A GraphQL data provider for react-admin built with Apollo and tailored to target a simple GraphQL implementation.
This is an example implementation to show how to build a graphql adapter using ra-data-graphql.
Install with:
npm install --save graphql ra-data-graphql-simpleor
yarn add graphql ra-data-graphql-simpleThe ra-data-graphql-simple package exposes a single function, which is a constructor for a dataProvider based on a GraphQL endpoint. When executed, this function calls the GraphQL endpoint, running an introspection query. It uses the result of this query (the GraphQL schema) to automatically configure the dataProvider accordingly.
// in App.js
import React from 'react';
import { Component } from 'react';
import buildGraphQLProvider from 'ra-data-graphql-simple';
import { Admin, Resource } from 'react-admin';
import { PostCreate, PostEdit, PostList } from './posts';
const dataProvider = buildGraphQLProvider({ buildQuery });
const App = () => (
<Admin dataProvider={dataProvider} >
<Resource name="Post" list={PostList} edit={PostEdit} create={PostCreate} />
</Admin>
);
export default App;Note: the parser will generate additional .id properties for relation based types. These properties should be used as sources for reference based fields and inputs like ReferenceField: <ReferenceField label="Author Name" source="author.id" reference="User">.
The ra-data-graphql-simple function works against GraphQL servers that respect a certain GraphQL grammar. For instance, to handle all the actions on a Post resource, the GraphQL endpoint should support the following schema:
type Query {
Post(id: ID!): Post
allPosts(page: Int, perPage: Int, sortField: String, sortOrder: String, filter: PostFilter): [Post]
_allPostsMeta(page: Int, perPage: Int, sortField: String, sortOrder: String, filter: PostFilter): ListMetadata
}
type Mutation {
createPost(
title: String!
views: Int!
user_id: ID!
): Post
updatePost(
id: ID!
title: String!
views: Int!
user_id: ID!
): Post
updatePosts(
ids: [ID!]
data: PostBulkUpdatePayload
) : { ids: [ID!]}
deletePost(id: ID!): Post
deletePosts(ids: [ID!]) : { ids: [ID!]}
}
type Post {
id: ID!
title: String!
views: Int!
user_id: ID!
User: User
Comments: [Comment]
}
input PostFilter {
q: String
id: ID
title: String
views: Int
views_lt: Int
views_lte: Int
views_gt: Int
views_gte: Int
user_id: ID
}
input PostBulkUpdatePayload {
title: String
}
type ListMetadata {
count: Int!
}
scalar DateThis is the grammar used e.g. by marmelab/json-graphql-server, a client-side GraphQL server used for test purposes.
You can either supply the client options by calling buildGraphQLProvider like this:
buildGraphQLProvider({ clientOptions: { uri: 'http://localhost:4000', ...otherApolloOptions } });Or supply your client directly with:
buildGraphQLProvider({ client: myClient });The default behavior might not be optimized especially when dealing with references. You can override a specific query by wrapping the buildQuery function:
// in src/dataProvider.js
import buildGraphQLProvider, { buildQuery } from 'ra-data-graphql-simple';
const myBuildQuery = introspection => (fetchType, resource, params) => {
const builtQuery = buildQuery(introspection)(fetchType, resource, params);
if (resource === 'Command' && fetchType === 'GET_ONE') {
return {
// Use the default query variables and parseResponse
...builtQuery,
// Override the query
query: gql`
query Command($id: ID!) {
data: Command(id: $id) {
id
reference
customer {
id
firstName
lastName
}
}
}`,
};
}
return builtQuery;
};
export default buildGraphQLProvider({ buildQuery: myBuildQuery })These are the default options for introspection:
const introspectionOptions = {
include: [], // Either an array of types to include or a function which will be called for every type discovered through introspection
exclude: [], // Either an array of types to exclude or a function which will be called for every type discovered through introspection
};
// Including types
const introspectionOptions = {
include: ['Post', 'Comment'],
};
// Excluding types
const introspectionOptions = {
exclude: ['CommandItem'],
};
// Including types with a function
const introspectionOptions = {
include: type => ['Post', 'Comment'].includes(type.name),
};
// Including types with a function
const introspectionOptions = {
exclude: type => !['Post', 'Comment'].includes(type.name),
};Note: exclude and include are mutually exclusives and include will take precedence.
Note: When using functions, the type argument will be a type returned by the introspection query. Refer to the introspection documentation for more information.
Pass the introspection options to the buildApolloProvider function:
buildApolloProvider({ introspection: introspectionOptions });By default, for every API call this data provider returns all top level fields in your GraphQL schema as well as association objects containing the association's ID. If you would like to implement sparse field support for your requests, you can request the specific fields you want in a request by passing them to the dataProvider via the available meta param. For example,
dataProvider.getOne(
'posts',
{
id,
meta: {
sparseFields: [
'id',
'title',
{
comments: [
'description',
{
author : [
'name',
'email'
]
}
]
}
]
}
},
);This can increase efficiency, optimize client performance, improve security and reduce over-fetching. Also, it allows for the request of nested association fields beyond just their ID. It is available for all dataprovider actions.
Your GraphQL backend may not allow multiple deletions or updates in a single query. This provider defaults to simply making multiple requests to handle those. This is obviously not ideal but can be alleviated by supplying your own ApolloClient which could use the apollo-link-batch-http link if your GraphQL backend support query batching.
Run the tests with this command:
make test