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8145f416b7a12c52e27a1b3b6399d52625d992e5
tycho-execution/foundry/test/TychoRouterSequentialSwap.t.sol
Diana Carvalho 8145f416b7 fix: After rebase fixes 
- In Tycho Router
  - Fix integration tests
  - If the trade is cyclical, we can't do the balance check for the correctness of the amountOut transfers
- In encoding,
  - if it is a wrap trade, the transfer should be just a normal Transfer (not TransferFrom nor a Permit2Transfer)
  - add test names to println! statements

--- don't change below this line ---
ENG-4315 Took 1 hour 0 minutes

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Took 17 seconds
2025-04-23 12:31:41 +01:00

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// SPDX-License-Identifier: BUSL-1.1
pragma solidity ^0.8.26;
import "@src/executors/UniswapV4Executor.sol";
import {TychoRouter} from "@src/TychoRouter.sol";
import "./TychoRouterTestSetup.sol";
import "./executors/UniswapV4Utils.sol";
import {SafeCallback} from "@uniswap/v4-periphery/src/base/SafeCallback.sol";
contract TychoRouterSequentialSwapTest is TychoRouterTestSetup {
function _getSequentialSwaps(bool permit2)
internal
view
returns (bytes[] memory)
{
// Trade 1 WETH for USDC through DAI with 2 swaps on Uniswap V2
// 1 WETH -> DAI -> USDC
// (univ2) (univ2)
TokenTransfer.TransferType transferType = permit2
? TokenTransfer.TransferType.TRANSFER_PERMIT2_TO_PROTOCOL
: TokenTransfer.TransferType.TRANSFER_FROM_TO_PROTOCOL;
bytes[] memory swaps = new bytes[](2);
// WETH -> DAI
swaps[0] = encodeSequentialSwap(
address(usv2Executor),
encodeUniswapV2Swap(
WETH_ADDR, WETH_DAI_POOL, tychoRouterAddr, false, transferType
)
);
// DAI -> USDC
swaps[1] = encodeSequentialSwap(
address(usv2Executor),
encodeUniswapV2Swap(
DAI_ADDR,
DAI_USDC_POOL,
ALICE,
true,
TokenTransfer.TransferType.TRANSFER_TO_PROTOCOL
)
);
return swaps;
}
function testSequentialSwapPermit2() public {
// Trade 1 WETH for USDC through DAI - see _getSequentialSwaps for more info
uint256 amountIn = 1 ether;
deal(WETH_ADDR, ALICE, amountIn);
vm.startPrank(ALICE);
(
IAllowanceTransfer.PermitSingle memory permitSingle,
bytes memory signature
) = handlePermit2Approval(WETH_ADDR, tychoRouterAddr, amountIn);
bytes[] memory swaps = _getSequentialSwaps(true);
tychoRouter.sequentialSwapPermit2(
amountIn,
WETH_ADDR,
USDC_ADDR,
1000_000000, // min amount
false,
false,
ALICE,
permitSingle,
signature,
pleEncode(swaps)
);
uint256 usdcBalance = IERC20(USDC_ADDR).balanceOf(ALICE);
assertEq(usdcBalance, 2644659787);
assertEq(IERC20(WETH_ADDR).balanceOf(tychoRouterAddr), 0);
}
function testSequentialSwapNoPermit2() public {
// Trade 1 WETH for USDC through DAI - see _getSequentialSwaps for more info
uint256 amountIn = 1 ether;
deal(WETH_ADDR, ALICE, amountIn);
vm.startPrank(ALICE);
IERC20(WETH_ADDR).approve(tychoRouterAddr, amountIn);
bytes[] memory swaps = _getSequentialSwaps(false);
tychoRouter.sequentialSwap(
amountIn,
WETH_ADDR,
USDC_ADDR,
1000_000000, // min amount
false,
false,
ALICE,
pleEncode(swaps)
);
uint256 usdcBalance = IERC20(USDC_ADDR).balanceOf(ALICE);
assertEq(usdcBalance, 2644659787);
assertEq(IERC20(WETH_ADDR).balanceOf(tychoRouterAddr), 0);
}
function testSequentialSwapUndefinedMinAmount() public {
// Trade 1 WETH for USDC through DAI - see _getSequentialSwaps for more info
uint256 amountIn = 1 ether;
deal(WETH_ADDR, ALICE, amountIn);
vm.startPrank(ALICE);
IERC20(WETH_ADDR).approve(tychoRouterAddr, amountIn);
bytes[] memory swaps = _getSequentialSwaps(false);
vm.expectRevert(TychoRouter__UndefinedMinAmountOut.selector);
tychoRouter.sequentialSwap(
amountIn,
WETH_ADDR,
USDC_ADDR,
0, // min amount
false,
false,
ALICE,
pleEncode(swaps)
);
}
function testSequentialSwapInsufficientApproval() public {
// Trade 1 WETH for USDC through DAI - see _getSequentialSwaps for more info
uint256 amountIn = 1 ether;
deal(WETH_ADDR, ALICE, amountIn);
vm.startPrank(ALICE);
IERC20(WETH_ADDR).approve(tychoRouterAddr, amountIn - 1);
bytes[] memory swaps = _getSequentialSwaps(false);
vm.expectRevert();
tychoRouter.sequentialSwap(
amountIn,
WETH_ADDR,
USDC_ADDR,
0, // min amount
false,
false,
ALICE,
pleEncode(swaps)
);
}
function testSequentialSwapNegativeSlippageFailure() public {
// Trade 1 WETH for USDC through DAI - see _getSequentialSwaps for more info
uint256 amountIn = 1 ether;
deal(WETH_ADDR, ALICE, amountIn);
vm.startPrank(ALICE);
(
IAllowanceTransfer.PermitSingle memory permitSingle,
bytes memory signature
) = handlePermit2Approval(WETH_ADDR, tychoRouterAddr, amountIn);
bytes[] memory swaps = _getSequentialSwaps(true);
uint256 minAmountOut = 3000 * 1e18;
vm.expectRevert(
abi.encodeWithSelector(
TychoRouter__NegativeSlippage.selector,
2644659787, // actual amountOut
minAmountOut
)
);
tychoRouter.sequentialSwapPermit2(
amountIn,
WETH_ADDR,
DAI_ADDR,
minAmountOut,
false,
false,
ALICE,
permitSingle,
signature,
pleEncode(swaps)
);
vm.stopPrank();
}
function testSequentialSwapWrapETH() public {
uint256 amountIn = 1 ether;
deal(ALICE, amountIn);
vm.startPrank(ALICE);
IAllowanceTransfer.PermitSingle memory emptyPermitSingle =
IAllowanceTransfer.PermitSingle({
details: IAllowanceTransfer.PermitDetails({
token: address(0),
amount: 0,
expiration: 0,
nonce: 0
}),
spender: address(0),
sigDeadline: 0
});
bytes[] memory swaps = new bytes[](2);
// WETH -> DAI
swaps[0] = encodeSequentialSwap(
address(usv2Executor),
encodeUniswapV2Swap(
WETH_ADDR,
WETH_DAI_POOL,
tychoRouterAddr,
false,
TokenTransfer.TransferType.TRANSFER_TO_PROTOCOL
)
);
// DAI -> USDC
swaps[1] = encodeSequentialSwap(
address(usv2Executor),
encodeUniswapV2Swap(
DAI_ADDR,
DAI_USDC_POOL,
ALICE,
true,
TokenTransfer.TransferType.TRANSFER_TO_PROTOCOL
)
);
uint256 amountOut = tychoRouter.sequentialSwapPermit2{value: amountIn}(
amountIn,
address(0),
USDC_ADDR,
1000_000000,
true,
false,
ALICE,
emptyPermitSingle,
"",
pleEncode(swaps)
);
uint256 expectedAmount = 2644659787;
assertEq(amountOut, expectedAmount);
uint256 usdcBalance = IERC20(USDC_ADDR).balanceOf(ALICE);
assertEq(usdcBalance, expectedAmount);
assertEq(ALICE.balance, 0);
vm.stopPrank();
}
function testSequentialSwapUnwrapETH() public {
// Trade 3k DAI for WETH with 1 swap on Uniswap V2 and unwrap it at the end
uint256 amountIn = 3_000 * 10 ** 6;
deal(USDC_ADDR, ALICE, amountIn);
vm.startPrank(ALICE);
(
IAllowanceTransfer.PermitSingle memory permitSingle,
bytes memory signature
) = handlePermit2Approval(USDC_ADDR, tychoRouterAddr, amountIn);
bytes[] memory swaps = new bytes[](2);
// USDC -> DAI
swaps[0] = encodeSequentialSwap(
address(usv2Executor),
encodeUniswapV2Swap(
USDC_ADDR,
DAI_USDC_POOL,
tychoRouterAddr,
false,
TokenTransfer.TransferType.TRANSFER_PERMIT2_TO_PROTOCOL
)
);
// DAI -> WETH
swaps[1] = encodeSequentialSwap(
address(usv2Executor),
encodeUniswapV2Swap(
DAI_ADDR,
WETH_DAI_POOL,
tychoRouterAddr,
true,
TokenTransfer.TransferType.TRANSFER_TO_PROTOCOL
)
);
uint256 amountOut = tychoRouter.sequentialSwapPermit2(
amountIn,
USDC_ADDR,
address(0),
1 * 10 ** 18, // min amount
false,
true,
ALICE,
permitSingle,
signature,
pleEncode(swaps)
);
uint256 expectedAmount = 1111174255471849849; // 1.11 ETH
assertEq(amountOut, expectedAmount);
assertEq(ALICE.balance, expectedAmount);
vm.stopPrank();
}
function testCyclicSequentialSwap() public {
// This test has start and end tokens that are the same
// The flow is:
// USDC --(USV3)--> WETH --(USV3)--> USDC
uint256 amountIn = 100 * 10 ** 6;
deal(USDC_ADDR, tychoRouterAddr, amountIn);
bytes memory usdcWethV3Pool1ZeroOneData = encodeUniswapV3Swap(
USDC_ADDR,
WETH_ADDR,
tychoRouterAddr,
USDC_WETH_USV3,
true,
TokenTransfer.TransferType.TRANSFER_TO_PROTOCOL
);
bytes memory usdcWethV3Pool2OneZeroData = encodeUniswapV3Swap(
WETH_ADDR,
USDC_ADDR,
tychoRouterAddr,
USDC_WETH_USV3_2,
false,
TokenTransfer.TransferType.TRANSFER_TO_PROTOCOL
);
bytes[] memory swaps = new bytes[](2);
// USDC -> WETH
swaps[0] = encodeSequentialSwap(
address(usv3Executor), usdcWethV3Pool1ZeroOneData
);
// WETH -> USDC
swaps[1] = encodeSequentialSwap(
address(usv3Executor), usdcWethV3Pool2OneZeroData
);
tychoRouter.exposedSequentialSwap(amountIn, pleEncode(swaps));
assertEq(IERC20(USDC_ADDR).balanceOf(tychoRouterAddr), 99889294);
}
}
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