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A simple and powerful way for making programatic assertions in your fake API

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RequestMatcher

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A simple and powerful way for making assertions in your mocked API.

To properly test an Android application we must isolate all the external dependencies that we can't control. Normally, in a client/server application, this boils down to the API calls.

There are several approaches to mocking the server interaction:

  • Dependency Injection: use a test version of your server interaction component.
  • Evil API: have a test implementation of your API contracts (implement the interface for tests).
  • Use specific mocking libraries: if you use Retrofit you can use Retrofit-mock which gives you easier ways to set up your mocking implementation.

All of the above makes testing APIs possible though not highly configurable on a per test basis. There is another (and probably many others) approach:

  • Use a mock web server: a real server responding to requests that you set up on your test to the expected behaviour.

This approach is nice though may generate lots of code in your tests to setup proper request assertions. This library tries to simplify that and add some other automatic detection of wrong doings in tests setup.

Download

The library is available in JCenter repositories. To use it, just declare it in your app's build.gradle:

dependencies {

    // local tests
    testCompile "br.com.concretesolutions:requestmatcher:$latestVersion"

    // instrumented tests
    androidTestCompile "br.com.concretesolutions:requestmatcher:$latestVersion"
}

This library depends on the following libraries:

So, ensure those libraries are also in your dependencies. For example:

dependencies {

    // local tests
    testCompile "br.com.concretesolutions:requestmatcher:$latestVersion"
    testCompile 'junit:junit:4.12'
    testCompile 'org.hamcrest:hamcrest-all:1.3'
    testCompile "com.squareup.okhttp3:mockwebserver:3.4.1"
    testCompile 'com.jayway.jsonpath:json-path-assert:2.2.0' // optional

    // instrumented tests
    androidTestCompile "br.com.concretesolutions:requestmatcher:$latestVersion"
    androidTestCompile "com.squareup.okhttp3:mockwebserver:3.4.1"
    androidTestCompile "com.android.support.test.espresso:espresso-core:2.2.2" // this already has hamcrest
    androidTestCompile "com.android.support.test:runner:0.5" // this already has junit
    androidTestCompile 'com.jayway.jsonpath:json-path-assert:2.2.0' // optional
}

Usage

The core API of this library is centered around the class RequestMatcherRule. This is a wrapping rule around Square's MockWebServer. A basic local test can be setup like:

public class LocalTest {

    @Rule
    public final RequestMatcherRule serverRule = new LocalTestRequestMatcherRule();

    @Before
    public void setUp() {
        // Setup your application to point to this rootUrl
        final String rootUrl = serverRule.url("/").toString();

        // do setup
    }

    @Test
    public void canMakeRequestAssertions() {

        serverRule.addFixture(200, "body.json")
            .ifRequestMatches()
            .pathIs("/somepath")
            .hasEmptyBody()
            .methodIs(HttpMethod.GET);

        // make interaction with the server
    }
}

In this example, several things are checked:

  • The test MUST make exclusively ONE request to the mock server or else it will fail.
  • The request must be a GET or else it will fail.
  • The request must not contain a body or else it will fail.
  • The request must target path rootUrl + "/somepath" or else it will fail.

We think this declarative way of making assertions on requests will make tests more consistent with expected behaviour.

Adding MockResponses

To add a MockResponse all you have to do is call one of the addResponse methods from the server rule.

serverRule.addResponse(new MockResponse().setResponseCode(500));

Adding fixtures

To add a fixture all you have to do is call one of the addFixture methods in the RequestMatcherRule. That means you can save your mocks in a folder and load them up while you are mocking the API. Example:

serverRule.addFixture(200, "body.json");

This will add a response with status code 200 and the contents of the file body.json as the body. This file, by default, must be located in a folder with name fixtures. This folder works different for Local Tests and Instrumented Tests.

  • Local tests: these are run locally in the JVM (usually with Robolectric) and follow different conventions. Your source folder test may contain a folder java and a folder resources. When you compile your code it takes everything in the resources folder and puts in the root of your .class files. So, your fixtures folder must go inside resources folder.
  • Instrumented tests: there are run in a device or emulator (usually with Espresso or Robotium). It follows the android folder layout and so you may have an assets folder inside your androidTest folder. Your fixtures folder must go there.

Because of these differences, there are two implementations of RequestMatcherRule: LocalTestRequestMatcherRule and InstrumentedTestRequestMatcherRule. You should use the generic type for your variable and instantiate it with the required type. Example:

// Local Test
@Rule
public final RequestMatcherRule server = new LocalTestRequestMatcherRule();

// or

// Instrumented Test
@Rule
public final RequestMatcherRule server = new InstrumentedTestRequestMatcherRule();

The difference is that when we run an InstrumentedTest, we must pass the instrumentation context (and NOT the target context).

More on the difference between each kind of test here

Configuring the RequestMatcherRule

It is possible to pass some parameters to the server rule's constructor:

  • MockWebServer server: an instance of the MockWebServer to use instead of a default new one.
  • String fixturesRootFolder: the name of the folder in the corresponding context. Defaults to 'fixtures'.

RequestAssertionException

When an assertion fails, it throws a RequestAssertionException. Of course, this happens in the server thread and so, if we throw an exception from there the client will hang and most likely receive a timeout. This would make tests last too long and consequently the test suite. To avoid this, the assertion is buffered and the response is delivered as if it were disconnected. The response is like the snippet below:

new MockResponse().setSocketPolicy(SocketPolicy.DISCONNECT_AT_END);

Request Matching

The RequestMatcherRule provides a DSL for matching against requests. You can and should provide matchers against each part of a request. See the base RequestMatchersGroup for all possible matching.

Examples

server.addFixture(200, "body.json")
            .ifRequestMatches() // this is the entry point to configure matching
            .pathIs("/post") // path must be "/post"
            .headersMatches(hasEntry(any(String.class), is("value"))) // some header must contain value "value"
            .methodIs(HttpMethod.PUT) // method must be PUT
            .bodyMatches(containsString("\"property\": \"value\"")); // body must contain the string passed

Custom RequestMatcher

The library is flexible enough for customizing the RequestMatcherGroup implementation you want to use. To do that, use the method addResponse(MockResponse response, T matcher), addFixture(String path, T matcher) or addFixture(int statusCode, String fixturePath, T matcher) where matcher is an instance of any class that extends RequestMatchersGroup.

With that you can provide your own assertions, for example, you can create assertions according to some custom protocol. This is more useful for those not following strict RESTful architectures.

Example:

CustomMatcher matcher = server.addResponse(new MockResponse().setBody("Some body"), new CustomMatcher()).ifRequestMatches();

Other examples

For more examples, please check the tests in the library module and the sample module.

LICENSE

This project is available under Apache Public License version 2.0. See LICENSE.