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MichalLytek / Typegraphql Prisma

Licence: mit
Prisma 2 generator to emit TypeGraphQL types and CRUD resolvers from your Prisma 2 schema

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integration logo

TypeGraphQL & Prisma 2 integration

Prisma 2 generator to emit TypeGraphQL types and CRUD resolvers from your Prisma 2 schema

Installation

Fist of all, you have to install the generator, as a dev dependency:

npm i -D typegraphql-prisma

Furthermore, typegraphql-prisma requires Prisma 2 to work properly, so please install Prisma dependencies if you don't have it already installed:

npm i -D prisma
npm i @prisma/client

Be aware that typegraphql-prisma is designed to work with a selected versions of prisma.

Please make sure you use prisma and @prisma/client of version matching ~2.18.0. Otherwise, the runtime check will report an error when you run the generator.

You also need to install the GraphQL Scalars library (to support the Prisma Json, BigInt and Byte types):

npm i graphql-scalars

as well as the graphql-fields that is used to properly support the aggregate and group by queries:

npm i graphql-fields @types/graphql-fields

Also, be aware that due to usage of some ES2019 and newer Node.js features, you also have to use Node.js v12.4.0 or newer.

Configuration

After installation, you need to update your schema.prisma file and then add a new generator section below the client one:

generator client {
  // ...
}

generator typegraphql {
  provider = "typegraphql-prisma"
}

Then after running npx prisma generate, this will emit the generated TypeGraphQL classes to @generated/typegraphql-prisma in node_modules folder.

You can also configure the default output folder, e.g.:

generator typegraphql {
  provider = "typegraphql-prisma"
  output   = "../prisma/generated/type-graphql"
}

By default, when the output path contains node_modules, the generated code is transpiled - consist of *.js and *.d.ts files that are ready to use (import) in your code. However, if you explicitly choose some other folder in output config, the generated code will be emitted as a raw TS files which you can use and import as your other source code files.

You can overwrite that by explicitly setting emitTranspiledCode config option:

generator typegraphql {
  provider           = "typegraphql-prisma"
  output             = "../prisma/generated/type-graphql"
  emitTranspiledCode = true
}

Usage

Given that you have this part of datamodel definitions:

enum PostKind {
  BLOG
  ADVERT
}

model User {
  id    String  @default(cuid()) @id @unique
  email String  @unique
  name  String?
  posts Post[]
}

It will generate a User class in the output folder, with TypeGraphQL decorators, and an enum - you can import them and use normally as a type or an explicit type in your resolvers:

export enum PostKind {
  BLOG = "BLOG",
  ADVERT = "ADVERT",
}
TypeGraphQL.registerEnumType(PostKind, {
  name: "PostKind",
  description: undefined,
});

@TypeGraphQL.ObjectType({
  isAbstract: true,
  description: undefined,
})
export class User {
  @TypeGraphQL.Field(_type => String, {
    nullable: false,
    description: undefined,
  })
  id!: string;

  @TypeGraphQL.Field(_type => String, {
    nullable: false,
    description: undefined,
  })
  email!: string;

  @TypeGraphQL.Field(_type => String, {
    nullable: true,
    description: undefined,
  })
  name?: string | null;

  posts?: Post[] | null;
}

It will also generates a whole bunch of stuffs based on your schema.prisma file - models classes, enums, as well as CRUD resolvers and relations resolver.

CRUD resolvers supports this following methods with args that are 1:1 matching with the PrismaClient API:

  • findUnique
  • findFirst
  • findMany
  • create
  • createMany
  • update
  • updateMany
  • delete
  • deleteMany
  • upsert
  • aggregate
  • groupBy

By default, the method names will be mapped to a GraphQL idiomatic ones (like findManyUser -> users). You can opt-in to use original names by providing useOriginalMapping = true generator option.

The fastest way to expose all Prisma CRUD actions is to import resolvers from the output folder:

import { resolvers } from "@generated/type-graphql";

const schema = await buildSchema({
  resolvers,
  validate: false,
});

This will emit all CRUD actions and model relations in the schema.

If you need more control, you can import the crudResolvers and relationResolvers arrays separately to even transform them:

import { crudResolvers, relationResolvers } from "@generated/type-graphql";

When using the generated resolvers, you have to first provide the PrismaClient instance into the context under prisma key, to make it available for the crud and relations resolvers:

import { PrismaClient } from "@prisma/client";

const prisma = new PrismaClient();

const server = new ApolloServer({
  schema, // from previous step
  playground: true,
  context: (): Context => ({ prisma }),
});

Unchecked scalars input

GraphQL does not support input unions, hence it's not possible to support both normal inputs and unchecked scalars input at the same time like the Prisma does.

If you prefer simplicity over more sophisticated solutions like connectOrCreate, you can to provide the useUncheckedScalarInputs generator option:

generator typegraphql {
  provider                 = "typegraphql-prisma"
  output                   = "../prisma/generated/type-graphql"
  useUncheckedScalarInputs = true
}

This way there will be generate input classes with relation id fields, instead of the normal "nested" inputs for creating/updating relations, e.g.:

@TypeGraphQL.InputType({
  isAbstract: true,
})
export class PostUncheckedCreateInput {
  @TypeGraphQL.Field(_type => String, {
    nullable: false,
  })
  title!: string;

  @TypeGraphQL.Field(_type => TypeGraphQL.Int, {
    nullable: false,
  })
  authorId!: number;

  @TypeGraphQL.Field(_type => TypeGraphQL.Int, {
    nullable: true,
  })
  editorId?: number | undefined;
}

Nest JS

In order to use generated types and resolvers classes in NestJS, you need to use the official typegraphql-nestjs package. This module allows for basic integration of TypeGraphQL with NestJS. You can find an example in the examples/4-nest-js folder.

Due to difference between TypeGraphQL and NestJS decorators, typegraphql-prisma doesn't work anymore with @nestjs/graphql from version 7.0.

Advanced usage

Exposing selected models Prisma CRUD actions

If you want to expose only CRUD Prisma actions for selected models, you can import crud resolver classes only for that models, instead of the all-in-one resolvers object.

Then you just have to put them into the buildSchema:

import { UserCrudResolver, PostCrudResolver } from "@generated/type-graphql";

const schema = await buildSchema({
  resolvers: [CustomUserResolver, UserCrudResolver, PostCrudResolver],
  validate: false,
});

However, if you also want to have relations like User -> posts emitted in schema, you need to import also the relations resolvers and register them in your buildSchema call:

import {
  User,
  UserRelationsResolver,
  UserCrudResolver,
} from "@generated/type-graphql";

const schema = await buildSchema({
  resolvers: [CustomUserResolver, UserRelationsResolver, UserCrudResolver],
  validate: false,
});

Exposing selected Prisma actions only

If you want to expose only certain Prisma actions, like findManyUser or createOneUser, you can import resolver classes only for them, instead of the whole model XYZCrudResolver. Then you just have to put them into the buildSchema:

import {
  User,
  FindManyUserResolver,
  CreateUserResolver,
  UserRelationsResolver,
} from "@generated/type-graphql";

const schema = await buildSchema({
  resolvers: [
    CustomUserResolver,
    FindManyUserResolver,
    CreateUserResolver,
    UserRelationsResolver,
  ],
  validate: false,
});

Custom operations

You can also add custom queries and mutations to the schema as always, using the generated PrismaClient client:

@Resolver()
export class CustomUserResolver {
  @Query(returns => User, { nullable: true })
  async bestUser(@Ctx() { prisma }: Context): Promise<User | null> {
    return await prisma.user.findUnique({
      where: { email: "[email protected]" },
    });
  }
}

Additional decorators for Prisma schema resolvers

When you need to apply some decorators like @Authorized, @UseMiddleware or @Extensions on the generated resolvers methods, you don't need to modify the generated source files.

To support this, typegraphql-prisma generates two things: applyResolversEnhanceMap function and a ResolversEnhanceMap type. All you need to do is to create a config object, where you put the decorator functions (without @) in an array, and then call that function with that config, eg.:

import {
  ResolversEnhanceMap,
  applyResolversEnhanceMap,
} from "@generated/type-graphql";
import { Authorized } from "type-graphql";

const resolversEnhanceMap: ResolversEnhanceMap = {
  Category: {
    createCategory: [Authorized(Role.ADMIN)],
  },
};

applyResolversEnhanceMap(resolversEnhanceMap);

This way, when you call createCategory GraphQL mutation, it will trigger the type-graphql authChecker function, providing a Role.ADMIN role, just like you would put the @Authorized on top of the resolver method.

Also, if you have a large schema and you need to provide plenty of decorators, you can split the config definition into multiple smaller objects placed in different files. To accomplish this, just import the generic ResolverActionsConfig type and define the resolvers config separately for every Prisma schema model, e.g:

import {
  ResolversEnhanceMap,
  ResolverActionsConfig,
  applyResolversEnhanceMap,
} from "@generated/type-graphql";
import { Authorized, Extensions } from "type-graphql";

// define the decorators config using generic ResolverActionsConfig<TModelName> type
const categoryActionsConfig: ResolverActionsConfig<"Category"> = {
  deleteCategory: [
    Authorized(Role.ADMIN),
    Extensions({ logMessage: "Danger zone", logLevel: LogLevel.WARN }),
  ],
};
const problemActionsConfig: ResolverActionsConfig<"Problem"> = {
  createProblem: [Authorized()],
};

// join the actions config into a single resolvers enhance object
const resolversEnhanceMap: ResolversEnhanceMap = {
  Category: categoryActionsConfig,
  Problem: problemActionsConfig,
};

// apply the config (it will apply decorators on the resolver class methods)
applyResolversEnhanceMap(resolversEnhanceMap);

If you want to apply some decorators on all the methods of a model CRUD resolver, you can use the special _all property to achieve that:

applyResolversEnhanceMap({
  Client: {
    _all: [Authorized()],
  },
});

Additional decorators for Prisma schema classes and fields

If you need to apply some decorators, like @Authorized or @Extensions, on the model @ObjectType and its fields, you can use similar pattern as for the resolver actions described above.

All you need to do is to import ModelsEnhanceMap type and applyModelsEnhanceMap function, and then create a config object, where you put the decorator functions (without @) in an array. If you want to split the config definitions, you can use ModelConfig type in the same way like ResolverActionsConfig, e.g.:

import {
  ResolversEnhanceMap,
  ResolverActionsConfig,
  applyResolversEnhanceMap,
} from "@generated/type-graphql";
import { Authorized, Extensions } from "type-graphql";

// define the decorators configs
const userEnhanceConfig: ModelConfig<"User"> = {
  fields: {
    email: [
      Authorized(Role.ADMIN),
      Extensions({ logMessage: "Danger zone", logLevel: LogLevel.WARN }),
    ],
  },
};
const modelsEnhanceMap: ModelsEnhanceMap = {
  User: userEnhanceConfig,
  // or apply it inline
  Recipe: {
    class: [
      // decorators for @ObjectType model class
      Extensions({ logMessage: "Secret recipe", logLevel: LogLevel.INFO }),
    ],
    fields: {
      // decorator for model class fields
      averageRating: [Authorized()],
    },
  },
};

// apply the config (it will apply decorators on the model class and its properties)
applyModelsEnhanceMap(modelsEnhanceMap);

This way, you can apply some rules on single model or its fields, like User.email visible only for Admin.

If you want to apply some decorators on all the fields of a model, you can use the special _all property to achieve that:

applyModelsEnhanceMap({
  User: {
    fields: {
      // all fields are protected against unauthorized access
      _all: [Authorized()],
      // this field  has additional decorators to apply
      password: [
        Extensions({ logMessage: "Danger zone", logLevel: LogLevel.WARN }),
      ],
    },
  },
});

If you want to apply decorator to model's relation field, you need to use the applyRelationResolversEnhanceMap function and RelationResolverActionsConfig<TModel> type if you need to separate the configs. In order to apply some decorators on all the fields of a model, you can use the special _all property to achieve that:

const clientRelationEnhanceConfig: RelationResolverActionsConfig<"Client"> = {
  posts: [
    UseMiddleware((_data, next) => {
      console.log("Client.posts relation field accessed");
      return next();
    }),
  ],
};

applyRelationResolversEnhanceMap({
  Client: clientRelationEnhanceConfig,
  Product: {
    fields: {
      // all fields are protected against unauthorized access
      _all: [Authorized()],
    },
  },
});

In case of other output types like AggregateFooBar, you can use the same pattern but this time using the applyOutputTypeEnhanceMap function and OutputTypeConfig or OutputTypesEnhanceMap types:

const aggregateClientConfig: OutputTypeConfig<"AggregateClient"> = {
  fields: {
    avg: [Extensions({ complexity: 10 })],
  },
};

applyOutputTypeEnhanceMap({
  // separate config
  AggregateClient: aggregateClientConfig,
  // or an inline one
  ClientAvgAggregate: {
    fields: {
      _all: [Extensions({ complexity: 10 })],
      age: [Authorized()],
    },
  },
});

If you want to add decorators for input types or args classes, you can leverage applyArgsTypesEnhanceMap and applyInputTypesEnhanceMap functions and use ArgsTypesEnhanceMap, ArgConfig<TArgsType>, InputTypesEnhanceMap, InputTypeConfig<TInput> types if you want to split the definitions. The special _all property also can apply the decorators to all the fields:

applyArgsTypesEnhanceMap({
  CreateProblemArgs: {
    fields: {
      data: [ValidateNested()],
    },
  },
});

applyInputTypesEnhanceMap({
  ProblemCreateInput: {
    fields: {
      _all: [Allow()],
      problemText: [MinLength(10)],
    },
  },
});

Be aware that in case of class-validator you need to add @ValidateNested decorator to the args classes to trigger validation of the proper input types.

Adding fields to model type

If you want to add a field to the generated type like User, you have to add a proper @FieldResolver for that:

@Resolver(of => User)
export class CustomUserResolver {
  @FieldResolver(type => Post, { nullable: true })
  async favoritePost(
    @Root() user: User,
    @Ctx() { prisma }: Context,
  ): Promise<Post | undefined> {
    const [favoritePost] = await prisma.user
      .findUnique({ where: { id: user.id } })
      .posts({ first: 1 });

    return favoritePost;
  }
}

Changing exposed model type name

You can also change the name of the model types exposed in GraphQL Schema. To achieve this, just put the @@TypeGraphQL.type doc line above the model definition in schema.prisma file, e.g:

/// @@TypeGraphQL.type(name: "Client")
model User {
  id     Int     @default(autoincrement()) @id
  email  String  @unique
  posts  Post[]
}

Be aware that this feature changes the name everywhere in the schema, so you can import FindManyClientResolver (not FindManyUserResolver), as well as only ClientUpdateInput is available (not UserUpdateInput), which means that the GraphQL queries/mutations will also be renamed, e.g.:

type Mutation {
  createClient(data: ClientCreateInput!): Client!
}

Changing exposed model type field name

You can also change the name of the model type fields exposed in GraphQL Schema. To achieve this, just put the @TypeGraphQL.field doc line above the model field definition in schema.prisma file, e.g:

model User {
  id     Int     @default(autoincrement()) @id
  /// @TypeGraphQL.field(name: "emailAddress")
  email  String  @unique
  posts  Post[]
}

This will result in the following GraphQL schema representation:

type User {
  id: Int!
  emailAddress: String!
  posts: [Post!]!
}

All generated CRUD and relations resolvers fully support this feature and they map under the hood the original prisma property to the renamed field exposed in schema.

The same goes to the resolvers input types - they will also be emitted with changed field name, e.g.:

input UserCreateInput {
  emailAddress: String!
  posts: PostCreateManyWithoutAuthorInput
}

The emitted input type classes automatically map the provided renamed field values from GraphQL query into proper Prisma input properties out of the box.

Hiding Prisma model field in GraphQL schema

Sometimes you may want to not expose some fields in GraphQL schema. To achieve this, just put the @TypeGraphQL.omit doc line above the model field definition in schema.prisma file, e.g:

model User {
  id        Int     @default(autoincrement()) @id
  email     String  @unique
  /// @TypeGraphQL.omit(output: true)
  password  String
  posts     Post[]
}

Thanks to that, the field won't show up in the GraphQL schema representation:

type User {
  id: Int!
  email: String!
  posts: [Post!]!
}

However, the prisma model field will be still visible in all input types, like UserWhereInput or UserCreateInput:

input UserCreateInput {
  email: String!
  password: String!
  posts: PostCreateManyWithoutAuthorInput!
}

This behavior is temporary and will be improved soon by introducing input: true option to @TypeGraphQL.omit.

Simple resolvers (performance)

If you don't have any global middlewares and you want to tune the generated schema performance, you can turn on the simpleResolvers generator option:

generator typegraphql {
  provider        = "typegraphql-prisma"
  simpleResolvers = true
}

It will generate then all the output type and model type classes with simpleResolvers: true option of ObjectType decorator, which can improve performance of underlying field resolvers, e.g.:

@TypeGraphQL.ObjectType({
  isAbstract: true,
  description: undefined,
  simpleResolvers: true,
})
export class BatchPayload {
  @TypeGraphQL.Field(_type => TypeGraphQL.Int, {
    nullable: false,
    description: undefined,
  })
  count!: number;
}

Lifting Prisma version restriction

By default, typegraphql-prisma generator checks is the installed Prisma version matches the one required one using semver rules. So when you try to use other version, like just released minor or the dev one, you will receive an error about wrong package version.

If you want or need to try other version and you are sure what you're doing, you can use SKIP_PRISMA_VERSION_CHECK env variable to suppress that error:

SKIP_PRISMA_VERSION_CHECK=true npx prisma generate

Examples

You can check out some integration examples on this repo:

https://github.com/MichalLytek/typegraphql-prisma/blob/main/examples/Readme.md

Feedback

Currently released version 0.x is just a preview of the upcoming integration. For now it lacks customization option - picking/omitting fields of object types to expose in the schema, as well as picking exposed args fields.

However, the base functionality is working well, so I strongly encourage you to give it a try and play with it. Any feedback about the developers experience, bug reports or ideas about new features or enhancements are very welcome - please feel free to put your two cents into discussion in the issue.

In near feature, when Prisma SDK will be ready, the typegraphql-prisma integration will also allow to use a code-first approach to build a schema.prisma and GraphQL schema at once, using classes with decorators as a single source of truth. Stay tuned! 💪

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