Exemplo n.º 1
0
 private String formatMockTestRules(List<TestRule> testRules) {
   List<String> testNames = Lists.newArrayList();
   for (TestRule testRule : testRules) {
     testNames.add(testRule.getBuildTarget().getFullyQualifiedName());
   }
   return "{" + Joiner.on(", ").join(testNames) + "}";
 }
Exemplo n.º 2
0
 @VisibleForTesting
 static boolean isTestRunRequiredForTest(
     TestRule test,
     BuildEngine cachingBuildEngine,
     ExecutionContext executionContext,
     TestRuleKeyFileHelper testRuleKeyFileHelper,
     boolean isResultsCacheEnabled,
     boolean isRunningWithTestSelectors)
     throws IOException, ExecutionException, InterruptedException {
   boolean isTestRunRequired;
   BuildResult result;
   if (executionContext.isDebugEnabled()) {
     // If debug is enabled, then we should always run the tests as the user is expecting to
     // hook up a debugger.
     isTestRunRequired = true;
   } else if (isRunningWithTestSelectors) {
     // As a feature to aid developers, we'll assume that when we are using test selectors,
     // we should always run each test (and never look at the cache.)
     // TODO(user) When #3090004 and #3436849 are closed we can respect the cache again.
     isTestRunRequired = true;
   } else if (((result = cachingBuildEngine.getBuildRuleResult(test.getBuildTarget())) != null)
       && result.getSuccess() == BuildRuleSuccessType.MATCHING_RULE_KEY
       && isResultsCacheEnabled
       && test.hasTestResultFiles(executionContext)
       && testRuleKeyFileHelper.isRuleKeyInDir(test)) {
     // If this build rule's artifacts (which includes the rule's output and its test result
     // files) are up to date, then no commands are necessary to run the tests. The test result
     // files will be read from the XML files in interpretTestResults().
     isTestRunRequired = false;
   } else {
     isTestRunRequired = true;
   }
   return isTestRunRequired;
 }
Exemplo n.º 3
0
  /** Generates the set of Java library rules under test. */
  private static ImmutableSet<JavaLibrary> getRulesUnderTest(Iterable<TestRule> tests) {
    ImmutableSet.Builder<JavaLibrary> rulesUnderTest = ImmutableSet.builder();

    // Gathering all rules whose source will be under test.
    for (TestRule test : tests) {
      if (test instanceof JavaTest) {
        JavaTest javaTest = (JavaTest) test;
        ImmutableSet<BuildRule> sourceUnderTest = javaTest.getSourceUnderTest();
        for (BuildRule buildRule : sourceUnderTest) {
          if (buildRule instanceof JavaLibrary) {
            JavaLibrary javaLibrary = (JavaLibrary) buildRule;
            rulesUnderTest.add(javaLibrary);
          } else {
            throw new HumanReadableException(
                "Test '%s' is a java_test() "
                    + "but it is testing module '%s' "
                    + "which is not a java_library()!",
                test.getBuildTarget(), buildRule.getBuildTarget());
          }
        }
      }
    }

    return rulesUnderTest.build();
  }
Exemplo n.º 4
0
  private int runTestsExternal(
      final CommandRunnerParams params,
      Build build,
      Iterable<String> command,
      Iterable<TestRule> testRules)
      throws InterruptedException, IOException {
    TestRunningOptions options = getTestRunningOptions(params);

    // Walk the test rules, collecting all the specs.
    List<ExternalTestRunnerTestSpec> specs = Lists.newArrayList();
    for (TestRule testRule : testRules) {
      if (!(testRule instanceof ExternalTestRunnerRule)) {
        params
            .getBuckEventBus()
            .post(
                ConsoleEvent.severe(
                    String.format(
                        "Test %s does not support external test running",
                        testRule.getBuildTarget())));
        return 1;
      }
      ExternalTestRunnerRule rule = (ExternalTestRunnerRule) testRule;
      specs.add(rule.getExternalTestRunnerSpec(build.getExecutionContext(), options));
    }

    // Serialize the specs to a file to pass into the test runner.
    Path infoFile =
        params
            .getCell()
            .getFilesystem()
            .resolve(BuckConstant.SCRATCH_PATH.resolve("external_runner_specs.json"));
    Files.createDirectories(infoFile.getParent());
    Files.deleteIfExists(infoFile);
    params.getObjectMapper().writerWithDefaultPrettyPrinter().writeValue(infoFile.toFile(), specs);

    // Launch and run the external test runner, forwarding it's stdout/stderr to the console.
    // We wait for it to complete then returns its error code.
    ListeningProcessExecutor processExecutor = new ListeningProcessExecutor();
    ProcessExecutorParams processExecutorParams =
        ProcessExecutorParams.builder()
            .addAllCommand(command)
            .addAllCommand(withDashArguments)
            .addCommand("--buck-test-info", infoFile.toString())
            .setDirectory(params.getCell().getFilesystem().getRootPath().toFile())
            .build();
    ForwardingProcessListener processListener =
        new ForwardingProcessListener(
            Channels.newChannel(params.getConsole().getStdOut()),
            Channels.newChannel(params.getConsole().getStdErr()));
    ListeningProcessExecutor.LaunchedProcess process =
        processExecutor.launchProcess(processExecutorParams, processListener);
    try {
      return processExecutor.waitForProcess(process, Long.MAX_VALUE, TimeUnit.DAYS);
    } finally {
      processExecutor.destroyProcess(process, /* force */ false);
      processExecutor.waitForProcess(process, Long.MAX_VALUE, TimeUnit.DAYS);
    }
  }
Exemplo n.º 5
0
 private void printMatchingTestRules(Console console, Iterable<TestRule> testRules) {
   PrintStream out = console.getStdOut();
   ImmutableList<TestRule> list = ImmutableList.copyOf(testRules);
   out.println(String.format("MATCHING TEST RULES (%d):", list.size()));
   out.println("");
   if (list.isEmpty()) {
     out.println("  (none)");
   } else {
     for (TestRule testRule : testRules) {
       out.println("  " + testRule.getBuildTarget());
     }
   }
   out.println("");
 }
Exemplo n.º 6
0
  @Test
  public void testIsTestRunRequiredForTestBuiltLocally() throws IOException {
    ExecutionContext executionContext = createMock(ExecutionContext.class);
    expect(executionContext.isDebugEnabled()).andReturn(false);

    TestRule testRule = createMock(TestRule.class);
    expect(testRule.getBuildResultType()).andReturn(BuildRuleSuccess.Type.BUILT_LOCALLY);

    replay(executionContext, testRule);

    assertTrue(
        "A test built locally should always run regardless of any cached result. ",
        TestCommand.isTestRunRequiredForTest(
            testRule, executionContext, createMock(TestRuleKeyFileHelper.class)));

    verify(executionContext, testRule);
  }
Exemplo n.º 7
0
  @Test
  public void testIsTestRunRequiredForTestBuiltFromCacheIfHasTestResultFiles() throws IOException {
    ExecutionContext executionContext = createMock(ExecutionContext.class);
    expect(executionContext.isDebugEnabled()).andReturn(false);

    TestRule testRule = createMock(TestRule.class);
    expect(testRule.getBuildResultType()).andReturn(BuildRuleSuccess.Type.FETCHED_FROM_CACHE);

    replay(executionContext, testRule);

    assertTrue(
        "A cache hit updates the build artifact but not the test results. "
            + "Therefore, the test should be re-run to ensure the test results are up to date.",
        TestCommand.isTestRunRequiredForTest(
            testRule, executionContext, createMock(TestRuleKeyFileHelper.class)));

    verify(executionContext, testRule);
  }
Exemplo n.º 8
0
  @VisibleForTesting
  Iterable<TestRule> filterTestRules(
      BuckConfig buckConfig,
      ImmutableSet<BuildTarget> explicitBuildTargets,
      Iterable<TestRule> testRules) {

    ImmutableSortedSet.Builder<TestRule> builder =
        ImmutableSortedSet.orderedBy(
            new Comparator<TestRule>() {
              @Override
              public int compare(TestRule o1, TestRule o2) {
                return o1.getBuildTarget()
                    .getFullyQualifiedName()
                    .compareTo(o2.getBuildTarget().getFullyQualifiedName());
              }
            });

    for (TestRule rule : testRules) {
      boolean explicitArgument = explicitBuildTargets.contains(rule.getBuildTarget());
      boolean matchesLabel = isMatchedByLabelOptions(buckConfig, rule.getLabels());

      // We always want to run the rules that are given on the command line. Always. Unless we don't
      // want to.
      if (shouldExcludeWin() && !matchesLabel) {
        continue;
      }

      // The testRules Iterable contains transitive deps of the arguments given on the command line,
      // filter those out if such is the user's will.
      if (shouldExcludeTransitiveTests() && !explicitArgument) {
        continue;
      }

      // Normal behavior is to include all rules that match the given label as well as any that
      // were explicitly specified by the user.
      if (explicitArgument || matchesLabel) {
        builder.add(rule);
      }
    }

    return builder.build();
  }
Exemplo n.º 9
0
  @Test
  public void testIsTestRunRequiredIfRuleKeyNotPresent() throws IOException {
    ExecutionContext executionContext = createMock(ExecutionContext.class);
    expect(executionContext.isDebugEnabled()).andReturn(false);

    TestRule testRule = createNiceMock(TestRule.class);
    expect(testRule.getBuildResultType()).andReturn(BuildRuleSuccess.Type.MATCHING_RULE_KEY);
    expect(testRule.hasTestResultFiles(executionContext)).andReturn(true);

    TestRuleKeyFileHelper testRuleKeyFileHelper = createNiceMock(TestRuleKeyFileHelper.class);
    expect(testRuleKeyFileHelper.isRuleKeyInDir(testRule)).andReturn(false);

    replay(executionContext, testRule, testRuleKeyFileHelper);

    assertTrue(
        "A cached build should run the tests if the test output directory\'s rule key is not "
            + "present or does not matche the rule key for the test.",
        TestCommand.isTestRunRequiredForTest(testRule, executionContext, testRuleKeyFileHelper));

    verify(executionContext, testRule, testRuleKeyFileHelper);
  }
Exemplo n.º 10
0
  @SuppressWarnings("PMD.EmptyCatchBlock")
  public static int runTests(
      final CommandRunnerParams params,
      Iterable<TestRule> tests,
      BuildContext buildContext,
      ExecutionContext executionContext,
      final TestRunningOptions options,
      ListeningExecutorService service,
      BuildEngine buildEngine,
      final StepRunner stepRunner)
      throws IOException, ExecutionException, InterruptedException {

    if (options.isUsingOneTimeOutputDirectories()) {
      BuckConstant.setOneTimeTestSubdirectory(UUID.randomUUID().toString());
    }

    ImmutableSet<JavaLibrary> rulesUnderTest;
    // If needed, we first run instrumentation on the class files.
    if (options.isCodeCoverageEnabled()) {
      rulesUnderTest = getRulesUnderTest(tests);
      if (!rulesUnderTest.isEmpty()) {
        try {
          stepRunner.runStepForBuildTarget(
              new MakeCleanDirectoryStep(JUnitStep.JACOCO_OUTPUT_DIR),
              Optional.<BuildTarget>absent());
        } catch (StepFailedException e) {
          params.getConsole().printBuildFailureWithoutStacktrace(e);
          return 1;
        }
      }
    } else {
      rulesUnderTest = ImmutableSet.of();
    }

    final ImmutableSet<String> testTargets =
        FluentIterable.from(tests)
            .transform(HasBuildTarget.TO_TARGET)
            .transform(Functions.toStringFunction())
            .toSet();

    final int totalNumberOfTests = Iterables.size(tests);

    params
        .getBuckEventBus()
        .post(
            TestRunEvent.started(
                options.isRunAllTests(),
                options.getTestSelectorList(),
                options.shouldExplainTestSelectorList(),
                testTargets));

    // Start running all of the tests. The result of each java_test() rule is represented as a
    // ListenableFuture.
    List<ListenableFuture<TestResults>> results = Lists.newArrayList();

    // Unless `--verbose 0` is specified, print out test results as they become available.
    // Failures with the ListenableFuture should always be printed, as they indicate an error with
    // Buck, not the test being run.
    Verbosity verbosity = params.getConsole().getVerbosity();
    final boolean printTestResults = (verbosity != Verbosity.SILENT);

    // For grouping results!
    final TestResultsGrouper grouper;
    if (options.isIgnoreFailingDependencies()) {
      grouper = new TestResultsGrouper(tests);
    } else {
      grouper = null;
    }

    TestRuleKeyFileHelper testRuleKeyFileHelper =
        new TestRuleKeyFileHelper(executionContext.getProjectFilesystem(), buildEngine);
    final AtomicInteger lastReportedTestSequenceNumber = new AtomicInteger();
    final List<TestRun> separateTestRuns = Lists.newArrayList();
    List<TestRun> parallelTestRuns = Lists.newArrayList();
    for (final TestRule test : tests) {
      // Determine whether the test needs to be executed.
      boolean isTestRunRequired;
      isTestRunRequired =
          isTestRunRequiredForTest(
              test,
              buildEngine,
              executionContext,
              testRuleKeyFileHelper,
              options.isResultsCacheEnabled(),
              !options.getTestSelectorList().isEmpty());

      List<Step> steps;
      if (isTestRunRequired) {
        params.getBuckEventBus().post(IndividualTestEvent.started(testTargets));
        ImmutableList.Builder<Step> stepsBuilder = ImmutableList.builder();
        Preconditions.checkState(buildEngine.isRuleBuilt(test.getBuildTarget()));
        final Map<String, UUID> testUUIDMap = new HashMap<>();
        List<Step> testSteps =
            test.runTests(
                buildContext,
                executionContext,
                options.isDryRun(),
                options.isShufflingTests(),
                options.getTestSelectorList(),
                new TestRule.TestReportingCallback() {
                  @Override
                  public void testsDidBegin() {
                    LOG.debug("Tests for rule %s began", test.getBuildTarget());
                  }

                  @Override
                  public void testDidBegin(String testCaseName, String testName) {
                    LOG.debug(
                        "Test rule %s test case %s test name %s began",
                        test.getBuildTarget(), testCaseName, testName);
                    UUID testUUID = UUID.randomUUID();
                    // UUID is immutable and thread-safe as of Java 7, so it's
                    // safe to stash in a map and use later:
                    //
                    // http://bugs.java.com/view_bug.do?bug_id=6611830
                    testUUIDMap.put(testCaseName + ":" + testName, testUUID);
                    params
                        .getBuckEventBus()
                        .post(TestSummaryEvent.started(testUUID, testCaseName, testName));
                  }

                  @Override
                  public void testDidEnd(TestResultSummary testResultSummary) {
                    LOG.debug(
                        "Test rule %s test did end: %s", test.getBuildTarget(), testResultSummary);
                    UUID testUUID =
                        testUUIDMap.get(
                            testResultSummary.getTestCaseName()
                                + ":"
                                + testResultSummary.getTestName());
                    Preconditions.checkNotNull(testUUID);
                    params
                        .getBuckEventBus()
                        .post(TestSummaryEvent.finished(testUUID, testResultSummary));
                  }

                  @Override
                  public void testsDidEnd(List<TestCaseSummary> testCaseSummaries) {
                    LOG.debug(
                        "Test rule %s tests did end: %s", test.getBuildTarget(), testCaseSummaries);
                  }
                });
        if (!testSteps.isEmpty()) {
          stepsBuilder.addAll(testSteps);
          stepsBuilder.add(testRuleKeyFileHelper.createRuleKeyInDirStep(test));
        }
        steps = stepsBuilder.build();
      } else {
        steps = ImmutableList.of();
      }

      TestRun testRun =
          TestRun.of(
              test,
              steps,
              getCachingStatusTransformingCallable(
                  isTestRunRequired,
                  test.interpretTestResults(
                      executionContext,
                      /*isUsingTestSelectors*/ !options.getTestSelectorList().isEmpty(),
                      /*isDryRun*/ options.isDryRun())));

      // Always run the commands, even if the list of commands as empty. There may be zero
      // commands because the rule is cached, but its results must still be processed.
      if (test.runTestSeparately()) {
        LOG.debug("Running test %s in serial", test);
        separateTestRuns.add(testRun);
      } else {
        LOG.debug("Running test %s in parallel", test);
        parallelTestRuns.add(testRun);
      }
    }

    final StepRunner.StepRunningCallback testStepRunningCallback =
        new StepRunner.StepRunningCallback() {
          @Override
          public void stepsWillRun(Optional<BuildTarget> buildTarget) {
            Preconditions.checkState(buildTarget.isPresent());
            LOG.debug("Test steps will run for %s", buildTarget);
            params.getBuckEventBus().post(TestRuleEvent.started(buildTarget.get()));
          }

          @Override
          public void stepsDidRun(Optional<BuildTarget> buildTarget) {
            Preconditions.checkState(buildTarget.isPresent());
            LOG.debug("Test steps did run for %s", buildTarget);
            params.getBuckEventBus().post(TestRuleEvent.finished(buildTarget.get()));
          }
        };

    for (TestRun testRun : parallelTestRuns) {
      ListenableFuture<TestResults> testResults =
          stepRunner.runStepsAndYieldResult(
              testRun.getSteps(),
              testRun.getTestResultsCallable(),
              Optional.of(testRun.getTest().getBuildTarget()),
              service,
              testStepRunningCallback);
      results.add(
          transformTestResults(
              params,
              testResults,
              grouper,
              testRun.getTest(),
              testTargets,
              printTestResults,
              lastReportedTestSequenceNumber,
              totalNumberOfTests));
    }

    ListenableFuture<List<TestResults>> parallelTestStepsFuture = Futures.allAsList(results);

    final List<TestResults> completedResults = Lists.newArrayList();

    final ListeningExecutorService directExecutorService = MoreExecutors.newDirectExecutorService();
    ListenableFuture<Void> uberFuture =
        stepRunner.addCallback(
            parallelTestStepsFuture,
            new FutureCallback<List<TestResults>>() {
              @Override
              public void onSuccess(List<TestResults> parallelTestResults) {
                LOG.debug("Parallel tests completed, running separate tests...");
                completedResults.addAll(parallelTestResults);
                List<ListenableFuture<TestResults>> separateResultsList = Lists.newArrayList();
                for (TestRun testRun : separateTestRuns) {
                  separateResultsList.add(
                      transformTestResults(
                          params,
                          stepRunner.runStepsAndYieldResult(
                              testRun.getSteps(),
                              testRun.getTestResultsCallable(),
                              Optional.of(testRun.getTest().getBuildTarget()),
                              directExecutorService,
                              testStepRunningCallback),
                          grouper,
                          testRun.getTest(),
                          testTargets,
                          printTestResults,
                          lastReportedTestSequenceNumber,
                          totalNumberOfTests));
                }
                ListenableFuture<List<TestResults>> serialResults =
                    Futures.allAsList(separateResultsList);
                try {
                  completedResults.addAll(serialResults.get());
                } catch (ExecutionException e) {
                  LOG.error(e, "Error fetching serial test results");
                  throw new HumanReadableException(e, "Error fetching serial test results");
                } catch (InterruptedException e) {
                  LOG.error(e, "Interrupted fetching serial test results");
                  try {
                    serialResults.cancel(true);
                  } catch (CancellationException ignored) {
                    // Rethrow original InterruptedException instead.
                  }
                  Thread.currentThread().interrupt();
                  throw new HumanReadableException(e, "Test cancelled");
                }
                LOG.debug("Done running serial tests.");
              }

              @Override
              public void onFailure(Throwable e) {
                LOG.error(e, "Parallel tests failed, not running serial tests");
                throw new HumanReadableException(e, "Parallel tests failed");
              }
            },
            directExecutorService);

    try {
      // Block until all the tests have finished running.
      uberFuture.get();
    } catch (ExecutionException e) {
      e.printStackTrace(params.getConsole().getStdErr());
      return 1;
    } catch (InterruptedException e) {
      try {
        uberFuture.cancel(true);
      } catch (CancellationException ignored) {
        // Rethrow original InterruptedException instead.
      }
      Thread.currentThread().interrupt();
      throw e;
    }

    params.getBuckEventBus().post(TestRunEvent.finished(testTargets, completedResults));

    // Write out the results as XML, if requested.
    Optional<String> path = options.getPathToXmlTestOutput();
    if (path.isPresent()) {
      try (Writer writer = Files.newWriter(new File(path.get()), Charsets.UTF_8)) {
        writeXmlOutput(completedResults, writer);
      }
    }

    // Generate the code coverage report.
    if (options.isCodeCoverageEnabled() && !rulesUnderTest.isEmpty()) {
      try {
        Optional<DefaultJavaPackageFinder> defaultJavaPackageFinderOptional =
            Optional.fromNullable(params.getBuckConfig().createDefaultJavaPackageFinder());
        stepRunner.runStepForBuildTarget(
            getReportCommand(
                rulesUnderTest,
                defaultJavaPackageFinderOptional,
                params.getRepository().getFilesystem(),
                JUnitStep.JACOCO_OUTPUT_DIR,
                options.getCoverageReportFormat()),
            Optional.<BuildTarget>absent());
      } catch (StepFailedException e) {
        params.getConsole().printBuildFailureWithoutStacktrace(e);
        return 1;
      }
    }

    boolean failures =
        Iterables.any(
            completedResults,
            new Predicate<TestResults>() {
              @Override
              public boolean apply(TestResults results) {
                LOG.debug("Checking result %s for failure", results);
                return !results.isSuccess();
              }
            });

    return failures ? TEST_FAILURES_EXIT_CODE : 0;
  }