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tycho-execution/foundry/test/TychoRouterSingleSwap.t.sol
Diana Carvalho 0ff4aef0c7 chore: Write encoding rust calldata to file and read in solidity test 
This way we can automatically replace the calldata when something changes. We don't need to manually replace the string ourselves.

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2025-04-29 10:23:47 +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 TychoRouterSingleSwapTest is TychoRouterTestSetup {
function testSingleSwapPermit2() public {
// Trade 1 WETH for DAI with 1 swap on Uniswap V2 using Permit2
// 1 WETH -> DAI
// (USV2)
vm.startPrank(ALICE);
uint256 amountIn = 1 ether;
deal(WETH_ADDR, ALICE, amountIn);
(
IAllowanceTransfer.PermitSingle memory permitSingle,
bytes memory signature
) = handlePermit2Approval(WETH_ADDR, tychoRouterAddr, amountIn);
bytes memory protocolData = encodeUniswapV2Swap(
WETH_ADDR,
WETH_DAI_POOL,
ALICE,
false,
TokenTransfer.TransferType.TRANSFER_PERMIT2_TO_PROTOCOL
);
bytes memory swap =
encodeSingleSwap(address(usv2Executor), protocolData);
tychoRouter.singleSwapPermit2(
amountIn,
WETH_ADDR,
DAI_ADDR,
2008817438608734439722,
false,
false,
ALICE,
permitSingle,
signature,
swap
);
uint256 daiBalance = IERC20(DAI_ADDR).balanceOf(ALICE);
assertEq(daiBalance, 2018817438608734439722);
assertEq(IERC20(WETH_ADDR).balanceOf(ALICE), 0);
vm.stopPrank();
}
function testSingleSwapNoPermit2() public {
// Trade 1 WETH for DAI with 1 swap on Uniswap V2
// Checks amount out at the end
uint256 amountIn = 1 ether;
deal(WETH_ADDR, ALICE, amountIn);
vm.startPrank(ALICE);
// Approve the tokenIn to be transferred to the router
IERC20(WETH_ADDR).approve(address(tychoRouterAddr), amountIn);
bytes memory protocolData = encodeUniswapV2Swap(
WETH_ADDR,
WETH_DAI_POOL,
ALICE,
false,
TokenTransfer.TransferType.TRANSFER_FROM_TO_PROTOCOL
);
bytes memory swap =
encodeSingleSwap(address(usv2Executor), protocolData);
uint256 minAmountOut = 2000 * 1e18;
uint256 amountOut = tychoRouter.singleSwap(
amountIn,
WETH_ADDR,
DAI_ADDR,
minAmountOut,
false,
false,
ALICE,
swap
);
uint256 expectedAmount = 2018817438608734439722;
assertEq(amountOut, expectedAmount);
uint256 daiBalance = IERC20(DAI_ADDR).balanceOf(ALICE);
assertEq(daiBalance, expectedAmount);
assertEq(IERC20(WETH_ADDR).balanceOf(ALICE), 0);
vm.stopPrank();
}
function testSingleSwapUndefinedMinAmount() public {
// Trade 1 WETH for DAI with 1 swap on Uniswap V2
// Checks amount out at the end
uint256 amountIn = 1 ether;
deal(WETH_ADDR, ALICE, amountIn);
vm.startPrank(ALICE);
IERC20(WETH_ADDR).approve(address(tychoRouterAddr), amountIn);
bytes memory protocolData = encodeUniswapV2Swap(
WETH_ADDR,
WETH_DAI_POOL,
ALICE,
false,
TokenTransfer.TransferType.TRANSFER_FROM_TO_PROTOCOL
);
bytes memory swap =
encodeSingleSwap(address(usv2Executor), protocolData);
vm.expectRevert(TychoRouter__UndefinedMinAmountOut.selector);
tychoRouter.singleSwap(
amountIn, WETH_ADDR, DAI_ADDR, 0, false, false, ALICE, swap
);
}
function testSingleSwapInsufficientApproval() public {
// Trade 1 WETH for DAI with 1 swap on Uniswap V2
// Checks amount out at the end
uint256 amountIn = 1 ether;
deal(WETH_ADDR, ALICE, amountIn);
vm.startPrank(ALICE);
IERC20(WETH_ADDR).approve(address(tychoRouterAddr), amountIn - 1);
bytes memory protocolData = encodeUniswapV2Swap(
WETH_ADDR,
WETH_DAI_POOL,
ALICE,
false,
TokenTransfer.TransferType.TRANSFER_FROM_TO_PROTOCOL
);
bytes memory swap =
encodeSingleSwap(address(usv2Executor), protocolData);
uint256 minAmountOut = 2600 * 1e18;
vm.expectRevert();
tychoRouter.singleSwap(
amountIn,
WETH_ADDR,
DAI_ADDR,
minAmountOut,
false,
false,
ALICE,
swap
);
}
function testSingleSwapNegativeSlippageFailure() public {
// Trade 1 WETH for DAI with 1 swap on Uniswap V2
// Checks amount out at the end
uint256 amountIn = 1 ether;
deal(WETH_ADDR, ALICE, amountIn);
vm.startPrank(ALICE);
// Approve the tokenIn to be transferred to the router
IERC20(WETH_ADDR).approve(address(tychoRouterAddr), amountIn);
bytes memory protocolData = encodeUniswapV2Swap(
WETH_ADDR,
WETH_DAI_POOL,
ALICE,
false,
TokenTransfer.TransferType.TRANSFER_FROM_TO_PROTOCOL
);
bytes memory swap =
encodeSingleSwap(address(usv2Executor), protocolData);
uint256 minAmountOut = 5600 * 1e18;
vm.expectRevert(
abi.encodeWithSelector(
TychoRouter__NegativeSlippage.selector,
2018817438608734439722, // actual amountOut
minAmountOut
)
);
tychoRouter.singleSwap(
amountIn,
WETH_ADDR,
DAI_ADDR,
minAmountOut,
false,
false,
ALICE,
swap
);
}
function testSingleSwapWrapETH() 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 protocolData = encodeUniswapV2Swap(
WETH_ADDR,
WETH_DAI_POOL,
ALICE,
false,
TokenTransfer.TransferType.TRANSFER_TO_PROTOCOL
);
bytes memory swap =
encodeSingleSwap(address(usv2Executor), protocolData);
uint256 amountOut = tychoRouter.singleSwapPermit2{value: amountIn}(
amountIn,
address(0),
DAI_ADDR,
1000_000000,
true,
false,
ALICE,
emptyPermitSingle,
"",
swap
);
uint256 expectedAmount = 2018817438608734439722;
assertEq(amountOut, expectedAmount);
uint256 daiBalance = IERC20(DAI_ADDR).balanceOf(ALICE);
assertEq(daiBalance, expectedAmount);
assertEq(ALICE.balance, 0);
vm.stopPrank();
}
function testSingleSwapUnwrapETH() public {
// DAI -> WETH with unwrapping to ETH
uint256 amountIn = 3000 ether;
deal(DAI_ADDR, ALICE, amountIn);
vm.startPrank(ALICE);
(
IAllowanceTransfer.PermitSingle memory permitSingle,
bytes memory signature
) = handlePermit2Approval(DAI_ADDR, tychoRouterAddr, amountIn);
bytes memory protocolData = encodeUniswapV2Swap(
DAI_ADDR,
WETH_DAI_POOL,
tychoRouterAddr,
true,
TokenTransfer.TransferType.TRANSFER_PERMIT2_TO_PROTOCOL
);
bytes memory swap =
encodeSingleSwap(address(usv2Executor), protocolData);
uint256 amountOut = tychoRouter.singleSwapPermit2(
amountIn,
DAI_ADDR,
address(0),
1000_000000,
false,
true,
ALICE,
permitSingle,
signature,
swap
);
uint256 expectedAmount = 1475644707225677606;
assertEq(amountOut, expectedAmount);
assertEq(ALICE.balance, expectedAmount);
vm.stopPrank();
}
function testSingleSwapIntegration() public {
// Tests swapping WETH -> DAI on a USV2 pool with regular approvals
deal(WETH_ADDR, ALICE, 1 ether);
uint256 balanceBefore = IERC20(DAI_ADDR).balanceOf(ALICE);
vm.startPrank(ALICE);
IERC20(WETH_ADDR).approve(tychoRouterAddr, type(uint256).max);
bytes memory callData =
loadCallDataFromFile("test_single_swap_strategy_encoder_no_permit2");
(bool success,) = tychoRouterAddr.call(callData);
vm.stopPrank();
uint256 balanceAfter = IERC20(DAI_ADDR).balanceOf(ALICE);
assertTrue(success, "Call Failed");
assertEq(balanceAfter - balanceBefore, 2018817438608734439722);
}
function testSingleSwapIntegrationPermit2() public {
// Tests swapping WETH -> DAI on a USV2 pool with permit2
deal(WETH_ADDR, ALICE, 1 ether);
uint256 balanceBefore = IERC20(DAI_ADDR).balanceOf(ALICE);
vm.startPrank(ALICE);
IERC20(WETH_ADDR).approve(PERMIT2_ADDRESS, type(uint256).max);
bytes memory callData =
loadCallDataFromFile("test_single_swap_strategy_encoder");
(bool success,) = tychoRouterAddr.call(callData);
vm.stopPrank();
uint256 balanceAfter = IERC20(DAI_ADDR).balanceOf(ALICE);
assertTrue(success, "Call Failed");
assertEq(balanceAfter - balanceBefore, 2018817438608734439722);
}
function testSingleSwapWithWrapIntegration() public {
// Tests swapping WETH -> DAI on a USV2 pool, but ETH is received from the user
// and wrapped before the swap
deal(ALICE, 1 ether);
uint256 balanceBefore = IERC20(DAI_ADDR).balanceOf(ALICE);
// Approve permit2
vm.startPrank(ALICE);
bytes memory callData =
loadCallDataFromFile("test_single_swap_strategy_encoder_wrap");
(bool success,) = tychoRouterAddr.call{value: 1 ether}(callData);
vm.stopPrank();
uint256 balanceAfter = IERC20(DAI_ADDR).balanceOf(ALICE);
assertTrue(success, "Call Failed");
assertEq(balanceAfter - balanceBefore, 2018817438608734439722);
}
function testSingleSwapWithUnwrapIntegration() public {
// Tests swapping DAI -> WETH on a USV2 pool, and WETH is unwrapped to ETH
// before sending back to the user
deal(DAI_ADDR, ALICE, 3000 ether);
uint256 balanceBefore = ALICE.balance;
// Approve permit2
vm.startPrank(ALICE);
IERC20(DAI_ADDR).approve(PERMIT2_ADDRESS, type(uint256).max);
bytes memory callData =
loadCallDataFromFile("test_single_swap_strategy_encoder_unwrap");
(bool success,) = tychoRouterAddr.call(callData);
vm.stopPrank();
uint256 balanceAfter = ALICE.balance;
assertTrue(success, "Call Failed");
assertEq(balanceAfter - balanceBefore, 1475644707225677606);
}
function testSingleSwapIntegrationNoTransferIn() public {
// Tests swapping WETH -> DAI on a USV2 pool assuming that the tokens are already inside the router
deal(WETH_ADDR, tychoRouterAddr, 1 ether);
uint256 balanceBefore = IERC20(DAI_ADDR).balanceOf(ALICE);
vm.startPrank(ALICE);
bytes memory callData = loadCallDataFromFile(
"test_single_swap_strategy_encoder_no_transfer_in"
);
(bool success,) = tychoRouterAddr.call(callData);
vm.stopPrank();
uint256 balanceAfter = IERC20(DAI_ADDR).balanceOf(ALICE);
assertTrue(success, "Call Failed");
assertEq(balanceAfter - balanceBefore, 2018817438608734439722);
}
}
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