我最近在重新学solidity,巩固一下细节,也写一个“WTF Solidity极简入门”,供小白们使用),每周更新1-3讲。
所有代码和教程开源在github: github.com/AmazingAng/WTFSolidity
来自 Foundry 官网 (getfoundry.sh) 对该工具的介绍:
Foundry是 一个用 Rust编写的用于以太坊应用程序开发的极快、可移植和模块化的工具包 ( Foundry is a blazing fast, portable and modular toolkit for Ethereum application development written in Rust.)
项目设施:
- 官网:https://getfoundry.sh
- Github 仓库:https://github.com/foundry-rs/foundry
- 文档:https://book.getfoundry.sh
介绍的解释:
- 用 Rust 语言编写: Foundry 完全采用 Rust 语言开发, Github 上的源代码仓库 是一个 Rust 语言工程。我们可以通过获取 Release 的二进制文件,也可以通过 Rust 语言的 cargo 包管理工具编译&构建安装;
- 用于以太坊应用程序开发: Foundry 作为 以太坊(Solidity语言)项目/应用程序开发的 “工程化” 工具,提供专业 Solidity 开发环境与“工具链”。通过它你可以快速、方便的完成依赖项管理、编译、运行测试、部署,并可以通过命令行和 Solidity 脚本与链进行交互;
- 极快: Foundry 利用 ethers-solc 比较于传统通过 Node.js 辅助完成的测试用例/工程,Foundry 构建、测试的执行速度很快(创建一个工程,写一些测试用例跑一下会感受到震撼);
- 可移植: Foundry 工程支持与其他类型的工程集成(如:与 Hardhat 集成);
- 模块化:通过 git submodule & 构建目录映射,快速方便的引入依赖;
如果你满足以下条件或有过类似体验,你一定要试试 Foundry:
如果你有 Rust “语言信仰”,如果你是个专业的 以太坊(Solidity语言)应用开发者;- 你曾经用过类似 Hardhat.js 这样的工具;
- 你厌倦了大量测试用例的等待,需要有工具更加快速的跑完你的测试用例;
- 你觉得处理 BigNumber 稍微有一点点🤏麻烦;
- 有过通过 Solidity 语言本身完成测试用例(或测试合约的合约)的需求;
- 你觉得通过 git submodule 的方式管理依赖更加方便(而不是 npm);
- ···
如果有以下情况 Foundry 可能不适合你:
- Solidity 初学者;
- 你的项目不需要写测试用例、不需要过多在 Solidity 工程方面的自动化操作;
该部分源于 Foundry book (https://book.getfoundry.sh),让章节的理解更容易。
- 创建以太坊(Solidity)智能合约应用开发项目,开发已有的项目;
- 管理以太坊(Solidity)智能合约的依赖项目;
- 创建由 Solidity 语言编写的测试用例(并且能很快速的执行测试用例): 并且支持模糊测试与差异测试等方便、专业的测试方式;
- 通过 Cheatcodes(作弊码) 在 Solidity语言 编写的测试用例中进行 “EVM环境之外” 的 vm 功能进行交互与断言:更换测试用例语句执行者的钱包地址(更换
msg.sender
)、对 EVM 外的 Event 事件进行断言; - 执行过程与错误追踪:“函数堆栈”级的错误追踪(Traces);
- 部署合约和自动化的完成scan上合约的开源验证;
- 在项目中支持完整的gas使用情况追踪:包括合约测试细节的gas用量和gas报告;
- 交互式调试器;
Foundry 项目由 Forge
, Cast
, Anvil
几个部分(命令行工具)组成
- Forge: Foundry 项目中执行初始化项目、管理依赖、测试、构建、部署智能合约的命令行工具;
- Cast: Foundry 项目中与 RPC 节点交互的命令行工具。可以进行智能合约的调用、发送交易数据或检索任何类型的链上数据;
- Anvil: Foundry 项目中启动的本地测试网/节点的命令行工具。可以使用它配合测试前端应用与部署在该测试网的合约或通过 RPC 进行交互;
内容出自 Foundry book 的 Getting Start 部分
即将完成的过程:
- 安装 Foundry;
- 初始化一个 Foundry 项目;
- 理解初始化过程中添加的智能合约、测试用例;
- 执行构建&测试;
对于不同的环境:
- MacOS / Linux (等 Unix like 系统):
- 通过
foundryup
安装(👈Foundry 项目首页推荐的方式); - 通过 源代码构建 安装;
- 通过
- Windows
- 通过 源代码构建 安装;
- Docker 环境
- 参考 Foundry Package: https://github.com/gakonst/foundry/pkgs/container/foundry
- Github Action: 用于构建完整的 Action 流程
通过脚本快速安装
通过有bash
的(或者类Unix环境)快速安装
$ curl -L https://foundry.paradigm.xyz | bash
执行后将会安装 foundryup
,在此后执行它
$ foundryup
如果一切顺利,您现在可以使用三个二进制文件:forge
、cast
和 anvil
。
通过 forge
的 forge init
初始化项目 "hello_wtf"
$ forge init hello_wtf
Initializing /Users/username/hello_wtf...
Installing forge-std in "/Users/username/hello_wtf/lib/forge-std" (url: Some("https://github.com/foundry-rs/forge-std"), tag: None)
Installed forge-std
Initialized forge project.
该过程通过安装依赖forge-std
初始化了一个 Foundry 项目
在项目目录中看到
$ tree -L 2
.
├── foundry.toml # Foundry 的 package 配置文件
├── lib # Foundry 的依赖库
│ └── forge-std # 工具 forge 的基础依赖
├── script # Foundry 的脚本
│ └── Counter.s.sol # 示例合约 Counter 的脚本
├── src # 智能合约的业务逻辑、源代码将会放在这里
│ └── Counter.sol # 示例合约
└── test # 测试用例目录
└── Counter.t.sol # 示例合约的测试用例
提示:
- 依赖项作为 git submodule 在
./lib
目录中 - 关于 Foundry 的 package 配置文件请详细参考: https://github.com/foundry-rs/foundry/blob/master/config/README.md#all-options
主要由业务逻辑构成
src
目录中的 ./src/Counter.sol
:
// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.13;
contract Counter { // 一个很简单的 Counter 合约
uint256 public number; // 维护一个 public 的 uint256 数字
// 设置 number 变量的内容
function setNumber(uint256 newNumber) public {
number = newNumber;
}
// 让 number 变量的内容自增
function increment() public {
number++;
}
}
参考 Foundry 项目文档中的 Solidity-scripting 该目录主要由“部署”脚本构成(也可通过该脚本调用 Foundry 提供的 vm
功能实现应用业务逻辑之外的高级功能,等同于 Hardhat.js 中的 scripts)。
详见script 目录中的 ./script/Counter.s.sol
:
// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.13; // 许可 和 Solidity版本标识
import "forge-std/Script.sol"; // 引入foundry forge中的Script库
import "../src/Counter.sol"; // 引入要部署的Counter合约
// 部署脚本继承了Script合约
contract CounterScript is Script {
// 可选函数,在每个函数运行之前被调用
function setUp() public {}
// 部署合约时会调用run()函数
function run() public {
vm.startBroadcast(); // 开始部署
new Counter(); // 创建合约
vm.stopBroadcast(); // 结束部署
}
}
Foundry的部署脚本是一个用Solidity写的智能合约,虽然它不会被部署,但符合Solidity的规范。你可以用forge script
运行脚本并部署合约。
forge script script/Counter.s.sol:CounterScript
主要由合约的测试用例构成
test 目录中的 ./test/Counter.t.sol
// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.13;
import "forge-std/Test.sol"; // 引入 forge-std 中用于测试的依赖
import "../src/Counter.sol"; // 引入用于测试的业务合约
// 基于 forge-std 的 test 合约依赖实现测试用例
contract CounterTest is Test {
Counter public counter;
// 初始化测试用例
function setUp() public {
counter = new Counter();
counter.setNumber(0);
}
// 基于初始化测试用例
// 断言测试自增后的 counter 的 number 返回值 同等于 1
function testIncrement() public {
counter.increment();
assertEq(counter.number(), 1);
}
// 基于初始化测试用例
// 执行差异测试测试
// forge 测试的过程中
// 为 testSetNumber 函数参数传递不同的 unit256 类型的 x
// 达到测试 counter 的 setNumber 函数 为不同的 x 设置不同的数
// 断言 number() 的返回值等同于差异测试的 x 参数
function testSetNumber(uint256 x) public {
counter.setNumber(x);
assertEq(counter.number(), x);
}
// 差异测试:参考 https://book.getfoundry.sh/forge/differential-ffi-testing
}
在项目目录中通过执行 forge build
完成构建
$ forge build
[⠒] Compiling...
[⠢] Compiling 10 files with 0.8.17
[⠰] Solc 0.8.17 finished in 1.06s
Compiler run successful
完成构建后 通过 forge test
完成测试
$ forge test
[⠢] Compiling...
No files changed, compilation skipped
Running 2 tests for test/Counter.t.sol:CounterTest
[PASS] testIncrement() (gas: 28312)
[PASS] testSetNumber(uint256) (runs: 256, μ: 27609, ~: 28387)
Test result: ok. 2 passed; 0 failed; finished in 9.98ms
至此,您已完成上手使用 Foundry 并且初始化一个项目。
主要介绍Foundry Cast的使用,使用Cast在命令行下达到Ethereum (ETH) Blockchain Explorer 的效果。
练习如下目标
- 查询区块
- 查询交易
- 交易解析
- 账户管理
- 合约查询
- 合约交互
- 编码解析
- 本地模拟链上交易
# $PRC_MAIN 替换成需要的RPC地址
cast block-number --rpc-url=$RPC_MAIN
输出结果:
15769241
将环境变量的
ETH_PRC_URL
设置为--rpc-url
你就不需要在每个命令行后面增加--rpc-url=$RPC_MAIN
我这里直接设置为主网
# cast block <BLOCK> --rpc-url=$RPC_MAIN
cast block 15769241 --rpc-url=$RPC_MAIN
# 格式化
cast block 15769241 --json --rpc-url=$RPC_MAIN
输出结果:
baseFeePerGas 22188748210
difficulty 0
extraData 0x
gasLimit 30000000
gasUsed 10595142
hash 0x016e71f4130bac96a20761acbc0ba82a77c26f85513f1661adfd406d1c809543
logsBloom 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
miner 0x4675C7e5BaAFBFFbca748158bEcBA61ef3b0a263
mixHash 0x09b7a94ef1d6c93caaff49ca8bf387652e0e33e116076b61f4d5ee79f0b91f92
nonce 0x0000000000000000
number 15769241
parentHash 0x95c60d89f2275a6a7b1a9545cf1fb6d8c614402cd7311c82bc7972c177f7812d
receiptsRoot 0xe0240d60c448387123e412114cd0165b2af7b926d34bb824f8c544b022aa76f9
sealFields []
sha3Uncles 0x1dcc4de8dec75d7aab85b567b6ccd41ad312451b948a7413f0a142fd40d49347
size 149912
stateRoot 0xaa3e9d839e99c4791827c81df9c9129028a320432920205f191e3fb261d0951c
timestamp 1666026803
totalDifficulty 58750003716598352816469
transactions: [
0xc4f5c10e4419698edaf7431df464340b389e4b79db959d58f42e82e8d1ed18ae
0xb90edeacf833ac6cb91a326c775ed86d8047a467404bd8c69782d2260983eaad
0x6f280650e35238ab930c9a0f3163443fffe2efedc5b553f408174d4bcd89cd8d
0x2e0eafea64aaf2f53240a16b11a4f250ba74ab9ca5a1a90e6f2a6e92185877d2
0x34f41d22ed8209da379691640cec5bfb8bf9404ad0f7264709b7959d61532343
0x7569ab5ce2d1ca13a0c65ad52cc901dfc186e8ff8800793550b97760cbe34db2
0xcdeef0ffe859fcf96fb52e22a9789295c6f1a94280df9faf0ebb9d52abefb3e7
0x00d6793f3dbdd616351441b9e3da9a0de51370174e0d9383b4aae5c3c9806c2a
0xff3daf63a431af021351d3da5f2f39a894352328d7f3df96afab1888f5a7093f
0x7938399bee5293c384831c8e5aa698cdb491d568f9ebfb6d5c946f4ef7bf7e51
0x20e7dda515f04ea6a787f68689e27bcadbba914184da5336204f3f36771f59f0
0x0435d78a1b62484fbe3a7680d68ba4bdf0d692f087f4a6b70eb377421c58a5dd
0xe16d1fa4d60cca7447850337c63cdf7b888318cc1bbb893b115f262dc01132d7
0x44af4f696dcfedee682d7e511ad2469780443052565eea731b86b652a175c05e
0xe88732f92ac376efb6e7517e66fc586447e0d065b8686556f2c1a7c3b7a519ce
0x7ee890b096e97fc0c7e3cf74e0f0402532e0f3b8fa0e0c494d3d691d031f57e7
...]
# 跟ethersjs中的 provider.getTransaction 类似
# cast tx <HASH> [FIELD] --rpc-url=$RPC
# 跟ethersjs中的 provider.getTransactionReceipt类似
# cast receipt <HASH> [FIELD] --rpc-url=$RPC
cast tx 0x20e7dda515f04ea6a787f68689e27bcadbba914184da5336204f3f36771f59f0 --rpc-url=$RPC
cast receipt 0x20e7dda515f04ea6a787f68689e27bcadbba914184da5336204f3f36771f59f0 --rpc-url=$RPC
# 只获取logs
cast receipt 0x20e7dda515f04ea6a787f68689e27bcadbba914184da5336204f3f36771f59f0 logs --rpc-url=$RPC
第一条命令行结果:
blockHash 0x016e71f4130bac96a20761acbc0ba82a77c26f85513f1661adfd406d1c809543
blockNumber 15769241
from 0x9C0649d7325990D98375F7864eA167B5EAdCD46a
gas 313863
gasPrice 35000000000
hash 0x20e7dda515f04ea6a787f68689e27bcadbba914184da5336204f3f36771f59f0
input 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
nonce 14
r 0x288aef25af73a4d1916f8d37107ef5f24729a423f23acc38920829c4180fe794
s 0x7644d26a91da02ff1e774cc821febf6387b8ee9f3e3085140b781819d0d8ede0
to 0x7a250d5630B4cF539739dF2C5dAcb4c659F2488D
transactionIndex 10
v 38
value 0
第二行命令行结果:
blockHash 0x016e71f4130bac96a20761acbc0ba82a77c26f85513f1661adfd406d1c809543
blockNumber 15769241
contractAddress
cumulativeGasUsed 805082
effectiveGasPrice 35000000000
gasUsed 114938
logs [{"address":"0x97be09f2523b39b835da9ea3857cfa1d3c660cbb","topics":["0xddf252ad1be2c89b69c2b068fc378daa952ba7f163c4a11628f55a4df523b3ef","0x0000000000000000000000009c0649d7325990d98375f7864ea167b5eadcd46a","0x000000000000000000000000f848e97469538830b0b147152524184a255b9106"],"data":"0x00000000000000000000000000000000000000000000000332ca1b67940c0000","blockHash":"0x016e71f4130bac96a20761acbc0ba82a77c26f85513f1661adfd406d1c809543","blockNumber":"0xf09e99","transactionHash":"0x20e7dda515f04ea6a787f68689e27bcadbba914184da5336204f3f36771f59f0","transactionIndex":"0xa","logIndex":"0x2","removed":false},{"address":"0x1bbf25e71ec48b84d773809b4ba55b6f4be946fb","topics":["0x06b541ddaa720db2b10a4d0cdac39b8d360425fc073085fac19bc82614677987","0x000000000000000000000000f848e97469538830b0b147152524184a255b9106","0x000000000000000000000000f848e97469538830b0b147152524184a255b9106","0x0000000000000000000000009c0649d7325990d98375f7864ea167b5eadcd46a"],"data":"0x0000000000000000000000000000000000000000000000044b0a580cbdcfc0d90000000000000000000000000000000000000000000000000000000000000060000000000000000000000000000000000000000000000000000000000000008000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000","blockHash":"0x016e71f4130bac96a20761acbc0ba82a77c26f85513f1661adfd406d1c809543","blockNumber":"0xf09e99","transactionHash":"0x20e7dda515f04ea6a787f68689e27bcadbba914184da5336204f3f36771f59f0","transactionIndex":"0xa","logIndex":"0x3","removed":false},{"address":"0x1bbf25e71ec48b84d773809b4ba55b6f4be946fb","topics":["0xddf252ad1be2c89b69c2b068fc378daa952ba7f163c4a11628f55a4df523b3ef","0x000000000000000000000000f848e97469538830b0b147152524184a255b9106","0x0000000000000000000000009c0649d7325990d98375f7864ea167b5eadcd46a"],"data":"0x0000000000000000000000000000000000000000000000044b0a580cbdcfc0d9","blockHash":"0x016e71f4130bac96a20761acbc0ba82a77c26f85513f1661adfd406d1c809543","blockNumber":"0xf09e99","transactionHash":"0x20e7dda515f04ea6a787f68689e27bcadbba914184da5336204f3f36771f59f0","transactionIndex":"0xa","logIndex":"0x4","removed":false},{"address":"0xf848e97469538830b0b147152524184a255b9106","topics":["0x1c411e9a96e071241c2f21f7726b17ae89e3cab4c78be50e062b03a9fffbbad1"],"data":"0x00000000000000000000000000000000000000000000213ebfba613ffdcdd6ad0000000000000000000000000000000000000000000018b4b7f855bdcaac3b14","blockHash":"0x016e71f4130bac96a20761acbc0ba82a77c26f85513f1661adfd406d1c809543","blockNumber":"0xf09e99","transactionHash":"0x20e7dda515f04ea6a787f68689e27bcadbba914184da5336204f3f36771f59f0","transactionIndex":"0xa","logIndex":"0x5","removed":false},{"address":"0xf848e97469538830b0b147152524184a255b9106","topics":["0xd78ad95fa46c994b6551d0da85fc275fe613ce37657fb8d5e3d130840159d822","0x0000000000000000000000007a250d5630b4cf539739df2c5dacb4c659f2488d","0x0000000000000000000000009c0649d7325990d98375f7864ea167b5eadcd46a"],"data":"0x000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000332ca1b67940c00000000000000000000000000000000000000000000000000044b0a580cbdcfc0d90000000000000000000000000000000000000000000000000000000000000000","blockHash":"0x016e71f4130bac96a20761acbc0ba82a77c26f85513f1661adfd406d1c809543","blockNumber":"0xf09e99","transactionHash":"0x20e7dda515f04ea6a787f68689e27bcadbba914184da5336204f3f36771f59f0","transactionIndex":"0xa","logIndex":"0x6","removed":false}]
logsBloom 0x00200000000000000000000080000000000000000000000000010000000008000000000000800000000000000000000000000000002000000000000000000000000000000000000000000008000000200000000000000000000000400000100000000000800000002000000000000000000000400000000000000010000000000000000000000000005000000000040000000000000000080000004004000000000000084100000000000000000000000000000040000000000000000000040000000002000000000000000000000000000000000000001000002000000020000000000000000000000000000000000000004000000000000000000000000000
root
status 1
transactionHash 0x20e7dda515f04ea6a787f68689e27bcadbba914184da5336204f3f36771f59f0
transactionIndex 10
type 0
Cast 会从 Ethereum Signature Database 解析对应的方法名称
# cast 4byte <SELECTOR> 解析交易的名称
cast 4byte 0x38ed1739
输出结果:
swapExactTokensForTokens(uint256,uint256,address[],address,uint256)
使用 Keccak-256 能够计算出方法名 函数名为被调函数原型[1]的Keccak-256哈希值的前4个字节。这允许EVM准确无误地识别被调函数。
交易签名:
# cast sig <SIG>
cast sig "swapExactTokensForTokens(uint256,uint256,address[],address,uint256)"
输出结果:
0x38ed1739
所以你可以看到最终都是 0x38ed1739
有些方法名称可能没有,你可以通过cast upload-signature <SIG>
上传给 Ethereum Signature Database
# 获得calldata
cast tx 0x20e7dda515f04ea6a787f68689e27bcadbba914184da5336204f3f36771f59f0 input --rpc-url=$RPC
# 可以通过该方法decode交易的数据,类似etherscan中的decode方法
# cast pretty-calldata <CALLDATA>
cast pretty-calldata 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
输出结果:
Possible methods:
- swapExactTokensForTokens(uint256,uint256,address[],address,uint256)
------------
[0]: 00000000000000000000000000000000000000000000000332ca1b67940c0000
[1]: 00000000000000000000000000000000000000000000000416b4849e6ba14750
[2]: 00000000000000000000000000000000000000000000000000000000000000a0
[3]: 0000000000000000000000009c0649d7325990d98375f7864ea167b5eadcd46a
[4]: 00000000000000000000000000000000000000000000000000000000634d91c1
[5]: 0000000000000000000000000000000000000000000000000000000000000002
[6]: 00000000000000000000000097be09f2523b39b835da9ea3857cfa1d3c660cbb
[7]: 0000000000000000000000001bbf25e71ec48b84d773809b4ba55b6f4be946fb
# Usage: cast run --rpc-url <URL> <TXHASH>
cast run 0x20e7dda515f04ea6a787f68689e27bcadbba914184da5336204f3f36771f59f0
运行结果:
可以在结果中看到运行消耗的gas,以及方法顺序调用的过程,以及释放的emit的事件。通过这个可以了解一个hash的内在过程。类似 BlockSec Building BlockChain Security Infrastructure 和 Tenderly | Ethereum Developer Platform 可以结合使用。
# 新建一个账号
# cast wallet new [OUT_DIR]
cast wallet new
# 新建一个keystore的账号,带有密码
# cast wallet new <PATH>
cast wallet new ~/Downloads
第一条命令行结果输出:
Successfully created new keypair.
Address: 0xDD20b18E001A80d8b27B8Caa94EeAC884D1c****
Private Key: edb4444199bddea91879c0214af27c0c7f99****bf18e46ba4078a39ccdbe0bc
第二条命令行结果输出:
Enter secret:
Created new encrypted keystore file: `/Users/EasyPlux/Downloads/b5832df5-21e9-4959-8c85-969eec9c0***`\nPublic Address of the key: 0x58c1C8f6A7D92A9b20A5343949cd624570Ab****
# 两种方法都可以使用签名,第一种载入刚才生成的keystore私钥,第二种直接输入自己的私钥。
cast wallet sign <MESSAGE> --keystore=<PATH>
cast wallet sign <MESSAGE> -i
cast wallet verify --address <ADDRESS> <MESSAGE> <SIGNATURE>
cast etherscan-source <contract address>
cast etherscan-source 0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2 --etherscan-api-key='key'
#cast etherscan-source -d <path>
# 我这里已经将$WETH的地址写入环境变量,如果没写入的,可以写成合约地址
cast etherscan-source $WETH -d ~/Downloads
调用 WETH合约的balanceOf
方法,查看0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2
账号的余额
#cast call [OPTIONS] [TO] [SIG] [ARGS]... [COMMAND] --rpc-url=$RPC
cast call $WETH "balanceOf(address)" 0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2 --rpc-url=$RPC
# 输出
# 0x0000000000000000000000000000000000000000000000230d12770f2845219c
# 格式化输出 在参数后面加一个返回值的格式
cast call $WETH "balanceOf(address)(uint256)" 0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2 --rpc-url=$RPC
# 输出
# 646577988758891995548
可以根据ABI反向解析出solidity代码
# cast interface [OPTIONS] <PATH_OR_ADDRESS>
cast interface ./weth.abi
cast --to-hex
cast --to-dec
cast --to-unit
cast --to-wei
cast --to-rlp
cast --from-rlp
将环境变量的ETH_PRC_URL
设置为 --rpc-url
你就不需要在每个命令行后面增加 --rpc-url=$RPC_MAIN
我这里直接设置为主网
设置ETHERSCAN_API_KEY
环境变量可以直接代替 --etherscan-api-key
加上 --json
可以格式化输出
cast block 15769241 --json --rpc-url=$RPC_MAIN
anvil 跟 hardhat 还有 truffle中的ganache都是一样的,是一个本地的eth节点,同样拥有各种fork的功能。
anvil
anvil --accounts=<NUM> --balance=<NUM>
anvil --mnemonic=<MNEMONIC>
anvil --fork-url=$RPC --fork-block-number=<BLOCK>
anvil_* -> hardhat_*
anvil_impersonateAccount
anvil_setStorageAt
代码存放在WTFSolidity/Topics/Tools/TOOL07_Foundry/hello_wtf
代码目录树如下:
.
├── broadcast
│ └── Counter.s.sol
├── foundry.toml # foundry配置文件
├── lib
│ └── forge-std
├── node_modules # 使用npm依赖包目录,你也可以直接使用forge install
│ └── @openzeppelin
├── package-lock.json
├── package.json
├── script
│ └── Counter.s.sol # 脚本合约
├── src
│ └── Counter.sol
└── test
├── Counter.t.sol
└── Test.t.sol # 测试合约
forge init <dir_name>
forge init --template <template_path> <dir_name>
forge build -w
# 三个v会现实详细的log信息
forge test -vvv
# 热更新模式
forge test -vvv -w
# log打印 需要 - vv 2个v以上才可以
使用 console2.log("test") 来打印
function testSetNumber(uint256 x) public {
console2.log("testNumber: %s==============", x);
counter.setNumber(x);
assertEq(counter.number(), x);
}
使用 emit log 来打印
function testNumberIs42() public {
emit log("test");
assertEq(testNumber, 42);
}
改变状态
function testCheatCode()public
console2.Log("before:"block.timestamp);
vm.warp(1000);
console2.log("after:"block.timestamp);
改变msg.sender 【可以模拟管理员账户】
// 只有第一次有影响
vm.prank(address)
// 多次影响
vm.startPrank(address)
...code
vm.stopPrank()
改变存储状态
function testCheatCode()public{
console2.Log("before:"alice.balance);
vm.deal(alice,1 ether);
console2.Log("after:"alice.balance);
}
forge install [OPTIONS] <github username>/<github project>@<tag>
npm init -y
npm i @openzeppelin/contracts
// yarn add @openzeppelin/contracts
安装完成之后需要配置foundry.toml
方法,在libs中添加 node_modules
文件夹。
[profile.default]
src = 'src'
out = 'out'
libs = ['lib','node_modules']
新建test/Test.t.sol
// SPDX-License-Identifier: SEE LICENSE IN LICENSE
pragma solidity ^0.8.13;
import "forge-std/Test.sol";
import "../src/Counter.sol";
// 导入IERC20的接口,通过该接口可以调用对应的方法
import {IERC20} from "@openzeppelin/contracts/token/ERC20/IERC20.sol";
contract IERC20Test is Test {
// 声明Counter合约对象变量
Counter public counter;
// 声明一个地址变量
address public alice;
// 声明一个msgSender
address public msgSender;
// 声明帮助合约函数
Helper public h;
//定义一个IERC20 合约对象
IERC20 public dai;
function setUp() public {
// new测试合约对象
counter = new Counter();
// 调用对象方法
counter.setNumber(0);
// new helper对象
h = new Helper();
alice = address(10086);
console2.log(alice);
dai = IERC20(0x6B175474E89094C44Da98b954EedeAC495271d0F);
}
// 测试给合约地址转账
function testCheatCode() public {
console2.log("before:", dai.balanceOf(alice));
deal(address(dai), alice,1 ether);
console2.log("after:", dai.balanceOf(alice));
}
// 测试改变合约msg.sender
function testCheatAddress() public {
console2.log("before:", h.whoCalled());
vm.prank(address(1));
console2.log("after:", h.whoCalled());
}
}
contract Helper {
function whoCalled() public view returns (address) {
return msg.sender;
}
}
运行测试:
因为本地没有dai的部署合约,所以我们直接fork主网, -vvv可以现实console2.log,-w表示watch模式。
forge test -vvv --fork-url=$ETH_RPC_URL -w
输出结果:
Running 2 tests for test/Test.t.sol:IERC20Test
[PASS] testCheatAddress() (gas: 12873)
Logs:
0x0000000000000000000000000000000000002766
before: 0xb4c79daB8f259C7Aee6E5b2Aa729821864227e84
after: 0x0000000000000000000000000000000000000001
[PASS] testCheatCode() (gas: 153596)
Logs:
0x0000000000000000000000000000000000002766
before: 0
after: 1000000000000000000
Test result: ok. 2 passed; 0 failed; finished in 5.61s
function testCodeFork() public {
console2.log(address(dai));
string memory rpc = vm.envString("ETH_RPC_URL");
uint256 mainnet = vm.createFork(rpc);
vm.selectFork(mainnet);
// 这边下面开始就是直接fork网络了
console2.log("before:",dai.balanceOf(alice));
deal(address(dai),alice,1 ether);
console2.log("after:",dai.balanceOf(alice));
}
// 通过 vm.envAddress 获取环境变量中的地址
dai = IERC20(vm.envAddress("DAI"));
// SPDX-License-Identifier: SEE LICENSE IN LICENSE
pragma solidity ^0.8.13;
import "forge-std/Test.sol";
import "../src/Counter.sol";
// 导入IERC20的接口,通过该接口可以调用对应的方法
import {IERC20} from "@openzeppelin/contracts/token/ERC20/IERC20.sol";
contract IERC20Test is Test {
// 声明Counter合约对象变量
Counter public counter;
// 声明一个地址变量
address public alice;
// 声明一个msgSender
address public msgSender;
// 声明帮助合约函数
Helper public h;
//定义一个IERC20 合约对象
IERC20 public dai;
function setUp() public {
// new测试合约对象
counter = new Counter();
// 调用对象方法
counter.setNumber(0);
// new helper对象
h = new Helper();
alice = address(10086);
console2.log(alice);
// 通过 vm.envAddress 获取环境变量中的地址
dai = IERC20(vm.envAddress("DAI"));
}
// 测试给合约地址转账
function testCheatCode() public {
console2.log("before:", dai.balanceOf(alice));
deal(address(dai), alice,1 ether);
console2.log("after:", dai.balanceOf(alice));
}
// 测试改变合约msg.sender
function testCheatAddress() public {
console2.log("before:", h.whoCalled());
vm.prank(address(1));
console2.log("after:", h.whoCalled());
}
function testCodeFork() public {
console2.log(address(dai));
string memory rpc = vm.envString("ETH_RPC_URL");
uint256 mainnet = vm.createFork(rpc);
vm.selectFork(mainnet);
// 这边下面开始就是直接fork网络了
console2.log("before:",dai.balanceOf(alice));
deal(address(dai),alice,1 ether);
console2.log("after:",dai.balanceOf(alice));
}
}
contract Helper {
function whoCalled() public view returns (address) {
return msg.sender;
}
}
vm.sol
中还有很多封装好的方法可以直接使用
// Sets the *next* call's msg.sender to be the input address
function prank(address) external;
// Sets all subsequent calls' msg.sender to be the input address until `stopPrank` is called
function startPrank(address) external;
// Sets the *next* call's msg.sender to be the input address, and the tx.origin to be the second input
function prank(address,address) external;
// Sets all subsequent calls' msg.sender to be the input address until `stopPrank` is called, and the tx.origin to be the second input
function startPrank(address,address) external;
// Resets subsequent calls' msg.sender to be `address(this)`
function stopPrank() external;
// Sets an address' balance, (who, newBalance)
function deal(address, uint256) external;
// Sets an address' code, (who, newCode)
function etch(address, bytes calldata) external;
// Expects an error on next call
function expectRevert(bytes calldata) external;
function expectRevert(bytes4) external;
function expectRevert() external;
// Records all storage reads and writes
function record() external;
// Gets all accessed reads and write slot from a recording session, for a given address
function accesses(address) external returns (bytes32[] memory reads, bytes32[] memory writes);
forge script [OPTIONS] <PATH> [ARGS]...
forge script script/Counter.s.sol:CounterScript
script/Counter.s.sol
脚本代码
// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.13;
import "forge-std/Script.sol";
contract CounterScript is Script {
// 每次初始化会运行
function setUp() public {
console2.log("setup ");
}
function run() public {
vm.broadcast();
console2.log("run");
}
function someFunction(uint256 x) public {
console2.log("some other func");
console2.log(x);
}
}
指定方法,带参数的测试运行
forge script script/Counter.s.sol --sig="someFunction(uint256 x)" 10
编写部署脚本:
// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.13;
import "forge-std/Script.sol";
// 引入合约
import "../src/Counter.sol";
contract CounterScript is Script {
function setUp() public {
console2.log("setup ");
}
function run() public {
vm.startBroadcast();
//生成合约对象
Counter c = new Counter();
vm.stopBroadcast();
}
}
测试部署:
forge script script/Counter.s.sol -vvvv --rpc-url=http://127.0.0.1:8545
正式部署:
forge script script/Counter.s.sol -vvvv --rpc-url=http://127.0.0.1:8545 --broadcast --private-key=privete_key
部署完成之后会多一个broadcast文件夹,查看该文件夹有run-latest.json
可以看到部署的相应信息。
使用fork代码可以部署多个网络
uint256 mainnet = vm.createFork(rpc);
forge test --gas-report
forge inspect
# 对比gas是否减少
forge snapshot
forge snapshot --diff
# 交互式Debugger
forge script script/Counter.s.sol --debug
# 链上交易debugger
forge run --debug
这一讲我们介绍了以Solidity为中心的开发工具,并介绍了如何利用Foundry编译,部署,测试智能合约。由于Foundry的部署和测试脚本都是用Solidity编写,免去了开发者学习javascript的时间成本,并提供了更多练习Solidity的机会,推荐大家使用。
使用 foundry 框架加速智能合约开发 cast Commands - Foundry Book https://twitter.com/wp__lai