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.
6 #include "base/debug/trace_event_unittest.h"
7 #include "base/synchronization/waitable_event.h"
8 #include "base/test/trace_event_analyzer.h"
9 #include "testing/gmock/include/gmock/gmock.h"
10 #include "testing/gtest/include/gtest/gtest.h"
12 namespace trace_analyzer
{
16 class TraceEventAnalyzerTest
: public testing::Test
{
19 void OnTraceDataCollected(
20 base::WaitableEvent
* flush_complete_event
,
21 const scoped_refptr
<base::RefCountedString
>& json_events_str
,
22 bool has_more_events
);
26 base::debug::TraceResultBuffer::SimpleOutput output_
;
27 base::debug::TraceResultBuffer buffer_
;
30 void TraceEventAnalyzerTest::ManualSetUp() {
31 ASSERT_TRUE(base::debug::TraceLog::GetInstance());
32 buffer_
.SetOutputCallback(output_
.GetCallback());
33 output_
.json_output
.clear();
36 void TraceEventAnalyzerTest::OnTraceDataCollected(
37 base::WaitableEvent
* flush_complete_event
,
38 const scoped_refptr
<base::RefCountedString
>& json_events_str
,
39 bool has_more_events
) {
40 buffer_
.AddFragment(json_events_str
->data());
42 flush_complete_event
->Signal();
45 void TraceEventAnalyzerTest::BeginTracing() {
46 output_
.json_output
.clear();
48 base::debug::TraceLog::GetInstance()->SetEnabled(
49 base::debug::CategoryFilter("*"),
50 base::debug::TraceLog::RECORDING_MODE
,
51 base::debug::TraceOptions());
54 void TraceEventAnalyzerTest::EndTracing() {
55 base::debug::TraceLog::GetInstance()->SetDisabled();
56 base::WaitableEvent
flush_complete_event(false, false);
57 base::debug::TraceLog::GetInstance()->Flush(
58 base::Bind(&TraceEventAnalyzerTest::OnTraceDataCollected
,
59 base::Unretained(this),
60 base::Unretained(&flush_complete_event
)));
61 flush_complete_event
.Wait();
67 TEST_F(TraceEventAnalyzerTest
, NoEvents
) {
70 // Create an empty JSON event string:
74 scoped_ptr
<TraceAnalyzer
>
75 analyzer(TraceAnalyzer::Create(output_
.json_output
));
76 ASSERT_TRUE(analyzer
.get());
78 // Search for all events and verify that nothing is returned.
79 TraceEventVector found
;
80 analyzer
->FindEvents(Query::Bool(true), &found
);
81 EXPECT_EQ(0u, found
.size());
84 TEST_F(TraceEventAnalyzerTest
, TraceEvent
) {
88 double double_num
= 3.5;
89 const char* str
= "the string";
92 event
.arg_numbers
["false"] = 0.0;
93 event
.arg_numbers
["true"] = 1.0;
94 event
.arg_numbers
["int"] = static_cast<double>(int_num
);
95 event
.arg_numbers
["double"] = double_num
;
96 event
.arg_strings
["string"] = str
;
98 ASSERT_TRUE(event
.HasNumberArg("false"));
99 ASSERT_TRUE(event
.HasNumberArg("true"));
100 ASSERT_TRUE(event
.HasNumberArg("int"));
101 ASSERT_TRUE(event
.HasNumberArg("double"));
102 ASSERT_TRUE(event
.HasStringArg("string"));
103 ASSERT_FALSE(event
.HasNumberArg("notfound"));
104 ASSERT_FALSE(event
.HasStringArg("notfound"));
106 EXPECT_FALSE(event
.GetKnownArgAsBool("false"));
107 EXPECT_TRUE(event
.GetKnownArgAsBool("true"));
108 EXPECT_EQ(int_num
, event
.GetKnownArgAsInt("int"));
109 EXPECT_EQ(double_num
, event
.GetKnownArgAsDouble("double"));
110 EXPECT_STREQ(str
, event
.GetKnownArgAsString("string").c_str());
113 TEST_F(TraceEventAnalyzerTest
, QueryEventMember
) {
117 event
.thread
.process_id
= 3;
118 event
.thread
.thread_id
= 4;
119 event
.timestamp
= 1.5;
120 event
.phase
= TRACE_EVENT_PHASE_BEGIN
;
121 event
.category
= "category";
124 event
.arg_numbers
["num"] = 7.0;
125 event
.arg_strings
["str"] = "the string";
127 // Other event with all different members:
129 other
.thread
.process_id
= 5;
130 other
.thread
.thread_id
= 6;
131 other
.timestamp
= 2.5;
132 other
.phase
= TRACE_EVENT_PHASE_END
;
133 other
.category
= "category2";
134 other
.name
= "name2";
136 other
.arg_numbers
["num2"] = 8.0;
137 other
.arg_strings
["str2"] = "the string 2";
139 event
.other_event
= &other
;
140 ASSERT_TRUE(event
.has_other_event());
141 double duration
= event
.GetAbsTimeToOtherEvent();
143 Query event_pid
= Query::EventPidIs(event
.thread
.process_id
);
144 Query event_tid
= Query::EventTidIs(event
.thread
.thread_id
);
145 Query event_time
= Query::EventTimeIs(event
.timestamp
);
146 Query event_duration
= Query::EventDurationIs(duration
);
147 Query event_phase
= Query::EventPhaseIs(event
.phase
);
148 Query event_category
= Query::EventCategoryIs(event
.category
);
149 Query event_name
= Query::EventNameIs(event
.name
);
150 Query event_id
= Query::EventIdIs(event
.id
);
151 Query event_has_arg1
= Query::EventHasNumberArg("num");
152 Query event_has_arg2
= Query::EventHasStringArg("str");
154 (Query::EventArg("num") == Query::Double(event
.arg_numbers
["num"]));
156 (Query::EventArg("str") == Query::String(event
.arg_strings
["str"]));
157 Query event_has_other
= Query::EventHasOther();
158 Query other_pid
= Query::OtherPidIs(other
.thread
.process_id
);
159 Query other_tid
= Query::OtherTidIs(other
.thread
.thread_id
);
160 Query other_time
= Query::OtherTimeIs(other
.timestamp
);
161 Query other_phase
= Query::OtherPhaseIs(other
.phase
);
162 Query other_category
= Query::OtherCategoryIs(other
.category
);
163 Query other_name
= Query::OtherNameIs(other
.name
);
164 Query other_id
= Query::OtherIdIs(other
.id
);
165 Query other_has_arg1
= Query::OtherHasNumberArg("num2");
166 Query other_has_arg2
= Query::OtherHasStringArg("str2");
168 (Query::OtherArg("num2") == Query::Double(other
.arg_numbers
["num2"]));
170 (Query::OtherArg("str2") == Query::String(other
.arg_strings
["str2"]));
172 EXPECT_TRUE(event_pid
.Evaluate(event
));
173 EXPECT_TRUE(event_tid
.Evaluate(event
));
174 EXPECT_TRUE(event_time
.Evaluate(event
));
175 EXPECT_TRUE(event_duration
.Evaluate(event
));
176 EXPECT_TRUE(event_phase
.Evaluate(event
));
177 EXPECT_TRUE(event_category
.Evaluate(event
));
178 EXPECT_TRUE(event_name
.Evaluate(event
));
179 EXPECT_TRUE(event_id
.Evaluate(event
));
180 EXPECT_TRUE(event_has_arg1
.Evaluate(event
));
181 EXPECT_TRUE(event_has_arg2
.Evaluate(event
));
182 EXPECT_TRUE(event_arg1
.Evaluate(event
));
183 EXPECT_TRUE(event_arg2
.Evaluate(event
));
184 EXPECT_TRUE(event_has_other
.Evaluate(event
));
185 EXPECT_TRUE(other_pid
.Evaluate(event
));
186 EXPECT_TRUE(other_tid
.Evaluate(event
));
187 EXPECT_TRUE(other_time
.Evaluate(event
));
188 EXPECT_TRUE(other_phase
.Evaluate(event
));
189 EXPECT_TRUE(other_category
.Evaluate(event
));
190 EXPECT_TRUE(other_name
.Evaluate(event
));
191 EXPECT_TRUE(other_id
.Evaluate(event
));
192 EXPECT_TRUE(other_has_arg1
.Evaluate(event
));
193 EXPECT_TRUE(other_has_arg2
.Evaluate(event
));
194 EXPECT_TRUE(other_arg1
.Evaluate(event
));
195 EXPECT_TRUE(other_arg2
.Evaluate(event
));
197 // Evaluate event queries against other to verify the queries fail when the
198 // event members are wrong.
199 EXPECT_FALSE(event_pid
.Evaluate(other
));
200 EXPECT_FALSE(event_tid
.Evaluate(other
));
201 EXPECT_FALSE(event_time
.Evaluate(other
));
202 EXPECT_FALSE(event_duration
.Evaluate(other
));
203 EXPECT_FALSE(event_phase
.Evaluate(other
));
204 EXPECT_FALSE(event_category
.Evaluate(other
));
205 EXPECT_FALSE(event_name
.Evaluate(other
));
206 EXPECT_FALSE(event_id
.Evaluate(other
));
207 EXPECT_FALSE(event_has_arg1
.Evaluate(other
));
208 EXPECT_FALSE(event_has_arg2
.Evaluate(other
));
209 EXPECT_FALSE(event_arg1
.Evaluate(other
));
210 EXPECT_FALSE(event_arg2
.Evaluate(other
));
211 EXPECT_FALSE(event_has_other
.Evaluate(other
));
214 TEST_F(TraceEventAnalyzerTest
, BooleanOperators
) {
219 TRACE_EVENT_INSTANT1("cat1", "name1", TRACE_EVENT_SCOPE_THREAD
, "num", 1);
220 TRACE_EVENT_INSTANT1("cat1", "name2", TRACE_EVENT_SCOPE_THREAD
, "num", 2);
221 TRACE_EVENT_INSTANT1("cat2", "name3", TRACE_EVENT_SCOPE_THREAD
, "num", 3);
222 TRACE_EVENT_INSTANT1("cat2", "name4", TRACE_EVENT_SCOPE_THREAD
, "num", 4);
226 scoped_ptr
<TraceAnalyzer
>
227 analyzer(TraceAnalyzer::Create(output_
.json_output
));
228 ASSERT_TRUE(!!analyzer
.get());
229 analyzer
->SetIgnoreMetadataEvents(true);
231 TraceEventVector found
;
235 analyzer
->FindEvents(Query::EventCategory() == Query::String("cat1"), &found
);
236 ASSERT_EQ(2u, found
.size());
237 EXPECT_STREQ("name1", found
[0]->name
.c_str());
238 EXPECT_STREQ("name2", found
[1]->name
.c_str());
240 analyzer
->FindEvents(Query::EventArg("num") == Query::Int(2), &found
);
241 ASSERT_EQ(1u, found
.size());
242 EXPECT_STREQ("name2", found
[0]->name
.c_str());
246 analyzer
->FindEvents(Query::EventCategory() != Query::String("cat1"), &found
);
247 ASSERT_EQ(2u, found
.size());
248 EXPECT_STREQ("name3", found
[0]->name
.c_str());
249 EXPECT_STREQ("name4", found
[1]->name
.c_str());
251 analyzer
->FindEvents(Query::EventArg("num") != Query::Int(2), &found
);
252 ASSERT_EQ(3u, found
.size());
253 EXPECT_STREQ("name1", found
[0]->name
.c_str());
254 EXPECT_STREQ("name3", found
[1]->name
.c_str());
255 EXPECT_STREQ("name4", found
[2]->name
.c_str());
258 analyzer
->FindEvents(Query::EventArg("num") < Query::Int(2), &found
);
259 ASSERT_EQ(1u, found
.size());
260 EXPECT_STREQ("name1", found
[0]->name
.c_str());
263 analyzer
->FindEvents(Query::EventArg("num") <= Query::Int(2), &found
);
264 ASSERT_EQ(2u, found
.size());
265 EXPECT_STREQ("name1", found
[0]->name
.c_str());
266 EXPECT_STREQ("name2", found
[1]->name
.c_str());
269 analyzer
->FindEvents(Query::EventArg("num") > Query::Int(3), &found
);
270 ASSERT_EQ(1u, found
.size());
271 EXPECT_STREQ("name4", found
[0]->name
.c_str());
274 analyzer
->FindEvents(Query::EventArg("num") >= Query::Int(4), &found
);
275 ASSERT_EQ(1u, found
.size());
276 EXPECT_STREQ("name4", found
[0]->name
.c_str());
279 analyzer
->FindEvents(Query::EventName() != Query::String("name1") &&
280 Query::EventArg("num") < Query::Int(3), &found
);
281 ASSERT_EQ(1u, found
.size());
282 EXPECT_STREQ("name2", found
[0]->name
.c_str());
285 analyzer
->FindEvents(Query::EventName() == Query::String("name1") ||
286 Query::EventArg("num") == Query::Int(3), &found
);
287 ASSERT_EQ(2u, found
.size());
288 EXPECT_STREQ("name1", found
[0]->name
.c_str());
289 EXPECT_STREQ("name3", found
[1]->name
.c_str());
292 analyzer
->FindEvents(!(Query::EventName() == Query::String("name1") ||
293 Query::EventArg("num") == Query::Int(3)), &found
);
294 ASSERT_EQ(2u, found
.size());
295 EXPECT_STREQ("name2", found
[0]->name
.c_str());
296 EXPECT_STREQ("name4", found
[1]->name
.c_str());
299 TEST_F(TraceEventAnalyzerTest
, ArithmeticOperators
) {
304 // These events are searched for:
305 TRACE_EVENT_INSTANT2("cat1", "math1", TRACE_EVENT_SCOPE_THREAD
,
307 TRACE_EVENT_INSTANT2("cat1", "math2", TRACE_EVENT_SCOPE_THREAD
,
309 // Extra events that never match, for noise:
310 TRACE_EVENT_INSTANT2("noise", "math3", TRACE_EVENT_SCOPE_THREAD
,
312 TRACE_EVENT_INSTANT2("noise", "math4", TRACE_EVENT_SCOPE_THREAD
,
317 scoped_ptr
<TraceAnalyzer
>
318 analyzer(TraceAnalyzer::Create(output_
.json_output
));
319 ASSERT_TRUE(analyzer
.get());
321 TraceEventVector found
;
323 // Verify that arithmetic operators function:
326 analyzer
->FindEvents(Query::EventArg("a") + Query::EventArg("b") ==
327 Query::Int(20), &found
);
328 EXPECT_EQ(1u, found
.size());
329 EXPECT_STREQ("math2", found
.front()->name
.c_str());
332 analyzer
->FindEvents(Query::EventArg("a") - Query::EventArg("b") ==
333 Query::Int(5), &found
);
334 EXPECT_EQ(1u, found
.size());
335 EXPECT_STREQ("math1", found
.front()->name
.c_str());
338 analyzer
->FindEvents(Query::EventArg("a") * Query::EventArg("b") ==
339 Query::Int(50), &found
);
340 EXPECT_EQ(1u, found
.size());
341 EXPECT_STREQ("math1", found
.front()->name
.c_str());
344 analyzer
->FindEvents(Query::EventArg("a") / Query::EventArg("b") ==
345 Query::Int(2), &found
);
346 EXPECT_EQ(1u, found
.size());
347 EXPECT_STREQ("math1", found
.front()->name
.c_str());
350 analyzer
->FindEvents(Query::EventArg("a") % Query::EventArg("b") ==
351 Query::Int(0), &found
);
352 EXPECT_EQ(2u, found
.size());
355 analyzer
->FindEvents(-Query::EventArg("b") == Query::Int(-10), &found
);
356 EXPECT_EQ(1u, found
.size());
357 EXPECT_STREQ("math2", found
.front()->name
.c_str());
360 TEST_F(TraceEventAnalyzerTest
, StringPattern
) {
365 TRACE_EVENT_INSTANT0("cat1", "name1", TRACE_EVENT_SCOPE_THREAD
);
366 TRACE_EVENT_INSTANT0("cat1", "name2", TRACE_EVENT_SCOPE_THREAD
);
367 TRACE_EVENT_INSTANT0("cat1", "no match", TRACE_EVENT_SCOPE_THREAD
);
368 TRACE_EVENT_INSTANT0("cat1", "name3x", TRACE_EVENT_SCOPE_THREAD
);
372 scoped_ptr
<TraceAnalyzer
>
373 analyzer(TraceAnalyzer::Create(output_
.json_output
));
374 ASSERT_TRUE(analyzer
.get());
375 analyzer
->SetIgnoreMetadataEvents(true);
377 TraceEventVector found
;
379 analyzer
->FindEvents(Query::EventName() == Query::Pattern("name?"), &found
);
380 ASSERT_EQ(2u, found
.size());
381 EXPECT_STREQ("name1", found
[0]->name
.c_str());
382 EXPECT_STREQ("name2", found
[1]->name
.c_str());
384 analyzer
->FindEvents(Query::EventName() == Query::Pattern("name*"), &found
);
385 ASSERT_EQ(3u, found
.size());
386 EXPECT_STREQ("name1", found
[0]->name
.c_str());
387 EXPECT_STREQ("name2", found
[1]->name
.c_str());
388 EXPECT_STREQ("name3x", found
[2]->name
.c_str());
390 analyzer
->FindEvents(Query::EventName() != Query::Pattern("name*"), &found
);
391 ASSERT_EQ(1u, found
.size());
392 EXPECT_STREQ("no match", found
[0]->name
.c_str());
395 // Test that duration queries work.
396 TEST_F(TraceEventAnalyzerTest
, BeginEndDuration
) {
399 const base::TimeDelta kSleepTime
= base::TimeDelta::FromMilliseconds(200);
400 // We will search for events that have a duration of greater than 90% of the
401 // sleep time, so that there is no flakiness.
402 int64 duration_cutoff_us
= (kSleepTime
.InMicroseconds() * 9) / 10;
406 TRACE_EVENT_BEGIN0("cat1", "name1"); // found by duration query
407 TRACE_EVENT_BEGIN0("noise", "name2"); // not searched for, just noise
409 TRACE_EVENT_BEGIN0("cat2", "name3"); // found by duration query
410 // next event not searched for, just noise
411 TRACE_EVENT_INSTANT0("noise", "name4", TRACE_EVENT_SCOPE_THREAD
);
412 base::debug::HighResSleepForTraceTest(kSleepTime
);
413 TRACE_EVENT_BEGIN0("cat2", "name5"); // not found (duration too short)
414 TRACE_EVENT_END0("cat2", "name5"); // not found (duration too short)
415 TRACE_EVENT_END0("cat2", "name3"); // found by duration query
417 TRACE_EVENT_END0("noise", "name2"); // not searched for, just noise
418 TRACE_EVENT_END0("cat1", "name1"); // found by duration query
422 scoped_ptr
<TraceAnalyzer
>
423 analyzer(TraceAnalyzer::Create(output_
.json_output
));
424 ASSERT_TRUE(analyzer
.get());
425 analyzer
->AssociateBeginEndEvents();
427 TraceEventVector found
;
428 analyzer
->FindEvents(
429 Query::MatchBeginWithEnd() &&
430 Query::EventDuration() >
431 Query::Int(static_cast<int>(duration_cutoff_us
)) &&
432 (Query::EventCategory() == Query::String("cat1") ||
433 Query::EventCategory() == Query::String("cat2") ||
434 Query::EventCategory() == Query::String("cat3")),
436 ASSERT_EQ(2u, found
.size());
437 EXPECT_STREQ("name1", found
[0]->name
.c_str());
438 EXPECT_STREQ("name3", found
[1]->name
.c_str());
441 // Test that duration queries work.
442 TEST_F(TraceEventAnalyzerTest
, CompleteDuration
) {
445 const base::TimeDelta kSleepTime
= base::TimeDelta::FromMilliseconds(200);
446 // We will search for events that have a duration of greater than 90% of the
447 // sleep time, so that there is no flakiness.
448 int64 duration_cutoff_us
= (kSleepTime
.InMicroseconds() * 9) / 10;
452 TRACE_EVENT0("cat1", "name1"); // found by duration query
453 TRACE_EVENT0("noise", "name2"); // not searched for, just noise
455 TRACE_EVENT0("cat2", "name3"); // found by duration query
456 // next event not searched for, just noise
457 TRACE_EVENT_INSTANT0("noise", "name4", TRACE_EVENT_SCOPE_THREAD
);
458 base::debug::HighResSleepForTraceTest(kSleepTime
);
459 TRACE_EVENT0("cat2", "name5"); // not found (duration too short)
464 scoped_ptr
<TraceAnalyzer
>
465 analyzer(TraceAnalyzer::Create(output_
.json_output
));
466 ASSERT_TRUE(analyzer
.get());
467 analyzer
->AssociateBeginEndEvents();
469 TraceEventVector found
;
470 analyzer
->FindEvents(
471 Query::EventCompleteDuration() >
472 Query::Int(static_cast<int>(duration_cutoff_us
)) &&
473 (Query::EventCategory() == Query::String("cat1") ||
474 Query::EventCategory() == Query::String("cat2") ||
475 Query::EventCategory() == Query::String("cat3")),
477 ASSERT_EQ(2u, found
.size());
478 EXPECT_STREQ("name1", found
[0]->name
.c_str());
479 EXPECT_STREQ("name3", found
[1]->name
.c_str());
482 // Test AssociateBeginEndEvents
483 TEST_F(TraceEventAnalyzerTest
, BeginEndAssocations
) {
488 TRACE_EVENT_END0("cat1", "name1"); // does not match out of order begin
489 TRACE_EVENT_BEGIN0("cat1", "name2");
490 TRACE_EVENT_INSTANT0("cat1", "name3", TRACE_EVENT_SCOPE_THREAD
);
491 TRACE_EVENT_BEGIN0("cat1", "name1");
492 TRACE_EVENT_END0("cat1", "name2");
496 scoped_ptr
<TraceAnalyzer
>
497 analyzer(TraceAnalyzer::Create(output_
.json_output
));
498 ASSERT_TRUE(analyzer
.get());
499 analyzer
->AssociateBeginEndEvents();
501 TraceEventVector found
;
502 analyzer
->FindEvents(Query::MatchBeginWithEnd(), &found
);
503 ASSERT_EQ(1u, found
.size());
504 EXPECT_STREQ("name2", found
[0]->name
.c_str());
507 // Test MergeAssociatedEventArgs
508 TEST_F(TraceEventAnalyzerTest
, MergeAssociatedEventArgs
) {
511 const char* arg_string
= "arg_string";
514 TRACE_EVENT_BEGIN0("cat1", "name1");
515 TRACE_EVENT_END1("cat1", "name1", "arg", arg_string
);
519 scoped_ptr
<TraceAnalyzer
>
520 analyzer(TraceAnalyzer::Create(output_
.json_output
));
521 ASSERT_TRUE(analyzer
.get());
522 analyzer
->AssociateBeginEndEvents();
524 TraceEventVector found
;
525 analyzer
->FindEvents(Query::MatchBeginName("name1"), &found
);
526 ASSERT_EQ(1u, found
.size());
527 std::string arg_actual
;
528 EXPECT_FALSE(found
[0]->GetArgAsString("arg", &arg_actual
));
530 analyzer
->MergeAssociatedEventArgs();
531 EXPECT_TRUE(found
[0]->GetArgAsString("arg", &arg_actual
));
532 EXPECT_STREQ(arg_string
, arg_actual
.c_str());
535 // Test AssociateAsyncBeginEndEvents
536 TEST_F(TraceEventAnalyzerTest
, AsyncBeginEndAssocations
) {
541 TRACE_EVENT_ASYNC_END0("cat1", "name1", 0xA); // no match / out of order
542 TRACE_EVENT_ASYNC_BEGIN0("cat1", "name1", 0xB);
543 TRACE_EVENT_ASYNC_BEGIN0("cat1", "name1", 0xC);
544 TRACE_EVENT_INSTANT0("cat1", "name1", TRACE_EVENT_SCOPE_THREAD
); // noise
545 TRACE_EVENT0("cat1", "name1"); // noise
546 TRACE_EVENT_ASYNC_END0("cat1", "name1", 0xB);
547 TRACE_EVENT_ASYNC_END0("cat1", "name1", 0xC);
548 TRACE_EVENT_ASYNC_BEGIN0("cat1", "name1", 0xA); // no match / out of order
552 scoped_ptr
<TraceAnalyzer
>
553 analyzer(TraceAnalyzer::Create(output_
.json_output
));
554 ASSERT_TRUE(analyzer
.get());
555 analyzer
->AssociateAsyncBeginEndEvents();
557 TraceEventVector found
;
558 analyzer
->FindEvents(Query::MatchAsyncBeginWithNext(), &found
);
559 ASSERT_EQ(2u, found
.size());
560 EXPECT_STRCASEEQ("0xb", found
[0]->id
.c_str());
561 EXPECT_STRCASEEQ("0xc", found
[1]->id
.c_str());
564 // Test AssociateAsyncBeginEndEvents
565 TEST_F(TraceEventAnalyzerTest
, AsyncBeginEndAssocationsWithSteps
) {
570 TRACE_EVENT_ASYNC_STEP_INTO0("c", "n", 0xA, "s1");
571 TRACE_EVENT_ASYNC_END0("c", "n", 0xA);
572 TRACE_EVENT_ASYNC_BEGIN0("c", "n", 0xB);
573 TRACE_EVENT_ASYNC_BEGIN0("c", "n", 0xC);
574 TRACE_EVENT_ASYNC_STEP_PAST0("c", "n", 0xB, "s1");
575 TRACE_EVENT_ASYNC_STEP_INTO0("c", "n", 0xC, "s1");
576 TRACE_EVENT_ASYNC_STEP_INTO1("c", "n", 0xC, "s2", "a", 1);
577 TRACE_EVENT_ASYNC_END0("c", "n", 0xB);
578 TRACE_EVENT_ASYNC_END0("c", "n", 0xC);
579 TRACE_EVENT_ASYNC_BEGIN0("c", "n", 0xA);
580 TRACE_EVENT_ASYNC_STEP_INTO0("c", "n", 0xA, "s2");
584 scoped_ptr
<TraceAnalyzer
>
585 analyzer(TraceAnalyzer::Create(output_
.json_output
));
586 ASSERT_TRUE(analyzer
.get());
587 analyzer
->AssociateAsyncBeginEndEvents();
589 TraceEventVector found
;
590 analyzer
->FindEvents(Query::MatchAsyncBeginWithNext(), &found
);
591 ASSERT_EQ(3u, found
.size());
593 EXPECT_STRCASEEQ("0xb", found
[0]->id
.c_str());
594 EXPECT_EQ(TRACE_EVENT_PHASE_ASYNC_STEP_PAST
, found
[0]->other_event
->phase
);
595 EXPECT_TRUE(found
[0]->other_event
->other_event
);
596 EXPECT_EQ(TRACE_EVENT_PHASE_ASYNC_END
,
597 found
[0]->other_event
->other_event
->phase
);
599 EXPECT_STRCASEEQ("0xc", found
[1]->id
.c_str());
600 EXPECT_EQ(TRACE_EVENT_PHASE_ASYNC_STEP_INTO
, found
[1]->other_event
->phase
);
601 EXPECT_TRUE(found
[1]->other_event
->other_event
);
602 EXPECT_EQ(TRACE_EVENT_PHASE_ASYNC_STEP_INTO
,
603 found
[1]->other_event
->other_event
->phase
);
604 double arg_actual
= 0;
605 EXPECT_TRUE(found
[1]->other_event
->other_event
->GetArgAsNumber(
607 EXPECT_EQ(1.0, arg_actual
);
608 EXPECT_TRUE(found
[1]->other_event
->other_event
->other_event
);
609 EXPECT_EQ(TRACE_EVENT_PHASE_ASYNC_END
,
610 found
[1]->other_event
->other_event
->other_event
->phase
);
612 EXPECT_STRCASEEQ("0xa", found
[2]->id
.c_str());
613 EXPECT_EQ(TRACE_EVENT_PHASE_ASYNC_STEP_INTO
, found
[2]->other_event
->phase
);
616 // Test that the TraceAnalyzer custom associations work.
617 TEST_F(TraceEventAnalyzerTest
, CustomAssociations
) {
620 // Add events that begin/end in pipelined ordering with unique ID parameter
621 // to match up the begin/end pairs.
625 TRACE_EVENT_INSTANT1("cat1", "end", TRACE_EVENT_SCOPE_THREAD
, "id", 1);
627 TRACE_EVENT_INSTANT1("cat2", "begin", TRACE_EVENT_SCOPE_THREAD
, "id", 2);
629 TRACE_EVENT_INSTANT1("cat3", "begin", TRACE_EVENT_SCOPE_THREAD
, "id", 3);
630 TRACE_EVENT_INSTANT1("cat4", "end", TRACE_EVENT_SCOPE_THREAD
, "id", 2);
631 TRACE_EVENT_INSTANT1("cat5", "end", TRACE_EVENT_SCOPE_THREAD
, "id", 3);
633 TRACE_EVENT_INSTANT1("cat6", "begin", TRACE_EVENT_SCOPE_THREAD
, "id", 1);
637 scoped_ptr
<TraceAnalyzer
>
638 analyzer(TraceAnalyzer::Create(output_
.json_output
));
639 ASSERT_TRUE(analyzer
.get());
641 // begin, end, and match queries to find proper begin/end pairs.
642 Query
begin(Query::EventName() == Query::String("begin"));
643 Query
end(Query::EventName() == Query::String("end"));
644 Query
match(Query::EventArg("id") == Query::OtherArg("id"));
645 analyzer
->AssociateEvents(begin
, end
, match
);
647 TraceEventVector found
;
649 // cat1 has no other_event.
650 analyzer
->FindEvents(Query::EventCategory() == Query::String("cat1") &&
651 Query::EventHasOther(), &found
);
652 EXPECT_EQ(0u, found
.size());
654 // cat1 has no other_event.
655 analyzer
->FindEvents(Query::EventCategory() == Query::String("cat1") &&
656 !Query::EventHasOther(), &found
);
657 EXPECT_EQ(1u, found
.size());
659 // cat6 has no other_event.
660 analyzer
->FindEvents(Query::EventCategory() == Query::String("cat6") &&
661 !Query::EventHasOther(), &found
);
662 EXPECT_EQ(1u, found
.size());
664 // cat2 and cat4 are associated.
665 analyzer
->FindEvents(Query::EventCategory() == Query::String("cat2") &&
666 Query::OtherCategory() == Query::String("cat4"), &found
);
667 EXPECT_EQ(1u, found
.size());
669 // cat4 and cat2 are not associated.
670 analyzer
->FindEvents(Query::EventCategory() == Query::String("cat4") &&
671 Query::OtherCategory() == Query::String("cat2"), &found
);
672 EXPECT_EQ(0u, found
.size());
674 // cat3 and cat5 are associated.
675 analyzer
->FindEvents(Query::EventCategory() == Query::String("cat3") &&
676 Query::OtherCategory() == Query::String("cat5"), &found
);
677 EXPECT_EQ(1u, found
.size());
679 // cat5 and cat3 are not associated.
680 analyzer
->FindEvents(Query::EventCategory() == Query::String("cat5") &&
681 Query::OtherCategory() == Query::String("cat3"), &found
);
682 EXPECT_EQ(0u, found
.size());
685 // Verify that Query literals and types are properly casted.
686 TEST_F(TraceEventAnalyzerTest
, Literals
) {
689 // Since these queries don't refer to the event data, the dummy event below
690 // will never be accessed.
693 short short_num
= -5;
694 EXPECT_TRUE((Query::Double(5.0) == Query::Int(char_num
)).Evaluate(dummy
));
695 EXPECT_TRUE((Query::Double(-5.0) == Query::Int(short_num
)).Evaluate(dummy
));
696 EXPECT_TRUE((Query::Double(1.0) == Query::Uint(1u)).Evaluate(dummy
));
697 EXPECT_TRUE((Query::Double(1.0) == Query::Int(1)).Evaluate(dummy
));
698 EXPECT_TRUE((Query::Double(-1.0) == Query::Int(-1)).Evaluate(dummy
));
699 EXPECT_TRUE((Query::Double(1.0) == Query::Double(1.0f
)).Evaluate(dummy
));
700 EXPECT_TRUE((Query::Bool(true) == Query::Int(1)).Evaluate(dummy
));
701 EXPECT_TRUE((Query::Bool(false) == Query::Int(0)).Evaluate(dummy
));
702 EXPECT_TRUE((Query::Bool(true) == Query::Double(1.0f
)).Evaluate(dummy
));
703 EXPECT_TRUE((Query::Bool(false) == Query::Double(0.0f
)).Evaluate(dummy
));
706 // Test GetRateStats.
707 TEST_F(TraceEventAnalyzerTest
, RateStats
) {
708 std::vector
<TraceEvent
> events
;
710 TraceEventVector event_ptrs
;
712 event
.timestamp
= 0.0;
713 double little_delta
= 1.0;
714 double big_delta
= 10.0;
715 double tiny_delta
= 0.1;
717 RateStatsOptions options
;
719 // Insert 10 events, each apart by little_delta.
720 for (int i
= 0; i
< 10; ++i
) {
721 event
.timestamp
+= little_delta
;
722 events
.push_back(event
);
723 event_ptrs
.push_back(&events
.back());
726 ASSERT_TRUE(GetRateStats(event_ptrs
, &stats
, NULL
));
727 EXPECT_EQ(little_delta
, stats
.mean_us
);
728 EXPECT_EQ(little_delta
, stats
.min_us
);
729 EXPECT_EQ(little_delta
, stats
.max_us
);
730 EXPECT_EQ(0.0, stats
.standard_deviation_us
);
732 // Add an event apart by big_delta.
733 event
.timestamp
+= big_delta
;
734 events
.push_back(event
);
735 event_ptrs
.push_back(&events
.back());
737 ASSERT_TRUE(GetRateStats(event_ptrs
, &stats
, NULL
));
738 EXPECT_LT(little_delta
, stats
.mean_us
);
739 EXPECT_EQ(little_delta
, stats
.min_us
);
740 EXPECT_EQ(big_delta
, stats
.max_us
);
741 EXPECT_LT(0.0, stats
.standard_deviation_us
);
743 // Trim off the biggest delta and verify stats.
744 options
.trim_min
= 0;
745 options
.trim_max
= 1;
746 ASSERT_TRUE(GetRateStats(event_ptrs
, &stats
, &options
));
747 EXPECT_EQ(little_delta
, stats
.mean_us
);
748 EXPECT_EQ(little_delta
, stats
.min_us
);
749 EXPECT_EQ(little_delta
, stats
.max_us
);
750 EXPECT_EQ(0.0, stats
.standard_deviation_us
);
752 // Add an event apart by tiny_delta.
753 event
.timestamp
+= tiny_delta
;
754 events
.push_back(event
);
755 event_ptrs
.push_back(&events
.back());
757 // Trim off both the biggest and tiniest delta and verify stats.
758 options
.trim_min
= 1;
759 options
.trim_max
= 1;
760 ASSERT_TRUE(GetRateStats(event_ptrs
, &stats
, &options
));
761 EXPECT_EQ(little_delta
, stats
.mean_us
);
762 EXPECT_EQ(little_delta
, stats
.min_us
);
763 EXPECT_EQ(little_delta
, stats
.max_us
);
764 EXPECT_EQ(0.0, stats
.standard_deviation_us
);
766 // Verify smallest allowed number of events.
767 TraceEventVector few_event_ptrs
;
768 few_event_ptrs
.push_back(&event
);
769 few_event_ptrs
.push_back(&event
);
770 ASSERT_FALSE(GetRateStats(few_event_ptrs
, &stats
, NULL
));
771 few_event_ptrs
.push_back(&event
);
772 ASSERT_TRUE(GetRateStats(few_event_ptrs
, &stats
, NULL
));
774 // Trim off more than allowed and verify failure.
775 options
.trim_min
= 0;
776 options
.trim_max
= 1;
777 ASSERT_FALSE(GetRateStats(few_event_ptrs
, &stats
, &options
));
780 // Test FindFirstOf and FindLastOf.
781 TEST_F(TraceEventAnalyzerTest
, FindOf
) {
782 size_t num_events
= 100;
784 TraceEventVector event_ptrs
;
785 EXPECT_FALSE(FindFirstOf(event_ptrs
, Query::Bool(true), 0, &index
));
786 EXPECT_FALSE(FindFirstOf(event_ptrs
, Query::Bool(true), 10, &index
));
787 EXPECT_FALSE(FindLastOf(event_ptrs
, Query::Bool(true), 0, &index
));
788 EXPECT_FALSE(FindLastOf(event_ptrs
, Query::Bool(true), 10, &index
));
790 std::vector
<TraceEvent
> events
;
791 events
.resize(num_events
);
792 for (size_t i
= 0; i
< events
.size(); ++i
)
793 event_ptrs
.push_back(&events
[i
]);
794 size_t bam_index
= num_events
/2;
795 events
[bam_index
].name
= "bam";
796 Query query_bam
= Query::EventName() == Query::String(events
[bam_index
].name
);
799 EXPECT_FALSE(FindFirstOf(event_ptrs
, Query::Bool(false), 0, &index
));
800 EXPECT_TRUE(FindFirstOf(event_ptrs
, Query::Bool(true), 0, &index
));
801 EXPECT_EQ(0u, index
);
802 EXPECT_TRUE(FindFirstOf(event_ptrs
, Query::Bool(true), 5, &index
));
803 EXPECT_EQ(5u, index
);
805 EXPECT_FALSE(FindFirstOf(event_ptrs
, query_bam
, bam_index
+ 1, &index
));
806 EXPECT_TRUE(FindFirstOf(event_ptrs
, query_bam
, 0, &index
));
807 EXPECT_EQ(bam_index
, index
);
808 EXPECT_TRUE(FindFirstOf(event_ptrs
, query_bam
, bam_index
, &index
));
809 EXPECT_EQ(bam_index
, index
);
812 EXPECT_FALSE(FindLastOf(event_ptrs
, Query::Bool(false), 1000, &index
));
813 EXPECT_TRUE(FindLastOf(event_ptrs
, Query::Bool(true), 1000, &index
));
814 EXPECT_EQ(num_events
- 1, index
);
815 EXPECT_TRUE(FindLastOf(event_ptrs
, Query::Bool(true), num_events
- 5,
817 EXPECT_EQ(num_events
- 5, index
);
819 EXPECT_FALSE(FindLastOf(event_ptrs
, query_bam
, bam_index
- 1, &index
));
820 EXPECT_TRUE(FindLastOf(event_ptrs
, query_bam
, num_events
, &index
));
821 EXPECT_EQ(bam_index
, index
);
822 EXPECT_TRUE(FindLastOf(event_ptrs
, query_bam
, bam_index
, &index
));
823 EXPECT_EQ(bam_index
, index
);
827 TEST_F(TraceEventAnalyzerTest
, FindClosest
) {
830 TraceEventVector event_ptrs
;
831 EXPECT_FALSE(FindClosest(event_ptrs
, Query::Bool(true), 0,
832 &index_1
, &index_2
));
834 size_t num_events
= 5;
835 std::vector
<TraceEvent
> events
;
836 events
.resize(num_events
);
837 for (size_t i
= 0; i
< events
.size(); ++i
) {
838 // timestamps go up exponentially so the lower index is always closer in
839 // time than the higher index.
840 events
[i
].timestamp
= static_cast<double>(i
) * static_cast<double>(i
);
841 event_ptrs
.push_back(&events
[i
]);
843 events
[0].name
= "one";
844 events
[2].name
= "two";
845 events
[4].name
= "three";
846 Query query_named
= Query::EventName() != Query::String(std::string());
847 Query query_one
= Query::EventName() == Query::String("one");
849 // Only one event matches query_one, so two closest can't be found.
850 EXPECT_FALSE(FindClosest(event_ptrs
, query_one
, 0, &index_1
, &index_2
));
852 EXPECT_TRUE(FindClosest(event_ptrs
, query_one
, 3, &index_1
, NULL
));
853 EXPECT_EQ(0u, index_1
);
855 EXPECT_TRUE(FindClosest(event_ptrs
, query_named
, 1, &index_1
, &index_2
));
856 EXPECT_EQ(0u, index_1
);
857 EXPECT_EQ(2u, index_2
);
859 EXPECT_TRUE(FindClosest(event_ptrs
, query_named
, 4, &index_1
, &index_2
));
860 EXPECT_EQ(4u, index_1
);
861 EXPECT_EQ(2u, index_2
);
863 EXPECT_TRUE(FindClosest(event_ptrs
, query_named
, 3, &index_1
, &index_2
));
864 EXPECT_EQ(2u, index_1
);
865 EXPECT_EQ(0u, index_2
);
868 // Test CountMatches.
869 TEST_F(TraceEventAnalyzerTest
, CountMatches
) {
870 TraceEventVector event_ptrs
;
871 EXPECT_EQ(0u, CountMatches(event_ptrs
, Query::Bool(true), 0, 10));
873 size_t num_events
= 5;
874 size_t num_named
= 3;
875 std::vector
<TraceEvent
> events
;
876 events
.resize(num_events
);
877 for (size_t i
= 0; i
< events
.size(); ++i
)
878 event_ptrs
.push_back(&events
[i
]);
879 events
[0].name
= "one";
880 events
[2].name
= "two";
881 events
[4].name
= "three";
882 Query query_named
= Query::EventName() != Query::String(std::string());
883 Query query_one
= Query::EventName() == Query::String("one");
885 EXPECT_EQ(0u, CountMatches(event_ptrs
, Query::Bool(false)));
886 EXPECT_EQ(num_events
, CountMatches(event_ptrs
, Query::Bool(true)));
887 EXPECT_EQ(num_events
- 1, CountMatches(event_ptrs
, Query::Bool(true),
889 EXPECT_EQ(1u, CountMatches(event_ptrs
, query_one
));
890 EXPECT_EQ(num_events
- 1, CountMatches(event_ptrs
, !query_one
));
891 EXPECT_EQ(num_named
, CountMatches(event_ptrs
, query_named
));
895 } // namespace trace_analyzer