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firestore-apollo-graphql

授权协议 Unlicense License
开发语言 Java
所属分类 大数据、 数据查询
软件类型 开源软件
地区 不详
投 递 者 饶铭
操作系统 跨平台
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 软件概览

firebase-firestore-graphql

An example of a GraphQL setup with a Firebase Firestore backend. Uses Apollo Engine/Server 2.0 and deployed to Google App Engine.

Initial setup

npm init --yes
npm install apollo-server@beta firebase-admin graphql graphql-tag
npm install --save-dev typescript tslint

You'll also want to set up some scripts and other settings, as of writing here is what the package.json looks like

{
  "name": "firebase-firestore-graphql",
  "scripts": {
      "build": "tsc",
      "serve": "npm run build && node lib/index.js",
      "start": "node lib/index.js",
      "deploy": "npm run build && gcloud app deploy"
  },
  "main": "lib/index.js",
  "dependencies": {
      "apollo-server": "^2.0.0-beta.10",
      "firebase-admin": "^5.12.1",
      "graphql": "^0.13.2",
      "graphql-tag": "^2.9.2"
  },
  "devDependencies": {
      "tslint": "^5.10.0",
      "typescript": "^2.9.1"
  }
}

Firebase setup

Download Firebase service account as service-account.json and put in root of this directory.

In your firestore database setup two collections, one of tweets and one of users. The userId in tweets should point to a user Id that the tweet came from.

interface User {
  id: string;
  name: string;
  screenName: string;
  statusesCount: number;
}

interface Tweet {
  id: string;
  name: string;
  screenName: string;
  statusesCount: number;
  userId: string;
}

Typescript

Copy the tslint and tsconfig json files from this repo into your own.

GraphQL

Make a src directory and a index.ts file inside. Setup the imports

import * as admin from 'firebase-admin';

const serviceAccount = require('../service-account.json');

admin.initializeApp({
  credential: admin.credential.cert(serviceAccount)
});

import { ApolloServer, ApolloError, ValidationError, gql } from 'apollo-server';

interface User {
  id: string;
  name: string;
  screenName: string;
  statusesCount: number;
}

interface Tweet {
  id: string;
  name: string;
  screenName: string;
  statusesCount: number;
  userId: string;
}

Schema

Now we setup our GraphQL schema

const typeDefs = gql`
  # A Twitter User
  type User {
    id: ID!
    name: String!
    screenName: String!
    statusesCount: Int!
    tweets: [Tweets]!
  }

  # A Tweet Object
  type Tweets {
    id: ID!
    text: String!
    userId: String!
    user: User!
    likes: Int!
  }

  type Query {
    tweets: [Tweets]
    user(id: String!): User
  }
`;

The ! signifies that this property is guaranteed to not be null. You'll notice that a user has an array of Tweets and a tweet has a user object in it, despite them being separate collections in our database. This is the magic of GraphQL, we can combine things across collections.

For the purpose of this tutorial we have two queries, an array of all tweets and a specific user based on their ID.

Resolver

Next we setup our resolver, this turns GraphQL queries into data. First we setup our resolver for the base queries

const resolvers = {
  Query: {
    async tweets() {
      const tweets = await admin
        .firestore()
        .collection('tweets')
        .get();
      return tweets.docs.map(tweet => tweet.data()) as Tweet[];
    },
    async user(_: null, args: { id: string }) {
      try {
        const userDoc = await admin
          .firestore()
          .doc(`users/${args.id}`)
          .get();
        const user = userDoc.data() as User | undefined;
        return user || new ValidationError('User ID not found');
      } catch (error) {
        throw new ApolloError(error);
      }
    }
  }
};

This will get an array of tweets or a user but how do we add the graph part of GraphQL and interconnect different collections such as all the Tweets a user has made or the details of a user that made a certain tweet?

const resolvers = {
  Query: {
    ...
  },
  User: {
    async tweets(user) {
      try {
        const userTweets = await admin
          .firestore()
          .collection('tweets')
          .where('userId', '==', user.id)
          .get();
        return userTweets.docs.map(tweet => tweet.data()) as Tweet[];
      } catch (error) {
        throw new ApolloError(error);
      }
    }
  },
  Tweets: {
    async user(tweet) {
      try {
        const tweetAuthor = await admin
          .firestore()
          .doc(`users/${tweet.userId}`)
          .get();
        return tweetAuthor.data() as User;
      } catch (error) {
        throw new ApolloError(error);
      }
    }
  }
};

Take getting all the tweets a user has made as an example. You can see in our resolver we have a user object with a tweets property. Because tweets is a child of user, we can use the parent user to then query the tweets collection for all the tweets with that user ID.

Apollo Server

Finally we setup our Apollo server, to work on App Engine we need to grab the port from the enviroment variables

const server = new ApolloServer({
  typeDefs,
  resolvers,
  introspection: true
});

server.listen({ port: process.env.PORT || 4000 }).then(({ url }) => {
  console.log(`��  Server ready at ${url}`);
});

If you setup your npm scripts you should be able to run

npm run serve

If you navigate to the URL you shoud be able to see a GraphQL playground where you can query your API, congrats!

Apollo Engine

Apollo Engine gives use awesome features such as caching, tracing, and error logging. First get an Apollo Engine API key then change your Apollo server config to turn on engine

const server = new ApolloServer({
  typeDefs,
  resolvers,
  engine: {
    apiKey: "<APOLLO ENGINE API KEY HERE>"
  },
  introspection: true
});

Now when you npm serve and run some queries you should see some data populate the Apollo Engine dashboard with things like how fast your queries resolved. Cool!

App Engine

Finally we can deploy to App engine so the world can access our GraphQL endpoint. In the root project folder create a file app.yaml. Inside is just one line

runtime: nodejs8

Also add the .gcloudignore file from this repo to your folder. Setup the gcloud SDK then point it to your Firebase project.

gcloud config set project <projectID>
npm run build
gcloud app deploy

You should get a deployed URL, you can then query that using an GraphQL tool. I personally use Insomnia’s GraphQL mode.

Congratulations, you've setup a GraphQL server!

 相关资料
  • Apollo(阿波罗)是携程框架部门研发的分布式配置中心,能够集中化管理应用不同环境、不同集群的配置,配置修改后能够实时推送到应用端,并且具备规范的权限、流程治理等特性,适用于微服务配置管理场景。 Swoft 基于 Apollo 提供的 API,在之上进行封装,使之能在 Swoft 中快速使用。 安装 swoft/whoops 作为一个额外的扩展组件,需要手动安装: Composer 安装 com

  • Apollo以ActiveMQ原型为基础,是一个更快、更可靠、更易于维护的消息代理工具。Apache称Apollo为最快、最强健的 STOMP(Streaming Text Orientated Message Protocol,流文本定向消息协议)服务器。 Apollo的特性如下: 支持Stomp 1.0和Stomp 1.1协议 主题和队列 队列浏览器 主题持久订阅 镜像队列 可靠的消息传递 消

  • Apollo Client 是一个全功能的 GraphQL 客户端,用于 React 、Angular 的交互。允许你轻松通过 GraphQL 获取数据并构建 UI 组件。

  • Glimmer Apollo: Ember and Glimmer integration for Apollo Client. Documentation Visit glimmer-apollo.com to read the docs. Compatibility Apollo Client v3.0 or above GlimmerX v0.6 or above Node.js v12 o

  • Apollo Angular Apollo Angular allows you to fetch data from your GraphQL server and use it in building complex and reactive UIs using the Angular framework. Apollo Angular may be used in any context t

  • apollo-link ⚠️ THIS PROJECT HAS BEEN DEPRECATED ⚠️ The Links in this repo have been migrated to the apollo-client project (as of >= @apollo/client@3.0.0). Please refer to the Apollo Client migration g