The WunderGraph composition library facilitates the federation of multiple subgraph schemas into a single federated GraphQL schema.
The federateSubgraphs function is responsible for producing a valid federated graph.
Each subgraph will be normalized and validated before federation.
This normalization process does not affect the upstream schema.
The final federated graph will also be validated.
The function must be provided with an array of at least one Subgraph object.
An example federation of two simple subgraphs:
import { federateSubgraphs, Subgraph } from '@wundergraph/composition';
import { parse } from 'graphql';
const federationResult: FederationResult = federateSubgraphs([subgraphA, subgraphB]);
const subgraphA: Subgraph = {
name: 'subgraph-a',
url: 'http://localhost:4001',
definitions: parse(`
type User @key(fields: "id") {
id: ID!
name: String!
}
`),
};
const subgraphB: Subgraph = {
name: 'subgraph-b',
url: 'http://localhost:4002',
definitions: parse(`
type Query {
users: [User!]!
}
type User @key(fields: "id") {
id: ID!
interests: [String!]!
}
`),
};The federateSubgraphs function returns a FederationResultContainer object.
If federation was successful, the errors property will be undefined, and the federationResult object will be
defined.
| property | Description | type |
|---|---|---|
| errors | array of composition errors | Error[] | undefined |
| federationResult | FederationResult object (see below) | FederationResult | undefined |
If federation was successful, FieldResultContainer will contain a defined federationResult property.
| property | Description | type |
|---|---|---|
| argumentConfigurations | array of router argument configurations | ArgumentConfigurationData[] |
| federatedGraphAST | an AST object representation of the federated graph sdl | graphql.DocumentNode |
| federatedGraphSchema | a schema object representation of the federated graph sdl | graphql.GraphQLSchema |
If normalization of any subgraph fails, or the federated graph itself is invalid, the AST and schema will not be produced (undefined properties). In these cases, the errors array will be defined and populated. An example of a simple debugging framework might be:
import { federateSubgraphs, Subgraph } from '@wundergraph.composition';
import { print, printSchema } from 'graphql';
const { errors, federationResult } = federateSubgraphs([subgraphA, subgraphB]);
if (errors) {
for (const err of errors) {
console.log(err.message);
}
} else {
// Both options to print the federated graph as a string are included for documentational purposes only
console.log(print(federationResult!.federatedGraphAST)); // log the federated graph AST as a string
console.log(printSchema(federationResult!.federatedGraphSchema)); // log the federated graph schema as a string
}
// subgraph definitions would be below [removed for brevity]Errors can happen in three main stages:
- While validating the subgraph metadata, e.g., validating that each
Subgraphobject has a unique name. - During the normalization process, which prepares the subgraph for federation. (if this stage fails, federation will not be attempted)
- During the federation process itself.
All errors will be appended to the FederationResultContainer.errors array.
Often, the error message will suggest potential fixes. For instance:
Error: The following root path is unresolvable:
Query.user.name
This is because:
The root type field "Query.user" is defined in the following subgraphs: "subgraph-b".
However, "User.name" is only defined in the following subgraphs: "subgraph-c".
Consequently, "User.name" cannot be resolved through the root type field "Query.user".
Potential solutions:
Convert "User" into an entity using a "@key" directive.
Add the shareable root type field "Query.user" to the following subgraphs: "subgraph-c".
For example (note that V1 fields are shareable by default and do not require a directive):
type Query {
...
user: User @shareable
}
The Subgraph object is the core of the WunderGraph composition library.
The definitions property must be provided as a graphQL.DocumentNode type.
This is easily achieved by passing string representation of the subgraph SDL to the graphql.js parse function.
An example is shown below:
import { Subgraph } from '@wundergraph/composition'
import { parse } from 'graphql';
const subgraphA: Subgraph = {
name: 'subgraph-a',
url: 'http://localhost:4001',
definitions: parse(`
type Query {
user: User!
}
type User {
name: String!
}
`),
};| property | Description | type |
|---|---|---|
| name | unique name of the subgraph | string |
| url | unique endpoint for the subgraph | string |
| definitions | an AST representation of the subgraph SDL | graphql.DocumentNode |
Some GraphQL and Federation jargon should begin with a capitalised letter for clarity, e.g.,:
- Argument
- Enum
- Field
- Input Object
- Interface
- Object When adding or changing errors, please begin these terms with a capital letter.