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Nest IOC DI (Dependency Injection) as a Seeds Tasks Runner Showcase

Using Nest DI as a task runner for seeding the DB.

Why?

Nest and the Prisma example provides only a rudimentary examples for seeding. No options to provide dependencies between the seeding tasks and no factories for the seeding.

seed.ts

import { PrismaClient } from '@prisma/client';
const prisma = new PrismaClient();
async function main() {
  await prisma.user.deleteMany();
  await prisma.post.deleteMany();
  console.log('Seeding...');
  const user1 = await prisma.user.create({
    data: {
      email: '[email protected]',
      firstname: 'Lisa',
      lastname: 'Simpson',
      password: '$2b$10$EpRnTzVlqHNP0.fUbXUwSOyuiXe/QLSUG6xNekdHgTGmrpHEfIoxm', // secret42
      role: 'USER',
      posts: {
        create: {
          title: 'Join us for Prisma Day 2019 in Berlin',
          content: 'https://www.prisma.io/day/',
          published: true,
        },
      },
    },
  });
  const user2 = await prisma.user.create({
    data: {
      email: '[email protected]',
      firstname: 'Bart',
      lastname: 'Simpson',
      role: 'ADMIN',
      password: '$2b$10$EpRnTzVlqHNP0.fUbXUwSOyuiXe/QLSUG6xNekdHgTGmrpHEfIoxm', // secret42
      posts: {
        create: [
          {
            title: 'Subscribe to GraphQL Weekly for community news',
            content: 'https://graphqlweekly.com/',
            published: true,
          },
          {
            title: 'Follow Prisma on Twitter',
            content: 'https://twitter.com/prisma',
            published: false,
          },
        ],
      },
    },
  });
  console.log({ user1, user2 });
}
main()
  .catch((e) => console.error(e))
  .finally(async () => {
    await prisma.$disconnect();
  });

In contrast, in other frameworks, for example in ruby rake you can define tasks and dependencies between those tasks.

task name: [:prereq1, :prereq2] do |t|
  # actions (may reference t)
end

Another example is in gulp where compoosed tasks can be used to build a tree of dependencies between tasks.

const { series, parallel } = require('gulp');

function clean(cb) {
  // body omitted
  cb();
}

function css(cb) {
  // body omitted
  cb();
}

function javascript(cb) {
  // body omitted
  cb();
}

exports.build = series(clean, parallel(css, javascript));

This article shows a way to achieve the same pattern of tasks and tasks dependencies by utilizing Nest base app DI mechanism for tasks execution system.

Architecture

The DI (dependency injection) system of Nest, allows declaring services and in those services, declare their dependency on other services.

This means if service A lifecycle of initialization (OnInit, constructor..) is used for performing a task, then service B that depends on it, can be sure that when it itself is initialized, then service A has finished its initialization and task.

That is the main solution. Using DI to declare services that depends on other services. A service get initialize only after its dependencies finished to be initialized also.

Solution Walkthrough

seed.ts

In the root file, you create a standalone Nest app. Then seeding services can be declared on the app module or be divided to sub modules (Dev, Stage, Common...).

import { NestFactory } from "@nestjs/core";
import { DevelopmentSeederModule } from "./seeders/development/DevelopmentSeederModule";

async function main() {
  await bootstrap();
}

async function bootstrap() {
  const seederModule = DevelopmentSeederModule;

  const app = await NestFactory.createApplicationContext(seederModule, {
    logger: [
      "error",
      "warn",
      "log",
      // "debug",
      // "verbose"
    ],
  });

  // Starts listening for shutdown hooks
  app.enableShutdownHooks();

  await app.close();
}

main()
  .catch((e) => console.error(e));

DevelopmentSeederModule

Each seeding module declares a seeding services. The provideSeederService utility is used here to declare an async factory seeder service.

import { Logger, Module, OnModuleDestroy, OnModuleInit, Scope } from '@nestjs/common';
import { CommonSeederModule } from '../common/CommonSeederModule';
import { provideSeederService } from '../common/utils/provideSeederService';
import { UsersSeeder } from './UsersSeeder.service';
import { UserFactory } from './UserFactory.service';
import { PrismaService } from '../common/Prisma.service';

@Module({
  imports: [CommonSeederModule],
  providers: [
    {
      provide: UserFactory,
      useFactory: ({ prisma }: PrismaService) => {
        const instance = new UserFactory(prisma);
        return instance;
      },
      inject: UserFactory.$inject,
    },
    provideSeederService(UsersSeeder),
  ],
})
export class DevelopmentSeederModule implements OnModuleInit, OnModuleDestroy {
  private readonly logger = new Logger(DevelopmentSeederModule.name);

  onModuleInit() {
    this.logger.log('Module init ...');
  }

  onModuleDestroy() {
    this.logger.log('Module destroy ...');
  }
}

provideSeederService.ts

Since seeding the DB is asynchronous work, we can not rely on the constructor to be the seeding point of work.

Instead, Nest asynchronous providers can be used to mark when the service has finished its initialization - its seeding work.

Each seeding service, needs to implement an interface consist of a async seed function that the factory activate in the initialization process.

import { PrismaService } from '../Prisma.service';
import { SeederClassType } from './SeederClassType';

export function provideSeederService<T extends SeederClassType>(
  seederClassType: T
) {
  const factory = async ({ prisma }: PrismaService, ...rest: any[]) => {
    const seederService = new seederClassType(prisma, ...rest);
    await seederService.seed();
    return seederService;
  };

  return {
    // the class will be used as DI token
    provide: seederClassType,
    useFactory: factory,
    inject: seederClassType.$inject,
  };
}

UserSeeder.service.ts

A seeding service consists of a custom $inject property that the factory use for declaring its dependencies and an async seed function that do the seeding work.

import { Logger } from '@nestjs/common';
import { PrismaClient } from '@prisma/client';
import { PrismaService } from '../common/Prisma.service';
import { faker } from '@faker-js/faker';
import { hash } from 'bcrypt';
import { UserFactory } from './UserFactory.service';

export class UsersSeeder {
  static $inject = [PrismaService, UserFactory];

  private readonly logger = new Logger(UsersSeeder.name);

  constructor(private prisma: PrismaClient, private userFactory: UserFactory) {}

  async seed() {
    this.logger.log('Seeding users...');

    await this.prisma.user.deleteMany();

    //const { BCRYPT_SALT } = process.env;
    // const salt = parseSalt(BCRYPT_SALT);

    await this.userFactory.create();

    this.logger.log('Seeding users done');
  }
}

UserFactory.service.ts

A model factory service is used as an encapsulation of the create logic for an entity. This includes generating random values and/or use other factories to create dependencies of the model.

import { Logger } from "@nestjs/common";
import { PrismaClient } from "@prisma/client";
import { PrismaService } from "../common/Prisma.service";
import { faker } from "@faker-js/faker";

export class UserFactory {
  static $inject = [PrismaService];

  private readonly logger = new Logger(UserFactory.name);

  constructor(private prisma: PrismaClient) {}

  async create() {
    const user = await this.prisma.user.create({
      data: {
        email: '[email protected]',
        firstname: 'Lisa',
        lastname: 'Simpson',
        password: '$2b$10$EpRnTzVlqHNP0.fUbXUwSOyuiXe/QLSUG6xNekdHgTGmrpHEfIoxm', // secret42
        role: 'USER',
      },
    });

    return user;
  }
}

CommonSeederModule

import { Logger, Module, OnModuleDestroy, OnModuleInit } from "@nestjs/common";
import { provideSeederService } from "./utils/provideSeederService";
import { CurrenciesSeeder } from "./CurrenciesSeeder.service";
import { PrismaService } from "./Prisma.service";

@Module({
  providers: [
    PrismaService,
    provideSeederService(CurrenciesSeeder),
  ],
  exports: [
    PrismaService,
    CurrenciesSeeder,
  ],
})
export class CommonSeederModule implements OnModuleInit, OnModuleDestroy {
  private readonly logger = new Logger(CommonSeederModule.name);

  onModuleInit() {
    this.logger.log("Module init ...");
  }

  onModuleDestroy() {
    this.logger.log("Module destroy ...");
  }
}

Prisma.service.ts

import { OnModuleDestroy } from "@nestjs/common";
import { PrismaClient } from "@prisma/client";

export class PrismaService implements OnModuleDestroy {
  prisma: PrismaClient;

  constructor() {
    this.prisma = new PrismaClient();
  }

  onModuleDestroy() {
    this.prisma.$disconnect();
  }
}

SeederClassType.ts

export type SeederClassCtor = new (...args: any[]) => any;

export type SeederClassType = SeederClassCtor & {
  $inject: any[];
};

Summary

As you can see, Nest base app with the DI mechanism can be utilizes as a task runner - service initialization - with the ability to define dependencies between the tasks - injection of services into other services.

By using this pattern, you can achieve an asynchronous task runner system with dependencies capability.

Instructions

pnpm add -g @nestjs/cli
pnpm install
pnpm docker:db
pnpm prisma migrate dev
pnpm prisma generate
pnpm seed

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Design patterns for using dependency injection for seeding tasks

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