.. | ||
analytics_build_entity.rb | ||
analytics_build_serializer.rb | ||
analytics_commit_entity.rb | ||
analytics_commit_serializer.rb | ||
analytics_generic_serializer.rb | ||
analytics_issue_entity.rb | ||
analytics_issue_serializer.rb | ||
analytics_merge_request_entity.rb | ||
analytics_merge_request_serializer.rb | ||
analytics_stage_entity.rb | ||
analytics_stage_serializer.rb | ||
analytics_summary_entity.rb | ||
analytics_summary_serializer.rb | ||
base_serializer.rb | ||
build_action_entity.rb | ||
build_artifact_entity.rb | ||
build_details_entity.rb | ||
build_entity.rb | ||
build_serializer.rb | ||
cohort_activity_month_entity.rb | ||
cohort_entity.rb | ||
cohorts_entity.rb | ||
cohorts_serializer.rb | ||
commit_entity.rb | ||
deploy_key_entity.rb | ||
deploy_key_serializer.rb | ||
deployment_entity.rb | ||
deployment_serializer.rb | ||
entity_date_helper.rb | ||
entity_request.rb | ||
environment_entity.rb | ||
environment_serializer.rb | ||
event_entity.rb | ||
issuable_entity.rb | ||
issue_entity.rb | ||
issue_serializer.rb | ||
job_group_entity.rb | ||
label_entity.rb | ||
label_serializer.rb | ||
merge_request_basic_entity.rb | ||
merge_request_basic_serializer.rb | ||
merge_request_create_entity.rb | ||
merge_request_create_serializer.rb | ||
merge_request_entity.rb | ||
merge_request_serializer.rb | ||
pipeline_details_entity.rb | ||
pipeline_entity.rb | ||
pipeline_serializer.rb | ||
project_entity.rb | ||
README.md | ||
request_aware_entity.rb | ||
runner_entity.rb | ||
stage_entity.rb | ||
status_entity.rb | ||
user_entity.rb |
Serializers
This is a documentation for classes located in app/serializers
directory.
In GitLab, we use grape-entities, accompanied by a serializer, to convert a Ruby object to its JSON representation.
Serializers are typically used in controllers to build a JSON response that is usually consumed by a frontend code.
Why using a serializer is important?
Using serializers, instead of to_json
method, has several benefits:
- it helps to prevent exposure of a sensitive data stored in the database
- it makes it easier to test what should and should not be exposed
- it makes it easier to reuse serialization entities that are building blocks
- it makes it easier to move complexity from controllers to easily testable classes
- it encourages hiding complexity behind intentions-revealing interfaces
- it makes it easier to take care about serialization performance concerns
- it makes it easier to reduce merge conflicts between CE -> EE
- it makes it easier to benefit from domain driven development techniques
What is a serializer?
A serializer is a class that encapsulates all business rules for building a JSON response using serialization entities.
It is designed to be testable and to support passing additional context from the controller.
What is a serialization entity?
Entities are lightweight structures that allow to represent domain models in a consistent and abstracted way, and reuse them as building blocks to create a payload.
Entities located in app/serializers
are usually derived from a
Grape::Entity
class.
Serialization entities that do require to have a knowledge about specific
elements of the request, need to mix RequestAwareEntity
in.
A serialization entity usually maps a domain model class into its JSON
representation. It rarely happens that a serialization entity exists without
a corresponding domain model class. As an example, we have an Issue
class and
a corresponding IssueSerializer
.
Serialization entites are designed to reuse other serialization entities, which is a convenient way to create a multi-level JSON representation of a piece of a domain model you want to serialize.
See documentation for Grape Entites for more details.
How to implement a serializer?
Base implementation
In order to effectively implement a serializer it is necessary to create a new
class in app/serializers
. See existing serializers as an example.
A new serializer should inherit from a BaseSerializer
class. It is necessary
to specify which serialization entity will be used to serialize a resource.
class MyResourceSerializer < BaseSerialize
entity MyResourceEntity
end
The example above shows how a most simple serializer can look like.
Given that the entity MyResourceEntity
exists, you can now use
MyResourceSerializer
in the controller by creating an instance of it, and
calling MyResourceSerializer#represent(resource)
method.
Note that a resource
can be either a single object, an array of objects or an
ActiveRecord::Relation
object. A serialization entity should be smart enough
to accurately represent each of these.
It should not be necessary to use Enumerable#map
, and it should be avoided
from the performance reasons.
Choosing what gets serialized
It often happens that you might want to use the same serializer in many places, but sometimes the intention is to only expose a small subset of object's attributes in one place, and a different subset in another.
BaseSerializer#represent(resource, opts = {})
method can take an additional
hash argument, opts
, that defines what is going to be serialized.
BaseSerializer
will pass these options to a serialization entity. See
how it is documented in the upstream project.
With this approach you can extend the serializer to respond to methods that will create a JSON response according to your needs.
class PipelineSerializer < BaseSerializer
entity PipelineEntity
def represent_details(resource)
represent(resource, only: [:details])
end
def represent_status(resource)
represent(resource, only: [:status])
end
end
It is possible to use only
and except
keywords. Both keywords do support
nested attributes, like except: [:id, { user: [:id] }]
.
Passing only
and except
to the represent
method from a controller is
possible, but it defies principles of encapsulation and testability, and it is
better to avoid it, and to add a specific method to the serializer instead.
Reusing serialization entities from the API
Public API in GitLab is implemented using Grape.
Under the hood it also uses Grape::Entity
classes.
This means that it is possible to reuse these classes to implement internal
serializers.
You can either use such entity directly:
class MyResourceSerializer < BaseSerializer
entity API::Entities::SomeEntity
end
Or derive a new serialization entity class from it:
class MyEntity < API::Entities::SomeEntity
include RequestAwareEntity
unexpose :something
end
It might be a good idea to write specs for entities that do inherit from the API, because when API payloads are changed / extended, it is easy to forget about the impact on the internal API through a serializer that reuses API entities.
It is usually safe to do that, because API entities rarely break backward compatibility, but additional exposure may have a performance impact when API gets extended significantly. Write tests that check if only necessary data is exposed.
How to write tests for a serializer?
Like every other class in the project, creating a serializer warrants writing tests for it.
It is usually a good idea to test each public method in the serializer against
a valid payload. BaseSerializer#represent
returns a hash, so it is possible
to use usual RSpec matchers like include
.
Sometimes, when the payload is large, it makes sense to validate it entirely
using match_response_schema
matcher along with a new fixture that can be
stored in spec/fixtures/api/schemas/
. This matcher is using a json-schema
gem, which is quite flexible, see a documentation for it.
How to use a serializer in a controller?
Once a new serializer is implemented, it is possible to use it in a controller.
Create an instance of the serializer and render the response.
def index
format.json do
render json: MyResourceSerializer
.new(current_user: @current_user)
.represent_details(@project.resources)
nd
end
If it is necessary to include additional information in the payload, it is possible to extend what is going to be rendered, the usual way:
def index
format.json do
render json: {
resources: MyResourceSerializer
.new(current_user: @current_user)
.represent_details(@project.resources),
count: @project.resources.count
}
nd
end
Note that in these examples an additional context is being passed to the
serializer (current_user: @current_user
).
How to pass an additional context from the controller?
It is possible to pass an additional context from a controller to a serializer and each serialization entity that is used in the process.
Serialization entities that do require an additional context have
RequestAwareEntity
concern mixed in. This piece of the code exposes a method
called request
in every serialization entity that is instantiated during
serialization.
An object returned by this method is an instance of EntityRequest
, which
behaves like an OpenStruct
object, with the difference that it will raise
an error if an unknown method is called.
In other words, in the previous example, request
method will return an
instance of EntityRequest
that responds to current_user
method. It will be
available in every serialization entity instantiated by MyResourceSerializer
.
EntityRequest
is a workaround for #20045 and is meant to be
refactored soon. Please avoid passing an additional context that is not
required by a serialization entity.
At the moment, the context that is passed to entities most often is
current_user
and project
.
How is this related to using presenters?
Payload created by a serializer is usually a representation of the backed code, combined with the current request data. Therefore, technically, serializers are presenters that create payload consumed by a frontend code, usually Vue components.
In GitLab, it is possible to use presenters, but
BaseSerializer
still needs to learn how to use it, see #30898.
It is possible to use presenters when serializer is used to represent only
a single object. It is not supported when ActiveRecord::Relation
is being
serialized.
MyObjectSerializer.new.represent(object.present)
Best practices
-
Do not invoke a serializer from within a serialization entity.
If you need to use a serializer from within a serialization entity, it is possible that you are missing a class for an important domain concept.
Consider creating a new domain class and a corresponding serialization entity for it.
-
Use only one approach to switch behavior of the serializer.
It is possible to use a few approaches to switch a behavior of the serializer. Most common are using a Fluent Interface and creating a separate
represent_something
methods.Whatever you choose, it might be better to use only one approach at a time.
-
Do not forget about creating specs for serialization entities.
Writing tests for the serializer indeed does cover testing a behavior of serialization entities that the serializer instantiates. However it might be a good idea to write separate tests for entities as well, because these are meant to be reused in different serializers, and a serializer can change a behavior of a serialization entity.
-
Use
ActiveRecord::Relation
where possibleUsing an
ActiveRecord::Relation
might help from the performance perspective. -
Be diligent about passing an additional context from the controller.
Using
EntityRequest
andRequestAwareEntity
is a workaround for the lack of high-level mechanism. It is meant to be refactored, and current implementation is error prone. Imagine the situation that one serialization entity requiresrequest.user
attribute, but the second one wantsrequest.current_user
. When it happens that these two entities are used in the same serialization request, you might need to pass both parameters to the serializer, which is obviously not a perfect situation.When in doubt, pass only
current_user
andproject
if these are required. -
Keep performance concerns in mind
Using a serializer incorrectly can have significant impact on the performance.
Because serializers are technically presenters, it is often necessary to calculate, for example, paths to various controller-actions. Since using URL helpers usually involve passing
project
andnamespace
addingincludes(project: :namespace)
in the serializer, can help to avoid N+1 queries.Also, try to avoid using
Enumerable#map
or other methods that will execute a database query eagerly. -
Avoid passing
only
andexcept
from the controller. -
Write tests checking for N+1 queries.
-
Write controller tests for actions / formats using serializers.
-
Write tests that check if only necessary data is exposed.
-
Write tests that check if no sensitive data is exposed.