Grape is a REST-like API micro-framework for Ruby. It's designed to run on Rack or complement existing web application frameworks such as Rails and Sinatra by providing a simple DSL to easily develop RESTful APIs. It has built-in support for common conventions, including multiple formats, subdomain/prefix restriction, content negotiation, versioning and much more.
You're reading the documentation for the next release of Grape, which should be 0.3. The current stable release is 0.2.6.
Grape is available as a gem, to install it just install the gem:
gem install grape
If you're using Bundler, add the gem to Gemfile.
gem 'grape'
Run bundle install
.
Grape APIs are Rack applications that are created by subclassing Grape::API
.
Below is a simple example showing some of the more common features of Grape in
the context of recreating parts of the Twitter API.
module Twitter
class API < Grape::API
version 'v1', :using => :header, :vendor => 'twitter'
format :json
helpers do
def current_user
@current_user ||= User.authorize!(env)
end
def authenticate!
error!('401 Unauthorized', 401) unless current_user
end
end
resource :statuses do
desc "Return a public timeline."
get :public_timeline do
Status.limit(20)
end
desc "Return a personal timeline."
get :home_timeline do
authenticate!
current_user.statuses.limit(20)
end
desc "Return a status."
params do
requires :id, :type => Integer, :desc => "Status id."
end
get ':id' do
Status.find(params[:id])
end
desc "Create a status."
params do
requires :status, :type => String, :desc => "Your status."
end
post do
authenticate!
Status.create!({
:user => current_user,
:text => params[:status]
})
end
desc "Update a status."
params do
requires :id, :type => String, :desc => "Status ID."
requires :status, :type => String, :desc => "Your status."
end
put ':id' do
authenticate!
current_user.statuses.find(params[:id]).update({
:user => current_user,
:text => params[:status]
})
end
desc "Delete a status."
params do
requires :id, :type => String, :desc => "Status ID."
end
delete ':id' do
authenticate!
current_user.statuses.find(params[:id]).destroy
end
end
end
end
The above sample creates a Rack application that can be run from a rackup config.ru file
with rackup
:
run Twitter::API
And would respond to the following routes:
GET /statuses/public_timeline(.json)
GET /statuses/home_timeline(.json)
GET /statuses/:id(.json)
POST /statuses(.json)
PUT /statuses/:id(.json)
DELETE /statuses/:id(.json)
In a Rails application, modify config/routes:
mount Twitter::API
Note that when using Rails you will need to restart the server to pick up changes in your API classes (see Issue 131).
You can mount multiple API implementations inside another one. These don't have to be different versions, but may be components of the same API.
class Twitter::API < Grape::API
mount Twitter::APIv1
mount Twitter::APIv2
end
There are three strategies in which clients can reach your API's endpoints: :header
,
:path
and :param
. The default strategy is :path
.
version 'v1', :using => :header, :vendor => 'twitter'
Using this versioning strategy, clients should pass the desired version in the HTTP Accept
head.
curl -H Accept=application/vnd.twitter-v1+json http://localhost:9292/statuses/public_timeline
By default, the first matching version is used when no Accept
header is
supplied. This behavior is similar to routing in Rails. To circumvent this default behavior,
one could use the :strict
option. When this option is set to true
, a 406 Not Acceptable
error
is returned when no correct Accept
header is supplied.
version 'v1', :using => :path
Using this versioning strategy, clients should pass the desired version in the URL.
curl -H http://localhost:9292/v1/statuses/public_timeline
version 'v1', :using => :param
Using this versioning strategy, clients should pass the desired version as a request parameter, either in the URL query string or in the request body.
curl -H http://localhost:9292/statuses/public_timeline?apiver=v1
The default name for the query parameter is 'apiver' but can be specified using the :parameter
option.
version 'v1', :using => :param, :parameter => "v"
curl -H http://localhost:9292/statuses/public_timeline?v=v1
You can add a description to API methods and namespaces.
desc "Returns your public timeline."
get :public_timeline do
Status.limit(20)
end
Request parameters are available through the params
hash object. This includes GET
, POST
and PUT
parameters, along with any named parameters you specify in your route strings.
get :public_timeline do
Status.order(params[:sort_by])
end
Parameters are automatically populated from the request body on POST and PUT for form input, JSON and XML content-types.
The request:
curl -d '{"text": "140 characters"}' 'http://localhost:9292/statuses' -H Content-Type:application/json -v
The Grape endpoint:
post '/statuses' do
Status.create!({ :text => params[:text] })
end
You can define validations and coercion options for your parameters using a params
block.
params do
requires :id, type: Integer
optional :text, type: String, regexp: /^[a-z]+$/
group :media do
requires :url
end
end
put ':id' do
# params[:id] is an Integer
end
When a type is specified an implicit validation is done after the coercion to ensure the output type is the one declared.
Parameters can be nested using group
. In the above example, this means
params[:media][:url]
is required along with params[:id]
.
Namespaces allow parameter definitions and apply to every method within the namespace.
namespace :statuses do
params do
requires :user_id, type: Integer, desc: "A user ID."
end
namespace ":user_id" do
desc "Retrieve a user's status."
params do
requires :status_id, type: Integer, desc: "A status ID."
end
get ":status_id" do
User.find(params[:user_id]).statuses.find(params[:status_id])
end
end
end
class AlphaNumeric < Grape::Validations::Validator
def validate_param!(attr_name, params)
unless params[attr_name] =~ /^[[:alnum:]]+$/
throw :error, :status => 400, :message => "#{attr_name}: must consist of alpha-numeric characters"
end
end
end
params do
requires :text, :alpha_numeric => true
end
You can also create custom classes that take parameters.
class Length < Grape::Validations::SingleOptionValidator
def validate_param!(attr_name, params)
unless params[attr_name].length <= @option
throw :error, :status => 400, :message => "#{attr_name}: must be at the most #{@option} characters long"
end
end
end
params do
requires :text, :length => 140
end
When validation and coercion errors occur an exception of type Grape::Exceptions::ValidationError
is raised.
If the exception goes uncaught it will respond with a status of 400 and an error message.
You can rescue a Grape::Exceptions::ValidationError
and respond with a custom response.
rescue_from Grape::Exceptions::ValidationError do |e|
Rack::Response.new({
'status' => e.status,
'message' => e.message,
'param' => e.param
}.to_json, e.status)
end
Headers are available through the header
helper or the env
hash object.
get do
content_type = header['Content-type']
# ...
end
get do
error!('Unauthorized', 401) unless env['HTTP_SECRET_PASSWORD'] == 'swordfish'
# ...
end
Optionally, you can define requirements for your named route parameters using regular expressions. The route will match only if all requirements are met.
get ':id', :requirements => { :id => /[0-9]*/ } do
Status.find(params[:id])
end
You can define helper methods that your endpoints can use with the helpers
macro by either giving a block or a module.
module StatusHelpers
def user_info(user)
"#{user} has statused #{user.statuses} status(s)"
end
end
class API < Grape::API
# define helpers with a block
helpers do
def current_user
User.find(params[:user_id])
end
end
# or mix in a module
helpers StatusHelpers
get 'info' do
# helpers available in your endpoint and filters
user_info(current_user)
end
end
You can set, get and delete your cookies very simply using cookies
method.
class API < Grape::API
get 'status_count' do
cookies[:status_count] ||= 0
cookies[:status_count] += 1
{ :status_count => cookies[:status_count] }
end
delete 'status_count' do
{ :status_count => cookies.delete(:status_count) }
end
end
Use a hash-based syntax to set more than one value.
cookies[:status_count] = {
:value => 0,
:expires => Time.tomorrow,
:domain => '.twitter.com',
:path => '/'
}
cookies[:status_count][:value] +=1
Delete a cookie with delete
.
cookies.delete :status_count
Specify an optional path.
cookies.delete :status_count, :path => '/'
You can redirect to a new url temporarily (302) or permanently (301).
redirect "/statuses"
redirect "/statuses", :permanent => true
When you add a route for a resource, a route for the HTTP OPTIONS method will also be added. The response to an OPTIONS request will include an "Allow" header listing the supported methods.
class API < Grape::API
get '/rt_count' do
{ :rt_count => current_user.rt_count }
end
params do
requires :value, :type => Integer, :desc => 'Value to add to the rt count.'
end
put '/rt_count' do
current_user.rt_count += params[:value].to_i
{ :rt_count => current_user.rt_count }
end
end
curl -v -X OPTIONS http://localhost:3000/rt_count
> OPTIONS /rt_count HTTP/1.1
>
< HTTP/1.1 204 No Content
< Allow: OPTIONS, GET, PUT
If a request for a resource is made with an unsupported HTTP method, an HTTP 405 (Method Not Allowed) response will be returned.
curl -X DELETE -v http://localhost:3000/rt_count/
> DELETE /rt_count/ HTTP/1.1
> Host: localhost:3000
>
< HTTP/1.1 405 Method Not Allowed
< Allow: OPTIONS, GET, PUT
You can abort the execution of an API method by raising errors with error!
.
error! "Access Denied", 401
You can also return JSON formatted objects by raising error! and passing a hash instead of a message.
error! { "error" => "unexpected error", "detail" => "missing widget" }, 500
Grape can be told to rescue all exceptions and return them in the API format.
class Twitter::API < Grape::API
rescue_from :all
end
You can also rescue specific exceptions.
class Twitter::API < Grape::API
rescue_from ArgumentError, NotImplementedError
end
The error format will match the request format. See "Content-Types" below.
Custom error formatters for existing and additional types can be defined with a proc.
class Twitter::API < Grape::API
error_formatter :txt, lambda { |message, backtrace, options, env|
"error: #{message} from #{backtrace}"
}
end
You can also use a module or class.
module CustomFormatter
def self.call(message, backtrace, options, env)
{ message: message, backtrace: backtrace }
end
end
class Twitter::API < Grape::API
error_formatter :custom, CustomFormatter
end
You can rescue all exceptions with a code block. The rack_response
wrapper
automatically sets the default error code and content-type.
class Twitter::API < Grape::API
rescue_from :all do |e|
rack_response({ :message => "rescued from #{e.class.name}" })
end
end
You can also rescue specific exceptions with a code block and handle the Rack response at the lowest level.
class Twitter::API < Grape::API
rescue_from :all do |e|
Rack::Response.new([ e.message ], 500, { "Content-type" => "text/error" }).finish
end
end
Or rescue specific exceptions.
class Twitter::API < Grape::API
rescue_from ArgumentError do |e|
Rack::Response.new([ "ArgumentError: #{e.message}" ], 500)
end
rescue_from NotImplementedError do |e|
Rack::Response.new([ "NotImplementedError: #{e.message}" ], 500)
end
end
Grape::API
provides a logger
method which by default will return an instance of the Logger
class from Ruby's standard library.
To log messages from within an endpoint, you need to define a helper to make the logger available in the endpoint context.
class API < Grape::API
helpers do
def logger
API.logger
end
end
post '/statuses' do
# ...
logger.info "#{current_user} has statused"
end
end
You can also set your own logger.
class MyLogger
def warning(message)
puts "this is a warning: #{message}"
end
end
class API < Grape::API
logger MyLogger.new
helpers do
def logger
API.logger
end
end
get '/statuses' do
logger.warning "#{current_user} has statused"
end
end
By default, Grape supports XML, JSON, and TXT content-types. The default format is :txt
.
Serialization takes place automatically. For example, you do not have to call to_json
in each JSON API implementation.
Your API can declare which types to support by using content_type
. Response format
is determined by the request's extension, an explicit format
parameter in the query
string, or Accept
header.
The following API will only respond to the JSON content-type and will not parse any other input than application/json
,
'application/x-www-form-urlencoded', 'multipart/form-data', 'multipart/related' and 'multipart/mixed'. All other requests
will fail with an HTTP 406 error code.
class Twitter::API < Grape::API
format :json
end
If you combine format
with rescue_from :all
, errors will be rendered using the same format.
If you do not want this behavior, set the default error formatter with default_error_formatter
.
class Twitter::API < Grape::API
format :json
content_type :txt, "text/plain"
default_error_formatter :txt
end
Custom formatters for existing and additional types can be defined with a proc.
class Twitter::API < Grape::API
content_type :xls, "application/vnd.ms-excel"
formatter :xls, lambda { |object, env| object.to_xls }
end
You can also use a module or class.
module XlsFormatter
def self.call(object, env)
object.to_xls
end
end
class Twitter::API < Grape::API
content_type :xls, "application/vnd.ms-excel"
formatter :xls, XlsFormatter
end
Built-in formats are the following.
:json
: use object'sto_json
when available, otherwise callMultiJson.dump
:xml
: use object'sto_xml
when available, usually viaMultiXml
, otherwise callto_s
:txt
: use object'sto_txt
when available, otherwiseto_s
:serializable_hash
: use object'sserializable_hash
when available, otherwise fallback to:json
Use default_format
to set the fallback format when the format could not be determined from the Accept
header.
See below for the order for choosing the API format.
class Twitter::API < Grape::API
default_format :json
end
The order for choosing the format is the following.
- Use the file extension, if specified. If the file is .json, choose the JSON format.
- Use the value of the
format
parameter in the query string, if specified. - Use the format set by the
format
option, if specified. - Attempt to find an acceptable format from the
Accept
header. - Use the default format, if specified by the
default_format
option. - Default to
:txt
.
Content-type is set by the formatter. You can override the content-type of the response at runtime
by setting the Content-Type
header.
class API < Grape::API
get '/home_timeline_js' do
content_type "application/javascript"
"var statuses = ...;"
end
end
Grape accepts and parses input data sent with the POST and PUT methods as described in the Parameters
section above. It also supports custom data formats. You must declare additional content-types via
content_type
and optionally supply a parser via parser
unless a parser is already available within
Grape to enable a custom format. Such a parser can be a function or a class.
Without a parser, data is available "as-is" and can be read with env['rack.input'].read
.
The following example is a trivial parser that will assign any input with the "text/custom" content-type
to :value
. The parameter will be available via params[:value]
inside the API call.
module CustomParser
def self.call(object, env)
{ :value => object.to_s }
end
end
content_type :txt, "text/plain"
content_type :custom, "text/custom"
parser :custom, CustomParser
put "value" do
params[:value]
end
You can invoke the above API as follows.
curl -X PUT -d 'data' 'http://localhost:9292/value' -H Content-Type:text/custom -v
Grape supports a range of ways to present your data with some help from a generic present
method,
which accepts two arguments: the object to be presented and the options associated with it. The options
hash may include :with
, which defines the entity to expose.
Add the grape-entity gem to your Gemfile. Please refer to the grape-entity documentation for more details.
The following example exposes statuses.
module API
module Entities
class Status < Grape::Entity
expose :user_name
expose :text, :documentation => { :type => "string", :desc => "Status update text." }
expose :ip, :if => { :type => :full }
expose :user_type, user_id, :if => lambda{ |status, options| status.user.public? }
expose :digest { |status, options| Digest::MD5.hexdigest(satus.txt) }
expose :replies, :using => API::Status, :as => :replies
end
end
class Statuses < Grape::API
version 'v1'
desc 'Statuses index', {
:object_fields => API::Entities::Status.documentation
}
get '/statuses' do
statuses = Status.all
type = current_user.admin? ? :full : :default
present statuses, with: API::Entities::Status, :type => type
end
end
end
In addition to separately organizing entities, it may be useful to put them as namespaced classes underneath the model they represent.
class Status
def entity
Status.new(self)
end
class Entity < Grape::Entity
expose :text, :user_id
end
end
If you organize your entities this way, Grape will automatically detect the Entity
class and
use it to present your models. In this example, if you added present Status.new
to your endpoint,
Grape will automatically detect that there is a Status::Entity
class and use that as the
representative entity. This can still be overridden by using the :with
option or an explicit
represents
call.
You can use any Hypermedia representer, including Roar.
Roar renders JSON and works with the built-in Grape JSON formatter. Add Roar::Representer::JSON
into your models or call to_json
explicitly in your API implementation.
You can use Rabl templates with the help of the grape-rabl gem, which defines a custom Grape Rabl formatter.
Grape routes can be reflected at runtime. This can notably be useful for generating documentation.
Grape exposes arrays of API versions and compiled routes. Each route
contains a route_prefix
, route_version
, route_namespace
, route_method
,
route_path
and route_params
. The description and the optional hash that
follows the API path may contain any number of keys and its values are also
accessible via dynamically-generated route_[name]
functions.
TwitterAPI::versions # yields [ 'v1', 'v2' ]
TwitterAPI::routes # yields an array of Grape::Route objects
TwitterAPI::routes[0].route_version # yields 'v1'
TwitterAPI::routes[0].route_description # etc.
It's possible to retrieve the information about the current route from within an API
call with route
.
class MyAPI < Grape::API
desc "Returns a description of a parameter."
params do
requires :id, :type => Integer, :desc => "Identity."
end
get "params/:id" do
route.route_params[params[:id]] # yields the parameter description
end
end
The current endpoint responding to the request is self
within the API block
or env['api.endpoint']
elsewhere. The endpoint has some interesting properties,
such as source
which gives you access to the original code block of the API
implementation. This can be particularly useful for building a logger middleware.
class ApiLogger < Grape::Middleware::Base
def before
file = env['api.endpoint'].source.source_location[0]
line = env['api.endpoint'].source.source_location[1]
logger.debug "[api] #{file}:#{line}"
end
end
Grape by default anchors all request paths, which means that the request URL
should match from start to end to match, otherwise a 404 Not Found
is
returned. However, this is sometimes not what you want, because it is not always
known upfront what can be expected from the call. This is because Rack-mount by
default anchors requests to match from the start to the end, or not at all.
Rails solves this problem by using a :anchor => false
option in your routes.
In Grape this option can be used as well when a method is defined.
For instance when you're API needs to get part of an URL, for instance:
class TwitterAPI < Grape::API
namespace :statuses do
get '/(*:status)', :anchor => false do
end
end
end
This will match all paths starting with '/statuses/'. There is one caveat though:
the params[:status]
parameter only holds the first part of the request url.
Luckily this can be circumvented by using the described above syntax for path
specification and using the PATH_INFO
Rack environment variable, using
env["PATH_INFO"]
. This will hold everything that comes after the '/statuses/'
part.
You can test a Grape API with RSpec by making HTTP requests and examining the response.
Use rack-test
and define your API as app
.
require 'spec_helper'
describe Twitter::API do
include Rack::Test::Methods
def app
Twitter::API
end
describe Twitter::API do
describe "GET /api/v1/statuses" do
it "returns an empty array of statuses" do
get "/api/v1/statuses"
last_response.status.should == 200
JSON.parse(last_response.body).should == []
end
end
describe "GET /api/v1/statuses/:id" do
it "returns a status by id" do
status = Status.create!
get "/api/v1/statuses/#{status.id}"
last_response.body.should == status.to_json
end
end
end
end
require 'spec_helper'
describe Twitter::API do
describe "GET /api/v1/statuses" do
it "returns an empty array of statuses" do
get "/api/v1/statuses"
response.status.should == 200
JSON.parse(response.body).should == []
end
end
describe "GET /api/v1/statuses/:id" do
it "returns a status by id" do
status = Status.create!
get "/api/v1/statuses/#{status.id}"
response.body.should == status.to_json
end
end
end
In Rails, HTTP request tests would go into the spec/request
group. You may want your API code to go into
app/api
- you can match that layout under spec
by adding the following in spec/spec_helper.rb
.
RSpec.configure do |config|
config.include RSpec::Rails::RequestExampleGroup, :type => :request, :example_group => {
:file_path => /spec\/api/
}
end
Create file config/initializers/reload_lib.rb
if Rails.env.development?
lib_reloader = ActiveSupport::FileUpdateChecker.new(Dir["app/api/**/*"]) do
Rails.application.reload_routes!
end
ActionDispatch::Callbacks.to_prepare do
lib_reloader.execute_if_updated
end
end
In config/application.rb
, add
config.autoload_paths += %W(#{config.root}/app/api)
config.autoload_paths += Dir["#{config.root}/app/api/**/"]
Grape integrates with NewRelic via the newrelic-grape gem.
Grape is work of dozens of contributors. You're encouraged to submit pull requests, propose features and discuss issues.
- Fork the project
- Write tests for your new feature or a test that reproduces a bug
- Implement your feature or make a bug fix
- Add a line to
CHANGELOG.markdown
describing your change - Commit, push and make a pull request. Bonus points for topic branches.
MIT License. See LICENSE for details.
Copyright (c) 2010-2012 Michael Bleigh, and Intridea, Inc.