Roll src/third_party/WebKit 0dfcee8:b5303f0 (svn 194095:194099)
[chromium-blink-merge.git] / base / profiler / stack_sampling_profiler_unittest.cc
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1 // Copyright 2015 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 "base/bind.h"
6 #include "base/compiler_specific.h"
7 #include "base/path_service.h"
8 #include "base/profiler/stack_sampling_profiler.h"
9 #include "base/strings/stringprintf.h"
10 #include "base/synchronization/waitable_event.h"
11 #include "base/threading/platform_thread.h"
12 #include "base/time/time.h"
13 #include "testing/gtest/include/gtest/gtest.h"
15 namespace base {
17 using SamplingParams = StackSamplingProfiler::SamplingParams;
18 using Frame = StackSamplingProfiler::Frame;
19 using Module = StackSamplingProfiler::Module;
20 using Sample = StackSamplingProfiler::Sample;
21 using CallStackProfile = StackSamplingProfiler::CallStackProfile;
22 using CallStackProfiles = StackSamplingProfiler::CallStackProfiles;
24 namespace {
26 // A thread to target for profiling, whose stack is guaranteed to contain
27 // SignalAndWaitUntilSignaled() when coordinated with the main thread.
28 class TargetThread : public PlatformThread::Delegate {
29 public:
30 TargetThread();
32 // PlatformThread::Delegate:
33 void ThreadMain() override;
35 // Waits for the thread to have started and be executing in
36 // SignalAndWaitUntilSignaled().
37 void WaitForThreadStart();
39 // Allows the thread to return from SignalAndWaitUntilSignaled() and finish
40 // execution.
41 void SignalThreadToFinish();
43 // This function is guaranteed to be executing between calls to
44 // WaitForThreadStart() and SignalThreadToFinish(). This function is static so
45 // that we can get a straightforward address for it in one of the tests below,
46 // rather than dealing with the complexity of a member function pointer
47 // representation.
48 static void SignalAndWaitUntilSignaled(WaitableEvent* thread_started_event,
49 WaitableEvent* finish_event);
51 PlatformThreadId id() const { return id_; }
53 private:
54 WaitableEvent thread_started_event_;
55 WaitableEvent finish_event_;
56 PlatformThreadId id_;
58 DISALLOW_COPY_AND_ASSIGN(TargetThread);
61 TargetThread::TargetThread()
62 : thread_started_event_(false, false), finish_event_(false, false),
63 id_(0) {}
65 void TargetThread::ThreadMain() {
66 id_ = PlatformThread::CurrentId();
67 SignalAndWaitUntilSignaled(&thread_started_event_, &finish_event_);
70 void TargetThread::WaitForThreadStart() {
71 thread_started_event_.Wait();
74 void TargetThread::SignalThreadToFinish() {
75 finish_event_.Signal();
78 // static
79 // Disable inlining for this function so that it gets its own stack frame.
80 NOINLINE void TargetThread::SignalAndWaitUntilSignaled(
81 WaitableEvent* thread_started_event,
82 WaitableEvent* finish_event) {
83 thread_started_event->Signal();
84 volatile int x = 1;
85 finish_event->Wait();
86 x = 0; // Prevent tail call to WaitableEvent::Wait().
87 ALLOW_UNUSED_LOCAL(x);
90 // Called on the profiler thread when complete, to collect profiles.
91 void SaveProfiles(CallStackProfiles* profiles,
92 const CallStackProfiles& pending_profiles) {
93 *profiles = pending_profiles;
96 // Called on the profiler thread when complete. Collects profiles produced by
97 // the profiler, and signals an event to allow the main thread to know that that
98 // the profiler is done.
99 void SaveProfilesAndSignalEvent(CallStackProfiles* profiles,
100 WaitableEvent* event,
101 const CallStackProfiles& pending_profiles) {
102 *profiles = pending_profiles;
103 event->Signal();
106 // Executes the function with the target thread running and executing within
107 // SignalAndWaitUntilSignaled(). Performs all necessary target thread startup
108 // and shutdown work before and afterward.
109 template <class Function>
110 void WithTargetThread(Function function) {
111 TargetThread target_thread;
112 PlatformThreadHandle target_thread_handle;
113 EXPECT_TRUE(PlatformThread::Create(0, &target_thread, &target_thread_handle));
115 target_thread.WaitForThreadStart();
117 function(target_thread.id());
119 target_thread.SignalThreadToFinish();
121 PlatformThread::Join(target_thread_handle);
124 // Captures profiles as specified by |params| on the TargetThread, and returns
125 // them in |profiles|. Waits up to |profiler_wait_time| for the profiler to
126 // complete.
127 void CaptureProfilesWithObjectCallback(const SamplingParams& params,
128 CallStackProfiles* profiles,
129 TimeDelta profiler_wait_time) {
130 profiles->clear();
132 WithTargetThread([&params, profiles, profiler_wait_time](
133 PlatformThreadId target_thread_id) {
134 WaitableEvent sampling_thread_completed(true, false);
135 const StackSamplingProfiler::CompletedCallback callback =
136 Bind(&SaveProfilesAndSignalEvent, Unretained(profiles),
137 Unretained(&sampling_thread_completed));
138 StackSamplingProfiler profiler(target_thread_id, params, callback);
139 profiler.Start();
140 sampling_thread_completed.TimedWait(profiler_wait_time);
141 profiler.Stop();
142 sampling_thread_completed.Wait();
146 // Captures profiles as specified by |params| on the TargetThread, and returns
147 // them in |profiles|. Uses the default callback rather than a per-object
148 // callback.
149 void CaptureProfilesWithDefaultCallback(const SamplingParams& params,
150 CallStackProfiles* profiles) {
151 profiles->clear();
153 WithTargetThread([&params, profiles](PlatformThreadId target_thread_id) {
154 WaitableEvent sampling_thread_completed(false, false);
155 StackSamplingProfiler::SetDefaultCompletedCallback(
156 Bind(&SaveProfilesAndSignalEvent, Unretained(profiles),
157 Unretained(&sampling_thread_completed)));
159 StackSamplingProfiler profiler(target_thread_id, params);
160 profiler.Start();
161 sampling_thread_completed.Wait();
163 StackSamplingProfiler::SetDefaultCompletedCallback(
164 StackSamplingProfiler::CompletedCallback());
168 // Runs the profiler with |params| on the TargetThread, with no default or
169 // per-object callback.
170 void RunProfilerWithNoCallback(const SamplingParams& params,
171 TimeDelta profiler_wait_time) {
172 WithTargetThread([&params, profiler_wait_time](
173 PlatformThreadId target_thread_id) {
174 StackSamplingProfiler profiler(target_thread_id, params);
175 profiler.Start();
176 // Since we don't specify a callback, we don't have a synchronization
177 // mechanism with the sampling thread. Just sleep instead.
178 PlatformThread::Sleep(profiler_wait_time);
179 profiler.Stop();
183 // If this executable was linked with /INCREMENTAL (the default for non-official
184 // debug and release builds on Windows), function addresses do not correspond to
185 // function code itself, but instead to instructions in the Incremental Link
186 // Table that jump to the functions. Checks for a jump instruction and if
187 // present does a little decompilation to find the function's actual starting
188 // address.
189 const void* MaybeFixupFunctionAddressForILT(const void* function_address) {
190 #if defined(_WIN64)
191 const unsigned char* opcode =
192 reinterpret_cast<const unsigned char*>(function_address);
193 if (*opcode == 0xe9) {
194 // This is a relative jump instruction. Assume we're in the ILT and compute
195 // the function start address from the instruction offset.
196 const int32* offset = reinterpret_cast<const int32*>(opcode + 1);
197 const unsigned char* next_instruction =
198 reinterpret_cast<const unsigned char*>(offset + 1);
199 return next_instruction + *offset;
201 #endif
202 return function_address;
205 // Searches through the frames in |sample|, returning an iterator to the first
206 // frame that has an instruction pointer between |function_address| and
207 // |function_address| + |size|. Returns sample.end() if no such frames are
208 // found.
209 Sample::const_iterator FindFirstFrameWithinFunction(
210 const Sample& sample,
211 const void* function_address,
212 int function_size) {
213 function_address = MaybeFixupFunctionAddressForILT(function_address);
214 for (auto it = sample.begin(); it != sample.end(); ++it) {
215 if ((it->instruction_pointer >= function_address) &&
216 (it->instruction_pointer <
217 (static_cast<const unsigned char*>(function_address) + function_size)))
218 return it;
220 return sample.end();
223 // Formats a sample into a string that can be output for test diagnostics.
224 std::string FormatSampleForDiagnosticOutput(
225 const Sample& sample,
226 const std::vector<Module>& modules) {
227 std::string output;
228 for (const Frame& frame: sample) {
229 output += StringPrintf(
230 "0x%p %s\n", frame.instruction_pointer,
231 modules[frame.module_index].filename.AsUTF8Unsafe().c_str());
233 return output;
236 // Returns a duration that is longer than the test timeout. We would use
237 // TimeDelta::Max() but https://crbug.com/465948.
238 TimeDelta AVeryLongTimeDelta() { return TimeDelta::FromDays(1); }
240 } // namespace
243 // The tests below are enabled for Win x64 only, pending implementation of the
244 // tested functionality on other platforms/architectures.
246 // Checks that the basic expected information is present in a sampled call stack
247 // profile.
248 #if defined(_WIN64)
249 #define MAYBE_Basic Basic
250 #else
251 #define MAYBE_Basic DISABLED_Basic
252 #endif
253 TEST(StackSamplingProfilerTest, MAYBE_Basic) {
254 SamplingParams params;
255 params.sampling_interval = TimeDelta::FromMilliseconds(0);
256 params.samples_per_burst = 1;
257 params.user_data = 100;
258 params.preserve_sample_ordering = true;
260 std::vector<CallStackProfile> profiles;
261 CaptureProfilesWithObjectCallback(params, &profiles, AVeryLongTimeDelta());
263 // Check that the profile and samples sizes are correct, and the module
264 // indices are in range.
265 ASSERT_EQ(1u, profiles.size());
266 const CallStackProfile& profile = profiles[0];
267 ASSERT_EQ(1u, profile.samples.size());
268 EXPECT_EQ(params.sampling_interval, profile.sampling_period);
269 const Sample& sample = profile.samples[0];
270 for (const auto& frame : sample) {
271 ASSERT_GE(frame.module_index, 0u);
272 ASSERT_LT(frame.module_index, profile.modules.size());
274 EXPECT_EQ(100u, profile.user_data);
275 EXPECT_EQ(true, profile.preserve_sample_ordering);
277 // Check that the stack contains a frame for
278 // TargetThread::SignalAndWaitUntilSignaled() and that the frame has this
279 // executable's module.
281 // Since we don't have a good way to know the function size, use 100 bytes as
282 // a reasonable window to locate the instruction pointer.
283 Sample::const_iterator loc = FindFirstFrameWithinFunction(
284 sample,
285 reinterpret_cast<const void*>(&TargetThread::SignalAndWaitUntilSignaled),
286 100);
287 ASSERT_TRUE(loc != sample.end())
288 << "Function at "
289 << MaybeFixupFunctionAddressForILT(
290 reinterpret_cast<const void*>(
291 &TargetThread::SignalAndWaitUntilSignaled))
292 << " was not found in stack:\n"
293 << FormatSampleForDiagnosticOutput(sample, profile.modules);
294 FilePath executable_path;
295 EXPECT_TRUE(PathService::Get(FILE_EXE, &executable_path));
296 EXPECT_EQ(executable_path, profile.modules[loc->module_index].filename);
299 // Checks that the expected number of profiles and samples are present in the
300 // call stack profiles produced.
301 #if defined(_WIN64)
302 #define MAYBE_MultipleProfilesAndSamples MultipleProfilesAndSamples
303 #else
304 #define MAYBE_MultipleProfilesAndSamples DISABLED_MultipleProfilesAndSamples
305 #endif
306 TEST(StackSamplingProfilerTest, MAYBE_MultipleProfilesAndSamples) {
307 SamplingParams params;
308 params.burst_interval = params.sampling_interval =
309 TimeDelta::FromMilliseconds(0);
310 params.bursts = 2;
311 params.samples_per_burst = 3;
313 std::vector<CallStackProfile> profiles;
314 CaptureProfilesWithObjectCallback(params, &profiles, AVeryLongTimeDelta());
316 ASSERT_EQ(2u, profiles.size());
317 EXPECT_EQ(3u, profiles[0].samples.size());
318 EXPECT_EQ(3u, profiles[1].samples.size());
321 // Checks that no call stack profiles are captured if the profiling is stopped
322 // during the initial delay.
323 #if defined(_WIN64)
324 #define MAYBE_StopDuringInitialDelay StopDuringInitialDelay
325 #else
326 #define MAYBE_StopDuringInitialDelay DISABLED_StopDuringInitialDelay
327 #endif
328 TEST(StackSamplingProfilerTest, MAYBE_StopDuringInitialDelay) {
329 SamplingParams params;
330 params.initial_delay = TimeDelta::FromSeconds(60);
332 std::vector<CallStackProfile> profiles;
333 CaptureProfilesWithObjectCallback(params, &profiles,
334 TimeDelta::FromMilliseconds(0));
336 EXPECT_TRUE(profiles.empty());
339 // Checks that the single completed call stack profile is captured if the
340 // profiling is stopped between bursts.
341 #if defined(_WIN64)
342 #define MAYBE_StopDuringInterBurstInterval StopDuringInterBurstInterval
343 #else
344 #define MAYBE_StopDuringInterBurstInterval DISABLED_StopDuringInterBurstInterval
345 #endif
346 TEST(StackSamplingProfilerTest, MAYBE_StopDuringInterBurstInterval) {
347 SamplingParams params;
348 params.sampling_interval = TimeDelta::FromMilliseconds(0);
349 params.burst_interval = TimeDelta::FromSeconds(60);
350 params.bursts = 2;
351 params.samples_per_burst = 1;
353 std::vector<CallStackProfile> profiles;
354 CaptureProfilesWithObjectCallback(params, &profiles,
355 TimeDelta::FromMilliseconds(50));
357 ASSERT_EQ(1u, profiles.size());
358 EXPECT_EQ(1u, profiles[0].samples.size());
361 // Checks that only completed call stack profiles are captured.
362 #if defined(_WIN64)
363 #define MAYBE_StopDuringInterSampleInterval StopDuringInterSampleInterval
364 #else
365 #define MAYBE_StopDuringInterSampleInterval \
366 DISABLED_StopDuringInterSampleInterval
367 #endif
368 TEST(StackSamplingProfilerTest, MAYBE_StopDuringInterSampleInterval) {
369 SamplingParams params;
370 params.sampling_interval = TimeDelta::FromSeconds(60);
371 params.samples_per_burst = 2;
373 std::vector<CallStackProfile> profiles;
374 CaptureProfilesWithObjectCallback(params, &profiles,
375 TimeDelta::FromMilliseconds(50));
377 EXPECT_TRUE(profiles.empty());
380 // Checks that profiles are captured via the default completed callback.
381 #if defined(_WIN64)
382 #define MAYBE_DefaultCallback DefaultCallback
383 #else
384 #define MAYBE_DefaultCallback DISABLED_DefaultCallback
385 #endif
386 TEST(StackSamplingProfilerTest, MAYBE_DefaultCallback) {
387 SamplingParams params;
388 params.samples_per_burst = 1;
390 CallStackProfiles profiles;
391 CaptureProfilesWithDefaultCallback(params, &profiles);
393 EXPECT_EQ(1u, profiles.size());
394 EXPECT_EQ(1u, profiles[0].samples.size());
397 // Checks that profiles are queued until a default callback is set, then
398 // delivered.
399 #if defined(_WIN64)
400 #define MAYBE_ProfilesQueuedWithNoCallback ProfilesQueuedWithNoCallback
401 #else
402 #define MAYBE_ProfilesQueuedWithNoCallback DISABLED_ProfilesQueuedWithNoCallback
403 #endif
404 TEST(StackSamplingProfilerTest, MAYBE_ProfilesQueuedWithNoCallback) {
405 SamplingParams params;
406 params.samples_per_burst = 1;
408 RunProfilerWithNoCallback(params, TimeDelta::FromMilliseconds(50));
410 CallStackProfiles profiles;
411 // This should immediately call SaveProfiles on this thread.
412 StackSamplingProfiler::SetDefaultCompletedCallback(
413 Bind(&SaveProfiles, Unretained(&profiles)));
414 EXPECT_EQ(1u, profiles.size());
415 EXPECT_EQ(1u, profiles[0].samples.size());
416 StackSamplingProfiler::SetDefaultCompletedCallback(
417 StackSamplingProfiler::CompletedCallback());
420 // Checks that we can destroy the profiler while profiling.
421 #if defined(_WIN64)
422 #define MAYBE_DestroyProfilerWhileProfiling DestroyProfilerWhileProfiling
423 #else
424 #define MAYBE_DestroyProfilerWhileProfiling \
425 DISABLED_DestroyProfilerWhileProfiling
426 #endif
427 TEST(StackSamplingProfilerTest, MAYBE_DestroyProfilerWhileProfiling) {
428 SamplingParams params;
429 params.sampling_interval = TimeDelta::FromMilliseconds(10);
431 CallStackProfiles profiles;
432 WithTargetThread([&params, &profiles](PlatformThreadId target_thread_id) {
433 scoped_ptr<StackSamplingProfiler> profiler;
434 profiler.reset(new StackSamplingProfiler(
435 target_thread_id, params, Bind(&SaveProfiles, Unretained(&profiles))));
436 profiler->Start();
437 profiler.reset();
439 // Wait longer than a sample interval to catch any use-after-free actions by
440 // the profiler thread.
441 PlatformThread::Sleep(TimeDelta::FromMilliseconds(50));
445 } // namespace base