Angel3 Graphql

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Pub Version (including pre-releases) Null Safety Gitter License melos

A complete implementation of the official GraphQL specification - these are the Angel3 framework-specific bindings.

The goal of this project is to provide to server-side users of Dart an alternative to REST API's. package:angel3_graphql, which, when combined with the allows server-side Dart users to build backends with GraphQL and virtually any database imaginable.

Installation

To install package:angel3_graphql, add the following to your pubspec.yaml:

dependencies:
    angel3_framework: ^8.0.0
    angel3_graphql: ^8.0.0

Usage

Using this package is very similar to GraphQL.js - you define a schema, and then mount graphQLHttp in your router to start serving. This implementation supports GraphQL features like introspection, so you can play around with graphiql as well!

Firstly, define your schema. A GraphQL schema contains an object type that defines all querying operations that can be applied to the backend.

A GraphQL schema may also have a mutation object type, which defines operations that change the backend's state, and optionally a subscription type, which defines real-time interactions (coming soon!).

You can use the convertDartType helper to wrap your existing Model/PODO classes, and make GraphQL aware of them without duplicated effort.

import 'package:angel3_framework/angel3_framework.dart';
import 'package:angel3_graphql/angel3_graphql.dart';
import 'package:graphql_schema2/graphql_schema2.dart';
import 'package:graphql_server2/graphql_server2.dart';
import 'package:graphql_server2/mirrors.dart';

Future configureServer(Angel app) async {
    var queryType = objectType(
        'Query',
        description: 'A simple API that manages your to-do list.',
        fields: [
            field(
                'todos',
                listOf(convertDartType(Todo).nonNullable()),
                resolve: resolveViaServiceIndex(todoService),
            ),
            field(
                'todo',
                convertDartType(Todo),
                resolve: resolveViaServiceRead(todoService),
                inputs: [
                    GraphQLFieldInput('id', graphQLId.nonNullable()),
                ],
            ),
        ],
    );

    var mutationType = objectType(
        'Mutation',
        description: 'Modify the to-do list.',
        fields: [
            field(
                'create',
                graphQLString,
            ),
        ],
    );

    var schema = graphQLSchema(
        queryType: queryType,
        mutationType: mutationType,
    );
}

After you've created your GraphQLSchema, you just need to wrap in a call to graphQLHttp, a request handler that responds to GraphQL.

In development, it's also highly recommended to mount the graphiQL handler, which serves GraphQL's official visual interface, for easy querying and feedback.

app.all('/graphql', graphQLHttp(GraphQL(schema)));
app.get('/graphiql', graphiQL());

All that's left now is just to start the server!

var server = await http.startServer('127.0.0.1', 3000);
var uri =
    Uri(scheme: 'http', host: server.address.address, port: server.port);
var graphiqlUri = uri.replace(path: 'graphiql');
print('Listening at $uri');
print('Access graphiql at $graphiqlUri');

Visit your /graphiql endpoint, and you'll see the graphiql UI, ready-to-go!

Graphiql screenshot

Now you're ready to build a GraphQL API!

Subscriptions

Example: Source code

In GraphQL, as of the June 2018 spec, clients can subscribe to streams of events from the server. In your schema, all you need to do is return a Stream from a resolve callback, rather than a plain object:

var postAdded = postService.afterCreated
      .asStream()
      .map((e) => {'postAdded': e.result})
      .asBroadcastStream();

var schema = graphQLSchema(
  // ...
  subscriptionType: objectType(
    'Subscription',
    fields: [
      field('postAdded', postType, resolve: (_, __) => postAdded),
    ],
  ),
);

By default, graphQLHttp has no support for subscriptions, because regular HTTP requests are stateless, and are not ideal for continuous data pushing. You can add your own handler:

graphQLHttp(graphQL, onSubscription: (req, res, stream) {
  // Do something with the stream here. It's up to you.
});

There is, however, graphQLWS, which implements Apollo's subscriptions-transport-ws protocol:

app.get('/subscriptions', graphQLWS(GraphQL(schema)));

You can then use existing JavaScript clients to handle subscriptions.

The graphiQL handler also supports using subscriptions. In the following snippet, the necessary scripts will be added to the rendered page, so that the subscriptions-transport-ws client can be used by GraphiQL:

app.get('/graphiql',
    graphiQL(subscriptionsEndpoint: 'ws://localhost:3000/subscriptions'));

NOTE: Apollo's spec for the aforementioned protocol is very far outdated, and completely inaccurate, See this issue for more: github.com/apollographql/subscriptions-transport-ws/issues/551

Using Services

What would Angel be without services? For those unfamiliar - in Angel, Service is a base class that implements CRUD functionality, and serves as the database interface within an Angel application. They are well-suited for NoSQL or other databases without a schema (they can be used with SQL, but that's not their primary focus).

package:angel3_graphql has functionality to resolve fields by interacting with services.

Consider our previous example, and note the calls to resolveViaServiceIndex and resolveViaServiceRead:

var queryType = objectType(
    'Query',
    description: 'A simple API that manages your to-do list.',
    fields: [
      field(
        'todos',
        listOf(convertDartType(Todo).nonNullable()),
        resolve: resolveViaServiceIndex(todoService),
      ),
      field(
        'todo',
        convertDartType(Todo),
        resolve: resolveViaServiceRead(todoService),
        inputs: [
          GraphQLFieldInput('id', graphQLId.nonNullable()),
        ],
      ),
    ],
  );

In all, there are:

  • resolveViaServiceIndex
  • resolveViaServiceFindOne
  • resolveViaServiceRead
  • resolveViaServiceCreate
  • resolveViaServiceModify
  • resolveViaServiceUpdate
  • resolveViaServiceRemove

As one might imagine, using these convenience helpers makes it much quicker to implement CRUD functionality in a GraphQL API.

Documentation

Using package:graphql_generator2, you can generate GraphQL schemas for concrete Dart types:

configureServer(Angel app) async {
  var schema = graphQLSchema(
    queryType: objectType('Query', fields: [
      field('todos', listOf(todoGraphQLType), resolve: (_, __) => ...)
    ]);
  );
}

@graphQLClass
class Todo {
  String text;

  @GraphQLDocumentation(description: 'Whether this item is complete.')
  bool isComplete;
}

For more documentation, see: package:graphql_generator2

Mirrors

NOTE: Mirrors support is deprecated, and will not be updated further.

The convertDartType function can automatically read the documentation from a type like the following:

@GraphQLDocumentation(description: 'Any object with a .text (String) property.')
abstract class HasText {
  String get text;
}

@serializable
@GraphQLDocumentation(
    description: 'A task that might not be completed yet. **Yay! Markdown!**')
class Todo extends Model implements HasText {
  String text;

  @GraphQLDocumentation(deprecationReason: 'Use `completion_status` instead.')
  bool completed;

  CompletionStatus completionStatus;

  Todo({this.text, this.completed, this.completionStatus});
}

@GraphQLDocumentation(description: 'The completion status of a to-do item.')
enum CompletionStatus { COMPLETE, INCOMPLETE }

You can also manually provide documentation for parameters and endpoints, via a description parameter on almost all related functions.

See package:graphql_schema2 for more documentation.

Libraries

angel3_graphql