Index: base/profiler/stack_sampling_profiler_unittest.cc |
diff --git a/base/profiler/stack_sampling_profiler_unittest.cc b/base/profiler/stack_sampling_profiler_unittest.cc |
index 0b300d575d73c76f65a6afd7e53a372020a844a3..277c519a1d20830e5441265dc0818cf3dc756511 100644 |
--- a/base/profiler/stack_sampling_profiler_unittest.cc |
+++ b/base/profiler/stack_sampling_profiler_unittest.cc |
@@ -14,7 +14,6 @@ |
#include "base/compiler_specific.h" |
#include "base/macros.h" |
#include "base/memory/ptr_util.h" |
-#include "base/message_loop/message_loop.h" |
#include "base/native_library.h" |
#include "base/path_service.h" |
#include "base/profiler/native_stack_sampler.h" |
@@ -23,8 +22,10 @@ |
#include "base/scoped_native_library.h" |
#include "base/strings/stringprintf.h" |
#include "base/strings/utf_string_conversions.h" |
+#include "base/synchronization/lock.h" |
#include "base/synchronization/waitable_event.h" |
#include "base/threading/platform_thread.h" |
+#include "base/threading/simple_thread.h" |
#include "base/time/time.h" |
#include "build/build_config.h" |
#include "testing/gtest/include/gtest/gtest.h" |
@@ -351,6 +352,44 @@ void WithTargetThread(Function function) { |
WithTargetThread(function, StackConfiguration(StackConfiguration::NORMAL)); |
} |
+// Waits for one of multiple samplings to complete. If |delegates| is provided, |
+// the vector must be pre-populated and of the same size as |params|. |
+void CreateProfilers( |
+ PlatformThreadId target_thread_id, |
+ const std::vector<SamplingParams>& params, |
+ const std::vector<std::unique_ptr<NativeStackSamplerTestDelegate>>* |
+ delegates, |
+ std::vector<CallStackProfiles>* profiles, |
+ std::vector<std::unique_ptr<StackSamplingProfiler>>* profilers, |
+ std::vector<std::unique_ptr<WaitableEvent>>* completed) { |
Mike Wittman
2017/03/31 18:12:33
There's a very subtle issue with this function in
bcwhite
2017/04/03 20:18:13
Better than that, I think, is to create a struct t
Mike Wittman
2017/04/04 17:59:51
Nice, that makes things much cleaner.
|
+ ASSERT_TRUE(!params.empty()); |
+ ASSERT_TRUE(profiles->empty()); |
+ ASSERT_TRUE(profilers->empty()); |
+ ASSERT_TRUE(completed->empty()); |
+ if (delegates) |
+ ASSERT_EQ(params.size(), delegates->size()); |
+ |
+ // Vectors have to be appropriately sized in advance so that the addresses of |
+ // values don't change. |
+ const size_t count = params.size(); |
+ profiles->reserve(count); |
+ profilers->reserve(count); |
+ completed->reserve(count); |
+ |
+ for (size_t i = 0; i < count; ++i) { |
+ profiles->push_back(CallStackProfiles()); |
+ completed->push_back( |
+ MakeUnique<WaitableEvent>(WaitableEvent::ResetPolicy::AUTOMATIC, |
+ WaitableEvent::InitialState::NOT_SIGNALED)); |
+ const StackSamplingProfiler::CompletedCallback callback = |
+ Bind(&SaveProfilesAndSignalEvent, Unretained(&profiles->back()), |
+ Unretained(completed->back().get())); |
+ profilers->push_back(MakeUnique<StackSamplingProfiler>( |
+ target_thread_id, params[i], callback, |
+ (delegates ? (*delegates)[i].get() : nullptr))); |
+ } |
+} |
+ |
// Captures profiles as specified by |params| on the TargetThread, and returns |
// them in |profiles|. Waits up to |profiler_wait_time| for the profiler to |
// complete. |
@@ -374,6 +413,21 @@ void CaptureProfiles(const SamplingParams& params, TimeDelta profiler_wait_time, |
}); |
} |
+// Waits for one of multiple samplings to complete. |
+size_t WaitForSamplingComplete( |
+ std::vector<std::unique_ptr<WaitableEvent>>* sampling_completed) { |
+ // Map unique_ptrs to something that WaitMany can accept. |
+ std::vector<WaitableEvent*> sampling_completed_rawptrs( |
+ sampling_completed->size()); |
+ std::transform( |
+ sampling_completed->begin(), sampling_completed->end(), |
+ sampling_completed_rawptrs.begin(), |
+ [](const std::unique_ptr<WaitableEvent>& elem) { return elem.get(); }); |
+ // Wait for one profiler to finish. |
+ return WaitableEvent::WaitMany(sampling_completed_rawptrs.data(), |
+ sampling_completed_rawptrs.size()); |
+} |
+ |
// If this executable was linked with /INCREMENTAL (the default for non-official |
// debug and release builds on Windows), function addresses do not correspond to |
// function code itself, but instead to instructions in the Incremental Link |
@@ -444,9 +498,9 @@ void TestLibraryUnload(bool wait_until_unloaded) { |
StackCopiedSignaler(WaitableEvent* stack_copied, |
WaitableEvent* start_stack_walk, |
bool wait_to_walk_stack) |
- : stack_copied_(stack_copied), start_stack_walk_(start_stack_walk), |
- wait_to_walk_stack_(wait_to_walk_stack) { |
- } |
+ : stack_copied_(stack_copied), |
+ start_stack_walk_(start_stack_walk), |
+ wait_to_walk_stack_(wait_to_walk_stack) {} |
void OnPreStackWalk() override { |
stack_copied_->Signal(); |
@@ -577,6 +631,28 @@ void TestLibraryUnload(bool wait_until_unloaded) { |
} |
} |
+class StackSamplingProfilerTest : public testing::Test { |
+ public: |
+ void SetUp() override { |
+ // Reset everything to have a clean test environment. This is done before |
+ // the test becasue it's impossible to know what other tests, including |
+ // those outside this file, might have inadventently done that affects the |
+ // profiler. |
+ StackSamplingProfiler::TestAPI::Reset(); |
+ |
+ // The idle-shutdown time is too long for convenient (and accurate) testing. |
+ // That behavior is checked instead by artificially triggering it through |
+ // the TestAPI. |
+ StackSamplingProfiler::TestAPI::DisableIdleShutdown(); |
+ } |
+ |
+ void TearDown() override { |
+ // Be a good citizen and clean up after ourselves. This also re-enables the |
+ // idle-shutdown behavior. |
+ StackSamplingProfiler::TestAPI::Reset(); |
+ } |
+}; |
+ |
} // namespace |
// Checks that the basic expected information is present in a sampled call stack |
@@ -586,9 +662,7 @@ void TestLibraryUnload(bool wait_until_unloaded) { |
#else |
#define MAYBE_Basic DISABLED_Basic |
#endif |
-TEST(StackSamplingProfilerTest, MAYBE_Basic) { |
- StackSamplingProfiler::ResetAnnotationsForTesting(); |
- |
+TEST_F(StackSamplingProfilerTest, MAYBE_Basic) { |
SamplingParams params; |
params.sampling_interval = TimeDelta::FromMilliseconds(0); |
params.samples_per_burst = 1; |
@@ -631,9 +705,7 @@ TEST(StackSamplingProfilerTest, MAYBE_Basic) { |
#else |
#define MAYBE_Annotations DISABLED_Annotations |
#endif |
-TEST(StackSamplingProfilerTest, MAYBE_Annotations) { |
- StackSamplingProfiler::ResetAnnotationsForTesting(); |
- |
+TEST_F(StackSamplingProfilerTest, MAYBE_Annotations) { |
SamplingParams params; |
params.sampling_interval = TimeDelta::FromMilliseconds(0); |
params.samples_per_burst = 1; |
@@ -667,7 +739,7 @@ TEST(StackSamplingProfilerTest, MAYBE_Annotations) { |
#else |
#define MAYBE_Alloca DISABLED_Alloca |
#endif |
-TEST(StackSamplingProfilerTest, MAYBE_Alloca) { |
+TEST_F(StackSamplingProfilerTest, MAYBE_Alloca) { |
SamplingParams params; |
params.sampling_interval = TimeDelta::FromMilliseconds(0); |
params.samples_per_burst = 1; |
@@ -720,35 +792,6 @@ TEST(StackSamplingProfilerTest, MAYBE_Alloca) { |
<< FormatSampleForDiagnosticOutput(sample, profile.modules); |
} |
-// Checks that the fire-and-forget interface works. |
-#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
-#define MAYBE_StartAndRunAsync StartAndRunAsync |
-#else |
-#define MAYBE_StartAndRunAsync DISABLED_StartAndRunAsync |
-#endif |
-TEST(StackSamplingProfilerTest, MAYBE_StartAndRunAsync) { |
- // StartAndRunAsync requires the caller to have a message loop. |
- MessageLoop message_loop; |
- |
- SamplingParams params; |
- params.samples_per_burst = 1; |
- |
- CallStackProfiles profiles; |
- WithTargetThread([¶ms, &profiles](PlatformThreadId target_thread_id) { |
- WaitableEvent sampling_thread_completed( |
- WaitableEvent::ResetPolicy::AUTOMATIC, |
- WaitableEvent::InitialState::NOT_SIGNALED); |
- const StackSamplingProfiler::CompletedCallback callback = |
- Bind(&SaveProfilesAndSignalEvent, Unretained(&profiles), |
- Unretained(&sampling_thread_completed)); |
- StackSamplingProfiler::StartAndRunAsync(target_thread_id, params, callback); |
- RunLoop().RunUntilIdle(); |
- sampling_thread_completed.Wait(); |
- }); |
- |
- ASSERT_EQ(1u, profiles.size()); |
-} |
- |
// Checks that the expected number of profiles and samples are present in the |
// call stack profiles produced. |
#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
@@ -756,7 +799,7 @@ TEST(StackSamplingProfilerTest, MAYBE_StartAndRunAsync) { |
#else |
#define MAYBE_MultipleProfilesAndSamples DISABLED_MultipleProfilesAndSamples |
#endif |
-TEST(StackSamplingProfilerTest, MAYBE_MultipleProfilesAndSamples) { |
+TEST_F(StackSamplingProfilerTest, MAYBE_MultipleProfilesAndSamples) { |
SamplingParams params; |
params.burst_interval = params.sampling_interval = |
TimeDelta::FromMilliseconds(0); |
@@ -771,6 +814,124 @@ TEST(StackSamplingProfilerTest, MAYBE_MultipleProfilesAndSamples) { |
EXPECT_EQ(3u, profiles[1].samples.size()); |
} |
+// Checks that a profiler can stop/destruct without ever having started. |
+#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
+#define MAYBE_StopWithoutStarting StopWithoutStarting |
+#else |
+#define MAYBE_StopWithoutStarting DISABLED_StopWithoutStarting |
+#endif |
+TEST_F(StackSamplingProfilerTest, MAYBE_StopWithoutStarting) { |
+ WithTargetThread([](PlatformThreadId target_thread_id) { |
+ SamplingParams params; |
+ params.sampling_interval = TimeDelta::FromMilliseconds(0); |
+ params.samples_per_burst = 1; |
+ |
+ CallStackProfiles profiles; |
+ WaitableEvent sampling_completed(WaitableEvent::ResetPolicy::MANUAL, |
+ WaitableEvent::InitialState::NOT_SIGNALED); |
+ const StackSamplingProfiler::CompletedCallback callback = |
+ Bind(&SaveProfilesAndSignalEvent, Unretained(&profiles), |
+ Unretained(&sampling_completed)); |
+ StackSamplingProfiler profiler(target_thread_id, params, callback); |
+ |
+ profiler.Stop(); // Constructed but never started. |
+ EXPECT_FALSE(sampling_completed.IsSignaled()); |
+ }); |
+} |
+ |
+// Checks that its okay to stop a profiler before it finishes even when the |
+// sampling thread continues to run. |
+#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
+#define MAYBE_StopSafely StopSafely |
+#else |
+#define MAYBE_StopSafely DISABLED_StopSafely |
+#endif |
+TEST_F(StackSamplingProfilerTest, MAYBE_StopSafely) { |
+ // Test delegate that counts samples. |
+ class SampleRecordedCounter : public NativeStackSamplerTestDelegate { |
+ public: |
+ SampleRecordedCounter() {} |
+ |
+ void OnPreStackWalk() override { |
+ AutoLock lock(lock_); |
+ ++count_; |
+ } |
+ |
+ size_t Get() { |
+ AutoLock lock(lock_); |
+ return count_; |
+ } |
+ |
+ private: |
+ Lock lock_; |
+ size_t count_ = 0; |
+ }; |
+ |
+ WithTargetThread([](PlatformThreadId target_thread_id) { |
+ std::vector<SamplingParams> params(2); |
+ |
+ // Providing an initial delay makes it more likely that both will be |
+ // scheduled before either starts to run. Once started, samples will |
+ // run ordered by their scheduled, interleaved times regardless of |
+ // whatever interval the thread wakes up. |
+ params[0].initial_delay = TimeDelta::FromMilliseconds(10); |
+ params[0].sampling_interval = TimeDelta::FromMilliseconds(1); |
+ params[0].samples_per_burst = 100000; |
+ |
+ params[1].initial_delay = TimeDelta::FromMilliseconds(10); |
+ params[1].sampling_interval = TimeDelta::FromMilliseconds(1); |
+ params[1].samples_per_burst = 100000; |
+ |
+ std::vector<CallStackProfiles> profiles; |
+ std::vector<std::unique_ptr<NativeStackSamplerTestDelegate>> |
+ samples_recorded; |
+ std::vector<std::unique_ptr<WaitableEvent>> sampling_completed; |
+ std::vector<std::unique_ptr<StackSamplingProfiler>> profilers; |
+ for (size_t i = 0; i < params.size(); ++i) |
+ samples_recorded.push_back(MakeUnique<SampleRecordedCounter>()); |
+ CreateProfilers(target_thread_id, params, &samples_recorded, &profiles, |
+ &profilers, &sampling_completed); |
+ |
+ profilers[0]->Start(); |
+ profilers[1]->Start(); |
+ |
+ // Wait for both to start accumulating samples. Using a WaitableEvent is |
+ // possible but gets complicated later on because there's no way of knowing |
+ // if 0 or 1 additional sample will be taken after Stop() and thus no way |
+ // of knowing how many Wait() calls to make on it. |
+ while ( |
+ static_cast<SampleRecordedCounter*>(samples_recorded[0].get())->Get() == |
Mike Wittman
2017/03/31 18:12:33
I think we should be able to avoid casting entirel
bcwhite
2017/04/03 20:18:13
No casting necessary with new TestProfilerInfo str
|
+ 0 || |
+ static_cast<SampleRecordedCounter*>(samples_recorded[1].get())->Get() == |
+ 0) |
+ PlatformThread::Sleep(TimeDelta::FromMilliseconds(1)); |
+ |
+ // Ensure that the first sampler can be safely stopped while the second |
+ // continues to run. The stopped first profiler will still have a |
+ // PerformCollectionTask pending that will do nothing when executed because |
+ // the collection will have been removed by Stop(). |
+ profilers[0]->Stop(); |
+ sampling_completed[0]->Wait(); |
+ size_t count0 = |
+ static_cast<SampleRecordedCounter*>(samples_recorded[0].get())->Get(); |
+ size_t count1 = |
+ static_cast<SampleRecordedCounter*>(samples_recorded[1].get())->Get(); |
+ |
+ // Waiting for the second sampler to collect a couple samples ensures that |
+ // the pending PerformCollectionTask for the first has executed because |
+ // tasks are always ordered by their next scheduled time. |
+ while ( |
+ static_cast<SampleRecordedCounter*>(samples_recorded[1].get())->Get() < |
+ count1 + 2) |
+ PlatformThread::Sleep(TimeDelta::FromMilliseconds(1)); |
+ |
+ // Ensure that the first profiler didn't do anything since it was stopped. |
+ EXPECT_EQ( |
+ count0, |
+ static_cast<SampleRecordedCounter*>(samples_recorded[0].get())->Get()); |
+ }); |
+} |
+ |
// Checks that no call stack profiles are captured if the profiling is stopped |
// during the initial delay. |
#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
@@ -778,7 +939,7 @@ TEST(StackSamplingProfilerTest, MAYBE_MultipleProfilesAndSamples) { |
#else |
#define MAYBE_StopDuringInitialDelay DISABLED_StopDuringInitialDelay |
#endif |
-TEST(StackSamplingProfilerTest, MAYBE_StopDuringInitialDelay) { |
+TEST_F(StackSamplingProfilerTest, MAYBE_StopDuringInitialDelay) { |
SamplingParams params; |
params.initial_delay = TimeDelta::FromSeconds(60); |
@@ -795,7 +956,7 @@ TEST(StackSamplingProfilerTest, MAYBE_StopDuringInitialDelay) { |
#else |
#define MAYBE_StopDuringInterBurstInterval DISABLED_StopDuringInterBurstInterval |
#endif |
-TEST(StackSamplingProfilerTest, MAYBE_StopDuringInterBurstInterval) { |
+TEST_F(StackSamplingProfilerTest, MAYBE_StopDuringInterBurstInterval) { |
SamplingParams params; |
params.sampling_interval = TimeDelta::FromMilliseconds(0); |
params.burst_interval = TimeDelta::FromSeconds(60); |
@@ -809,23 +970,58 @@ TEST(StackSamplingProfilerTest, MAYBE_StopDuringInterBurstInterval) { |
EXPECT_EQ(1u, profiles[0].samples.size()); |
} |
-// Checks that incomplete call stack profiles are captured. |
+// Checks that tasks can be stopped before completion and incomplete call stack |
+// profiles are captured. |
#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
#define MAYBE_StopDuringInterSampleInterval StopDuringInterSampleInterval |
#else |
#define MAYBE_StopDuringInterSampleInterval \ |
DISABLED_StopDuringInterSampleInterval |
#endif |
-TEST(StackSamplingProfilerTest, MAYBE_StopDuringInterSampleInterval) { |
- SamplingParams params; |
- params.sampling_interval = TimeDelta::FromSeconds(60); |
- params.samples_per_burst = 2; |
+TEST_F(StackSamplingProfilerTest, MAYBE_StopDuringInterSampleInterval) { |
+ // Test delegate that counts samples. |
+ class SampleRecordedEvent : public NativeStackSamplerTestDelegate { |
+ public: |
+ SampleRecordedEvent() |
+ : sample_recorded_(WaitableEvent::ResetPolicy::MANUAL, |
+ WaitableEvent::InitialState::NOT_SIGNALED) {} |
- std::vector<CallStackProfile> profiles; |
- CaptureProfiles(params, TimeDelta::FromMilliseconds(50), &profiles); |
+ void OnPreStackWalk() override { sample_recorded_.Signal(); } |
- ASSERT_EQ(1u, profiles.size()); |
- EXPECT_EQ(1u, profiles[0].samples.size()); |
+ void Wait() { sample_recorded_.Wait(); } |
Mike Wittman
2017/03/31 18:12:33
nit: WaitForSampleToOccur
bcwhite
2017/04/03 20:18:13
Done.
|
+ |
+ private: |
+ WaitableEvent sample_recorded_; |
+ }; |
+ |
+ WithTargetThread([](PlatformThreadId target_thread_id) { |
+ std::vector<SamplingParams> params(1); |
+ |
+ params[0].sampling_interval = AVeryLongTimeDelta(); |
+ params[0].samples_per_burst = 2; |
+ |
+ std::vector<CallStackProfiles> profiles; |
+ std::vector<std::unique_ptr<NativeStackSamplerTestDelegate>> |
+ samples_recorded; |
+ std::vector<std::unique_ptr<WaitableEvent>> sampling_completed; |
+ std::vector<std::unique_ptr<StackSamplingProfiler>> profilers; |
+ for (size_t i = 0; i < params.size(); ++i) |
+ samples_recorded.push_back(MakeUnique<SampleRecordedEvent>()); |
+ CreateProfilers(target_thread_id, params, &samples_recorded, &profiles, |
+ &profilers, &sampling_completed); |
+ |
+ profilers[0]->Start(); |
+ |
+ // Wait for profiler to start accumulating samples. |
+ static_cast<SampleRecordedEvent*>(samples_recorded[0].get())->Wait(); |
+ |
+ // Ensure that it can stop safely. |
+ profilers[0]->Stop(); |
+ sampling_completed[0]->Wait(); |
+ |
+ ASSERT_EQ(1u, profiles[0].size()); |
+ EXPECT_EQ(1u, profiles[0][0].samples.size()); |
+ }); |
} |
// Checks that we can destroy the profiler while profiling. |
@@ -835,7 +1031,7 @@ TEST(StackSamplingProfilerTest, MAYBE_StopDuringInterSampleInterval) { |
#define MAYBE_DestroyProfilerWhileProfiling \ |
DISABLED_DestroyProfilerWhileProfiling |
#endif |
-TEST(StackSamplingProfilerTest, MAYBE_DestroyProfilerWhileProfiling) { |
+TEST_F(StackSamplingProfilerTest, MAYBE_DestroyProfilerWhileProfiling) { |
SamplingParams params; |
params.sampling_interval = TimeDelta::FromMilliseconds(10); |
@@ -859,7 +1055,42 @@ TEST(StackSamplingProfilerTest, MAYBE_DestroyProfilerWhileProfiling) { |
#else |
#define MAYBE_CanRunMultipleTimes DISABLED_CanRunMultipleTimes |
#endif |
-TEST(StackSamplingProfilerTest, MAYBE_CanRunMultipleTimes) { |
+TEST_F(StackSamplingProfilerTest, MAYBE_CanRunMultipleTimes) { |
+ WithTargetThread([](PlatformThreadId target_thread_id) { |
+ SamplingParams params; |
+ params.sampling_interval = TimeDelta::FromMilliseconds(0); |
+ params.samples_per_burst = 1; |
+ |
+ CallStackProfiles profiles; |
+ WaitableEvent sampling_completed(WaitableEvent::ResetPolicy::MANUAL, |
+ WaitableEvent::InitialState::NOT_SIGNALED); |
+ const StackSamplingProfiler::CompletedCallback callback = |
+ Bind(&SaveProfilesAndSignalEvent, Unretained(&profiles), |
+ Unretained(&sampling_completed)); |
+ StackSamplingProfiler profiler(target_thread_id, params, callback); |
+ |
+ // Just start and stop to execute code paths. |
+ profiler.Start(); |
+ profiler.Stop(); |
+ sampling_completed.Wait(); |
+ |
+ // Ensure a second request will run and not block. |
+ sampling_completed.Reset(); |
+ profiles.clear(); |
+ profiler.Start(); |
+ sampling_completed.Wait(); |
+ profiler.Stop(); |
+ ASSERT_EQ(1u, profiles.size()); |
+ }); |
+} |
+ |
+// Checks that the different profilers may be run. |
+#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
+#define MAYBE_CanRunMultipleProfilers CanRunMultipleProfilers |
+#else |
+#define MAYBE_CanRunMultipleProfilers DISABLED_CanRunMultipleProfilers |
+#endif |
+TEST_F(StackSamplingProfilerTest, MAYBE_CanRunMultipleProfilers) { |
SamplingParams params; |
params.sampling_interval = TimeDelta::FromMilliseconds(0); |
params.samples_per_burst = 1; |
@@ -873,60 +1104,306 @@ TEST(StackSamplingProfilerTest, MAYBE_CanRunMultipleTimes) { |
ASSERT_EQ(1u, profiles.size()); |
} |
-// Checks that requests to start profiling while another profile is taking place |
-// are ignored. |
+// Checks that a sampler can be started while another is running. |
#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
-#define MAYBE_ConcurrentProfiling ConcurrentProfiling |
+#define MAYBE_MultipleStart MultipleStart |
#else |
-#define MAYBE_ConcurrentProfiling DISABLED_ConcurrentProfiling |
+#define MAYBE_MultipleStart DISABLED_MultipleStart |
#endif |
-TEST(StackSamplingProfilerTest, MAYBE_ConcurrentProfiling) { |
+TEST_F(StackSamplingProfilerTest, MAYBE_MultipleStart) { |
WithTargetThread([](PlatformThreadId target_thread_id) { |
- SamplingParams params[2]; |
- params[0].initial_delay = TimeDelta::FromMilliseconds(10); |
- params[0].sampling_interval = TimeDelta::FromMilliseconds(0); |
+ std::vector<SamplingParams> params(2); |
+ |
+ params[0].initial_delay = AVeryLongTimeDelta(); |
params[0].samples_per_burst = 1; |
- params[1].sampling_interval = TimeDelta::FromMilliseconds(0); |
+ params[1].sampling_interval = TimeDelta::FromMilliseconds(1); |
params[1].samples_per_burst = 1; |
- CallStackProfiles profiles[2]; |
- std::vector<std::unique_ptr<WaitableEvent>> sampling_completed(2); |
- std::vector<std::unique_ptr<StackSamplingProfiler>> profiler(2); |
- for (int i = 0; i < 2; ++i) { |
- sampling_completed[i] = |
- MakeUnique<WaitableEvent>(WaitableEvent::ResetPolicy::AUTOMATIC, |
- WaitableEvent::InitialState::NOT_SIGNALED); |
- const StackSamplingProfiler::CompletedCallback callback = |
- Bind(&SaveProfilesAndSignalEvent, Unretained(&profiles[i]), |
- Unretained(sampling_completed[i].get())); |
- profiler[i] = MakeUnique<StackSamplingProfiler>(target_thread_id, |
- params[i], callback); |
- } |
+ std::vector<CallStackProfiles> profiles; |
+ std::vector<std::unique_ptr<WaitableEvent>> sampling_completed; |
+ std::vector<std::unique_ptr<StackSamplingProfiler>> profilers; |
+ CreateProfilers(target_thread_id, params, nullptr, &profiles, &profilers, |
+ &sampling_completed); |
+ |
+ profilers[0]->Start(); |
+ profilers[1]->Start(); |
+ sampling_completed[1]->Wait(); |
+ EXPECT_EQ(1u, profiles[1].size()); |
+ }); |
+} |
+ |
+// Checks that the sampling thread can shut down. |
+#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
+#define MAYBE_SamplerIdleShutdown SamplerIdleShutdown |
+#else |
+#define MAYBE_SamplerIdleShutdown DISABLED_SamplerIdleShutdown |
+#endif |
+TEST_F(StackSamplingProfilerTest, MAYBE_SamplerIdleShutdown) { |
+ SamplingParams params; |
+ params.sampling_interval = TimeDelta::FromMilliseconds(0); |
+ params.samples_per_burst = 1; |
- profiler[0]->Start(); |
- profiler[1]->Start(); |
+ std::vector<CallStackProfile> profiles; |
+ CaptureProfiles(params, AVeryLongTimeDelta(), &profiles); |
+ ASSERT_EQ(1u, profiles.size()); |
+ |
+ // Capture thread should still be running at this point. |
+ ASSERT_TRUE(StackSamplingProfiler::TestAPI::IsSamplingThreadRunning()); |
+ |
+ // Initiate an "idle" shutdown and ensure it happens. Idle-shutdown was |
Mike Wittman
2017/03/31 18:12:33
Idle-shutdown is disabled in the test fixture ...
bcwhite
2017/04/03 20:18:13
Done.
|
+ // disabled above so the test will fail due to a timeout if it does not |
+ // exit. |
+ StackSamplingProfiler::TestAPI::PerformSamplingThreadIdleShutdown(false); |
+ |
+ // While the shutdown has been initiated, the actual exit of the thread still |
+ // happens asynchronously. Watch until the thread actually exits. This test |
+ // will time-out in the case of failure. |
+ while (StackSamplingProfiler::TestAPI::IsSamplingThreadRunning()) |
+ PlatformThread::Sleep(base::TimeDelta::FromMilliseconds(1)); |
+} |
+ |
+// Checks that additional requests will restart a stopped profiler. |
+#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
+#define MAYBE_WillRestartSamplerAfterIdleShutdown \ |
+ WillRestartSamplerAfterIdleShutdown |
+#else |
+#define MAYBE_WillRestartSamplerAfterIdleShutdown \ |
+ DISABLED_WillRestartSamplerAfterIdleShutdown |
+#endif |
+TEST_F(StackSamplingProfilerTest, MAYBE_WillRestartSamplerAfterIdleShutdown) { |
+ SamplingParams params; |
+ params.sampling_interval = TimeDelta::FromMilliseconds(0); |
+ params.samples_per_burst = 1; |
+ |
+ std::vector<CallStackProfile> profiles; |
+ CaptureProfiles(params, AVeryLongTimeDelta(), &profiles); |
+ ASSERT_EQ(1u, profiles.size()); |
+ |
+ // Capture thread should still be running at this point. |
+ ASSERT_TRUE(StackSamplingProfiler::TestAPI::IsSamplingThreadRunning()); |
+ |
+ // Post a ShutdownTask on the sampling thread which, when executed, will |
+ // mark the thread as EXITING and begin shut down of the thread. |
+ StackSamplingProfiler::TestAPI::PerformSamplingThreadIdleShutdown(false); |
+ |
+ // Ensure another capture will start the sampling thread and run. |
+ profiles.clear(); |
+ CaptureProfiles(params, AVeryLongTimeDelta(), &profiles); |
+ ASSERT_EQ(1u, profiles.size()); |
+ EXPECT_TRUE(StackSamplingProfiler::TestAPI::IsSamplingThreadRunning()); |
+} |
+ |
+// Checks that it's safe to stop a task after it's completed and the sampling |
+// thread has shut-down for being idle. |
+#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
+#define MAYBE_StopAfterIdleShutdown StopAfterIdleShutdown |
+#else |
+#define MAYBE_StopAfterIdleShutdown DISABLED_StopAfterIdleShutdown |
+#endif |
+TEST_F(StackSamplingProfilerTest, MAYBE_StopAfterIdleShutdown) { |
+ WithTargetThread([](PlatformThreadId target_thread_id) { |
+ std::vector<SamplingParams> params(1); |
+ |
+ params[0].sampling_interval = TimeDelta::FromMilliseconds(1); |
+ params[0].samples_per_burst = 1; |
+ |
+ std::vector<CallStackProfiles> profiles; |
+ std::vector<std::unique_ptr<WaitableEvent>> sampling_completed; |
+ std::vector<std::unique_ptr<StackSamplingProfiler>> profilers; |
+ CreateProfilers(target_thread_id, params, nullptr, &profiles, &profilers, |
+ &sampling_completed); |
+ |
+ profilers[0]->Start(); |
+ sampling_completed[0]->Wait(); |
+ |
+ // Capture thread should still be running at this point. |
+ ASSERT_TRUE(StackSamplingProfiler::TestAPI::IsSamplingThreadRunning()); |
+ |
+ // Perform an idle shutdown. |
+ StackSamplingProfiler::TestAPI::PerformSamplingThreadIdleShutdown(false); |
+ |
+ // Stop should be safe though its impossible to know at this moment if the |
+ // sampling thread has completely exited or will just "stop soon". |
+ profilers[0]->Stop(); |
+ }); |
+} |
+ |
+// Checks that profilers can run both before and after the sampling thread has |
+// started. |
+#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
+#define MAYBE_ProfileBeforeAndAfterSamplingThreadRunning \ |
+ ProfileBeforeAndAfterSamplingThreadRunning |
+#else |
+#define MAYBE_ProfileBeforeAndAfterSamplingThreadRunning \ |
+ DISABLED_ProfileBeforeAndAfterSamplingThreadRunning |
+#endif |
+TEST_F(StackSamplingProfilerTest, |
+ MAYBE_ProfileBeforeAndAfterSamplingThreadRunning) { |
+ WithTargetThread([](PlatformThreadId target_thread_id) { |
+ std::vector<SamplingParams> params(2); |
+ |
+ params[0].initial_delay = AVeryLongTimeDelta(); |
+ params[0].sampling_interval = TimeDelta::FromMilliseconds(1); |
+ params[0].samples_per_burst = 1; |
+ |
+ params[1].initial_delay = TimeDelta::FromMilliseconds(0); |
+ params[1].sampling_interval = TimeDelta::FromMilliseconds(1); |
+ params[1].samples_per_burst = 1; |
+ |
+ std::vector<CallStackProfiles> profiles; |
+ std::vector<std::unique_ptr<WaitableEvent>> sampling_completed; |
+ std::vector<std::unique_ptr<StackSamplingProfiler>> profilers; |
+ CreateProfilers(target_thread_id, params, nullptr, &profiles, &profilers, |
+ &sampling_completed); |
+ |
+ // First profiler is started when there has never been a sampling thread. |
+ EXPECT_FALSE(StackSamplingProfiler::TestAPI::IsSamplingThreadRunning()); |
+ profilers[0]->Start(); |
+ // Second profiler is started when sampling thread is already running. |
+ EXPECT_TRUE(StackSamplingProfiler::TestAPI::IsSamplingThreadRunning()); |
+ profilers[1]->Start(); |
+ |
+ // Only the second profiler should finish before test times out. |
+ size_t completed_profiler = WaitForSamplingComplete(&sampling_completed); |
+ EXPECT_EQ(1U, completed_profiler); |
+ }); |
+} |
+ |
+// Checks that an idle-shutdown task will abort if a new profiler starts |
+// between when it was posted and when it runs. |
+#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
+#define MAYBE_IdleShutdownAbort IdleShutdownAbort |
+#else |
+#define MAYBE_IdleShutdownAbort DISABLED_IdleShutdownAbort |
+#endif |
+TEST_F(StackSamplingProfilerTest, MAYBE_IdleShutdownAbort) { |
+ WithTargetThread([](PlatformThreadId target_thread_id) { |
+ // CreateProfilers takes vectors so use a vector for this even though its |
+ // only a single entry. |
+ std::vector<SamplingParams> params(1); |
+ |
+ params[0].sampling_interval = TimeDelta::FromMilliseconds(1); |
+ params[0].samples_per_burst = 1; |
+ |
+ std::vector<CallStackProfiles> profiles; |
+ std::vector<std::unique_ptr<WaitableEvent>> sampling_completed; |
+ std::vector<std::unique_ptr<StackSamplingProfiler>> profilers; |
+ CreateProfilers(target_thread_id, params, nullptr, &profiles, &profilers, |
+ &sampling_completed); |
+ |
+ profilers[0]->Start(); |
+ sampling_completed[0]->Wait(); |
+ EXPECT_EQ(1u, profiles.size()); |
+ |
+ // Perform an idle shutdown but simulate that a new capture is started |
+ // before it can actually run. |
+ StackSamplingProfiler::TestAPI::PerformSamplingThreadIdleShutdown(true); |
+ |
+ // Though the shutdown-task has been executed, any actual exit of the |
+ // thread is asynchronous so there is no way to detect that *didn't* exit |
+ // except to wait a reasonable amount of time and then check. Since the |
+ // thread was just running ("perform" blocked until it was), it should |
+ // finish almost immediately and without any waiting for tasks or events. |
+ PlatformThread::Sleep(base::TimeDelta::FromMilliseconds(200)); |
+ EXPECT_TRUE(StackSamplingProfiler::TestAPI::IsSamplingThreadRunning()); |
+ |
+ // Ensure that it's still possible to run another sampler. Restarting the |
+ // already defined sampler is fine. |
+ profilers[0]->Stop(); |
+ profiles[0].clear(); |
+ profilers[0]->Start(); |
+ sampling_completed[0]->Wait(); |
+ EXPECT_EQ(1u, profiles[0].size()); |
+ }); |
+} |
+ |
+// Checks that synchronized multiple sampling requests execute in parallel. |
+#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
+#define MAYBE_ConcurrentProfiling_InSync ConcurrentProfiling_InSync |
+#else |
+#define MAYBE_ConcurrentProfiling_InSync DISABLED_ConcurrentProfiling_InSync |
+#endif |
+TEST_F(StackSamplingProfilerTest, MAYBE_ConcurrentProfiling_InSync) { |
+ WithTargetThread([](PlatformThreadId target_thread_id) { |
+ std::vector<SamplingParams> params(2); |
+ |
+ // Providing an initial delay makes it more likely that both will be |
+ // scheduled before either starts to run. Once started, samples will |
+ // run ordered by their scheduled, interleaved times regardless of |
+ // whatever interval the thread wakes up. Thus, total execution time |
+ // will be 10ms (delay) + 10x1ms (sampling) + 1/2 timer minimum interval. |
+ params[0].initial_delay = TimeDelta::FromMilliseconds(10); |
+ params[0].sampling_interval = TimeDelta::FromMilliseconds(1); |
+ params[0].samples_per_burst = 9; |
+ |
+ params[1].initial_delay = TimeDelta::FromMilliseconds(11); |
+ params[1].sampling_interval = TimeDelta::FromMilliseconds(1); |
+ params[1].samples_per_burst = 8; |
+ |
+ std::vector<CallStackProfiles> profiles; |
+ std::vector<std::unique_ptr<WaitableEvent>> sampling_completed; |
+ std::vector<std::unique_ptr<StackSamplingProfiler>> profilers; |
+ CreateProfilers(target_thread_id, params, nullptr, &profiles, &profilers, |
+ &sampling_completed); |
+ |
+ profilers[0]->Start(); |
+ profilers[1]->Start(); |
- std::vector<WaitableEvent*> sampling_completed_rawptrs( |
- sampling_completed.size()); |
- std::transform( |
- sampling_completed.begin(), sampling_completed.end(), |
- sampling_completed_rawptrs.begin(), |
- [](const std::unique_ptr<WaitableEvent>& elem) { return elem.get(); }); |
// Wait for one profiler to finish. |
- size_t completed_profiler = |
- WaitableEvent::WaitMany(sampling_completed_rawptrs.data(), 2); |
- EXPECT_EQ(1u, profiles[completed_profiler].size()); |
+ size_t completed_profiler = WaitForSamplingComplete(&sampling_completed); |
+ ASSERT_EQ(1u, profiles[completed_profiler].size()); |
size_t other_profiler = 1 - completed_profiler; |
- // Give the other profiler a chance to run and observe that it hasn't. |
- EXPECT_FALSE(sampling_completed[other_profiler]->TimedWait( |
- TimeDelta::FromMilliseconds(25))); |
- |
- // Start the other profiler again and it should run. |
- profiler[other_profiler]->Start(); |
+ // Wait for the other profiler to finish. |
sampling_completed[other_profiler]->Wait(); |
- EXPECT_EQ(1u, profiles[other_profiler].size()); |
+ ASSERT_EQ(1u, profiles[other_profiler].size()); |
+ |
+ // Ensure each got the correct number of samples. |
+ EXPECT_EQ(9u, profiles[0][0].samples.size()); |
+ EXPECT_EQ(8u, profiles[1][0].samples.size()); |
+ }); |
+} |
+ |
+// Checks that several mixed sampling requests execute in parallel. |
+#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
+#define MAYBE_ConcurrentProfiling_Mixed ConcurrentProfiling_Mixed |
+#else |
+#define MAYBE_ConcurrentProfiling_Mixed DISABLED_ConcurrentProfiling_Mixed |
+#endif |
+TEST_F(StackSamplingProfilerTest, MAYBE_ConcurrentProfiling_Mixed) { |
+ WithTargetThread([](PlatformThreadId target_thread_id) { |
+ std::vector<SamplingParams> params(3); |
+ |
+ params[0].initial_delay = TimeDelta::FromMilliseconds(8); |
+ params[0].sampling_interval = TimeDelta::FromMilliseconds(4); |
+ params[0].samples_per_burst = 10; |
+ |
+ params[1].initial_delay = TimeDelta::FromMilliseconds(9); |
+ params[1].sampling_interval = TimeDelta::FromMilliseconds(3); |
+ params[1].samples_per_burst = 10; |
+ |
+ params[2].initial_delay = TimeDelta::FromMilliseconds(10); |
+ params[2].sampling_interval = TimeDelta::FromMilliseconds(2); |
+ params[2].samples_per_burst = 10; |
+ |
+ std::vector<CallStackProfiles> profiles; |
+ std::vector<std::unique_ptr<WaitableEvent>> sampling_completed; |
+ std::vector<std::unique_ptr<StackSamplingProfiler>> profilers; |
+ CreateProfilers(target_thread_id, params, nullptr, &profiles, &profilers, |
+ &sampling_completed); |
+ |
+ for (size_t i = 0; i < profilers.size(); ++i) |
+ profilers[i]->Start(); |
+ |
+ // Wait for one profiler to finish. |
+ size_t completed_profiler = WaitForSamplingComplete(&sampling_completed); |
+ EXPECT_EQ(1u, profiles[completed_profiler].size()); |
+ // Stop and destroy all profilers, always in the same order. Don't crash. |
+ for (size_t i = 0; i < profilers.size(); ++i) |
+ profilers[i]->Stop(); |
+ for (size_t i = 0; i < profilers.size(); ++i) |
+ profilers[i].reset(); |
}); |
} |
@@ -937,7 +1414,7 @@ TEST(StackSamplingProfilerTest, MAYBE_ConcurrentProfiling) { |
#else |
#define MAYBE_OtherLibrary DISABLED_OtherLibrary |
#endif |
-TEST(StackSamplingProfilerTest, MAYBE_OtherLibrary) { |
+TEST_F(StackSamplingProfilerTest, MAYBE_OtherLibrary) { |
SamplingParams params; |
params.sampling_interval = TimeDelta::FromMilliseconds(0); |
params.samples_per_burst = 1; |
@@ -1008,7 +1485,7 @@ TEST(StackSamplingProfilerTest, MAYBE_OtherLibrary) { |
#else |
#define MAYBE_UnloadingLibrary DISABLED_UnloadingLibrary |
#endif |
-TEST(StackSamplingProfilerTest, MAYBE_UnloadingLibrary) { |
+TEST_F(StackSamplingProfilerTest, MAYBE_UnloadingLibrary) { |
TestLibraryUnload(false); |
} |
@@ -1019,8 +1496,153 @@ TEST(StackSamplingProfilerTest, MAYBE_UnloadingLibrary) { |
#else |
#define MAYBE_UnloadedLibrary DISABLED_UnloadedLibrary |
#endif |
-TEST(StackSamplingProfilerTest, MAYBE_UnloadedLibrary) { |
+TEST_F(StackSamplingProfilerTest, MAYBE_UnloadedLibrary) { |
TestLibraryUnload(true); |
} |
+// Checks that different threads can be sampled in parallel. |
+#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
+#define MAYBE_MultipleSampledThreads MultipleSampledThreads |
+#else |
+#define MAYBE_MultipleSampledThreads DISABLED_MultipleSampledThreads |
+#endif |
+TEST_F(StackSamplingProfilerTest, MAYBE_MultipleSampledThreads) { |
+ // Create target threads. The extra parethesis around the StackConfiguration |
+ // call are to avoid the most-vexing-parse problem. |
+ TargetThread target_thread1((StackConfiguration(StackConfiguration::NORMAL))); |
+ TargetThread target_thread2((StackConfiguration(StackConfiguration::NORMAL))); |
+ PlatformThreadHandle target_thread_handle1, target_thread_handle2; |
+ EXPECT_TRUE( |
+ PlatformThread::Create(0, &target_thread1, &target_thread_handle1)); |
+ EXPECT_TRUE( |
+ PlatformThread::Create(0, &target_thread2, &target_thread_handle2)); |
+ target_thread1.WaitForThreadStart(); |
+ target_thread2.WaitForThreadStart(); |
+ |
+ // Providing an initial delay makes it more likely that both will be |
+ // scheduled before either starts to run. Once started, samples will |
+ // run ordered by their scheduled, interleaved times regardless of |
+ // whatever interval the thread wakes up. |
+ SamplingParams params1, params2; |
+ params1.initial_delay = TimeDelta::FromMilliseconds(10); |
+ params1.sampling_interval = TimeDelta::FromMilliseconds(1); |
+ params1.samples_per_burst = 9; |
+ params2.initial_delay = TimeDelta::FromMilliseconds(10); |
+ params2.sampling_interval = TimeDelta::FromMilliseconds(1); |
+ params2.samples_per_burst = 8; |
+ |
+ std::vector<CallStackProfile> profiles1, profiles2; |
+ |
+ WaitableEvent sampling_thread_completed1( |
+ WaitableEvent::ResetPolicy::MANUAL, |
+ WaitableEvent::InitialState::NOT_SIGNALED); |
+ const StackSamplingProfiler::CompletedCallback callback1 = |
+ Bind(&SaveProfilesAndSignalEvent, Unretained(&profiles1), |
+ Unretained(&sampling_thread_completed1)); |
+ StackSamplingProfiler profiler1(target_thread1.id(), params1, callback1); |
+ |
+ WaitableEvent sampling_thread_completed2( |
+ WaitableEvent::ResetPolicy::MANUAL, |
+ WaitableEvent::InitialState::NOT_SIGNALED); |
+ const StackSamplingProfiler::CompletedCallback callback2 = |
+ Bind(&SaveProfilesAndSignalEvent, Unretained(&profiles2), |
+ Unretained(&sampling_thread_completed2)); |
+ StackSamplingProfiler profiler2(target_thread2.id(), params2, callback2); |
+ |
+ // Finally the real work. |
+ profiler1.Start(); |
+ profiler2.Start(); |
+ sampling_thread_completed1.Wait(); |
+ sampling_thread_completed2.Wait(); |
+ ASSERT_EQ(1u, profiles1.size()); |
+ EXPECT_EQ(9u, profiles1[0].samples.size()); |
+ ASSERT_EQ(1u, profiles2.size()); |
+ EXPECT_EQ(8u, profiles2[0].samples.size()); |
+ |
+ target_thread1.SignalThreadToFinish(); |
+ target_thread2.SignalThreadToFinish(); |
+ PlatformThread::Join(target_thread_handle1); |
+ PlatformThread::Join(target_thread_handle2); |
+} |
+ |
+// A simple thread that runs a profiler on another thread. |
+class ProfilerThread : public SimpleThread { |
+ public: |
+ ProfilerThread(const std::string& name, |
+ PlatformThreadId thread_id, |
+ const SamplingParams& params) |
+ : SimpleThread(name, Options()), |
+ run_(WaitableEvent::ResetPolicy::MANUAL, |
+ WaitableEvent::InitialState::NOT_SIGNALED), |
+ completed_(WaitableEvent::ResetPolicy::MANUAL, |
+ WaitableEvent::InitialState::NOT_SIGNALED), |
+ profiler_(thread_id, |
+ params, |
+ Bind(&SaveProfilesAndSignalEvent, |
+ Unretained(&profiles_), |
+ Unretained(&completed_))) {} |
+ |
+ void Run() override { |
+ run_.Wait(); |
+ profiler_.Start(); |
+ } |
+ |
+ void Go() { run_.Signal(); } |
+ |
+ void Wait() { completed_.Wait(); } |
+ |
+ CallStackProfiles& profiles() { return profiles_; } |
+ |
+ private: |
+ WaitableEvent run_; |
+ |
+ CallStackProfiles profiles_; |
+ WaitableEvent completed_; |
+ StackSamplingProfiler profiler_; |
+}; |
+ |
+// Checks that different threads can run samplers in parallel. |
+#if defined(STACK_SAMPLING_PROFILER_SUPPORTED) |
+#define MAYBE_MultipleProfilerThreads MultipleProfilerThreads |
+#else |
+#define MAYBE_MultipleProfilerThreads DISABLED_MultipleProfilerThreads |
+#endif |
+TEST_F(StackSamplingProfilerTest, MAYBE_MultipleProfilerThreads) { |
+ WithTargetThread([](PlatformThreadId target_thread_id) { |
+ // Providing an initial delay makes it more likely that both will be |
+ // scheduled before either starts to run. Once started, samples will |
+ // run ordered by their scheduled, interleaved times regardless of |
+ // whatever interval the thread wakes up. |
+ SamplingParams params1, params2; |
+ params1.initial_delay = TimeDelta::FromMilliseconds(10); |
+ params1.sampling_interval = TimeDelta::FromMilliseconds(1); |
+ params1.samples_per_burst = 9; |
+ params2.initial_delay = TimeDelta::FromMilliseconds(10); |
+ params2.sampling_interval = TimeDelta::FromMilliseconds(1); |
+ params2.samples_per_burst = 8; |
+ |
+ // Start the profiler threads and give them a moment to get going. |
+ ProfilerThread profiler1("profiler_thread1", target_thread_id, params1); |
+ ProfilerThread profiler2("profiler_thread2", target_thread_id, params2); |
+ profiler1.Start(); |
+ profiler2.Start(); |
+ PlatformThread::Sleep(base::TimeDelta::FromMilliseconds(10)); |
+ |
+ // This will (approximately) synchronize the two threads. |
+ profiler1.Go(); |
+ profiler2.Go(); |
+ |
+ // Wait for them both to finish and validate collection. |
+ profiler1.Wait(); |
+ profiler2.Wait(); |
+ ASSERT_EQ(1u, profiler1.profiles().size()); |
+ EXPECT_EQ(9u, profiler1.profiles()[0].samples.size()); |
+ ASSERT_EQ(1u, profiler2.profiles().size()); |
+ EXPECT_EQ(8u, profiler2.profiles()[0].samples.size()); |
+ |
+ profiler1.Join(); |
+ profiler2.Join(); |
+ }); |
+} |
+ |
} // namespace base |