github地址:https://github.com/youngqqcn/mynft
- Surge Women合约地址:0x0632aDCab8F12edD3b06F99Dc6078FE1FEDD32B0
- 智能合约源码:surge.sol
- tokenId: 1802
- opensea链接:https://opensea.io/assets/0x0632adcab8f12edd3b06f99dc6078fe1fedd32b0/1802
- token mint 交易链接:https://etherscan.io/tx/0xbede5e44cc631303a22d066cc269f989469742b5bb6d9a74185e146dab9211e4
问题1:NFT(non-fungible token),即非同质化代币,如何理解“非同质化”?在代码层面如何实现的?
答:fungible中文意思是“可互换的”,可互换的东西是没有特殊性的,如果是独一无二的东西则具有了“不可互换的”属性。例如,1元钱的硬币和1元钱的纸钞则可以互换,虽然在形态上不同,但是在作为货币的属性上本质相同,都是代表1元。
至于如何编码实现,前面说了non-fungible的东西必须具备“独一无二”的属性,在编程领域什么东西独一无二呢? 答案很简单,就是唯一的id,用一个整数即可,在solidity中uint256能够表示的整数完全够用。
问题2:NFT的图片(或者音频、视频等)是怎样和智能中tokenId一一对应起来的?
图片等资源文件放在IPFS,智能合约中只存储每个token对应的IPFS上的URI即可。每个NFT项目有一个目录,目录下可以放很多资源文件,在构造合约的时候将目录在IPFS上的URI设置为baseURI,那么每个token的资源文件在IPFS的URI就确定了。例如,某个NFT项目在IPFS上总目录的URI为ipfs://QmYVsw73haPgm9jK9BopsuKtzuxLANjYn75xeHLpht13D5
,tokenId为1802
的token在IPFS上的URI则为ipfs://QmYVsw73haPgm9jK9BopsuKtzuxLANjYn75xeHLpht13D5/1802
。
from web3 import Web3
import json
# https://etherscan.io/tx/0xbede5e44cc631303a22d066cc269f989469742b5bb6d9a74185e146dab9211e4
# https://mainnet.infura.io/v3/8a264f274fd94de48eb290d35db030ab
# contract address is 0x0632aDCab8F12edD3b06F99Dc6078FE1FEDD32B0
from web3 import Web3
my_provider = Web3.HTTPProvider('https://mainnet.infura.io/v3/8a264f274fd94de48eb290d35db030ab')
w3 = Web3(my_provider)
def main():
contract_address = '0x0632aDCab8F12edD3b06F99Dc6078FE1FEDD32B0'
contract_abi = json.load(open('surge.abi', 'r'))
# print(contract_abi)
mycontract = w3.eth.contract(address=contract_address, abi=contract_abi)
name = mycontract.functions.name().call()
print(name)
symbol = mycontract.functions.symbol().call()
print(symbol)
tokenURI = mycontract.functions.tokenURI(1802).call()
print(tokenURI)
pass
if __name__ == '__main__':
main()
运行打印的结果是:
Surge Women Passport
SURGE
ipfs://QmYVsw73haPgm9jK9BopsuKtzuxLANjYn75xeHLpht13D5/1802
项目在IPFS的总目录:
https://ipfs.io/ipfs/QmYVsw73haPgm9jK9BopsuKtzuxLANjYn75xeHLpht13D5
或
https://tth-ipfs.com/ipfs/QmYVsw73haPgm9jK9BopsuKtzuxLANjYn75xeHLpht13D5
ipfs浏览器中的链接:ipfs/Qmaseu2BbetLjA6eU7mQ2THEkjdBum5wq1EfuLAY2AoiEA/1802.png
分析tokenURI函数的代码
function tokenURI(uint256 tokenId) public view virtual override returns (string memory) {
if (!_exists(tokenId)) revert URIQueryForNonexistentToken();
// baseURI是目录的URI
string memory baseURI = _baseURI();
// 将目录的URI和tokenId拼接在一起就是token的URI
return bytes(baseURI).length != 0 ? string(abi.encodePacked(baseURI, tokenId.toString())) : '';
}
而 _baseURI由 Surge合约重写了父合约的_baseURI函数。Surge合约在构造函数中设置了baseURI,也就是在构造合约时已经设置了baseURI
constructor(
string memory _name,
string memory _symbol,
string memory _baseTokenURI,
uint128 _price,
address _receiver,
uint256 _royalties
) payable ERC721A(_name, _symbol) {
setBaseURI(_baseTokenURI);
setPrice(_price);
setRoyalties(_receiver, _royalties);
}
presaleMint为什么要用到merkleProof?
项目方做了预售,对所有参加预售的地址构造了一棵merkle tree,并将merkle root填入智能合约,调用presale的地址必须在merkle tree中。
使用merkle tree可以隐藏了具体地址。
/// @notice Presale minting verifies callers address is in Merkle Root
/// @param _amountOfTokens Amount of tokens to mint
/// @param _merkleProof Hash of the callers address used to verify the location of that address in the Merkle Root
function presaleMint(uint256 _amountOfTokens, bytes32[] calldata _merkleProof)
external
payable
verifyMaxPerUser(msg.sender, _amountOfTokens)
verifyMaxSupply(_amountOfTokens)
isEnoughEth(_amountOfTokens)
{
require(status == SaleStatus.Presale, "Presale not active");
bytes32 leaf = keccak256(abi.encodePacked(msg.sender));
require(MerkleProof.verify(_merkleProof, merkleRoot, leaf), "Not in presale list");
_mintedAmount[msg.sender] += _amountOfTokens;
_safeMint(msg.sender, _amountOfTokens);
}
设置merkle root https://etherscan.io/tx/0x4d6e0c07516115b8a803f77fe3067d52091c8d888eecb8f60fe897a68501ea27
/// @notice Set Presale Merkle Root
/// @param _merkleRoot Merkle Root hash
function setMerkleRoot(bytes32 _merkleRoot) public onlyOwner {
merkleRoot = _merkleRoot;
}
presale
https://etherscan.io/tx/0x387dd09362758758b52d56dd2093724039fbd5592b13613cc347a2c1a216b581
同一个地址2次调用presale,那么它提供的merkle proof两次肯定是一样的。 https://etherscan.io/tx/0x5c76c3e78933ccc9f50e3a6f979226c02b9ab96ed320cbd68d4fbf3361c2b366 https://etherscan.io/tx/0xe64591ba680b9fb18f3bac61a20b7343801f03a9905d1f260df4d945089a056e