 { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidityOneCoin1 { + pub burn_amount: substreams::scalar::BigInt, + pub i: substreams::scalar::BigInt, + pub min_received: substreams::scalar::BigInt, + } + impl RemoveLiquidityOneCoin1 { + const METHOD_ID: [u8; 4] = [26u8, 77u8, 1u8, 210u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + burn_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + min_received: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.burn_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + { + let non_full_signed_bytes = self.i.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.min_received.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for RemoveLiquidityOneCoin1 { + const NAME: &'static str = "remove_liquidity_one_coin1"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for RemoveLiquidityOneCoin1 { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidityOneCoin2 { + pub burn_amount: substreams::scalar::BigInt, + pub i: substreams::scalar::BigInt, + pub min_received: substreams::scalar::BigInt, + pub receiver: Vec, + } + impl RemoveLiquidityOneCoin2 { + const METHOD_ID: [u8; 4] = [8u8, 21u8, 121u8, 165u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Address, + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + burn_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + min_received: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + receiver: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.burn_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + { + let non_full_signed_bytes = self.i.to_signed_bytes_be(); + let full_signed_bytes_init = if non_full_signed_bytes[0] + & 0x80 == 0x80 + { + 0xff + } else { + 0x00 + }; + let mut full_signed_bytes = [full_signed_bytes_init + as u8; 32]; + non_full_signed_bytes + .into_iter() + .rev() + .enumerate() + .for_each(|(i, byte)| full_signed_bytes[31 - i] = byte); + ethabi::Token::Int( + ethabi::Int::from_big_endian(full_signed_bytes.as_ref()), + ) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.min_received.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Address( + ethabi::Address::from_slice(&self.receiver), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for RemoveLiquidityOneCoin2 { + const NAME: &'static str = "remove_liquidity_one_coin2"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for RemoveLiquidityOneCoin2 { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Salt {} + impl Salt { + const METHOD_ID: [u8; 4] = [191u8, 160u8, 177u8, 51u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result<[u8; 32usize], String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result<[u8; 32usize], String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::FixedBytes(32usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut result = [0u8; 32]; + let v = values + .pop() + .expect("one output data should have existed") + .into_fixed_bytes() + .expect(INTERNAL_ERR); + result.copy_from_slice(&v); + result + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option<[u8; 32usize]> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Salt { + const NAME: &'static str = "salt"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable<[u8; 32usize]> for Salt { + fn output(data: &[u8]) -> Result<[u8; 32usize], String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetMaExpTime { + pub ma_exp_time: substreams::scalar::BigInt, + pub d_ma_time: substreams::scalar::BigInt, + } + impl SetMaExpTime { + const METHOD_ID: [u8; 4] = [101u8, 187u8, 234u8, 107u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + ma_exp_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + d_ma_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.ma_exp_time.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.d_ma_time.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetMaExpTime { + const NAME: &'static str = "set_ma_exp_time"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetNewFee { + pub new_fee: substreams::scalar::BigInt, + pub new_offpeg_fee_multiplier: substreams::scalar::BigInt, + } + impl SetNewFee { + const METHOD_ID: [u8; 4] = [1u8, 92u8, 40u8, 56u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + new_fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + new_offpeg_fee_multiplier: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.new_fee.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.new_offpeg_fee_multiplier.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetNewFee { + const NAME: &'static str = "set_new_fee"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct StopRampA {} + impl StopRampA { + const METHOD_ID: [u8; 4] = [85u8, 26u8, 101u8, 136u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for StopRampA { + const NAME: &'static str = "stop_ramp_A"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct StoredRates {} + impl StoredRates { + const METHOD_ID: [u8; 4] = [253u8, 6u8, 132u8, 177u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result, String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for StoredRates { + const NAME: &'static str = "stored_rates"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> + for StoredRates { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Symbol {} + impl Symbol { + const METHOD_ID: [u8; 4] = [149u8, 216u8, 155u8, 65u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::String], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_string() + .expect(INTERNAL_ERR), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Symbol { + const NAME: &'static str = "symbol"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for Symbol { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct TotalSupply {} + impl TotalSupply { + const METHOD_ID: [u8; 4] = [24u8, 22u8, 13u8, 221u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for TotalSupply { + const NAME: &'static str = "totalSupply"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for TotalSupply { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Transfer { + pub to: Vec, + pub value: substreams::scalar::BigInt, + } + impl Transfer { + const METHOD_ID: [u8; 4] = [169u8, 5u8, 156u8, 187u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + to: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + value: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address(ethabi::Address::from_slice(&self.to)), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.value.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Bool], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_bool() + .expect(INTERNAL_ERR), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Transfer { + const NAME: &'static str = "transfer"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for Transfer { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct TransferFrom { + pub from: Vec, + pub to: Vec, + pub value: substreams::scalar::BigInt, + } + impl TransferFrom { + const METHOD_ID: [u8; 4] = [35u8, 184u8, 114u8, 221u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Address, + ethabi::ParamType::Address, + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + from: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + to: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + value: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address(ethabi::Address::from_slice(&self.from)), + ethabi::Token::Address(ethabi::Address::from_slice(&self.to)), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.value.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Bool], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_bool() + .expect(INTERNAL_ERR), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for TransferFrom { + const NAME: &'static str = "transferFrom"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for TransferFrom { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Version {} + impl Version { + const METHOD_ID: [u8; 4] = [84u8, 253u8, 77u8, 80u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::String], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_string() + .expect(INTERNAL_ERR), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Version { + const NAME: &'static str = "version"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for Version { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct WithdrawAdminFees {} + impl WithdrawAdminFees { + const METHOD_ID: [u8; 4] = [48u8, 197u8, 64u8, 133u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for WithdrawAdminFees { + const NAME: &'static str = "withdraw_admin_fees"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + } + /// Contract's events. + #[allow(dead_code, unused_imports, unused_variables)] + pub mod events { + use super::INTERNAL_ERR; + #[derive(Debug, Clone, PartialEq)] + pub struct AddLiquidity { + pub provider: Vec, + pub token_amounts: Vec, + pub fees: Vec, + pub invariant: substreams::scalar::BigInt, + pub token_supply: substreams::scalar::BigInt, + } + impl AddLiquidity { + const TOPIC_ID: [u8; 32] = [ + 24u8, + 156u8, + 98u8, + 59u8, + 102u8, + 107u8, + 27u8, + 69u8, + 184u8, + 61u8, + 113u8, + 120u8, + 243u8, + 155u8, + 140u8, + 8u8, + 124u8, + 176u8, + 151u8, + 116u8, + 49u8, + 124u8, + 162u8, + 245u8, + 60u8, + 45u8, + 60u8, + 55u8, + 38u8, + 242u8, + 34u8, + 162u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 2usize { + return false; + } + if log.data.len() < 192usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + provider: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'provider' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + token_amounts: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + fees: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + invariant: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + token_supply: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for AddLiquidity { + const NAME: &'static str = "AddLiquidity"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct ApplyNewFee { + pub fee: substreams::scalar::BigInt, + pub offpeg_fee_multiplier: substreams::scalar::BigInt, + } + impl ApplyNewFee { + const TOPIC_ID: [u8; 32] = [ + 117u8, + 13u8, + 16u8, + 167u8, + 243u8, + 116u8, + 102u8, + 206u8, + 120u8, + 94u8, + 230u8, + 188u8, + 182u8, + 4u8, + 170u8, + 197u8, + 67u8, + 53u8, + 141u8, + 180u8, + 42u8, + 251u8, + 204u8, + 51u8, + 42u8, + 60u8, + 18u8, + 164u8, + 156u8, + 128u8, + 191u8, + 109u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 64usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + offpeg_fee_multiplier: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for ApplyNewFee { + const NAME: &'static str = "ApplyNewFee"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Approval { + pub owner: Vec, + pub spender: Vec, + pub value: substreams::scalar::BigInt, + } + impl Approval { + const TOPIC_ID: [u8; 32] = [ + 140u8, + 91u8, + 225u8, + 229u8, + 235u8, + 236u8, + 125u8, + 91u8, + 209u8, + 79u8, + 113u8, + 66u8, + 125u8, + 30u8, + 132u8, + 243u8, + 221u8, + 3u8, + 20u8, + 192u8, + 247u8, + 178u8, + 41u8, + 30u8, + 91u8, + 32u8, + 10u8, + 200u8, + 199u8, + 195u8, + 185u8, + 37u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 3usize { + return false; + } + if log.data.len() != 32usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + owner: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'owner' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + spender: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[2usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'spender' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + value: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for Approval { + const NAME: &'static str = "Approval"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RampA { + pub old_a: substreams::scalar::BigInt, + pub new_a: substreams::scalar::BigInt, + pub initial_time: substreams::scalar::BigInt, + pub future_time: substreams::scalar::BigInt, + } + impl RampA { + const TOPIC_ID: [u8; 32] = [ + 162u8, + 183u8, + 30u8, + 198u8, + 223u8, + 148u8, + 147u8, + 0u8, + 181u8, + 154u8, + 171u8, + 54u8, + 181u8, + 94u8, + 24u8, + 150u8, + 151u8, + 183u8, + 80u8, + 17u8, + 157u8, + 211u8, + 73u8, + 252u8, + 250u8, + 140u8, + 15u8, + 119u8, + 158u8, + 131u8, + 194u8, + 84u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 128usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + old_a: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + new_a: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + initial_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + future_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for RampA { + const NAME: &'static str = "RampA"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidity { + pub provider: Vec, + pub token_amounts: Vec, + pub fees: Vec, + pub token_supply: substreams::scalar::BigInt, + } + impl RemoveLiquidity { + const TOPIC_ID: [u8; 32] = [ + 52u8, + 122u8, + 216u8, + 40u8, + 229u8, + 140u8, + 190u8, + 83u8, + 77u8, + 143u8, + 107u8, + 103u8, + 152u8, + 93u8, + 121u8, + 19u8, + 96u8, + 117u8, + 107u8, + 24u8, + 240u8, + 217u8, + 95u8, + 217u8, + 241u8, + 151u8, + 166u8, + 108u8, + 196u8, + 100u8, + 128u8, + 234u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 2usize { + return false; + } + if log.data.len() < 160usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + provider: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'provider' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + token_amounts: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + fees: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + token_supply: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for RemoveLiquidity { + const NAME: &'static str = "RemoveLiquidity"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidityImbalance { + pub provider: Vec, + pub token_amounts: Vec, + pub fees: Vec, + pub invariant: substreams::scalar::BigInt, + pub token_supply: substreams::scalar::BigInt, + } + impl RemoveLiquidityImbalance { + const TOPIC_ID: [u8; 32] = [ + 54u8, + 49u8, + 194u8, + 139u8, + 31u8, + 157u8, + 210u8, + 19u8, + 224u8, + 49u8, + 159u8, + 177u8, + 103u8, + 181u8, + 84u8, + 215u8, + 107u8, + 108u8, + 40u8, + 58u8, + 65u8, + 20u8, + 62u8, + 180u8, + 0u8, + 160u8, + 209u8, + 173u8, + 177u8, + 175u8, + 23u8, + 85u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 2usize { + return false; + } + if log.data.len() < 192usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ethabi::ParamType::Array( + Box::new(ethabi::ParamType::Uint(256usize)), + ), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + provider: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'provider' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + token_amounts: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + fees: values + .pop() + .expect(INTERNAL_ERR) + .into_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + .collect(), + invariant: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + token_supply: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for RemoveLiquidityImbalance { + const NAME: &'static str = "RemoveLiquidityImbalance"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidityOne { + pub provider: Vec, + pub token_id: substreams::scalar::BigInt, + pub token_amount: substreams::scalar::BigInt, + pub coin_amount: substreams::scalar::BigInt, + pub token_supply: substreams::scalar::BigInt, + } + impl RemoveLiquidityOne { + const TOPIC_ID: [u8; 32] = [ + 111u8, + 72u8, + 18u8, + 157u8, + 177u8, + 243u8, + 124u8, + 203u8, + 156u8, + 197u8, + 221u8, + 126u8, + 17u8, + 156u8, + 179u8, + 39u8, + 80u8, + 202u8, + 189u8, + 247u8, + 91u8, + 72u8, + 55u8, + 93u8, + 115u8, + 13u8, + 38u8, + 206u8, + 54u8, + 89u8, + 187u8, + 225u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 2usize { + return false; + } + if log.data.len() != 128usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + provider: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'provider' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + token_id: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + token_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + coin_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + token_supply: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for RemoveLiquidityOne { + const NAME: &'static str = "RemoveLiquidityOne"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetNewMaTime { + pub ma_exp_time: substreams::scalar::BigInt, + pub d_ma_time: substreams::scalar::BigInt, + } + impl SetNewMaTime { + const TOPIC_ID: [u8; 32] = [ + 104u8, + 220u8, + 78u8, + 6u8, + 125u8, + 255u8, + 24u8, + 98u8, + 184u8, + 150u8, + 183u8, + 160u8, + 250u8, + 245u8, + 95u8, + 151u8, + 223u8, + 26u8, + 96u8, + 208u8, + 170u8, + 167u8, + 148u8, + 129u8, + 182u8, + 157u8, + 103u8, + 95u8, + 32u8, + 38u8, + 162u8, + 140u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 64usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + ma_exp_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + d_ma_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for SetNewMaTime { + const NAME: &'static str = "SetNewMATime"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct StopRampA { + pub a: substreams::scalar::BigInt, + pub t: substreams::scalar::BigInt, + } + impl StopRampA { + const TOPIC_ID: [u8; 32] = [ + 70u8, + 226u8, + 47u8, + 179u8, + 112u8, + 154u8, + 210u8, + 137u8, + 246u8, + 44u8, + 230u8, + 61u8, + 70u8, + 146u8, + 72u8, + 83u8, + 109u8, + 188u8, + 120u8, + 216u8, + 43u8, + 132u8, + 163u8, + 215u8, + 231u8, + 74u8, + 214u8, + 6u8, + 220u8, + 32u8, + 25u8, + 56u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 64usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + a: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + t: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for StopRampA { + const NAME: &'static str = "StopRampA"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct TokenExchange { + pub buyer: Vec, + pub sold_id: substreams::scalar::BigInt, + pub tokens_sold: substreams::scalar::BigInt, + pub bought_id: substreams::scalar::BigInt, + pub tokens_bought: substreams::scalar::BigInt, + } + impl TokenExchange { + const TOPIC_ID: [u8; 32] = [ + 139u8, + 62u8, + 150u8, + 242u8, + 184u8, + 137u8, + 250u8, + 119u8, + 28u8, + 83u8, + 201u8, + 129u8, + 180u8, + 13u8, + 175u8, + 0u8, + 95u8, + 99u8, + 246u8, + 55u8, + 241u8, + 134u8, + 159u8, + 112u8, + 112u8, + 82u8, + 209u8, + 90u8, + 61u8, + 217u8, + 113u8, + 64u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 2usize { + return false; + } + if log.data.len() != 128usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + buyer: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'buyer' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + sold_id: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + tokens_sold: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + bought_id: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + tokens_bought: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for TokenExchange { + const NAME: &'static str = "TokenExchange"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct TokenExchangeUnderlying { + pub buyer: Vec, + pub sold_id: substreams::scalar::BigInt, + pub tokens_sold: substreams::scalar::BigInt, + pub bought_id: substreams::scalar::BigInt, + pub tokens_bought: substreams::scalar::BigInt, + } + impl TokenExchangeUnderlying { + const TOPIC_ID: [u8; 32] = [ + 208u8, + 19u8, + 202u8, + 35u8, + 231u8, + 122u8, + 101u8, + 0u8, + 60u8, + 44u8, + 101u8, + 156u8, + 84u8, + 66u8, + 192u8, + 12u8, + 128u8, + 83u8, + 113u8, + 183u8, + 252u8, + 30u8, + 189u8, + 76u8, + 32u8, + 108u8, + 65u8, + 209u8, + 83u8, + 107u8, + 217u8, + 11u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 2usize { + return false; + } + if log.data.len() != 128usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Int(128usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + buyer: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'buyer' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + sold_id: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + tokens_sold: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + bought_id: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_int() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_signed_bytes_be(&v) + }, + tokens_bought: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for TokenExchangeUnderlying { + const NAME: &'static str = "TokenExchangeUnderlying"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Transfer { + pub sender: Vec, + pub receiver: Vec, + pub value: substreams::scalar::BigInt, + } + impl Transfer { + const TOPIC_ID: [u8; 32] = [ + 221u8, + 242u8, + 82u8, + 173u8, + 27u8, + 226u8, + 200u8, + 155u8, + 105u8, + 194u8, + 176u8, + 104u8, + 252u8, + 55u8, + 141u8, + 170u8, + 149u8, + 43u8, + 167u8, + 241u8, + 99u8, + 196u8, + 161u8, + 22u8, + 40u8, + 245u8, + 90u8, + 77u8, + 245u8, + 35u8, + 179u8, + 239u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 3usize { + return false; + } + if log.data.len() != 32usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + sender: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'sender' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + receiver: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[2usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'receiver' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + value: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for Transfer { + const NAME: &'static str = "Transfer"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + } \ No newline at end of file diff --git a/substreams/ethereum-curve/src/abi/pool_tricrypto2.rs b/substreams/ethereum-curve/src/abi/pool_tricrypto2.rs new file mode 100644 index 0000000..4156f17 --- /dev/null +++ b/substreams/ethereum-curve/src/abi/pool_tricrypto2.rs @@ -0,0 +1,7512 @@ + const INTERNAL_ERR: &'static str = "`ethabi_derive` internal error"; + /// Contract's functions. + #[allow(dead_code, unused_imports, unused_variables)] + pub mod functions { + use super::INTERNAL_ERR; + #[derive(Debug, Clone, PartialEq)] + pub struct A {} + impl A { + const METHOD_ID: [u8; 4] = [244u8, 70u8, 193u8, 208u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for A { + const NAME: &'static str = "A"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for A { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct D {} + impl D { + const METHOD_ID: [u8; 4] = [15u8, 82u8, 155u8, 162u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for D { + const NAME: &'static str = "D"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for D { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct AddLiquidity { + pub amounts: [substreams::scalar::BigInt; 3usize], + pub min_mint_amount: substreams::scalar::BigInt, + } + impl AddLiquidity { + const METHOD_ID: [u8; 4] = [69u8, 21u8, 206u8, 243u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Uint(256usize)), + 3usize, + ), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + amounts: { + let mut iter = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }, + min_mint_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let v = self + .amounts + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::FixedArray(v) + }, + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.min_mint_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for AddLiquidity { + const NAME: &'static str = "add_liquidity"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct AdjustmentStep {} + impl AdjustmentStep { + const METHOD_ID: [u8; 4] = [8u8, 56u8, 18u8, 229u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for AdjustmentStep { + const NAME: &'static str = "adjustment_step"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for AdjustmentStep { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct AdminActionsDeadline {} + impl AdminActionsDeadline { + const METHOD_ID: [u8; 4] = [64u8, 94u8, 40u8, 248u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for AdminActionsDeadline { + const NAME: &'static str = "admin_actions_deadline"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for AdminActionsDeadline { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct AdminFee {} + impl AdminFee { + const METHOD_ID: [u8; 4] = [254u8, 227u8, 247u8, 249u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for AdminFee { + const NAME: &'static str = "admin_fee"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for AdminFee { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct AdminFeeReceiver {} + impl AdminFeeReceiver { + const METHOD_ID: [u8; 4] = [110u8, 66u8, 228u8, 210u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for AdminFeeReceiver { + const NAME: &'static str = "admin_fee_receiver"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for AdminFeeReceiver { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct AllowedExtraProfit {} + impl AllowedExtraProfit { + const METHOD_ID: [u8; 4] = [73u8, 254u8, 158u8, 119u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for AllowedExtraProfit { + const NAME: &'static str = "allowed_extra_profit"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for AllowedExtraProfit { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct ApplyNewParameters {} + impl ApplyNewParameters { + const METHOD_ID: [u8; 4] = [42u8, 125u8, 215u8, 205u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for ApplyNewParameters { + const NAME: &'static str = "apply_new_parameters"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct ApplyTransferOwnership {} + impl ApplyTransferOwnership { + const METHOD_ID: [u8; 4] = [106u8, 28u8, 5u8, 174u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for ApplyTransferOwnership { + const NAME: &'static str = "apply_transfer_ownership"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Balances { + pub arg0: substreams::scalar::BigInt, + } + impl Balances { + const METHOD_ID: [u8; 4] = [73u8, 3u8, 176u8, 209u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.arg0.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Balances { + const NAME: &'static str = "balances"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for Balances { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct CalcTokenAmount { + pub amounts: [substreams::scalar::BigInt; 3usize], + pub deposit: bool, + } + impl CalcTokenAmount { + const METHOD_ID: [u8; 4] = [56u8, 131u8, 225u8, 25u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Uint(256usize)), + 3usize, + ), + ethabi::ParamType::Bool, + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + amounts: { + let mut iter = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }, + deposit: values + .pop() + .expect(INTERNAL_ERR) + .into_bool() + .expect(INTERNAL_ERR), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let v = self + .amounts + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::FixedArray(v) + }, + ethabi::Token::Bool(self.deposit.clone()), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for CalcTokenAmount { + const NAME: &'static str = "calc_token_amount"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for CalcTokenAmount { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct CalcTokenFee { + pub amounts: [substreams::scalar::BigInt; 3usize], + pub xp: [substreams::scalar::BigInt; 3usize], + } + impl CalcTokenFee { + const METHOD_ID: [u8; 4] = [205u8, 230u8, 153u8, 250u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Uint(256usize)), + 3usize, + ), + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Uint(256usize)), + 3usize, + ), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + amounts: { + let mut iter = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }, + xp: { + let mut iter = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let v = self + .amounts + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::FixedArray(v) + }, + { + let v = self + .xp + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::FixedArray(v) + }, + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for CalcTokenFee { + const NAME: &'static str = "calc_token_fee"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for CalcTokenFee { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct CalcWithdrawOneCoin { + pub token_amount: substreams::scalar::BigInt, + pub i: substreams::scalar::BigInt, + } + impl CalcWithdrawOneCoin { + const METHOD_ID: [u8; 4] = [79u8, 176u8, 140u8, 94u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + token_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.token_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.i.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for CalcWithdrawOneCoin { + const NAME: &'static str = "calc_withdraw_one_coin"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for CalcWithdrawOneCoin { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct ClaimAdminFees {} + impl ClaimAdminFees { + const METHOD_ID: [u8; 4] = [201u8, 63u8, 73u8, 232u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for ClaimAdminFees { + const NAME: &'static str = "claim_admin_fees"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Coins { + pub i: substreams::scalar::BigInt, + } + impl Coins { + const METHOD_ID: [u8; 4] = [198u8, 97u8, 6u8, 87u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.i.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Coins { + const NAME: &'static str = "coins"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for Coins { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct CommitNewParameters { + pub new_mid_fee: substreams::scalar::BigInt, + pub new_out_fee: substreams::scalar::BigInt, + pub new_admin_fee: substreams::scalar::BigInt, + pub new_fee_gamma: substreams::scalar::BigInt, + pub new_allowed_extra_profit: substreams::scalar::BigInt, + pub new_adjustment_step: substreams::scalar::BigInt, + pub new_ma_half_time: substreams::scalar::BigInt, + } + impl CommitNewParameters { + const METHOD_ID: [u8; 4] = [164u8, 60u8, 51u8, 81u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + new_mid_fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + new_out_fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + new_admin_fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + new_fee_gamma: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + new_allowed_extra_profit: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + new_adjustment_step: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + new_ma_half_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.new_mid_fee.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.new_out_fee.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.new_admin_fee.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.new_fee_gamma.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.new_allowed_extra_profit.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.new_adjustment_step.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.new_ma_half_time.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for CommitNewParameters { + const NAME: &'static str = "commit_new_parameters"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct CommitTransferOwnership { + pub owner: Vec, + } + impl CommitTransferOwnership { + const METHOD_ID: [u8; 4] = [107u8, 68u8, 26u8, 64u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + owner: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.owner))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for CommitTransferOwnership { + const NAME: &'static str = "commit_transfer_ownership"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Exchange1 { + pub i: substreams::scalar::BigInt, + pub j: substreams::scalar::BigInt, + pub dx: substreams::scalar::BigInt, + pub min_dy: substreams::scalar::BigInt, + } + impl Exchange1 { + const METHOD_ID: [u8; 4] = [91u8, 65u8, 185u8, 8u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + j: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + dx: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + min_dy: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.i.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.j.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.dx.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.min_dy.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for Exchange1 { + const NAME: &'static str = "exchange1"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Exchange2 { + pub i: substreams::scalar::BigInt, + pub j: substreams::scalar::BigInt, + pub dx: substreams::scalar::BigInt, + pub min_dy: substreams::scalar::BigInt, + pub use_eth: bool, + } + impl Exchange2 { + const METHOD_ID: [u8; 4] = [57u8, 71u8, 71u8, 197u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Bool, + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + j: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + dx: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + min_dy: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + use_eth: values + .pop() + .expect(INTERNAL_ERR) + .into_bool() + .expect(INTERNAL_ERR), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.i.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.j.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.dx.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.min_dy.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Bool(self.use_eth.clone()), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for Exchange2 { + const NAME: &'static str = "exchange2"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Fee {} + impl Fee { + const METHOD_ID: [u8; 4] = [221u8, 202u8, 63u8, 67u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Fee { + const NAME: &'static str = "fee"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for Fee { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FeeCalc { + pub xp: [substreams::scalar::BigInt; 3usize], + } + impl FeeCalc { + const METHOD_ID: [u8; 4] = [87u8, 46u8, 86u8, 37u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Uint(256usize)), + 3usize, + ), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + xp: { + let mut iter = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + { + let v = self + .xp + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::FixedArray(v) + }, + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FeeCalc { + const NAME: &'static str = "fee_calc"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for FeeCalc { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FeeGamma {} + impl FeeGamma { + const METHOD_ID: [u8; 4] = [114u8, 212u8, 240u8, 226u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FeeGamma { + const NAME: &'static str = "fee_gamma"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for FeeGamma { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureAGamma {} + impl FutureAGamma { + const METHOD_ID: [u8; 4] = [243u8, 12u8, 250u8, 213u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureAGamma { + const NAME: &'static str = "future_A_gamma"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for FutureAGamma { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureAGammaTime {} + impl FutureAGammaTime { + const METHOD_ID: [u8; 4] = [249u8, 237u8, 149u8, 151u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureAGammaTime { + const NAME: &'static str = "future_A_gamma_time"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for FutureAGammaTime { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureAdjustmentStep {} + impl FutureAdjustmentStep { + const METHOD_ID: [u8; 4] = [78u8, 161u8, 44u8, 125u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureAdjustmentStep { + const NAME: &'static str = "future_adjustment_step"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for FutureAdjustmentStep { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureAdminFee {} + impl FutureAdminFee { + const METHOD_ID: [u8; 4] = [227u8, 130u8, 68u8, 98u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureAdminFee { + const NAME: &'static str = "future_admin_fee"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for FutureAdminFee { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureAllowedExtraProfit {} + impl FutureAllowedExtraProfit { + const METHOD_ID: [u8; 4] = [114u8, 124u8, 237u8, 87u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureAllowedExtraProfit { + const NAME: &'static str = "future_allowed_extra_profit"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for FutureAllowedExtraProfit { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureFeeGamma {} + impl FutureFeeGamma { + const METHOD_ID: [u8; 4] = [215u8, 195u8, 220u8, 190u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureFeeGamma { + const NAME: &'static str = "future_fee_gamma"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for FutureFeeGamma { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureMaHalfTime {} + impl FutureMaHalfTime { + const METHOD_ID: [u8; 4] = [12u8, 94u8, 35u8, 212u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureMaHalfTime { + const NAME: &'static str = "future_ma_half_time"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for FutureMaHalfTime { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureMidFee {} + impl FutureMidFee { + const METHOD_ID: [u8; 4] = [124u8, 249u8, 174u8, 220u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureMidFee { + const NAME: &'static str = "future_mid_fee"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for FutureMidFee { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureOutFee {} + impl FutureOutFee { + const METHOD_ID: [u8; 4] = [125u8, 27u8, 6u8, 12u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureOutFee { + const NAME: &'static str = "future_out_fee"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for FutureOutFee { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureOwner {} + impl FutureOwner { + const METHOD_ID: [u8; 4] = [30u8, 192u8, 205u8, 193u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureOwner { + const NAME: &'static str = "future_owner"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for FutureOwner { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Gamma {} + impl Gamma { + const METHOD_ID: [u8; 4] = [177u8, 55u8, 57u8, 41u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Gamma { + const NAME: &'static str = "gamma"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for Gamma { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetDy { + pub i: substreams::scalar::BigInt, + pub j: substreams::scalar::BigInt, + pub dx: substreams::scalar::BigInt, + } + impl GetDy { + const METHOD_ID: [u8; 4] = [85u8, 109u8, 110u8, 159u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + j: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + dx: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.i.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.j.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.dx.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetDy { + const NAME: &'static str = "get_dy"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for GetDy { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetVirtualPrice {} + impl GetVirtualPrice { + const METHOD_ID: [u8; 4] = [187u8, 123u8, 139u8, 128u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetVirtualPrice { + const NAME: &'static str = "get_virtual_price"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for GetVirtualPrice { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct InitialAGamma {} + impl InitialAGamma { + const METHOD_ID: [u8; 4] = [32u8, 79u8, 227u8, 213u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for InitialAGamma { + const NAME: &'static str = "initial_A_gamma"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for InitialAGamma { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct InitialAGammaTime {} + impl InitialAGammaTime { + const METHOD_ID: [u8; 4] = [232u8, 152u8, 118u8, 255u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for InitialAGammaTime { + const NAME: &'static str = "initial_A_gamma_time"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for InitialAGammaTime { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct IsKilled {} + impl IsKilled { + const METHOD_ID: [u8; 4] = [156u8, 134u8, 138u8, 192u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Bool], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_bool() + .expect(INTERNAL_ERR), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for IsKilled { + const NAME: &'static str = "is_killed"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable for IsKilled { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct KillDeadline {} + impl KillDeadline { + const METHOD_ID: [u8; 4] = [42u8, 66u8, 104u8, 150u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for KillDeadline { + const NAME: &'static str = "kill_deadline"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for KillDeadline { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct KillMe {} + impl KillMe { + const METHOD_ID: [u8; 4] = [227u8, 105u8, 136u8, 83u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for KillMe { + const NAME: &'static str = "kill_me"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct LastPrices { + pub k: substreams::scalar::BigInt, + } + impl LastPrices { + const METHOD_ID: [u8; 4] = [89u8, 24u8, 144u8, 23u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + k: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.k.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for LastPrices { + const NAME: &'static str = "last_prices"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for LastPrices { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct LastPricesTimestamp {} + impl LastPricesTimestamp { + const METHOD_ID: [u8; 4] = [97u8, 18u8, 199u8, 71u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for LastPricesTimestamp { + const NAME: &'static str = "last_prices_timestamp"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for LastPricesTimestamp { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct MaHalfTime {} + impl MaHalfTime { + const METHOD_ID: [u8; 4] = [102u8, 43u8, 98u8, 116u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for MaHalfTime { + const NAME: &'static str = "ma_half_time"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for MaHalfTime { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct MidFee {} + impl MidFee { + const METHOD_ID: [u8; 4] = [146u8, 82u8, 108u8, 12u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for MidFee { + const NAME: &'static str = "mid_fee"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for MidFee { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct OutFee {} + impl OutFee { + const METHOD_ID: [u8; 4] = [238u8, 141u8, 230u8, 117u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for OutFee { + const NAME: &'static str = "out_fee"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for OutFee { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Owner {} + impl Owner { + const METHOD_ID: [u8; 4] = [141u8, 165u8, 203u8, 91u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Owner { + const NAME: &'static str = "owner"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for Owner { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct PriceOracle { + pub k: substreams::scalar::BigInt, + } + impl PriceOracle { + const METHOD_ID: [u8; 4] = [104u8, 114u8, 118u8, 83u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + k: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.k.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for PriceOracle { + const NAME: &'static str = "price_oracle"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for PriceOracle { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct PriceScale { + pub k: substreams::scalar::BigInt, + } + impl PriceScale { + const METHOD_ID: [u8; 4] = [163u8, 247u8, 205u8, 213u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + k: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.k.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for PriceScale { + const NAME: &'static str = "price_scale"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for PriceScale { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RampAGamma { + pub future_a: substreams::scalar::BigInt, + pub future_gamma: substreams::scalar::BigInt, + pub future_time: substreams::scalar::BigInt, + } + impl RampAGamma { + const METHOD_ID: [u8; 4] = [94u8, 36u8, 128u8, 114u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + future_a: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + future_gamma: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + future_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.future_a.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.future_gamma.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.future_time.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for RampAGamma { + const NAME: &'static str = "ramp_A_gamma"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidity { + pub amount: substreams::scalar::BigInt, + pub min_amounts: [substreams::scalar::BigInt; 3usize], + } + impl RemoveLiquidity { + const METHOD_ID: [u8; 4] = [236u8, 181u8, 134u8, 165u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Uint(256usize)), + 3usize, + ), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + min_amounts: { + let mut iter = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + { + let v = self + .min_amounts + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::FixedArray(v) + }, + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for RemoveLiquidity { + const NAME: &'static str = "remove_liquidity"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidityOneCoin { + pub token_amount: substreams::scalar::BigInt, + pub i: substreams::scalar::BigInt, + pub min_amount: substreams::scalar::BigInt, + } + impl RemoveLiquidityOneCoin { + const METHOD_ID: [u8; 4] = [241u8, 220u8, 60u8, 201u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + token_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + min_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.token_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.i.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.min_amount.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for RemoveLiquidityOneCoin { + const NAME: &'static str = "remove_liquidity_one_coin"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RevertNewParameters {} + impl RevertNewParameters { + const METHOD_ID: [u8; 4] = [34u8, 104u8, 64u8, 251u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for RevertNewParameters { + const NAME: &'static str = "revert_new_parameters"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RevertTransferOwnership {} + impl RevertTransferOwnership { + const METHOD_ID: [u8; 4] = [134u8, 251u8, 241u8, 147u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for RevertTransferOwnership { + const NAME: &'static str = "revert_transfer_ownership"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetAdminFeeReceiver { + pub admin_fee_receiver: Vec, + } + impl SetAdminFeeReceiver { + const METHOD_ID: [u8; 4] = [114u8, 66u8, 229u8, 36u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + admin_fee_receiver: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address( + ethabi::Address::from_slice(&self.admin_fee_receiver), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetAdminFeeReceiver { + const NAME: &'static str = "set_admin_fee_receiver"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct StopRampAGamma {} + impl StopRampAGamma { + const METHOD_ID: [u8; 4] = [36u8, 76u8, 124u8, 46u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for StopRampAGamma { + const NAME: &'static str = "stop_ramp_A_gamma"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Token {} + impl Token { + const METHOD_ID: [u8; 4] = [252u8, 12u8, 84u8, 106u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Token { + const NAME: &'static str = "token"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for Token { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct TransferOwnershipDeadline {} + impl TransferOwnershipDeadline { + const METHOD_ID: [u8; 4] = [224u8, 160u8, 181u8, 134u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for TransferOwnershipDeadline { + const NAME: &'static str = "transfer_ownership_deadline"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for TransferOwnershipDeadline { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct UnkillMe {} + impl UnkillMe { + const METHOD_ID: [u8; 4] = [48u8, 70u8, 249u8, 114u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for UnkillMe { + const NAME: &'static str = "unkill_me"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct VirtualPrice {} + impl VirtualPrice { + const METHOD_ID: [u8; 4] = [12u8, 70u8, 183u8, 42u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for VirtualPrice { + const NAME: &'static str = "virtual_price"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for VirtualPrice { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct XcpProfit {} + impl XcpProfit { + const METHOD_ID: [u8; 4] = [123u8, 161u8, 167u8, 77u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for XcpProfit { + const NAME: &'static str = "xcp_profit"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for XcpProfit { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct XcpProfitA {} + impl XcpProfitA { + const METHOD_ID: [u8; 4] = [11u8, 123u8, 89u8, 75u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for XcpProfitA { + const NAME: &'static str = "xcp_profit_a"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for XcpProfitA { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + } + /// Contract's events. + #[allow(dead_code, unused_imports, unused_variables)] + pub mod events { + use super::INTERNAL_ERR; + #[derive(Debug, Clone, PartialEq)] + pub struct AddLiquidity { + pub provider: Vec, + pub token_amounts: [substreams::scalar::BigInt; 3usize], + pub fee: substreams::scalar::BigInt, + pub token_supply: substreams::scalar::BigInt, + } + impl AddLiquidity { + const TOPIC_ID: [u8; 32] = [ + 150u8, + 180u8, + 134u8, + 72u8, + 84u8, + 32u8, + 185u8, + 99u8, + 237u8, + 211u8, + 253u8, + 236u8, + 11u8, + 1u8, + 149u8, + 115u8, + 0u8, + 53u8, + 96u8, + 15u8, + 235u8, + 125u8, + 230u8, + 245u8, + 68u8, + 56u8, + 61u8, + 121u8, + 80u8, + 250u8, + 151u8, + 238u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 2usize { + return false; + } + if log.data.len() != 160usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Uint(256usize)), + 3usize, + ), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + provider: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'provider' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + token_amounts: { + let mut iter = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }, + fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + token_supply: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for AddLiquidity { + const NAME: &'static str = "AddLiquidity"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct ClaimAdminFee { + pub admin: Vec, + pub tokens: substreams::scalar::BigInt, + } + impl ClaimAdminFee { + const TOPIC_ID: [u8; 32] = [ + 96u8, + 89u8, + 163u8, + 129u8, + 152u8, + 177u8, + 220u8, + 66u8, + 179u8, + 121u8, + 16u8, + 135u8, + 209u8, + 255u8, + 15u8, + 189u8, + 114u8, + 179u8, + 23u8, + 149u8, + 83u8, + 194u8, + 95u8, + 103u8, + 140u8, + 210u8, + 70u8, + 245u8, + 47u8, + 250u8, + 175u8, + 89u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 2usize { + return false; + } + if log.data.len() != 32usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + admin: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'admin' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + tokens: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for ClaimAdminFee { + const NAME: &'static str = "ClaimAdminFee"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct CommitNewAdmin { + pub deadline: substreams::scalar::BigInt, + pub admin: Vec, + } + impl CommitNewAdmin { + const TOPIC_ID: [u8; 32] = [ + 24u8, + 26u8, + 163u8, + 170u8, + 23u8, + 212u8, + 203u8, + 249u8, + 146u8, + 101u8, + 221u8, + 68u8, + 67u8, + 235u8, + 160u8, + 9u8, + 67u8, + 61u8, + 60u8, + 222u8, + 121u8, + 214u8, + 1u8, + 100u8, + 253u8, + 225u8, + 209u8, + 161u8, + 146u8, + 190u8, + 185u8, + 53u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 3usize { + return false; + } + if log.data.len() != 0usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Ok(Self { + deadline: { + let mut v = [0 as u8; 32]; + ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'deadline' from topic of type 'uint256': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + admin: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[2usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'admin' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for CommitNewAdmin { + const NAME: &'static str = "CommitNewAdmin"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct CommitNewParameters { + pub deadline: substreams::scalar::BigInt, + pub admin_fee: substreams::scalar::BigInt, + pub mid_fee: substreams::scalar::BigInt, + pub out_fee: substreams::scalar::BigInt, + pub fee_gamma: substreams::scalar::BigInt, + pub allowed_extra_profit: substreams::scalar::BigInt, + pub adjustment_step: substreams::scalar::BigInt, + pub ma_half_time: substreams::scalar::BigInt, + } + impl CommitNewParameters { + const TOPIC_ID: [u8; 32] = [ + 145u8, + 63u8, + 222u8, + 154u8, + 55u8, + 225u8, + 248u8, + 171u8, + 103u8, + 135u8, + 106u8, + 77u8, + 12u8, + 232u8, + 7u8, + 144u8, + 215u8, + 100u8, + 252u8, + 252u8, + 86u8, + 146u8, + 244u8, + 82u8, + 149u8, + 38u8, + 223u8, + 156u8, + 107u8, + 221u8, + 229u8, + 83u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 2usize { + return false; + } + if log.data.len() != 224usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + deadline: { + let mut v = [0 as u8; 32]; + ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'deadline' from topic of type 'uint256': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + admin_fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + mid_fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + out_fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + fee_gamma: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + allowed_extra_profit: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + adjustment_step: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + ma_half_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for CommitNewParameters { + const NAME: &'static str = "CommitNewParameters"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct NewAdmin { + pub admin: Vec, + } + impl NewAdmin { + const TOPIC_ID: [u8; 32] = [ + 113u8, + 97u8, + 64u8, + 113u8, + 184u8, + 141u8, + 238u8, + 94u8, + 11u8, + 42u8, + 229u8, + 120u8, + 169u8, + 221u8, + 123u8, + 46u8, + 187u8, + 233u8, + 174u8, + 131u8, + 43u8, + 164u8, + 25u8, + 220u8, + 2u8, + 66u8, + 205u8, + 6u8, + 90u8, + 41u8, + 11u8, + 108u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 2usize { + return false; + } + if log.data.len() != 0usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Ok(Self { + admin: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'admin' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for NewAdmin { + const NAME: &'static str = "NewAdmin"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct NewParameters { + pub admin_fee: substreams::scalar::BigInt, + pub mid_fee: substreams::scalar::BigInt, + pub out_fee: substreams::scalar::BigInt, + pub fee_gamma: substreams::scalar::BigInt, + pub allowed_extra_profit: substreams::scalar::BigInt, + pub adjustment_step: substreams::scalar::BigInt, + pub ma_half_time: substreams::scalar::BigInt, + } + impl NewParameters { + const TOPIC_ID: [u8; 32] = [ + 28u8, + 101u8, + 187u8, + 220u8, + 147u8, + 159u8, + 52u8, + 110u8, + 93u8, + 111u8, + 11u8, + 222u8, + 31u8, + 7u8, + 40u8, + 25u8, + 148u8, + 116u8, + 56u8, + 212u8, + 252u8, + 123u8, + 24u8, + 44u8, + 197u8, + 156u8, + 47u8, + 109u8, + 197u8, + 80u8, + 64u8, + 135u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 224usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + admin_fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + mid_fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + out_fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + fee_gamma: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + allowed_extra_profit: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + adjustment_step: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + ma_half_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for NewParameters { + const NAME: &'static str = "NewParameters"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RampAgamma { + pub initial_a: substreams::scalar::BigInt, + pub future_a: substreams::scalar::BigInt, + pub initial_gamma: substreams::scalar::BigInt, + pub future_gamma: substreams::scalar::BigInt, + pub initial_time: substreams::scalar::BigInt, + pub future_time: substreams::scalar::BigInt, + } + impl RampAgamma { + const TOPIC_ID: [u8; 32] = [ + 227u8, + 95u8, + 5u8, + 89u8, + 176u8, + 100u8, + 33u8, + 100u8, + 226u8, + 134u8, + 179u8, + 13u8, + 242u8, + 7u8, + 126u8, + 195u8, + 160u8, + 84u8, + 38u8, + 97u8, + 122u8, + 37u8, + 219u8, + 117u8, + 120u8, + 253u8, + 32u8, + 186u8, + 57u8, + 166u8, + 205u8, + 5u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 192usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + initial_a: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + future_a: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + initial_gamma: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + future_gamma: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + initial_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + future_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for RampAgamma { + const NAME: &'static str = "RampAgamma"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidity { + pub provider: Vec, + pub token_amounts: [substreams::scalar::BigInt; 3usize], + pub token_supply: substreams::scalar::BigInt, + } + impl RemoveLiquidity { + const TOPIC_ID: [u8; 32] = [ + 214u8, + 204u8, + 49u8, + 74u8, + 11u8, + 30u8, + 59u8, + 37u8, + 121u8, + 248u8, + 230u8, + 66u8, + 72u8, + 232u8, + 36u8, + 52u8, + 7u8, + 46u8, + 130u8, + 113u8, + 41u8, + 14u8, + 239u8, + 138u8, + 208u8, + 136u8, + 103u8, + 9u8, + 48u8, + 65u8, + 149u8, + 245u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 2usize { + return false; + } + if log.data.len() != 128usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Uint(256usize)), + 3usize, + ), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + provider: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'provider' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + token_amounts: { + let mut iter = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }, + token_supply: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for RemoveLiquidity { + const NAME: &'static str = "RemoveLiquidity"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct RemoveLiquidityOne { + pub provider: Vec, + pub token_amount: substreams::scalar::BigInt, + pub coin_index: substreams::scalar::BigInt, + pub coin_amount: substreams::scalar::BigInt, + } + impl RemoveLiquidityOne { + const TOPIC_ID: [u8; 32] = [ + 90u8, + 208u8, + 86u8, + 242u8, + 226u8, + 138u8, + 140u8, + 236u8, + 35u8, + 32u8, + 21u8, + 64u8, + 107u8, + 132u8, + 54u8, + 104u8, + 193u8, + 227u8, + 108u8, + 218u8, + 89u8, + 129u8, + 39u8, + 236u8, + 59u8, + 140u8, + 89u8, + 184u8, + 199u8, + 39u8, + 115u8, + 160u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 2usize { + return false; + } + if log.data.len() != 96usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + provider: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'provider' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + token_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + coin_index: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + coin_amount: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for RemoveLiquidityOne { + const NAME: &'static str = "RemoveLiquidityOne"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct StopRampA { + pub current_a: substreams::scalar::BigInt, + pub current_gamma: substreams::scalar::BigInt, + pub time: substreams::scalar::BigInt, + } + impl StopRampA { + const TOPIC_ID: [u8; 32] = [ + 95u8, + 14u8, + 127u8, + 186u8, + 61u8, + 16u8, + 12u8, + 158u8, + 25u8, + 68u8, + 110u8, + 28u8, + 146u8, + 254u8, + 67u8, + 111u8, + 10u8, + 154u8, + 34u8, + 254u8, + 153u8, + 102u8, + 147u8, + 96u8, + 228u8, + 253u8, + 214u8, + 211u8, + 222u8, + 47u8, + 194u8, + 132u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 96usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + current_a: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + current_gamma: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for StopRampA { + const NAME: &'static str = "StopRampA"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct TokenExchange { + pub buyer: Vec, + pub sold_id: substreams::scalar::BigInt, + pub tokens_sold: substreams::scalar::BigInt, + pub bought_id: substreams::scalar::BigInt, + pub tokens_bought: substreams::scalar::BigInt, + } + impl TokenExchange { + const TOPIC_ID: [u8; 32] = [ + 178u8, + 231u8, + 106u8, + 233u8, + 151u8, + 97u8, + 220u8, + 19u8, + 110u8, + 89u8, + 141u8, + 74u8, + 98u8, + 155u8, + 179u8, + 71u8, + 236u8, + 203u8, + 149u8, + 50u8, + 165u8, + 248u8, + 187u8, + 215u8, + 46u8, + 24u8, + 70u8, + 124u8, + 60u8, + 52u8, + 204u8, + 152u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 2usize { + return false; + } + if log.data.len() != 128usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + buyer: ethabi::decode( + &[ethabi::ParamType::Address], + log.topics[1usize].as_ref(), + ) + .map_err(|e| { + format!( + "unable to decode param 'buyer' from topic of type 'address': {:?}", + e + ) + })? + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + sold_id: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + tokens_sold: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + bought_id: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + tokens_bought: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + } + impl substreams_ethereum::Event for TokenExchange { + const NAME: &'static str = "TokenExchange"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + } \ No newline at end of file diff --git a/substreams/ethereum-curve/src/abi/tricrypto_factory.rs b/substreams/ethereum-curve/src/abi/tricrypto_factory.rs new file mode 100644 index 0000000..1ee6521 --- /dev/null +++ b/substreams/ethereum-curve/src/abi/tricrypto_factory.rs @@ -0,0 +1,3785 @@ + const INTERNAL_ERR: &'static str = "`ethabi_derive` internal error"; + /// Contract's functions. + #[allow(dead_code, unused_imports, unused_variables)] + pub mod functions { + use super::INTERNAL_ERR; + #[derive(Debug, Clone, PartialEq)] + pub struct AcceptTransferOwnership {} + impl AcceptTransferOwnership { + const METHOD_ID: [u8; 4] = [229u8, 234u8, 71u8, 184u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for AcceptTransferOwnership { + const NAME: &'static str = "accept_transfer_ownership"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct Admin {} + impl Admin { + const METHOD_ID: [u8; 4] = [248u8, 81u8, 164u8, 64u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for Admin { + const NAME: &'static str = "admin"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for Admin { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct CommitTransferOwnership { + pub addr: Vec, + } + impl CommitTransferOwnership { + const METHOD_ID: [u8; 4] = [107u8, 68u8, 26u8, 64u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + addr: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.addr))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for CommitTransferOwnership { + const NAME: &'static str = "commit_transfer_ownership"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct DeployGauge { + pub pool: Vec, + } + impl DeployGauge { + const METHOD_ID: [u8; 4] = [150u8, 190u8, 187u8, 52u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for DeployGauge { + const NAME: &'static str = "deploy_gauge"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for DeployGauge { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct DeployPool { + pub name: String, + pub symbol: String, + pub coins: [Vec; 3usize], + pub weth: Vec, + pub implementation_id: substreams::scalar::BigInt, + pub a: substreams::scalar::BigInt, + pub gamma: substreams::scalar::BigInt, + pub mid_fee: substreams::scalar::BigInt, + pub out_fee: substreams::scalar::BigInt, + pub fee_gamma: substreams::scalar::BigInt, + pub allowed_extra_profit: substreams::scalar::BigInt, + pub adjustment_step: substreams::scalar::BigInt, + pub ma_exp_time: substreams::scalar::BigInt, + pub initial_prices: [substreams::scalar::BigInt; 2usize], + } + impl DeployPool { + const METHOD_ID: [u8; 4] = [170u8, 56u8, 179u8, 133u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::String, + ethabi::ParamType::String, + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Address), + 3usize, + ), + ethabi::ParamType::Address, + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Uint(256usize)), + 2usize, + ), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + name: values + .pop() + .expect(INTERNAL_ERR) + .into_string() + .expect(INTERNAL_ERR), + symbol: values + .pop() + .expect(INTERNAL_ERR) + .into_string() + .expect(INTERNAL_ERR), + coins: { + let mut iter = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + inner + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec() + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }, + weth: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + implementation_id: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + a: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + gamma: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + mid_fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + out_fee: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + fee_gamma: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + allowed_extra_profit: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + adjustment_step: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + ma_exp_time: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + initial_prices: { + let mut iter = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::String(self.name.clone()), + ethabi::Token::String(self.symbol.clone()), + { + let v = self + .coins + .iter() + .map(|inner| ethabi::Token::Address( + ethabi::Address::from_slice(&inner), + )) + .collect(); + ethabi::Token::FixedArray(v) + }, + ethabi::Token::Address(ethabi::Address::from_slice(&self.weth)), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.implementation_id.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.a.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.gamma.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.mid_fee.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.out_fee.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.fee_gamma.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.allowed_extra_profit.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.adjustment_step.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.ma_exp_time.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + { + let v = self + .initial_prices + .iter() + .map(|inner| ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match inner.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + )) + .collect(); + ethabi::Token::FixedArray(v) + }, + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for DeployPool { + const NAME: &'static str = "deploy_pool"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for DeployPool { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FeeReceiver {} + impl FeeReceiver { + const METHOD_ID: [u8; 4] = [202u8, 180u8, 211u8, 219u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FeeReceiver { + const NAME: &'static str = "fee_receiver"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for FeeReceiver { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FindPoolForCoins1 { + pub from: Vec, + pub to: Vec, + } + impl FindPoolForCoins1 { + const METHOD_ID: [u8; 4] = [168u8, 125u8, 240u8, 108u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + from: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + to: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address(ethabi::Address::from_slice(&self.from)), + ethabi::Token::Address(ethabi::Address::from_slice(&self.to)), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FindPoolForCoins1 { + const NAME: &'static str = "find_pool_for_coins1"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for FindPoolForCoins1 { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FindPoolForCoins2 { + pub from: Vec, + pub to: Vec, + pub i: substreams::scalar::BigInt, + } + impl FindPoolForCoins2 { + const METHOD_ID: [u8; 4] = [105u8, 130u8, 235u8, 11u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Address, + ethabi::ParamType::Address, + ethabi::ParamType::Uint(256usize), + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + from: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + to: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + i: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address(ethabi::Address::from_slice(&self.from)), + ethabi::Token::Address(ethabi::Address::from_slice(&self.to)), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.i.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FindPoolForCoins2 { + const NAME: &'static str = "find_pool_for_coins2"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for FindPoolForCoins2 { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct FutureAdmin {} + impl FutureAdmin { + const METHOD_ID: [u8; 4] = [23u8, 247u8, 24u8, 42u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for FutureAdmin { + const NAME: &'static str = "future_admin"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for FutureAdmin { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GaugeImplementation {} + impl GaugeImplementation { + const METHOD_ID: [u8; 4] = [141u8, 242u8, 66u8, 7u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GaugeImplementation { + const NAME: &'static str = "gauge_implementation"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for GaugeImplementation { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetBalances { + pub pool: Vec, + } + impl GetBalances { + const METHOD_ID: [u8; 4] = [146u8, 227u8, 204u8, 45u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result<[substreams::scalar::BigInt; 3usize], String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result<[substreams::scalar::BigInt; 3usize], String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Uint(256usize)), + 3usize, + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut iter = values + .pop() + .expect("one output data should have existed") + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option<[substreams::scalar::BigInt; 3usize]> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetBalances { + const NAME: &'static str = "get_balances"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable<[substreams::scalar::BigInt; 3usize]> + for GetBalances { + fn output( + data: &[u8], + ) -> Result<[substreams::scalar::BigInt; 3usize], String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetCoinIndices { + pub pool: Vec, + pub from: Vec, + pub to: Vec, + } + impl GetCoinIndices { + const METHOD_ID: [u8; 4] = [235u8, 133u8, 34u8, 109u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Address, + ethabi::ParamType::Address, + ethabi::ParamType::Address, + ], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + from: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + to: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address(ethabi::Address::from_slice(&self.pool)), + ethabi::Token::Address(ethabi::Address::from_slice(&self.from)), + ethabi::Token::Address(ethabi::Address::from_slice(&self.to)), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result< + (substreams::scalar::BigInt, substreams::scalar::BigInt), + String, + > { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result< + (substreams::scalar::BigInt, substreams::scalar::BigInt), + String, + > { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + values.reverse(); + Ok(( + { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + )) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option<(substreams::scalar::BigInt, substreams::scalar::BigInt)> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetCoinIndices { + const NAME: &'static str = "get_coin_indices"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable< + (substreams::scalar::BigInt, substreams::scalar::BigInt), + > for GetCoinIndices { + fn output( + data: &[u8], + ) -> Result< + (substreams::scalar::BigInt, substreams::scalar::BigInt), + String, + > { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetCoins { + pub pool: Vec, + } + impl GetCoins { + const METHOD_ID: [u8; 4] = [154u8, 201u8, 13u8, 61u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result<[Vec; 3usize], String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result<[Vec; 3usize], String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Address), + 3usize, + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut iter = values + .pop() + .expect("one output data should have existed") + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + inner.into_address().expect(INTERNAL_ERR).as_bytes().to_vec() + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option<[Vec; 3usize]> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetCoins { + const NAME: &'static str = "get_coins"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable<[Vec; 3usize]> for GetCoins { + fn output(data: &[u8]) -> Result<[Vec; 3usize], String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetDecimals { + pub pool: Vec, + } + impl GetDecimals { + const METHOD_ID: [u8; 4] = [82u8, 181u8, 21u8, 85u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result<[substreams::scalar::BigInt; 3usize], String> { + Self::output(call.return_data.as_ref()) + } + pub fn output( + data: &[u8], + ) -> Result<[substreams::scalar::BigInt; 3usize], String> { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Uint(256usize)), + 3usize, + ), + ], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut iter = values + .pop() + .expect("one output data should have existed") + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + let mut v = [0 as u8; 32]; + inner + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call( + &self, + address: Vec, + ) -> Option<[substreams::scalar::BigInt; 3usize]> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetDecimals { + const NAME: &'static str = "get_decimals"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable<[substreams::scalar::BigInt; 3usize]> + for GetDecimals { + fn output( + data: &[u8], + ) -> Result<[substreams::scalar::BigInt; 3usize], String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetGauge { + pub pool: Vec, + } + impl GetGauge { + const METHOD_ID: [u8; 4] = [218u8, 242u8, 151u8, 185u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ethabi::Token::Address(ethabi::Address::from_slice(&self.pool))], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetGauge { + const NAME: &'static str = "get_gauge"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for GetGauge { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct GetMarketCounts { + pub coin_a: Vec, + pub coin_b: Vec, + } + impl GetMarketCounts { + const METHOD_ID: [u8; 4] = [193u8, 133u8, 107u8, 82u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + coin_a: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + coin_b: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address( + ethabi::Address::from_slice(&self.coin_a), + ), + ethabi::Token::Address(ethabi::Address::from_slice(&self.coin_b)), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for GetMarketCounts { + const NAME: &'static str = "get_market_counts"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for GetMarketCounts { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct MathImplementation {} + impl MathImplementation { + const METHOD_ID: [u8; 4] = [161u8, 60u8, 143u8, 129u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for MathImplementation { + const NAME: &'static str = "math_implementation"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for MathImplementation { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct PoolCount {} + impl PoolCount { + const METHOD_ID: [u8; 4] = [149u8, 106u8, 174u8, 58u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok({ + let mut v = [0 as u8; 32]; + values + .pop() + .expect("one output data should have existed") + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for PoolCount { + const NAME: &'static str = "pool_count"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable + for PoolCount { + fn output(data: &[u8]) -> Result { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct PoolImplementations { + pub arg0: substreams::scalar::BigInt, + } + impl PoolImplementations { + const METHOD_ID: [u8; 4] = [50u8, 115u8, 255u8, 71u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.arg0.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for PoolImplementations { + const NAME: &'static str = "pool_implementations"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for PoolImplementations { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct PoolList { + pub arg0: substreams::scalar::BigInt, + } + impl PoolList { + const METHOD_ID: [u8; 4] = [58u8, 29u8, 93u8, 142u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + arg0: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.arg0.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for PoolList { + const NAME: &'static str = "pool_list"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for PoolList { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetFeeReceiver { + pub fee_receiver: Vec, + } + impl SetFeeReceiver { + const METHOD_ID: [u8; 4] = [228u8, 26u8, 183u8, 113u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + fee_receiver: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address( + ethabi::Address::from_slice(&self.fee_receiver), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetFeeReceiver { + const NAME: &'static str = "set_fee_receiver"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetGaugeImplementation { + pub gauge_implementation: Vec, + } + impl SetGaugeImplementation { + const METHOD_ID: [u8; 4] = [143u8, 3u8, 24u8, 44u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + gauge_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address( + ethabi::Address::from_slice(&self.gauge_implementation), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetGaugeImplementation { + const NAME: &'static str = "set_gauge_implementation"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetMathImplementation { + pub math_implementation: Vec, + } + impl SetMathImplementation { + const METHOD_ID: [u8; 4] = [176u8, 116u8, 38u8, 244u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + math_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address( + ethabi::Address::from_slice(&self.math_implementation), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetMathImplementation { + const NAME: &'static str = "set_math_implementation"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetPoolImplementation { + pub pool_implementation: Vec, + pub implementation_index: substreams::scalar::BigInt, + } + impl SetPoolImplementation { + const METHOD_ID: [u8; 4] = [111u8, 56u8, 95u8, 246u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Uint(256usize)], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + pool_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + implementation_index: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address( + ethabi::Address::from_slice(&self.pool_implementation), + ), + ethabi::Token::Uint( + ethabi::Uint::from_big_endian( + match self.implementation_index.clone().to_bytes_be() { + (num_bigint::Sign::Plus, bytes) => bytes, + (num_bigint::Sign::NoSign, bytes) => bytes, + (num_bigint::Sign::Minus, _) => { + panic!("negative numbers are not supported") + } + } + .as_slice(), + ), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetPoolImplementation { + const NAME: &'static str = "set_pool_implementation"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct SetViewsImplementation { + pub views_implementation: Vec, + } + impl SetViewsImplementation { + const METHOD_ID: [u8; 4] = [246u8, 250u8, 147u8, 127u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + let maybe_data = call.input.get(4..); + if maybe_data.is_none() { + return Err("no data to decode".to_string()); + } + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + maybe_data.unwrap(), + ) + .map_err(|e| format!("unable to decode call.input: {:?}", e))?; + values.reverse(); + Ok(Self { + views_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode( + &[ + ethabi::Token::Address( + ethabi::Address::from_slice(&self.views_implementation), + ), + ], + ); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + } + impl substreams_ethereum::Function for SetViewsImplementation { + const NAME: &'static str = "set_views_implementation"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct ViewsImplementation {} + impl ViewsImplementation { + const METHOD_ID: [u8; 4] = [227u8, 21u8, 147u8, 216u8]; + pub fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Ok(Self {}) + } + pub fn encode(&self) -> Vec { + let data = ethabi::encode(&[]); + let mut encoded = Vec::with_capacity(4 + data.len()); + encoded.extend(Self::METHOD_ID); + encoded.extend(data); + encoded + } + pub fn output_call( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result, String> { + Self::output(call.return_data.as_ref()) + } + pub fn output(data: &[u8]) -> Result, String> { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address], + data.as_ref(), + ) + .map_err(|e| format!("unable to decode output data: {:?}", e))?; + Ok( + values + .pop() + .expect("one output data should have existed") + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + ) + } + pub fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + match call.input.get(0..4) { + Some(signature) => Self::METHOD_ID == signature, + None => false, + } + } + pub fn call(&self, address: Vec) -> Option> { + use substreams_ethereum::pb::eth::rpc; + let rpc_calls = rpc::RpcCalls { + calls: vec![ + rpc::RpcCall { to_addr : address, data : self.encode(), } + ], + }; + let responses = substreams_ethereum::rpc::eth_call(&rpc_calls).responses; + let response = responses + .get(0) + .expect("one response should have existed"); + if response.failed { + return None; + } + match Self::output(response.raw.as_ref()) { + Ok(data) => Some(data), + Err(err) => { + use substreams_ethereum::Function; + substreams::log::info!( + "Call output for function `{}` failed to decode with error: {}", + Self::NAME, err + ); + None + } + } + } + } + impl substreams_ethereum::Function for ViewsImplementation { + const NAME: &'static str = "views_implementation"; + fn match_call(call: &substreams_ethereum::pb::eth::v2::Call) -> bool { + Self::match_call(call) + } + fn decode( + call: &substreams_ethereum::pb::eth::v2::Call, + ) -> Result { + Self::decode(call) + } + fn encode(&self) -> Vec { + self.encode() + } + } + impl substreams_ethereum::rpc::RPCDecodable> for ViewsImplementation { + fn output(data: &[u8]) -> Result, String> { + Self::output(data) + } + } + } + /// Contract's events. + #[allow(dead_code, unused_imports, unused_variables)] + pub mod events { + use super::INTERNAL_ERR; + #[derive(Debug, Clone, PartialEq)] + pub struct LiquidityGaugeDeployed { + pub pool: Vec, + pub gauge: Vec, + } + impl LiquidityGaugeDeployed { + const TOPIC_ID: [u8; 32] = [ + 101u8, + 107u8, + 179u8, + 76u8, + 32u8, + 73u8, + 25u8, + 112u8, + 168u8, + 193u8, + 99u8, + 243u8, + 189u8, + 98u8, + 234u8, + 216u8, + 32u8, + 34u8, + 179u8, + 121u8, + 195u8, + 146u8, + 73u8, + 96u8, + 236u8, + 96u8, + 246u8, + 219u8, + 252u8, + 90u8, + 171u8, + 59u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 64usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Address], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + gauge: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for LiquidityGaugeDeployed { + const NAME: &'static str = "LiquidityGaugeDeployed"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct TransferOwnership { + pub old_owner: Vec, + pub new_owner: Vec, + } + impl TransferOwnership { + const TOPIC_ID: [u8; 32] = [ + 92u8, + 72u8, + 101u8, + 40u8, + 236u8, + 62u8, + 63u8, + 14u8, + 169u8, + 17u8, + 129u8, + 207u8, + 248u8, + 17u8, + 111u8, + 2u8, + 191u8, + 163u8, + 80u8, + 224u8, + 59u8, + 139u8, + 111u8, + 18u8, + 224u8, + 7u8, + 101u8, + 173u8, + 187u8, + 90u8, + 248u8, + 92u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 64usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Address], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + old_owner: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + new_owner: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for TransferOwnership { + const NAME: &'static str = "TransferOwnership"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct TricryptoPoolDeployed { + pub pool: Vec, + pub name: String, + pub symbol: String, + pub weth: Vec, + pub coins: [Vec; 3usize], + pub math: Vec, + pub salt: [u8; 32usize], + pub packed_precisions: substreams::scalar::BigInt, + pub packed_a_gamma: substreams::scalar::BigInt, + pub packed_fee_params: substreams::scalar::BigInt, + pub packed_rebalancing_params: substreams::scalar::BigInt, + pub packed_prices: substreams::scalar::BigInt, + pub deployer: Vec, + } + impl TricryptoPoolDeployed { + const TOPIC_ID: [u8; 32] = [ + 163u8, + 7u8, + 245u8, + 208u8, + 128u8, + 36u8, + 137u8, + 186u8, + 221u8, + 236u8, + 68u8, + 48u8, + 88u8, + 166u8, + 60u8, + 225u8, + 21u8, + 117u8, + 109u8, + 233u8, + 2u8, + 14u8, + 43u8, + 7u8, + 211u8, + 226u8, + 205u8, + 47u8, + 33u8, + 38u8, + 158u8, + 42u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() < 544usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Address, + ethabi::ParamType::String, + ethabi::ParamType::String, + ethabi::ParamType::Address, + ethabi::ParamType::FixedArray( + Box::new(ethabi::ParamType::Address), + 3usize, + ), + ethabi::ParamType::Address, + ethabi::ParamType::FixedBytes(32usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Address, + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + pool: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + name: values + .pop() + .expect(INTERNAL_ERR) + .into_string() + .expect(INTERNAL_ERR), + symbol: values + .pop() + .expect(INTERNAL_ERR) + .into_string() + .expect(INTERNAL_ERR), + weth: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + coins: { + let mut iter = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_array() + .expect(INTERNAL_ERR) + .into_iter() + .map(|inner| { + inner + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec() + }); + [ + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + iter.next().expect(INTERNAL_ERR), + ] + }, + math: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + salt: { + let mut result = [0u8; 32]; + let v = values + .pop() + .expect(INTERNAL_ERR) + .into_fixed_bytes() + .expect(INTERNAL_ERR); + result.copy_from_slice(&v); + result + }, + packed_precisions: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + packed_a_gamma: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + packed_fee_params: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + packed_rebalancing_params: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + packed_prices: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + deployer: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for TricryptoPoolDeployed { + const NAME: &'static str = "TricryptoPoolDeployed"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct UpdateFeeReceiver { + pub old_fee_receiver: Vec, + pub new_fee_receiver: Vec, + } + impl UpdateFeeReceiver { + const TOPIC_ID: [u8; 32] = [ + 40u8, + 97u8, + 68u8, + 134u8, + 120u8, + 240u8, + 190u8, + 103u8, + 241u8, + 27u8, + 251u8, + 84u8, + 129u8, + 179u8, + 227u8, + 180u8, + 207u8, + 235u8, + 58u8, + 204u8, + 97u8, + 38u8, + 173u8, + 96u8, + 160u8, + 95u8, + 149u8, + 191u8, + 198u8, + 83u8, + 6u8, + 102u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 64usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Address], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + old_fee_receiver: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + new_fee_receiver: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for UpdateFeeReceiver { + const NAME: &'static str = "UpdateFeeReceiver"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct UpdateGaugeImplementation { + pub old_gauge_implementation: Vec, + pub new_gauge_implementation: Vec, + } + impl UpdateGaugeImplementation { + const TOPIC_ID: [u8; 32] = [ + 31u8, + 215u8, + 5u8, + 249u8, + 199u8, + 112u8, + 83u8, + 150u8, + 42u8, + 80u8, + 63u8, + 47u8, + 47u8, + 87u8, + 240u8, + 134u8, + 43u8, + 76u8, + 58u8, + 246u8, + 135u8, + 194u8, + 86u8, + 21u8, + 193u8, + 56u8, + 23u8, + 168u8, + 105u8, + 70u8, + 195u8, + 89u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 64usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Address], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + old_gauge_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + new_gauge_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for UpdateGaugeImplementation { + const NAME: &'static str = "UpdateGaugeImplementation"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct UpdateMathImplementation { + pub old_math_implementation: Vec, + pub new_math_implementation: Vec, + } + impl UpdateMathImplementation { + const TOPIC_ID: [u8; 32] = [ + 104u8, + 254u8, + 143u8, + 195u8, + 172u8, + 118u8, + 236u8, + 23u8, + 226u8, + 17u8, + 23u8, + 223u8, + 94u8, + 133u8, + 76u8, + 140u8, + 37u8, + 183u8, + 181u8, + 247u8, + 118u8, + 170u8, + 210u8, + 173u8, + 201u8, + 39u8, + 253u8, + 209u8, + 86u8, + 188u8, + 214u8, + 222u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 64usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Address], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + old_math_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + new_math_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for UpdateMathImplementation { + const NAME: &'static str = "UpdateMathImplementation"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct UpdatePoolImplementation { + pub implemention_id: substreams::scalar::BigInt, + pub old_pool_implementation: Vec, + pub new_pool_implementation: Vec, + } + impl UpdatePoolImplementation { + const TOPIC_ID: [u8; 32] = [ + 106u8, + 66u8, + 239u8, + 150u8, + 5u8, + 225u8, + 53u8, + 175u8, + 175u8, + 106u8, + 228u8, + 243u8, + 104u8, + 59u8, + 22u8, + 26u8, + 59u8, + 115u8, + 105u8, + 208u8, + 124u8, + 157u8, + 82u8, + 199u8, + 1u8, + 171u8, + 105u8, + 85u8, + 62u8, + 4u8, + 195u8, + 182u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 96usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ + ethabi::ParamType::Uint(256usize), + ethabi::ParamType::Address, + ethabi::ParamType::Address, + ], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + implemention_id: { + let mut v = [0 as u8; 32]; + values + .pop() + .expect(INTERNAL_ERR) + .into_uint() + .expect(INTERNAL_ERR) + .to_big_endian(v.as_mut_slice()); + substreams::scalar::BigInt::from_unsigned_bytes_be(&v) + }, + old_pool_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + new_pool_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for UpdatePoolImplementation { + const NAME: &'static str = "UpdatePoolImplementation"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + #[derive(Debug, Clone, PartialEq)] + pub struct UpdateViewsImplementation { + pub old_views_implementation: Vec, + pub new_views_implementation: Vec, + } + impl UpdateViewsImplementation { + const TOPIC_ID: [u8; 32] = [ + 216u8, + 78u8, + 177u8, + 234u8, + 112u8, + 205u8, + 164u8, + 10u8, + 107u8, + 250u8, + 161u8, + 31u8, + 79u8, + 105u8, + 239u8, + 161u8, + 12u8, + 188u8, + 94u8, + 184u8, + 39u8, + 96u8, + 179u8, + 5u8, + 143u8, + 68u8, + 5u8, + 18u8, + 236u8, + 29u8, + 109u8, + 31u8, + ]; + pub fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + if log.topics.len() != 1usize { + return false; + } + if log.data.len() != 64usize { + return false; + } + return log.topics.get(0).expect("bounds already checked").as_ref() + == Self::TOPIC_ID; + } + pub fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + let mut values = ethabi::decode( + &[ethabi::ParamType::Address, ethabi::ParamType::Address], + log.data.as_ref(), + ) + .map_err(|e| format!("unable to decode log.data: {:?}", e))?; + values.reverse(); + Ok(Self { + old_views_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + new_views_implementation: values + .pop() + .expect(INTERNAL_ERR) + .into_address() + .expect(INTERNAL_ERR) + .as_bytes() + .to_vec(), + }) + } + } + impl substreams_ethereum::Event for UpdateViewsImplementation { + const NAME: &'static str = "UpdateViewsImplementation"; + fn match_log(log: &substreams_ethereum::pb::eth::v2::Log) -> bool { + Self::match_log(log) + } + fn decode( + log: &substreams_ethereum::pb::eth::v2::Log, + ) -> Result { + Self::decode(log) + } + } + } \ No newline at end of file diff --git a/substreams/ethereum-curve/src/modules.rs b/substreams/ethereum-curve/src/modules.rs index 255b6e0..f557320 100644 --- a/substreams/ethereum-curve/src/modules.rs +++ b/substreams/ethereum-curve/src/modules.rs @@ -227,7 +227,7 @@ pub fn map_protocol_changes( &block, |addr| { components_store - .get_last(format!("pool:0x{0}", hex::encode(addr))) + .get_last(format!("pool:{0}", hex::encode(addr))) .is_some() }, &mut transaction_contract_changes, diff --git a/substreams/ethereum-curve/src/pool_changes.rs b/substreams/ethereum-curve/src/pool_changes.rs index e665b86..ae59779 100644 --- a/substreams/ethereum-curve/src/pool_changes.rs +++ b/substreams/ethereum-curve/src/pool_changes.rs @@ -75,6 +75,46 @@ pub fn emit_deltas( }, log, ) + } else if let Some(event) = abi::pool_tricrypto2::events::TokenExchange::match_and_decode(log) { + token_change_deltas( + tokens, + abi::pool::events::TokenExchange { + sold_id: event.sold_id, + bought_id: event.bought_id, + tokens_sold: event.tokens_sold, + tokens_bought: event.tokens_bought, + buyer: event.buyer, + }, + log, + ) + } else if let Some(event) = + abi::pool_crypto_swap_ng::events::TokenExchange::match_and_decode(log) + { + token_change_deltas( + tokens, + abi::pool::events::TokenExchange { + sold_id: event.sold_id, + bought_id: event.bought_id, + tokens_sold: event.tokens_sold, + tokens_bought: event.tokens_bought, + buyer: event.buyer, + }, + log, + ) + } else if let Some(event) = + abi::pool_crypto_swap_ng::events::TokenExchangeUnderlying::match_and_decode(log) + { + token_change_deltas( + tokens, + abi::pool::events::TokenExchange { + sold_id: event.sold_id, + bought_id: event.bought_id, + tokens_sold: event.tokens_sold, + tokens_bought: event.tokens_bought, + buyer: event.buyer, + }, + log, + ) } else if let Some(event) = abi::pool::events::AddLiquidity::match_and_decode(log) { add_liquidity_deltas(event.token_amounts.into(), &tokens, log) } else if let Some(event) = abi::pool_3pool::events::AddLiquidity::match_and_decode(log) { @@ -83,6 +123,12 @@ pub fn emit_deltas( add_liquidity_deltas(event.token_amounts.into(), &tokens, log) } else if let Some(event) = abi::pool_tricrypto::events::AddLiquidity::match_and_decode(log) { add_liquidity_deltas(event.token_amounts.into(), &tokens, log) + } else if let Some(event) = abi::pool_tricrypto2::events::AddLiquidity::match_and_decode(log) { + add_liquidity_deltas(event.token_amounts.into(), &tokens, log) + } else if let Some(event) = + abi::pool_crypto_swap_ng::events::AddLiquidity::match_and_decode(log) + { + add_liquidity_deltas(event.token_amounts.into(), &tokens, log) } else if let Some(event) = abi::pool::events::RemoveLiquidity::match_and_decode(log) { remove_liquidity_deltas(event.token_amounts.into(), &tokens, log) } else if let Some(event) = abi::pool_3pool::events::RemoveLiquidity::match_and_decode(log) { @@ -92,6 +138,36 @@ pub fn emit_deltas( } else if let Some(event) = abi::pool_tricrypto::events::RemoveLiquidity::match_and_decode(log) { remove_liquidity_deltas(event.token_amounts.into(), &tokens, log) + } else if let Some(event) = abi::pool_tricrypto2::events::RemoveLiquidity::match_and_decode(log) + { + remove_liquidity_deltas(event.token_amounts.into(), &tokens, log) + } else if let Some(event) = + abi::pool_crypto_swap_ng::events::RemoveLiquidity::match_and_decode(log) + { + remove_liquidity_deltas(event.token_amounts.into(), &tokens, log) + // } else if let Some(event) = + // abi::pool_crypto_swap_ng::events::RemoveLiquidityImbalance::match_and_decode(log) + // { + // remove_liquidity_deltas(event.token_amounts.into(), &tokens, log) + // } else if let Some(event) = + // abi::pool_crypto_swap_ng::events::RemoveLiquidityOne::match_and_decode(log) + // { + // Some(vec![ + // BalanceDelta { + // ord: log.log.ordinal, + // tx: Some(tx_from_log(&log)), + // token: hex::decode(sold_token_id.clone()).unwrap(), + // delta: event.tokens_sold.to_signed_bytes_be(), + // component_id: hex::encode(log.address()).into(), + // }, + // BalanceDelta { + // ord: log.log.ordinal, + // tx: Some(tx_from_log(&log)), + // token: hex::decode(sold_token_id.clone()).unwrap(), + // delta: event.tokens_sold.to_signed_bytes_be(), + // component_id: hex::encode(log.address()).into(), + // }, + // ]) } else { None } @@ -152,12 +228,15 @@ fn remove_liquidity_deltas( amounts .iter() .zip(tokens) - .map(move |(token_amount, token_id)| BalanceDelta { - ord: log.log.ordinal, - tx: Some(tx_from_log(&log)), - token: hex::decode(token_id).unwrap(), - delta: token_amount.to_signed_bytes_be(), - component_id: hex::encode(log.address()).into(), + .map(move |(token_amount, token_id)| { + let token_amount_neg: BigInt = token_amount.clone() * -1; + BalanceDelta { + ord: log.log.ordinal, + tx: Some(tx_from_log(&log)), + token: hex::decode(token_id).unwrap(), + delta: token_amount_neg.to_signed_bytes_be(), + component_id: hex::encode(log.address()).into(), + } }) .collect::>(), ) diff --git a/substreams/ethereum-curve/src/pool_factories.rs b/substreams/ethereum-curve/src/pool_factories.rs index 35ff6d9..70c7dd7 100644 --- a/substreams/ethereum-curve/src/pool_factories.rs +++ b/substreams/ethereum-curve/src/pool_factories.rs @@ -16,6 +16,8 @@ const CRYPTO_SWAP_REGISTRY: [u8; 20] = hex!("897888115Ada5773E02aA29F775430BFB5F const MAIN_REGISTRY: [u8; 20] = hex!("90E00ACe148ca3b23Ac1bC8C240C2a7Dd9c2d7f5"); const CRYPTO_POOL_FACTORY: [u8; 20] = hex!("F18056Bbd320E96A48e3Fbf8bC061322531aac99"); const META_POOL_FACTORY: [u8; 20] = hex!("B9fC157394Af804a3578134A6585C0dc9cc990d4"); +const CRYPTO_SWAP_NG_FACTORY: [u8; 20] = hex!("6A8cbed756804B16E05E741eDaBd5cB544AE21bf"); +const TRICRYPTO_FACTORY: [u8; 20] = hex!("0c0e5f2fF0ff18a3be9b835635039256dC4B4963"); /// This trait defines some helpers for serializing and deserializing `Vec` which is needed /// to be able to encode some of the `Attribute`s. This should also be handled by any downstream @@ -174,9 +176,9 @@ pub fn address_map( // We need to perform an eth_call in order to actually get the pool's tokens let coins_function = - abi::crypto_swap_registry::functions::GetCoins { pool: add_pool.pool }; + abi::main_registry::functions::GetCoins { pool: add_pool.pool }; - let coins = coins_function.call(CRYPTO_SWAP_REGISTRY.to_vec())?; + let coins = coins_function.call(MAIN_REGISTRY.to_vec())?; let trimmed_coins: Vec<_> = coins .get(0..add_pool.n_coins.to_i32() as usize) .unwrap_or(&[]) @@ -227,7 +229,7 @@ pub fn address_map( let component_id = &call.return_data[12..]; Some(ProtocolComponent { - id: format!("0x{0}", hex::encode(component_id)), + id: hex::encode(component_id), tx: Some(Transaction { to: tx.to.clone(), from: tx.from.clone(), @@ -354,7 +356,7 @@ pub fn address_map( let component_id = &call.return_data[12..]; Some(ProtocolComponent { - id: format!("0x{0}", hex::encode(component_id)), + id: hex::encode(component_id), tx: Some(Transaction { to: tx.to.clone(), from: tx.from.clone(), @@ -442,6 +444,143 @@ pub fn address_map( None } } + CRYPTO_SWAP_NG_FACTORY => { + if let Some(pool_added) = + abi::crypto_swap_ng_factory::events::PlainPoolDeployed::match_and_decode(log) + { + let add_pool = + abi::crypto_swap_ng_factory::functions::DeployPlainPool::match_and_decode( + call, + )?; + let component_id = &call.return_data[12..]; + Some(ProtocolComponent { + id: hex::encode(component_id), + tx: Some(Transaction { + to: tx.to.clone(), + from: tx.from.clone(), + hash: tx.hash.clone(), + index: tx.index.into(), + }), + tokens: pool_added.coins.into(), + contracts: vec![component_id.into()], + static_att: vec![ + Attribute { + name: "pool_type".into(), + value: "Pool".into(), + change: ChangeType::Creation.into(), + }, + Attribute { + name: "name".into(), + value: add_pool.name.into(), + change: ChangeType::Creation.into(), + }, + Attribute { + name: "fee".into(), + value: pool_added.fee.to_string().into(), + change: ChangeType::Creation.into(), + }, + Attribute { + name: "a".into(), + value: pool_added.a.to_string().into(), + change: ChangeType::Creation.into(), + }, + ], + change: ChangeType::Creation.into(), + protocol_type: Some(ProtocolType { + name: "crypto_swap_ng".into(), + financial_type: FinancialType::Swap.into(), + attribute_schema: Vec::new(), + implementation_type: ImplementationType::Vm.into(), + }), + }) + } else if let Some(pool_added) = + abi::crypto_swap_ng_factory::events::MetaPoolDeployed::match_and_decode(log) + { + let add_pool = + abi::crypto_swap_ng_factory::functions::DeployMetapool::match_and_decode(call)?; + let component_id = &call.return_data[12..]; + Some(ProtocolComponent { + id: hex::encode(component_id), + tx: Some(Transaction { + to: tx.to.clone(), + from: tx.from.clone(), + hash: tx.hash.clone(), + index: tx.index.into(), + }), + tokens: vec![pool_added.coin, pool_added.base_pool], + contracts: vec![component_id.into()], + static_att: vec![ + Attribute { + name: "pool_type".into(), + value: "Pool".into(), + change: ChangeType::Creation.into(), + }, + Attribute { + name: "name".into(), + value: add_pool.name.into(), + change: ChangeType::Creation.into(), + }, + Attribute { + name: "fee".into(), + value: pool_added.fee.to_string().into(), + change: ChangeType::Creation.into(), + }, + Attribute { + name: "a".into(), + value: pool_added.a.to_string().into(), + change: ChangeType::Creation.into(), + }, + ], + change: ChangeType::Creation.into(), + protocol_type: Some(ProtocolType { + name: "crypto_swap_ng".into(), + financial_type: FinancialType::Swap.into(), + attribute_schema: Vec::new(), + implementation_type: ImplementationType::Vm.into(), + }), + }) + } else { + None + } + } + TRICRYPTO_FACTORY => { + if let Some(pool_added) = + abi::tricrypto_factory::events::TricryptoPoolDeployed::match_and_decode(log) + { + Some(ProtocolComponent { + id: hex::encode(&pool_added.pool), + tx: Some(Transaction { + to: tx.to.clone(), + from: tx.from.clone(), + hash: tx.hash.clone(), + index: tx.index.into(), + }), + tokens: pool_added.coins.into(), + contracts: vec![pool_added.pool.into()], + static_att: vec![ + Attribute { + name: "pool_type".into(), + value: "Pool".into(), + change: ChangeType::Creation.into(), + }, + Attribute { + name: "name".into(), + value: pool_added.name.into(), + change: ChangeType::Creation.into(), + }, + ], + change: ChangeType::Creation.into(), + protocol_type: Some(ProtocolType { + name: "tricrypto".into(), + financial_type: FinancialType::Swap.into(), + attribute_schema: Vec::new(), + implementation_type: ImplementationType::Vm.into(), + }), + }) + } else { + None + } + } _ => None, } } diff --git a/substreams/ethereum-curve/src/pools.rs b/substreams/ethereum-curve/src/pools.rs index 9e2ad9b..d4f7b7f 100644 --- a/substreams/ethereum-curve/src/pools.rs +++ b/substreams/ethereum-curve/src/pools.rs @@ -89,11 +89,11 @@ fn create_component( } } -fn parse_params(params: &String) -> Result, anyhow::Error> { +fn parse_params(params: &str) -> Result, anyhow::Error> { let pools: HashMap = params .split(PARAMS_SEPERATOR) .map(|param| { - let pool: PoolQueryParams = serde_qs::from_str(¶m) + let pool: PoolQueryParams = serde_qs::from_str(param) .with_context(|| format!("Failed to parse pool query params: {0}", param))?; Ok((pool.tx_hash.clone(), pool)) }) diff --git a/substreams/ethereum-curve/substreams.yaml b/substreams/ethereum-curve/substreams.yaml index 4adba5b..e0224a9 100644 --- a/substreams/ethereum-curve/substreams.yaml +++ b/substreams/ethereum-curve/substreams.yaml @@ -19,7 +19,7 @@ binaries: modules: - name: map_components kind: map - initialBlock: 19355224 + initialBlock: 18830232 inputs: - params: string - source: sf.ethereum.type.v2.Block @@ -28,7 +28,7 @@ modules: - name: store_components kind: store - initialBlock: 19355224 + initialBlock: 18830232 updatePolicy: add valueType: int64 inputs: @@ -36,7 +36,7 @@ modules: - name: store_component_tokens kind: store - initialBlock: 19355224 + initialBlock: 18830232 updatePolicy: set valueType: string inputs: @@ -44,7 +44,7 @@ modules: - name: map_relative_balances kind: map - initialBlock: 19355224 # An arbitrary block that should change based on your requirements + initialBlock: 18830232 # An arbitrary block that should change based on your requirements inputs: - source: sf.ethereum.type.v2.Block - store: store_components @@ -54,7 +54,7 @@ modules: - name: store_balances kind: store - initialBlock: 19355224 + initialBlock: 18830232 updatePolicy: add valueType: bigint inputs: @@ -62,7 +62,7 @@ modules: - name: map_protocol_changes kind: map - initialBlock: 19355224 + initialBlock: 18830232 inputs: - source: sf.ethereum.type.v2.Block - map: map_components