最近部门要搞API先行,后端定义好接口之后就要给前端Mock好数据;
在网上找了关于Protobuf转JSON的工具,都没有找到,所以自己写了一个;
源代码:
用TypeScript写了一个Mock Protobuf的工具
使用
使用 npm 安装:
npm i mock-pb-cli@latest -g可以使用下面命令查看帮助:
$ mock-pb -h
Usage: mock-protobuf [options] [command]
A tool to mock protobuf
Options:
-v, --version output the version number
-h, --help display help for command
Commands:
s|serve [options] Create a mock server for the given protobuf
g|generate [options] Generate mock data for the given protobuf
help [command] display help for command有两个子命令:
mock-pb g或mock-pb generate:Mock JSON 数据;mock-pb sormock-pb serve:Mock 服务;
Mock JSON 数据
Generate 子命令主要是用来生成 Mock 的 JSON 数据;
例如:
$ mock-pb g上面的命令会获取当前工作目录下所有的 Proto 文件,并且将 Mock 的数据输出到终端;
例如:
Mocked demo.BasicResponse:
{
"status": 902735693509892,
"message": "Vmucue hqxllqx oiloapzwp.",
"resp": {}
}
Mocked demo.DemoRequest:
{
"data": "Kqr gxxq."
}
Mocked demo.DemoResponse:
{
"resp": {
"status": -6061376970430480,
"message": "Xpjzjyxrcq eqkmytjo.",
"resp": {}
},
"resp_data": "Ryogd tswayqjsf."
}默认情况下的 Protobuf 文件搜索路线为 .,你也可以使用 -d 来指定路径!
例如:
$ mock-pb g -d ../test/proto同时,默认情况下 Mock 数据会打印到终端,你也可以使用 -o 来指定将 Mock 的数据输出到指定的目录!
例如:
$ mock-pb g -o ./mock-pb-output此时,mock-pb-output 目录下的结果为:
$ tree
.
├── demo
│ ├── BasicResponse.json
│ ├── DemoRequest.json
│ └── DemoResponse.json
├── google.api
│ ├── CustomHttpPattern.json
│ ├── HttpBody.json
│ ├── Http.json
│ └── HttpRule.json
└── google.protobuf
├── Any.json
├── Api.json
......
├── SourceContext.json
├── Type.json
└── UninterpretedOption.json输出中的目录结构是根据 Proto 文件中的 package 来产生的!
Mock服务
基本用法
除了产生 Mock 的数据,也可以直接 Mock 服务接口;
下面的命令会读取当前工作目录下的 Proto 文件,并 Mock 在 Service 中定义了的 Method:
$ mock-pb s输出如下:
Handling routePath: /Demo
Handling routePath: /demo/DemoServiceAnotherDemo
restify listening at http://[::]:3333在服务端启动时,会打印出每个接口的请求路径;
默认情况下的服务端口号为:
3333,你可以使用-p来自定义端口;例如:
mock-pb s -p 13333
如果你在你的 Method 中通过 google.api.http 定义了请求路径,那么在 Mock 服务的时候会使用这个路径;
例如:
service DemoService {
rpc Demo(DemoRequest) returns (DemoResponse) {
option (google.api.http) = {
post: "/Demo"
body: "*"
};
}
}如果没有指定请求路径,那么请求路径为:/{ProtobufPackageName}/{ProtobufMethodName};
例如:
syntax = "proto3";
package demo;
service DemoService {
rpc AnotherDemo(AnotherDemoRequest) returns (AnotherDemoResponse) {}
}当服务启动后的请求路径为:
$ curl localhost:3333/demo/DemoServiceAnotherDemo
{"resp":{"status":-843357854531144,"message":"Vzby.","resp":{}},"resp_data":"Kvia gfkcggmuo."}自定义返回值
有时候你可能并不想 Mock 一些像下面这些无意义的数据:
{"resp":{"status":-843357854531144,"message":"Vzby.","resp":{}},"resp_data":"Kvia gfkcggmuo."}而是想要自定义一些有用的返回值,比如:
{"resp":{"status":200,"message":"ok"},"resp_data":{"Message":"This is a demo message"}}此时可以创建配置文件,例如:
mock-protobuf.config.json
{
"ResponseValue": [
{
"MethodName": "demo.Demo",
"Data": {
"Hello": "world"
}
},
{
"MethodName": "demo.AnotherDemo",
"Data": {
"resp": {
"status": 200,
"message": "ok"
},
"resp_data": {
"Message": "This is a demo message"
}
}
}
]
}
其中 MethodName 是 Proto 文件中 Method 的全名:package.method;
同时,你也可以通过 -c 请求来指定你的配置文件路径,例如: -c ./mock-protobuf.config.json;
下面是一个完整的命令行例子:
$ npm run dev -- s -i demo -c ./mock-protobuf.config-demo.json使用自定义返回值后的响应如下:
$ curl localhost:3333/Demo
{"Hello":"world"}
$ curl localhost:3333/demo/DemoServiceAnotherDemo
{"resp":{"status":200,"message":"ok"},"resp_data":{"Message":"This is a demo message"}}过滤条件
有的时候我们并不想 Mock 所有的 Proto 定义,此时可以使用 Filter 过滤条件;
有两种方式进行过滤:
- 包含 Includes:
-i <string>或--include; - 不包含 Excludes:
-e <string>或--exclude;
上面的 <string> 被定义为一个JS中的正则表达式 RegExp,所以可以使用类似于正则表达式的方式对 Proto 定义进行匹配:packageName.serviceName.methodName;
多个条件使用
,分隔!
Include过滤条件
当使用 Include 过滤条件,只有匹配的 Proto 定义才会被 Mock;
例如:
$ mock-pb g -i demo
Mocked demo.BasicResponse:
{
"status": -978663427598816,
"message": "Iymo zomttydmb.",
"resp": {}
}
Mocked demo.DemoRequest:
{
"data": "Mdnbfxbvoq khrbwyu sxmkev jss."
}
Mocked demo.DemoResponse:
{
"resp": {
"status": 6207610394471496,
"message": "Dkwse mmhmuhhunb.",
"resp": {}
},
"resp_data": "Fqwkd noiefpr ntjbcfydl."
}
Mocked demo.AnotherDemoRequest:
{
"name": "Puvujqy kyxl hshuysly.",
"age": 175838119803604
}
Mocked demo.AnotherDemoResponse:
{
"resp": {
"status": -7659482750118844,
"message": "Fygec kyzysqqga svimupy nbfrjt.",
"resp": {}
},
"resp_data": "Mpgjtjsbr qfspgkb xmpji."
}上面的命令只会为 demo.* 产生 Mock 数据(即:package 为 demo 的那些定义)!
另外一个例子:
$ mock-pb g -i demo.DemoRequest.*
Mocked demo.DemoRequest:
{
"data": "Ewqzspj hjkfvvc froqdhkwe fkqsdg dytidwli."
}此时只会 Mock:demo.DemoRequest 这一个 Message!
Exclude过滤条件
相反的,-e 产生将会排除那些匹配的 Message;
例如:
$ mock-pb g -e demo.*,google.protobuf.* -o mock-pb-gen
$ tree
.
└── google.api
├── CustomHttpPattern.json
├── HttpBody.json
├── Http.json
└── HttpRule.json上面的命令将不会 Mock demo.* 和 google.protobuf.* 下的 Message!
注意:当你同时使用 include and exclude 两个过滤器,exclude 会永远首先生效!
例如:
$ mock-pb g -i demo -e demo什么都不会输出,因为所有的内容都被过滤掉了!
开发过程
上面主要是讲解了 Mock 工具的使用方法;
下面总结了一下这个工具的整个开发过程,感兴趣的可以看看;
项目配置
项目目录结构如下(省略了一些无关的文件):
$ tree
.
├── jest.config.js
├── package.json
├── proto
│ └── ...
├── src
│ ├── commands
│ │ ├── generate.ts
│ │ ├── options.ts
│ │ └── serve.ts
│ ├── index.ts
│ └── libs
│ ├── configs.ts
│ ├── filter.ts
│ ├── mock.ts
│ └── server.ts
├── tsconfig.json
└── tslint.json目录结构非常简单:
tslint.json:一些 TS lint 相关的配置;tsconfig.json:TS 编译相关配置;jest.config.js:Jest 测试相关配置;package.json:项目主配置;proto/:项目提供的测试 Protobuf 文件;src/:项目代码;
下面主要看 package.json 配置:
package.json
{
"name": "mock-pb-cli",
"version": "v1.1.1",
"scripts": {
"c": "tsc",
"serve": "ts-node src/index.ts",
"dev": "ts-node-dev src/index.ts",
"test": "jest",
"cover": "jest --coverage"
},
"main": "src/index.ts",
"bin": {
"mock-pb": "bin/index.js"
},
"files": [
"bin",
"README.md"
],
"devDependencies": {
"@types/fs-extra": "^9.0.13",
"@types/jest": "^24.0.13",
"@types/mockjs": "^1.0.6",
"@types/node": "^14.18.10",
"@types/restify": "^8.5.5",
"@types/shelljs": "^0.8.11",
"@types/supertest": "^2.0.7",
"jest": "^24.8.0",
"supertest": "^4.0.2",
"ts-jest": "^24.0.2",
"ts-node": "^8.1.0",
"ts-node-dev": "^2.0.0-0",
"tslint": "^5.17.0",
"typescript": "^4.8.2"
},
"dependencies": {
"commander": "^9.4.0",
"fs-extra": "^9.0.13",
"globby": "^11.0.0",
"mockjs": "^1.1.0",
"protobufjs": "^7.1.0",
"restify": "^8.6.1",
"shelljs": "^0.8.5"
}
}在上面的配置中:
name&version决定了发布到 NPM 后的名称和版本号;scripts:声明了一些npm指令,可以通过npm run xxx执行;main:作为项目入口的文件;bin(重要!):作为node-cli的入口文件;注:mock-pb为安装后的命令名称,bin/index.js为命令的入口文件!files:npm 打包上传时包含的文件;devDependencies:开发依赖,如果只使用npm -i安装,则不会安装这些依赖;dependencies:项目依赖,使用npm -i安装,也会安装这些依赖;
devDependencies 主要是一些 TS 库、test库等等,由于我们发布到 NPM 上的为编译好的 JS 文件,所以不需要这些 TS 库了!
在我们的项目中,主要使用的是下面这些依赖:
- “commander”:知名的命令行解析、执行库;
- “fs-extra”:封装了一些文件系统同步、异步操作库;
- “globby”:匹配文件,用于匹配 proto 类型的文件;
- “mockjs”:生成 Mock 数据;
- “protobufjs”:解析 proto 文件;
- “restify”:创建 Mock Server;
- “shelljs”:一些 shell 命令的封装库,例如:
sed;
再看一下 TS 编译的配置:
tsconfig.json
{
"compilerOptions": {
/* Basic Options */
"target": "ES6", /* Specify ECMAScript target version: 'ES3' (default), 'ES5', 'ES2015', 'ES2016', 'ES2017','ES2018' or 'ESNEXT'. */
// ts-node 目前不支持es2015的的模块机制
// https://github.com/TypeStrong/ts-node/issues/313#issuecomment-343698812
"module": "commonjs", /* Specify module code generation: 'none', 'commonjs', 'amd', 'system', 'umd', 'es2015', or 'ESNext'. */
"outDir": "./bin/", /* Redirect output structure to the directory. */
"rootDir": "./src/", /* input folder, and root dir cannot contain some ohter ts file which not in src folder*/
/* Strict Type-Checking Options */
"strict": true, /* Enable all strict type-checking options. */
/* Module Resolution Options */
"moduleResolution": "node", /* Specify module resolution strategy: 'node' (Node.js) or 'classic' (TypeScript pre-1.6). */
"esModuleInterop": true, /* Enables emit interoperability between CommonJS and ES Modules via creation of namespace objects for all imports. Implies 'allowSyntheticDefaultImports'. */
"experimentalDecorators": true /* Enables experimental support for ES7 decorators. */
},
"exclude": [
"./test"
]
}主要关注:
outDir:我们将文件编译至:bin/目录下,和上面的bin以及files对应;rootDir:我们 TS 文件的根目录;
下面来看代码逻辑;
代码逻辑
在 src 目录下分为了两个目录:
$ tree
.
├── commands
│ ├── generate.ts
│ ├── options.ts
│ └── serve.ts
├── index.ts
└── libs
├── configs.ts
├── filter.ts
├── mock.ts
└── server.ts
2 directories, 8 files- index.ts 为执行入口;
- commands 目录下存放子命令相关内容;
- libs 目录下存放子命令实现相关内容;
命令行入口
命令行入口为 index.ts:
index.ts
#!/usr/bin/env node
const path = require('path');
const fs = require('fs');
const {Command} = require('commander');
const {DirOption, IncludeOption, ExcludeOption, PortOption, OutputPathOption, ConfigOption} = require('./commands/options')
const generate = require('./commands/generate');
const serve = require('./commands/serve');
const program = new Command();
let config = {};
// 配置文件如果存在则读取
if (fs.existsSync(path.resolve("mock-protobuf.config-demo.json"))) {
config = path.resolve("mock-protobuf.config-demo.json");
}
program
.name("mock-protobuf")
.version("v1.1.1", "-v, --version")
.description("A tool to mock protobuf");
program.command('s').alias('serve')
.addOption(DirOption)
.addOption(IncludeOption)
.addOption(ExcludeOption)
.addOption(PortOption)
.addOption(ConfigOption)
.action(serve).description("Create a mock server for the given protobuf");
program.command('g').alias('generate')
.addOption(DirOption)
.addOption(IncludeOption)
.addOption(ExcludeOption)
.addOption(OutputPathOption)
.action(generate).description("Generate mock data for the given protobuf");
program.parse();代码首行 #!/usr/bin/env node 表示这是一个 node-cli 入口,这个是必须要加的!
随后,解析配置文件、然后注册每个命令;
最后调用:program.parse(),解析命令行参数;
各个子命令入口
commands 目录下存放了每个子命令、以及命令行参数的文件;
首先,由于某些命令行参数会被复用,因此在 options.ts 中定义了所有的命令行参数:
options.ts
import {Option} from "commander";
let DirOption = new Option('-d, --dir <string>', 'the directory of the protobuf files').default('.');
let PortOption = new Option('-p, --port <number>', 'the port for the mock server').default(3333).env('PB_MOCK_PORT');
let IncludeOption = new Option('-i, --include <string>',
'include the specific protobuf interfaces, multiple packages split by ",", ' +
'such as: "packageName.serviceName.methodName"').default('');
let ExcludeOption = new Option('-e, --exclude <string>',
'exclude the specific protobuf interfaces, multiple packages split by ",", ' +
'such as: "packageName.serviceName.methodName"').default('');
let OutputPathOption = new Option('-o, --output <string>', 'output path for result').default('');
let ConfigOption = new Option('-c, --config <string>', 'the config file path').default('mock-protobuf.config.json');
module.exports = {DirOption, PortOption, IncludeOption, ExcludeOption, OutputPathOption, ConfigOption: ConfigOption};这些参数和上面的功能介绍中一一对应;
随后是两个子命令的定义,对应上文中的 generate 和 serve:
generate.ts
import {getMockTpl, loadProtobufDefinition} from "../libs/mock";
import mockjs from "mockjs";
import fs from 'fs-extra';
import path from "path";
import {
filterProtobufDefinitions,
getProtobufFiltersFromOptions, ProtobufMessage,
} from "../libs/filter";
interface GenerateCmdOptions {
dir: string;
include?: string | undefined;
exclude?: string | undefined;
output: string;
}
module.exports = (options: GenerateCmdOptions) => {
// Step 1: Load protobuf definitions
let pkgDefinition = loadProtobufDefinition(options.dir);
// Step 2: Filter if necessary
let [filteredMessages, _] = filterProtobufDefinitions(pkgDefinition, ...getProtobufFiltersFromOptions(options.include, options.exclude));
// Step 3: Generate each messages
filteredMessages.forEach((v: ProtobufMessage[]) => {
// Step 3.2: Generate mocked protobuf message data
for (let protobufMessage of v) {
let mockTpl = getMockTpl(pkgDefinition, protobufMessage.packageName, protobufMessage.messageName, new Map(), undefined);
let mockData = mockjs.mock(mockTpl);
processMockData(options.output, protobufMessage, mockData);
}
});
}
function processMockData(outputPath: string, pbMessage: ProtobufMessage, mockedMessageData: any) {
// Print the mock data to the console if no output path
if (outputPath.length === 0) {
console.log(`Mocked ${pbMessage.packageName}.${pbMessage.messageName}: \n${JSON.stringify(mockedMessageData, null, 2)}\n`);
return
}
// Else async write the output
let saveFilePath = path.posix.join(outputPath, pbMessage.packageName);
fs.ensureDirSync(saveFilePath)
fs.writeJSON(path.posix.join(saveFilePath, pbMessage.messageName + ".json"), mockedMessageData, err => {
if (err) return console.error(err)
})
}serve.ts
import {createServer, parse_response_value_from_config} from "../libs/server";
interface ServeCmdOptions {
dir: string;
include: string;
exclude: string;
port: number | undefined;
config: string;
}
module.exports = function (options: ServeCmdOptions) {
createServer(options.dir, {
include: options.include,
exclude: options.exclude,
/*
The param data is result of mock.js
https://github.com/nuysoft/Mock
*/
/**
* Hack mock rules of template
* @param key protobuf message key
* @param type protobuf message key type (eg. string/int32/bool...)
* @param random
*/
responseHandlerMap: parse_response_value_from_config(options.config),
hackMockTpl: (key, type, random) => {
key = key.toLowerCase();
const keyTypeHas = (k: string, t: string) =>
type === t && key.indexOf(k) > -1;
if (keyTypeHas('icon', 'string')) return '@image';
else if (keyTypeHas('name', 'string')) return '@name';
return '';
}
}).then(server => server.start(options.port));
}两个子命令都只是 export 了入口函数,用于在 index.ts 入口文件中注册子命令;
同时,两个子命令主要都是调用在 libs 中定义的函数,来完成各自的功能;
下面来看各子命令的实现;
Generate子命令
Generate命令入口
让我们自信看看 Generate 入口文件:
generate.ts
interface GenerateCmdOptions {
dir: string;
include?: string | undefined;
exclude?: string | undefined;
output: string;
}
module.exports = (options: GenerateCmdOptions) => {
// Step 1: Load protobuf definitions
let pkgDefinition = loadProtobufDefinition(options.dir);
// Step 2: Filter if necessary
let [filteredMessages, _] = filterProtobufDefinitions(pkgDefinition, ...getProtobufFiltersFromOptions(options.include, options.exclude));
// Step 3: Generate each messages
filteredMessages.forEach((v: ProtobufMessage[]) => {
// Step 3.2: Generate mocked protobuf message data
for (let protobufMessage of v) {
let mockTpl = getMockTpl(pkgDefinition, protobufMessage.packageName, protobufMessage.messageName, new Map(), undefined);
let mockData = mockjs.mock(mockTpl);
processMockData(options.output, protobufMessage, mockData);
}
});
}
function processMockData(outputPath: string, pbMessage: ProtobufMessage, mockedMessageData: any) {
// Print the mock data to the console if no output path
if (outputPath.length === 0) {
console.log(`Mocked ${pbMessage.packageName}.${pbMessage.messageName}: \n${JSON.stringify(mockedMessageData, null, 2)}\n`);
return
}
// Else async write the output
let saveFilePath = path.posix.join(outputPath, pbMessage.packageName);
fs.ensureDirSync(saveFilePath)
fs.writeJSON(path.posix.join(saveFilePath, pbMessage.messageName + ".json"), mockedMessageData, err => {
if (err) return console.error(err)
})
}首先,GenerateCmdOptions 接口定义了 Generate 命令所需要的命令行参数;
这些参数在命令行入口中可以被传递进来:
index.ts
program.command('g').alias('generate')
.addOption(DirOption)
.addOption(IncludeOption)
.addOption(ExcludeOption)
.addOption(OutputPathOption)
.action(generate).description("Generate mock data for the given protobuf");加载Protobuf文件
在 generate 命令中,首先通过 loadProtobufDefinition 函数加载指定目录下的 protobuf 文件:
libs/mock.ts
export function loadProtobufDefinition(repository: string) {
const absFilePaths = path.posix.join(repository, '**/*.proto');
// Load all protobuf files under the repository
const protoPaths = globby.sync([absFilePaths]);
// Process each protobuf files, and solve semantic analysis errors caused by compatible annotations
shell.sed('-i', /\/\*\/\//g, '/* //', protoPaths);
return protoPaths.map(protoPaths => {
const root = new protobuf.Root();
return root.loadSync(protoPaths, {keepCase: true, alternateCommentMode: false, preferTrailingComment: false});
});
}上面的 loadProtobufDefinition 函数逻辑非常简单,首先查找所有的 proto 文件,随后加载;
其中使用 shell.sed('-i', /\/\*\/\//g, '/* //', protoPaths); 替换掉了文件中的注释行;
protobuf.js 库对于某些含有注释的文件解析支持不够好!
过滤Protobuf定义
首先,调用 getProtobufFiltersFromOptions 函数根据命令行参数创建过滤条件:
随后调用 filterProtobufDefinitions 函数,过滤那些来自命令行 -i 和 -e 指定的 protobuf 定义;
libs/filter.ts
export type ProtobufMessageFilter = RegExp[];
export function getProtobufFiltersFromOptions(includes?: string | undefined, excludes?: string | undefined):
[ProtobufMessageFilter | undefined, ProtobufMessageFilter | undefined] {
return [
includes === undefined || includes.length === 0 ? undefined :
includes.split(',').map(regExpStr => new RegExp(getRegExpString(regExpStr.trim()))),
excludes === undefined || excludes.length === 0 ? undefined :
excludes.split(',').map(regExpStr => new RegExp(getRegExpString(regExpStr.trim()))),
];
}
function getRegExpString(regExpStr: string): string {
// Using prefix match for filters
regExpStr = regExpStr.replace('\.', "\\.");
return `^${regExpStr}`;
}可以看到,getProtobufFiltersFromOptions 函数根据命令行传递的过滤条件生成了对应的 RegExp 数组,用于匹配路径;
filterProtobufDefinitions 函数:
libs/filter.ts
export interface ProtobufMessage {
data: ReflectionObject,
packageName: string;
serviceName: string;
messageName: string;
}
// Filter the protobuf definitions
export function filterProtobufDefinitions(
pbDefinitions: protobuf.Root[],
includeFilters: ProtobufMessageFilter | undefined,
excludeFilters: ProtobufMessageFilter | undefined,
): [Map<string, ProtobufMessage[]>, Map<string, ProtobufMessage[]>, Map<string, ProtobufMessage[]>] {
let retMessageMaps = new Map<string, ProtobufMessage[]>();
let retServiceMaps = new Map<string, ProtobufMessage[]>();
let retMethodMaps = new Map<string, ProtobufMessage[]>();
let repeatedSet = new Set<string>();
for (let pbDefinition of pbDefinitions) {
if (pbDefinition instanceof Namespace) {
handleNamespace(pbDefinition.name, pbDefinition as Namespace,
includeFilters, excludeFilters, retMessageMaps, retServiceMaps, retMethodMaps, repeatedSet);
}
}
return [retMessageMaps, retServiceMaps, retMethodMaps];
}
function handleNamespace(namespace: string, pbDefinition: Namespace,
includeFilters: ProtobufMessageFilter | undefined,
excludeFilters: ProtobufMessageFilter | undefined,
retMessageMaps: Map<string, ProtobufMessage[]>,
retServiceMaps: Map<string, ProtobufMessage[]>,
retMethodMaps: Map<string, ProtobufMessage[]>,
repeatedSet: Set<string>) {
for (let i = 0; i < pbDefinition.nestedArray.length; i++) {
let item = pbDefinition.nestedArray[i];
if (item instanceof Type) {
pushItem(namespace, "", "Type", item, includeFilters, excludeFilters, retMessageMaps, repeatedSet);
} else if (item instanceof Service) {
pushItem(namespace, item.name, "Service", item, includeFilters, excludeFilters, retServiceMaps, repeatedSet);
for (let method of item.methodsArray) {
pushItem(namespace, item.name, "Method", method, includeFilters, excludeFilters, retMethodMaps, repeatedSet);
}
} else if (item instanceof Namespace) {
handleNamespace(namespace === "" ? item.name : namespace + "." + item.name, item,
includeFilters, excludeFilters, retMessageMaps, retServiceMaps, retMethodMaps, repeatedSet);
}
}
return retMessageMaps;
}
function pushItem(namespace: string, serviceName: string, itemType: string, item: ReflectionObject,
includeFilters: ProtobufMessageFilter | undefined,
excludeFilters: ProtobufMessageFilter | undefined,
retMap: Map<string, ProtobufMessage[]>,
repeatedSet: Set<string>) {
if (namespace !== "" && filterProtobuf(namespace + `.${item.name}`, includeFilters, excludeFilters)) {
return;
}
let repeatStr = generateRepeatStr(namespace, serviceName, itemType, item.name);
if (repeatedSet.has(repeatStr)) { // duplicate
return;
} else {
repeatedSet.add(repeatStr);
}
if (retMap.has(namespace)) {
retMap.get(namespace)!.push({
data: item,
packageName: namespace,
serviceName: serviceName,
messageName: item.name
});
} else {
retMap.set(namespace, [{data: item, packageName: namespace, serviceName: serviceName, messageName: item.name}]);
}
}
export function filterProtobuf(namespace: string, includeFilters: ProtobufMessageFilter | undefined,
excludeFilters: ProtobufMessageFilter | undefined): boolean {
// Process for exclude filters first
if (excludeFilters !== undefined) {
if (matchFilters(namespace, excludeFilters)) {
return true;
}
}
// Process for include filters
if (includeFilters !== undefined) {
if (!matchFilters(namespace, includeFilters)) {
return true;
}
}
// Namespace has been not filtered, we pick it!
return false;
}
function matchFilters(namespace: string, filters: ProtobufMessageFilter): boolean {
return filters.some((filter) => filter.test(namespace));
}在函数 filterProtobufDefinitions 中,主要是遍历 Proto 的定义,然后根据过滤条件过滤出最终的 Message、Service、Method 定义;
在其中定义的 repeatedSet 用于防止某些递归定义的 Protobuf,例如:
message BasicResponse {
int32 status = 1;
string message = 2;
BasicResponse resp = 3;
}在函数 filterProtobufDefinitions 中主要是调用 handleNamespace 来处理所有的 Protobuf 定义;
主要是区分为不同的 Protobuf 类型:
for (let i = 0; i < pbDefinition.nestedArray.length; i++) {
let item = pbDefinition.nestedArray[i];
if (item instanceof Type) {
pushItem(namespace, "", "Type", item, includeFilters, excludeFilters, retMessageMaps, repeatedSet);
} else if (item instanceof Service) {
pushItem(namespace, item.name, "Service", item, includeFilters, excludeFilters, retServiceMaps, repeatedSet);
for (let method of item.methodsArray) {
pushItem(namespace, item.name, "Method", method, includeFilters, excludeFilters, retMethodMaps, repeatedSet);
}
} else if (item instanceof Namespace) {
handleNamespace(namespace === "" ? item.name : namespace + "." + item.name, item,
includeFilters, excludeFilters, retMessageMaps, retServiceMaps, retMethodMaps, repeatedSet);
}
}如果在 Proto 中的类型是 Namespace,那么我们还需要继续的递归调用 handleNamespace,来往下层继续搜索;
而 pushItem 函数用于将不同的 Proto 定义加入到结果集中:
function pushItem(namespace: string, serviceName: string, itemType: string, item: ReflectionObject,
includeFilters: ProtobufMessageFilter | undefined,
excludeFilters: ProtobufMessageFilter | undefined,
retMap: Map<string, ProtobufMessage[]>,
repeatedSet: Set<string>) {
if (namespace !== "" && filterProtobuf(namespace + `.${item.name}`, includeFilters, excludeFilters)) {
return;
}
let repeatStr = generateRepeatStr(namespace, serviceName, itemType, item.name);
if (repeatedSet.has(repeatStr)) { // duplicate
return;
} else {
repeatedSet.add(repeatStr);
}
if (retMap.has(namespace)) {
retMap.get(namespace)!.push({
data: item,
packageName: namespace,
serviceName: serviceName,
messageName: item.name
});
} else {
retMap.set(namespace, [{data: item, packageName: namespace, serviceName: serviceName, messageName: item.name}]);
}
}在 pushItem 函数中,首先通过 Filters 对当前的 Proto 定义进行过滤,如果不满足条件,则直接返回;
而过滤的逻辑非常简单:首先判断是否是排除的,如果是,则直接过滤掉,否则判断是否是包含的;
export function filterProtobuf(namespace: string, includeFilters: ProtobufMessageFilter | undefined,
excludeFilters: ProtobufMessageFilter | undefined): boolean {
// Process for exclude filters first
if (excludeFilters !== undefined) {
if (matchFilters(namespace, excludeFilters)) {
return true;
}
}
// Process for include filters
if (includeFilters !== undefined) {
if (!matchFilters(namespace, includeFilters)) {
return true;
}
}
// Namespace has been not filtered, we pick it!
return false;
}这也满足了上面说介绍的:当你同时使用 include and exclude 两个过滤器,exclude 会永远首先生效!
随后,pushItem 函数调用 generateRepeatStr 创建去重字符串防止多次递归遍历同一个定义;
最后将定义加入到返回值 Map 中;
至此,过滤并获取 Protobuf 定义完成!
创建Mock数据
最后,使用上面获取的 Protobuf 定义生成 Mock 数据:
// Step 3: Generate each messages
filteredMessages.forEach((v: ProtobufMessage[]) => {
// Step 3.2: Generate mocked protobuf message data
for (let protobufMessage of v) {
let mockTpl = getMockTpl(pkgDefinition, protobufMessage.packageName, protobufMessage.messageName, new Map(), undefined);
let mockData = mockjs.mock(mockTpl);
processMockData(options.output, protobufMessage, mockData);
}
});循环中首先通过 getMockTpl 获取到 Mock 对应 Protobuf 定义需要的模版,随后调用 mockjs.mock 生成 Mock 数据,最后调用 processMockData 保存 Mock 结果;
获取 Mock 模版的代码如下:
libs/mock.ts
const TYPES: { [key: string]: string } = {
double: '@float',
float: '@float',
int32: '@integer',
int64: '@string("1234567890", 1, 20)',
uint32: '@natural',
uint64: '@string("1234567890", 1, 20)',
sint32: '@integer',
sint64: '@string("1234567890", 1, 20)',
fixed32: '@natural',
fixed64: '@string("1234567890", 1, 20)',
sfixed32: '@integer',
sfixed64: '@string("1234567890", 1, 20)',
bool: '@boolean',
string: '@sentence(1, 5)',
bytes: '@sentence(1, 5)',
};
export function getService(
pbDefinitions: protobuf.Root[],
packageName: string,
serviceName: string,
): Root | null | undefined {
return pbDefinitions.find(pd => {
try {
pd.lookupService(`${packageName}.${serviceName}`);
return true;
} catch {
return false;
}
});
}
export function getMethod(
pbDefinitions: protobuf.Root[],
packageName: string,
serviceName: string,
methodName: string
): Method | null | undefined {
const service = getService(pbDefinitions, packageName, serviceName);
return service?.lookup(methodName) as Method;
}
export function getMessage(
pbDefinitions: protobuf.Root[],
packageName: string,
messageName: string
): protobuf.Type | undefined {
return pbDefinitions
.find(pd => {
try {
pd.lookupType(`${packageName}.${messageName}`);
return true;
} catch {
return false;
}
})
?.lookupType(`${packageName}.${messageName}`);
}
export function getMockTpl(
pbDefinitions: protobuf.Root[],
packageName: string,
messageType: string,
mockMemo: Map<string, any>, // mockMemo to avoid recursive struct
hackMockTpl?: (
key: string,
type: string,
random: MockjsRandom
) => string | (() => string),
) {
const messageTypeSplit = messageType.split('.');
if (messageTypeSplit.length) {
messageType = messageTypeSplit.pop()!;
packageName = messageTypeSplit.join('.');
}
const message = getMessage(pbDefinitions, packageName, messageType);
const fields = message?.fields || {};
const keys = Object.keys(fields);
const tpl: { [key: string]: any } = {};
keys.forEach(key => {
const val = fields[key];
const {repeated, type} = val;
const mockTpl =
(hackMockTpl && hackMockTpl(key, type, Random)) || TYPES[type];
key = `${key}${repeated ? '|0-10' : ''}`;
let mockKey = `${packageName}.${messageType}.${key}`;
if (mockMemo.has(mockKey)) {
return;
}
mockMemo.set(mockKey, tpl); // memorize the key
if (mockTpl) {
tpl[key] = repeated ? [mockTpl] : mockTpl;
} else {
const recursiveMockTpl = getMockTpl(
pbDefinitions,
packageName,
type,
mockMemo,
hackMockTpl
);
tpl[key] = repeated ? [recursiveMockTpl] : recursiveMockTpl;
}
});
return tpl;
}主要是对当前的 Protobuf 定义,递归的 Mock 包含的每一个字段;
同时,这里也使用到了 mockMemo 这个 Map 防止无限递归;
最后,通过 processMockData 函数处理 Mock 后的结果:
function processMockData(outputPath: string, pbMessage: ProtobufMessage, mockedMessageData: any) {
// Print the mock data to the console if no output path
if (outputPath.length === 0) {
console.log(`Mocked ${pbMessage.packageName}.${pbMessage.messageName}: \n${JSON.stringify(mockedMessageData, null, 2)}\n`);
return
}
// Else async write the output
let saveFilePath = path.posix.join(outputPath, pbMessage.packageName);
fs.ensureDirSync(saveFilePath)
fs.writeJSON(path.posix.join(saveFilePath, pbMessage.messageName + ".json"), mockedMessageData, err => {
if (err) return console.error(err)
})
}如果:
- 没有指定输出文件,则将 Mock 的数据打印在控制台来直接 Copy;
- 指定了输出文件,则根据 Namespace 创建对应的目录,并保存 Mock 结果;
Serve子命令
Serve子命令入口
Serve 子命令复用了上面大量的函数,这里来看下具体的实现;
类似的,首先是定义接收命令行参数的接口:
commands/serve.ts
interface ServeCmdOptions {
dir: string;
include: string;
exclude: string;
port: number | undefined;
config: string;
}
module.exports = function (options: ServeCmdOptions) {
createServer(options.dir, {
include: options.include,
exclude: options.exclude,
/*
The param data is result of mock.js
https://github.com/nuysoft/Mock
*/
/**
* Hack mock rules of template
* @param key protobuf message key
* @param type protobuf message key type (eg. string/int32/bool...)
* @param random
*/
responseHandlerMap: parse_response_value_from_config(options.config),
hackMockTpl: (key, type, random) => {
key = key.toLowerCase();
const keyTypeHas = (k: string, t: string) =>
type === t && key.indexOf(k) > -1;
if (keyTypeHas('icon', 'string')) return '@image';
else if (keyTypeHas('name', 'string')) return '@name';
return '';
}
}).then(server => server.start(options.port));
}随后调用 createServer 创建 Mock 的服务,并在创建完成后在指定的端口启动 Server;
创建Server
创建Server的核心是要:根据 Protobuf 的定义,Mock 相应 Method 的返回值以及请求路径;
而关于 Mock 返回值,在上面 Generate 子命令中,我们已经实现了!
下面首先来看 createServer 的实现:
export const createServer = async (protobufRepoPath: string, options: MockHandlerOptions) => {
const server = restify.createServer();
// CORS
server.use((req: Request, res: Response, next: Next) => {
res.header("Access-Control-Allow-Credentials", true);
res.header("Access-Control-Allow-Origin", req.headers.origin);
next();
});
// HANDLER
const handlersMap = generateMockHandlersMap(protobufRepoPath, options);
// API ROUTES
server.opts("*", (req, res, next) => {
res.header(
"Access-Control-Allow-Methods",
req.headers["access-control-request-methods"],
);
res.header(
"Access-Control-Allow-Headers",
req.headers["access-control-request-headers"],
);
res.end();
next();
});
handlersMap.forEach((handler, routePath) => {
console.log(`Handling routePath: ${routePath}`)
server.get(routePath, handler);
server.post(routePath, handler);
})
return {
start: (port: number = 3333) =>
server.listen(port, () =>
console.log("%s listening at %s", server.name, server.url),
),
};
};通过 restify.createServer() 我们可以创建一个 Server,同时配置允许跨域的 header;
随后通过 generateMockHandlersMap 函数获取 routePath => Handler 的 Map;
然后注册各个方法,最后返回启动 Server 的函数;
下面重点来看获取 Handler 的函数 generateMockHandlersMap;
获取各个Handler
获取各个 Handler 的方法和 Generate 子命令中的实现类似:
libs/server.ts
interface MockHandlerOptions {
include: string,
exclude: string,
responseHandlerMap?: Map<string, ResponseHandler>;
hackMockTpl?: (
key: string,
type: string,
random: MockjsRandom,
) => string | (() => string);
}
type ResponseHandler = (resp: restify.Response, data: any) => void;
function generateMockHandlersMap(
repository: string,
options: MockHandlerOptions,
): Map<string, RequestHandlerType> {
const {include, exclude, responseHandlerMap, hackMockTpl} = options;
// Step 1: Load protobuf definitions
const pkgDefinition = loadProtobufDefinition(repository);
// Step 2: Filter if necessary
let [_, __, filteredMethodsMap] = filterProtobufDefinitions(pkgDefinition, ...getProtobufFiltersFromOptions(include, exclude));
// Step 3: Bind methods to the mock server handler
let retHandlersMap: Map<string, RequestHandlerType> = new Map;
filteredMethodsMap.forEach((v: ProtobufMessage[]) => {
// Step 3.1: Generate each handler from protobuf method data
for (let protobufMethod of v) {
// console.log(`protobufMethod: ${protobufMethod}`);
let methodFullName = `${protobufMethod.packageName}.${protobufMethod.data.name}`;
let handler = (req: Request, res: Response, next: Next) => {
const method = getMethod(
pkgDefinition,
protobufMethod.packageName,
protobufMethod.serviceName,
protobufMethod.data.name,
);
const responseType = method?.responseType || "";
const tpl = getMockTpl(
pkgDefinition,
protobufMethod.packageName,
responseType,
new Map(),
hackMockTpl,
);
const mockData = mockjs.mock(tpl);
let customHandler = responseHandlerMap?.get(methodFullName);
if (customHandler !== undefined) { // CustomHandler response handler
customHandler(res, mockData);
} else { // We mock it
// console.log(mockData);
res.json(mockData)
}
next();
};
retHandlersMap.set(getRouthPath(protobufMethod.packageName,
protobufMethod.serviceName,
<Method>protobufMethod.data), handler);
}
});
return retHandlersMap;
}
function getRouthPath(packageName: string, serviceName: string, method: Method): string {
let parsedRouthPath = getRouthPathFromOptions(method);
if (parsedRouthPath === "") {
parsedRouthPath = `/${packageName.replace('.', '/')}` +
`/${serviceName.replace('.', '/')}` +
`${method.name}`;
}
return parsedRouthPath;
}
function getRouthPathFromOptions(method: Method): string {
for (let reqType of ["get", "post"]) {
let option = method.getOption(`(google.api.http).${reqType}`);
if (option !== undefined) {
return <string>option;
}
}
return "";
}在 generateMockHandlersMap 函数中,首先也是惊喜 Protobuf 定义的加载解析以及过滤操作;
随后遍历过滤之后的 MethodMap:为每个 Method Mock 请求参数,并获取请求路径;
这里需要注意的是:
如果 responseHandlerMap 中已经存在了自定义的响应,那么我们直接用这个即可:
let customHandler = responseHandlerMap?.get(methodFullName);
if (customHandler !== undefined) { // CustomHandler response handler
customHandler(res, mockData);
} else { // We mock it
res.json(mockData)
}同时,getRouthPath 函数用于获取请求路径:
function getRouthPath(packageName: string, serviceName: string, method: Method): string {
let parsedRouthPath = getRouthPathFromOptions(method);
if (parsedRouthPath === "") {
parsedRouthPath = `/${packageName.replace('.', '/')}` +
`/${serviceName.replace('.', '/')}` +
`${method.name}`;
}
return parsedRouthPath;
}
function getRouthPathFromOptions(method: Method): string {
for (let reqType of ["get", "post"]) {
let option = method.getOption(`(google.api.http).${reqType}`);
if (option !== undefined) {
return <string>option;
}
}
return "";
}如果存在通过 google.api.http 定义的请求路径,那么我们用这个路径,否则,我们用 Protobuf 的包名来生成路径;
这一点和我们上面提到的功能是一致的!
NPM上发布
代码写完,并且测试 OK 了之后,可以发布到 NPM 仓库;
把包发布在 NPM 上非常简单;
首先注册一个账号,可以通过 Github 注册;
随后使用 npm login 登陆,然后执行 npm publish 即可发布!
附录
源代码:
参考文章: