Federation implementation for graphene
Project description
graphene-federation
Federation support for Graphene following the Apollo Federation specifications.
This repository is heavily based on the repo it was forked from... Huge thanks to Preply for setting up the foundations.
WARNING: This version is not compatible with graphene
version below v3.
If you need to use a version compatible with graphene
v2 I recommend using the version 1.0.0 of graphene_federation
.
Supported Features
At the moment it supports:
sdl
(_service
on field): enable to add schema in federation (as is)@key
decorator (entity support): enable to perform queries across service boundaries (you can have more than one key per type)@extend
: extend remote typesexternal()
: mark a field as externalrequires()
: mark that field resolver requires other fields to be pre-fetchedprovides()
/@provides
: annotate the expected returned fieldset from a field on a base type that is guaranteed to be selectable by the gateway.
Each type which is decorated with @key
or @extend
is added to the _Entity
union.
The __resolve_reference
method can be defined for each type that is an entity.
Note that since the notation with double underscores can be problematic in Python for model inheritance this resolver method can also be named _resolve_reference
(the __resolve_reference
method will take precedence if both are declared).
This method is called whenever an entity is requested as part of the fulfilling a query plan.
If not explicitly defined, the default resolver is used.
The default resolver just creates instance of type with passed fieldset as kwargs, see entity.get_entity_query
for more details
- You should define
__resolve_reference
, if you need to extract object before passing it to fields resolvers (example: FileNode) - You should not define
__resolve_reference
, if fields resolvers need only data passed in fieldset (example: FunnyText) Read more in official documentation.
Example
Here is an example of implementation based on the Apollo Federation introduction example. It implements a federation schema for a basic e-commerce application over three services: accounts, products, reviews.
Accounts
First add an account service that expose a User
type that can then be referenced in other services by its id
field:
from graphene import Field, ID, ObjectType, String
from graphene_federation import build_schema, key
@key("id")
class User(ObjectType):
id = Int(required=True)
username = String(required=True)
def __resolve_reference(self, info, **kwargs):
"""
Here we resolve the reference of the user entity referenced by its `id` field.
"""
return User(id=self.id, email=f"user_{self.id}@mail.com")
class Query(ObjectType):
me = Field(User)
schema = build_schema(query=Query)
Product
The product service exposes a Product
type that can be used by other services via the upc
field:
from graphene import Argument, ID, Int, List, ObjectType, String
from graphene_federation import build_schema, key
@key("upc")
class Product(ObjectType):
upc = String(required=True)
name = String(required=True)
price = Int()
def __resolve_reference(self, info, **kwargs):
"""
Here we resolve the reference of the product entity referenced by its `upc` field.
"""
return Product(upc=self.upc, name=f"product {self.upc}")
class Query(ObjectType):
topProducts = List(Product, first=Argument(Int, default_value=5))
schema = build_schema(query=Query)
Reviews
The reviews service exposes a Review
type which has a link to both the User
and Product
types.
It also has the ability to provide the username of the User
.
On top of that it adds to the User
/Product
types (that are both defined in other services) the ability to get their reviews.
from graphene import Field, ID, Int, List, ObjectType, String
from graphene_federation import build_schema, extend, external, provides
@extend("id")
class User(ObjectType):
id = external(Int(required=True))
reviews = List(lambda: Review)
def resolve_reviews(self, info, *args, **kwargs):
"""
Get all the reviews of a given user. (not implemented here)
"""
return []
@extend("upc")
class Product(ObjectType):
upc = external(String(required=True))
reviews = List(lambda: Review)
# Note that both the base type and the field need to be decorated with `provides` (on the field itself you need to specify which fields get provided).
@provides
class Review(ObjectType):
body = String()
author = provides(Field(User), fields="username")
product = Field(Product)
class Query(ObjectType):
review = Field(Review)
schema = build_schema(query=Query)
Federation
Note that each schema declaration for the services is a valid graphql schema (it only adds the _Entity
and _Service
types).
The best way to check that the decorator are set correctly is to request the service sdl:
from graphql import graphql
query = """
query {
_service {
sdl
}
}
"""
result = graphql(schema, query)
print(result.data["_service"]["sdl"])
Those can then be used in a federated schema.
You can find more examples in the unit / integration tests and examples folder.
There is also a cool example of integration with Mongoengine.
Known issues
- decorators will not work properly on fields with custom names for example
some_field = String(name='another_name')
Contributing
- You can run the unit tests by doing:
make tests
. - You can run the integration tests by doing
make integration-build && make integration-test
. - You can get a development environment (on a Docker container) with
make dev-setup
. - You should use
black
to format your code.
The tests are automatically run on Travis CI on push to GitHub.
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