Liquidity.Party/tycho-execution
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tycho-execution/tests/optimized_transfers_integration_tests.rs

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use std::{collections::HashMap, str::FromStr, sync::Arc};
use alloy::hex::encode;
use num_bigint::{BigInt, BigUint};
use tycho_common::{models::protocol::ProtocolComponent, Bytes};
use tycho_execution::encoding::{
evm::{
testing_utils::MockRFQState,
utils::{biguint_to_u256, write_calldata_to_file},
},
models::{Solution, SwapBuilder, UserTransferType},
};
use crate::common::{
alice_address, bob_address, encoding::encode_tycho_router_call, eth, eth_chain, get_signer,
get_tycho_router_encoder, usdc, wbtc, weth,
};
mod common;
// In this module we test the ability to chain swaps or not. Different protocols are
// tested. The encoded data is used for solidity tests as well
#[test]
fn test_uniswap_v3_uniswap_v2() {
// Note: This test does not assert anything. It is only used to obtain
// integration test data for our router solidity test.
//
// Performs a sequential swap from WETH to USDC though WBTC using USV3 and USV2
// pools
//
// WETH ───(USV3)──> WBTC ───(USV2)──> USDC
let weth = weth();
let wbtc = Bytes::from_str("0x2260fac5e5542a773aa44fbcfedf7c193bc2c599").unwrap();
let usdc = Bytes::from_str("0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48").unwrap();
let swap_weth_wbtc = SwapBuilder::new(
ProtocolComponent {
id: "0xCBCdF9626bC03E24f779434178A73a0B4bad62eD".to_string(),
protocol_system: "uniswap_v3".to_string(),
static_attributes: {
let mut attrs = HashMap::new();
attrs.insert(
"fee".to_string(),
Bytes::from(BigInt::from(3000).to_signed_bytes_be()),
);
attrs
},
..Default::default()
},
weth.clone(),
wbtc.clone(),
)
.build();
let swap_wbtc_usdc = SwapBuilder::new(
ProtocolComponent {
id: "0x004375Dff511095CC5A197A54140a24eFEF3A416".to_string(),
protocol_system: "uniswap_v2".to_string(),
..Default::default()
},
wbtc.clone(),
usdc.clone(),
)
.build();
let encoder = get_tycho_router_encoder(UserTransferType::TransferFrom);
let solution = Solution {
exact_out: false,
given_token: weth,
given_amount: BigUint::from_str("1_000000000000000000").unwrap(),
checked_token: usdc,
checked_amount: BigUint::from_str("26173932").unwrap(),
sender: Bytes::from_str("0xcd09f75E2BF2A4d11F3AB23f1389FcC1621c0cc2").unwrap(),
receiver: Bytes::from_str("0xcd09f75E2BF2A4d11F3AB23f1389FcC1621c0cc2").unwrap(),
swaps: vec![swap_weth_wbtc, swap_wbtc_usdc],
..Default::default()
};
let encoded_solution = encoder
.encode_solutions(vec![solution.clone()])
.unwrap()[0]
.clone();
let calldata = encode_tycho_router_call(
eth_chain().id(),
encoded_solution,
&solution,
&UserTransferType::TransferFrom,
&eth(),
None,
)
.unwrap()
.data;
let hex_calldata = encode(&calldata);
write_calldata_to_file("test_uniswap_v3_uniswap_v2", hex_calldata.as_str());
}
#[test]
fn test_uniswap_v3_uniswap_v3() {
// Note: This test does not assert anything. It is only used to obtain
// integration test data for our router solidity test.
//
// Performs a sequential swap from WETH to USDC though WBTC using USV3 pools
// There is no optimization between the two USV3 pools, this is currently not
// supported.
//
// WETH ───(USV3)──> WBTC ───(USV3)──> USDC
let weth = weth();
let wbtc = Bytes::from_str("0x2260fac5e5542a773aa44fbcfedf7c193bc2c599").unwrap();
let usdc = Bytes::from_str("0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48").unwrap();
let swap_weth_wbtc = SwapBuilder::new(
ProtocolComponent {
id: "0xCBCdF9626bC03E24f779434178A73a0B4bad62eD".to_string(),
protocol_system: "uniswap_v3".to_string(),
static_attributes: {
let mut attrs = HashMap::new();
attrs.insert(
"fee".to_string(),
Bytes::from(BigInt::from(3000).to_signed_bytes_be()),
);
attrs
},
..Default::default()
},
weth.clone(),
wbtc.clone(),
)
.build();
let swap_wbtc_usdc = SwapBuilder::new(
ProtocolComponent {
id: "0x99ac8cA7087fA4A2A1FB6357269965A2014ABc35".to_string(),
protocol_system: "uniswap_v3".to_string(),
static_attributes: {
let mut attrs = HashMap::new();
attrs.insert(
"fee".to_string(),
Bytes::from(BigInt::from(3000).to_signed_bytes_be()),
);
attrs
},
..Default::default()
},
wbtc.clone(),
usdc.clone(),
)
.build();
let encoder = get_tycho_router_encoder(UserTransferType::TransferFrom);
let solution = Solution {
exact_out: false,
given_token: weth,
given_amount: BigUint::from_str("1_000000000000000000").unwrap(),
checked_token: usdc,
checked_amount: BigUint::from_str("26173932").unwrap(),
sender: Bytes::from_str("0xcd09f75E2BF2A4d11F3AB23f1389FcC1621c0cc2").unwrap(),
receiver: Bytes::from_str("0xcd09f75E2BF2A4d11F3AB23f1389FcC1621c0cc2").unwrap(),
swaps: vec![swap_weth_wbtc, swap_wbtc_usdc],
..Default::default()
};
let encoded_solution = encoder
.encode_solutions(vec![solution.clone()])
.unwrap()[0]
.clone();
let calldata = encode_tycho_router_call(
eth_chain().id(),
encoded_solution,
&solution,
&UserTransferType::TransferFrom,
&eth(),
None,
)
.unwrap()
.data;
let hex_calldata = encode(&calldata);
write_calldata_to_file("test_uniswap_v3_uniswap_v3", hex_calldata.as_str());
}
#[test]
fn test_uniswap_v3_curve() {
// Note: This test does not assert anything. It is only used to obtain
// integration test data for our router solidity test.
//
// Performs a sequential swap from WETH to USDT though WBTC using USV3 and curve
// pools
//
// WETH ───(USV3)──> WBTC ───(curve)──> USDT
let weth = weth();
let wbtc = Bytes::from_str("0x2260fac5e5542a773aa44fbcfedf7c193bc2c599").unwrap();
let usdt = Bytes::from_str("0xdAC17F958D2ee523a2206206994597C13D831ec7").unwrap();
let swap_weth_wbtc = SwapBuilder::new(
ProtocolComponent {
id: "0xCBCdF9626bC03E24f779434178A73a0B4bad62eD".to_string(),
protocol_system: "uniswap_v3".to_string(),
static_attributes: {
let mut attrs = HashMap::new();
attrs.insert(
"fee".to_string(),
Bytes::from(BigInt::from(3000).to_signed_bytes_be()),
);
attrs
},
..Default::default()
},
weth.clone(),
wbtc.clone(),
)
.build();
let swap_wbtc_usdt = SwapBuilder::new(
ProtocolComponent {
id: String::from("0xD51a44d3FaE010294C616388b506AcdA1bfAAE46"),
protocol_system: String::from("vm:curve"),
static_attributes: {
let mut attrs: HashMap<String, Bytes> = HashMap::new();
attrs.insert(
"factory".into(),
Bytes::from(
"0x0000000000000000000000000000000000000000"
.as_bytes()
.to_vec(),
),
);
attrs.insert(
"coins".into(),
Bytes::from_str("0x5b22307864616331376639353864326565353233613232303632303639393435393763313364383331656337222c22307832323630666163356535353432613737336161343466626366656466376331393362633263353939222c22307863303261616133396232323366653864306130653563346632376561643930383363373536636332225d")
.unwrap(),
);
attrs
},
..Default::default()
},
wbtc.clone(),
usdt.clone(),
).build();
let encoder = get_tycho_router_encoder(UserTransferType::TransferFrom);
let solution = Solution {
exact_out: false,
given_token: weth,
given_amount: BigUint::from_str("1_000000000000000000").unwrap(),
checked_token: usdt,
checked_amount: BigUint::from_str("26173932").unwrap(),
sender: Bytes::from_str("0xcd09f75E2BF2A4d11F3AB23f1389FcC1621c0cc2").unwrap(),
receiver: Bytes::from_str("0xcd09f75E2BF2A4d11F3AB23f1389FcC1621c0cc2").unwrap(),
swaps: vec![swap_weth_wbtc, swap_wbtc_usdt],
..Default::default()
};
let encoded_solution = encoder
.encode_solutions(vec![solution.clone()])
.unwrap()[0]
.clone();
let calldata = encode_tycho_router_call(
eth_chain().id(),
encoded_solution,
&solution,
&UserTransferType::TransferFrom,
&eth(),
None,
)
.unwrap()
.data;
let hex_calldata = encode(&calldata);
write_calldata_to_file("test_uniswap_v3_curve", hex_calldata.as_str());
}
#[test]
fn test_balancer_v2_uniswap_v2() {
// Note: This test does not assert anything. It is only used to obtain
// integration test data for our router solidity test.
//
// Performs a sequential swap from WETH to USDC though WBTC using balancer and
// USV2 pools
//
// WETH ───(balancer)──> WBTC ───(USV2)──> USDC
let weth = weth();
let wbtc = Bytes::from_str("0x2260fac5e5542a773aa44fbcfedf7c193bc2c599").unwrap();
let usdc = Bytes::from_str("0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48").unwrap();
let swap_weth_wbtc = SwapBuilder::new(
ProtocolComponent {
id: "0xa6f548df93de924d73be7d25dc02554c6bd66db500020000000000000000000e".to_string(),
protocol_system: "vm:balancer_v2".to_string(),
..Default::default()
},
weth.clone(),
wbtc.clone(),
)
.build();
let swap_wbtc_usdc = SwapBuilder::new(
ProtocolComponent {
id: "0x004375Dff511095CC5A197A54140a24eFEF3A416".to_string(),
protocol_system: "uniswap_v2".to_string(),
..Default::default()
},
wbtc.clone(),
usdc.clone(),
)
.build();
let encoder = get_tycho_router_encoder(UserTransferType::TransferFrom);
let solution = Solution {
exact_out: false,
given_token: weth,
given_amount: BigUint::from_str("1_000000000000000000").unwrap(),
checked_token: usdc,
checked_amount: BigUint::from_str("26173932").unwrap(),
sender: Bytes::from_str("0xcd09f75E2BF2A4d11F3AB23f1389FcC1621c0cc2").unwrap(),
receiver: Bytes::from_str("0xcd09f75E2BF2A4d11F3AB23f1389FcC1621c0cc2").unwrap(),
swaps: vec![swap_weth_wbtc, swap_wbtc_usdc],
..Default::default()
};
let encoded_solution = encoder
.encode_solutions(vec![solution.clone()])
.unwrap()[0]
.clone();
let calldata = encode_tycho_router_call(
eth_chain().id(),
encoded_solution,
&solution,
&UserTransferType::TransferFrom,
&eth(),
None,
)
.unwrap()
.data;
let hex_calldata = encode(&calldata);
write_calldata_to_file("test_balancer_v2_uniswap_v2", hex_calldata.as_str());
}
#[test]
fn test_multi_protocol() {
// Note: This test does not assert anything. It is only used to obtain
// integration test data for our router solidity test.
//
// Performs the following swap:
//
// DAI ─(USV2)-> WETH ─(bal)─> WBTC ─(curve)─> USDT ─(ekubo)─> USDC ─(USV4)─>
// ETH
let weth = weth();
let eth = eth();
let wbtc = Bytes::from_str("0x2260fac5e5542a773aa44fbcfedf7c193bc2c599").unwrap();
let usdc = Bytes::from_str("0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48").unwrap();
let usdt = Bytes::from_str("0xdAC17F958D2ee523a2206206994597C13D831ec7").unwrap();
let dai = Bytes::from_str("0x6B175474E89094C44Da98b954EedeAC495271d0F").unwrap();
let usv2_swap_dai_weth = SwapBuilder::new(
ProtocolComponent {
id: "0xA478c2975Ab1Ea89e8196811F51A7B7Ade33eB11".to_string(),
protocol_system: "uniswap_v2".to_string(),
..Default::default()
},
dai.clone(),
weth.clone(),
)
.build();
let balancer_swap_weth_wbtc = SwapBuilder::new(
ProtocolComponent {
id: "0xa6f548df93de924d73be7d25dc02554c6bd66db500020000000000000000000e".to_string(),
protocol_system: "vm:balancer_v2".to_string(),
..Default::default()
},
weth.clone(),
wbtc.clone(),
)
.build();
let curve_swap_wbtc_usdt = SwapBuilder::new(
ProtocolComponent {
id: String::from("0xD51a44d3FaE010294C616388b506AcdA1bfAAE46"),
protocol_system: String::from("vm:curve"),
static_attributes: {
let mut attrs: HashMap<String, Bytes> = HashMap::new();
attrs.insert(
"factory".into(),
Bytes::from(
"0x0000000000000000000000000000000000000000"
.as_bytes()
.to_vec(),
),
);
attrs.insert(
"coins".into(),
Bytes::from_str("0x5b22307864616331376639353864326565353233613232303632303639393435393763313364383331656337222c22307832323630666163356535353432613737336161343466626366656466376331393362633263353939222c22307863303261616133396232323366653864306130653563346632376561643930383363373536636332225d")
.unwrap(),
);
attrs
},
..Default::default()
},
wbtc.clone(),
usdt.clone(),
).build();
// Ekubo
let component = ProtocolComponent {
// All Ekubo swaps go through the core contract - not necessary to specify
// pool id for test
protocol_system: "ekubo_v2".to_string(),
// 0.0025% fee & 0.005% base pool
static_attributes: HashMap::from([
("fee".to_string(), Bytes::from(461168601842738_u64)),
("tick_spacing".to_string(), Bytes::from(50_u32)),
("extension".to_string(), Bytes::zero(20)),
]),
..Default::default()
};
let ekubo_swap_usdt_usdc = SwapBuilder::new(component, usdt.clone(), usdc.clone()).build();
// USV4
// Fee and tick spacing information for this test is obtained by querying the
// USV4 Position Manager contract: 0xbd216513d74c8cf14cf4747e6aaa6420ff64ee9e
// Using the poolKeys function with the first 25 bytes of the pool id
let pool_fee_usdc_eth = Bytes::from(BigInt::from(3000).to_signed_bytes_be());
let tick_spacing_usdc_eth = Bytes::from(BigInt::from(60).to_signed_bytes_be());
let mut static_attributes_usdc_eth: HashMap<String, Bytes> = HashMap::new();
static_attributes_usdc_eth.insert("key_lp_fee".into(), pool_fee_usdc_eth);
static_attributes_usdc_eth.insert("tick_spacing".into(), tick_spacing_usdc_eth);
let usv4_swap_usdc_eth = SwapBuilder::new(
ProtocolComponent {
id: "0xdce6394339af00981949f5f3baf27e3610c76326a700af57e4b3e3ae4977f78d".to_string(),
protocol_system: "uniswap_v4".to_string(),
static_attributes: static_attributes_usdc_eth,
..Default::default()
},
usdc.clone(),
eth.clone(),
)
.build();
let encoder = get_tycho_router_encoder(UserTransferType::TransferFromPermit2);
// Put all components together
let solution = Solution {
exact_out: false,
given_token: dai,
given_amount: BigUint::from_str("1500_000000000000000000").unwrap(),
checked_token: eth.clone(),
checked_amount: BigUint::from_str("732214216964381330").unwrap(),
sender: Bytes::from_str("0xcd09f75E2BF2A4d11F3AB23f1389FcC1621c0cc2").unwrap(),
receiver: Bytes::from_str("0xcd09f75E2BF2A4d11F3AB23f1389FcC1621c0cc2").unwrap(),
swaps: vec![
usv2_swap_dai_weth,
balancer_swap_weth_wbtc,
curve_swap_wbtc_usdt,
ekubo_swap_usdt_usdc,
usv4_swap_usdc_eth,
],
..Default::default()
};
let encoded_solution = encoder
.encode_solutions(vec![solution.clone()])
.unwrap()[0]
.clone();
let calldata = encode_tycho_router_call(
eth_chain().id(),
encoded_solution,
&solution,
&UserTransferType::TransferFromPermit2,
&eth,
Some(get_signer()),
)
.unwrap()
.data;
let hex_calldata = encode(&calldata);
write_calldata_to_file("test_multi_protocol", hex_calldata.as_str());
}
#[test]
fn test_uniswap_v3_balancer_v3() {
// Note: This test does not assert anything. It is only used to obtain
// integration test data for our router solidity test.
//
// WETH ───(USV3)──> WBTC ───(balancer v3)──> QNT
let weth = weth();
let wbtc = Bytes::from_str("0x2260fac5e5542a773aa44fbcfedf7c193bc2c599").unwrap();
let qnt = Bytes::from_str("0x4a220e6096b25eadb88358cb44068a3248254675").unwrap();
let swap_weth_wbtc = SwapBuilder::new(
ProtocolComponent {
id: "0xCBCdF9626bC03E24f779434178A73a0B4bad62eD".to_string(),
protocol_system: "uniswap_v3".to_string(),
static_attributes: {
let mut attrs = HashMap::new();
attrs.insert(
"fee".to_string(),
Bytes::from(BigInt::from(3000).to_signed_bytes_be()),
);
attrs
},
..Default::default()
},
weth.clone(),
wbtc.clone(),
)
.build();
let swap_wbtc_qnt = SwapBuilder::new(
ProtocolComponent {
id: "0x571bea0e99e139cd0b6b7d9352ca872dfe0d72dd".to_string(),
protocol_system: "vm:balancer_v3".to_string(),
..Default::default()
},
wbtc.clone(),
qnt.clone(),
)
.build();
let encoder = get_tycho_router_encoder(UserTransferType::TransferFrom);
let solution = Solution {
exact_out: false,
given_token: weth,
given_amount: BigUint::from_str("1_0000000000000000").unwrap(),
checked_token: qnt,
checked_amount: BigUint::from_str("26173932").unwrap(),
sender: Bytes::from_str("0xcd09f75E2BF2A4d11F3AB23f1389FcC1621c0cc2").unwrap(),
receiver: Bytes::from_str("0xcd09f75E2BF2A4d11F3AB23f1389FcC1621c0cc2").unwrap(),
swaps: vec![swap_weth_wbtc, swap_wbtc_qnt],
..Default::default()
};
let encoded_solution = encoder
.encode_solutions(vec![solution.clone()])
.unwrap()[0]
.clone();
let calldata = encode_tycho_router_call(
eth_chain().id(),
encoded_solution,
&solution,
&UserTransferType::TransferFrom,
&eth(),
None,
)
.unwrap()
.data;
let hex_calldata = encode(&calldata);
write_calldata_to_file("test_uniswap_v3_balancer_v3", hex_calldata.as_str());
}
#[test]
fn test_uniswap_v3_bebop() {
// Note: This test does not assert anything. It is only used to obtain
// integration test data for our router solidity test.
//
// Performs a sequential swap from WETH to WBTC through USDC using USV3 and
// Bebop RFQ
//
// WETH ───(USV3)──> USDC ───(Bebop RFQ)──> WBTC
let weth = weth();
let usdc = usdc();
let wbtc = wbtc();
// First swap: WETH -> USDC via UniswapV3
let swap_weth_usdc = SwapBuilder::new(
ProtocolComponent {
id: "0x88e6A0c2dDD26FEEb64F039a2c41296FcB3f5640".to_string(), /* WETH-USDC USV3 Pool
* 0.05% */
protocol_system: "uniswap_v3".to_string(),
static_attributes: {
let mut attrs = HashMap::new();
attrs
.insert("fee".to_string(), Bytes::from(BigInt::from(500).to_signed_bytes_be()));
attrs
},
..Default::default()
},
weth.clone(),
usdc.clone(),
)
.build();
// Second swap: USDC -> WBTC via Bebop RFQ using real order data
let bebop_calldata = Bytes::from_str("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").unwrap();
let partial_fill_offset = 12u64;
let quote_amount_out = BigUint::from_str("1672307").unwrap();
let bebop_state = MockRFQState {
quote_amount_out,
quote_data: HashMap::from([
("calldata".to_string(), bebop_calldata),
(
"partial_fill_offset".to_string(),
Bytes::from(
partial_fill_offset
.to_be_bytes()
.to_vec(),
),
),
]),
};
let bebop_component = ProtocolComponent {
id: String::from("bebop-rfq"),
protocol_system: String::from("rfq:bebop"),
..Default::default()
};
let swap_usdc_wbtc = SwapBuilder::new(bebop_component, usdc.clone(), wbtc.clone())
.estimated_amount_in(BigUint::from_str("2021750881").unwrap())
.protocol_state(Arc::new(bebop_state))
.build();
let encoder = get_tycho_router_encoder(UserTransferType::TransferFrom);
let solution = Solution {
exact_out: false,
given_token: weth,
given_amount: BigUint::from_str("1000000000000000000").unwrap(), // 0.099 WETH
checked_token: wbtc,
checked_amount: BigUint::from_str("1672307").unwrap(),
sender: bob_address(),
receiver: bob_address(),
swaps: vec![swap_weth_usdc, swap_usdc_wbtc],
..Default::default()
};
let encoded_solution = encoder
.encode_solutions(vec![solution.clone()])
.unwrap()[0]
.clone();
let calldata = encode_tycho_router_call(
eth_chain().id(),
encoded_solution,
&solution,
&UserTransferType::TransferFrom,
&eth(),
None,
)
.unwrap()
.data;
let hex_calldata = encode(&calldata);
write_calldata_to_file("test_uniswap_v3_bebop", hex_calldata.as_str());
}
#[test]
#[ignore]
fn test_uniswap_v3_hashflow() {
// Note: This test does not assert anything. It is only used to obtain
// integration test data for our router solidity test.
//
// Performs a sequential swap from WETH to WBTC through USDC using USV3 and
// Hashflow RFQ
//
// WETH ───(USV3)──> USDC ───(Hashflow RFQ)──> WBTC
let weth = weth();
let usdc = usdc();
let wbtc = wbtc();
// First swap: WETH -> USDC via UniswapV3
let swap_weth_usdc = SwapBuilder::new(
ProtocolComponent {
id: "0x88e6A0c2dDD26FEEb64F039a2c41296FcB3f5640".to_string(), /* WETH-USDC USV3 Pool
* 0.05% */
protocol_system: "uniswap_v3".to_string(),
static_attributes: {
let mut attrs = HashMap::new();
attrs
.insert("fee".to_string(), Bytes::from(BigInt::from(500).to_signed_bytes_be()));
attrs
},
..Default::default()
},
weth.clone(),
usdc.clone(),
)
.build();
// Second swap: USDC -> WBTC via Hashflow RFQ using real order data
let quote_amount_out = BigUint::from_str("3714751").unwrap();
let hashflow_state = MockRFQState {
quote_amount_out,
quote_data: HashMap::from([
(
"pool".to_string(),
Bytes::from_str("0x478eca1b93865dca0b9f325935eb123c8a4af011").unwrap(),
),
(
"external_account".to_string(),
Bytes::from_str("0xbee3211ab312a8d065c4fef0247448e17a8da000").unwrap(),
),
(
"trader".to_string(),
Bytes::from_str("0xcd09f75e2bf2a4d11f3ab23f1389fcc1621c0cc2").unwrap(),
),
(
"base_token".to_string(),
Bytes::from_str("0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48").unwrap(),
),
(
"quote_token".to_string(),
Bytes::from_str("0x2260fac5e5542a773aa44fbcfedf7c193bc2c599").unwrap(),
),
(
"base_token_amount".to_string(),
Bytes::from(biguint_to_u256(&BigUint::from(4308094737_u64)).to_be_bytes::<32>().to_vec()),
),
(
"quote_token_amount".to_string(),
Bytes::from(biguint_to_u256(&BigUint::from(3714751_u64)).to_be_bytes::<32>().to_vec()),
),
("quote_expiry".to_string(), Bytes::from(biguint_to_u256(&BigUint::from(1755610328_u64)).to_be_bytes::<32>().to_vec())),
("nonce".to_string(), Bytes::from(biguint_to_u256(&BigUint::from(1755610283723_u64)).to_be_bytes::<32>().to_vec())),
(
"tx_id".to_string(),
Bytes::from_str(
"0x125000064000640000001747eb8c38ffffffffffffff0029642016edb36d0000",
)
.unwrap(),
),
("signature".to_string(), Bytes::from_str("0x6ddb3b21fe8509e274ddf46c55209cdbf30360944abbca6569ed6b26740d052f419964dcb5a3bdb98b4ed1fb3642a2760b8312118599a962251f7a8f73fe4fbe1c").unwrap()),
]),
};
let hashflow_component = ProtocolComponent {
id: String::from("hashflow-rfq"),
protocol_system: String::from("rfq:hashflow"),
..Default::default()
};
let swap_usdc_wbtc = SwapBuilder::new(hashflow_component, usdc.clone(), wbtc.clone())
.estimated_amount_in(BigUint::from_str("4308094737").unwrap())
.protocol_state(Arc::new(hashflow_state))
.build();
let encoder = get_tycho_router_encoder(UserTransferType::TransferFrom);
let solution = Solution {
exact_out: false,
given_token: weth,
given_amount: BigUint::from_str("1000000000000000000").unwrap(),
checked_token: wbtc,
checked_amount: BigUint::from_str("3714751").unwrap(),
sender: alice_address(),
receiver: alice_address(),
swaps: vec![swap_weth_usdc, swap_usdc_wbtc],
..Default::default()
};
let encoded_solution = encoder
.encode_solutions(vec![solution.clone()])
.unwrap()[0]
.clone();
let calldata = encode_tycho_router_call(
eth_chain().id(),
encoded_solution,
&solution,
&UserTransferType::TransferFrom,
&eth(),
None,
)
.unwrap()
.data;
let hex_calldata = encode(&calldata);
write_calldata_to_file("test_uniswap_v3_hashflow", hex_calldata.as_str());
}
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