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chore: cleanup

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This commit is contained in:
royvardhan
2025-03-14 20:47:57 +05:30
committed by Diana Carvalho
parent c3d36ae25f
commit 05ea2c7734
5 changed files with 379 additions and 390 deletions
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675
foundry/test/executors/CurveExecutor.t.sol
View File

@@ -9,15 +9,21 @@ interface ICurvePool {
function coins(uint256 i) external view returns (address);
}
// Curve pool registry
// This is the registry that contains the information about the pool
// The naming convention is different because it is in vyper
interface MetaRegistry {
// Get the number of coins in the pool
function get_n_coins(address pool) external view returns (uint256);
// Get the indices of the coins in the pool
function get_coin_indices(address pool, address from, address to)
external
view
returns (int128, int128, bool);
}
interface ILendingPool {
// Aave lending pool
interface IAaveLendingPool {
function deposit(
address asset,
uint256 amount,
@@ -38,7 +44,7 @@ contract CurveExecutorExposed is CurveExecutor {
function decodeParams(bytes calldata data)
external
pure
returns (CurveRouterParams memory params)
returns (ICurveRouter.CurveRouterParams memory params)
{
return _decodeData(data);
}
@@ -58,11 +64,11 @@ contract CurveExecutorTest is Test, Constants {
}
function testDecodeParams() public view {
address[11] memory route;
route[0] = WETH_ADDR;
route[1] = TRICRYPTO_USDC_WBTC_WETH;
route[2] = USDC_ADDR;
address[11] memory route =
_getRoute(WETH_ADDR, USDC_ADDR, TRICRYPTO_POOL);
// The meta registry does not have information about the pool.
// We manually set the swap params.
uint256[5][5] memory swapParams;
swapParams[0][0] = 2; // tokenIn Index
swapParams[0][1] = 0; // tokenOut Index
@@ -78,11 +84,11 @@ contract CurveExecutorTest is Test, Constants {
route, swapParams, amountIn, minAmountOut, pools, address(this)
);
CurveRouterParams memory params =
ICurveRouter.CurveRouterParams memory params =
curveExecutorExposed.decodeParams(data);
assertEq(params.route[0], WETH_ADDR);
assertEq(params.route[1], TRICRYPTO_USDC_WBTC_WETH);
assertEq(params.route[1], TRICRYPTO_POOL);
assertEq(params.route[2], USDC_ADDR);
assertEq(params.swapParams[0][0], 2);
assertEq(params.swapParams[0][1], 0);
@@ -90,7 +96,316 @@ contract CurveExecutorTest is Test, Constants {
assertEq(params.swapParams[0][3], 3);
}
function testCurveSwapPoolType0() public {
// The following pools are unique and do not have a factory
function testSwapTriPool() public {
address[11] memory route = _getRoute(DAI_ADDR, USDC_ADDR, TRIPOOL);
uint256[5][5] memory swapParams =
_getSwapParams(TRIPOOL, DAI_ADDR, USDC_ADDR, 1, 1);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(DAI_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route, swapParams, amountIn, minAmountOut, pools, address(this)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 999796);
assertEq(IERC20(USDC_ADDR).balanceOf(address(this)), amountOut);
}
function testSwapStEthPool() public {
address[11] memory route = _getRoute(ETH_ADDR, STETH_ADDR, STETH_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(STETH_POOL, ETH_ADDR, STETH_ADDR, 1, 1);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route, swapParams, amountIn, minAmountOut, pools, address(this)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertTrue(amountOut >= 1 ether);
assertEq(IERC20(STETH_ADDR).balanceOf(address(this)), amountOut - 1); // Gets 1 wei less than amountOut
}
function testSwapTricrypto2Pool() public {
address[11] memory route =
_getRoute(WETH_ADDR, WBTC_ADDR, TRICRYPTO2_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(TRICRYPTO2_POOL, WETH_ADDR, WBTC_ADDR, 1, 3);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(WETH_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 2279618);
assertEq(
IERC20(WBTC_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
function testSwapSUSDPool() public {
address[11] memory route = _getRoute(USDC_ADDR, SUSD_ADDR, SUSD_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(SUSD_POOL, USDC_ADDR, SUSD_ADDR, 1, 1);
uint256 amountIn = 100 * 10 ** 6;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(USDC_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 100488101605550214590);
assertEq(
IERC20(SUSD_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
function testSwapFraxUsdcPool() public {
address[11] memory route =
_getRoute(FRAX_ADDR, USDC_ADDR, FRAX_USDC_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(FRAX_USDC_POOL, FRAX_ADDR, USDC_ADDR, 1, 1);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(FRAX_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 998096);
assertEq(
IERC20(USDC_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
// The following pool is from CryptoSwapNG, deployed by factory 0x6A8cbed756804B16E05E741eDaBd5cB544AE21bf
// - It is a plain pool
function testSwapUsdeUsdcPool() public {
address[11] memory route =
_getRoute(USDC_ADDR, USDE_ADDR, USDE_USDC_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(USDE_USDC_POOL, USDC_ADDR, USDE_ADDR, 1, 1);
uint256 amountIn = 100 * 10 ** 6;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(USDC_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 100064812138999986170);
assertEq(
IERC20(USDE_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
// The following pool is from CryptoSwapNG, deployed by factory 0x6A8cbed756804B16E05E741eDaBd5cB544AE21bf
// - It is a meta pool
function testSwapDolaFraxPyusdPool() public {
address[11] memory route =
_getRoute(DOLA_ADDR, FRAXPYUSD_POOL, DOLA_FRAXPYUSD_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(DOLA_FRAXPYUSD_POOL, DOLA_ADDR, FRAXPYUSD_POOL, 1, 1);
uint256 amountIn = 100 * 10 ** 6;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(DOLA_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 99688991);
assertEq(
IERC20(FRAXPYUSD_POOL).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
// The following pool is from CryptoPool, deployed by factory 0xF18056Bbd320E96A48e3Fbf8bC061322531aac99
function testSwapWethXyoPool() public {
address[11] memory route = _getRoute(XYO_ADDR, WETH_ADDR, WETH_XYO_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(WETH_XYO_POOL, XYO_ADDR, WETH_ADDR, 1, 2);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(XYO_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 6081816039338);
assertEq(
IERC20(WETH_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
// The following pool is from Tricrypto, deployed by factory 0x0c0e5f2fF0ff18a3be9b835635039256dC4B4963
function testSwapTricryptoPool() public {
address[11] memory route =
_getRoute(WETH_ADDR, USDC_ADDR, TRICRYPTO_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(TRICRYPTO_POOL, WETH_ADDR, USDC_ADDR, 1, 3);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(WETH_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route, swapParams, amountIn, minAmountOut, pools, address(this)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 1861130973);
assertEq(IERC20(USDC_ADDR).balanceOf(address(this)), amountOut);
}
// The following pool is from Twocrypto, deployed by factory 0x98ee851a00abee0d95d08cf4ca2bdce32aeaaf7f
function testSwapUwuWethPool() public {
address[11] memory route = _getRoute(UWU_ADDR, WETH_ADDR, UWU_WETH_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(UWU_WETH_POOL, UWU_ADDR, WETH_ADDR, 1, 2);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(UWU_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 2873786684675);
assertEq(
IERC20(WETH_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
// The following pool is from StableSwap, deployed by factory 0x4F8846Ae9380B90d2E71D5e3D042dff3E7ebb40d
// - It is a plain pool
function testSwapCrvusdUsdtPool() public {
address[11] memory route =
_getRoute(CRVUSD_ADDR, USDT_ADDR, CRVUSD_USDT_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(CRVUSD_USDT_POOL, CRVUSD_ADDR, USDT_ADDR, 1, 1);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(CRVUSD_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 999910);
assertEq(
IERC20(USDT_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
// The following pools were taken from the old curve executor tests
function testSwapAavePool() public {
address[11] memory route = _getRoute(ADAI_ADDR, AUSDC_ADDR, AAVE_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(AAVE_POOL, ADAI_ADDR, AUSDC_ADDR, 1, 1);
@@ -118,102 +433,11 @@ contract CurveExecutorTest is Test, Constants {
);
}
function testCurveSwapPoolType1() public {
address[11] memory route =
_getRoute(DAI_ADDR, USDC_ADDR, TRIPOOL_USDT_USDC_DAI);
uint256[5][5] memory swapParams =
_getSwapParams(TRIPOOL_USDT_USDC_DAI, DAI_ADDR, USDC_ADDR, 1, 1);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(DAI_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route, swapParams, amountIn, minAmountOut, pools, address(this)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 999796);
assertEq(IERC20(USDC_ADDR).balanceOf(address(this)), amountOut);
}
function testCurveSwapPoolType3() public {
address[11] memory route =
_getRoute(WETH_ADDR, USDC_ADDR, TRICRYPTO_USDC_WBTC_WETH);
uint256[5][5] memory swapParams =
_getSwapParams(TRICRYPTO_USDC_WBTC_WETH, WETH_ADDR, USDC_ADDR, 1, 3);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(WETH_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route, swapParams, amountIn, minAmountOut, pools, address(this)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 1861130973);
assertEq(IERC20(USDC_ADDR).balanceOf(address(this)), amountOut);
}
function testCurveSwapPoolType4() public {
address[11] memory route = _getRoute(ETH_ADDR, STETH_ADDR, STETH_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(STETH_POOL, ETH_ADDR, STETH_ADDR, 1, 1);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertTrue(amountOut >= 1 ether);
assertEq(
IERC20(STETH_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut - 1
); // Gets 1 wei less than amountOut
// Now reverse the swap
amountIn = amountOut - 1;
route = _getRoute(STETH_ADDR, ETH_ADDR, STETH_POOL);
swapParams = _getSwapParams(STETH_POOL, STETH_ADDR, ETH_ADDR, 1, 1);
data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(address(curveExecutorExposed).balance, 999800010006950374);
}
function testCurveSwapPoolType5() public {
function testSwapLusdUsdtPool() public {
address[11] memory route = _getRoute(LUSD_ADDR, USDT_ADDR, LUSD_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(LUSD_POOL, LUSD_ADDR, USDT_ADDR, 2, 1);
// pool.coins(index) reverts, defaulting tokenOut index to 0
swapParams[0][1] = 3;
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
@@ -237,14 +461,11 @@ contract CurveExecutorTest is Test, Constants {
);
}
function testCurveSwapPoolType6() public {
function testSwapCompoundPool() public {
address[11] memory route = _getRoute(DAI_ADDR, USDC_ADDR, CPOOL);
uint256[5][5] memory swapParams =
_getSwapParams(CPOOL, DAI_ADDR, USDC_ADDR, 2, 1);
// pool.coins(index) reverts, defaulting tokenOut index to 0
swapParams[0][1] = 1;
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
@@ -268,14 +489,11 @@ contract CurveExecutorTest is Test, Constants {
);
}
function testCurveSwapPoolType7() public {
function testSwapLdoPool() public {
address[11] memory route = _getRoute(WETH_ADDR, LDO_ADDR, LDO_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(LDO_POOL, WETH_ADDR, LDO_ADDR, 1, 4);
// pool.coins(index) reverts, defaulting tokenOut index to 0
swapParams[0][1] = 1;
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
@@ -298,7 +516,7 @@ contract CurveExecutorTest is Test, Constants {
);
}
function testCurveSwapPoolType8() public {
function testSwapCrvPool() public {
address[11] memory route = _getRoute(CRV_ADDR, WETH_ADDR, CRV_POOL);
// The registry does not have information about the pool.
@@ -333,237 +551,6 @@ contract CurveExecutorTest is Test, Constants {
);
}
/// These tests are taken from the substreams
function testCurveSwapTricrypto2() public {
address[11] memory route =
_getRoute(WETH_ADDR, WBTC_ADDR, TRICRYPTO_USDT_WETH_WBTC);
uint256[5][5] memory swapParams =
_getSwapParams(TRICRYPTO_USDT_WETH_WBTC, WETH_ADDR, WBTC_ADDR, 1, 3);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(WETH_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 2279618);
assertEq(
IERC20(WBTC_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
function testCurveSwapSUSD() public {
address[11] memory route = _getRoute(USDC_ADDR, SUSD_ADDR, SUSD_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(SUSD_POOL, USDC_ADDR, SUSD_ADDR, 1, 1);
uint256 amountIn = 100 * 10 ** 6;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(USDC_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 100488101605550214590);
assertEq(
IERC20(SUSD_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
function testCurveSwapFraxUSDC() public {
address[11] memory route =
_getRoute(FRAX_ADDR, USDC_ADDR, FRAX_USDC_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(FRAX_USDC_POOL, FRAX_ADDR, USDC_ADDR, 1, 1);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(FRAX_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 998096);
assertEq(
IERC20(USDC_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
function testCurveSwapCryptoSwapNGFactoryPlainPool() public {
address[11] memory route =
_getRoute(USDC_ADDR, USDE_ADDR, USDE_USDC_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(USDE_USDC_POOL, USDC_ADDR, USDE_ADDR, 1, 1);
uint256 amountIn = 100 * 10 ** 6;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(USDC_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 100064812138999986170);
assertEq(
IERC20(USDE_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
function testCurveSwapMetaPool() public {
address[11] memory route =
_getRoute(DOLA_ADDR, FRAXPYUSD_ADDR, DOLA_FRAXPYUSD_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(DOLA_FRAXPYUSD_POOL, DOLA_ADDR, FRAXPYUSD_ADDR, 1, 1);
uint256 amountIn = 100 * 10 ** 6;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(DOLA_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 99688991);
assertEq(
IERC20(FRAXPYUSD_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
function testCurveSwapWethXyo() public {
address[11] memory route = _getRoute(XYO_ADDR, WETH_ADDR, WETH_XYO_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(WETH_XYO_POOL, XYO_ADDR, WETH_ADDR, 1, 2);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(XYO_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 6081816039338);
assertEq(
IERC20(WETH_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
function testCurveSwapUwuWeth() public {
address[11] memory route = _getRoute(UWU_ADDR, WETH_ADDR, UWU_WETH_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(UWU_WETH_POOL, UWU_ADDR, WETH_ADDR, 1, 2);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(UWU_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 2873786684675);
assertEq(
IERC20(WETH_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
function testCurveSwapStableSwapFactoryPlainPool() public {
address[11] memory route =
_getRoute(CRVUSD_ADDR, USDT_ADDR, CRVUSD_USDT_POOL);
uint256[5][5] memory swapParams =
_getSwapParams(CRVUSD_USDT_POOL, CRVUSD_ADDR, USDT_ADDR, 1, 1);
uint256 amountIn = 1 ether;
uint256 minAmountOut = 0;
address[5] memory pools;
deal(CRVUSD_ADDR, address(curveExecutorExposed), amountIn);
bytes memory data = abi.encode(
route,
swapParams,
amountIn,
minAmountOut,
pools,
address(curveExecutorExposed)
);
uint256 amountOut = curveExecutorExposed.swap(amountIn, data);
assertEq(amountOut, 999910);
assertEq(
IERC20(USDT_ADDR).balanceOf(address(curveExecutorExposed)),
amountOut
);
}
function _getRoute(address tokenIn, address tokenOut, address pool)
internal
pure
@@ -582,7 +569,7 @@ contract CurveExecutorTest is Test, Constants {
uint256 poolType
) internal view returns (uint256[5][5] memory swapParams) {
uint256 nCoins = metaRegistry.get_n_coins(pool);
(int128 coinInIndex, int128 coinOutIndex, bool isMetapool) =
(int128 coinInIndex, int128 coinOutIndex,) =
metaRegistry.get_coin_indices(pool, tokenIn, tokenOut);
swapParams[0][0] = uint256(int256(coinInIndex));
@@ -594,8 +581,8 @@ contract CurveExecutorTest is Test, Constants {
function dealAaveDai() internal {
deal(DAI_ADDR, address(curveExecutorExposed), 100_000 * 10 ** 18);
ILendingPool aave =
ILendingPool(0x7d2768dE32b0b80b7a3454c06BdAc94A69DDc7A9);
IAaveLendingPool aave =
IAaveLendingPool(0x7d2768dE32b0b80b7a3454c06BdAc94A69DDc7A9);
vm.startPrank(address(curveExecutorExposed));
IERC20(DAI_ADDR).approve(address(aave), type(uint256).max);