// SPDX-License-Identifier: MIT pragma solidity ^0.8.20; import {Test} from "forge-std/Test.sol"; import {IERC20} from "@openzeppelin/contracts/token/ERC20/IERC20.sol"; import { AaveQuotePushFlashReceiver, IAaveExternalUnwinder } from "../../contracts/flash/AaveQuotePushFlashReceiver.sol"; contract AaveForkMockExternalUnwinder is IAaveExternalUnwinder { IERC20 public immutable base; IERC20 public immutable quote; uint256 public immutable numerator; uint256 public immutable denominator; constructor(IERC20 base_, IERC20 quote_, uint256 numerator_, uint256 denominator_) { base = base_; quote = quote_; numerator = numerator_; denominator = denominator_; } function unwind(address tokenIn, address tokenOut, uint256 amountIn, uint256 minAmountOut, bytes calldata) external override returns (uint256 amountOut) { require(tokenIn == address(base), "base only"); require(tokenOut == address(quote), "quote only"); IERC20(tokenIn).transferFrom(msg.sender, address(this), amountIn); amountOut = amountIn * numerator / denominator; require(amountOut >= minAmountOut, "min unwind"); IERC20(address(quote)).transfer(msg.sender, amountOut); } } contract AaveQuotePushFlashReceiverMainnetForkTest is Test { address constant AAVE_POOL_MAINNET = 0x87870Bca3F3fD6335C3F4ce8392D69350B4fA4E2; address constant DODO_PMM_INTEGRATION_MAINNET = 0xa9F284eD010f4F7d7F8F201742b49b9f58e29b84; address constant POOL_CWUSDC_USDC = 0x69776fc607e9edA8042e320e7e43f54d06c68f0E; address constant USDC = 0xA0b86991c6218b36c1d19D4a2e9Eb0cE3606eB48; address constant CWUSDC = 0x2de5F116bFcE3d0f922d9C8351e0c5Fc24b9284a; bool public forkAvailable; AaveQuotePushFlashReceiver internal receiver; AaveForkMockExternalUnwinder internal unwinder; modifier skipIfNoFork() { if (!forkAvailable) { return; } _; } function setUp() public { string memory rpcUrl = vm.envOr("ETHEREUM_MAINNET_RPC", string("")); if (bytes(rpcUrl).length == 0) { forkAvailable = false; return; } try vm.createSelectFork(rpcUrl) { forkAvailable = true; } catch { forkAvailable = false; return; } receiver = new AaveQuotePushFlashReceiver(AAVE_POOL_MAINNET); unwinder = new AaveForkMockExternalUnwinder(IERC20(CWUSDC), IERC20(USDC), 112, 100); // PMM + unwind sizing can require materially more than 100 USDC on a live reserve snapshot. deal(USDC, address(unwinder), 50_000_000_000); // 50k USDC (6 decimals) for mock unwind payouts } function testFork_aaveQuotePush_usesRealAaveAndRealMainnetPmm() public skipIfNoFork { uint256 amount = 2_964_298; // current safe tranche at 120/120 uint256 receiverQuoteBefore = IERC20(USDC).balanceOf(address(receiver)); uint256 poolBaseBefore = IERC20(CWUSDC).balanceOf(POOL_CWUSDC_USDC); uint256 poolQuoteBefore = IERC20(USDC).balanceOf(POOL_CWUSDC_USDC); AaveQuotePushFlashReceiver.QuotePushParams memory p = AaveQuotePushFlashReceiver.QuotePushParams({ integration: DODO_PMM_INTEGRATION_MAINNET, pmmPool: POOL_CWUSDC_USDC, baseToken: CWUSDC, externalUnwinder: address(unwinder), minOutPmm: 2_800_000, minOutUnwind: amount + 1_483, // 5 bps Aave premium unwindData: bytes(""), atomicBridge: AaveQuotePushFlashReceiver.AtomicBridgeParams({ coordinator: address(0), sourceChain: 0, destinationChain: 0, destinationAsset: address(0), bridgeAmount: 0, minDestinationAmount: 0, destinationRecipient: address(0), destinationDeadline: 0, routeId: bytes32(0), settlementMode: bytes32(0), submitCommitment: false }) }); receiver.flashQuotePush(USDC, amount, p); uint256 receiverQuoteAfter = IERC20(USDC).balanceOf(address(receiver)); uint256 poolBaseAfter = IERC20(CWUSDC).balanceOf(POOL_CWUSDC_USDC); uint256 poolQuoteAfter = IERC20(USDC).balanceOf(POOL_CWUSDC_USDC); assertGt(receiverQuoteAfter, receiverQuoteBefore, "receiver retains surplus"); assertEq(IERC20(CWUSDC).balanceOf(address(receiver)), 0, "base fully unwound"); assertLt(poolBaseAfter, poolBaseBefore, "pool base decreased via quote push"); assertGt(poolQuoteAfter, poolQuoteBefore, "pool quote increased via quote push"); } }