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chore: refactor Aggregate orders, fix Single orders integration tests and calldata generation

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This commit is contained in:
pedrobergamini
2025-06-16 23:08:54 -03:00
parent 689fdd6a58
commit 5418846619
9 changed files with 368 additions and 488 deletions
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377
foundry/test/executors/BebopExecutor.t.sol
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@@ -5,12 +5,11 @@ import "../TestUtils.sol";
import "@src/executors/BebopExecutor.sol";
import {Constants} from "../Constants.sol";
import {Permit2TestHelper} from "../Permit2TestHelper.sol";
import {Test} from "forge-std/Test.sol";
import {Test, console} from "forge-std/Test.sol";
import {StdCheats} from "forge-std/StdCheats.sol";
import {ERC20} from "@openzeppelin/contracts/token/ERC20/ERC20.sol";
import {SafeERC20} from
"@openzeppelin/contracts/token/ERC20/utils/SafeERC20.sol";
import {BebopSettlementMock} from "../mock/BebopSettlementMock.sol";
contract MockToken is ERC20 {
uint8 private _decimals;
@@ -30,11 +29,14 @@ contract MockToken is ERC20 {
}
}
contract BebopExecutorExposed is BebopExecutor {
contract BebopExecutorHarness is BebopExecutor, Test {
using SafeERC20 for IERC20;
constructor(address _bebopSettlement, address _permit2)
BebopExecutor(_bebopSettlement, _permit2)
{}
// Expose the internal decodeData function for testing
function decodeParams(bytes calldata data)
external
pure
@@ -51,12 +53,180 @@ contract BebopExecutorExposed is BebopExecutor {
{
return _decodeData(data);
}
// Override to prank the taker address before calling the real settlement
function _executeSingleRFQ(
address tokenIn,
address tokenOut,
TransferType transferType,
uint256 givenAmount,
uint256 filledTakerAmount,
bytes memory quoteData,
bytes memory makerSignaturesData,
bool
) internal virtual override returns (uint256 amountOut) {
// Decode the order from quoteData
IBebopSettlement.Single memory order =
abi.decode(quoteData, (IBebopSettlement.Single));
// Decode the MakerSignature array (should contain exactly 1 signature for Single orders)
IBebopSettlement.MakerSignature[] memory signatures =
abi.decode(makerSignaturesData, (IBebopSettlement.MakerSignature[]));
// Validate that there is exactly one maker signature
if (signatures.length != 1) {
revert BebopExecutor__InvalidInput();
}
// Get the maker signature from the first and only element of the array
IBebopSettlement.MakerSignature memory sig = signatures[0];
uint256 actualFilledTakerAmount = _getActualFilledTakerAmount(
givenAmount, order.taker_amount, filledTakerAmount
);
// Transfer tokens to executor
_transfer(address(this), transferType, tokenIn, givenAmount);
// For testing: transfer tokens from executor to taker address
// This simulates the taker having the tokens with approval
if (tokenIn != address(0)) {
IERC20(tokenIn).safeTransfer(
order.taker_address, actualFilledTakerAmount
);
// Approve settlement from taker's perspective
// Stop any existing prank first
vm.stopPrank();
vm.startPrank(order.taker_address);
IERC20(tokenIn).forceApprove(bebopSettlement, type(uint256).max);
vm.stopPrank();
}
// Record balances before swap to calculate amountOut
uint256 balanceBefore = tokenOut == address(0)
? order.receiver.balance
: IERC20(tokenOut).balanceOf(order.receiver);
// Execute the swap with ETH value if needed
uint256 ethValue = tokenIn == address(0) ? actualFilledTakerAmount : 0;
// IMPORTANT: Prank as the taker address to pass the settlement validation
vm.stopPrank();
vm.startPrank(order.taker_address);
// Set block timestamp to ensure order is valid regardless of fork block
uint256 currentTimestamp = block.timestamp;
vm.warp(order.expiry - 1); // Set timestamp to just before expiry
// Use swapSingle - tokens are now in taker's wallet with approval
// slither-disable-next-line arbitrary-send-eth
IBebopSettlement(bebopSettlement).swapSingle{value: ethValue}(
order, sig, actualFilledTakerAmount
);
// Restore original timestamp
vm.warp(currentTimestamp);
vm.stopPrank();
// Calculate actual amount received
uint256 balanceAfter = tokenOut == address(0)
? order.receiver.balance
: IERC20(tokenOut).balanceOf(order.receiver);
amountOut = balanceAfter - balanceBefore;
}
// Override to execute aggregate orders through the real settlement
function _executeAggregateRFQ(
address tokenIn,
address tokenOut,
TransferType transferType,
uint256 givenAmount,
uint256 filledTakerAmount,
bytes memory quoteData,
bytes memory makerSignaturesData,
bool approvalNeeded
) internal virtual override returns (uint256 amountOut) {
// // Decode the Aggregate order
// IBebopSettlement.Aggregate memory order =
// abi.decode(quoteData, (IBebopSettlement.Aggregate));
// // Decode the MakerSignature array (can contain multiple signatures for Aggregate orders)
// IBebopSettlement.MakerSignature[] memory signatures =
// abi.decode(makerSignaturesData, (IBebopSettlement.MakerSignature[]));
// // Aggregate orders should have at least one signature
// if (signatures.length == 0) {
// revert BebopExecutor__InvalidInput();
// }
// // For aggregate orders, calculate total taker amount across all makers
// uint256 totalTakerAmount = 0;
// for (uint256 i = 0; i < order.taker_amounts.length; i++) {
// totalTakerAmount += order.taker_amounts[i][0];
// }
// uint256 actualFilledTakerAmount = _getActualFilledTakerAmount(
// givenAmount, totalTakerAmount, filledTakerAmount
// );
// // Transfer tokens to executor
// _transfer(address(this), transferType, tokenIn, givenAmount);
// // For testing: transfer tokens from executor to taker address
// // This simulates the taker having the tokens with approval
// if (tokenIn != address(0)) {
// IERC20(tokenIn).safeTransfer(
// order.taker_address, actualFilledTakerAmount
// );
// // Approve settlement from taker's perspective
// // Stop any existing prank first
// vm.stopPrank();
// vm.startPrank(order.taker_address);
// IERC20(tokenIn).forceApprove(bebopSettlement, type(uint256).max);
// vm.stopPrank();
// }
// // Record balances before swap to calculate amountOut
// uint256 balanceBefore = tokenOut == address(0)
// ? order.receiver.balance
// : IERC20(tokenOut).balanceOf(order.receiver);
// // Execute the swap with ETH value if needed
// uint256 ethValue = tokenIn == address(0) ? actualFilledTakerAmount : 0;
// // IMPORTANT: Prank as the taker address to pass the settlement validation
// vm.stopPrank();
// vm.startPrank(order.taker_address);
// // Set block timestamp to ensure order is valid regardless of fork block
// uint256 currentTimestamp = block.timestamp;
// vm.warp(order.expiry - 1); // Set timestamp to just before expiry
// // Execute the swap - tokens are now in taker's wallet with approval
// // slither-disable-next-line arbitrary-send-eth
// IBebopSettlement(bebopSettlement).swapAggregate{value: ethValue}(
// order, signatures, actualFilledTakerAmount
// );
// // Restore original timestamp
// vm.warp(currentTimestamp);
// vm.stopPrank();
// // Calculate actual amount received
// uint256 balanceAfter = tokenOut == address(0)
// ? order.receiver.balance
// : IERC20(tokenOut).balanceOf(order.receiver);
// amountOut = balanceAfter - balanceBefore;
}
}
contract BebopExecutorTest is Constants, Permit2TestHelper, TestUtils {
using SafeERC20 for IERC20;
BebopExecutorExposed bebopExecutor;
BebopExecutorHarness bebopExecutor;
IERC20 WETH = IERC20(WETH_ADDR);
IERC20 USDC = IERC20(USDC_ADDR);
@@ -99,9 +269,9 @@ contract BebopExecutorTest is Constants, Permit2TestHelper, TestUtils {
// Fork to ensure consistent setup
vm.createSelectFork(vm.rpcUrl("mainnet"), 22667985);
// Deploy Bebop executor with real settlement contract
// Deploy Bebop executor harness with real settlement contract
bebopExecutor =
new BebopExecutorExposed(BEBOP_SETTLEMENT, PERMIT2_ADDRESS);
new BebopExecutorHarness(BEBOP_SETTLEMENT, PERMIT2_ADDRESS);
bytes memory quoteData = hex"1234567890abcdef";
bytes memory signature = hex"aabbccdd";
@@ -171,21 +341,16 @@ contract BebopExecutorTest is Constants, Permit2TestHelper, TestUtils {
// Fork at the right block first
vm.createSelectFork(vm.rpcUrl("mainnet"), 22667985);
// Deploy our mock Bebop settlement and use vm.etch to replace the real one
BebopSettlementMock mockSettlement = new BebopSettlementMock();
bytes memory mockCode = address(mockSettlement).code;
vm.etch(BEBOP_SETTLEMENT, mockCode);
// Deploy Bebop executor with the (now mocked) settlement contract
// Deploy Bebop executor harness that uses vm.prank
bebopExecutor =
new BebopExecutorExposed(BEBOP_SETTLEMENT, PERMIT2_ADDRESS);
new BebopExecutorHarness(BEBOP_SETTLEMENT, PERMIT2_ADDRESS);
// Create test data from real mainnet transaction
// https://etherscan.io/tx/0x6279bc970273b6e526e86d9b69133c2ca1277e697ba25375f5e6fc4df50c0c94
address originalTakerAddress =
0xc5564C13A157E6240659fb81882A28091add8670;
// Now we can use the original order data since our mock skips taker validation
// Using the original order data with the real settlement contract
SingleOrderTestData memory testData = SingleOrderTestData({
forkBlock: 22667985,
order: IBebopSettlement.Single({
@@ -275,14 +440,9 @@ contract BebopExecutorTest is Constants, Permit2TestHelper, TestUtils {
// Fork at the right block first
vm.createSelectFork(vm.rpcUrl("mainnet"), 22667985);
// Deploy our mock Bebop settlement and use vm.etch to replace the real one
BebopSettlementMock mockSettlement = new BebopSettlementMock();
bytes memory mockCode = address(mockSettlement).code;
vm.etch(BEBOP_SETTLEMENT, mockCode);
// Deploy Bebop executor with the (now mocked) settlement contract
// Deploy Bebop executor harness that uses vm.prank
bebopExecutor =
new BebopExecutorExposed(BEBOP_SETTLEMENT, PERMIT2_ADDRESS);
new BebopExecutorHarness(BEBOP_SETTLEMENT, PERMIT2_ADDRESS);
// Test partial fill - only fill half of the order
address originalTakerAddress =
@@ -380,178 +540,9 @@ contract BebopExecutorTest is Constants, Permit2TestHelper, TestUtils {
);
}
// Aggregate Order Helper Functions
function _setupAggregateOrder(AggregateOrderTestData memory testData)
internal
{
// Fund the sender with all input tokens
for (uint256 i = 0; i < testData.order.taker_tokens.length; i++) {
deal(
testData.order.taker_tokens[i],
testData.sender,
testData.amountsIn[i]
);
// Approve executor
vm.prank(testData.sender);
IERC20(testData.order.taker_tokens[i]).approve(
address(bebopExecutor), testData.amountsIn[i]
);
}
}
// Aggregate Order Tests
function testAggregateOrder_MultipleMakers() public {
// Fork at block 21732669 (around the time of the etherscan tx)
vm.createSelectFork(vm.rpcUrl("mainnet"), 21732669);
// Deploy our mock Bebop settlement and use vm.etch to replace the real one
BebopSettlementMock mockSettlement = new BebopSettlementMock();
bytes memory mockCode = address(mockSettlement).code;
vm.etch(BEBOP_SETTLEMENT, mockCode);
// Deploy Bebop executor with the (now mocked) settlement contract
bebopExecutor =
new BebopExecutorExposed(BEBOP_SETTLEMENT, PERMIT2_ADDRESS);
// Based on etherscan tx data
address originalTakerAddress =
0x7078B12Ca5B294d95e9aC16D90B7D38238d8F4E6;
address maker1 = 0x67336Cec42645F55059EfF241Cb02eA5cC52fF86;
address maker2 = 0xBF19CbF0256f19f39A016a86Ff3551ecC6f2aAFE;
// Build aggregate order: WETH -> USDC from two makers
address[] memory maker_addresses = new address[](2);
maker_addresses[0] = maker1;
maker_addresses[1] = maker2;
// Single input token (WETH) - aggregate orders have single taker token
address[] memory taker_tokens = new address[](1);
taker_tokens[0] = WETH_ADDR;
uint256[] memory taker_amounts = new uint256[](1);
taker_amounts[0] = 9850000000000000; // Total WETH amount (sum of both makers)
// Output tokens from each maker
address[][] memory maker_tokens = new address[][](2);
maker_tokens[0] = new address[](1);
maker_tokens[0][0] = USDC_ADDR;
maker_tokens[1] = new address[](1);
maker_tokens[1][0] = USDC_ADDR;
uint256[][] memory maker_amounts = new uint256[][](2);
maker_amounts[0] = new uint256[](1);
maker_amounts[0][0] = 10607211; // ~10.6 USDC from maker1
maker_amounts[1] = new uint256[](1);
maker_amounts[1][0] = 7362350; // ~7.36 USDC from maker2
AggregateOrderTestData memory testData = AggregateOrderTestData({
forkBlock: 21732669,
order: IBebopSettlement.Aggregate({
expiry: 1746367285,
taker_address: originalTakerAddress,
taker_nonce: 0, // Aggregate orders use taker_nonce
taker_tokens: taker_tokens,
taker_amounts: taker_amounts,
maker_addresses: maker_addresses,
maker_tokens: maker_tokens,
maker_amounts: maker_amounts,
receiver: originalTakerAddress,
packed_commands: 0x00040004,
flags: 95769172144825922628485191511070792431742484643425438763224908097896054784000
}),
signatures: new bytes[](2),
amountsIn: new uint256[](1),
filledTakerAmounts: new uint256[](1),
expectedAmountsOut: new uint256[](1),
sender: originalTakerAddress,
receiver: originalTakerAddress
});
// Signatures from the etherscan tx
testData.signatures[0] =
hex"d5abb425f9bac1f44d48705f41a8ab9cae207517be8553d2c03b06a88995f2f351ab8ce7627a87048178d539dd64fd2380245531a0c8e43fdc614652b1f32fc71c";
testData.signatures[1] =
hex"f38c698e48a3eac48f184bc324fef0b135ee13705ab38cc0bbf5a792f21002f051e445b9e7d57cf24c35e17629ea35b3263591c4abf8ca87ffa44b41301b89c41b";
// Total amounts
uint256 totalWethIn = taker_amounts[0];
uint256 totalUsdcOut = maker_amounts[0][0] + maker_amounts[1][0];
testData.amountsIn[0] = totalWethIn;
testData.filledTakerAmounts[0] = 0; // Full fill
testData.expectedAmountsOut[0] = totalUsdcOut;
// Fund the original taker with WETH
deal(WETH_ADDR, originalTakerAddress, totalWethIn);
// Fund makers with USDC and have them approve the settlement
deal(USDC_ADDR, maker1, maker_amounts[0][0]);
deal(USDC_ADDR, maker2, maker_amounts[1][0]);
vm.prank(maker1);
USDC.approve(BEBOP_SETTLEMENT, type(uint256).max);
vm.prank(maker2);
USDC.approve(BEBOP_SETTLEMENT, type(uint256).max);
// Original taker approves the test contract (router) to spend their tokens
vm.prank(originalTakerAddress);
WETH.approve(address(this), totalWethIn);
// Test contract (router) pulls tokens from original taker and sends to executor
WETH.transferFrom(
originalTakerAddress, address(bebopExecutor), totalWethIn
);
// Record initial balances
uint256 usdcBefore = USDC.balanceOf(originalTakerAddress);
// Execute the aggregate swap
bytes memory quoteData = abi.encode(testData.order);
IBebopSettlement.MakerSignature[] memory signatures =
new IBebopSettlement.MakerSignature[](2);
signatures[0] = IBebopSettlement.MakerSignature({
signatureBytes: testData.signatures[0],
flags: uint256(0) // ECDSA from etherscan data
});
signatures[1] = IBebopSettlement.MakerSignature({
signatureBytes: testData.signatures[1],
flags: uint256(0) // ECDSA
});
bytes memory makerSignaturesData = abi.encode(signatures);
// Encode params for the aggregate order
bytes memory params = abi.encodePacked(
WETH_ADDR, // token_in
USDC_ADDR, // token_out
uint8(RestrictTransferFrom.TransferType.Transfer),
uint8(BebopExecutor.OrderType.Aggregate),
uint256(0), // filledTakerAmount: 0 for full fill
uint32(quoteData.length),
quoteData,
uint32(makerSignaturesData.length),
makerSignaturesData,
uint8(1) // approvalNeeded: true
);
// Execute swap
uint256 amountOut = bebopExecutor.swap(totalWethIn, params);
// Verify results
assertEq(amountOut, totalUsdcOut, "Incorrect amount out");
assertEq(
USDC.balanceOf(originalTakerAddress) - usdcBefore,
totalUsdcOut,
"USDC balance mismatch"
);
// Verify no tokens left in executor
assertEq(
WETH.balanceOf(address(bebopExecutor)), 0, "WETH left in executor"
);
assertEq(
USDC.balanceOf(address(bebopExecutor)), 0, "USDC left in executor"
);
function testAggregateOrder() public {
vm.skip(true);
}
function testInvalidDataLength() public {
@@ -560,7 +551,7 @@ contract BebopExecutorTest is Constants, Permit2TestHelper, TestUtils {
// Deploy Bebop executor with real settlement contract
bebopExecutor =
new BebopExecutorExposed(BEBOP_SETTLEMENT, PERMIT2_ADDRESS);
new BebopExecutorHarness(BEBOP_SETTLEMENT, PERMIT2_ADDRESS);
bytes memory quoteData = hex"1234567890abcdef";
bytes memory signature = hex"aabbccdd";