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NftReceiveHooksAuction.t.sol
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NftReceiveHooksAuction.t.sol
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// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.17;
import "solmate/tokens/ERC721.sol";
import "../patterns/nft-receive-hooks/NftReceiveHooksAuction.sol";
import "./TestUtils.sol";
contract NftReceiveHooksAuctionTest is TestUtils {
NftReceiveHooksAuction ah = new NftReceiveHooksAuction();
TestERC721 token = new TestERC721();
event AuctionCreated(
bytes32 id,
address seller,
IERC721 token,
uint256 tokenId,
uint256 reservePrice,
uint256 endTime
);
event Bid(bytes32 auctionId, address bidder, uint256 amount);
event Settled(bytes32 auctionId, address topBidder, uint256 topBid);
function test_canCreateAuction() external {
address seller = _randomAddress();
uint256 tokenId = token.mint(seller);
uint256 reservePrice = 1;
uint256 duration = 1 days;
bytes32 auctionId = _getAuctionId(tokenId);
vm.expectEmit(false, false, false, true);
emit AuctionCreated(
auctionId,
seller,
IERC721(address(token)),
tokenId,
reservePrice,
block.timestamp + duration
);
vm.prank(seller);
token.safeTransferFrom(
seller,
address(ah),
tokenId,
abi.encode(reservePrice, duration)
);
assertEq(token.ownerOf(tokenId), address(ah));
}
function test_cannotCreateAuctionWithBadReservePrice() external {
address seller = _randomAddress();
uint256 tokenId = token.mint(seller);
uint256 reservePrice = 0;
uint256 duration = 1 days;
vm.expectRevert('invalid reserve price');
vm.prank(seller);
token.safeTransferFrom(
seller,
address(ah),
tokenId,
abi.encode(reservePrice, duration)
);
}
function test_cannotCreateAuctionWithBadDuration() external {
address seller = _randomAddress();
uint256 tokenId = token.mint(seller);
uint256 reservePrice = 1;
uint256 duration = 0;
vm.expectRevert('invalid duration');
vm.prank(seller);
token.safeTransferFrom(
seller,
address(ah),
tokenId,
abi.encode(reservePrice, duration)
);
}
function test_canBidOnAuction() external {
address seller = _randomAddress();
uint256 tokenId = token.mint(seller);
uint256 reservePrice = 1;
uint256 duration = 1 days;
bytes32 auctionId = _getAuctionId(tokenId);
vm.prank(seller);
token.safeTransferFrom(
seller,
address(ah),
tokenId,
abi.encode(reservePrice, duration)
);
address bidder1 = _randomAddress();
vm.deal(bidder1, 1);
vm.prank(bidder1);
vm.expectEmit(false, false, false, true);
emit Bid(auctionId, bidder1, 1);
ah.bid{ value: 1 }(auctionId);
address bidder2 = _randomAddress();
vm.deal(bidder2, 2);
vm.prank(bidder2);
vm.expectEmit(false, false, false, true);
emit Bid(auctionId, bidder2, 2);
ah.bid{ value: 2 }(auctionId);
assertEq(bidder1.balance, 1);
}
function test_cannotBidTooLow() external {
address seller = _randomAddress();
uint256 tokenId = token.mint(seller);
uint256 reservePrice = 2;
uint256 duration = 1 days;
bytes32 auctionId = _getAuctionId(tokenId);
vm.prank(seller);
token.safeTransferFrom(
seller,
address(ah),
tokenId,
abi.encode(reservePrice, duration)
);
address bidder1 = _randomAddress();
vm.deal(bidder1, 1);
vm.expectRevert('bid too low');
vm.prank(bidder1);
ah.bid{ value:1 }(auctionId);
}
function test_cannotBidOnInvalidAuction() external {
address bidder1 = _randomAddress();
vm.deal(bidder1, 1);
vm.expectRevert('auction over');
vm.prank(bidder1);
ah.bid{ value:1 }(_randomBytes32());
}
function test_canSettleWon() external {
address seller = _randomAddress();
uint256 tokenId = token.mint(seller);
uint256 reservePrice = 1;
uint256 duration = 1 days;
bytes32 auctionId = _getAuctionId(tokenId);
vm.prank(seller);
token.safeTransferFrom(
seller,
address(ah),
tokenId,
abi.encode(reservePrice, duration)
);
address bidder1 = _randomAddress();
vm.deal(bidder1, 1);
vm.prank(bidder1);
ah.bid{ value: 1 }(auctionId);
skip(duration);
vm.expectEmit(false, false, false, true);
emit Settled(auctionId, bidder1, 1);
ah.settle(auctionId);
assertEq(bidder1.balance, 0);
assertEq(seller.balance, 1);
assertEq(token.ownerOf(tokenId), bidder1);
}
function test_canSettleLost() external {
address seller = _randomAddress();
uint256 tokenId = token.mint(seller);
uint256 reservePrice = 1;
uint256 duration = 1 days;
bytes32 auctionId = _getAuctionId(tokenId);
vm.prank(seller);
token.safeTransferFrom(
seller,
address(ah),
tokenId,
abi.encode(reservePrice, duration)
);
skip(duration);
vm.expectEmit(false, false, false, true);
emit Settled(auctionId, address(0), 0);
ah.settle(auctionId);
assertEq(token.ownerOf(tokenId), seller);
}
function test_cannotSettleTwice() external {
address seller = _randomAddress();
uint256 tokenId = token.mint(seller);
uint256 reservePrice = 1;
uint256 duration = 1 days;
bytes32 auctionId = _getAuctionId(tokenId);
vm.prank(seller);
token.safeTransferFrom(
seller,
address(ah),
tokenId,
abi.encode(reservePrice, duration)
);
skip(duration);
ah.settle(auctionId);
vm.expectRevert('invalid auction');
ah.settle(auctionId);
}
function test_cannotSettleEarly() external {
address seller = _randomAddress();
uint256 tokenId = token.mint(seller);
uint256 reservePrice = 1;
uint256 duration = 1 days;
bytes32 auctionId = _getAuctionId(tokenId);
vm.prank(seller);
token.safeTransferFrom(
seller,
address(ah),
tokenId,
abi.encode(reservePrice, duration)
);
skip(duration - 1);
vm.expectRevert('not over');
ah.settle(auctionId);
}
function test_cannotBidAfterSettle() external {
address seller = _randomAddress();
uint256 tokenId = token.mint(seller);
uint256 reservePrice = 1;
uint256 duration = 1 days;
bytes32 auctionId = _getAuctionId(tokenId);
vm.prank(seller);
token.safeTransferFrom(
seller,
address(ah),
tokenId,
abi.encode(reservePrice, duration)
);
skip(duration);
ah.settle(auctionId);
address bidder1 = _randomAddress();
vm.deal(bidder1, 1);
vm.prank(bidder1);
vm.expectRevert('auction over');
ah.bid{ value: 1 }(auctionId);
}
function _getAuctionId(uint256 tokenId) private view returns (bytes32) {
return keccak256(abi.encode(token, tokenId));
}
}
contract TestERC721 is ERC721 {
uint256 lastTokenId;
constructor() ERC721('Dummy', 'DUM') {}
function tokenURI(uint256 tokenId) public override pure returns (string memory r) {}
function mint(address owner) external returns (uint256 tokenId) {
tokenId = ++lastTokenId;
_mint(owner, tokenId);
}
}