import grails.rest.*
@Resource(uri='/books')
class Book {
String title
static constraints = {
title blank:false
}
}
10 REST
Version: 5.2.4
Table of Contents
10 REST
REST is not really a technology in itself, but more an architectural pattern. REST is very simple and just involves using plain XML or JSON as a communication medium, combined with URL patterns that are "representational" of the underlying system, and HTTP methods such as GET, PUT, POST and DELETE.
Each HTTP method maps to an action type. For example GET for retrieving data, POST for creating data, PUT for updating and so on.
Grails includes flexible features that make it easy to create RESTful APIs. Creating a RESTful resource can be as simple as one line of code, as demonstrated in the next section.
10.1 Domain classes as REST resources
The easiest way to create a RESTful API in Grails is to expose a domain class as a REST resource. This can be done by adding the grails.rest.Resource
transformation to any domain class:
Simply by adding the Resource
transformation and specifying a URI, your domain class will automatically be available as a REST resource in either XML or JSON formats. The transformation will automatically register the necessary RESTful URL mapping and create a controller called BookController
.
You can try it out by adding some test data to BootStrap.groovy
:
def init = { servletContext ->
new Book(title:"The Stand").save()
new Book(title:"The Shining").save()
}
And then hitting the URL http://localhost:8080/books/1, which will render the response like:
<?xml version="1.0" encoding="UTF-8"?>
<book id="1">
<title>The Stand</title>
</book>
If you change the URL to http://localhost:8080/books/1.json you will get a JSON response such as:
{"id":1,"title":"The Stand"}
If you wish to change the default to return JSON instead of XML, you can do this by setting the formats
attribute of the Resource
transformation:
import grails.rest.*
@Resource(uri='/books', formats=['json', 'xml'])
class Book {
...
}
With the above example JSON will be prioritized. The list that is passed should contain the names of the formats that the resource should expose. The names of formats are defined in the grails.mime.types
setting of application.groovy
:
grails.mime.types = [
...
json: ['application/json', 'text/json'],
...
xml: ['text/xml', 'application/xml']
]
See the section on Configuring Mime Types in the user guide for more information.
Instead of using the file extension in the URI, you can also obtain a JSON response using the ACCEPT header. Here’s an example using the Unix curl
tool:
$ curl -i -H "Accept: application/json" localhost:8080/books/1
{"id":1,"title":"The Stand"}
This works thanks to Grails' Content Negotiation features.
You can create a new resource by issuing a POST
request:
$ curl -i -X POST -H "Content-Type: application/json" -d '{"title":"Along Came A Spider"}' localhost:8080/books
HTTP/1.1 201 Created
Server: Apache-Coyote/1.1
...
Updating can be done with a PUT
request:
$ curl -i -X PUT -H "Content-Type: application/json" -d '{"title":"Along Came A Spider"}' localhost:8080/books/1
HTTP/1.1 200 OK
Server: Apache-Coyote/1.1
...
Finally a resource can be deleted with DELETE
request:
$ curl -i -X DELETE localhost:8080/books/1
HTTP/1.1 204 No Content
Server: Apache-Coyote/1.1
...
As you can see, the Resource
transformation enables all of the HTTP method verbs on the resource. You can enable only read-only capabilities by setting the readOnly
attribute to true:
import grails.rest.*
@Resource(uri='/books', readOnly=true)
class Book {
...
}
In this case POST
, PUT
and DELETE
requests will be forbidden.
10.2 Mapping to REST resources
If you prefer to keep the declaration of the URL mapping in your UrlMappings.groovy
file then simply removing the uri
attribute of the Resource
transformation and adding the following line to UrlMappings.groovy
will suffice:
"/books"(resources:"book")
Extending your API to include more end points then becomes trivial:
"/books"(resources:"book") {
"/publisher"(controller:"publisher", method:"GET")
}
The above example will expose the URI /books/1/publisher
.
A more detailed explanation on creating RESTful URL mappings can be found in the URL Mappings section of the user guide.
10.3 Linking to REST resources from GSP pages
The link
tag offers an easy way to link to any domain class resource:
<g:link resource="${book}">My Link</g:link>
However, currently you cannot use g:link to link to the DELETE action and most browsers do not support sending the DELETE method directly.
The best way to accomplish this is to use a form submit:
<form action="/book/2" method="post">
<input type="hidden" name="_method" value="DELETE"/>
</form>
Grails supports overriding the request method via the hidden _method
parameter. This is for browser compatibility purposes. This is useful when using restful resource mappings to create powerful web interfaces.
To make a link fire this type of event, perhaps capture all click events for links with a data-method
attribute and issue a form submit via JavaScript.
10.4 Versioning REST resources
A common requirement with a REST API is to expose different versions at the same time. There are a few ways this can be achieved in Grails.
Versioning using the URI
A common approach is to use the URI to version APIs (although this approach is discouraged in favour of Hypermedia). For example, you can define the following URL mappings:
"/books/v1"(resources:"book", namespace:'v1')
"/books/v2"(resources:"book", namespace:'v2')
That will match the following controllers:
package myapp.v1
class BookController {
static namespace = 'v1'
}
package myapp.v2
class BookController {
static namespace = 'v2'
}
This approach has the disadvantage of requiring two different URI namespaces for your API.
Versioning with the Accept-Version header
As an alternative Grails supports the passing of an Accept-Version
header from clients. For example you can define the following URL mappings:
"/books"(version:'1.0', resources:"book", namespace:'v1')
"/books"(version:'2.0', resources:"book", namespace:'v2')
Then in the client simply pass which version you need using the Accept-Version
header:
$ curl -i -H "Accept-Version: 1.0" -X GET http://localhost:8080/books
Versioning using Hypermedia / Mime Types
Another approach to versioning is to use Mime Type definitions to declare the version of your custom media types (see the section on "Hypermedia as the Engine of Application State" for more information about Hypermedia concepts). For example, in application.groovy
you can declare a custom Mime Type for your resource that includes a version parameter (the 'v' parameter):
grails.mime.types = [
all: '*/*',
book: "application/vnd.books.org.book+json;v=1.0",
bookv2: "application/vnd.books.org.book+json;v=2.0",
...
}
It is critical that place your new mime types after the 'all' Mime Type because if the Content Type of the request cannot be established then the first entry in the map is used for the response. If you have your new Mime Type at the top then Grails will always try and send back your new Mime Type if the requested Mime Type cannot be established. |
Then override the renderer (see the section on "Customizing Response Rendering" for more information on custom renderers) to send back the custom Mime Type in grails-app/conf/spring/resourses.groovy
:
import grails.rest.render.json.*
import grails.web.mime.*
beans = {
bookRendererV1(JsonRenderer, myapp.v1.Book, new MimeType("application/vnd.books.org.book+json", [v:"1.0"]))
bookRendererV2(JsonRenderer, myapp.v2.Book, new MimeType("application/vnd.books.org.book+json", [v:"2.0"]))
}
Then update the list of acceptable response formats in your controller:
class BookController extends RestfulController {
static responseFormats = ['json', 'xml', 'book', 'bookv2']
// ...
}
Then using the Accept
header you can specify which version you need using the Mime Type:
$ curl -i -H "Accept: application/vnd.books.org.book+json;v=1.0" -X GET http://localhost:8080/books
10.5 Implementing REST controllers
The Resource
transformation is a quick way to get started, but typically you’ll want to customize the controller logic, the rendering of the response or extend the API to include additional actions.
10.5.1 Extending the RestfulController super class
The easiest way to get started doing so is to create a new controller for your resource that extends the grails.rest.RestfulController
super class. For example:
class BookController extends RestfulController<Book> {
static responseFormats = ['json', 'xml']
BookController() {
super(Book)
}
}
To customize any logic you can just override the appropriate action. The following table provides the names of the action names and the URIs they map to:
HTTP Method | URI | Controller Action |
---|---|---|
GET |
/books |
index |
GET |
/books/create |
create |
POST |
/books |
save |
GET |
/books/${id} |
show |
GET |
/books/${id}/edit |
edit |
PUT |
/books/${id} |
update |
DELETE |
/books/${id} |
delete |
The create and edit actions are only needed if the controller exposes an HTML interface.
|
As an example, if you have a nested resource then you would typically want to query both the parent and the child identifiers. For example, given the following URL mapping:
"/authors"(resources:'author') {
"/books"(resources:'book')
}
You could implement the nested controller as follows:
class BookController extends RestfulController {
static responseFormats = ['json', 'xml']
BookController() {
super(Book)
}
@Override
protected Book queryForResource(Serializable id) {
Book.where {
id == id && author.id == params.authorId
}.find()
}
}
The example above subclasses RestfulController
and overrides the protected queryForResource
method to customize the query for the resource to take into account the parent resource.
Customizing Data Binding In A RestfulController Subclass
The RestfulController class contains code which does data binding for actions like save
and update
. The class defines a getObjectToBind()
method which returns a value which will be used as the source for data binding. For example, the update action does something like this…
class RestfulController<T> {
def update() {
T instance = // retrieve instance from the database...
instance.properties = getObjectToBind()
// ...
}
// ...
}
By default the getObjectToBind()
method returns the request object. When the request
object is used as the binding source, if the request has a body then the body will be parsed and its contents will be used to do the data binding, otherwise the request parameters will be used to do the data binding. Subclasses of RestfulController may override the getObjectToBind()
method and return anything that is a valid binding source, including a Map or a DataBindingSource. For most use cases binding the request is appropriate but the getObjectToBind()
method allows for changing that behavior where desired.
Using custom subclass of RestfulController with Resource annotation
You can also customize the behaviour of the controller that backs the Resource annotation.
The class must provide a constructor that takes a domain class as its argument. The second constructor is required for supporting Resource annotation with readOnly=true.
This is a template that can be used for subclassed RestfulController classes used in Resource annotations:
class SubclassRestfulController<T> extends RestfulController<T> {
SubclassRestfulController(Class<T> domainClass) {
this(domainClass, false)
}
SubclassRestfulController(Class<T> domainClass, boolean readOnly) {
super(domainClass, readOnly)
}
}
You can specify the super class of the controller that backs the Resource annotation with the superClass
attribute.
import grails.rest.*
@Resource(uri='/books', superClass=SubclassRestfulController)
class Book {
String title
static constraints = {
title blank:false
}
}
10.5.2 Implementing REST Controllers Step by Step
If you don’t want to take advantage of the features provided by the RestfulController
super class, then you can implement each HTTP verb yourself manually. The first step is to create a controller:
$ grails create-controller book
Then add some useful imports and enable readOnly by default:
import grails.gorm.transactions.*
import static org.springframework.http.HttpStatus.*
import static org.springframework.http.HttpMethod.*
@Transactional(readOnly = true)
class BookController {
...
}
Recall that each HTTP verb matches a particular Grails action according to the following conventions:
HTTP Method | URI | Controller Action |
---|---|---|
GET |
/books |
index |
GET |
/books/${id} |
show |
GET |
/books/create |
create |
GET |
/books/${id}/edit |
edit |
POST |
/books |
save |
PUT |
/books/${id} |
update |
DELETE |
/books/${id} |
delete |
The create and edit actions are already required if you plan to implement an HTML interface for the REST resource. They are there in order to render appropriate HTML forms to create and edit a resource. They can be discarded if that is not a requirement.
|
The key to implementing REST actions is the respond method introduced in Grails 2.3. The respond
method tries to produce the most appropriate response for the requested content type (JSON, XML, HTML etc.)
Implementing the 'index' action
For example, to implement the index
action, simply call the respond
method passing the list of objects to respond with:
def index(Integer max) {
params.max = Math.min(max ?: 10, 100)
respond Book.list(params), model:[bookCount: Book.count()]
}
Note that in the above example we also use the model
argument of the respond
method to supply the total count. This is only required if you plan to support pagination via some user interface.
The respond
method will, using Content Negotiation, attempt to reply with the most appropriate response given the content type requested by the client (via the ACCEPT header or file extension).
If the content type is established to be HTML then a model will be produced such that the action above would be the equivalent of writing:
def index(Integer max) {
params.max = Math.min(max ?: 10, 100)
[bookList: Book.list(params), bookCount: Book.count()]
}
By providing an index.gsp
file you can render an appropriate view for the given model. If the content type is something other than HTML then the respond
method will attempt to lookup an appropriate grails.rest.render.Renderer
instance that is capable of rendering the passed object. This is done by inspecting the grails.rest.render.RendererRegistry
.
By default there are already renderers configured for JSON and XML, to find out how to register a custom renderer see the section on "Customizing Response Rendering".
Implementing the 'show' action
The show
action, which is used to display and individual resource by id, can be implemented in one line of Groovy code (excluding the method signature):
def show(Book book) {
respond book
}
By specifying the domain instance as a parameter to the action Grails will automatically attempt to lookup the domain instance using the id
parameter of the request. If the domain instance doesn’t exist, then null
will be passed into the action. The respond
method will return a 404 error if null is passed otherwise once again it will attempt to render an appropriate response. If the format is HTML then an appropriate model will produced. The following action is functionally equivalent to the above action:
def show(Book book) {
if(book == null) {
render status:404
}
else {
return [book: book]
}
}
Implementing the 'save' action
The save
action creates new resource representations. To start off, simply define an action that accepts a resource as the first argument and mark it as Transactional
with the grails.gorm.transactions.Transactional
transform:
@Transactional
def save(Book book) {
...
}
Then the first thing to do is check whether the resource has any validation errors and if so respond with the errors:
if(book.hasErrors()) {
respond book.errors, view:'create'
}
else {
...
}
In the case of HTML the 'create' view will be rendered again so the user can correct the invalid input. In the case of other formats (JSON, XML etc.), the errors object itself will be rendered in the appropriate format and a status code of 422 (UNPROCESSABLE_ENTITY) returned.
If there are no errors then the resource can be saved and an appropriate response sent:
book.save flush:true
withFormat {
html {
flash.message = message(code: 'default.created.message', args: [message(code: 'book.label', default: 'Book'), book.id])
redirect book
}
'*' { render status: CREATED }
}
In the case of HTML a redirect is issued to the originating resource and for other formats a status code of 201 (CREATED) is returned.
Implementing the 'update' action
The update
action updates an existing resource representation and is largely similar to the save
action. First define the method signature:
@Transactional
def update(Book book) {
...
}
If the resource exists then Grails will load the resource, otherwise null is passed. In the case of null, you should return a 404:
if(book == null) {
render status: NOT_FOUND
}
else {
...
}
Then once again check for errors validation errors and if so respond with the errors:
if(book.hasErrors()) {
respond book.errors, view:'edit'
}
else {
...
}
In the case of HTML the 'edit' view will be rendered again so the user can correct the invalid input. In the case of other formats (JSON, XML etc.) the errors object itself will be rendered in the appropriate format and a status code of 422 (UNPROCESSABLE_ENTITY) returned.
If there are no errors then the resource can be saved and an appropriate response sent:
book.save flush:true
withFormat {
html {
flash.message = message(code: 'default.updated.message', args: [message(code: 'book.label', default: 'Book'), book.id])
redirect book
}
'*' { render status: OK }
}
In the case of HTML a redirect is issued to the originating resource and for other formats a status code of 200 (OK) is returned.
Implementing the 'delete' action
The delete
action deletes an existing resource. The implementation is largely similar to the update
action, except the delete()
method is called instead:
book.delete flush:true
withFormat {
html {
flash.message = message(code: 'default.deleted.message', args: [message(code: 'Book.label', default: 'Book'), book.id])
redirect action:"index", method:"GET"
}
'*'{ render status: NO_CONTENT }
}
Notice that for an HTML response a redirect is issued back to the index
action, whilst for other content types a response code 204 (NO_CONTENT) is returned.
10.5.3 Generating a REST controller using scaffolding
To see some of these concepts in action and help you get going, the Scaffolding plugin, version 2.0 and above, can generate a REST ready controller for you, simply run the command:
$ grails generate-controller <<Domain Class Name>>
10.6 Calling REST Services with HttpClient
Calling Grails REST services - as well as third-party services - is very straightforward using the Micronaut HTTP Client. This HTTP client has both a low-level API and a higher level AOP-driven API, making it useful for both simple requests as well as building declarative, type-safe API layers.
To use the Micronaut HTTP client you must have the micronaut-http-client
dependency on your classpath. Add the following dependency to your build.gradle
file.
compile 'io.micronaut:micronaut-http-client'
Low-level API
The HttpClient interface forms the basis for the low-level API. This interfaces declares methods to help ease executing HTTP requests and receive responses.
The majority of the methods in the HttpClient
interface returns Reactive Streams Publisher instances, and a sub-interface called RxHttpClient is included that provides a variation of the HttpClient interface that returns RxJava Flowable types. When using HttpClient
in a blocking flow, you may wish to call toBlocking()
to return an instance of BlockingHttpClient.
There are a few ways by which you can obtain a reference to a HttpClient. The most simple way is using the create method
List<Album> searchWithApi(String searchTerm) {
String baseUrl = "https://itunes.apple.com/"
HttpClient client = HttpClient.create(baseUrl.toURL()).toBlocking() (1)
HttpRequest request = HttpRequest.GET("/search?limit=25&media=music&entity=album&term=${searchTerm}")
HttpResponse<String> resp = client.exchange(request, String)
client.close() (2)
String json = resp.body()
ObjectMapper objectMapper = new ObjectMapper() (3)
objectMapper.configure(DeserializationFeature.FAIL_ON_UNKNOWN_PROPERTIES, false)
SearchResult searchResult = objectMapper.readValue(json, SearchResult)
searchResult.results
}
1 | Create a new instance of HttpClient with the create method, and convert to an instance of BlockingHttpClient with toBlocking() , |
2 | The client should be closed using the close method to prevent thread leaking. |
3 | Jackson’s ObjectMapper API can be used to map the raw JSON to POGOs, in this case SearchResult |
Consult the Http Client section of the Micronaut user guide for more information on using the HttpClient
low-level API.
Declarative API
A declarative HTTP client can be written by adding the @Client
annotation to any interface or abstract class. Using Micronaut’s AOP support (see the Micronaut user guide section on Introduction Advice), the abstract or interface methods will be implemented for you at compilation time as HTTP calls. Declarative clients can return data-bound POGOs (or POJOs) without requiring special handling from the calling code.
package example.grails
import io.micronaut.http.annotation.Get
import io.micronaut.http.client.annotation.Client
@Client("https://start.grails.org")
interface GrailsAppForgeClient {
@Get("/{version}/profiles")
List<Map> profiles(String version)
}
Note that HTTP client methods are annotated with the appropriate HTTP method, such as @Get
or @Post
.
To use a client like the one in the above example, simply inject an instance of the client into any bean using the @Autowired
annotation.
@Autowired GrailsAppForgeClient appForgeClient
List<Map> profiles(String grailsVersion) {
respond appForgeClient.profiles(grailsVersion)
}
For more details on writing and using declarative clients, consult the Http Client section of the Micronaut user guide.
10.7 The REST Profile
Since Grails 3.1, Grails supports a tailored profile for creating REST applications that provides a more focused set of dependencies and commands.
To get started with the REST profile, create an application specifying rest-api
as the name of the profile:
$ grails create-app my-api --profile rest-api
This will create a new REST application that provides the following features:
-
Default set of commands for creating and generating REST endpoints
-
Defaults to using JSON views for rendering responses (see the next section)
-
Fewer plugins than the default Grails plugin (no GSP, no Asset Pipeline, nothing HTML related)
You will notice for example in the grails-app/views
directory that there are *.gson
files for rendering the default index page and as well as any 404 and 500 errors.
If you issue the following set of commands:
$ grails create-domain-class my.api.Book
$ grails generate-all my.api.Book
Instead of CRUD HTML interface a REST endpoint is generated that produces JSON responses. In addition, the generated functional and unit tests by default test the REST endpoint.
10.8 The AngularJS Profile
Since Grails 3.1, Grails supports a profile for creating applications with AngularJS that provides a more focused set of dependencies and commands. The angular profile inherits from the REST profile and therefore has all of the commands and properties that the REST profile has.
To get started with the AngularJS profile, create an application specifying angularjs
as the name of the profile:
$ grails create-app my-api --profile angularjs
This will create a new Grails application that provides the following features:
-
Default set of commands for creating AngularJS artefacts
-
Gradle plugin to manage client side dependencies
-
Gradle plugin to execute client side unit tests
-
Asset Pipeline plugins to ease development
By default the AngularJS profile includes GSP support in order to render the index page. This is necessary because the profile is designed around asset pipeline.
The new commands are:
-
create-ng-component
-
create-ng-controller
-
create-ng-directive
-
create-ng-domain
-
create-ng-module
-
create-ng-service
Project structure
The AngularJS profile is designed around a specific project structure. The create-ng
commands will automatically create modules where they do not exist.
Example:
$ grails create-ng-controller foo
This will produce a fooController.js
file in grails-app/assets/javascripts/${default package name}/controllers
.
By default the angularjs profile will create files in the javascripts directory. You can change that behavior in your configuration with the key grails.codegen.angular.assetDir .
|
$ grails create-ng-domain foo.bar
This will produce a Bar.js
file in grails-app/assets/javascripts/foo/domains
. It will also create the "foo" module if it does not already exist.
$ grails create-ng-module foo.bar
This will produce a foo.bar.js
file in grails-app/assets/javascripts/foo/bar
. Note the naming convention for modules is different than other artefacts.
$ grails create-ng-service foo.bar --type constant
This will produce a bar.js
file in grails-app/assets/javascripts/foo/services
. It will also create the "foo" module if it does not already exist. The create-ng-service
command accepts a flag -type
. The types that can be used are:
-
service
-
factory default
-
value
-
provider
-
constant
Along with the artefacts themselves, the profile will also produce a skeleton unit test file under src/test/javascripts
for each create command.
Client side dependencies
The Gradle Bower Plugin is used to manage dependencies with bower. Visit the plugin documentation to learn how to use the plugin.
Unit Testing
The Gradle Karma Plugin is used to execute client side unit tests. All generated tests are written with Jasmine. Visit the plugin documentation to learn how to use the plugin.
Asset Pipeline
The AngularJS profile includes several asset pipeline plugins to make development easier.
-
JS Closure Wrap Asset Pipeline will wrap your Angular code in immediately invoked function expressions.
-
Annotate Asset Pipeline will annotate your dependencies to be safe for minification.
-
Template Asset Pipeline will put your templates into the
$templateCache
to prevent http requests to retrieve the templates.
10.9 The Angular Profile
Since Grails 3.2.1, Grails supports a profile for creating applications with Angular that provides a more future facing setup.
The biggest change in this profile is that the profile creates a multi project gradle build. This is the first profile to have done so. The Angular profile relies on the Angular CLI to manage the client side application. The server side application is the same as an application created with the rest-api
profile.
To get started with the Angular profile, create an application specifying angular
as the name of the profile:
$ grails create-app my-app --profile angular
This will create a my-app
directory with the following contents:
client/
gradle/
gradlew
gradlew.bat
server/
settings.gradle
The entire client application lives in the client
folder and the entire server application lives in the server
folder.
Prerequisites
To use this profile, you should have Node, NPM, and the Angular CLI installed. Node should be at least version 5 and NPM should be at least version 3.
Project Structure
The Angular profile is designed to be used with the Angular CLI. The CLI was used to create the client application side of the profile to start with. The CLI provides commands to do most of the things you would want to do with the client application, including creating components or services. Because of that, the profile itself provides no commands to do those same things.
Running The App
To execute the server side application only, you can execute the bootRun
task in the server
project:
./gradlew server:bootRun
The same can be done for the client application:
./gradlew client:bootRun
To execute both, you must do so in parallel:
./gradlew bootRun --parallel
It is necessary to do so in parallel because by default Gradle executes tasks synchronously, and neither of the bootRun tasks will "finish".
|
Testing
The default client application that comes with the profile provides some tests that can be executed. To execute tests in the application:
./gradlew test
The test
task will execute unit tests with Karma and Jasmine.
./gradlew integrationTest
The integrationTest
task will execute e2e tests with Protractor.
You can execute the test and integrationTest tasks on each of the sub-projects the same as you would bootRun .
|
CORS
Because the client side and server side will be running on separate ports, CORS configuration is required. By default the profile will configure the server side to allow CORS from all hosts via the following config:
grails:
cors:
enabled: true
See the section on CORS in the user guide for information on configuring this feature for your needs.
10.10 JSON Views
As mentioned in the previous section the REST profile by default uses JSON views to render JSON responses. These play a similar role to GSP, but instead are optimized for outputing JSON responses instead of HTML.
You can continue to separate your application in terms of MVC, with the logic of your application residing in controllers and services, whilst view related matters are handled by JSON views.
JSON views also provide the flexibility to easily customize the JSON presented to clients without having to resort to relatively complex marshalling libraries like Jackson or Grails' marshaller API.
Since Grails 3.1, JSON views are considered by the Grails team the best way to present JSON output for the client, the section on writing custom marshallers has been removed from the user guide. If you are looking for information on that topic, see the Grails 3.0.x guide. |
10.10.1 Getting Started
If you are using the REST or AngularJS profiles then the JSON views plugin will already be included and you can skip the remainder of this section. Otherwise you will need to modify your build.gradle
to include the necessary plugin to activate JSON views:
compile 'org.grails.plugins:views-json:1.0.0' // or whatever is the latest version
The source code repository for JSON views can be found on Github if you are looking for more documentation and contributions |
In order to compile JSON views for production deployment you should also activate the Gradle plugin by first modifying the buildscript
block:
buildscript {
...
dependencies {
...
classpath "org.grails.plugins:views-gradle:1.0.0"
}
}
Then apply the org.grails.plugins.views-json
Gradle plugin after any Grails core gradle plugins:
...
apply plugin: "org.grails.grails-web"
apply plugin: "org.grails.plugins.views-json"
This will add a compileGsonViews
task to Gradle, which is invoked prior to creating the production JAR or WAR file.
10.10.2 Creating JSON Views
JSON views go into the grails-app/views
directory and end with the .gson
suffix. They are regular Groovy scripts and can be opened in any Groovy editor.
Example JSON view:
json.person {
name "bob"
}
To open them in the Groovy editor in Intellij IDEA, double click on the file and when asked which file to associate it with, choose "Groovy" |
The above JSON view produces:
{"person":{"name":"bob"}}
There is an implicit json
variable which is an instance of StreamingJsonBuilder.
Example usages:
json(1,2,3) == "[1,2,3]"
json { name "Bob" } == '{"name":"Bob"}'
json([1,2,3]) { n it } == '[{"n":1},{"n":2},{"n":3}]'
Refer to the API documentation on StreamingJsonBuilder for more information about what is possible.
10.10.3 JSON View Templates
You can define templates starting with underscore _
. For example given the following template called _person.gson
:
model {
Person person
}
json {
name person.name
age person.age
}
You can render it with a view as follows:
model {
Family family
}
json {
name family.father.name
age family.father.age
oldestChild g.render(template:"person", model:[person: family.children.max { Person p -> p.age } ])
children g.render(template:"person", collection: family.children, var:'person')
}
Alternatively for a more concise way to invoke templates, using the tmpl variable:
model {
Family family
}
json {
name family.father.name
age family.father.age
oldestChild tmpl.person( family.children.max { Person p -> p.age } ] )
children tmpl.person( family.children )
}
10.10.4 Rendering Domain Classes with JSON Views
Typically your model may involve one or many domain instances. JSON views provide a render method for rendering these.
For example given the following domain class:
class Book {
String title
}
And the following template:
model {
Book book
}
json g.render(book)
The resulting output is:
{id:1, title:"The Stand"}
You can customize the rendering by including or excluding properties:
json g.render(book, [includes:['title']])
Or by providing a closure to add additional JSON output:
json g.render(book) {
pages 1000
}
10.10.5 JSON Views by Convention
There are a few useful conventions you can follow when creating JSON views. For example if you have a domain class called Book
, then creating a template located at grails-app/views/book/_book.gson
and using the respond method will result in rendering the template:
def show(Long id) {
respond Book.get(id)
}
In addition if an error occurs during validation by default Grails will try to render a template called grails-app/views/book/_errors.gson
, otherwise it will try to render grails-app/views/errors/_errors.gson
if the former doesn’t exist.
This is useful because when persisting objects you can respond
with validation errors to render these aforementioned templates:
@Transactional
def save(Book book) {
if (book.hasErrors()) {
transactionStatus.setRollbackOnly()
respond book.errors
}
else {
// valid object
}
}
If a validation error occurs in the above example the grails-app/views/book/_errors.gson
template will be rendered.
For more information on JSON views (and Markup views), see the JSON Views user guide.
10.11 Customizing Response Rendering
If you are looking for a more low-level API and JSON or Markup views don’t suite your needs then you may want to consider implementing a custom renderer.
10.11.1 Customizing the Default Renderers
The default renderers for XML and JSON can be found in the grails.rest.render.xml
and grails.rest.render.json
packages respectively. These use the Grails converters (grails.converters.XML
and grails.converters.JSON
) by default for response rendering.
You can easily customize response rendering using these default renderers. A common change you may want to make is to include or exclude certain properties from rendering.
Including or Excluding Properties from Rendering
As mentioned previously, Grails maintains a registry of grails.rest.render.Renderer
instances. There are some default configured renderers and the ability to register or override renderers for a given domain class or even for a collection of domain classes. To include a particular property from rendering you need to register a custom renderer by defining a bean in grails-app/conf/spring/resources.groovy
:
import grails.rest.render.xml.*
beans = {
bookRenderer(XmlRenderer, Book) {
includes = ['title']
}
}
The bean name is not important (Grails will scan the application context for all registered renderer beans), but for organizational and readability purposes it is recommended you name it something meaningful. |
To exclude a property, the excludes
property of the XmlRenderer
class can be used:
import grails.rest.render.xml.*
beans = {
bookRenderer(XmlRenderer, Book) {
excludes = ['isbn']
}
}
Customizing the Converters
As mentioned previously, the default renders use the grails.converters
package under the covers. In other words, under the covers they essentially do the following:
import grails.converters.*
...
render book as XML
// or render book as JSON
Why the separation between converters and renderers? Well a renderer has more flexibility to use whatever rendering technology you chose. When implementing a custom renderer you could use Jackson, Gson or any Java library to implement the renderer. Converters on the other hand are very much tied to Grails' own marshalling implementation.
10.11.2 Implementing a Custom Renderer
If you want even more control of the rendering or prefer to use your own marshalling techniques then you can implement your own Renderer
instance. For example below is a simple implementation that customizes the rendering of the Book
class:
package myapp
import grails.rest.render.*
import grails.web.mime.MimeType
class BookXmlRenderer extends AbstractRenderer<Book> {
BookXmlRenderer() {
super(Book, [MimeType.XML,MimeType.TEXT_XML] as MimeType[])
}
void render(Book object, RenderContext context) {
context.contentType = MimeType.XML.name
def xml = new groovy.xml.MarkupBuilder(context.writer)
xml.book(id: object.id, title:object.title)
}
}
The AbstractRenderer
super class has a constructor that takes the class that it renders and the MimeType
(s) that are accepted (via the ACCEPT header or file extension) for the renderer.
To configure this renderer, simply add it is a bean to grails-app/conf/spring/resources.groovy
:
beans = {
bookRenderer(myapp.BookXmlRenderer)
}
The result will be that all Book
instances will be rendered in the following format:
<book id="1" title="The Stand"/>
If you change the rendering to a completely different format like the above, then you also need to change the binding if you plan to support POST and PUT requests. Grails will not automatically know how to bind data from a custom XML format to a domain class otherwise. See the section on "Customizing Binding of Resources" for further information. |
Container Renderers
A grails.rest.render.ContainerRenderer
is a renderer that renders responses for containers of objects (lists, maps, collections etc.). The interface is largely the same as the Renderer
interface except for the addition of the getComponentType()
method, which should return the "contained" type. For example:
class BookListRenderer implements ContainerRenderer<List, Book> {
Class<List> getTargetType() { List }
Class<Book> getComponentType() { Book }
MimeType[] getMimeTypes() { [ MimeType.XML] as MimeType[] }
void render(List object, RenderContext context) {
....
}
}
10.11.3 Using GSP to Customize Rendering
You can also customize rendering on a per action basis using Groovy Server Pages (GSP). For example given the show
action mentioned previously:
def show(Book book) {
respond book
}
You could supply a show.xml.gsp
file to customize the rendering of the XML:
<%@page contentType="application/xml"%>
<book id="${book.id}" title="${book.title}"/>
10.12 Hypermedia as the Engine of Application State
HATEOAS, an abbreviation for Hypermedia as the Engine of Application State, is a common pattern applied to REST architectures that uses hypermedia and linking to define the REST API.
Hypermedia (also called Mime or Media Types) are used to describe the state of a REST resource, and links tell clients how to transition to the next state. The format of the response is typically JSON or XML, although standard formats such as Atom and/or HAL are frequently used.
10.12.1 HAL Support
HAL is a standard exchange format commonly used when developing REST APIs that follow HATEOAS principals. An example HAL document representing a list of orders can be seen below:
{
"_links": {
"self": { "href": "/orders" },
"next": { "href": "/orders?page=2" },
"find": {
"href": "/orders{?id}",
"templated": true
},
"admin": [{
"href": "/admins/2",
"title": "Fred"
}, {
"href": "/admins/5",
"title": "Kate"
}]
},
"currentlyProcessing": 14,
"shippedToday": 20,
"_embedded": {
"order": [{
"_links": {
"self": { "href": "/orders/123" },
"basket": { "href": "/baskets/98712" },
"customer": { "href": "/customers/7809" }
},
"total": 30.00,
"currency": "USD",
"status": "shipped"
}, {
"_links": {
"self": { "href": "/orders/124" },
"basket": { "href": "/baskets/97213" },
"customer": { "href": "/customers/12369" }
},
"total": 20.00,
"currency": "USD",
"status": "processing"
}]
}
}
Exposing Resources Using HAL
To return HAL instead of regular JSON for a resource you can simply override the renderer in grails-app/conf/spring/resources.groovy
with an instance of grails.rest.render.hal.HalJsonRenderer
(or HalXmlRenderer
for the XML variation):
import grails.rest.render.hal.*
beans = {
halBookRenderer(HalJsonRenderer, rest.test.Book)
}
You will also need to update the acceptable response formats for the resource so that the HAL format is included. Not doing so will result in a 406 - Not Acceptable response being returned from the server.
This can be done by setting the formats
attribute of the Resource
transformation:
import grails.rest.*
@Resource(uri='/books', formats=['json', 'xml', 'hal'])
class Book {
...
}
Or by updating the responseFormats
in the controller:
class BookController extends RestfulController {
static responseFormats = ['json', 'xml', 'hal']
// ...
}
With the bean in place requesting the HAL content type will return HAL:
$ curl -i -H "Accept: application/hal+json" http://localhost:8080/books/1
HTTP/1.1 200 OK
Server: Apache-Coyote/1.1
Content-Type: application/hal+json;charset=ISO-8859-1
{
"_links": {
"self": {
"href": "http://localhost:8080/books/1",
"hreflang": "en",
"type": "application/hal+json"
}
},
"title": "\"The Stand\""
}
To use HAL XML format simply change the renderer:
import grails.rest.render.hal.*
beans = {
halBookRenderer(HalXmlRenderer, rest.test.Book)
}
Rendering Collections Using HAL
To return HAL instead of regular JSON for a list of resources you can simply override the renderer in grails-app/conf/spring/resources.groovy
with an instance of grails.rest.render.hal.HalJsonCollectionRenderer
:
import grails.rest.render.hal.*
beans = {
halBookCollectionRenderer(HalJsonCollectionRenderer, rest.test.Book)
}
With the bean in place requesting the HAL content type will return HAL:
$ curl -i -H "Accept: application/hal+json" http://localhost:8080/books
HTTP/1.1 200 OK
Server: Apache-Coyote/1.1
Content-Type: application/hal+json;charset=UTF-8
Transfer-Encoding: chunked
Date: Thu, 17 Oct 2013 02:34:14 GMT
{
"_links": {
"self": {
"href": "http://localhost:8080/books",
"hreflang": "en",
"type": "application/hal+json"
}
},
"_embedded": {
"book": [
{
"_links": {
"self": {
"href": "http://localhost:8080/books/1",
"hreflang": "en",
"type": "application/hal+json"
}
},
"title": "The Stand"
},
{
"_links": {
"self": {
"href": "http://localhost:8080/books/2",
"hreflang": "en",
"type": "application/hal+json"
}
},
"title": "Infinite Jest"
},
{
"_links": {
"self": {
"href": "http://localhost:8080/books/3",
"hreflang": "en",
"type": "application/hal+json"
}
},
"title": "Walden"
}
]
}
}
Notice that the key associated with the list of Book
objects in the rendered JSON is book
which is derived from the type of objects in the collection, namely Book
. In order to customize the value of this key assign a value to the collectionName
property on the HalJsonCollectionRenderer
bean as shown below:
import grails.rest.render.hal.*
beans = {
halBookCollectionRenderer(HalCollectionJsonRenderer, rest.test.Book) {
collectionName = 'publications'
}
}
With that in place the rendered HAL will look like the following:
$ curl -i -H "Accept: application/hal+json" http://localhost:8080/books
HTTP/1.1 200 OK
Server: Apache-Coyote/1.1
Content-Type: application/hal+json;charset=UTF-8
Transfer-Encoding: chunked
Date: Thu, 17 Oct 2013 02:34:14 GMT
{
"_links": {
"self": {
"href": "http://localhost:8080/books",
"hreflang": "en",
"type": "application/hal+json"
}
},
"_embedded": {
"publications": [
{
"_links": {
"self": {
"href": "http://localhost:8080/books/1",
"hreflang": "en",
"type": "application/hal+json"
}
},
"title": "The Stand"
},
{
"_links": {
"self": {
"href": "http://localhost:8080/books/2",
"hreflang": "en",
"type": "application/hal+json"
}
},
"title": "Infinite Jest"
},
{
"_links": {
"self": {
"href": "http://localhost:8080/books/3",
"hreflang": "en",
"type": "application/hal+json"
}
},
"title": "Walden"
}
]
}
}
Using Custom Media / Mime Types
If you wish to use a custom Mime Type then you first need to declare the Mime Types in grails-app/conf/application.groovy
:
grails.mime.types = [
all: "*/*",
book: "application/vnd.books.org.book+json",
bookList: "application/vnd.books.org.booklist+json",
...
]
It is critical that place your new mime types after the 'all' Mime Type because if the Content Type of the request cannot be established then the first entry in the map is used for the response. If you have your new Mime Type at the top then Grails will always try and send back your new Mime Type if the requested Mime Type cannot be established. |
Then override the renderer to return HAL using the custom Mime Types:
import grails.rest.render.hal.*
import grails.web.mime.*
beans = {
halBookRenderer(HalJsonRenderer, rest.test.Book, new MimeType("application/vnd.books.org.book+json", [v:"1.0"]))
halBookListRenderer(HalJsonCollectionRenderer, rest.test.Book, new MimeType("application/vnd.books.org.booklist+json", [v:"1.0"]))
}
In the above example the first bean defines a HAL renderer for a single book instance that returns a Mime Type of application/vnd.books.org.book+json
. The second bean defines the Mime Type used to render a collection of books (in this case application/vnd.books.org.booklist+json
).
application/vnd.books.org.booklist+json is an example of a media-range (http://www.w3.org/Protocols/rfc2616/rfc2616.html - Header Field Definitions). This example uses entity (book) and operation (list) to form the media-range values but in reality, it may not be necessary to create a separate Mime type for each operation. Further, it may not be necessary to create Mime types at the entity level. See the section on "Versioning REST resources" for further information about how to define your own Mime types.
|
With this in place issuing a request for the new Mime Type returns the necessary HAL:
$ curl -i -H "Accept: application/vnd.books.org.book+json" http://localhost:8080/books/1
HTTP/1.1 200 OK
Server: Apache-Coyote/1.1
Content-Type: application/vnd.books.org.book+json;charset=ISO-8859-1
{
"_links": {
"self": {
"href": "http://localhost:8080/books/1",
"hreflang": "en",
"type": "application/vnd.books.org.book+json"
}
},
"title": "\"The Stand\""
}
Customizing Link Rendering
An important aspect of HATEOAS is the usage of links that describe the transitions the client can use to interact with the REST API. By default the HalJsonRenderer
will automatically create links for you for associations and to the resource itself (using the "self" relationship).
However you can customize link rendering using the link
method that is added to all domain classes annotated with grails.rest.Resource
or any class annotated with grails.rest.Linkable
. For example, the show
action can be modified as follows to provide a new link in the resulting output:
def show(Book book) {
book.link rel:'publisher', href: g.createLink(absolute: true, resource:"publisher", params:[bookId: book.id])
respond book
}
Which will result in output such as:
{
"_links": {
"self": {
"href": "http://localhost:8080/books/1",
"hreflang": "en",
"type": "application/vnd.books.org.book+json"
}
"publisher": {
"href": "http://localhost:8080/books/1/publisher",
"hreflang": "en"
}
},
"title": "\"The Stand\""
}
The link
method can be passed named arguments that match the properties of the grails.rest.Link
class.
10.12.2 Atom Support
Atom is another standard interchange format used to implement REST APIs. An example of Atom output can be seen below:
<?xml version="1.0" encoding="utf-8"?>
<feed xmlns="http://www.w3.org/2005/Atom">
<title>Example Feed</title>
<link href="http://example.org/"/>
<updated>2003-12-13T18:30:02Z</updated>
<author>
<name>John Doe</name>
</author>
<id>urn:uuid:60a76c80-d399-11d9-b93C-0003939e0af6</id>
<entry>
<title>Atom-Powered Robots Run Amok</title>
<link href="http://example.org/2003/12/13/atom03"/>
<id>urn:uuid:1225c695-cfb8-4ebb-aaaa-80da344efa6a</id>
<updated>2003-12-13T18:30:02Z</updated>
<summary>Some text.</summary>
</entry>
</feed>
To use Atom rendering again simply define a custom renderer:
import grails.rest.render.atom.*
beans = {
halBookRenderer(AtomRenderer, rest.test.Book)
halBookListRenderer(AtomCollectionRenderer, rest.test.Book)
}
10.12.3 Vnd.Error Support
Vnd.Error is a standardised way of expressing an error response.
By default when a validation error occurs when attempting to POST new resources then the errors object will be sent back allow with a 422 respond code:
$ curl -i -H "Accept: application/json" -H "Content-Type: application/json" -X POST -d "" http://localhost:8080/books
HTTP/1.1 422 Unprocessable Entity
Server: Apache-Coyote/1.1
Content-Type: application/json;charset=ISO-8859-1
{
"errors": [
{
"object": "rest.test.Book",
"field": "title",
"rejected-value": null,
"message": "Property [title] of class [class rest.test.Book] cannot be null"
}
]
}
If you wish to change the format to Vnd.Error then simply register grails.rest.render.errors.VndErrorJsonRenderer
bean in grails-app/conf/spring/resources.groovy
:
beans = {
vndJsonErrorRenderer(grails.rest.render.errors.VndErrorJsonRenderer)
// for Vnd.Error XML format
vndXmlErrorRenderer(grails.rest.render.errors.VndErrorXmlRenderer)
}
Then if you alter the client request to accept Vnd.Error you get an appropriate response:
$ curl -i -H "Accept: application/vnd.error+json,application/json" -H "Content-Type: application/json" -X POST -d "" http://localhost:8080/books
HTTP/1.1 200 OK
Server: Apache-Coyote/1.1
Content-Type: application/vnd.error+json;charset=ISO-8859-1
[
{
"logref": "book.nullable,
"message": "Property [title] of class [class rest.test.Book] cannot be null",
"_links": {
"resource": {
"href": "http://localhost:8080/rest-test/books"
}
}
}
]
10.13 Customizing Binding of Resources
The framework provides a sophisticated but simple mechanism for binding REST requests to domain objects and command objects. One way to take advantage of this is to bind the request
property in a controller the properties
of a domain class. Given the following XML as the body of the request, the createBook
action will create a new Book
and assign "The Stand" to the title
property and "Stephen King" to the authorName
property.
<?xml version="1.0" encoding="UTF-8"?>
<book>
<title>The Stand</title>
<authorName>Stephen King</authorName>
</book>
class BookController {
def createBook() {
def book = new Book()
book.properties = request
// ...
}
}
Command objects will automatically be bound with the body of the request:
class BookController {
def createBook(BookCommand book) {
// ...
}
}
class BookCommand {
String title
String authorName
}
If the command object type is a domain class and the root element of the XML document contains an id
attribute, the id
value will be used to retrieve the corresponding persistent instance from the database and then the rest of the document will be bound to the instance. If no corresponding record is found in the database, the command object reference will be null.
<?xml version="1.0" encoding="UTF-8"?>
<book id="42">
<title>Walden</title>
<authorName>Henry David Thoreau</authorName>
</book>
class BookController {
def updateBook(Book book) {
// The book will have been retrieved from the database and updated
// by doing something like this:
//
// book == Book.get('42')
// if(book != null) {
// book.properties = request
// }
//
// the code above represents what the framework will
// have done. There is no need to write that code.
// ...
}
}
The data binding depends on an instance of the DataBindingSource interface created by an instance of the DataBindingSourceCreator interface. The specific implementation of DataBindingSourceCreator
will be selected based on the contentType
of the request. Several implementations are provided to handle common content types. The default implementations will be fine for most use cases. The following table lists the content types which are supported by the core framework and which DataBindingSourceCreator
implementations are used for each. All of the implementation classes are in the org.grails.databinding.bindingsource
package.
Content Type(s) | Bean Name | DataBindingSourceCreator Impl. |
---|---|---|
application/xml, text/xml |
xmlDataBindingSourceCreator |
XmlDataBindingSourceCreator |
application/json, text/json |
jsonDataBindingSourceCreator |
JsonDataBindingSourceCreator |
application/hal+json |
halJsonDataBindingSourceCreator |
HalJsonDataBindingSourceCreator |
application/hal+xml |
halXmlDataBindingSourceCreator |
HalXmlDataBindingSourceCreator |
In order to provide your own DataBindingSourceCreator
for any of those content types, write a class which implements
DataBindingSourceCreator
and register an instance of that class in the Spring application context. If you
are replacing one of the existing helpers, use the corresponding bean name from above. If you are providing a
helper for a content type other than those accounted for by the core framework, the bean name may be anything that
you like but you should take care not to conflict with one of the bean names above.
The DataBindingSourceCreator
interface defines just 2 methods:
package org.grails.databinding.bindingsource
import grails.web.mime.MimeType
import grails.databinding.DataBindingSource
/**
* A factory for DataBindingSource instances
*
* @since 2.3
* @see DataBindingSourceRegistry
* @see DataBindingSource
*
*/
interface DataBindingSourceCreator {
/**
* `return All of the {`link MimeType} supported by this helper
*/
MimeType[] getMimeTypes()
/**
* Creates a DataBindingSource suitable for binding bindingSource to bindingTarget
*
* @param mimeType a mime type
* @param bindingTarget the target of the data binding
* @param bindingSource the value being bound
* @return a DataBindingSource
*/
DataBindingSource createDataBindingSource(MimeType mimeType, Object bindingTarget, Object bindingSource)
}
AbstractRequestBodyDataBindingSourceCreator
is an abstract class designed to be extended to simplify writing custom DataBindingSourceCreator
classes. Classes which
extend AbstractRequestbodyDatabindingSourceCreator
need to implement a method named createBindingSource
which accepts an InputStream
as an argument and returns a DataBindingSource
as well as implementing the getMimeTypes
method described in the DataBindingSourceCreator
interface above. The InputStream
argument to createBindingSource
provides access to the body of the request.
The code below shows a simple implementation.
package com.demo.myapp.databinding
import grails.web.mime.MimeType
import grails.databinding.DataBindingSource
import org...databinding.SimpleMapDataBindingSource
import org...databinding.bindingsource.AbstractRequestBodyDataBindingSourceCreator
/**
* A custom DataBindingSourceCreator capable of parsing key value pairs out of
* a request body containing a comma separated list of key:value pairs like:
*
* name:Herman,age:99,town:STL
*
*/
class MyCustomDataBindingSourceCreator extends AbstractRequestBodyDataBindingSourceCreator {
@Override
public MimeType[] getMimeTypes() {
[new MimeType('text/custom+demo+csv')] as MimeType[]
}
@Override
protected DataBindingSource createBindingSource(InputStream inputStream) {
def map = [:]
def reader = new InputStreamReader(inputStream)
// this is an obviously naive parser and is intended
// for demonstration purposes only.
reader.eachLine { line ->
def keyValuePairs = line.split(',')
keyValuePairs.each { keyValuePair ->
if(keyValuePair?.trim()) {
def keyValuePieces = keyValuePair.split(':')
def key = keyValuePieces[0].trim()
def value = keyValuePieces[1].trim()
map<<key>> = value
}
}
}
// create and return a DataBindingSource which contains the parsed data
new SimpleMapDataBindingSource(map)
}
}
An instance of MyCustomDataSourceCreator
needs to be registered in the spring application context.
beans = {
myCustomCreator com.demo.myapp.databinding.MyCustomDataBindingSourceCreator
// ...
}
With that in place the framework will use the myCustomCreator
bean any time a DataBindingSourceCreator
is needed
to deal with a request which has a contentType
of "text/custom+demo+csv".
10.14 RSS and Atom
No direct support is provided for RSS or Atom within Grails. You could construct RSS or ATOM feeds with the render method’s XML capability.