// Copyright 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/test/launcher/unit_test_launcher.h" #include "base/base_switches.h" #include "base/bind.h" #include "base/callback_helpers.h" #include "base/command_line.h" #include "base/compiler_specific.h" #include "base/debug/debugger.h" #include "base/files/file_util.h" #include "base/files/scoped_temp_dir.h" #include "base/format_macros.h" #include "base/location.h" #include "base/macros.h" #include "base/message_loop/message_loop.h" #include "base/single_thread_task_runner.h" #include "base/stl_util.h" #include "base/strings/string_number_conversions.h" #include "base/strings/string_util.h" #include "base/sys_info.h" #include "base/test/gtest_xml_util.h" #include "base/test/launcher/test_launcher.h" #include "base/test/test_switches.h" #include "base/test/test_timeouts.h" #include "base/third_party/dynamic_annotations/dynamic_annotations.h" #include "base/thread_task_runner_handle.h" #include "base/threading/thread_checker.h" #include "build/build_config.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { namespace { // This constant controls how many tests are run in a single batch by default. const size_t kDefaultTestBatchLimit = 10; const char kHelpFlag[] = "help"; // Flag to run all tests in a single process. const char kSingleProcessTestsFlag[] = "single-process-tests"; void PrintUsage() { fprintf(stdout, "Runs tests using the gtest framework, each batch of tests being\n" "run in their own process. Supported command-line flags:\n" "\n" " Common flags:\n" " --gtest_filter=...\n" " Runs a subset of tests (see --gtest_help for more info).\n" "\n" " --help\n" " Shows this message.\n" "\n" " --gtest_help\n" " Shows the gtest help message.\n" "\n" " --test-launcher-jobs=N\n" " Sets the number of parallel test jobs to N.\n" "\n" " --single-process-tests\n" " Runs the tests and the launcher in the same process. Useful\n" " for debugging a specific test in a debugger.\n" "\n" " Other flags:\n" " --test-launcher-filter-file=PATH\n" " Like --gtest_filter, but read the test filter from PATH.\n" " One pattern per line; lines starting with '-' are exclusions.\n" "\n" " --test-launcher-batch-limit=N\n" " Sets the limit of test batch to run in a single process to N.\n" "\n" " --test-launcher-debug-launcher\n" " Disables autodetection of debuggers and similar tools,\n" " making it possible to use them to debug launcher itself.\n" "\n" " --test-launcher-retry-limit=N\n" " Sets the limit of test retries on failures to N.\n" "\n" " --test-launcher-summary-output=PATH\n" " Saves a JSON machine-readable summary of the run.\n" "\n" " --test-launcher-print-test-stdio=auto|always|never\n" " Controls when full test output is printed.\n" " auto means to print it when the test failed.\n" "\n" " --test-launcher-total-shards=N\n" " Sets the total number of shards to N.\n" "\n" " --test-launcher-shard-index=N\n" " Sets the shard index to run to N (from 0 to TOTAL - 1).\n"); fflush(stdout); } class DefaultUnitTestPlatformDelegate : public UnitTestPlatformDelegate { public: DefaultUnitTestPlatformDelegate() { } private: // UnitTestPlatformDelegate: bool GetTests(std::vector* output) override { *output = GetCompiledInTests(); return true; } bool CreateTemporaryFile(base::FilePath* path) override { if (!CreateNewTempDirectory(FilePath::StringType(), path)) return false; *path = path->AppendASCII("test_results.xml"); return true; } CommandLine GetCommandLineForChildGTestProcess( const std::vector& test_names, const base::FilePath& output_file) override { CommandLine new_cmd_line(*CommandLine::ForCurrentProcess()); CHECK(temp_dir_.IsValid() || temp_dir_.CreateUniqueTempDir()); FilePath temp_file; CHECK(CreateTemporaryFileInDir(temp_dir_.path(), &temp_file)); std::string long_flags( std::string("--") + kGTestFilterFlag + "=" + JoinString(test_names, ":")); CHECK_EQ(static_cast(long_flags.size()), WriteFile(temp_file, long_flags.data(), static_cast(long_flags.size()))); new_cmd_line.AppendSwitchPath(switches::kTestLauncherOutput, output_file); new_cmd_line.AppendSwitchPath(kGTestFlagfileFlag, temp_file); new_cmd_line.AppendSwitch(kSingleProcessTestsFlag); return new_cmd_line; } std::string GetWrapperForChildGTestProcess() override { return std::string(); } void RelaunchTests(TestLauncher* test_launcher, const std::vector& test_names, int launch_flags) override { // Relaunch requested tests in parallel, but only use single // test per batch for more precise results (crashes, etc). for (const std::string& test_name : test_names) { std::vector batch; batch.push_back(test_name); RunUnitTestsBatch(test_launcher, this, batch, launch_flags); } } ScopedTempDir temp_dir_; DISALLOW_COPY_AND_ASSIGN(DefaultUnitTestPlatformDelegate); }; bool GetSwitchValueAsInt(const std::string& switch_name, int* result) { if (!CommandLine::ForCurrentProcess()->HasSwitch(switch_name)) return true; std::string switch_value = CommandLine::ForCurrentProcess()->GetSwitchValueASCII(switch_name); if (!StringToInt(switch_value, result) || *result < 0) { LOG(ERROR) << "Invalid value for " << switch_name << ": " << switch_value; return false; } return true; } int LaunchUnitTestsInternal(const RunTestSuiteCallback& run_test_suite, int default_jobs, int default_batch_limit, bool use_job_objects, const Closure& gtest_init) { #if defined(OS_ANDROID) // We can't easily fork on Android, just run the test suite directly. return run_test_suite.Run(); #else bool force_single_process = false; if (CommandLine::ForCurrentProcess()->HasSwitch( switches::kTestLauncherDebugLauncher)) { fprintf(stdout, "Forcing test launcher debugging mode.\n"); fflush(stdout); } else { if (base::debug::BeingDebugged()) { fprintf(stdout, "Debugger detected, switching to single process mode.\n" "Pass --test-launcher-debug-launcher to debug the launcher " "itself.\n"); fflush(stdout); force_single_process = true; } } if (CommandLine::ForCurrentProcess()->HasSwitch(kGTestHelpFlag) || CommandLine::ForCurrentProcess()->HasSwitch(kGTestListTestsFlag) || CommandLine::ForCurrentProcess()->HasSwitch(kSingleProcessTestsFlag) || CommandLine::ForCurrentProcess()->HasSwitch( switches::kTestChildProcess) || force_single_process) { return run_test_suite.Run(); } #endif if (CommandLine::ForCurrentProcess()->HasSwitch(kHelpFlag)) { PrintUsage(); return 0; } base::TimeTicks start_time(base::TimeTicks::Now()); gtest_init.Run(); TestTimeouts::Initialize(); int batch_limit = default_batch_limit; if (!GetSwitchValueAsInt(switches::kTestLauncherBatchLimit, &batch_limit)) return 1; fprintf(stdout, "IMPORTANT DEBUGGING NOTE: batches of tests are run inside their\n" "own process. For debugging a test inside a debugger, use the\n" "--gtest_filter= flag along with\n" "--single-process-tests.\n"); fflush(stdout); MessageLoopForIO message_loop; DefaultUnitTestPlatformDelegate platform_delegate; UnitTestLauncherDelegate delegate( &platform_delegate, batch_limit, use_job_objects); base::TestLauncher launcher(&delegate, default_jobs); bool success = launcher.Run(); fprintf(stdout, "Tests took %" PRId64 " seconds.\n", (base::TimeTicks::Now() - start_time).InSeconds()); fflush(stdout); return (success ? 0 : 1); } void InitGoogleTestChar(int* argc, char** argv) { testing::InitGoogleTest(argc, argv); } #if defined(OS_WIN) void InitGoogleTestWChar(int* argc, wchar_t** argv) { testing::InitGoogleTest(argc, argv); } #endif // defined(OS_WIN) // Interprets test results and reports to the test launcher. Returns true // on success. bool ProcessTestResults( TestLauncher* test_launcher, const std::vector& test_names, const base::FilePath& output_file, const std::string& output, int exit_code, bool was_timeout, std::vector* tests_to_relaunch) { std::vector test_results; bool crashed = false; bool have_test_results = ProcessGTestOutput(output_file, &test_results, &crashed); bool called_any_callback = false; if (have_test_results) { // TODO(phajdan.jr): Check for duplicates and mismatches between // the results we got from XML file and tests we intended to run. std::map results_map; for (size_t i = 0; i < test_results.size(); i++) results_map[test_results[i].full_name] = test_results[i]; bool had_interrupted_test = false; // Results to be reported back to the test launcher. std::vector final_results; for (size_t i = 0; i < test_names.size(); i++) { if (ContainsKey(results_map, test_names[i])) { TestResult test_result = results_map[test_names[i]]; if (test_result.status == TestResult::TEST_CRASH) { had_interrupted_test = true; if (was_timeout) { // Fix up the test status: we forcibly kill the child process // after the timeout, so from XML results it looks just like // a crash. test_result.status = TestResult::TEST_TIMEOUT; } } else if (test_result.status == TestResult::TEST_SUCCESS || test_result.status == TestResult::TEST_FAILURE) { // We run multiple tests in a batch with a timeout applied // to the entire batch. It is possible that with other tests // running quickly some tests take longer than the per-test timeout. // For consistent handling of tests independent of order and other // factors, mark them as timing out. if (test_result.elapsed_time > TestTimeouts::test_launcher_timeout()) { test_result.status = TestResult::TEST_TIMEOUT; } } test_result.output_snippet = GetTestOutputSnippet(test_result, output); final_results.push_back(test_result); } else if (had_interrupted_test) { tests_to_relaunch->push_back(test_names[i]); } else { // TODO(phajdan.jr): Explicitly pass the info that the test didn't // run for a mysterious reason. LOG(ERROR) << "no test result for " << test_names[i]; TestResult test_result; test_result.full_name = test_names[i]; test_result.status = TestResult::TEST_UNKNOWN; test_result.output_snippet = GetTestOutputSnippet(test_result, output); final_results.push_back(test_result); } } // TODO(phajdan.jr): Handle the case where processing XML output // indicates a crash but none of the test results is marked as crashing. if (final_results.empty()) return false; bool has_non_success_test = false; for (size_t i = 0; i < final_results.size(); i++) { if (final_results[i].status != TestResult::TEST_SUCCESS) { has_non_success_test = true; break; } } if (!has_non_success_test && exit_code != 0) { // This is a bit surprising case: all tests are marked as successful, // but the exit code was not zero. This can happen e.g. under memory // tools that report leaks this way. Mark all tests as a failure on exit, // and for more precise info they'd need to be retried serially. for (size_t i = 0; i < final_results.size(); i++) final_results[i].status = TestResult::TEST_FAILURE_ON_EXIT; } for (size_t i = 0; i < final_results.size(); i++) { // Fix the output snippet after possible changes to the test result. final_results[i].output_snippet = GetTestOutputSnippet(final_results[i], output); test_launcher->OnTestFinished(final_results[i]); called_any_callback = true; } } else { fprintf(stdout, "Failed to get out-of-band test success data, " "dumping full stdio below:\n%s\n", output.c_str()); fflush(stdout); // We do not have reliable details about test results (parsing test // stdout is known to be unreliable), apply the executable exit code // to all tests. // TODO(phajdan.jr): Be smarter about this, e.g. retry each test // individually. for (size_t i = 0; i < test_names.size(); i++) { TestResult test_result; test_result.full_name = test_names[i]; test_result.status = TestResult::TEST_UNKNOWN; test_launcher->OnTestFinished(test_result); called_any_callback = true; } } return called_any_callback; } // TODO(phajdan.jr): Pass parameters directly with C++11 variadic templates. struct GTestCallbackState { TestLauncher* test_launcher; UnitTestPlatformDelegate* platform_delegate; std::vector test_names; int launch_flags; FilePath output_file; }; void GTestCallback( const GTestCallbackState& callback_state, int exit_code, const TimeDelta& elapsed_time, bool was_timeout, const std::string& output) { std::vector tests_to_relaunch; ProcessTestResults(callback_state.test_launcher, callback_state.test_names, callback_state.output_file, output, exit_code, was_timeout, &tests_to_relaunch); if (!tests_to_relaunch.empty()) { callback_state.platform_delegate->RelaunchTests( callback_state.test_launcher, tests_to_relaunch, callback_state.launch_flags); } // The temporary file's directory is also temporary. DeleteFile(callback_state.output_file.DirName(), true); } void SerialGTestCallback( const GTestCallbackState& callback_state, const std::vector& test_names, int exit_code, const TimeDelta& elapsed_time, bool was_timeout, const std::string& output) { std::vector tests_to_relaunch; bool called_any_callbacks = ProcessTestResults(callback_state.test_launcher, callback_state.test_names, callback_state.output_file, output, exit_code, was_timeout, &tests_to_relaunch); // There is only one test, there cannot be other tests to relaunch // due to a crash. DCHECK(tests_to_relaunch.empty()); // There is only one test, we should have called back with its result. DCHECK(called_any_callbacks); // The temporary file's directory is also temporary. DeleteFile(callback_state.output_file.DirName(), true); ThreadTaskRunnerHandle::Get()->PostTask( FROM_HERE, Bind(&RunUnitTestsSerially, callback_state.test_launcher, callback_state.platform_delegate, test_names, callback_state.launch_flags)); } } // namespace int LaunchUnitTests(int argc, char** argv, const RunTestSuiteCallback& run_test_suite) { CommandLine::Init(argc, argv); return LaunchUnitTestsInternal( run_test_suite, SysInfo::NumberOfProcessors(), kDefaultTestBatchLimit, true, Bind(&InitGoogleTestChar, &argc, argv)); } int LaunchUnitTestsSerially(int argc, char** argv, const RunTestSuiteCallback& run_test_suite) { CommandLine::Init(argc, argv); return LaunchUnitTestsInternal( run_test_suite, 1, kDefaultTestBatchLimit, true, Bind(&InitGoogleTestChar, &argc, argv)); } int LaunchUnitTestsWithOptions( int argc, char** argv, int default_jobs, int default_batch_limit, bool use_job_objects, const RunTestSuiteCallback& run_test_suite) { CommandLine::Init(argc, argv); return LaunchUnitTestsInternal( run_test_suite, default_jobs, default_batch_limit, use_job_objects, Bind(&InitGoogleTestChar, &argc, argv)); } #if defined(OS_WIN) int LaunchUnitTests(int argc, wchar_t** argv, bool use_job_objects, const RunTestSuiteCallback& run_test_suite) { // Windows CommandLine::Init ignores argv anyway. CommandLine::Init(argc, NULL); return LaunchUnitTestsInternal( run_test_suite, SysInfo::NumberOfProcessors(), kDefaultTestBatchLimit, use_job_objects, Bind(&InitGoogleTestWChar, &argc, argv)); } #endif // defined(OS_WIN) void RunUnitTestsSerially( TestLauncher* test_launcher, UnitTestPlatformDelegate* platform_delegate, const std::vector& test_names, int launch_flags) { if (test_names.empty()) return; std::vector new_test_names(test_names); std::string test_name(new_test_names.back()); new_test_names.pop_back(); // Create a dedicated temporary directory to store the xml result data // per run to ensure clean state and make it possible to launch multiple // processes in parallel. base::FilePath output_file; CHECK(platform_delegate->CreateTemporaryFile(&output_file)); std::vector current_test_names; current_test_names.push_back(test_name); CommandLine cmd_line(platform_delegate->GetCommandLineForChildGTestProcess( current_test_names, output_file)); GTestCallbackState callback_state; callback_state.test_launcher = test_launcher; callback_state.platform_delegate = platform_delegate; callback_state.test_names = current_test_names; callback_state.launch_flags = launch_flags; callback_state.output_file = output_file; TestLauncher::LaunchOptions launch_options; launch_options.flags = launch_flags; test_launcher->LaunchChildGTestProcess( cmd_line, platform_delegate->GetWrapperForChildGTestProcess(), TestTimeouts::test_launcher_timeout(), launch_options, Bind(&SerialGTestCallback, callback_state, new_test_names), TestLauncher::GTestProcessLaunchedCallback()); } void RunUnitTestsBatch( TestLauncher* test_launcher, UnitTestPlatformDelegate* platform_delegate, const std::vector& test_names, int launch_flags) { if (test_names.empty()) return; // Create a dedicated temporary directory to store the xml result data // per run to ensure clean state and make it possible to launch multiple // processes in parallel. base::FilePath output_file; CHECK(platform_delegate->CreateTemporaryFile(&output_file)); CommandLine cmd_line(platform_delegate->GetCommandLineForChildGTestProcess( test_names, output_file)); // Adjust the timeout depending on how many tests we're running // (note that e.g. the last batch of tests will be smaller). // TODO(phajdan.jr): Consider an adaptive timeout, which can change // depending on how many tests ran and how many remain. // Note: do NOT parse child's stdout to do that, it's known to be // unreliable (e.g. buffering issues can mix up the output). base::TimeDelta timeout = test_names.size() * TestTimeouts::test_launcher_timeout(); GTestCallbackState callback_state; callback_state.test_launcher = test_launcher; callback_state.platform_delegate = platform_delegate; callback_state.test_names = test_names; callback_state.launch_flags = launch_flags; callback_state.output_file = output_file; TestLauncher::LaunchOptions options; options.flags = launch_flags; test_launcher->LaunchChildGTestProcess( cmd_line, platform_delegate->GetWrapperForChildGTestProcess(), timeout, options, Bind(>estCallback, callback_state), TestLauncher::GTestProcessLaunchedCallback()); } UnitTestLauncherDelegate::UnitTestLauncherDelegate( UnitTestPlatformDelegate* platform_delegate, size_t batch_limit, bool use_job_objects) : platform_delegate_(platform_delegate), batch_limit_(batch_limit), use_job_objects_(use_job_objects) { } UnitTestLauncherDelegate::~UnitTestLauncherDelegate() { DCHECK(thread_checker_.CalledOnValidThread()); } bool UnitTestLauncherDelegate::GetTests(std::vector* output) { DCHECK(thread_checker_.CalledOnValidThread()); return platform_delegate_->GetTests(output); } bool UnitTestLauncherDelegate::ShouldRunTest(const std::string& test_case_name, const std::string& test_name) { DCHECK(thread_checker_.CalledOnValidThread()); // There is no additional logic to disable specific tests. return true; } size_t UnitTestLauncherDelegate::RunTests( TestLauncher* test_launcher, const std::vector& test_names) { DCHECK(thread_checker_.CalledOnValidThread()); int launch_flags = use_job_objects_ ? TestLauncher::USE_JOB_OBJECTS : 0; std::vector batch; for (size_t i = 0; i < test_names.size(); i++) { batch.push_back(test_names[i]); // Use 0 to indicate unlimited batch size. if (batch.size() >= batch_limit_ && batch_limit_ != 0) { RunUnitTestsBatch(test_launcher, platform_delegate_, batch, launch_flags); batch.clear(); } } RunUnitTestsBatch(test_launcher, platform_delegate_, batch, launch_flags); return test_names.size(); } size_t UnitTestLauncherDelegate::RetryTests( TestLauncher* test_launcher, const std::vector& test_names) { ThreadTaskRunnerHandle::Get()->PostTask( FROM_HERE, Bind(&RunUnitTestsSerially, test_launcher, platform_delegate_, test_names, use_job_objects_ ? TestLauncher::USE_JOB_OBJECTS : 0)); return test_names.size(); } } // namespace base