(Quick Reference)

13 Testing - Reference Documentation

Authors: Graeme Rocher, Peter Ledbrook, Marc Palmer, Jeff Brown, Luke Daley, Burt Beckwith

Version: 2.4.0.M1

13 Testing

Automated testing is a key part of Grails. Hence, Grails provides many ways to making testing easier from low level unit testing to high level functional tests. This section details the different capabilities that Grails offers for testing.

Grails 1.3.x and below used the grails.test.GrailsUnitTestCase class hierarchy for testing in a JUnit 3 style. Grails 2.0.x and above deprecates these test harnesses in favour of mixins that can be applied to a range of different kinds of tests (JUnit 3, Junit 4, Spock etc.) without subclassing

The first thing to be aware of is that all of the create-* and generate-* commands create unit or integration tests automatically. For example if you run the create-controller command as follows:

grails create-controller com.acme.app.simple

Grails will create a controller at grails-app/controllers/com/acme/app/SimpleController.groovy, and also a unit test at test/unit/com/acme/app/SimpleControllerTests.groovy. What Grails won't do however is populate the logic inside the test! That is left up to you.

The default class name suffix is Tests but as of Grails 1.2.2, the suffix of Test is also supported.

Running Tests

Tests are run with the test-app command:

grails test-app

The command will produce output such as:

-------------------------------------------------------
Running Unit Tests…
Running test FooTests...FAILURE
Unit Tests Completed in 464ms …
-------------------------------------------------------

Tests failed: 0 errors, 1 failures

whilst showing the reason for each test failure.

You can force a clean before running tests by passing -clean to the test-app command.

Grails writes both plain text and HTML test reports to the target/test-reports directory, along with the original XML files. The HTML reports are generally the best ones to look at.

Using Grails' interactive mode confers some distinct advantages when executing tests. First, the tests will execute significantly faster on the second and subsequent runs. Second, a shortcut is available to open the HTML reports in your browser:

open test-report

You can also run your unit tests from within most IDEs.

Targeting Tests

You can selectively target the test(s) to be run in different ways. To run all tests for a controller named SimpleController you would run:

grails test-app SimpleController

This will run any tests for the class named SimpleController. Wildcards can be used...

grails test-app *Controller

This will test all classes ending in Controller. Package names can optionally be specified...

grails test-app some.org.*Controller

or to run all tests in a package...

grails test-app some.org.*

or to run all tests in a package including subpackages...

grails test-app some.org.**.*

You can also target particular test methods...

grails test-app SimpleController.testLogin

This will run the testLogin test in the SimpleController tests. You can specify as many patterns in combination as you like...

grails test-app some.org.* SimpleController.testLogin BookController

Targeting Test Types and/or Phases

In addition to targeting certain tests, you can also target test types and/or phases by using the phase:type syntax.

Grails organises tests by phase and by type. A test phase relates to the state of the Grails application during the tests, and the type relates to the testing mechanism.

Grails comes with support for 4 test phases (unit, integration, functional and other) and JUnit test types for the unit and integration phases. These test types have the same name as the phase.

Testing plugins may provide new test phases or new test types for existing phases. Refer to the plugin documentation.

To execute the JUnit integration tests you can run:

grails test-app integration:integration

Both phase and type are optional. Their absence acts as a wildcard. The following command will run all test types in the unit phase:

grails test-app unit:

The Grails Spock Plugin is one plugin that adds new test types to Grails. It adds a spock test type to the unit, integration and functional phases. To run all spock tests in all phases you would run the following:

grails test-app :spock

To run the all of the spock tests in the functional phase you would run...

grails test-app functional:spock

More than one pattern can be specified...

grails test-app unit:spock integration:spock

Targeting Tests in Types and/or Phases

Test and type/phase targetting can be applied at the same time:

grails test-app integration: unit: some.org.**.*

This would run all tests in the integration and unit phases that are in the package some.org or a subpackage.

13.1 Unit Testing

Unit testing are tests at the "unit" level. In other words you are testing individual methods or blocks of code without consideration for surrounding infrastructure. Unit tests are typically run without the presence of physical resources that involve I/O such databases, socket connections or files. This is to ensure they run as quick as possible since quick feedback is important.

The Test Mixins

Since Grails 2.0, a collection of unit testing mixins is provided by Grails that lets you enhance the behavior of a typical JUnit 3, JUnit 4 or Spock test. The following sections cover the usage of these mixins.

The previous JUnit 3-style GrailsUnitTestCase class hierarchy is still present in Grails for backwards compatibility, but is now deprecated. The previous documentation on the subject can be found in the Grails 1.3.x documentation

You won't normally have to import any of the testing classes because Grails does that for you. But if you find that your IDE for example can't find the classes, here they all are:

  • grails.test.mixin.TestFor
  • grails.test.mixin.TestMixin
  • grails.test.mixin.Mock
  • grails.test.mixin.support.GrailsUnitTestMixin
  • grails.test.mixin.domain.DomainClassUnitTestMixin
  • grails.test.mixin.services.ServiceUnitTestMixin
  • grails.test.mixin.web.ControllerUnitTestMixin
  • grails.test.mixin.web.FiltersUnitTestMixin
  • grails.test.mixin.web.GroovyPageUnitTestMixin
  • grails.test.mixin.web.UrlMappingsUnitTestMixin
  • grails.test.mixin.webflow/WebFlowUnitTestMixin

Note that you're only ever likely to use the first two explicitly. The rest are there for reference.

Test Mixin Basics

Most testing can be achieved via the TestFor annotation in combination with the Mock annotation for mocking collaborators. For example, to test a controller and associated domains you would define the following:

@TestFor(BookController)
@Mock([Book, Author, BookService])

The TestFor annotation defines the class under test and will automatically create a field for the type of class under test. For example in the above case a "controller" field will be present, however if TestFor was defined for a service a "service" field would be created and so on.

The Mock annotation creates mock version of any collaborators. There is an in-memory implementation of GORM that will simulate most interactions with the GORM API. For those interactions that are not automatically mocked you can use the built in support for defining mocks and stubs programmatically. For example:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(BookController) @Mock(Book) class BookControllerSpec extends Specification {

void "test search"() { given: def searchMock = mockFor(SearchService) searchMock.demand.searchWeb { String q -> ['first result', 'second result'] } searchMock.demand.static.logResults { List results -> } controller.searchService = searchMock.createMock()

when: controller.search()

then: controller.response.text.contains "Found 2 results" } }

13.1.1 Unit Testing Controllers

The Basics

You use the grails.test.mixin.TestFor annotation to unit test controllers. Using TestFor in this manner activates the grails.test.mixin.web.ControllerUnitTestMixin and its associated API. For example:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void "test something"() { } }

Adding the TestFor annotation to a controller causes a new controller field to be automatically created for the controller under test.

The TestFor annotation will also automatically annotate any public methods starting with "test" with JUnit 4's @Test annotation. If any of your test method don't start with "test" just add this manually

To test the simplest "Hello World"-style example you can do the following:

// Test class
class SimpleController {
    def hello() {
        render "hello"
    }
}

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void "test hello"() { when: controller.hello()

then: response.text == 'hello' } }

The response object is an instance of GrailsMockHttpServletResponse (from the package org.codehaus.groovy.grails.plugins.testing) which extends Spring's MockHttpServletResponse class and has a number of useful methods for inspecting the state of the response.

For example to test a redirect you can use the redirectedUrl property:

class SimpleController {
    def index() {
        redirect action: 'hello'
    }
    …
}

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test index'() { when: controller.index()

then: response.redirectedUrl == '/simple/hello' } }

Many actions make use of the parameter data associated with the request. For example, the 'sort', 'max', and 'offset' parameters are quite common. Providing these in the test is as simple as adding appropriate values to a special params variable:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(PersonController) class PersonControllerSpec extends Specification {

void 'test list'() { when: params.sort = 'name' params.max = 20 params.offset = 0 controller.list()

then: // … } }

You can even control what type of request the controller action sees by setting the method property of the mock request:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(PersonController) class PersonControllerSpec extends Specification {

void 'test save'() { when: request.method = 'POST' controller.save()

then: // … } }

This is particularly important if your actions do different things depending on the type of the request. Finally, you can mark a request as AJAX like so:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(PersonController) class PersonControllerSpec extends Specification {

void 'test list'() { when: request.method = 'POST' request.makeAjaxRequest() controller.getPage()

then: // … } }

You only need to do this though if the code under test uses the xhr property on the request.

Testing View Rendering

To test view rendering you can inspect the state of the controller's modelAndView property (an instance of org.springframework.web.servlet.ModelAndView) or you can use the view and model properties provided by the mixin:

class SimpleController {
    def home() {
        render view: "homePage", model: [title: "Hello World"]
    }
    …
}

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test home'() { when: controller.home()

then: view == '/simple/homePage' model.title == 'Hello World' } }

Note that the view string is the absolute view path, so it starts with a '/' and will include path elements, such as the directory named after the action's controller.

Testing Template Rendering

Unlike view rendering, template rendering will actually attempt to write the template directly to the response rather than returning a ModelAndView hence it requires a different approach to testing.

Consider the following controller action:

class SimpleController {
    def display() {
        render template:"snippet"
    }
}

In this example the controller will look for a template in grails-app/views/simple/_snippet.gsp. You can test this as follows:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test display'() { when: controller.display()

then: response.text == 'contents of the template' } }

However, you may not want to render the real template, but just test that is was rendered. In this case you can provide mock Groovy Pages:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test display with mock template'() { when: views['/simple/_snippet.gsp'] = 'mock template contents' controller.display()

then: response.text == 'mock template contents' } }

Testing Actions Which Return A Map

When a controller action returns a java.util.Map that Map may be inspected directly to assert that it contains the expected data:

class SimpleController {
    def showBookDetails() {
        [title: 'The Nature Of Necessity', author: 'Alvin Plantinga']
    }
}

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test show book details'() { when: def model = controller.showBookDetails()

then: model.author == 'Alvin Plantinga' } }

Testing XML and JSON Responses

XML and JSON response are also written directly to the response. Grails' mocking capabilities provide some conveniences for testing XML and JSON response. For example consider the following action:

def renderXml() {
    render(contentType:"text/xml") {
        book(title:"Great")
    }
}

This can be tested using the xml property of the response:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test render xml'() { when: controller.renderXml()

then: response.text == "<book title='Great'/>" response.xml.@title.text() == 'Great' } }

The xml property is a parsed result from Groovy's XmlSlurper class which is very convenient for parsing XML.

Testing JSON responses is pretty similar, instead you use the json property:

// controller action
def renderJson() {
    render(contentType:"application/json") {
        book = "Great"
    }
}

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test render json'() { when: controller.renderJson()

then: response.text == '{"book":"Great"}' response.json.book == 'Great' } }

The json property is an instance of org.codehaus.groovy.grails.web.json.JSONElement which is a map-like structure that is useful for parsing JSON responses.

Testing XML and JSON Requests

Grails provides various convenient ways to automatically parse incoming XML and JSON packets. For example you can bind incoming JSON or XML requests using Grails' data binding:

def consumeBook(Book b) {
    render "The title is ${b.title}."
}

To test this Grails provides an easy way to specify an XML or JSON packet via the xml or json properties. For example the above action can be tested by specifying a String containing the XML:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) @Mock([Book]) class SimpleControllerSpec extends Specification { void 'test consume book xml'() { when: request.xml = '<book><title>Wool</title></book>' controller.consumeBook()

then: response.text == 'The title is Wool.' } }

Or alternatively a domain instance can be specified and it will be auto-converted into the appropriate XML request:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) @Mock([Book]) class SimpleControllerSpec extends Specification {

void 'test consume book xml'() { when: request.xml = new Book(title: 'Shift') controller.consumeBook()

then: response.text == 'The title is Shift.' } }

The same can be done for JSON requests:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) @Mock([Book]) class SimpleControllerSpec extends Specification {

void 'test consume book json'() { when: request.json = new Book(title: 'Shift') controller.consumeBook()

then: response.text == 'The title is Shift.' } }

If you prefer not to use Grails' data binding but instead manually parse the incoming XML or JSON that can be tested too. For example consider the controller action below:

def consume() {
    request.withFormat {
        xml {
            render "The XML Title Is ${request.XML.@title}."
        }
        json {
            render "The JSON Title Is ${request.JSON.title}."
        }
    }
}

To test the XML request you can specify the XML as a string:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test consume xml'() { when: request.xml = '<book title="The Stand"/>' controller.consume()

then: response.text == 'The XML Title Is The Stand.' }

void 'test consume json'() { when: request.json = '{title:"The Stand"}' controller.consume()

then: response.text == 'The JSON Title Is The Stand.' } }

Testing Mime Type Handling

You can test mime type handling and the withFormat method quite simply by setting the request's contentType attribute:

// controller action
def sayHello() {
    def data = [Hello:"World"]
    request.withFormat {
        xml { render data as grails.converters.XML }
        json { render data as grails.converters.JSON }
        html data
    }
}

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test say hello xml'() { when: request.contentType = 'application/xml' controller.sayHello()

then: response.text == '<?xml version="1.0" encoding="UTF-8"?><map><entry key="Hello">World</entry></map>' }

void 'test say hello json'() { when: request.contentType = 'application/json' controller.sayHello()

then: response.text == '{"Hello":"World"}' } }

There are constants provided by ControllerUnitTestMixin for all of the common common content types as shown below:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test say hello xml'() { when: request.contentType = XML_CONTENT_TYPE controller.sayHello()

then: response.text == '<?xml version="1.0" encoding="UTF-8"?><map><entry key="Hello">World</entry></map>' }

void 'test say hello json'() { when: request.contentType = JSON_CONTENT_TYPE controller.sayHello()

then: response.text == '{"Hello":"World"}' } }

The defined constants are listed below:

ConstantValue
ALL_CONTENT_TYPE*/*
FORM_CONTENT_TYPEapplication/x-www-form-urlencoded
MULTIPART_FORM_CONTENT_TYPEmultipart/form-data
HTML_CONTENT_TYPEtext/html
XHTML_CONTENT_TYPEapplication/xhtml+xml
XML_CONTENT_TYPEapplication/xml
JSON_CONTENT_TYPEapplication/json
TEXT_XML_CONTENT_TYPEtext/xml
TEXT_JSON_CONTENT_TYPEtext/json
HAL_JSON_CONTENT_TYPEapplication/hal+json
HAL_XML_CONTENT_TYPEapplication/hal+xml
ATOM_XML_CONTENT_TYPEapplication/atom+xml

Testing Duplicate Form Submissions

Testing duplicate form submissions is a little bit more involved. For example if you have an action that handles a form such as:

def handleForm() {
    withForm {
        render "Good"
    }.invalidToken {
        render "Bad"
    }
}

you want to verify the logic that is executed on a good form submission and the logic that is executed on a duplicate submission. Testing the bad submission is simple. Just invoke the controller:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test duplicate form submission'() { when: controller.handleForm()

then: response.text == 'Bad' } }

Testing the successful submission requires providing an appropriate SynchronizerToken:

import grails.test.mixin.TestFor
import spock.lang.Specification

import org.codehaus.groovy.grails.web.servlet.mvc.SynchronizerTokensHolder

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test valid form submission'() { when: def tokenHolder = SynchronizerTokensHolder.store(session)

params[SynchronizerTokensHolder.TOKEN_URI] = '/controller/handleForm' params[SynchronizerTokensHolder.TOKEN_KEY] = tokenHolder.generateToken(params[SynchronizerTokensHolder.TOKEN_URI]) controller.handleForm()

then: response.text == 'Good' } }

If you test both the valid and the invalid request in the same test be sure to reset the response between executions of the controller:

import grails.test.mixin.TestFor
import spock.lang.Specification

import org.codehaus.groovy.grails.web.servlet.mvc.SynchronizerTokensHolder

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test form submission'() { when: controller.handleForm()

then: response.text == 'Bad'

when: response.reset() def tokenHolder = SynchronizerTokensHolder.store(session)

params[SynchronizerTokensHolder.TOKEN_URI] = '/controller/handleForm' params[SynchronizerTokensHolder.TOKEN_KEY] = tokenHolder.generateToken(params[SynchronizerTokensHolder.TOKEN_URI]) controller.handleForm()

then: response.text == 'Good' } }

Testing File Upload

You use the GrailsMockMultipartFile class to test file uploads. For example consider the following controller action:

def uploadFile() {
    MultipartFile file = request.getFile("myFile")
    file.transferTo(new File("/local/disk/myFile"))
}

To test this action you can register a GrailsMockMultipartFile with the request:

import grails.test.mixin.TestFor
import spock.lang.Specification

import org.codehaus.groovy.grails.plugins.testing.GrailsMockMultipartFile

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test file upload'() { when: def file = new GrailsMockMultipartFile('myFile', 'some file contents'.bytes) request.addFile file controller.uploadFile()

then: file.targetFileLocation.path == '/local/disk/myFile' } }

The GrailsMockMultipartFile constructor arguments are the name and contents of the file. It has a mock implementation of the transferTo method that simply records the targetFileLocation and doesn't write to disk.

Testing Command Objects

Special support exists for testing command object handling with the mockCommandObject method. For example consider the following action:

class SimpleController {
    def handleCommand(SimpleCommand simple) {
        if(simple.hasErrors()) {
            render 'Bad'
        } else {
            render 'Good'
        }
    }
}

class SimpleCommand { String name

static constraints = { name blank: false } }

To test this you mock the command object, populate it and then validate it as follows:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test valid command object'() { given: def simpleCommand = new SimpleCommand(name: 'Hugh') simpleCommand.validate()

when: controller.handleCommand(simpleCommand)

then: response.text == 'Good' }

void 'test invalid command object'() { given: def simpleCommand = new SimpleCommand(name: '') simpleCommand.validate()

when: controller.handleCommand(simpleCommand)

then: response.text == 'Bad' } }

The testing framework also supports allowing Grails to create the command object instance automatically. To test this invoke the no-arg version of the controller action method. Grails will create an instance of the command object, perform data binding on it using the request parameters and validate the object just like it does in when the application is runnning. See the test below.

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test valid command object'() { when: params.name = 'Hugh' controller.handleCommand()

then: response.text == 'Good' }

void 'test invalid command object'() { when: params.name = '' controller.handleCommand()

then: response.text == 'Bad' } }

Testing Calling Tag Libraries

You can test calling tag libraries using ControllerUnitTestMixin, although the mechanism for testing the tag called varies from tag to tag. For example to test a call to the message tag, add a message to the messageSource. Consider the following action:

def showMessage() {
    render g.message(code: "foo.bar")
}

This can be tested as follows:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) class SimpleControllerSpec extends Specification {

void 'test render message tag'() { given: messageSource.addMessage 'foo.bar', request.locale, 'Hello World'

when: controller.showMessage()

then: response.text == 'Hello World' } }

13.1.2 Unit Testing Tag Libraries

The Basics

Tag libraries and GSP pages can be tested with the grails.test.mixin.web.GroovyPageUnitTestMixin mixin. To use the mixin declare which tag library is under test with the TestFor annotation:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleTagLib) class SimpleTagLibSpec extends Specification {

void "test something"() { } }

Note that if you are testing invocation of a custom tag from a controller you can combine the ControllerUnitTestMixin and the GroovyPageUnitTestMixin using the Mock annotation:

import spock.lang.Specification

@TestFor(SimpleController) @Mock(SimpleTagLib) class SimpleControllerSpec extends Specification {

}

Testing Custom Tags

The core Grails tags don't need to be enabled during testing, however custom tag libraries do. The GroovyPageUnitTestMixin class provides a mockTagLib() method that you can use to mock a custom tag library. For example consider the following tag library:

class SimpleTagLib {

static namespace = 's'

def hello = { attrs, body -> out << "Hello ${attrs.name ?: 'World'}" }

def bye = { attrs, body -> out << "Bye ${attrs.author.name ?: 'World'}" } }

You can test this tag library by using TestFor and supplying the name of the tag library:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleTagLib) class SimpleTagLibSpec extends Specification {

void "test hello tag"() { expect: applyTemplate('<s:hello />') == 'Hello World' applyTemplate('<s:hello name="Fred" />') == 'Hello Fred' applyTemplate('<s:bye author="${author}" />', [author: new Author(name: 'Fred')]) == 'Bye Fred' } }

Alternatively, you can use the TestMixin annotation and mock multiple tag libraries using the mockTagLib() method:

import spock.lang.Specification
import grails.test.mixin.TestMixin
import grails.test.mixin.web.GroovyPageUnitTestMixin

@TestMixin(GroovyPageUnitTestMixin) class MultipleTagLibSpec extends Specification {

void "test multiple tags"() { given: mockTagLib(SomeTagLib) mockTagLib(SomeOtherTagLib)

expect: // … } }

The GroovyPageUnitTestMixin provides convenience methods for asserting that the template output equals or matches an expected value.

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleTagLib) class SimpleTagLibSpec extends Specification {

void "test hello tag"() { expect: assertOutputEquals ('Hello World', '<s:hello />') assertOutputMatches (/.*Fred.*/, '<s:hello name="Fred" />') } }

Testing View and Template Rendering

You can test rendering of views and templates in grails-app/views via the render(Map) method provided by GroovyPageUnitTestMixin :

import spock.lang.Specification
import grails.test.mixin.TestMixin
import grails.test.mixin.web.GroovyPageUnitTestMixin

@TestMixin(GroovyPageUnitTestMixin) class RenderingSpec extends Specification {

void "test rendering template"() { when: def result = render(template: '/simple/hello')

then: result == 'Hello World!' } }

This will attempt to render a template found at the location grails-app/views/simple/_hello.gsp. Note that if the template depends on any custom tag libraries you need to call mockTagLib as described in the previous section.

13.1.3 Unit Testing Domains

Overview

The mocking support described here is best used when testing non-domain artifacts that use domain classes, to let you focus on testing the artifact without needing a database. But when testing persistence it's best to use integration tests which configure Hibernate and use a database.

Domain class interaction can be tested without involving a database connection using DomainClassUnitTestMixin. This implementation mimics the behavior of GORM against an in-memory ConcurrentHashMap implementation. Note that this has limitations compared to a real GORM implementation. The following features of GORM for Hibernate can only be tested within an integration test:

  • String-based HQL queries
  • composite identifiers
  • dirty checking methods
  • any direct interaction with Hibernate

However a large, commonly-used portion of the GORM API can be mocked using DomainClassUnitTestMixin including:

  • Simple persistence methods like save(), delete() etc.
  • Dynamic Finders
  • Named Queries
  • Query-by-example
  • GORM Events

If something isn't supported then GrailsUnitTestMixin's mockFor method can come in handy to mock the missing pieces. Alternatively you can write an integration test which bootstraps the complete Grails environment at a cost of test execution time.

The Basics

DomainClassUnitTestMixin is typically used in combination with testing either a controller, service or tag library where the domain is a mock collaborator defined by the Mock annotation:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(BookController) @Mock(Book) class BookControllerSpec extends Specification { // … }

The example above tests the SimpleController class and mocks the behavior of the Simple domain class as well. For example consider a typical scaffolded save controller action:

class BookController {
    def save() {
        def book = new Book(params)
        if (book.save(flush: true)) {
            flash.message = message(
                    code: 'default.created.message',
                    args: [message(code: 'book.label', default: 'Book'), book.id])
            redirect(action: "show", id: book.id)
        }
        else {
            render(view: "create", model: [bookInstance: book])
        }
    }
}

Tests for this action can be written as follows:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(BookController) @Mock(Book) class BookControllerSpec extends Specification { void "test saving an invalid book"() { when: controller.save()

then: model.bookInstance != null view == '/book/create' }

void "test saving a valid book"() { when: params.title = "The Stand" params.pages = "500"

controller.save()

then: response.redirectedUrl == '/book/show/1' flash.message != null Book.count() == 1 } }

Mock annotation also supports a list of mock collaborators if you have more than one domain to mock:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(BookController) @Mock([Book, Author]) class BookControllerSpec extends Specification { // … }

Alternatively you can also use the DomainClassUnitTestMixin directly with the TestMixin annotation and then call the mockDomain method to mock domains during your test:

import grails.test.mixin.TestFor
import grails.test.mixin.TestMixin
import spock.lang.Specification
import grails.test.mixin.domain.DomainClassUnitTestMixin

@TestFor(BookController) @TestMixin(DomainClassUnitTestMixin) class BookControllerSpec extends Specification {

void setupSpec() { mockDomain(Book) }

void "test saving an invalid book"() { when: controller.save()

then: model.bookInstance != null view == '/book/create' }

void "test saving a valid book"() { when: params.title = "The Stand" params.pages = "500"

controller.save()

then: response.redirectedUrl == '/book/show/1' flash.message != null Book.count() == 1 } }

The mockDomain method also includes an additional parameter that lets you pass a Map of Maps to configure a domain, which is useful for fixture-like data:

mockDomain(Book, [
            [title: "The Stand", pages: 1000],
            [title: "The Shining", pages: 400],
            [title: "Along Came a Spider", pages: 300] ])

Testing Constraints

There are 4 types of validateable classes:

  1. Domain classes
  2. Classes marked with the Validateable annotation
  3. Command Objects which have been made validateable automatically
  4. Classes configured to be validateable via the grails.validateable.classes property in Config.groovy

The first 3 are easily testable in a unit test with no special configuration necessary as long as the test method is marked with TestFor or explicitly applies the GrailsUnitTestMixin using TestMixin. See the examples below.

// src/groovy/com/demo/MyValidateable.groovy
package com.demo

@grails.validation.Validateable class MyValidateable { String name Integer age

static constraints = { name matches: /[A-Z].*/ age range: 1..99 } }

// grails-app/domain/com/demo/Person.groovy
package com.demo

class Person { String name

static constraints = { name matches: /[A-Z].*/ } }

// grails-app/controllers/com/demo/DemoController.groovy
package com.demo

class DemoController {

def addItems(MyCommandObject co) { if(co.hasErrors()) { render 'something went wrong' } else { render 'items have been added' } } }

class MyCommandObject { Integer numberOfItems

static constraints = { numberOfItems range: 1..10 } }

// test/unit/com/demo/PersonSpec.groovy
package com.demo

import grails.test.mixin.TestFor import spock.lang.Specification

@TestFor(Person) class PersonSpec extends Specification {

void "Test that name must begin with an upper case letter"() { when: 'the name begins with a lower letter' def p = new Person(name: 'jeff')

then: 'validation should fail' !p.validate()

when: 'the name begins with an upper case letter' p = new Person(name: 'Jeff')

then: 'validation should pass' p.validate() } }

// test/unit/com/demo/DemoControllerSpec.groovy
package com.demo

import grails.test.mixin.TestFor import spock.lang.Specification

@TestFor(DemoController) class DemoControllerSpec extends Specification {

void 'Test an invalid number of items'() { when: params.numberOfItems = 42 controller.addItems()

then: response.text == 'something went wrong' }

void 'Test a valid number of items'() { when: params.numberOfItems = 8 controller.addItems()

then: response.text == 'items have been added' } }

// test/unit/com/demo/MyValidateableSpec.groovy
package com.demo

import grails.test.mixin.TestMixin import grails.test.mixin.support.GrailsUnitTestMixin import spock.lang.Specification

@TestMixin(GrailsUnitTestMixin) class MyValidateableSpec extends Specification {

void 'Test validate can be invoked in a unit test with no special configuration'() { when: 'an object is valid' def validateable = new MyValidateable(name: 'Kirk', age: 47)

then: 'validate() returns true and there are no errors' validateable.validate() !validateable.hasErrors() validateable.errors.errorCount == 0

when: 'an object is invalid' validateable.name = 'kirk'

then: 'validate() returns false and the appropriate error is created' !validateable.validate() validateable.hasErrors() validateable.errors.errorCount == 1 validateable.errors['name'].code == 'matches.invalid'

when: 'the clearErrors() is called' validateable.clearErrors()

then: 'the errors are gone' !validateable.hasErrors() validateable.errors.errorCount == 0

when: 'the object is put back in a valid state' validateable.name = 'Kirk'

then: 'validate() returns true and there are no errors' validateable.validate() !validateable.hasErrors() validateable.errors.errorCount == 0 } }

// test/unit/com/demo/MyCommandObjectSpec.groovy
package com.demo

import grails.test.mixin.TestMixin import grails.test.mixin.support.GrailsUnitTestMixin import spock.lang.Specification

@TestMixin(GrailsUnitTestMixin) class MyCommandObjectSpec extends Specification {

void 'Test that numberOfItems must be between 1 and 10'() { when: 'numberOfItems is less than 1' def co = new MyCommandObject() co.numberOfItems = 0

then: 'validation fails' !co.validate() co.hasErrors() co.errors['numberOfItems'].code == 'range.toosmall'

when: 'numberOfItems is greater than 10' co.numberOfItems = 11

then: 'validation fails' !co.validate() co.hasErrors() co.errors['numberOfItems'].code == 'range.toobig'

when: 'numberOfItems is greater than 1' co.numberOfItems = 1

then: 'validation succeeds' co.validate() !co.hasErrors()

when: 'numberOfItems is greater than 10' co.numberOfItems = 10

then: 'validation succeeds' co.validate() !co.hasErrors() } }

For validateable classes which are not one of the first 3 types listed above but are configured with the grails.validateable.classes property in Config.groovy, one additional step is required to test validation. GrailsUnitTestMixin provides a method named mockForConstraintsTests that will mock validation support for these classes. See the example below.

// src/groovy/com/demo/Book.groovy
package com.demo

class Book { String title String author

static constraints = { author minSize: 5 } }

// grails-app/conf/Config.groovy
grails.validateable.classes = [com.demo.Book]

// ...

// test/unit/com/demo/BookSpec.groovy
package com.demo

import grails.test.mixin.TestMixin import grails.test.mixin.support.GrailsUnitTestMixin import spock.lang.Specification

@TestMixin(GrailsUnitTestMixin) class BookSpec extends Specification {

void 'Test validation'() { given: mockForConstraintsTests Book

when: 'the author name has only 4 characters' def book = new Book() book.author = 'Jeff'

then: 'validation should fail' !book.validate() book.hasErrors() book.errors['author'] == 'minSize'

when: 'the author name has 5 characters' book.author = 'Jacob'

then: 'validation should pass' book.validate() !book.hasErrors() } }

Note that the mockForConstraintsTests method changes the behavior of the errors object such that something like book.errors'author' will evaluate to the name of the failed constraint, not a org.springframework.validation.FieldError object. This is convenient for unit tests. If your unit test really does want a reference to the org.springframework.validation.FieldError object use something like book.errors.getFieldError('author').

That's it for testing constraints. One final thing we would like to say is that testing the constraints in this way catches a common error: typos in the "constraints" property name which is a mistake that is easy to make and equally easy to overlook. A unit test for your constraints will highlight the problem straight away.

13.1.4 Unit Testing Filters

Unit testing filters is typically a matter of testing a controller where a filter is a mock collaborator. For example consider the following filters class:

class CancellingFilters {
    def filters = {
        all(controller:"simple", action:"list") {
            before = {
                redirect(controller:"book")
                return false
            }
        }
    }
}

This filter interceptors the list action of the simple controller and redirects to the book controller. To test this filter you start off with a test that targets the SimpleController class and add the CancellingFilters as a mock collaborator:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) @Mock(CancellingFilters) class SimpleControllerSpec extends Specification {

// ...

}

You can then implement a test that uses the withFilters method to wrap the call to an action in filter execution:

import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(SimpleController) @Mock(CancellingFilters) class SimpleControllerSpec extends Specification {

void "test list action is filtered"() { when: withFilters(action:"list") { controller.list() }

then: response.redirectedUrl == '/book' } }

Note that the action parameter is required because it is unknown what the action to invoke is until the action is actually called. The controller parameter is optional and taken from the controller under test. If it is another controller you are testing then you can specify it:

withFilters(controller:"book",action:"list") {
    controller.list()
}

13.1.5 Unit Testing URL Mappings

The Basics

Testing URL mappings can be done with the TestFor annotation testing a particular URL mappings class. For example to test the default URL mappings you can do the following:

import com.demo.SimpleController
import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(UrlMappings) @Mock(SimpleController) class UrlMappingsSpec extends Specification { // … }

As you can see, any controller that is the target of a URL mapping that you're testing must be added to the @Mock annotation.

Note that since the default UrlMappings class is in the default package your test must also be in the default package

With that done there are a number of useful methods that are defined by the grails.test.mixin.web.UrlMappingsUnitTestMixin for testing URL mappings. These include:

  • assertForwardUrlMapping - Asserts a URL mapping is forwarded for the given controller class (note that controller will need to be defined as a mock collaborate for this to work)
  • assertReverseUrlMapping - Asserts that the given URL is produced when reverse mapping a link to a given controller and action
  • assertUrlMapping - Asserts a URL mapping is valid for the given URL. This combines the assertForwardUrlMapping and assertReverseUrlMapping assertions

Asserting Forward URL Mappings

You use assertForwardUrlMapping to assert that a given URL maps to a given controller. For example, consider the following URL mappings:

static mappings = {
    "/actionOne"(controller: "simple", action: "action1")
    "/actionTwo"(controller: "simple", action: "action2")
}

The following test can be written to assert these URL mappings:

import com.demo.SimpleController
import grails.test.mixin.TestFor
import spock.lang.Specification

@TestFor(UrlMappings) @Mock(SimpleController) class UrlMappingsSpec extends Specification {

void "test forward mappings"() { expect: assertForwardUrlMapping("/actionOne", controller: 'simple', action: "action1") assertForwardUrlMapping("/actionTwo", controller: 'simple', action: "action2") } }

Assert Reverse URL Mappings

You use assertReverseUrlMapping to check that correct links are produced for your URL mapping when using the link tag in GSP views. An example test is largely identical to the previous listing except you use assertReverseUrlMapping instead of assertForwardUrlMapping. Note that you can combine these 2 assertions with assertUrlMapping.

13.1.6 Mocking Collaborators

Beyond the specific targeted mocking APIs there is also an all-purpose mockFor() method that is available when using the TestFor annotation. The signature of mockFor is:

mockFor(class, loose = false)

This is general-purpose mocking that lets you set up either strict or loose demands on a class.

This method is surprisingly intuitive to use. By default it will create a strict mock control object (one for which the order in which methods are called is important) that you can use to specify demands:

def strictControl = mockFor(MyService)
strictControl.demand.someMethod(0..2) { String arg1, int arg2 -> … }
strictControl.demand.static.aStaticMethod {-> … }

Notice that you can mock static as well as instance methods by using the "static" property. You then specify the name of the method to mock, with an optional range argument. This range determines how many times you expect the method to be called, and if the number of invocations falls outside of that range (either too few or too many) then an assertion error will be thrown. If no range is specified, a default of "1..1" is assumed, i.e. that the method must be called exactly once.

The last part of a demand is a closure representing the implementation of the mock method. The closure arguments must match the number and types of the mocked method, but otherwise you are free to add whatever you want in the body.

Call mockControl.createMock() to get an actual mock instance of the class that you are mocking. You can call this multiple times to create as many mock instances as you need. And once you have executed the test method, call mockControl.verify() to check that the expected methods were called.

Grails mocks also provide a demandExplicit method that can be used in place of demand. This will check the mocked class's metaClass and throw an ExplicitDemandException if a method with that name and signature doesn't exist. For example, given the service:

class MyService {
    def someMethod(String s) { … }
}

The following mocking works the same as demand

def strictControl = mockFor(MyService)
//Works just like the demand method since method signature exists on the class
strictControl.demandExplicit.someMethod(1) { String arg1  }

While this mocking throws an ExplicitDemandException when the test is run.

def strictControl = mockFor(MyService)
//Throws ExplicitDemandException because method signature doesn't exist
strictControl.demandExplicit.someMethod(1) { String arg1, String arg2  }

Using demandExplicit should be the preferred method for mocking as it is more likely to catch issues when changing method signatures. Use demand when the method to be mocked is added dynamically, otherwise use demandExplicit.

Lastly, the call:

def looseControl = mockFor(MyService, true)

will create a mock control object that has only loose expectations, i.e. the order that methods are invoked does not matter.

13.1.7 Mocking Codecs

The GrailsUnitTestMixin provides a mockCodec method for mocking custom codecs which may be invoked while a unit test is running.

mockCodec(MyCustomCodec)

Failing to mock a codec which is invoked while a unit test is running may result in a MissingMethodException.

13.2 Integration Testing

Integration tests differ from unit tests in that you have full access to the Grails environment within the test. Grails uses an in-memory H2 database for integration tests and clears out all the data from the database between tests.

One thing to bear in mind is that logging is enabled for your application classes, but it is different from logging in tests. So if you have something like this:

class MyServiceTests extends GroovyTestCase {
    void testSomething() {
        log.info "Starting tests"
        …
    }
}

the "starting tests" message is logged using a different system than the one used by the application. The log property in the example above is an instance of java.util.logging.Logger (inherited from the base class, not injected by Grails), which doesn't have the same methods as the log property injected into your application artifacts. For example, it doesn't have debug() or trace() methods, and the equivalent of warn() is in fact warning().

Transactions

Integration tests run inside a database transaction by default, which is rolled back at the end of the each test. This means that data saved during a test is not persisted to the database. Add a transactional property to your test class to check transactional behaviour:

class MyServiceTests extends GroovyTestCase {
    static transactional = false

void testMyTransactionalServiceMethod() { … } }

Be sure to remove any persisted data from a non-transactional test, for example in the tearDown method, so these tests don't interfere with standard transactional tests that expect a clean database.

Testing Controllers

To test controllers you first have to understand the Spring Mock Library.

Grails automatically configures each test with a MockHttpServletRequest, MockHttpServletResponse, and MockHttpSession that you can use in your tests. For example consider the following controller:

class FooController {

def text() { render "bar" }

def someRedirect() { redirect(action:"bar") } }

The tests for this would be:

class FooControllerTests extends GroovyTestCase {

void testText() { def fc = new FooController() fc.text() assertEquals "bar", fc.response.contentAsString }

void testSomeRedirect() { def fc = new FooController() fc.someRedirect() assertEquals "/foo/bar", fc.response.redirectedUrl } }

In the above case response is an instance of MockHttpServletResponse which we can use to obtain the generated content with contentAsString (when writing to the response) or the redirected URL. These mocked versions of the Servlet API are completely mutable (unlike the real versions) and hence you can set properties on the request such as the contextPath and so on.

Grails does not invoke interceptors or servlet filters when calling actions during integration testing. You should test interceptors and filters in isolation, using functional testing if necessary.

Testing Controllers with Services

If your controller references a service (or other Spring beans), you have to explicitly initialise the service from your test.

Given a controller using a service:

class FilmStarsController {
    def popularityService

def update() { // do something with popularityService } }

The test for this would be:

class FilmStarsTests extends GroovyTestCase {
    def popularityService

void testInjectedServiceInController () { def fsc = new FilmStarsController() fsc.popularityService = popularityService fsc.update() } }

Testing Controller Command Objects

With command objects you just supply parameters to the request and it will automatically do the command object work for you when you call your action with no parameters:

Given a controller using a command object:

class AuthenticationController {
    def signup(SignupForm form) {
        …
    }
}

You can then test it like this:

def controller = new AuthenticationController()
controller.params.login = "marcpalmer"
controller.params.password = "secret"
controller.params.passwordConfirm = "secret"
controller.signup()

Grails auto-magically sees your call to signup() as a call to the action and populates the command object from the mocked request parameters. During controller testing, the params are mutable with a mocked request supplied by Grails.

Testing Controllers and the render Method

The render method lets you render a custom view at any point within the body of an action. For instance, consider the example below:

def save() {
    def book = Book(params)
    if (book.save()) {
        // handle
    }
    else {
        render(view:"create", model:[book:book])
    }
}

In the above example the result of the model of the action is not available as the return value, but instead is stored within the modelAndView property of the controller. The modelAndView property is an instance of Spring MVC's ModelAndView class and you can use it to the test the result of an action:

def bookController = new BookController()
bookController.save()
def model = bookController.modelAndView.model.book

Simulating Request Data

You can use the Spring MockHttpServletRequest to test an action that requires request data, for example a REST web service. For example consider this action which performs data binding from an incoming request:

def create() {
    [book: new Book(params.book)]
}

To simulate the 'book' parameter as an XML request you could do something like the following:

void testCreateWithXML() {

def controller = new BookController()

controller.request.contentType = 'text/xml' controller.request.content = '''\ <?xml version="1.0" encoding="ISO-8859-1"?> <book> <title>The Stand</title> … </book> '''.stripIndent().getBytes() // note we need the bytes

def model = controller.create() assert model.book assertEquals "The Stand", model.book.title }

The same can be achieved with a JSON request:

void testCreateWithJSON() {

def controller = new BookController()

controller.request.contentType = "application/json" controller.request.content = '{"id":1,"class":"Book","title":"The Stand"}'.getBytes()

def model = controller.create() assert model.book assertEquals "The Stand", model.book.title }

With JSON don't forget the class property to specify the name the target type to bind to. In XML this is implicit within the name of the <book> node, but this property is required as part of the JSON packet.

For more information on the subject of REST web services see the section on REST.

Testing Web Flows

Testing Web Flows requires a special test harness called grails.test.WebFlowTestCase which subclasses Spring Web Flow's AbstractFlowExecutionTests class.

Subclasses of WebFlowTestCase must be integration tests

For example given this simple flow:

class ExampleController {

def exampleFlow() { start { on("go") { flow.hello = "world" }.to "next" } next { on("back").to "start" on("go").to "subber" } subber { subflow(action: "sub") on("end").to("end") } end() }

def subFlow() { subSubflowState { subflow(controller: "other", action: "otherSub") on("next").to("next") } … } }

You need to tell the test harness what to use for the "flow definition". This is done via overriding the abstract getFlow method:

import grails.test.WebFlowTestCase

class ExampleFlowTests extends WebFlowTestCase { def getFlow() { new ExampleController().exampleFlow } … }

You can specify the flow id by overriding the getFlowId method, otherwise the default is test:

import grails.test.WebFlowTestCase

class ExampleFlowTests extends WebFlowTestCase { String getFlowId() { "example" } … }

If the flow under test calls any subflows, these (or mocks) must be registered before the calling the flow:

protected void setUp() {
    super.setUp()

registerFlow("other/otherSub") { // register a simplified mock start { on("next").to("end") } end() }

// register the original subflow registerFlow("example/sub", new ExampleController().subFlow) }

Then you kick off the flow with the startFlow method:

void testExampleFlow() {
    def viewSelection = startFlow()
    …
}

Use the signalEvent method to trigger an event:

void testExampleFlow() {
    …
    signalEvent("go")
    assert "next" == flowExecution.activeSession.state.id
    assert "world" == flowScope.hello
}

Here we have signaled to the flow to execute the event "go" which causes a transition to the "next" state. In the example a transition action placed a hello variable into the flow scope.

Testing Tag Libraries

Testing tag libraries is simple because when a tag is invoked as a method it returns its result as a string (technically a StreamCharBuffer but this class implements all of the methods of String). So for example if you have a tag library like this:

class FooTagLib {

def bar = { attrs, body -> out << "<p>Hello World!</p>" }

def bodyTag = { attrs, body -> out << "<${attrs.name}>" out << body() out << "</${attrs.name}>" } }

The tests would look like:

class FooTagLibTests extends GroovyTestCase {

void testBarTag() { assertEquals "<p>Hello World!</p>", new FooTagLib().bar(null, null).toString() }

void testBodyTag() { assertEquals "<p>Hello World!</p>", new FooTagLib().bodyTag(name: "p") { "Hello World!" }.toString() } }

Notice that for the second example, testBodyTag, we pass a block that returns the body of the tag. This is convenient to representing the body as a String.

Testing Tag Libraries with GroovyPagesTestCase

In addition to doing simple testing of tag libraries like in the above examples, you can also use the grails.test.GroovyPagesTestCase class to test tag libraries with integration tests.

The GroovyPagesTestCase class is a subclass of the standard GroovyTestCase class and adds utility methods for testing the output of GSP rendering.

GroovyPagesTestCase can only be used in an integration test.

For example, consider this date formatting tag library:

import java.text.SimpleDateFormat

class FormatTagLib { def dateFormat = { attrs, body -> out << new SimpleDateFormat(attrs.format) << attrs.date } }

This can be easily tested as follows:

class FormatTagLibTests extends GroovyPagesTestCase {
    void testDateFormat() {
        def template =
                '<g:dateFormat format="dd-MM-yyyy" date="${myDate}" />'

def testDate = … // create the date assertOutputEquals('01-01-2008', template, [myDate:testDate]) } }

You can also obtain the result of a GSP using the applyTemplate method of the GroovyPagesTestCase class:

class FormatTagLibTests extends GroovyPagesTestCase {
    void testDateFormat() {
        def template =
                '<g:dateFormat format="dd-MM-yyyy" date="${myDate}" />'

def testDate = … // create the date def result = applyTemplate(template, [myDate:testDate])

assertEquals '01-01-2008', result } }

Testing Domain Classes

Testing domain classes is typically a simple matter of using the GORM API, but there are a few things to be aware of. Firstly, when testing queries you often need to "flush" to ensure the correct state has been persisted to the database. For example take the following example:

void testQuery() {
    def books = [
            new Book(title: "The Stand"),
            new Book(title: "The Shining")]
    books*.save()

assertEquals 2, Book.list().size() }

This test will fail because calling save does not actually persist the Book instances when called. Calling save only indicates to Hibernate that at some point in the future these instances should be persisted. To commit changes immediately you "flush" them:

void testQuery() {
    def books = [
            new Book(title: "The Stand"),
            new Book(title: "The Shining")]
    books*.save(flush: true)

assertEquals 2, Book.list().size() }

In this case since we're passing the argument flush with a value of true the updates will be persisted immediately and hence will be available to the query later on.

13.3 Functional Testing

Functional tests involve making HTTP requests against the running application and verifying the resultant behaviour. The functional testing phase differs from the integration phase in that the Grails application is now listening and responding to actual HTTP requests. This is useful for end-to-end testing scenarios, such as making REST calls against a JSON API.

Grails does not ship with any support for writing functional tests directly, but there are several plugins available for this.

Consult the documentation for each plugin for its capabilities.

Common Options

There are options that are common to all plugins that control how the Grails application is launched, if at all.

inline

The -inline option specifies that the grails application should be started inline (i.e. like run-app).

This option is implicitly set unless the baseUrl or war options are set

war

The -war option specifies that the grails application should be packaged as a war and started. This is useful as it tests your application in a production-like state, but it has a longer startup time than the -inline option. It also runs the war in a forked JVM, meaning that you cannot access any internal application objects.

grails test-app functional: -war

Note that the same build/config options for the run-war command apply to functional testing against the WAR.

https

The -https option results in the application being able to receive https requests as well as http requests. It is compatible with both the -inline and -war options.

grails test-app functional: -https

Note that this does not change the test base url to be https, it will still be http unless the -httpsBaseUrl option is also given.

httpsBaseUrl

The -httpsBaseUrl causes the implicit base url to be used for tests to be a https url.

grails test-app functional: -httpsBaseUrl

This option is ignored if the -baseUrl option is specified.

baseUrl

The baseUrl option allows the base url for tests to be specified.

grails test-app functional: -baseUrl=http://mycompany.com/grailsapp

This option will prevent the local grails application being started unless -inline or -war are given as well. To use a custom base url but still test against the local Grails application you must specify one of either the -inline or -war options.