ResourceScheduler: remove dependency on ResourceRequestInfo and request_id
[chromium-blink-merge.git] / base / tracked_objects_unittest.cc
blobcdbf9ac7a6cec99f91e6a3c241b528c9b1c66113
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 // Test of classes in the tracked_objects.h classes.
7 #include "base/tracked_objects.h"
9 #include <stddef.h>
11 #include "base/memory/scoped_ptr.h"
12 #include "base/process/process_handle.h"
13 #include "base/time/time.h"
14 #include "base/tracking_info.h"
15 #include "testing/gtest/include/gtest/gtest.h"
17 const int kLineNumber = 1776;
18 const char kFile[] = "FixedUnitTestFileName";
19 const char kWorkerThreadName[] = "WorkerThread-1";
20 const char kMainThreadName[] = "SomeMainThreadName";
21 const char kStillAlive[] = "Still_Alive";
23 namespace tracked_objects {
25 class TrackedObjectsTest : public testing::Test {
26 protected:
27 TrackedObjectsTest() {
28 // On entry, leak any database structures in case they are still in use by
29 // prior threads.
30 ThreadData::ShutdownSingleThreadedCleanup(true);
32 test_time_ = 0;
33 ThreadData::SetAlternateTimeSource(&TrackedObjectsTest::GetTestTime);
34 ThreadData::now_function_is_time_ = true;
37 ~TrackedObjectsTest() override {
38 // We should not need to leak any structures we create, since we are
39 // single threaded, and carefully accounting for items.
40 ThreadData::ShutdownSingleThreadedCleanup(false);
43 // Reset the profiler state.
44 void Reset() {
45 ThreadData::ShutdownSingleThreadedCleanup(false);
46 test_time_ = 0;
49 // Simulate a birth on the thread named |thread_name|, at the given
50 // |location|.
51 void TallyABirth(const Location& location, const std::string& thread_name) {
52 // If the |thread_name| is empty, we don't initialize system with a thread
53 // name, so we're viewed as a worker thread.
54 if (!thread_name.empty())
55 ThreadData::InitializeThreadContext(kMainThreadName);
57 // Do not delete |birth|. We don't own it.
58 Births* birth = ThreadData::TallyABirthIfActive(location);
60 if (ThreadData::status() == ThreadData::DEACTIVATED)
61 EXPECT_EQ(reinterpret_cast<Births*>(NULL), birth);
62 else
63 EXPECT_NE(reinterpret_cast<Births*>(NULL), birth);
66 // Helper function to verify the most common test expectations.
67 void ExpectSimpleProcessData(const ProcessDataSnapshot& process_data,
68 const std::string& function_name,
69 const std::string& birth_thread,
70 const std::string& death_thread,
71 int count,
72 int run_ms,
73 int queue_ms) {
74 ASSERT_EQ(1u, process_data.phased_snapshots.size());
75 auto it = process_data.phased_snapshots.find(0);
76 ASSERT_TRUE(it != process_data.phased_snapshots.end());
77 const ProcessDataPhaseSnapshot& process_data_phase = it->second;
79 ASSERT_EQ(1u, process_data_phase.tasks.size());
81 EXPECT_EQ(kFile, process_data_phase.tasks[0].birth.location.file_name);
82 EXPECT_EQ(function_name,
83 process_data_phase.tasks[0].birth.location.function_name);
84 EXPECT_EQ(kLineNumber,
85 process_data_phase.tasks[0].birth.location.line_number);
87 EXPECT_EQ(birth_thread, process_data_phase.tasks[0].birth.thread_name);
89 EXPECT_EQ(count, process_data_phase.tasks[0].death_data.count);
90 EXPECT_EQ(count * run_ms,
91 process_data_phase.tasks[0].death_data.run_duration_sum);
92 EXPECT_EQ(run_ms, process_data_phase.tasks[0].death_data.run_duration_max);
93 EXPECT_EQ(run_ms,
94 process_data_phase.tasks[0].death_data.run_duration_sample);
95 EXPECT_EQ(count * queue_ms,
96 process_data_phase.tasks[0].death_data.queue_duration_sum);
97 EXPECT_EQ(queue_ms,
98 process_data_phase.tasks[0].death_data.queue_duration_max);
99 EXPECT_EQ(queue_ms,
100 process_data_phase.tasks[0].death_data.queue_duration_sample);
102 EXPECT_EQ(death_thread, process_data_phase.tasks[0].death_thread_name);
104 EXPECT_EQ(base::GetCurrentProcId(), process_data.process_id);
107 // Sets time that will be returned by ThreadData::Now().
108 static void SetTestTime(unsigned int test_time) { test_time_ = test_time; }
110 private:
111 // Returns test time in milliseconds.
112 static unsigned int GetTestTime() { return test_time_; }
114 // Test time in milliseconds.
115 static unsigned int test_time_;
118 // static
119 unsigned int TrackedObjectsTest::test_time_;
121 TEST_F(TrackedObjectsTest, TaskStopwatchNoStartStop) {
122 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
124 // Check that creating and destroying a stopwatch without starting it doesn't
125 // crash.
126 TaskStopwatch stopwatch;
129 TEST_F(TrackedObjectsTest, MinimalStartupShutdown) {
130 // Minimal test doesn't even create any tasks.
131 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
133 EXPECT_FALSE(ThreadData::first()); // No activity even on this thread.
134 ThreadData* data = ThreadData::Get();
135 EXPECT_TRUE(ThreadData::first()); // Now class was constructed.
136 ASSERT_TRUE(data);
137 EXPECT_FALSE(data->next());
138 EXPECT_EQ(data, ThreadData::Get());
139 ThreadData::BirthMap birth_map;
140 ThreadData::DeathsSnapshot deaths;
141 data->SnapshotMaps(0, &birth_map, &deaths);
142 EXPECT_EQ(0u, birth_map.size());
143 EXPECT_EQ(0u, deaths.size());
145 // Clean up with no leaking.
146 Reset();
148 // Do it again, just to be sure we reset state completely.
149 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
150 EXPECT_FALSE(ThreadData::first()); // No activity even on this thread.
151 data = ThreadData::Get();
152 EXPECT_TRUE(ThreadData::first()); // Now class was constructed.
153 ASSERT_TRUE(data);
154 EXPECT_FALSE(data->next());
155 EXPECT_EQ(data, ThreadData::Get());
156 birth_map.clear();
157 deaths.clear();
158 data->SnapshotMaps(0, &birth_map, &deaths);
159 EXPECT_EQ(0u, birth_map.size());
160 EXPECT_EQ(0u, deaths.size());
163 TEST_F(TrackedObjectsTest, TinyStartupShutdown) {
164 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
166 // Instigate tracking on a single tracked object, on our thread.
167 const char kFunction[] = "TinyStartupShutdown";
168 Location location(kFunction, kFile, kLineNumber, NULL);
169 ThreadData::TallyABirthIfActive(location);
171 ThreadData* data = ThreadData::first();
172 ASSERT_TRUE(data);
173 EXPECT_FALSE(data->next());
174 EXPECT_EQ(data, ThreadData::Get());
175 ThreadData::BirthMap birth_map;
176 ThreadData::DeathsSnapshot deaths;
177 data->SnapshotMaps(0, &birth_map, &deaths);
178 EXPECT_EQ(1u, birth_map.size()); // 1 birth location.
179 EXPECT_EQ(1, birth_map.begin()->second->birth_count()); // 1 birth.
180 EXPECT_EQ(0u, deaths.size()); // No deaths.
183 // Now instigate another birth, while we are timing the run of the first
184 // execution.
185 // Create a child (using the same birth location).
186 // TrackingInfo will call TallyABirth() during construction.
187 const int32 start_time = 1;
188 base::TimeTicks kBogusBirthTime = base::TimeTicks() +
189 base::TimeDelta::FromMilliseconds(start_time);
190 base::TrackingInfo pending_task(location, kBogusBirthTime);
191 SetTestTime(1);
192 TaskStopwatch stopwatch;
193 stopwatch.Start();
194 // Finally conclude the outer run.
195 const int32 time_elapsed = 1000;
196 SetTestTime(start_time + time_elapsed);
197 stopwatch.Stop();
199 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, stopwatch);
201 birth_map.clear();
202 deaths.clear();
203 data->SnapshotMaps(0, &birth_map, &deaths);
204 EXPECT_EQ(1u, birth_map.size()); // 1 birth location.
205 EXPECT_EQ(2, birth_map.begin()->second->birth_count()); // 2 births.
206 EXPECT_EQ(1u, deaths.size()); // 1 location.
207 EXPECT_EQ(1, deaths.begin()->second.death_data.count); // 1 death.
209 // The births were at the same location as the one known death.
210 EXPECT_EQ(birth_map.begin()->second, deaths.begin()->first);
212 ProcessDataSnapshot process_data;
213 ThreadData::Snapshot(0, &process_data);
215 ASSERT_EQ(1u, process_data.phased_snapshots.size());
216 auto it = process_data.phased_snapshots.find(0);
217 ASSERT_TRUE(it != process_data.phased_snapshots.end());
218 const ProcessDataPhaseSnapshot& process_data_phase = it->second;
219 ASSERT_EQ(1u, process_data_phase.tasks.size());
220 EXPECT_EQ(kFile, process_data_phase.tasks[0].birth.location.file_name);
221 EXPECT_EQ(kFunction,
222 process_data_phase.tasks[0].birth.location.function_name);
223 EXPECT_EQ(kLineNumber,
224 process_data_phase.tasks[0].birth.location.line_number);
225 EXPECT_EQ(kWorkerThreadName, process_data_phase.tasks[0].birth.thread_name);
226 EXPECT_EQ(1, process_data_phase.tasks[0].death_data.count);
227 EXPECT_EQ(time_elapsed,
228 process_data_phase.tasks[0].death_data.run_duration_sum);
229 EXPECT_EQ(time_elapsed,
230 process_data_phase.tasks[0].death_data.run_duration_max);
231 EXPECT_EQ(time_elapsed,
232 process_data_phase.tasks[0].death_data.run_duration_sample);
233 EXPECT_EQ(0, process_data_phase.tasks[0].death_data.queue_duration_sum);
234 EXPECT_EQ(0, process_data_phase.tasks[0].death_data.queue_duration_max);
235 EXPECT_EQ(0, process_data_phase.tasks[0].death_data.queue_duration_sample);
236 EXPECT_EQ(kWorkerThreadName, process_data_phase.tasks[0].death_thread_name);
239 TEST_F(TrackedObjectsTest, DeathDataTestRecordDeath) {
240 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
242 scoped_ptr<DeathData> data(new DeathData());
243 ASSERT_NE(data, reinterpret_cast<DeathData*>(NULL));
244 EXPECT_EQ(data->run_duration_sum(), 0);
245 EXPECT_EQ(data->run_duration_max(), 0);
246 EXPECT_EQ(data->run_duration_sample(), 0);
247 EXPECT_EQ(data->queue_duration_sum(), 0);
248 EXPECT_EQ(data->queue_duration_max(), 0);
249 EXPECT_EQ(data->queue_duration_sample(), 0);
250 EXPECT_EQ(data->count(), 0);
251 EXPECT_EQ(nullptr, data->last_phase_snapshot());
253 int32 run_ms = 42;
254 int32 queue_ms = 8;
256 const int kUnrandomInt = 0; // Fake random int that ensure we sample data.
257 data->RecordDeath(queue_ms, run_ms, kUnrandomInt);
258 EXPECT_EQ(data->run_duration_sum(), run_ms);
259 EXPECT_EQ(data->run_duration_max(), run_ms);
260 EXPECT_EQ(data->run_duration_sample(), run_ms);
261 EXPECT_EQ(data->queue_duration_sum(), queue_ms);
262 EXPECT_EQ(data->queue_duration_max(), queue_ms);
263 EXPECT_EQ(data->queue_duration_sample(), queue_ms);
264 EXPECT_EQ(data->count(), 1);
265 EXPECT_EQ(nullptr, data->last_phase_snapshot());
267 data->RecordDeath(queue_ms, run_ms, kUnrandomInt);
268 EXPECT_EQ(data->run_duration_sum(), run_ms + run_ms);
269 EXPECT_EQ(data->run_duration_max(), run_ms);
270 EXPECT_EQ(data->run_duration_sample(), run_ms);
271 EXPECT_EQ(data->queue_duration_sum(), queue_ms + queue_ms);
272 EXPECT_EQ(data->queue_duration_max(), queue_ms);
273 EXPECT_EQ(data->queue_duration_sample(), queue_ms);
274 EXPECT_EQ(data->count(), 2);
275 EXPECT_EQ(nullptr, data->last_phase_snapshot());
278 TEST_F(TrackedObjectsTest, DeathDataTest2Phases) {
279 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
281 scoped_ptr<DeathData> data(new DeathData());
282 ASSERT_NE(data, reinterpret_cast<DeathData*>(NULL));
284 int32 run_ms = 42;
285 int32 queue_ms = 8;
287 const int kUnrandomInt = 0; // Fake random int that ensure we sample data.
288 data->RecordDeath(queue_ms, run_ms, kUnrandomInt);
289 data->RecordDeath(queue_ms, run_ms, kUnrandomInt);
291 data->OnProfilingPhaseCompleted(123);
292 EXPECT_EQ(data->run_duration_sum(), run_ms + run_ms);
293 EXPECT_EQ(data->run_duration_max(), 0);
294 EXPECT_EQ(data->run_duration_sample(), run_ms);
295 EXPECT_EQ(data->queue_duration_sum(), queue_ms + queue_ms);
296 EXPECT_EQ(data->queue_duration_max(), 0);
297 EXPECT_EQ(data->queue_duration_sample(), queue_ms);
298 EXPECT_EQ(data->count(), 2);
299 ASSERT_NE(nullptr, data->last_phase_snapshot());
300 EXPECT_EQ(123, data->last_phase_snapshot()->profiling_phase);
301 EXPECT_EQ(2, data->last_phase_snapshot()->death_data.count);
302 EXPECT_EQ(2 * run_ms,
303 data->last_phase_snapshot()->death_data.run_duration_sum);
304 EXPECT_EQ(run_ms, data->last_phase_snapshot()->death_data.run_duration_max);
305 EXPECT_EQ(run_ms,
306 data->last_phase_snapshot()->death_data.run_duration_sample);
307 EXPECT_EQ(2 * queue_ms,
308 data->last_phase_snapshot()->death_data.queue_duration_sum);
309 EXPECT_EQ(queue_ms,
310 data->last_phase_snapshot()->death_data.queue_duration_max);
311 EXPECT_EQ(queue_ms,
312 data->last_phase_snapshot()->death_data.queue_duration_sample);
313 EXPECT_EQ(nullptr, data->last_phase_snapshot()->prev);
315 int32 run_ms1 = 21;
316 int32 queue_ms1 = 4;
318 data->RecordDeath(queue_ms1, run_ms1, kUnrandomInt);
319 EXPECT_EQ(data->run_duration_sum(), run_ms + run_ms + run_ms1);
320 EXPECT_EQ(data->run_duration_max(), run_ms1);
321 EXPECT_EQ(data->run_duration_sample(), run_ms1);
322 EXPECT_EQ(data->queue_duration_sum(), queue_ms + queue_ms + queue_ms1);
323 EXPECT_EQ(data->queue_duration_max(), queue_ms1);
324 EXPECT_EQ(data->queue_duration_sample(), queue_ms1);
325 EXPECT_EQ(data->count(), 3);
326 ASSERT_NE(nullptr, data->last_phase_snapshot());
327 EXPECT_EQ(123, data->last_phase_snapshot()->profiling_phase);
328 EXPECT_EQ(2, data->last_phase_snapshot()->death_data.count);
329 EXPECT_EQ(2 * run_ms,
330 data->last_phase_snapshot()->death_data.run_duration_sum);
331 EXPECT_EQ(run_ms, data->last_phase_snapshot()->death_data.run_duration_max);
332 EXPECT_EQ(run_ms,
333 data->last_phase_snapshot()->death_data.run_duration_sample);
334 EXPECT_EQ(2 * queue_ms,
335 data->last_phase_snapshot()->death_data.queue_duration_sum);
336 EXPECT_EQ(queue_ms,
337 data->last_phase_snapshot()->death_data.queue_duration_max);
338 EXPECT_EQ(queue_ms,
339 data->last_phase_snapshot()->death_data.queue_duration_sample);
340 EXPECT_EQ(nullptr, data->last_phase_snapshot()->prev);
343 TEST_F(TrackedObjectsTest, Delta) {
344 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
346 DeathDataSnapshot snapshot;
347 snapshot.count = 10;
348 snapshot.run_duration_sum = 100;
349 snapshot.run_duration_max = 50;
350 snapshot.run_duration_sample = 25;
351 snapshot.queue_duration_sum = 200;
352 snapshot.queue_duration_max = 101;
353 snapshot.queue_duration_sample = 26;
355 DeathDataSnapshot older_snapshot;
356 older_snapshot.count = 2;
357 older_snapshot.run_duration_sum = 95;
358 older_snapshot.run_duration_max = 48;
359 older_snapshot.run_duration_sample = 22;
360 older_snapshot.queue_duration_sum = 190;
361 older_snapshot.queue_duration_max = 99;
362 older_snapshot.queue_duration_sample = 21;
364 const DeathDataSnapshot& delta = snapshot.Delta(older_snapshot);
365 EXPECT_EQ(8, delta.count);
366 EXPECT_EQ(5, delta.run_duration_sum);
367 EXPECT_EQ(50, delta.run_duration_max);
368 EXPECT_EQ(25, delta.run_duration_sample);
369 EXPECT_EQ(10, delta.queue_duration_sum);
370 EXPECT_EQ(101, delta.queue_duration_max);
371 EXPECT_EQ(26, delta.queue_duration_sample);
374 TEST_F(TrackedObjectsTest, DeactivatedBirthOnlyToSnapshotWorkerThread) {
375 // Start in the deactivated state.
376 ThreadData::InitializeAndSetTrackingStatus(ThreadData::DEACTIVATED);
378 const char kFunction[] = "DeactivatedBirthOnlyToSnapshotWorkerThread";
379 Location location(kFunction, kFile, kLineNumber, NULL);
380 TallyABirth(location, std::string());
382 ProcessDataSnapshot process_data;
383 ThreadData::Snapshot(0, &process_data);
385 ASSERT_EQ(1u, process_data.phased_snapshots.size());
387 auto it = process_data.phased_snapshots.find(0);
388 ASSERT_TRUE(it != process_data.phased_snapshots.end());
389 const ProcessDataPhaseSnapshot& process_data_phase = it->second;
391 ASSERT_EQ(0u, process_data_phase.tasks.size());
393 EXPECT_EQ(base::GetCurrentProcId(), process_data.process_id);
396 TEST_F(TrackedObjectsTest, DeactivatedBirthOnlyToSnapshotMainThread) {
397 // Start in the deactivated state.
398 ThreadData::InitializeAndSetTrackingStatus(ThreadData::DEACTIVATED);
400 const char kFunction[] = "DeactivatedBirthOnlyToSnapshotMainThread";
401 Location location(kFunction, kFile, kLineNumber, NULL);
402 TallyABirth(location, kMainThreadName);
404 ProcessDataSnapshot process_data;
405 ThreadData::Snapshot(0, &process_data);
407 ASSERT_EQ(1u, process_data.phased_snapshots.size());
409 auto it = process_data.phased_snapshots.find(0);
410 ASSERT_TRUE(it != process_data.phased_snapshots.end());
411 const ProcessDataPhaseSnapshot& process_data_phase = it->second;
413 ASSERT_EQ(0u, process_data_phase.tasks.size());
415 EXPECT_EQ(base::GetCurrentProcId(), process_data.process_id);
418 TEST_F(TrackedObjectsTest, BirthOnlyToSnapshotWorkerThread) {
419 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
421 const char kFunction[] = "BirthOnlyToSnapshotWorkerThread";
422 Location location(kFunction, kFile, kLineNumber, NULL);
423 TallyABirth(location, std::string());
425 ProcessDataSnapshot process_data;
426 ThreadData::Snapshot(0, &process_data);
427 ExpectSimpleProcessData(process_data, kFunction, kWorkerThreadName,
428 kStillAlive, 1, 0, 0);
431 TEST_F(TrackedObjectsTest, BirthOnlyToSnapshotMainThread) {
432 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
434 const char kFunction[] = "BirthOnlyToSnapshotMainThread";
435 Location location(kFunction, kFile, kLineNumber, NULL);
436 TallyABirth(location, kMainThreadName);
438 ProcessDataSnapshot process_data;
439 ThreadData::Snapshot(0, &process_data);
440 ExpectSimpleProcessData(process_data, kFunction, kMainThreadName, kStillAlive,
441 1, 0, 0);
444 TEST_F(TrackedObjectsTest, LifeCycleToSnapshotMainThread) {
445 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
447 const char kFunction[] = "LifeCycleToSnapshotMainThread";
448 Location location(kFunction, kFile, kLineNumber, NULL);
449 TallyABirth(location, kMainThreadName);
451 const TrackedTime kTimePosted = TrackedTime::FromMilliseconds(1);
452 const base::TimeTicks kDelayedStartTime = base::TimeTicks();
453 // TrackingInfo will call TallyABirth() during construction.
454 base::TrackingInfo pending_task(location, kDelayedStartTime);
455 pending_task.time_posted = kTimePosted; // Overwrite implied Now().
457 const unsigned int kStartOfRun = 5;
458 const unsigned int kEndOfRun = 7;
459 SetTestTime(kStartOfRun);
460 TaskStopwatch stopwatch;
461 stopwatch.Start();
462 SetTestTime(kEndOfRun);
463 stopwatch.Stop();
465 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, stopwatch);
467 ProcessDataSnapshot process_data;
468 ThreadData::Snapshot(0, &process_data);
469 ExpectSimpleProcessData(process_data, kFunction, kMainThreadName,
470 kMainThreadName, 1, 2, 4);
473 TEST_F(TrackedObjectsTest, TwoPhases) {
474 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
476 const char kFunction[] = "TwoPhases";
477 Location location(kFunction, kFile, kLineNumber, NULL);
478 TallyABirth(location, kMainThreadName);
480 const TrackedTime kTimePosted = TrackedTime::FromMilliseconds(1);
481 const base::TimeTicks kDelayedStartTime = base::TimeTicks();
482 // TrackingInfo will call TallyABirth() during construction.
483 base::TrackingInfo pending_task(location, kDelayedStartTime);
484 pending_task.time_posted = kTimePosted; // Overwrite implied Now().
486 const unsigned int kStartOfRun = 5;
487 const unsigned int kEndOfRun = 7;
488 SetTestTime(kStartOfRun);
489 TaskStopwatch stopwatch;
490 stopwatch.Start();
491 SetTestTime(kEndOfRun);
492 stopwatch.Stop();
494 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, stopwatch);
496 ThreadData::OnProfilingPhaseCompleted(0);
498 TallyABirth(location, kMainThreadName);
500 const TrackedTime kTimePosted1 = TrackedTime::FromMilliseconds(9);
501 const base::TimeTicks kDelayedStartTime1 = base::TimeTicks();
502 // TrackingInfo will call TallyABirth() during construction.
503 base::TrackingInfo pending_task1(location, kDelayedStartTime1);
504 pending_task1.time_posted = kTimePosted1; // Overwrite implied Now().
506 const unsigned int kStartOfRun1 = 11;
507 const unsigned int kEndOfRun1 = 21;
508 SetTestTime(kStartOfRun1);
509 TaskStopwatch stopwatch1;
510 stopwatch1.Start();
511 SetTestTime(kEndOfRun1);
512 stopwatch1.Stop();
514 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task1, stopwatch1);
516 ProcessDataSnapshot process_data;
517 ThreadData::Snapshot(1, &process_data);
519 ASSERT_EQ(2u, process_data.phased_snapshots.size());
521 auto it0 = process_data.phased_snapshots.find(0);
522 ASSERT_TRUE(it0 != process_data.phased_snapshots.end());
523 const ProcessDataPhaseSnapshot& process_data_phase0 = it0->second;
525 ASSERT_EQ(1u, process_data_phase0.tasks.size());
527 EXPECT_EQ(kFile, process_data_phase0.tasks[0].birth.location.file_name);
528 EXPECT_EQ(kFunction,
529 process_data_phase0.tasks[0].birth.location.function_name);
530 EXPECT_EQ(kLineNumber,
531 process_data_phase0.tasks[0].birth.location.line_number);
533 EXPECT_EQ(kMainThreadName, process_data_phase0.tasks[0].birth.thread_name);
535 EXPECT_EQ(1, process_data_phase0.tasks[0].death_data.count);
536 EXPECT_EQ(2, process_data_phase0.tasks[0].death_data.run_duration_sum);
537 EXPECT_EQ(2, process_data_phase0.tasks[0].death_data.run_duration_max);
538 EXPECT_EQ(2, process_data_phase0.tasks[0].death_data.run_duration_sample);
539 EXPECT_EQ(4, process_data_phase0.tasks[0].death_data.queue_duration_sum);
540 EXPECT_EQ(4, process_data_phase0.tasks[0].death_data.queue_duration_max);
541 EXPECT_EQ(4, process_data_phase0.tasks[0].death_data.queue_duration_sample);
543 EXPECT_EQ(kMainThreadName, process_data_phase0.tasks[0].death_thread_name);
545 auto it1 = process_data.phased_snapshots.find(1);
546 ASSERT_TRUE(it1 != process_data.phased_snapshots.end());
547 const ProcessDataPhaseSnapshot& process_data_phase1 = it1->second;
549 ASSERT_EQ(1u, process_data_phase1.tasks.size());
551 EXPECT_EQ(kFile, process_data_phase1.tasks[0].birth.location.file_name);
552 EXPECT_EQ(kFunction,
553 process_data_phase1.tasks[0].birth.location.function_name);
554 EXPECT_EQ(kLineNumber,
555 process_data_phase1.tasks[0].birth.location.line_number);
557 EXPECT_EQ(kMainThreadName, process_data_phase1.tasks[0].birth.thread_name);
559 EXPECT_EQ(1, process_data_phase1.tasks[0].death_data.count);
560 EXPECT_EQ(10, process_data_phase1.tasks[0].death_data.run_duration_sum);
561 EXPECT_EQ(10, process_data_phase1.tasks[0].death_data.run_duration_max);
562 EXPECT_EQ(10, process_data_phase1.tasks[0].death_data.run_duration_sample);
563 EXPECT_EQ(2, process_data_phase1.tasks[0].death_data.queue_duration_sum);
564 EXPECT_EQ(2, process_data_phase1.tasks[0].death_data.queue_duration_max);
565 EXPECT_EQ(2, process_data_phase1.tasks[0].death_data.queue_duration_sample);
567 EXPECT_EQ(kMainThreadName, process_data_phase1.tasks[0].death_thread_name);
569 EXPECT_EQ(base::GetCurrentProcId(), process_data.process_id);
572 TEST_F(TrackedObjectsTest, ThreePhases) {
573 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
575 const char kFunction[] = "ThreePhases";
576 Location location(kFunction, kFile, kLineNumber, NULL);
578 // Phase 0
580 TallyABirth(location, kMainThreadName);
582 // TrackingInfo will call TallyABirth() during construction.
583 SetTestTime(10);
584 base::TrackingInfo pending_task(location, base::TimeTicks());
586 SetTestTime(17);
587 TaskStopwatch stopwatch;
588 stopwatch.Start();
589 SetTestTime(23);
590 stopwatch.Stop();
592 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, stopwatch);
595 ThreadData::OnProfilingPhaseCompleted(0);
597 // Phase 1
599 TallyABirth(location, kMainThreadName);
601 SetTestTime(30);
602 base::TrackingInfo pending_task(location, base::TimeTicks());
604 SetTestTime(35);
605 TaskStopwatch stopwatch;
606 stopwatch.Start();
607 SetTestTime(39);
608 stopwatch.Stop();
610 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, stopwatch);
613 ThreadData::OnProfilingPhaseCompleted(1);
615 // Phase 2
617 TallyABirth(location, kMainThreadName);
619 // TrackingInfo will call TallyABirth() during construction.
620 SetTestTime(40);
621 base::TrackingInfo pending_task(location, base::TimeTicks());
623 SetTestTime(43);
624 TaskStopwatch stopwatch;
625 stopwatch.Start();
626 SetTestTime(45);
627 stopwatch.Stop();
629 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, stopwatch);
632 // Snapshot and check results.
633 ProcessDataSnapshot process_data;
634 ThreadData::Snapshot(2, &process_data);
636 ASSERT_EQ(3u, process_data.phased_snapshots.size());
638 auto it0 = process_data.phased_snapshots.find(0);
639 ASSERT_TRUE(it0 != process_data.phased_snapshots.end());
640 const ProcessDataPhaseSnapshot& process_data_phase0 = it0->second;
642 ASSERT_EQ(1u, process_data_phase0.tasks.size());
644 EXPECT_EQ(kFile, process_data_phase0.tasks[0].birth.location.file_name);
645 EXPECT_EQ(kFunction,
646 process_data_phase0.tasks[0].birth.location.function_name);
647 EXPECT_EQ(kLineNumber,
648 process_data_phase0.tasks[0].birth.location.line_number);
650 EXPECT_EQ(kMainThreadName, process_data_phase0.tasks[0].birth.thread_name);
652 EXPECT_EQ(1, process_data_phase0.tasks[0].death_data.count);
653 EXPECT_EQ(6, process_data_phase0.tasks[0].death_data.run_duration_sum);
654 EXPECT_EQ(6, process_data_phase0.tasks[0].death_data.run_duration_max);
655 EXPECT_EQ(6, process_data_phase0.tasks[0].death_data.run_duration_sample);
656 EXPECT_EQ(7, process_data_phase0.tasks[0].death_data.queue_duration_sum);
657 EXPECT_EQ(7, process_data_phase0.tasks[0].death_data.queue_duration_max);
658 EXPECT_EQ(7, process_data_phase0.tasks[0].death_data.queue_duration_sample);
660 EXPECT_EQ(kMainThreadName, process_data_phase0.tasks[0].death_thread_name);
662 auto it1 = process_data.phased_snapshots.find(1);
663 ASSERT_TRUE(it1 != process_data.phased_snapshots.end());
664 const ProcessDataPhaseSnapshot& process_data_phase1 = it1->second;
666 ASSERT_EQ(1u, process_data_phase1.tasks.size());
668 EXPECT_EQ(kFile, process_data_phase1.tasks[0].birth.location.file_name);
669 EXPECT_EQ(kFunction,
670 process_data_phase1.tasks[0].birth.location.function_name);
671 EXPECT_EQ(kLineNumber,
672 process_data_phase1.tasks[0].birth.location.line_number);
674 EXPECT_EQ(kMainThreadName, process_data_phase1.tasks[0].birth.thread_name);
676 EXPECT_EQ(1, process_data_phase1.tasks[0].death_data.count);
677 EXPECT_EQ(4, process_data_phase1.tasks[0].death_data.run_duration_sum);
678 EXPECT_EQ(4, process_data_phase1.tasks[0].death_data.run_duration_max);
679 EXPECT_EQ(4, process_data_phase1.tasks[0].death_data.run_duration_sample);
680 EXPECT_EQ(5, process_data_phase1.tasks[0].death_data.queue_duration_sum);
681 EXPECT_EQ(5, process_data_phase1.tasks[0].death_data.queue_duration_max);
682 EXPECT_EQ(5, process_data_phase1.tasks[0].death_data.queue_duration_sample);
684 EXPECT_EQ(kMainThreadName, process_data_phase1.tasks[0].death_thread_name);
686 auto it2 = process_data.phased_snapshots.find(2);
687 ASSERT_TRUE(it2 != process_data.phased_snapshots.end());
688 const ProcessDataPhaseSnapshot& process_data_phase2 = it2->second;
690 ASSERT_EQ(1u, process_data_phase2.tasks.size());
692 EXPECT_EQ(kFile, process_data_phase2.tasks[0].birth.location.file_name);
693 EXPECT_EQ(kFunction,
694 process_data_phase2.tasks[0].birth.location.function_name);
695 EXPECT_EQ(kLineNumber,
696 process_data_phase2.tasks[0].birth.location.line_number);
698 EXPECT_EQ(kMainThreadName, process_data_phase2.tasks[0].birth.thread_name);
700 EXPECT_EQ(1, process_data_phase2.tasks[0].death_data.count);
701 EXPECT_EQ(2, process_data_phase2.tasks[0].death_data.run_duration_sum);
702 EXPECT_EQ(2, process_data_phase2.tasks[0].death_data.run_duration_max);
703 EXPECT_EQ(2, process_data_phase2.tasks[0].death_data.run_duration_sample);
704 EXPECT_EQ(3, process_data_phase2.tasks[0].death_data.queue_duration_sum);
705 EXPECT_EQ(3, process_data_phase2.tasks[0].death_data.queue_duration_max);
706 EXPECT_EQ(3, process_data_phase2.tasks[0].death_data.queue_duration_sample);
708 EXPECT_EQ(kMainThreadName, process_data_phase2.tasks[0].death_thread_name);
710 EXPECT_EQ(base::GetCurrentProcId(), process_data.process_id);
713 TEST_F(TrackedObjectsTest, TwoPhasesSecondEmpty) {
714 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
716 const char kFunction[] = "TwoPhasesSecondEmpty";
717 Location location(kFunction, kFile, kLineNumber, NULL);
718 ThreadData::InitializeThreadContext(kMainThreadName);
720 const TrackedTime kTimePosted = TrackedTime::FromMilliseconds(1);
721 const base::TimeTicks kDelayedStartTime = base::TimeTicks();
722 // TrackingInfo will call TallyABirth() during construction.
723 base::TrackingInfo pending_task(location, kDelayedStartTime);
724 pending_task.time_posted = kTimePosted; // Overwrite implied Now().
726 const unsigned int kStartOfRun = 5;
727 const unsigned int kEndOfRun = 7;
728 SetTestTime(kStartOfRun);
729 TaskStopwatch stopwatch;
730 stopwatch.Start();
731 SetTestTime(kEndOfRun);
732 stopwatch.Stop();
734 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, stopwatch);
736 ThreadData::OnProfilingPhaseCompleted(0);
738 ProcessDataSnapshot process_data;
739 ThreadData::Snapshot(1, &process_data);
741 ASSERT_EQ(2u, process_data.phased_snapshots.size());
743 auto it0 = process_data.phased_snapshots.find(0);
744 ASSERT_TRUE(it0 != process_data.phased_snapshots.end());
745 const ProcessDataPhaseSnapshot& process_data_phase0 = it0->second;
747 ASSERT_EQ(1u, process_data_phase0.tasks.size());
749 EXPECT_EQ(kFile, process_data_phase0.tasks[0].birth.location.file_name);
750 EXPECT_EQ(kFunction,
751 process_data_phase0.tasks[0].birth.location.function_name);
752 EXPECT_EQ(kLineNumber,
753 process_data_phase0.tasks[0].birth.location.line_number);
755 EXPECT_EQ(kMainThreadName, process_data_phase0.tasks[0].birth.thread_name);
757 EXPECT_EQ(1, process_data_phase0.tasks[0].death_data.count);
758 EXPECT_EQ(2, process_data_phase0.tasks[0].death_data.run_duration_sum);
759 EXPECT_EQ(2, process_data_phase0.tasks[0].death_data.run_duration_max);
760 EXPECT_EQ(2, process_data_phase0.tasks[0].death_data.run_duration_sample);
761 EXPECT_EQ(4, process_data_phase0.tasks[0].death_data.queue_duration_sum);
762 EXPECT_EQ(4, process_data_phase0.tasks[0].death_data.queue_duration_max);
763 EXPECT_EQ(4, process_data_phase0.tasks[0].death_data.queue_duration_sample);
765 EXPECT_EQ(kMainThreadName, process_data_phase0.tasks[0].death_thread_name);
767 auto it1 = process_data.phased_snapshots.find(1);
768 ASSERT_TRUE(it1 != process_data.phased_snapshots.end());
769 const ProcessDataPhaseSnapshot& process_data_phase1 = it1->second;
771 ASSERT_EQ(0u, process_data_phase1.tasks.size());
773 EXPECT_EQ(base::GetCurrentProcId(), process_data.process_id);
776 TEST_F(TrackedObjectsTest, TwoPhasesFirstEmpty) {
777 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
779 ThreadData::OnProfilingPhaseCompleted(0);
781 const char kFunction[] = "TwoPhasesSecondEmpty";
782 Location location(kFunction, kFile, kLineNumber, NULL);
783 ThreadData::InitializeThreadContext(kMainThreadName);
785 const TrackedTime kTimePosted = TrackedTime::FromMilliseconds(1);
786 const base::TimeTicks kDelayedStartTime = base::TimeTicks();
787 // TrackingInfo will call TallyABirth() during construction.
788 base::TrackingInfo pending_task(location, kDelayedStartTime);
789 pending_task.time_posted = kTimePosted; // Overwrite implied Now().
791 const unsigned int kStartOfRun = 5;
792 const unsigned int kEndOfRun = 7;
793 SetTestTime(kStartOfRun);
794 TaskStopwatch stopwatch;
795 stopwatch.Start();
796 SetTestTime(kEndOfRun);
797 stopwatch.Stop();
799 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, stopwatch);
801 ProcessDataSnapshot process_data;
802 ThreadData::Snapshot(1, &process_data);
804 ASSERT_EQ(1u, process_data.phased_snapshots.size());
806 auto it1 = process_data.phased_snapshots.find(1);
807 ASSERT_TRUE(it1 != process_data.phased_snapshots.end());
808 const ProcessDataPhaseSnapshot& process_data_phase1 = it1->second;
810 ASSERT_EQ(1u, process_data_phase1.tasks.size());
812 EXPECT_EQ(kFile, process_data_phase1.tasks[0].birth.location.file_name);
813 EXPECT_EQ(kFunction,
814 process_data_phase1.tasks[0].birth.location.function_name);
815 EXPECT_EQ(kLineNumber,
816 process_data_phase1.tasks[0].birth.location.line_number);
818 EXPECT_EQ(kMainThreadName, process_data_phase1.tasks[0].birth.thread_name);
820 EXPECT_EQ(1, process_data_phase1.tasks[0].death_data.count);
821 EXPECT_EQ(2, process_data_phase1.tasks[0].death_data.run_duration_sum);
822 EXPECT_EQ(2, process_data_phase1.tasks[0].death_data.run_duration_max);
823 EXPECT_EQ(2, process_data_phase1.tasks[0].death_data.run_duration_sample);
824 EXPECT_EQ(4, process_data_phase1.tasks[0].death_data.queue_duration_sum);
825 EXPECT_EQ(4, process_data_phase1.tasks[0].death_data.queue_duration_max);
826 EXPECT_EQ(4, process_data_phase1.tasks[0].death_data.queue_duration_sample);
828 EXPECT_EQ(kMainThreadName, process_data_phase1.tasks[0].death_thread_name);
830 EXPECT_EQ(base::GetCurrentProcId(), process_data.process_id);
833 // We will deactivate tracking after the birth, and before the death, and
834 // demonstrate that the lifecycle is completely tallied. This ensures that
835 // our tallied births are matched by tallied deaths (except for when the
836 // task is still running, or is queued).
837 TEST_F(TrackedObjectsTest, LifeCycleMidDeactivatedToSnapshotMainThread) {
838 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
840 const char kFunction[] = "LifeCycleMidDeactivatedToSnapshotMainThread";
841 Location location(kFunction, kFile, kLineNumber, NULL);
842 TallyABirth(location, kMainThreadName);
844 const TrackedTime kTimePosted = TrackedTime::FromMilliseconds(1);
845 const base::TimeTicks kDelayedStartTime = base::TimeTicks();
846 // TrackingInfo will call TallyABirth() during construction.
847 base::TrackingInfo pending_task(location, kDelayedStartTime);
848 pending_task.time_posted = kTimePosted; // Overwrite implied Now().
850 // Turn off tracking now that we have births.
851 ThreadData::InitializeAndSetTrackingStatus(ThreadData::DEACTIVATED);
853 const unsigned int kStartOfRun = 5;
854 const unsigned int kEndOfRun = 7;
855 SetTestTime(kStartOfRun);
856 TaskStopwatch stopwatch;
857 stopwatch.Start();
858 SetTestTime(kEndOfRun);
859 stopwatch.Stop();
861 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, stopwatch);
863 ProcessDataSnapshot process_data;
864 ThreadData::Snapshot(0, &process_data);
865 ExpectSimpleProcessData(process_data, kFunction, kMainThreadName,
866 kMainThreadName, 1, 2, 4);
869 // We will deactivate tracking before starting a life cycle, and neither
870 // the birth nor the death will be recorded.
871 TEST_F(TrackedObjectsTest, LifeCyclePreDeactivatedToSnapshotMainThread) {
872 // Start in the deactivated state.
873 ThreadData::InitializeAndSetTrackingStatus(ThreadData::DEACTIVATED);
875 const char kFunction[] = "LifeCyclePreDeactivatedToSnapshotMainThread";
876 Location location(kFunction, kFile, kLineNumber, NULL);
877 TallyABirth(location, kMainThreadName);
879 const TrackedTime kTimePosted = TrackedTime::FromMilliseconds(1);
880 const base::TimeTicks kDelayedStartTime = base::TimeTicks();
881 // TrackingInfo will call TallyABirth() during construction.
882 base::TrackingInfo pending_task(location, kDelayedStartTime);
883 pending_task.time_posted = kTimePosted; // Overwrite implied Now().
885 const unsigned int kStartOfRun = 5;
886 const unsigned int kEndOfRun = 7;
887 SetTestTime(kStartOfRun);
888 TaskStopwatch stopwatch;
889 stopwatch.Start();
890 SetTestTime(kEndOfRun);
891 stopwatch.Stop();
893 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, stopwatch);
895 ProcessDataSnapshot process_data;
896 ThreadData::Snapshot(0, &process_data);
898 ASSERT_EQ(1u, process_data.phased_snapshots.size());
900 auto it = process_data.phased_snapshots.find(0);
901 ASSERT_TRUE(it != process_data.phased_snapshots.end());
902 const ProcessDataPhaseSnapshot& process_data_phase = it->second;
904 ASSERT_EQ(0u, process_data_phase.tasks.size());
906 EXPECT_EQ(base::GetCurrentProcId(), process_data.process_id);
909 TEST_F(TrackedObjectsTest, TwoLives) {
910 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
912 const char kFunction[] = "TwoLives";
913 Location location(kFunction, kFile, kLineNumber, NULL);
914 TallyABirth(location, kMainThreadName);
916 const TrackedTime kTimePosted = TrackedTime::FromMilliseconds(1);
917 const base::TimeTicks kDelayedStartTime = base::TimeTicks();
918 // TrackingInfo will call TallyABirth() during construction.
919 base::TrackingInfo pending_task(location, kDelayedStartTime);
920 pending_task.time_posted = kTimePosted; // Overwrite implied Now().
922 const unsigned int kStartOfRun = 5;
923 const unsigned int kEndOfRun = 7;
924 SetTestTime(kStartOfRun);
925 TaskStopwatch stopwatch;
926 stopwatch.Start();
927 SetTestTime(kEndOfRun);
928 stopwatch.Stop();
930 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, stopwatch);
932 // TrackingInfo will call TallyABirth() during construction.
933 base::TrackingInfo pending_task2(location, kDelayedStartTime);
934 pending_task2.time_posted = kTimePosted; // Overwrite implied Now().
935 SetTestTime(kStartOfRun);
936 TaskStopwatch stopwatch2;
937 stopwatch2.Start();
938 SetTestTime(kEndOfRun);
939 stopwatch2.Stop();
941 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task2, stopwatch2);
943 ProcessDataSnapshot process_data;
944 ThreadData::Snapshot(0, &process_data);
945 ExpectSimpleProcessData(process_data, kFunction, kMainThreadName,
946 kMainThreadName, 2, 2, 4);
949 TEST_F(TrackedObjectsTest, DifferentLives) {
950 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
952 // Use a well named thread.
953 ThreadData::InitializeThreadContext(kMainThreadName);
954 const char kFunction[] = "DifferentLives";
955 Location location(kFunction, kFile, kLineNumber, NULL);
957 const TrackedTime kTimePosted = TrackedTime::FromMilliseconds(1);
958 const base::TimeTicks kDelayedStartTime = base::TimeTicks();
959 // TrackingInfo will call TallyABirth() during construction.
960 base::TrackingInfo pending_task(location, kDelayedStartTime);
961 pending_task.time_posted = kTimePosted; // Overwrite implied Now().
963 const unsigned int kStartOfRun = 5;
964 const unsigned int kEndOfRun = 7;
965 SetTestTime(kStartOfRun);
966 TaskStopwatch stopwatch;
967 stopwatch.Start();
968 SetTestTime(kEndOfRun);
969 stopwatch.Stop();
971 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, stopwatch);
973 const int kSecondFakeLineNumber = 999;
974 Location second_location(kFunction, kFile, kSecondFakeLineNumber, NULL);
976 // TrackingInfo will call TallyABirth() during construction.
977 base::TrackingInfo pending_task2(second_location, kDelayedStartTime);
978 pending_task2.time_posted = kTimePosted; // Overwrite implied Now().
980 ProcessDataSnapshot process_data;
981 ThreadData::Snapshot(0, &process_data);
983 ASSERT_EQ(1u, process_data.phased_snapshots.size());
984 auto it = process_data.phased_snapshots.find(0);
985 ASSERT_TRUE(it != process_data.phased_snapshots.end());
986 const ProcessDataPhaseSnapshot& process_data_phase = it->second;
988 ASSERT_EQ(2u, process_data_phase.tasks.size());
990 EXPECT_EQ(kFile, process_data_phase.tasks[0].birth.location.file_name);
991 EXPECT_EQ(kFunction,
992 process_data_phase.tasks[0].birth.location.function_name);
993 EXPECT_EQ(kLineNumber,
994 process_data_phase.tasks[0].birth.location.line_number);
995 EXPECT_EQ(kMainThreadName, process_data_phase.tasks[0].birth.thread_name);
996 EXPECT_EQ(1, process_data_phase.tasks[0].death_data.count);
997 EXPECT_EQ(2, process_data_phase.tasks[0].death_data.run_duration_sum);
998 EXPECT_EQ(2, process_data_phase.tasks[0].death_data.run_duration_max);
999 EXPECT_EQ(2, process_data_phase.tasks[0].death_data.run_duration_sample);
1000 EXPECT_EQ(4, process_data_phase.tasks[0].death_data.queue_duration_sum);
1001 EXPECT_EQ(4, process_data_phase.tasks[0].death_data.queue_duration_max);
1002 EXPECT_EQ(4, process_data_phase.tasks[0].death_data.queue_duration_sample);
1003 EXPECT_EQ(kMainThreadName, process_data_phase.tasks[0].death_thread_name);
1004 EXPECT_EQ(kFile, process_data_phase.tasks[1].birth.location.file_name);
1005 EXPECT_EQ(kFunction,
1006 process_data_phase.tasks[1].birth.location.function_name);
1007 EXPECT_EQ(kSecondFakeLineNumber,
1008 process_data_phase.tasks[1].birth.location.line_number);
1009 EXPECT_EQ(kMainThreadName, process_data_phase.tasks[1].birth.thread_name);
1010 EXPECT_EQ(1, process_data_phase.tasks[1].death_data.count);
1011 EXPECT_EQ(0, process_data_phase.tasks[1].death_data.run_duration_sum);
1012 EXPECT_EQ(0, process_data_phase.tasks[1].death_data.run_duration_max);
1013 EXPECT_EQ(0, process_data_phase.tasks[1].death_data.run_duration_sample);
1014 EXPECT_EQ(0, process_data_phase.tasks[1].death_data.queue_duration_sum);
1015 EXPECT_EQ(0, process_data_phase.tasks[1].death_data.queue_duration_max);
1016 EXPECT_EQ(0, process_data_phase.tasks[1].death_data.queue_duration_sample);
1017 EXPECT_EQ(kStillAlive, process_data_phase.tasks[1].death_thread_name);
1018 EXPECT_EQ(base::GetCurrentProcId(), process_data.process_id);
1021 TEST_F(TrackedObjectsTest, TaskWithNestedExclusion) {
1022 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
1024 const char kFunction[] = "TaskWithNestedExclusion";
1025 Location location(kFunction, kFile, kLineNumber, NULL);
1026 TallyABirth(location, kMainThreadName);
1028 const TrackedTime kTimePosted = TrackedTime::FromMilliseconds(1);
1029 const base::TimeTicks kDelayedStartTime = base::TimeTicks();
1030 // TrackingInfo will call TallyABirth() during construction.
1031 base::TrackingInfo pending_task(location, kDelayedStartTime);
1032 pending_task.time_posted = kTimePosted; // Overwrite implied Now().
1034 SetTestTime(5);
1035 TaskStopwatch task_stopwatch;
1036 task_stopwatch.Start();
1038 SetTestTime(8);
1039 TaskStopwatch exclusion_stopwatch;
1040 exclusion_stopwatch.Start();
1041 SetTestTime(12);
1042 exclusion_stopwatch.Stop();
1044 SetTestTime(15);
1045 task_stopwatch.Stop();
1047 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, task_stopwatch);
1049 ProcessDataSnapshot process_data;
1050 ThreadData::Snapshot(0, &process_data);
1051 ExpectSimpleProcessData(process_data, kFunction, kMainThreadName,
1052 kMainThreadName, 1, 6, 4);
1055 TEST_F(TrackedObjectsTest, TaskWith2NestedExclusions) {
1056 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
1058 const char kFunction[] = "TaskWith2NestedExclusions";
1059 Location location(kFunction, kFile, kLineNumber, NULL);
1060 TallyABirth(location, kMainThreadName);
1062 const TrackedTime kTimePosted = TrackedTime::FromMilliseconds(1);
1063 const base::TimeTicks kDelayedStartTime = base::TimeTicks();
1064 // TrackingInfo will call TallyABirth() during construction.
1065 base::TrackingInfo pending_task(location, kDelayedStartTime);
1066 pending_task.time_posted = kTimePosted; // Overwrite implied Now().
1068 SetTestTime(5);
1069 TaskStopwatch task_stopwatch;
1070 task_stopwatch.Start();
1072 SetTestTime(8);
1073 TaskStopwatch exclusion_stopwatch;
1074 exclusion_stopwatch.Start();
1075 SetTestTime(12);
1076 exclusion_stopwatch.Stop();
1078 SetTestTime(15);
1079 TaskStopwatch exclusion_stopwatch2;
1080 exclusion_stopwatch2.Start();
1081 SetTestTime(18);
1082 exclusion_stopwatch2.Stop();
1084 SetTestTime(25);
1085 task_stopwatch.Stop();
1087 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, task_stopwatch);
1089 ProcessDataSnapshot process_data;
1090 ThreadData::Snapshot(0, &process_data);
1091 ExpectSimpleProcessData(process_data, kFunction, kMainThreadName,
1092 kMainThreadName, 1, 13, 4);
1095 TEST_F(TrackedObjectsTest, TaskWithNestedExclusionWithNestedTask) {
1096 ThreadData::InitializeAndSetTrackingStatus(ThreadData::PROFILING_ACTIVE);
1098 const char kFunction[] = "TaskWithNestedExclusionWithNestedTask";
1099 Location location(kFunction, kFile, kLineNumber, NULL);
1101 const int kSecondFakeLineNumber = 999;
1103 TallyABirth(location, kMainThreadName);
1105 const TrackedTime kTimePosted = TrackedTime::FromMilliseconds(1);
1106 const base::TimeTicks kDelayedStartTime = base::TimeTicks();
1107 // TrackingInfo will call TallyABirth() during construction.
1108 base::TrackingInfo pending_task(location, kDelayedStartTime);
1109 pending_task.time_posted = kTimePosted; // Overwrite implied Now().
1111 SetTestTime(5);
1112 TaskStopwatch task_stopwatch;
1113 task_stopwatch.Start();
1115 SetTestTime(8);
1116 TaskStopwatch exclusion_stopwatch;
1117 exclusion_stopwatch.Start();
1119 Location second_location(kFunction, kFile, kSecondFakeLineNumber, NULL);
1120 base::TrackingInfo nested_task(second_location, kDelayedStartTime);
1121 // Overwrite implied Now().
1122 nested_task.time_posted = TrackedTime::FromMilliseconds(8);
1123 SetTestTime(9);
1124 TaskStopwatch nested_task_stopwatch;
1125 nested_task_stopwatch.Start();
1126 SetTestTime(11);
1127 nested_task_stopwatch.Stop();
1128 ThreadData::TallyRunOnNamedThreadIfTracking(
1129 nested_task, nested_task_stopwatch);
1131 SetTestTime(12);
1132 exclusion_stopwatch.Stop();
1134 SetTestTime(15);
1135 task_stopwatch.Stop();
1137 ThreadData::TallyRunOnNamedThreadIfTracking(pending_task, task_stopwatch);
1139 ProcessDataSnapshot process_data;
1140 ThreadData::Snapshot(0, &process_data);
1142 ASSERT_EQ(1u, process_data.phased_snapshots.size());
1143 auto it = process_data.phased_snapshots.find(0);
1144 ASSERT_TRUE(it != process_data.phased_snapshots.end());
1145 const ProcessDataPhaseSnapshot& process_data_phase = it->second;
1147 // The order in which the two task follow is platform-dependent.
1148 int t0 =
1149 (process_data_phase.tasks[0].birth.location.line_number == kLineNumber)
1151 : 1;
1152 int t1 = 1 - t0;
1154 ASSERT_EQ(2u, process_data_phase.tasks.size());
1155 EXPECT_EQ(kFile, process_data_phase.tasks[t0].birth.location.file_name);
1156 EXPECT_EQ(kFunction,
1157 process_data_phase.tasks[t0].birth.location.function_name);
1158 EXPECT_EQ(kLineNumber,
1159 process_data_phase.tasks[t0].birth.location.line_number);
1160 EXPECT_EQ(kMainThreadName, process_data_phase.tasks[t0].birth.thread_name);
1161 EXPECT_EQ(1, process_data_phase.tasks[t0].death_data.count);
1162 EXPECT_EQ(6, process_data_phase.tasks[t0].death_data.run_duration_sum);
1163 EXPECT_EQ(6, process_data_phase.tasks[t0].death_data.run_duration_max);
1164 EXPECT_EQ(6, process_data_phase.tasks[t0].death_data.run_duration_sample);
1165 EXPECT_EQ(4, process_data_phase.tasks[t0].death_data.queue_duration_sum);
1166 EXPECT_EQ(4, process_data_phase.tasks[t0].death_data.queue_duration_max);
1167 EXPECT_EQ(4, process_data_phase.tasks[t0].death_data.queue_duration_sample);
1168 EXPECT_EQ(kMainThreadName, process_data_phase.tasks[t0].death_thread_name);
1169 EXPECT_EQ(kFile, process_data_phase.tasks[t1].birth.location.file_name);
1170 EXPECT_EQ(kFunction,
1171 process_data_phase.tasks[t1].birth.location.function_name);
1172 EXPECT_EQ(kSecondFakeLineNumber,
1173 process_data_phase.tasks[t1].birth.location.line_number);
1174 EXPECT_EQ(kMainThreadName, process_data_phase.tasks[t1].birth.thread_name);
1175 EXPECT_EQ(1, process_data_phase.tasks[t1].death_data.count);
1176 EXPECT_EQ(2, process_data_phase.tasks[t1].death_data.run_duration_sum);
1177 EXPECT_EQ(2, process_data_phase.tasks[t1].death_data.run_duration_max);
1178 EXPECT_EQ(2, process_data_phase.tasks[t1].death_data.run_duration_sample);
1179 EXPECT_EQ(1, process_data_phase.tasks[t1].death_data.queue_duration_sum);
1180 EXPECT_EQ(1, process_data_phase.tasks[t1].death_data.queue_duration_max);
1181 EXPECT_EQ(1, process_data_phase.tasks[t1].death_data.queue_duration_sample);
1182 EXPECT_EQ(kMainThreadName, process_data_phase.tasks[t1].death_thread_name);
1183 EXPECT_EQ(base::GetCurrentProcId(), process_data.process_id);
1186 } // namespace tracked_objects