Add new certificateProvider extension API.
[chromium-blink-merge.git] / chrome / browser / metrics / thread_watcher_unittest.cc
blob43c6b5c6657d5ab1fb32ea63d2b0796c0ff3b346
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 #include <math.h>
7 #include "base/basictypes.h"
8 #include "base/bind.h"
9 #include "base/location.h"
10 #include "base/logging.h"
11 #include "base/memory/scoped_ptr.h"
12 #include "base/message_loop/message_loop.h"
13 #include "base/run_loop.h"
14 #include "base/single_thread_task_runner.h"
15 #include "base/strings/string_number_conversions.h"
16 #include "base/strings/string_split.h"
17 #include "base/strings/string_tokenizer.h"
18 #include "base/synchronization/condition_variable.h"
19 #include "base/synchronization/lock.h"
20 #include "base/synchronization/spin_wait.h"
21 #include "base/synchronization/waitable_event.h"
22 #include "base/threading/platform_thread.h"
23 #include "base/time/time.h"
24 #include "build/build_config.h"
25 #include "chrome/browser/metrics/thread_watcher.h"
26 #include "chrome/common/chrome_switches.h"
27 #include "content/public/test/test_browser_thread.h"
28 #include "testing/gtest/include/gtest/gtest.h"
29 #include "testing/platform_test.h"
31 using base::TimeDelta;
32 using base::TimeTicks;
33 using content::BrowserThread;
35 enum State {
36 INITIALIZED, // Created ThreadWatch object.
37 ACTIVATED, // Thread watching activated.
38 SENT_PING, // Sent ping message to watched thread.
39 RECEIVED_PONG, // Received Pong message.
40 DEACTIVATED, // Thread watching de-activated.
43 enum WaitState {
44 UNINITIALIZED,
45 STARTED_WAITING, // Start waiting for state_ to change to expected_state.
46 STOPPED_WAITING, // Done with the waiting.
47 ALL_DONE, // Done with waiting for STOPPED_WAITING.
50 enum CheckResponseState {
51 UNKNOWN,
52 SUCCESSFUL, // CheckResponse was successful.
53 FAILED, // CheckResponse has failed.
56 // This class helps to track and manipulate thread state during tests. This
57 // class also has utility method to simulate hanging of watched thread by making
58 // the watched thread wait for a very long time by posting a task on watched
59 // thread that keeps it busy. It also has an utility method to block running of
60 // tests until ThreadWatcher object's post-condition state changes to an
61 // expected state.
62 class CustomThreadWatcher : public ThreadWatcher {
63 public:
64 base::Lock custom_lock_;
65 base::ConditionVariable state_changed_;
66 State thread_watcher_state_;
67 WaitState wait_state_;
68 CheckResponseState check_response_state_;
69 uint64 ping_sent_;
70 uint64 pong_received_;
71 base::subtle::Atomic32 success_response_;
72 base::subtle::Atomic32 failed_response_;
73 base::TimeTicks saved_ping_time_;
74 uint64 saved_ping_sequence_number_;
76 CustomThreadWatcher(const BrowserThread::ID thread_id,
77 const std::string thread_name,
78 const TimeDelta& sleep_time,
79 const TimeDelta& unresponsive_time)
80 : ThreadWatcher(WatchingParams(thread_id, thread_name, sleep_time,
81 unresponsive_time, ThreadWatcherList::kUnresponsiveCount,
82 true, ThreadWatcherList::kLiveThreadsThreshold)),
83 state_changed_(&custom_lock_),
84 thread_watcher_state_(INITIALIZED),
85 wait_state_(UNINITIALIZED),
86 check_response_state_(UNKNOWN),
87 ping_sent_(0),
88 pong_received_(0),
89 success_response_(0),
90 failed_response_(0),
91 saved_ping_time_(base::TimeTicks::Now()),
92 saved_ping_sequence_number_(0) {
95 State UpdateState(State new_state) {
96 State old_state;
98 base::AutoLock auto_lock(custom_lock_);
99 old_state = thread_watcher_state_;
100 if (old_state != DEACTIVATED)
101 thread_watcher_state_ = new_state;
102 if (new_state == SENT_PING)
103 ++ping_sent_;
104 if (new_state == RECEIVED_PONG)
105 ++pong_received_;
106 saved_ping_time_ = ping_time();
107 saved_ping_sequence_number_ = ping_sequence_number();
109 state_changed_.Broadcast();
110 return old_state;
113 WaitState UpdateWaitState(WaitState new_state) {
114 WaitState old_state;
116 base::AutoLock auto_lock(custom_lock_);
117 old_state = wait_state_;
118 wait_state_ = new_state;
120 state_changed_.Broadcast();
121 return old_state;
124 void ActivateThreadWatching() override {
125 State old_state = UpdateState(ACTIVATED);
126 EXPECT_EQ(old_state, INITIALIZED);
127 ThreadWatcher::ActivateThreadWatching();
130 void DeActivateThreadWatching() override {
131 State old_state = UpdateState(DEACTIVATED);
132 EXPECT_TRUE(old_state == ACTIVATED || old_state == SENT_PING ||
133 old_state == RECEIVED_PONG);
134 ThreadWatcher::DeActivateThreadWatching();
137 void PostPingMessage() override {
138 State old_state = UpdateState(SENT_PING);
139 EXPECT_TRUE(old_state == ACTIVATED || old_state == RECEIVED_PONG);
140 ThreadWatcher::PostPingMessage();
143 void OnPongMessage(uint64 ping_sequence_number) override {
144 State old_state = UpdateState(RECEIVED_PONG);
145 EXPECT_TRUE(old_state == SENT_PING || old_state == DEACTIVATED);
146 ThreadWatcher::OnPongMessage(ping_sequence_number);
149 void OnCheckResponsiveness(uint64 ping_sequence_number) override {
150 ThreadWatcher::OnCheckResponsiveness(ping_sequence_number);
152 base::AutoLock auto_lock(custom_lock_);
153 if (responsive_) {
154 base::subtle::Release_Store(&success_response_,
155 base::subtle::Acquire_Load(&success_response_) + 1);
156 check_response_state_ = SUCCESSFUL;
157 } else {
158 base::subtle::Release_Store(&failed_response_,
159 base::subtle::Acquire_Load(&failed_response_) + 1);
160 check_response_state_ = FAILED;
163 // Broadcast to indicate we have checked responsiveness of the thread that
164 // is watched.
165 state_changed_.Broadcast();
168 void WaitForWaitStateChange(TimeDelta wait_time, WaitState expected_state) {
169 DCHECK(!WatchDogThread::CurrentlyOnWatchDogThread());
170 TimeTicks end_time = TimeTicks::Now() + wait_time;
172 base::AutoLock auto_lock(custom_lock_);
173 while (wait_state_ != expected_state && TimeTicks::Now() < end_time)
174 state_changed_.TimedWait(end_time - TimeTicks::Now());
178 void VeryLongMethod(TimeDelta wait_time) {
179 DCHECK(!WatchDogThread::CurrentlyOnWatchDogThread());
180 WaitForWaitStateChange(wait_time, STOPPED_WAITING);
181 UpdateWaitState(ALL_DONE);
184 State WaitForStateChange(const TimeDelta& wait_time, State expected_state) {
185 DCHECK(!WatchDogThread::CurrentlyOnWatchDogThread());
186 UpdateWaitState(STARTED_WAITING);
188 State exit_state = INITIALIZED;
189 // Keep the thread that is running the tests waiting until ThreadWatcher
190 // object's state changes to the expected_state or until wait_time elapses.
191 for (uint32 i = 0; i < unresponsive_threshold_; ++i) {
192 TimeTicks end_time = TimeTicks::Now() + wait_time;
194 base::AutoLock auto_lock(custom_lock_);
195 while (thread_watcher_state_ != expected_state &&
196 TimeTicks::Now() < end_time) {
197 TimeDelta state_change_wait_time = end_time - TimeTicks::Now();
198 state_changed_.TimedWait(state_change_wait_time);
200 // Capture the thread_watcher_state_ before it changes and return it
201 // to the caller.
202 exit_state = thread_watcher_state_;
203 if (exit_state == expected_state)
204 break;
207 UpdateWaitState(STOPPED_WAITING);
208 return exit_state;
211 CheckResponseState WaitForCheckResponse(const TimeDelta& wait_time,
212 CheckResponseState expected_state) {
213 DCHECK(!WatchDogThread::CurrentlyOnWatchDogThread());
214 UpdateWaitState(STARTED_WAITING);
216 CheckResponseState exit_state = UNKNOWN;
217 // Keep the thread that is running the tests waiting until ThreadWatcher
218 // object's check_response_state_ changes to the expected_state or until
219 // wait_time elapses.
220 for (uint32 i = 0; i < unresponsive_threshold_; ++i) {
221 TimeTicks end_time = TimeTicks::Now() + wait_time;
223 base::AutoLock auto_lock(custom_lock_);
224 while (check_response_state_ != expected_state &&
225 TimeTicks::Now() < end_time) {
226 TimeDelta state_change_wait_time = end_time - TimeTicks::Now();
227 state_changed_.TimedWait(state_change_wait_time);
229 // Capture the check_response_state_ before it changes and return it
230 // to the caller.
231 exit_state = check_response_state_;
232 if (exit_state == expected_state)
233 break;
236 UpdateWaitState(STOPPED_WAITING);
237 return exit_state;
241 class ThreadWatcherTest : public ::testing::Test {
242 public:
243 static const TimeDelta kSleepTime;
244 static const TimeDelta kUnresponsiveTime;
245 static const BrowserThread::ID io_thread_id;
246 static const std::string io_thread_name;
247 static const BrowserThread::ID db_thread_id;
248 static const std::string db_thread_name;
249 static const std::string crash_on_hang_seconds;
250 static const std::string crash_on_hang_thread_names;
251 static const std::string thread_names_and_live_threshold;
252 static const std::string crash_on_hang_thread_data;
253 CustomThreadWatcher* io_watcher_;
254 CustomThreadWatcher* db_watcher_;
255 ThreadWatcherList* thread_watcher_list_;
257 ThreadWatcherTest()
258 : setup_complete_(&lock_),
259 initialized_(false) {
260 db_thread_.reset(new content::TestBrowserThread(BrowserThread::DB));
261 io_thread_.reset(new content::TestBrowserThread(BrowserThread::IO));
262 watchdog_thread_.reset(new WatchDogThread());
263 db_thread_->StartAndWaitForTesting();
264 io_thread_->StartAndWaitForTesting();
265 watchdog_thread_->StartAndWaitForTesting();
267 WatchDogThread::PostTask(
268 FROM_HERE,
269 base::Bind(&ThreadWatcherTest::SetUpObjects, base::Unretained(this)));
271 WaitForSetUp(TimeDelta::FromMinutes(1));
274 void SetUpObjects() {
275 DCHECK(WatchDogThread::CurrentlyOnWatchDogThread());
277 // Setup the registry for thread watchers.
278 thread_watcher_list_ = new ThreadWatcherList();
280 // Create thread watcher object for the IO thread.
281 io_watcher_ = new CustomThreadWatcher(io_thread_id, io_thread_name,
282 kSleepTime, kUnresponsiveTime);
283 EXPECT_EQ(io_watcher_, thread_watcher_list_->Find(io_thread_id));
285 // Create thread watcher object for the DB thread.
286 db_watcher_ = new CustomThreadWatcher(
287 db_thread_id, db_thread_name, kSleepTime, kUnresponsiveTime);
288 EXPECT_EQ(db_watcher_, thread_watcher_list_->Find(db_thread_id));
291 base::AutoLock lock(lock_);
292 initialized_ = true;
294 setup_complete_.Signal();
297 void WaitForSetUp(TimeDelta wait_time) {
298 DCHECK(!WatchDogThread::CurrentlyOnWatchDogThread());
299 TimeTicks end_time = TimeTicks::Now() + wait_time;
301 base::AutoLock auto_lock(lock_);
302 while (!initialized_ && TimeTicks::Now() < end_time)
303 setup_complete_.TimedWait(end_time - TimeTicks::Now());
307 ~ThreadWatcherTest() override {
308 ThreadWatcherList::DeleteAll();
309 io_watcher_ = nullptr;
310 db_watcher_ = nullptr;
311 io_thread_.reset();
312 db_thread_.reset();
313 watchdog_thread_.reset();
314 thread_watcher_list_ = nullptr;
317 private:
318 base::MessageLoop message_loop_;
319 base::Lock lock_;
320 base::ConditionVariable setup_complete_;
321 bool initialized_;
322 scoped_ptr<content::TestBrowserThread> db_thread_;
323 scoped_ptr<content::TestBrowserThread> io_thread_;
324 scoped_ptr<WatchDogThread> watchdog_thread_;
327 // Define static constants.
328 const TimeDelta ThreadWatcherTest::kSleepTime =
329 TimeDelta::FromMilliseconds(50);
330 const TimeDelta ThreadWatcherTest::kUnresponsiveTime =
331 TimeDelta::FromMilliseconds(500);
332 const BrowserThread::ID ThreadWatcherTest::io_thread_id = BrowserThread::IO;
333 const std::string ThreadWatcherTest::io_thread_name = "IO";
334 const BrowserThread::ID ThreadWatcherTest::db_thread_id = BrowserThread::DB;
335 const std::string ThreadWatcherTest::db_thread_name = "DB";
336 const std::string ThreadWatcherTest::crash_on_hang_thread_names = "UI,IO";
337 const std::string ThreadWatcherTest::thread_names_and_live_threshold =
338 "UI:4,IO:4";
339 const std::string ThreadWatcherTest::crash_on_hang_thread_data =
340 "UI:5:12,IO:5:12,FILE:5:12";
342 TEST_F(ThreadWatcherTest, ThreadNamesOnlyArgs) {
343 // Setup command_line arguments.
344 base::CommandLine command_line(base::CommandLine::NO_PROGRAM);
345 command_line.AppendSwitchASCII(switches::kCrashOnHangThreads,
346 crash_on_hang_thread_names);
348 // Parse command_line arguments.
349 ThreadWatcherList::CrashOnHangThreadMap crash_on_hang_threads;
350 uint32 unresponsive_threshold;
351 ThreadWatcherList::ParseCommandLine(command_line,
352 &unresponsive_threshold,
353 &crash_on_hang_threads);
355 // Verify the data.
356 base::StringTokenizer tokens(crash_on_hang_thread_names, ",");
357 while (tokens.GetNext()) {
358 std::vector<base::StringPiece> values = base::SplitStringPiece(
359 tokens.token_piece(), ":", base::TRIM_WHITESPACE, base::SPLIT_WANT_ALL);
360 std::string thread_name = values[0].as_string();
362 ThreadWatcherList::CrashOnHangThreadMap::iterator it =
363 crash_on_hang_threads.find(thread_name);
364 bool crash_on_hang = (it != crash_on_hang_threads.end());
365 EXPECT_TRUE(crash_on_hang);
366 EXPECT_LT(0u, it->second.live_threads_threshold);
367 EXPECT_LT(0u, it->second.unresponsive_threshold);
371 TEST_F(ThreadWatcherTest, ThreadNamesAndLiveThresholdArgs) {
372 // Setup command_line arguments.
373 base::CommandLine command_line(base::CommandLine::NO_PROGRAM);
374 command_line.AppendSwitchASCII(switches::kCrashOnHangThreads,
375 thread_names_and_live_threshold);
377 // Parse command_line arguments.
378 ThreadWatcherList::CrashOnHangThreadMap crash_on_hang_threads;
379 uint32 unresponsive_threshold;
380 ThreadWatcherList::ParseCommandLine(command_line,
381 &unresponsive_threshold,
382 &crash_on_hang_threads);
384 // Verify the data.
385 base::StringTokenizer tokens(thread_names_and_live_threshold, ",");
386 while (tokens.GetNext()) {
387 std::vector<base::StringPiece> values = base::SplitStringPiece(
388 tokens.token_piece(), ":", base::TRIM_WHITESPACE, base::SPLIT_WANT_ALL);
389 std::string thread_name = values[0].as_string();
391 ThreadWatcherList::CrashOnHangThreadMap::iterator it =
392 crash_on_hang_threads.find(thread_name);
393 bool crash_on_hang = (it != crash_on_hang_threads.end());
394 EXPECT_TRUE(crash_on_hang);
395 EXPECT_EQ(4u, it->second.live_threads_threshold);
396 EXPECT_LT(0u, it->second.unresponsive_threshold);
400 TEST_F(ThreadWatcherTest, CrashOnHangThreadsAllArgs) {
401 // Setup command_line arguments.
402 base::CommandLine command_line(base::CommandLine::NO_PROGRAM);
403 command_line.AppendSwitchASCII(switches::kCrashOnHangThreads,
404 crash_on_hang_thread_data);
406 // Parse command_line arguments.
407 ThreadWatcherList::CrashOnHangThreadMap crash_on_hang_threads;
408 uint32 unresponsive_threshold;
409 ThreadWatcherList::ParseCommandLine(command_line,
410 &unresponsive_threshold,
411 &crash_on_hang_threads);
413 // Verify the data.
414 base::StringTokenizer tokens(crash_on_hang_thread_data, ",");
415 while (tokens.GetNext()) {
416 std::vector<base::StringPiece> values = base::SplitStringPiece(
417 tokens.token_piece(), ":", base::TRIM_WHITESPACE, base::SPLIT_WANT_ALL);
418 std::string thread_name = values[0].as_string();
420 ThreadWatcherList::CrashOnHangThreadMap::iterator it =
421 crash_on_hang_threads.find(thread_name);
423 bool crash_on_hang = (it != crash_on_hang_threads.end());
424 EXPECT_TRUE(crash_on_hang);
426 uint32 crash_live_threads_threshold = it->second.live_threads_threshold;
427 EXPECT_EQ(5u, crash_live_threads_threshold);
429 uint32 crash_unresponsive_threshold = it->second.unresponsive_threshold;
430 uint32 crash_on_unresponsive_seconds =
431 ThreadWatcherList::kUnresponsiveSeconds * crash_unresponsive_threshold;
432 EXPECT_EQ(12u, crash_on_unresponsive_seconds);
436 // Test registration. When thread_watcher_list_ goes out of scope after
437 // TearDown, all thread watcher objects will be deleted.
438 TEST_F(ThreadWatcherTest, Registration) {
439 // Check ThreadWatcher object has all correct parameters.
440 EXPECT_EQ(io_thread_id, io_watcher_->thread_id());
441 EXPECT_EQ(io_thread_name, io_watcher_->thread_name());
442 EXPECT_EQ(kSleepTime, io_watcher_->sleep_time());
443 EXPECT_EQ(kUnresponsiveTime, io_watcher_->unresponsive_time());
444 EXPECT_FALSE(io_watcher_->active());
446 // Check ThreadWatcher object of watched DB thread has correct data.
447 EXPECT_EQ(db_thread_id, db_watcher_->thread_id());
448 EXPECT_EQ(db_thread_name, db_watcher_->thread_name());
449 EXPECT_EQ(kSleepTime, db_watcher_->sleep_time());
450 EXPECT_EQ(kUnresponsiveTime, db_watcher_->unresponsive_time());
451 EXPECT_FALSE(db_watcher_->active());
454 // Test ActivateThreadWatching and DeActivateThreadWatching of IO thread. This
455 // method also checks that pong message was sent by the watched thread and pong
456 // message was received by the WatchDogThread. It also checks that
457 // OnCheckResponsiveness has verified the ping-pong mechanism and the watched
458 // thread is not hung.
459 TEST_F(ThreadWatcherTest, ThreadResponding) {
460 TimeTicks time_before_ping = TimeTicks::Now();
461 // Activate watching IO thread.
462 WatchDogThread::PostTask(
463 FROM_HERE,
464 base::Bind(&ThreadWatcher::ActivateThreadWatching,
465 base::Unretained(io_watcher_)));
467 // Activate would have started ping/pong messaging. Expect atleast one
468 // ping/pong messaging sequence to happen.
469 io_watcher_->WaitForStateChange(kSleepTime + TimeDelta::FromMinutes(1),
470 RECEIVED_PONG);
471 EXPECT_GT(io_watcher_->ping_sent_, static_cast<uint64>(0));
472 EXPECT_GT(io_watcher_->pong_received_, static_cast<uint64>(0));
473 EXPECT_TRUE(io_watcher_->active());
474 EXPECT_GE(io_watcher_->saved_ping_time_, time_before_ping);
475 EXPECT_GE(io_watcher_->saved_ping_sequence_number_, static_cast<uint64>(0));
477 // Verify watched thread is responding with ping/pong messaging.
478 io_watcher_->WaitForCheckResponse(
479 kUnresponsiveTime + TimeDelta::FromMinutes(1), SUCCESSFUL);
480 EXPECT_GT(base::subtle::NoBarrier_Load(&(io_watcher_->success_response_)),
481 static_cast<base::subtle::Atomic32>(0));
482 EXPECT_EQ(base::subtle::NoBarrier_Load(&(io_watcher_->failed_response_)),
483 static_cast<base::subtle::Atomic32>(0));
485 // DeActivate thread watching for shutdown.
486 WatchDogThread::PostTask(
487 FROM_HERE,
488 base::Bind(&ThreadWatcher::DeActivateThreadWatching,
489 base::Unretained(io_watcher_)));
492 // This test posts a task on watched thread that takes very long time (this is
493 // to simulate hanging of watched thread). It then checks for
494 // OnCheckResponsiveness raising an alert (OnCheckResponsiveness returns false
495 // if the watched thread is not responding).
496 TEST_F(ThreadWatcherTest, ThreadNotResponding) {
497 // Simulate hanging of watched thread by making the watched thread wait for a
498 // very long time by posting a task on watched thread that keeps it busy.
499 // It is safe to use base::Unretained because test is waiting for the method
500 // to finish.
501 BrowserThread::PostTask(
502 io_thread_id,
503 FROM_HERE,
504 base::Bind(&CustomThreadWatcher::VeryLongMethod,
505 base::Unretained(io_watcher_),
506 kUnresponsiveTime * 10));
508 // Activate thread watching.
509 WatchDogThread::PostTask(
510 FROM_HERE,
511 base::Bind(&ThreadWatcher::ActivateThreadWatching,
512 base::Unretained(io_watcher_)));
514 // Verify watched thread is not responding for ping messages.
515 io_watcher_->WaitForCheckResponse(
516 kUnresponsiveTime + TimeDelta::FromMinutes(1), FAILED);
517 EXPECT_EQ(base::subtle::NoBarrier_Load(&(io_watcher_->success_response_)),
518 static_cast<base::subtle::Atomic32>(0));
519 EXPECT_GT(base::subtle::NoBarrier_Load(&(io_watcher_->failed_response_)),
520 static_cast<base::subtle::Atomic32>(0));
522 // DeActivate thread watching for shutdown.
523 WatchDogThread::PostTask(
524 FROM_HERE,
525 base::Bind(&ThreadWatcher::DeActivateThreadWatching,
526 base::Unretained(io_watcher_)));
528 // Wait for the io_watcher_'s VeryLongMethod to finish.
529 io_watcher_->WaitForWaitStateChange(kUnresponsiveTime * 10, ALL_DONE);
532 // Test watching of multiple threads with all threads not responding.
533 TEST_F(ThreadWatcherTest, MultipleThreadsResponding) {
534 // Check for DB thread to perform ping/pong messaging.
535 WatchDogThread::PostTask(
536 FROM_HERE,
537 base::Bind(&ThreadWatcher::ActivateThreadWatching,
538 base::Unretained(db_watcher_)));
540 // Check for IO thread to perform ping/pong messaging.
541 WatchDogThread::PostTask(
542 FROM_HERE,
543 base::Bind(&ThreadWatcher::ActivateThreadWatching,
544 base::Unretained(io_watcher_)));
546 // Verify DB thread is responding with ping/pong messaging.
547 db_watcher_->WaitForCheckResponse(
548 kUnresponsiveTime + TimeDelta::FromMinutes(1), SUCCESSFUL);
549 EXPECT_GT(db_watcher_->ping_sent_, static_cast<uint64>(0));
550 EXPECT_GT(db_watcher_->pong_received_, static_cast<uint64>(0));
551 EXPECT_GE(db_watcher_->ping_sequence_number_, static_cast<uint64>(0));
552 EXPECT_GT(base::subtle::NoBarrier_Load(&(db_watcher_->success_response_)),
553 static_cast<base::subtle::Atomic32>(0));
554 EXPECT_EQ(base::subtle::NoBarrier_Load(&(db_watcher_->failed_response_)),
555 static_cast<base::subtle::Atomic32>(0));
557 // Verify IO thread is responding with ping/pong messaging.
558 io_watcher_->WaitForCheckResponse(
559 kUnresponsiveTime + TimeDelta::FromMinutes(1), SUCCESSFUL);
560 EXPECT_GT(io_watcher_->ping_sent_, static_cast<uint64>(0));
561 EXPECT_GT(io_watcher_->pong_received_, static_cast<uint64>(0));
562 EXPECT_GE(io_watcher_->ping_sequence_number_, static_cast<uint64>(0));
563 EXPECT_GT(base::subtle::NoBarrier_Load(&(io_watcher_->success_response_)),
564 static_cast<base::subtle::Atomic32>(0));
565 EXPECT_EQ(base::subtle::NoBarrier_Load(&(io_watcher_->failed_response_)),
566 static_cast<base::subtle::Atomic32>(0));
568 // DeActivate thread watching for shutdown.
569 WatchDogThread::PostTask(
570 FROM_HERE,
571 base::Bind(&ThreadWatcher::DeActivateThreadWatching,
572 base::Unretained(io_watcher_)));
574 WatchDogThread::PostTask(
575 FROM_HERE,
576 base::Bind(&ThreadWatcher::DeActivateThreadWatching,
577 base::Unretained(db_watcher_)));
580 // Test watching of multiple threads with one of the threads not responding.
581 TEST_F(ThreadWatcherTest, MultipleThreadsNotResponding) {
582 // Simulate hanging of watched thread by making the watched thread wait for a
583 // very long time by posting a task on watched thread that keeps it busy.
584 // It is safe ot use base::Unretained because test is waiting for the method
585 // to finish.
586 BrowserThread::PostTask(
587 io_thread_id,
588 FROM_HERE,
589 base::Bind(&CustomThreadWatcher::VeryLongMethod,
590 base::Unretained(io_watcher_),
591 kUnresponsiveTime * 10));
593 // Activate watching of DB thread.
594 WatchDogThread::PostTask(
595 FROM_HERE,
596 base::Bind(&ThreadWatcher::ActivateThreadWatching,
597 base::Unretained(db_watcher_)));
599 // Activate watching of IO thread.
600 WatchDogThread::PostTask(
601 FROM_HERE,
602 base::Bind(&ThreadWatcher::ActivateThreadWatching,
603 base::Unretained(io_watcher_)));
605 // Verify DB thread is responding with ping/pong messaging.
606 db_watcher_->WaitForCheckResponse(
607 kUnresponsiveTime + TimeDelta::FromMinutes(1), SUCCESSFUL);
608 EXPECT_GT(base::subtle::NoBarrier_Load(&(db_watcher_->success_response_)),
609 static_cast<base::subtle::Atomic32>(0));
610 EXPECT_EQ(base::subtle::NoBarrier_Load(&(db_watcher_->failed_response_)),
611 static_cast<base::subtle::Atomic32>(0));
613 // Verify IO thread is not responding for ping messages.
614 io_watcher_->WaitForCheckResponse(
615 kUnresponsiveTime + TimeDelta::FromMinutes(1), FAILED);
616 EXPECT_EQ(base::subtle::NoBarrier_Load(&(io_watcher_->success_response_)),
617 static_cast<base::subtle::Atomic32>(0));
618 EXPECT_GT(base::subtle::NoBarrier_Load(&(io_watcher_->failed_response_)),
619 static_cast<base::subtle::Atomic32>(0));
621 // DeActivate thread watching for shutdown.
622 WatchDogThread::PostTask(
623 FROM_HERE,
624 base::Bind(&ThreadWatcher::DeActivateThreadWatching,
625 base::Unretained(io_watcher_)));
626 WatchDogThread::PostTask(
627 FROM_HERE,
628 base::Bind(&ThreadWatcher::DeActivateThreadWatching,
629 base::Unretained(db_watcher_)));
631 // Wait for the io_watcher_'s VeryLongMethod to finish.
632 io_watcher_->WaitForWaitStateChange(kUnresponsiveTime * 10, ALL_DONE);
635 class ThreadWatcherListTest : public ::testing::Test {
636 protected:
637 ThreadWatcherListTest()
638 : done_(&lock_),
639 state_available_(false),
640 has_thread_watcher_list_(false),
641 stopped_(false) {
644 void ReadStateOnWatchDogThread() {
645 CHECK(WatchDogThread::CurrentlyOnWatchDogThread());
647 base::AutoLock auto_lock(lock_);
648 has_thread_watcher_list_ =
649 ThreadWatcherList::g_thread_watcher_list_ != nullptr;
650 stopped_ = ThreadWatcherList::g_stopped_;
651 state_available_ = true;
653 done_.Signal();
656 void CheckState(bool has_thread_watcher_list,
657 bool stopped,
658 const char* const msg) {
659 CHECK(!WatchDogThread::CurrentlyOnWatchDogThread());
661 base::AutoLock auto_lock(lock_);
662 state_available_ = false;
665 WatchDogThread::PostTask(
666 FROM_HERE,
667 base::Bind(&ThreadWatcherListTest::ReadStateOnWatchDogThread,
668 base::Unretained(this)));
670 base::AutoLock auto_lock(lock_);
671 while (!state_available_)
672 done_.Wait();
674 EXPECT_EQ(has_thread_watcher_list, has_thread_watcher_list_) << msg;
675 EXPECT_EQ(stopped, stopped_) << msg;
679 base::Lock lock_;
680 base::ConditionVariable done_;
682 bool state_available_;
683 bool has_thread_watcher_list_;
684 bool stopped_;
687 TEST_F(ThreadWatcherListTest, Restart) {
688 ThreadWatcherList::g_initialize_delay_seconds = 1;
690 base::MessageLoopForUI message_loop_for_ui;
691 content::TestBrowserThread ui_thread(BrowserThread::UI, &message_loop_for_ui);
693 scoped_ptr<WatchDogThread> watchdog_thread_(new WatchDogThread());
694 watchdog_thread_->StartAndWaitForTesting();
696 // See http://crbug.com/347887.
697 // StartWatchingAll() will PostDelayedTask to create g_thread_watcher_list_,
698 // whilst StopWatchingAll() will just PostTask to destroy it.
699 // Ensure that when Stop is called, Start will NOT create
700 // g_thread_watcher_list_ later on.
701 ThreadWatcherList::StartWatchingAll(*base::CommandLine::ForCurrentProcess());
702 ThreadWatcherList::StopWatchingAll();
703 message_loop_for_ui.task_runner()->PostDelayedTask(
704 FROM_HERE, message_loop_for_ui.QuitClosure(),
705 base::TimeDelta::FromSeconds(
706 ThreadWatcherList::g_initialize_delay_seconds));
707 message_loop_for_ui.Run();
709 CheckState(false /* has_thread_watcher_list */,
710 true /* stopped */,
711 "Start / Stopped");
713 // Proceed with just |StartWatchingAll| and ensure it'll be started.
714 ThreadWatcherList::StartWatchingAll(*base::CommandLine::ForCurrentProcess());
715 message_loop_for_ui.task_runner()->PostDelayedTask(
716 FROM_HERE, message_loop_for_ui.QuitClosure(),
717 base::TimeDelta::FromSeconds(
718 ThreadWatcherList::g_initialize_delay_seconds + 1));
719 message_loop_for_ui.Run();
721 CheckState(true /* has_thread_watcher_list */,
722 false /* stopped */,
723 "Started");
725 // Finally, StopWatchingAll() must stop.
726 ThreadWatcherList::StopWatchingAll();
727 message_loop_for_ui.task_runner()->PostDelayedTask(
728 FROM_HERE, message_loop_for_ui.QuitClosure(),
729 base::TimeDelta::FromSeconds(
730 ThreadWatcherList::g_initialize_delay_seconds));
731 message_loop_for_ui.Run();
733 CheckState(false /* has_thread_watcher_list */,
734 true /* stopped */,
735 "Stopped");
738 class TestingJankTimeBomb : public JankTimeBomb {
739 public:
740 explicit TestingJankTimeBomb(base::TimeDelta duration)
741 : JankTimeBomb(duration),
742 thread_id_(base::PlatformThread::CurrentId()),
743 alarm_invoked_(false) {
746 ~TestingJankTimeBomb() override {}
748 void Alarm(base::PlatformThreadId thread_id) override {
749 EXPECT_EQ(thread_id_, thread_id);
750 alarm_invoked_ = true;
753 bool alarm_invoked() const { return alarm_invoked_; }
755 private:
756 const base::PlatformThreadId thread_id_;
757 bool alarm_invoked_;
759 DISALLOW_COPY_AND_ASSIGN(TestingJankTimeBomb);
762 class JankTimeBombTest : public ::testing::Test {
763 public:
764 JankTimeBombTest() {
765 watchdog_thread_.reset(new WatchDogThread());
766 watchdog_thread_->Start();
767 EXPECT_TRUE(watchdog_thread_->IsRunning());
768 SPIN_FOR_TIMEDELTA_OR_UNTIL_TRUE(TimeDelta::FromMinutes(1),
769 watchdog_thread_->Started());
770 WaitForWatchDogThreadPostTask();
773 ~JankTimeBombTest() override {
774 watchdog_thread_.reset();
777 static void WaitForWatchDogThreadPostTask() {
778 base::WaitableEvent watchdog_thread_event(false, false);
779 PostAndWaitForWatchdogThread(&watchdog_thread_event);
782 private:
783 static void OnJankTimeBombTask(base::WaitableEvent* event) {
784 event->Signal();
787 static void PostAndWaitForWatchdogThread(base::WaitableEvent* event) {
788 WatchDogThread::PostDelayedTask(
789 FROM_HERE,
790 base::Bind(&JankTimeBombTest::OnJankTimeBombTask, event),
791 base::TimeDelta::FromSeconds(0));
793 event->Wait();
796 scoped_ptr<WatchDogThread> watchdog_thread_;
798 DISALLOW_COPY_AND_ASSIGN(JankTimeBombTest);
801 // JankTimeBomb minimal constructor/destructor test..
802 TEST_F(JankTimeBombTest, StartShutdownTest) {
803 // Disarm's itself when it goes out of scope.
804 TestingJankTimeBomb timebomb1(TimeDelta::FromMinutes(5));
805 TestingJankTimeBomb timebomb2(TimeDelta::FromMinutes(5));
806 WaitForWatchDogThreadPostTask();
807 EXPECT_FALSE(timebomb1.alarm_invoked());
808 EXPECT_FALSE(timebomb2.alarm_invoked());
811 TEST_F(JankTimeBombTest, ArmTest) {
812 // Test firing of Alarm by passing empty delay.
813 TestingJankTimeBomb timebomb((base::TimeDelta()));
814 if (!timebomb.IsEnabled())
815 return;
816 WaitForWatchDogThreadPostTask();
817 EXPECT_TRUE(timebomb.alarm_invoked());