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LilFlashloan.t.sol
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LilFlashloan.t.sol
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// SPDX-License-Identifier: AGPL-3.0-only
pragma solidity ^0.8.10;
import './Hevm.sol';
import 'ds-test/test.sol';
import '../LilFlashloan.sol';
contract User {}
contract TestToken is ERC20('Test Token', 'TEST', 18) {
function mintTo(address to, uint256 amount) public payable {
_mint(to, amount);
}
}
contract TestReceiver is FlashBorrower, DSTest {
bytes32 internal testData;
bool internal shouldRepay = true;
bool internal shouldPayFees = true;
function setTestData(bytes calldata data) public payable {
testData = bytes32(data);
}
function setRepay(bool _shouldRepay) public payable {
shouldRepay = _shouldRepay;
}
function setRespectFees(bool _shouldPayFees) public payable {
shouldPayFees = _shouldPayFees;
}
function onFlashLoan(
ERC20 token,
uint256 amount,
bytes calldata data
) external {
assertEq(testData, bytes32(data));
if (!shouldRepay) return;
token.transfer(msg.sender, amount);
if (!shouldPayFees) return;
uint256 owedFees = LilFlashloan(msg.sender).getFee(token, amount);
TestToken(address(token)).mintTo(msg.sender, owedFees);
}
}
contract LilFlashloanTest is DSTest {
User internal user;
Hevm internal hevm;
TestToken internal token;
TestReceiver internal receiver;
LilFlashloan internal lilFlashloan;
event FeeUpdated(ERC20 indexed token, uint256 fee);
event Withdrawn(ERC20 indexed token, uint256 amount);
event Transfer(address indexed from, address indexed to, uint256 amount);
event Flashloaned(FlashBorrower indexed receiver, ERC20 indexed token, uint256 amount);
function setUp() public {
user = new User();
token = new TestToken();
hevm = Hevm(HEVM_ADDRESS);
receiver = new TestReceiver();
lilFlashloan = new LilFlashloan();
}
function testCanFlashloan() public {
token.mintTo(address(lilFlashloan), 100 ether);
hevm.expectEmit(true, true, false, true);
emit Flashloaned(receiver, token, 100 ether);
hevm.expectEmit(true, true, false, true);
emit Transfer(address(lilFlashloan), address(receiver), 100 ether);
hevm.expectEmit(true, true, false, true);
emit Transfer(address(receiver), address(lilFlashloan), 100 ether);
lilFlashloan.execute(receiver, token, 100 ether, '');
assertEq(token.balanceOf(address(lilFlashloan)), 100 ether);
}
function testDataIsForwarded() public {
receiver.setTestData('forwarded data');
token.mintTo(address(lilFlashloan), 100 ether);
lilFlashloan.execute(receiver, token, 100 ether, 'forwarded data');
}
function testCanFlashloanWithFees() public {
token.mintTo(address(lilFlashloan), 100 ether);
// set 10% fee for token
lilFlashloan.setFees(token, 10_00);
lilFlashloan.execute(receiver, token, 100 ether, '');
assertEq(token.balanceOf(address(lilFlashloan)), 110 ether);
}
function testCannotFlasloanIfNotEnoughBalance() public {
token.mintTo(address(lilFlashloan), 1 ether);
hevm.expectRevert(stdError.arithmeticError); // error comes from ERC20 impl. (solmate in this test)
lilFlashloan.execute(receiver, token, 2 ether, '');
assertEq(token.balanceOf(address(lilFlashloan)), 1 ether);
}
function testFlashloanRevertsIfNotRepaid() public {
receiver.setRepay(false);
token.mintTo(address(lilFlashloan), 100 ether);
hevm.expectRevert(abi.encodeWithSignature('TokensNotReturned()'));
lilFlashloan.execute(receiver, token, 100 ether, '');
assertEq(token.balanceOf(address(lilFlashloan)), 100 ether);
}
function testFlashloanRevertsIfNotFeesNotPaid() public {
receiver.setRespectFees(false);
// set 10% fee for token
lilFlashloan.setFees(token, 10_00);
token.mintTo(address(lilFlashloan), 100 ether);
hevm.expectRevert(abi.encodeWithSignature('TokensNotReturned()'));
lilFlashloan.execute(receiver, token, 100 ether, '');
assertEq(token.balanceOf(address(lilFlashloan)), 100 ether);
}
function testManagerCanSetFees() public {
assertEq(lilFlashloan.fees(token), 0);
hevm.expectEmit(true, false, false, true);
emit FeeUpdated(token, 10_00);
// set 10% fee for token
lilFlashloan.setFees(token, 10_00);
assertEq(lilFlashloan.fees(token), 10_00);
}
function testCannotSetFeesHigherThan100Percent() public {
assertEq(lilFlashloan.fees(token), 0);
hevm.expectRevert(abi.encodeWithSignature('InvalidPercentage()'));
lilFlashloan.setFees(token, 101_00);
assertEq(lilFlashloan.fees(token), 0);
}
function testNonManagerCannotSetFees() public {
assertEq(lilFlashloan.fees(token), 0);
hevm.prank(address(user));
hevm.expectRevert(abi.encodeWithSignature('Unauthorized()'));
lilFlashloan.setFees(token, 10_00);
assertEq(lilFlashloan.fees(token), 0);
}
function testManagerCanWithdrawTokens() public {
token.mintTo(address(lilFlashloan), 10 ether);
assertEq(token.balanceOf(address(this)), 0);
hevm.expectEmit(true, false, false, true);
emit Withdrawn(token, 10 ether);
lilFlashloan.withdraw(token, 10 ether);
assertEq(token.balanceOf(address(this)), 10 ether);
assertEq(token.balanceOf(address(lilFlashloan)), 0);
}
function testNonManagerCannotWithdrawTokens() public {
token.mintTo(address(lilFlashloan), 10 ether);
assertEq(token.balanceOf(address(user)), 0);
hevm.prank(address(user));
hevm.expectRevert(abi.encodeWithSignature('Unauthorized()'));
lilFlashloan.withdraw(token, 10 ether);
assertEq(token.balanceOf(address(user)), 0);
assertEq(token.balanceOf(address(lilFlashloan)), 10 ether);
}
}