Michael.W基于Foundry精读Openzeppelin第62期——ERC1967Proxy.sol

  • Michael.W
  • 更新于 2024-07-04 09:40
  • 阅读 963

ERC1967Proxy库实现了一个基于ERC1967标准的代理合约。通过改变存储于ERC1967标准规定的_IMPLEMENTATION_SLOT号slot中的代理合约地址,代理合约便实现了合约逻辑可升级的功能。

0. 版本

[openzeppelin]:v4.8.3,[forge-std]:v1.5.6

0.1 ERC1967Proxy.sol

Github: https://github.com/OpenZeppelin/openzeppelin-contracts/blob/v4.8.3/contracts/proxy/ERC1967/ERC1967Proxy.sol

ERC1967Proxy库实现了一个基于ERC1967标准的代理合约。通过改变存储于ERC1967标准规定的_IMPLEMENTATION_SLOT号slot中的代理合约地址,代理合约便实现了合约逻辑可升级的功能。

ERC1967详情参见:https://eips.ethereum.org/EIPS/eip-1967

1. 目标合约

继承ERC1967Proxy合约:

Github: https://github.com/RevelationOfTuring/foundry-openzeppelin-contracts/blob/master/src/proxy/ERC1967/MockERC1967Proxy.sol

// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.0;

import "openzeppelin-contracts/contracts/proxy/ERC1967/ERC1967Proxy.sol";

contract MockERC1967Proxy is ERC1967Proxy {

    constructor(address logic, bytes memory data)
    ERC1967Proxy(logic, data)
    {}

    function getImplementation() external view returns (address){
        return _getImplementation();
    }
}

全部foundry测试合约:

Github: https://github.com/RevelationOfTuring/foundry-openzeppelin-contracts/blob/master/test/proxy/ERC1967/ERC1967Proxy/ERC1967Proxy.t.sol

测试使用的物料合约:

Github: https://github.com/RevelationOfTuring/foundry-openzeppelin-contracts/blob/master/test/proxy/ERC1967/ERC1967Proxy/Implement.sol

// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.0;

interface IImplement {
    event Initialize(address);
    event Receive();
    event Fallback(bytes);
}

contract Implement is IImplement {
    uint public i;
    address public addr;

    function initialize(uint i_, address addr_) external {
        i = i_;
        addr = addr_;
        emit Initialize(msg.sender);
    }

    receive() external payable {
        emit Receive();
    }

    fallback() external {
        emit Fallback(msg.data);
    }
}

2. 代码精读

2.1 constructor(address _logic, bytes memory _data) && _implementation() internal

代码实现上,ERC1967Proxy库的代理功能继承了于Proxy库,而基于ERC1967标准的逻辑合约地址存储继承于ERC1967Upgrade库。

Proxy库详解参见:https://learnblockchain.cn/article/8469

ERC1967Upgrade库详解参见:https://learnblockchain.cn/article/8581

  • constructor(address _logic, bytes memory _data):初始设置proxy背后的逻辑合约地址,并以_data作为calldata delegatecall到该逻辑合约。该delegatecall即实现了proxy的constructor函数功能,可用于初始化proxy的一些storage;
  • _implementation() internal:返回当前proxy背后的逻辑和合约地址。
    constructor(address _logic, bytes memory _data) payable {
        // 调用ERC1967Upgrade的_upgradeToAndCall(),设置逻辑合约地址_logic。
        // 如果_data不为空,再执行一个额外的到新逻辑合约的delegatecall(以_data为calldata)
        _upgradeToAndCall(_logic, _data, false);
    }

    function _implementation() internal view virtual override returns (address impl) {
        // 调用ERC1967Upgrade的_getImplementation(),返回逻辑合约地址
        return ERC1967Upgrade._getImplementation();
    }

foundry代码验证:

contract ERC1967ProxyTest is Test, IERC1967, IImplement {
    MockERC1967Proxy private _testing;
    Implement private _implement = new Implement();

    function test_ConstructorAndImplementation() external {
        // test for {constructor}
        // build the calldata of {initialize} in the implementation
        uint argUint = 1024;
        address argAddress = address(1024);
        bytes memory data = abi.encodeCall(
            _implement.initialize,
            (argUint, argAddress)
        );

        vm.expectEmit();
        emit IERC1967.Upgraded(address(_implement));
        emit IImplement.Initialize(address(this));

        _testing = new MockERC1967Proxy(
            address(_implement),
            data
        );

        address proxyAddress = address(_testing);
        // test for {getImplementation}
        assertEq(_testing.getImplementation(), address(_implement));
        // test for the result of the extra delegatecall in constructor
        Implement proxy = Implement(payable(proxyAddress));
        assertEq(proxy.i(), argUint);
        assertEq(proxy.addr(), argAddress);

        // test for other delegatecall
        argUint = 1;
        argAddress = address(1);
        proxy.initialize(argUint, argAddress);
        assertEq(proxy.i(), argUint);
        assertEq(proxy.addr(), argAddress);

        // delegatecall without calldata
        vm.expectEmit(proxyAddress);
        emit IImplement.Receive();
        (bool ok,) = proxyAddress.call("");
        assertTrue(ok);

        // delegatecall with calldata of unknown function selector
        data = "known";
        vm.expectEmit(proxyAddress);
        emit IImplement.Fallback(data);
        (ok,) = proxyAddress.call(data);
        assertTrue(ok);
    }
}

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