手把手教你搭建智能合约测试环境、开发、编译、部署以及如何通过JS调用合约方法
Ethereum上的智能合约需要使用solidity语言来撰写。虽然还有其他能用来撰写智能合约的语言如Serpent(类Python)、lll(类Fortran),但目前看到所有公开的智能合约都是使用solidity撰写。
宣传上说,solidity是一种类似Javascript的语言,而且围绕着solidity的各种开发工具链,都是使用属于Javascript生态系的npm来提供的。但我觉得solidity还是比较像Java或C#。因为和Javascript不同,solidity与Java或C#同属于强类型(Strong Type,在定义变数时需要指定类型)语言、在定义函式(function)时同样需指定回传的类型(type)、同样也需要先编译才能执行。这些特性都是Javascript所不具备的。
开发前的准备本文将使用当前最活跃的智能合约开发框架truffle为基础来开发。ENS(Ethereum Name Service)也是采用truffle框架。其他选择还有embark等。
就像一般网站或App开发一样,在提供公开服务之前,开发者会在自己用于写程序的电脑(又称作本机)或透过测试网络来测试程序执行的效果,测试完成后,才会部署到公开的网络上提供服务。开发区块链智能合约(程序)的过程也是如此。特别是公开链上所有写入或读取计算结果的操作都需要真金白银(虚拟代币),而且根据网络状况,每个公开链上的操作都需要要一小段反应时间(15秒~数分钟),这些等待颇浪费宝贵的开发时间⏳。因此在开发的过程中,我们将使用testrpc工具在电脑上模拟智能合约所需的以太坊内存块链测试环境。
testrpc中也包含了Javascript版本的Ethereum虚拟机(Ethereum Virtual Machine),因此可以完整地执行智能合约。
此外,开发前还需准备一个合手的编辑器。我目前是使用Atom搭配solidity插件来开发。solidity插件除了支持语法高亮之外,也会透过Solium检查并提示基本的语法错误,相当方便。其他编辑器应该也有类似的插件可选择。
首先开发机上必须装好Node.js,再使用以下命令安装所需的工具:
$ npm install -g ethereumjs-testrpc truffle
liyuechun:~ yuechunli$ npm install -g ethereumjs-testrpc truffle /usr/local/bin/testrpc - /usr/local/lib/node_modules/ethereumjs-testrpc/build/cli.node.js /usr/local/bin/truffle - /usr/local/lib/node_modules/truffle/build/cli.bundled.js + truffle@3.4.9 + ethereumjs-testrpc@4.1.3 added 1 package and updated 7 packages in 76.132s liyuechun:~ yuechunli$启动Testrpc
安装好后随时可以使用testrpc命令来启动以太坊测试环境。
liyuechun:~ yuechunli$ testrpc EthereumJS TestRPC v4.1.3 (ganache-core: 1.1.3) Available Accounts ================== (0) 0xbbd414b340f2255dab9d923428c97f0b65d9df81 (1) 0xe9869e3cf29b6fca81762c314df229c7c4fea25e (2) 0xc79e72362a4511b9e499d186654332c4d6f569be (3) 0x9a6f0651907c149d4173c03927144dbbba1473d4 (4) 0x5b13a5d6788752b26dd4e338aae2e01058ee145e (5) 0xfc7f56d942ad5260be23ecee92a344aba1b7e7d8 (6) 0xc48dc22c6bacd6ade4421ab54f25bc45c1c51142 (7) 0x3fe2b7d4141dd0a456661f77086d055cbaf3b78f (8) 0x567979fed26ca85e9d1b4ac919c840e3fc9857e2 (9) 0xb2eafe245f098eef1c2c1f466d9a8dcd58764c62 Private Keys ================== (0) 947ab78e91133103612ca099d60e6c38cac5bb769f7f097c82d003cf058500bd (1) 8ffe0ba8dc53e16944a17dddd3378b5fba0379cd84df4e5237b8b46d05b8762f (2) ffe2e04e43e4106b247407656f5233bcc3e0c49730972d0df9c1d1093375e2ef (3) a20e453dc44c76aaca6a22efdbb605c2ed9eea64c11317e683461e11bd105ea7 (4) 4748268ff1b828868dc56d07a1b121b427e1bdede5dbb3c14ef1254d9d26b1a5 (5) f9957e68c6d20d38b81604a0509e6c4591478bc754f87d5682564073705fbb46 (6) 34e648b23c0ace6b2b0893651d87f70be8496f97ecf6b7b4607b2acc4e05c9bd (7) d2477cedec217e3fb19a5981dafbc125ef66ccc9dc7df29301d08a24da843cf5 (8) d319f85ccd80e55b2e707e05f09662632564c297248f8b96f82ea5eeaeef0851 (9) 88c33ac9f1062b82f9e82f86a0ce307e3bd8fcf683b9751232c2f193f5bdc668 HD Wallet ================== Mnemonic: hire custom clinic expect fury fantasy try dress source spy viable flag Base HD Path: m/44/60/0/0/{account_index} Listening on localhost:8545
可以看到testrpc启动后自动建立了10个帐号(Accounts),与每个帐号对应的私钥(Private Key)。每个帐号中都有100个测试用的以太币(Ether)。要注意testrpc仅运行在內存中,因此每次重开时都会回到全新的状态。
一切准备就绪,我们可以开始建立第一份智能合约项目了。
开启另一个终端窗口,输入以下命令以建立项目:
liyuechun:Desktop yuechunli$ mkdir SmartContractDemo liyuechun:Desktop yuechunli$ cd SmartContractDemo/ liyuechun:SmartContractDemo yuechunli$ mkdir HelloWorld liyuechun:SmartContractDemo yuechunli$ cd HelloWorld/ liyuechun:HelloWorld yuechunli$ truffle init Downloading project... Project initialized. Documentation: http://truffleframework.com/docs Commands: Compile: truffle compile Migrate: truffle migrate Test: truffle test liyuechun:HelloWorld yuechunli$ ls contracts migrations test truffle.js目录结构:
/contracts:存放智能合约原始代码的地方,可以看到里面已经有三个sol文件,我们开发的HelloWorld.sol文件就存放在这里。
/migrations:这是 Truffle用来部署智能合约的功能,待会儿我们会修改2_deploy_contracts.js来部署 HelloWorld.sol。
/test: 测试智能合约的代码放在这里,支持js 与 sol 测试。
truffle.js: Truffle 的设置文档。
在contracts文件夹下新建HelloWorld.sol文件,当然也可以直接在HelloWorld路径下面直接执行truffle create contract HelloWorld命令来创建HelloWorld.sol。
HelloWorld.sol文件內容如下:
pragma solidity ^0.4.4; contract HelloWorld { function sayHello() returns (string) { return ("Hello World"); }
pragma solidity ^0.4.4;
第一行指名目前使用的solidity版本,不同版本的solidity可能会编译出不同的bytecode。^代表兼容solidity`0.4.4 ~ 0.4.9`的版本。
contract HelloWorld { }
contract关键字类似于其他语言中较常见的class。因为solidity是专为智能合约(Contact)设计的语言,声明contract后即内置了开发智能合约所需的功能。也可以把这句理解为class HelloWorld extends Contract。
function sayHello() returns (string) { return ("Hello World"); }
函数的结构与其他程序类似,但如果有传入的参数或回传值,需要指定参数或回传值的类型(type)。
现在执行truffle compile命令,我们可以将HelloWorld.sol原始码编译成Ethereum bytecode。
liyuechun:HelloWorld yuechunli$ ls contracts migrations test truffle.js liyuechun:HelloWorld yuechunli$ truffle compile Compiling ./contracts/ConvertLib.sol... Compiling ./contracts/HelloWorld.sol... Compiling ./contracts/MetaCoin.sol... Compiling ./contracts/Migrations.sol... Writing artifacts to ./build/contracts liyuechun:HelloWorld yuechunli$ ls build contracts migrations test truffle.js liyuechun:HelloWorld yuechunli$ cd build/ liyuechun:build yuechunli$ ls contracts liyuechun:build yuechunli$ cd contracts/ liyuechun:contracts yuechunli$ ls ConvertLib.json HelloWorld.json MetaCoin.json Migrations.json liyuechun:contracts yuechunli$ cat HelloWorld.json "contract_name": "HelloWorld", "abi": [ "inputs": [], "payable": false, "type": "constructor" "unlinked_binary": "0x60606040523415600e57600080fd5b5b5b5b603680601e6000396000f30060606040525b600080fd00a165627a7a723058203ee98a767948e9bc08094df4a46ab0361f068b2a559032cf968df5bbf63e91430029", "networks": {}, "schema_version": "0.0.5", "updated_at": 1505805826302 liyuechun:contracts yuechunli$
编译成功后,会在HelloWorld文件夹下面的build/contracts文件夹下面看见HelloWorld.json文件。
truffle框架中提供了方便部署合约的脚本。打开migrations/2_deploy_contracts.js文件(脚本使用Javascript编写),将内容修改如下:
var HelloWorld = artifacts.require("HelloWorld"); module.exports = function(deployer) { deployer.deploy(HelloWorld); };
使用artifacts.require语句来取得准备部署的合约。使用deployer.deploy语句将合约部署到区块链上。这边HelloWorld是contract的名称而不是文件名。因此可以用此语法读入任一.sol文件中的任一合约。
现在执行truffle migrate命令:
liyuechun:HelloWorld yuechunli$ ls build contracts migrations test truffle.js liyuechun:HelloWorld yuechunli$ truffle migrate Compiling ./contracts/HelloWorld.sol... Writing artifacts to ./build/contracts Using network development. Running migration: 1_initial_migration.js Deploying Migrations... ... 0x218431f16a5cadc6347449808d981887c90b3872898af7cc9dc9b3280c07c184 Migrations: 0x64e9673cf962d21642a08635e6654fb7f2ea9bcd Saving successful migration to network... ... 0xd9ec788c106df36b8491c95a0ab02ff1e5ef22c1965c910a2576e8259a00535c Saving artifacts... Running migration: 2_deploy_contracts.js Deploying HelloWorld... ... 0x17774b4914d7bc7ab2505a53c59bda6a1fce30c9839d19d735290ca9140450ea HelloWorld: 0x471a22ffe2bddd02e82853059871067e4c07a7f4 Saving successful migration to network... ... 0xe5e2e11cf5a63ca4517221c68dadb3cae2ca42cbfed93c09c575b6d5f275fc8b Saving artifacts... liyuechun:HelloWorld yuechunli$
如此一来合约已经部署到testrpc中。切换到testrpc窗口,可以看到testrpc有反应了。
与合约互动truffle提供命令行工具,执行truffle console命令后,可用Javascript来和刚刚部署的合约互动。
liyuechun:HelloWorld yuechunli$ ls build contracts migrations test truffle.js liyuechun:HelloWorld yuechunli$ truffle console truffle(development) HelloWorld.deployed().then(instance = contract = instance) TruffleContract { constructor: { [Function: TruffleContract] _static_methods: { setProvider: [Function: setProvider], new: [Function: new], at: [Function: at], deployed: [Function: deployed], defaults: [Function: defaults], hasNetwork: [Function: hasNetwork], isDeployed: [Function: isDeployed], detectNetwork: [Function: detectNetwork], setNetwork: [Function: setNetwork], resetAddress: [Function: resetAddress], link: [Function: link], clone: [Function: clone], addProp: [Function: addProp], toJSON: [Function: toJSON] }, _properties: { contract_name: [Object], abi: [Object], network: [Function: network], networks: [Function: networks], address: [Object], links: [Function: links], events: [Function: events], binary: [Function: binary], unlinked_binary: [Object], schema_version: [Function: schema_version], updated_at: [Function: updated_at] }, _property_values: {}, _json: { contract_name: HelloWorld, default_network: undefined, abi: [Array], unlinked_binary: 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, networks: [Object], schema_version: 0.0.5, updated_at: 1505806918535 }, setProvider: [Function: bound setProvider], new: [Function: bound new], at: [Function: bound at], deployed: [Function: bound deployed], defaults: [Function: bound defaults], hasNetwork: [Function: bound hasNetwork], isDeployed: [Function: bound isDeployed], detectNetwork: [Function: bound detectNetwork], setNetwork: [Function: bound setNetwork], resetAddress: [Function: bound resetAddress], link: [Function: bound link], clone: [Function: bound clone], addProp: [Function: bound addProp], toJSON: [Function: bound toJSON], web3: Web3 { _requestManager: [Object], currentProvider: [Object], eth: [Object], db: [Object], shh: [Object], net: [Object], personal: [Object], bzz: [Object], settings: [Object], version: [Object], providers: [Object], _extend: [Object] }, class_defaults: { from: 0xbbd414b340f2255dab9d923428c97f0b65d9df81, gas: 4712388, gasPrice: 100000000000 }, currentProvider: HttpProvider { host: http://localhost:8545, timeout: 0, send: [Function], sendAsync: [Function], _alreadyWrapped: true }, network_id: 1505794143155 }, abi: [ { constant: false, inputs: [], name: sayHello, outputs: [Array], payable: false, type: function } ], contract: Contract { _eth: Eth { _requestManager: [Object], getBalance: [Object], getStorageAt: [Object], getCode: [Object], getBlock: [Object], getUncle: [Object], getCompilers: [Object], getBlockTransactionCount: [Object], getBlockUncleCount: [Object], getTransaction: [Object], getTransactionFromBlock: [Object], getTransactionReceipt: [Object], getTransactionCount: [Object], call: [Object], estimateGas: [Object], sendRawTransaction: [Object], signTransaction: [Object], sendTransaction: [Object], sign: [Object], compile: [Object], submitWork: [Object], getWork: [Object], coinbase: [Getter], getCoinbase: [Object], mining: [Getter], getMining: [Object], hashrate: [Getter], getHashrate: [Object], syncing: [Getter], getSyncing: [Object], gasPrice: [Getter], getGasPrice: [Object], accounts: [Getter], getAccounts: [Object], blockNumber: [Getter], getBlockNumber: [Object], protocolVersion: [Getter], getProtocolVersion: [Object], iban: [Object], sendIBANTransaction: [Function: bound transfer] }, transactionHash: null, address: 0x471a22ffe2bddd02e82853059871067e4c07a7f4, abi: [ [Object] ], sayHello: { [Function: bound ] request: [Function: bound ], call: [Function: bound ], sendTransaction: [Function: bound ], estimateGas: [Function: bound ], getData: [Function: bound ], : [Circular] }, allEvents: [Function: bound ] }, sayHello: { [Function] call: [Function], sendTransaction: [Function], request: [Function: bound ], estimateGas: [Function] }, sendTransaction: [Function], send: [Function], allEvents: [Function: bound ], address: 0x471a22ffe2bddd02e82853059871067e4c07a7f4, transactionHash: null } truffle(development) contract.sayHello.call() Hello World truffle(development)
HelloWorld.deployed().then(instance = contract = instance)
truffle console中预载了truffle-contract函数库,以方便操作部署到区块链上的合约。
这边使用HelloWorld.deployed().then语句来取得HelloWorld合约的Instance(实例),并存到contract变量中,以方便后续的调用。
上面用的是Javascript ES6+的语法,这句也可以写成:
HelloWorld.deployed().then(instance = { contract = instance });
还可以用ES5的写法:
HelloWorld.deployed().then(function(instance) { hello = instance; });
truffle(development) contract.sayHello.call() Hello World
这里直接呼叫contract.sayHello()也会得到一样的结果。truffle-contract提供使用call()来读取只读(read only)的数据,这样就不需提供gas。因此如果遇到的操作需要向区块链写入数据,我们就不能用call语句了。
如此一来,我们已写好并部署完成了第一个智能合约,也验证了合约确实可以运作。
加入新方法我们在HelloWorld.sol中再加入一个echo方法,echo方法接受输入一个参数,并回传传送的参数。
function echo(string name) constant returns (string) { return name; }
新的echo方法中传入了一个name参数。我们也为echo方法加入一个constant声明,表示调用这个方法并不会改变区块链的状态。如此一来,透过truffle-contract来调用此方法时,会自动选用call来呼叫,也不需要额外提供gas。
由于更新了合约内容,我们需要先重新新编译一次,将编译结果部署到testrpc上,再透过truffle console执行看看结果。
liyuechun:HelloWorld yuechunli$ ls build contracts migrations test truffle.js liyuechun:HelloWorld yuechunli$ truffle compile Compiling ./contracts/HelloWorld.sol... Writing artifacts to ./build/contracts liyuechun:HelloWorld yuechunli$ truffle migrate --reset Using network development. Running migration: 1_initial_migration.js Replacing Migrations... ... 0x64cdc42e08a7e3f8070c46d4877ba246d95cbbccbfe1b9abd2450cfc02b48eda Migrations: 0x42843f6a470b84e2669f19686a223c1bdefb6f4d Saving successful migration to network... ... 0x57042b767c0f40a4f88ce855e39549010d6d5ae5f880771a45c1f7f36ea0e5b3 Saving artifacts... Running migration: 2_deploy_contracts.js Replacing HelloWorld... ... 0x2330e3264aae9d6be3744d8fc71d235fc6dc2934d33ff5159ae209df4cf8f12b HelloWorld: 0xbf68789cdd6be1577339e8c739abfa1190c31b6c Saving successful migration to network... ... 0xb4b706d7004654215067ea5954a32f0562b32724d1c646dc43b688b466b10159 Saving artifacts... liyuechun:HelloWorld yuechunli$ truffle console truffle(development) let contract undefined truffle(development) HelloWorld.deployed().then(instance = contract = instance) TruffleContract { constructor: { [Function: TruffleContract] _static_methods: { setProvider: [Function: setProvider], new: [Function: new], at: [Function: at], deployed: [Function: deployed], defaults: [Function: defaults], hasNetwork: [Function: hasNetwork], isDeployed: [Function: isDeployed], detectNetwork: [Function: detectNetwork], setNetwork: [Function: setNetwork], resetAddress: [Function: resetAddress], link: [Function: link], clone: [Function: clone], addProp: [Function: addProp], toJSON: [Function: toJSON] }, _properties: { contract_name: [Object], abi: [Object], network: [Function: network], networks: [Function: networks], address: [Object], links: [Function: links], events: [Function: events], binary: [Function: binary], unlinked_binary: [Object], schema_version: [Function: schema_version], updated_at: [Function: updated_at] }, _property_values: {}, _json: { contract_name: HelloWorld, default_network: undefined, abi: [Array], unlinked_binary: 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, networks: [Object], schema_version: 0.0.5, updated_at: 1505809278810 }, setProvider: [Function: bound setProvider], new: [Function: bound new], at: [Function: bound at], deployed: [Function: bound deployed], defaults: [Function: bound defaults], hasNetwork: [Function: bound hasNetwork], isDeployed: [Function: bound isDeployed], detectNetwork: [Function: bound detectNetwork], setNetwork: [Function: bound setNetwork], resetAddress: [Function: bound resetAddress], link: [Function: bound link], clone: [Function: bound clone], addProp: [Function: bound addProp], toJSON: [Function: bound toJSON], web3: Web3 { _requestManager: [Object], currentProvider: [Object], eth: [Object], db: [Object], shh: [Object], net: [Object], personal: [Object], bzz: [Object], settings: [Object], version: [Object], providers: [Object], _extend: [Object] }, class_defaults: { from: 0xbbd414b340f2255dab9d923428c97f0b65d9df81, gas: 4712388, gasPrice: 100000000000 }, currentProvider: HttpProvider { host: http://localhost:8545, timeout: 0, send: [Function], sendAsync: [Function], _alreadyWrapped: true }, network_id: 1505794143155 }, abi: [ { constant: false, inputs: [], name: sayHello, outputs: [Array], payable: false, type: function }, { constant: true, inputs: [Array], name: echo, outputs: [Array], payable: false, type: function } ], contract: Contract { _eth: Eth { _requestManager: [Object], getBalance: [Object], getStorageAt: [Object], getCode: [Object], getBlock: [Object], getUncle: [Object], getCompilers: [Object], getBlockTransactionCount: [Object], getBlockUncleCount: [Object], getTransaction: [Object], getTransactionFromBlock: [Object], getTransactionReceipt: [Object], getTransactionCount: [Object], call: [Object], estimateGas: [Object], sendRawTransaction: [Object], signTransaction: [Object], sendTransaction: [Object], sign: [Object], compile: [Object], submitWork: [Object], getWork: [Object], coinbase: [Getter], getCoinbase: [Object], mining: [Getter], getMining: [Object], hashrate: [Getter], getHashrate: [Object], syncing: [Getter], getSyncing: [Object], gasPrice: [Getter], getGasPrice: [Object], accounts: [Getter], getAccounts: [Object], blockNumber: [Getter], getBlockNumber: [Object], protocolVersion: [Getter], getProtocolVersion: [Object], iban: [Object], sendIBANTransaction: [Function: bound transfer] }, transactionHash: null, address: 0xbf68789cdd6be1577339e8c739abfa1190c31b6c, abi: [ [Object], [Object] ], sayHello: { [Function: bound ] request: [Function: bound ], call: [Function: bound ], sendTransaction: [Function: bound ], estimateGas: [Function: bound ], getData: [Function: bound ], : [Circular] }, echo: { [Function: bound ] request: [Function: bound ], call: [Function: bound ], sendTransaction: [Function: bound ], estimateGas: [Function: bound ], getData: [Function: bound ], string: [Circular] }, allEvents: [Function: bound ] }, sayHello: { [Function] call: [Function], sendTransaction: [Function], request: [Function: bound ], estimateGas: [Function] }, echo: { [Function] call: [Function], sendTransaction: [Function], request: [Function: bound ], estimateGas: [Function] }, sendTransaction: [Function], send: [Function], allEvents: [Function: bound ], address: 0xbf68789cdd6be1577339e8c739abfa1190c31b6c, transactionHash: null } truffle(development) contract.echo("春哥微信:liyc1215") 春哥微信:liyc1215 truffle(development)
echo方法确实将我们输入的内容回传了。同时因为声明了constant,我们不需要直接调用call()方法,truffle会自动选用call来呼叫。
另一点需要注意的,是这次如果还是用truffle migrate命令,我们会得到如下信息:
$ truffle migrate Using network development. Network up to date.
Truffle会告诉你现在网络上的合约都已是最新的,但事实上刚刚程序中新增的方法并没有更新到内存块链上。要更新内存块链上已部署的程序,需要改写migrations中的脚本,但现在还不到介绍migration的时候。还好我们开发用的内存块链是怎么修改都没关系的testrpc,可以使用truffle migrate --reset命令直接重新在testrpc上部署一次。
这篇文章非常简单,通过这篇文章,你将掌握如何配置开发环境、如何创建新项目、如何编译、如何部署合约以及了解整个智能合约开发的流程。
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