A library for connecting to TestRail and reporting results for automated tests executed using TestNG.
- Project should be setup as a single repository with baseline support.
- A custom string field named
automation_id
should be added to theCase
fields for the project. All suite names should be unique- Automation IDs need to be unique within a TestRail test suite
- Annotations need to be added to test cases in Java code. See
TestRailCase
annotation - Automation IDs need to be added as first parameter of the data-driven tests
- TestRail Test Plan needs to be pre-created and associated with the required suite.
- TestRail Test Plan can contain multiple plan entries (runs), but each of that run is associated with the same Suite. e.g. this allows us to separate API and UI tests into two different entries with in the same Test Plan.
- If the same automation id appears twice for the same, result will only be reported once. This is an invalid configuration and should be fixed quickly.
The custom string field automation_id
in TestRail contains unique strings that are referenced by test code to report
results. This unique string is associated to tests in multiple ways:
Simply add TestRailCase
annotation to the test method and the listener will take care of reporting the result
@TestRailCase("testC1")
@Test
public void test1() {
Assert.assertEquals(1, 1);
}
In above example, a PASS
will be reported for test with automation id testC1
.
No annotation needs to be added in this case. We assume that the first parameter passed into the data driven test is the unique automation id for the data-driven tests.
@DataProvider(name = "DP")
public Object[][] getData() {
return new Object[][] {
{"testA2", 10, 10},
{"testA3", 10, 5}
};
}
@Test(dataProvider = "DP")
public void test2(String testId, int x, int y) {
Assert.assertEquals(x, y);
}
In above example, a PASS
will be reported for test case with automation id testA2
and a FAILURE
for testA3
.
By adding TestRailCase
annotation with selfReporting
set to true, we tell the TestRailReporter
to skip this
test when processing it as it's responsible for it's own reporting of results.
@TestRailCase(selfReporting = true)
@Test
public void test5() {
//do something
Map<String, Object> result = new HashMap<String, Object>();
result.put(TestRailReporter.KEY_STATUS, ResultStatus.PASS);
TestRailReporter.getInstance().reportResult("testC3", result);
//do something
result.put(TestRailReporter.KEY_STATUS, ResultStatus.FAIL);
result.put(TestRailReporter.KEY_THROWABLE, new IOException("Something very bad happened!!"));
TestRailReporter.getInstance().reportResult("testC4", result);
}
In above example, a PASS
will be reported for test case with automation id testC3
and a FAILURE
for testC4
. This
is a simplified example; in actual code, you might want to extend TestNG's SoftAssert
and delegate the reporting to
that class.
com.nullin.testrail.TestRailListener
implements ITestListener
and IConfigurationListener
interfaces from TestNG,
and is responsible for reporting results to TestRail. TestRailListener
internally uses com.nullin.testrail.TestRailReporter
to report results to TestRail. Test code can also directly use methods in TestRailReporter
as shown in example above.
Following system properties need to be configured during startup to configure/enable TestRail reporter
testRail.enabled
: boolean (true|false) value to enable/disable reporting to TestRail.testRail.url
: Base URL to TestRail.testRail.username
: User to use to authenticate to TestRail instance.testRail.password
: Password to authenticate to TestRail instance.testRail.testPlanId
: ID of a pre-created Test Plan in TestRail. This is an integer that you can get via APIs. Via, TestRail UI, this is the integer part of an ID that is shown next to a Test Plan. E.g. forR3285
id displayed in UI, it will be3285
.
During startup, we try and connect to TestRail and get the Test Plan using the user specified id. If any of this fails,
we disable the TestRailReporter
, log this condition, but do not fail the test execution.
Also, during startup, we create a cache of all Test Cases and associated automation id
s. During this process, we log
all instances when we encounter the same automation id
multiple times.
We use java.util.logging
.
We have two methods that can be overridden by extending TestRailListener
-
public String getScreenshotUrl(ITestResult result)
Extend this method to return a URL for the captured screen shot for UI tests. If specified, we inline the image into TestRail result. -
public Map<String, String> getMoreInformation(ITestResult result)
Extend this method to provide more information about the test result or the test run in general. We have used this method to specify information about environment variables, target environment etc.
NOTE: the test class/method/parameter information is automatically logged and doesn't need to be returned by this method.
- Connect and get a list of all test suites in the project and cache in a map
- Also, get the list of all tests cases within the suites and create a map of the automation IDs to case IDs
- If same automation id is associated with multiple case ids in same suite, raise error and quit
- Get the test plan based on the specified plan name or id
- For each result to be reported, get the method and it's enclosing class (multiple runs for same suite,
not supported yet. Need to handle configurationIds for that to work)
- get the annotations and figure out the automation id
- if the test was DD, the first parameter should be automation id
- from automation id, get the case id
- now we have case id and test run id
- report the result
- Finish
- Support creating test runs with configurations
- Output tests that were not reported into file w/ reason for failure
- Create a new test plan (if an id isn't already specified) and associated the specified test suites
- When done with all results, close the test plan (by default or based on user specified parameter)