// SPDX-License-Identifier: UNLICENSED pragma solidity ^0.8.26; import {TychoRouter} from "@src/TychoRouter.sol"; import "./TychoRouterTestSetup.sol"; contract TychoRouterTest is TychoRouterTestSetup { bytes32 public constant EXECUTOR_SETTER_ROLE = 0x6a1dd52dcad5bd732e45b6af4e7344fa284e2d7d4b23b5b09cb55d36b0685c87; bytes32 public constant FEE_SETTER_ROLE = 0xe6ad9a47fbda1dc18de1eb5eeb7d935e5e81b4748f3cfc61e233e64f88182060; bytes32 public constant PAUSER_ROLE = 0x65d7a28e3265b37a6474929f336521b332c1681b933f6cb9f3376673440d862a; bytes32 public constant FUND_RESCUER_ROLE = 0x912e45d663a6f4cc1d0491d8f046e06c616f40352565ea1cdb86a0e1aaefa41b; event CallbackVerifierSet(address indexed callbackVerifier); event Withdrawal( address indexed token, uint256 amount, address indexed receiver ); function testSetExecutorsValidRole() public { // Set single executor address[] memory executors = new address[](1); executors[0] = DUMMY; vm.startPrank(EXECUTOR_SETTER); tychoRouter.setExecutors(executors); vm.stopPrank(); assert(tychoRouter.executors(DUMMY) == true); // Set multiple executors address[] memory executors2 = new address[](2); executors2[0] = DUMMY2; executors2[1] = DUMMY3; vm.startPrank(EXECUTOR_SETTER); tychoRouter.setExecutors(executors2); vm.stopPrank(); assert(tychoRouter.executors(DUMMY2) == true); assert(tychoRouter.executors(DUMMY3) == true); } function testRemoveExecutorValidRole() public { vm.startPrank(EXECUTOR_SETTER); address[] memory executors = new address[](1); executors[0] = DUMMY; tychoRouter.setExecutors(executors); tychoRouter.removeExecutor(DUMMY); vm.stopPrank(); assert(tychoRouter.executors(DUMMY) == false); } function testRemoveExecutorMissingSetterRole() public { vm.expectRevert(); tychoRouter.removeExecutor(BOB); } function testSetExecutorsMissingSetterRole() public { vm.expectRevert(); address[] memory executors = new address[](1); executors[0] = DUMMY; tychoRouter.setExecutors(executors); } function testSetVerifierValidRole() public { vm.startPrank(EXECUTOR_SETTER); tychoRouter.setCallbackVerifier(DUMMY); vm.stopPrank(); assert(tychoRouter.callbackVerifiers(DUMMY) == true); } function testRemoveVerifierValidRole() public { vm.startPrank(EXECUTOR_SETTER); tychoRouter.setCallbackVerifier(DUMMY); tychoRouter.removeCallbackVerifier(DUMMY); vm.stopPrank(); assert(tychoRouter.callbackVerifiers(DUMMY) == false); } function testRemoveVerifierMissingSetterRole() public { vm.expectRevert(); tychoRouter.removeCallbackVerifier(BOB); } function testSetVerifierMissingSetterRole() public { vm.expectRevert(); tychoRouter.setCallbackVerifier(DUMMY); } function testWithdrawNative() public { vm.startPrank(FUND_RESCUER); // Send 100 ether to tychoRouter assertEq(tychoRouterAddr.balance, 0); assertEq(FUND_RESCUER.balance, 0); vm.deal(tychoRouterAddr, 100 ether); vm.expectEmit(); emit Withdrawal(address(0), 100 ether, FUND_RESCUER); tychoRouter.withdrawNative(FUND_RESCUER); assertEq(tychoRouterAddr.balance, 0); assertEq(FUND_RESCUER.balance, 100 ether); vm.stopPrank(); } function testWithdrawNativeFailures() public { vm.deal(tychoRouterAddr, 100 ether); vm.startPrank(FUND_RESCUER); vm.expectRevert(TychoRouter__AddressZero.selector); tychoRouter.withdrawNative(address(0)); vm.stopPrank(); // Not role FUND_RESCUER vm.startPrank(BOB); vm.expectRevert(); tychoRouter.withdrawNative(FUND_RESCUER); vm.stopPrank(); } function testWithdrawERC20Tokens() public { vm.startPrank(BOB); mintTokens(100 ether, tychoRouterAddr); vm.stopPrank(); vm.startPrank(FUND_RESCUER); IERC20[] memory tokensArray = new IERC20[](3); tokensArray[0] = IERC20(address(tokens[0])); tokensArray[1] = IERC20(address(tokens[1])); tokensArray[2] = IERC20(address(tokens[2])); tychoRouter.withdraw(tokensArray, FUND_RESCUER); // Check balances after withdrawing for (uint256 i = 0; i < tokens.length; i++) { // slither-disable-next-line calls-loop assertEq(tokens[i].balanceOf(tychoRouterAddr), 0); // slither-disable-next-line calls-loop assertEq(tokens[i].balanceOf(FUND_RESCUER), 100 ether); } vm.stopPrank(); } function testWithdrawERC20TokensFailures() public { mintTokens(100 ether, tychoRouterAddr); IERC20[] memory tokensArray = new IERC20[](3); tokensArray[0] = IERC20(address(tokens[0])); tokensArray[1] = IERC20(address(tokens[1])); tokensArray[2] = IERC20(address(tokens[2])); vm.startPrank(FUND_RESCUER); vm.expectRevert(TychoRouter__AddressZero.selector); tychoRouter.withdraw(tokensArray, address(0)); vm.stopPrank(); // Not role FUND_RESCUER vm.startPrank(BOB); vm.expectRevert(); tychoRouter.withdraw(tokensArray, FUND_RESCUER); vm.stopPrank(); } function testFeeSetting() public { vm.startPrank(FEE_SETTER); assertEq(tychoRouter.fee(), 0); tychoRouter.setFee(100); assertEq(tychoRouter.fee(), 100); vm.stopPrank(); vm.startPrank(BOB); vm.expectRevert(); tychoRouter.setFee(200); vm.stopPrank(); } function testFeeReceiverSetting() public { vm.startPrank(FEE_SETTER); assertEq(tychoRouter.feeReceiver(), address(0)); tychoRouter.setFeeReceiver(FEE_RECEIVER); assertEq(tychoRouter.feeReceiver(), FEE_RECEIVER); vm.stopPrank(); vm.startPrank(BOB); vm.expectRevert(); tychoRouter.setFeeReceiver(FEE_RECEIVER); vm.stopPrank(); } function testPause() public { vm.startPrank(PAUSER); assertEq(tychoRouter.paused(), false); tychoRouter.pause(); assertEq(tychoRouter.paused(), true); // TODO: test swap calls when implemeted vm.stopPrank(); vm.startPrank(UNPAUSER); tychoRouter.unpause(); assertEq(tychoRouter.paused(), false); vm.stopPrank(); vm.startPrank(UNPAUSER); vm.expectRevert(); tychoRouter.unpause(); vm.stopPrank(); } function testPauseNonRole() public { vm.startPrank(BOB); vm.expectRevert(); tychoRouter.pause(); vm.stopPrank(); } function testWrapETH() public { uint256 amount = 1 ether; vm.deal(BOB, amount); vm.startPrank(BOB); tychoRouter.wrapETH{value: amount}(amount); vm.stopPrank(); assertEq(tychoRouterAddr.balance, 0); assertEq(IERC20(WETH_ADDR).balanceOf(tychoRouterAddr), amount); } function testUnwrapETH() public { uint256 amount = 1 ether; deal(WETH_ADDR, tychoRouterAddr, amount); tychoRouter.unwrapETH(amount); assertEq(tychoRouterAddr.balance, amount); assertEq(IERC20(WETH_ADDR).balanceOf(tychoRouterAddr), 0); } function testSwapSimple() public { // Trade 1 WETH for DAI with 1 swap on Uniswap V2 // 1 WETH -> DAI // (USV2) uint256 amountIn = 1 ether; deal(WETH_ADDR, tychoRouterAddr, amountIn); bytes memory protocolData = encodeUniswapV2Swap( WETH_ADDR, WETH_DAI_POOL, tychoRouterAddr, false ); bytes memory swap = encodeSwap( uint8(0), uint8(1), uint24(0), address(usv2Executor), bytes4(0), protocolData ); bytes[] memory swaps = new bytes[](1); swaps[0] = swap; tychoRouter.exposedSwap(amountIn, 2, pleEncode(swaps)); uint256 daiBalance = IERC20(DAI_ADDR).balanceOf(tychoRouterAddr); assertEq(daiBalance, 2630432278145144658455); assertEq(IERC20(WETH_ADDR).balanceOf(tychoRouterAddr), 0); } function testSwapMultipleHops() public { // Trade 1 WETH for USDC through DAI with 2 swaps on Uniswap V2 // 1 WETH -> DAI -> USDC // (univ2) (univ2) uint256 amountIn = 1 ether; deal(WETH_ADDR, tychoRouterAddr, amountIn); bytes[] memory swaps = new bytes[](2); // WETH -> DAI swaps[0] = encodeSwap( uint8(0), uint8(1), uint24(0), address(usv2Executor), bytes4(0), encodeUniswapV2Swap( WETH_ADDR, WETH_DAI_POOL, tychoRouterAddr, false ) ); // DAI -> USDC swaps[1] = encodeSwap( uint8(1), uint8(2), uint24(0), address(usv2Executor), bytes4(0), encodeUniswapV2Swap(DAI_ADDR, DAI_USDC_POOL, tychoRouterAddr, true) ); tychoRouter.exposedSwap(amountIn, 3, pleEncode(swaps)); uint256 usdcBalance = IERC20(USDC_ADDR).balanceOf(tychoRouterAddr); assertEq(usdcBalance, 2610580090); assertEq(IERC20(WETH_ADDR).balanceOf(tychoRouterAddr), 0); } function testSwapSplitHops() public { // Trade 1 WETH for USDC through DAI and WBTC with 4 swaps on Uniswap V2 // -> DAI -> // 1 WETH USDC // -> WBTC -> // (univ2) (univ2) uint256 amountIn = 1 ether; deal(WETH_ADDR, tychoRouterAddr, amountIn); bytes[] memory swaps = new bytes[](4); // WETH -> WBTC (60%) swaps[0] = encodeSwap( uint8(0), uint8(1), (0xffffff * 60) / 100, // 60% address(usv2Executor), bytes4(0), encodeUniswapV2Swap( WETH_ADDR, WETH_WBTC_POOL, tychoRouterAddr, false ) ); // WBTC -> USDC swaps[1] = encodeSwap( uint8(1), uint8(2), uint24(0), address(usv2Executor), bytes4(0), encodeUniswapV2Swap( WBTC_ADDR, USDC_WBTC_POOL, tychoRouterAddr, true ) ); // WETH -> DAI swaps[2] = encodeSwap( uint8(0), uint8(3), uint24(0), address(usv2Executor), bytes4(0), encodeUniswapV2Swap( WETH_ADDR, WETH_DAI_POOL, tychoRouterAddr, false ) ); // DAI -> USDC swaps[3] = encodeSwap( uint8(3), uint8(2), uint24(0), address(usv2Executor), bytes4(0), encodeUniswapV2Swap(DAI_ADDR, DAI_USDC_POOL, tychoRouterAddr, true) ); tychoRouter.exposedSwap(amountIn, 4, pleEncode(swaps)); uint256 usdcBalance = IERC20(USDC_ADDR).balanceOf(tychoRouterAddr); assertEq(usdcBalance, 2581503157); assertEq(IERC20(WETH_ADDR).balanceOf(tychoRouterAddr), 0); } function testSwapChecked() public { // Trade 1 WETH for DAI with 1 swap on Uniswap V2 // Does permit2 token approval and transfer // Checks amount out at the end uint256 amountIn = 1 ether; deal(WETH_ADDR, ALICE, amountIn); vm.startPrank(ALICE); ( IAllowanceTransfer.PermitSingle memory permitSingle, bytes memory signature ) = handlePermit2Approval(WETH_ADDR, amountIn); bytes memory protocolData = encodeUniswapV2Swap( WETH_ADDR, WETH_DAI_POOL, tychoRouterAddr, false ); bytes memory swap = encodeSwap( uint8(0), uint8(1), uint24(0), address(usv2Executor), bytes4(0), protocolData ); bytes[] memory swaps = new bytes[](1); swaps[0] = swap; uint256 minAmountOut = 2600 * 1e18; uint256 amountOut = tychoRouter.swap( amountIn, WETH_ADDR, DAI_ADDR, minAmountOut, false, false, 2, ALICE, permitSingle, signature, pleEncode(swaps) ); uint256 expectedAmount = 2630432278145144658455; assertEq(amountOut, expectedAmount); uint256 daiBalance = IERC20(DAI_ADDR).balanceOf(ALICE); assertEq(daiBalance, expectedAmount); assertEq(IERC20(WETH_ADDR).balanceOf(ALICE), 0); vm.stopPrank(); } function testSwapCheckedFailure() public { // Trade 1 WETH for DAI with 1 swap on Uniswap V2 // Does permit2 token approval and transfer // Checks amount out at the end and fails uint256 amountIn = 1 ether; deal(WETH_ADDR, ALICE, amountIn); vm.startPrank(ALICE); ( IAllowanceTransfer.PermitSingle memory permitSingle, bytes memory signature ) = handlePermit2Approval(WETH_ADDR, amountIn); bytes memory protocolData = encodeUniswapV2Swap( WETH_ADDR, WETH_DAI_POOL, tychoRouterAddr, false ); bytes memory swap = encodeSwap( uint8(0), uint8(1), uint24(0), address(usv2Executor), bytes4(0), protocolData ); bytes[] memory swaps = new bytes[](1); swaps[0] = swap; uint256 minAmountOut = 3000 * 1e18; vm.expectRevert( abi.encodeWithSelector( TychoRouter__NegativeSlippage.selector, 2630432278145144658455, // actual amountOut minAmountOut ) ); tychoRouter.swap( amountIn, WETH_ADDR, DAI_ADDR, minAmountOut, false, false, 2, ALICE, permitSingle, signature, pleEncode(swaps) ); vm.stopPrank(); } function testSwapFee() public { // Trade 1 WETH for DAI with 1 swap on Uniswap V2 // Does permit2 token approval and transfer // Takes fee at the end vm.startPrank(FEE_SETTER); tychoRouter.setFee(100); tychoRouter.setFeeReceiver(FEE_RECEIVER); vm.stopPrank(); uint256 amountIn = 1 ether; deal(WETH_ADDR, ALICE, amountIn); vm.startPrank(ALICE); ( IAllowanceTransfer.PermitSingle memory permitSingle, bytes memory signature ) = handlePermit2Approval(WETH_ADDR, amountIn); bytes memory protocolData = encodeUniswapV2Swap( WETH_ADDR, WETH_DAI_POOL, tychoRouterAddr, false ); bytes memory swap = encodeSwap( uint8(0), uint8(1), uint24(0), address(usv2Executor), bytes4(0), protocolData ); bytes[] memory swaps = new bytes[](1); swaps[0] = swap; uint256 amountOut = tychoRouter.swap( amountIn, WETH_ADDR, DAI_ADDR, 0, false, false, 2, ALICE, permitSingle, signature, pleEncode(swaps) ); uint256 expectedAmount = 2604127955363693211871; assertEq(amountOut, expectedAmount); uint256 daiBalance = IERC20(DAI_ADDR).balanceOf(ALICE); assertEq(daiBalance, expectedAmount); assertEq(IERC20(DAI_ADDR).balanceOf(FEE_RECEIVER), 26304322781451446584); vm.stopPrank(); } function testSwapWrapETH() public { // Trade 1 ETH (and wrap it) for DAI with 1 swap on Uniswap V2 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, tychoRouterAddr, false ); bytes memory swap = encodeSwap( uint8(0), uint8(1), uint24(0), address(usv2Executor), bytes4(0), protocolData ); bytes[] memory swaps = new bytes[](1); swaps[0] = swap; uint256 amountOut = tychoRouter.swap{value: amountIn}( amountIn, address(0), DAI_ADDR, 0, true, false, 2, ALICE, emptyPermitSingle, "", pleEncode(swaps) ); uint256 expectedAmount = 2630432278145144658455; assertEq(amountOut, expectedAmount); uint256 daiBalance = IERC20(DAI_ADDR).balanceOf(ALICE); assertEq(daiBalance, expectedAmount); assertEq(ALICE.balance, 0); vm.stopPrank(); } function testSwapUnwrapETH() public { // Trade 3k DAI for WETH with 1 swap on Uniswap V2 and unwrap it at the end uint256 amountIn = 3_000 * 10 ** 18; deal(DAI_ADDR, ALICE, amountIn); vm.startPrank(ALICE); ( IAllowanceTransfer.PermitSingle memory permitSingle, bytes memory signature ) = handlePermit2Approval(DAI_ADDR, amountIn); bytes memory protocolData = encodeUniswapV2Swap(DAI_ADDR, WETH_DAI_POOL, tychoRouterAddr, true); bytes memory swap = encodeSwap( uint8(0), uint8(1), uint24(0), address(usv2Executor), bytes4(0), protocolData ); bytes[] memory swaps = new bytes[](1); swaps[0] = swap; uint256 amountOut = tychoRouter.swap( amountIn, DAI_ADDR, address(0), 0, false, true, 2, ALICE, permitSingle, signature, pleEncode(swaps) ); uint256 expectedAmount = 1132829934891544187; // 1.13 ETH assertEq(amountOut, expectedAmount); assertEq(ALICE.balance, expectedAmount); vm.stopPrank(); } function testUSV3Callback() public { uint24 poolFee = 3000; uint256 amountOwed = 1000000000000000000; deal(WETH_ADDR, tychoRouterAddr, amountOwed); uint256 initialPoolReserve = IERC20(WETH_ADDR).balanceOf(DAI_WETH_USV3); vm.startPrank(DAI_WETH_USV3); tychoRouter.uniswapV3SwapCallback( -2631245338449998525223, int256(amountOwed), abi.encodePacked(WETH_ADDR, DAI_ADDR, poolFee) ); vm.stopPrank(); uint256 finalPoolReserve = IERC20(WETH_ADDR).balanceOf(DAI_WETH_USV3); assertEq(finalPoolReserve - initialPoolReserve, amountOwed); } function testSwapSingleUSV3() public { // Trade 1 WETH for DAI with 1 swap on Uniswap V3 // 1 WETH -> DAI // (USV3) uint256 amountIn = 10 ** 18; deal(WETH_ADDR, tychoRouterAddr, amountIn); uint256 expAmountOut = 1205_128428842122129186; //Swap 1 WETH for 1205.12 DAI bool zeroForOne = false; bytes memory protocolData = encodeUniswapV3Swap( WETH_ADDR, DAI_ADDR, tychoRouterAddr, DAI_WETH_USV3, zeroForOne ); bytes memory swap = encodeSwap( uint8(0), uint8(1), uint24(0), address(usv3Executor), bytes4(0), protocolData ); bytes[] memory swaps = new bytes[](1); swaps[0] = swap; tychoRouter.exposedSwap(amountIn, 2, pleEncode(swaps)); uint256 finalBalance = IERC20(DAI_ADDR).balanceOf(tychoRouterAddr); assertGe(finalBalance, expAmountOut); } function testEmptySwapsRevert() public { uint256 amountIn = 10 ** 18; bytes memory swaps = ""; vm.expectRevert(TychoRouter__EmptySwaps.selector); tychoRouter.exposedSwap(amountIn, 2, swaps); } function testSingleSwapIntegration() public { // Test created with calldata from our router encoder, replacing the executor // address with the USV2 executor address. // Tests swapping WETH -> DAI on a USV2 pool deal(WETH_ADDR, ALICE, 1 ether); uint256 balancerBefore = IERC20(DAI_ADDR).balanceOf(ALICE); // Approve permit2 vm.startPrank(ALICE); IERC20(WETH_ADDR).approve(address(permit2Address), type(uint256).max); // Encoded solution generated using `test_split_swap_strategy_encoder_simple` // but manually replacing the executor address // `5c2f5a71f67c01775180adc06909288b4c329308` with the one in this test // `5615deb798bb3e4dfa0139dfa1b3d433cc23b72f` (bool success,) = tychoRouterAddr.call( hex"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" ); vm.stopPrank(); uint256 balancerAfter = IERC20(DAI_ADDR).balanceOf(ALICE); assertTrue(success, "Call Failed"); assertGt(balancerAfter - balancerBefore, 26173932); } function testSingleSwapWithWrapIntegration() public { // Test created with calldata from our router encoder, replacing the executor // address with the USV2 executor address. // 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 balancerBefore = IERC20(DAI_ADDR).balanceOf(ALICE); // Approve permit2 vm.startPrank(ALICE); IERC20(WETH_ADDR).approve(address(permit2Address), type(uint256).max); // Encoded solution generated using // `test_split_swap_strategy_encoder_simple_route_wrap` // but manually replacing the executor address // `5c2f5a71f67c01775180adc06909288b4c329308` with the one in this test // `5615deb798bb3e4dfa0139dfa1b3d433cc23b72f` (bool success,) = tychoRouterAddr.call{value: 1 ether}( hex"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" ); vm.stopPrank(); uint256 balancerAfter = IERC20(DAI_ADDR).balanceOf(ALICE); assertTrue(success, "Call Failed"); assertGt(balancerAfter - balancerBefore, 26173932); } function testSingleSwapWithUnwrapIntegration() public { // Test created with calldata from our router encoder, replacing the executor // address with the USV2 executor address. // 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 balancerBefore = ALICE.balance; // Approve permit2 vm.startPrank(ALICE); IERC20(DAI_ADDR).approve(address(permit2Address), type(uint256).max); // Encoded solution generated using // `test_split_swap_strategy_encoder_simple_route_unwrap` // but manually replacing the executor address // `5c2f5a71f67c01775180adc06909288b4c329308` with the one in this test // `5615deb798bb3e4dfa0139dfa1b3d433cc23b72f` (bool success,) = tychoRouterAddr.call( hex"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" ); vm.stopPrank(); uint256 balancerAfter = ALICE.balance; assertTrue(success, "Call Failed"); assertGt(balancerAfter - balancerBefore, 26173932); } function testSplitSwapIntegration() public { // Test created with calldata from our router encoder, replacing the executor // address with the USV2 executor address. // Performs a split swap from WETH to USDC though WBTC and DAI using USV2 pools // // ┌──(USV2)──> WBTC ───(USV2)──> USDC // WETH ─┤ // └──(USV2)──> DAI ───(USV2)──> USDC deal(WETH_ADDR, ALICE, 1 ether); uint256 balancerBefore = IERC20(USDC_ADDR).balanceOf(ALICE); // Approve permit2 vm.startPrank(ALICE); IERC20(WETH_ADDR).approve(address(permit2Address), type(uint256).max); // Encoded solution generated using `test_split_swap_strategy_encoder_complex` // but manually replacing the executor address // `5c2f5a71f67c01775180adc06909288b4c329308` with the one in this test // `5615deb798bb3e4dfa0139dfa1b3d433cc23b72f` (bool success,) = tychoRouterAddr.call( hex"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" ); vm.stopPrank(); uint256 balancerAfter = IERC20(USDC_ADDR).balanceOf(ALICE); assertTrue(success, "Call Failed"); assertGe(balancerAfter - balancerBefore, 26173932); // All input tokens are transferred to the router at first. Make sure we used // all of it (and thus our splits are correct). assertEq(IERC20(WETH_ADDR).balanceOf(tychoRouterAddr), 0); } function testSwapAmountInNotFullySpent() public { // Trade 1 WETH for DAI with 1 swap on Uniswap V2 // Has invalid data as input! There is only one swap with 60% of the input amount uint256 amountIn = 1 ether; deal(WETH_ADDR, ALICE, amountIn); vm.startPrank(ALICE); ( IAllowanceTransfer.PermitSingle memory permitSingle, bytes memory signature ) = handlePermit2Approval(WETH_ADDR, amountIn); bytes memory protocolData = encodeUniswapV2Swap( WETH_ADDR, WETH_DAI_POOL, tychoRouterAddr, false ); bytes memory swap = encodeSwap( uint8(0), uint8(1), (0xffffff * 60) / 100, // 60% address(usv2Executor), bytes4(0), protocolData ); bytes[] memory swaps = new bytes[](1); swaps[0] = swap; vm.expectRevert( abi.encodeWithSelector( TychoRouter__AmountInNotFullySpent.selector, 400000000000000000 ) ); tychoRouter.swap( amountIn, WETH_ADDR, DAI_ADDR, 0, false, false, 2, ALICE, permitSingle, signature, pleEncode(swaps) ); vm.stopPrank(); } }