base/debug/trace_event_memory_unittest.cc - platform/external/chromium_org - Git at Google

 // Copyright 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "base/debug/trace_event_memory.h"

 #include <sstream>
 #include <string>

 #include "base/debug/trace_event_impl.h"
 #include "base/message_loop/message_loop.h"
 #include "testing/gtest/include/gtest/gtest.h"

 #if defined(TCMALLOC_TRACE_MEMORY_SUPPORTED)
 #include "third_party/tcmalloc/chromium/src/gperftools/heap-profiler.h"
 #endif

 namespace base {
 namespace debug {

 // Tests for the trace event memory tracking system. Exists as a class so it
 // can be a friend of TraceMemoryController.
 class TraceMemoryTest : public testing::Test {
  public:
   TraceMemoryTest() {}
   virtual ~TraceMemoryTest() {}

  private:
   DISALLOW_COPY_AND_ASSIGN(TraceMemoryTest);
 };

 //////////////////////////////////////////////////////////////////////////////

 #if defined(TCMALLOC_TRACE_MEMORY_SUPPORTED)

 TEST_F(TraceMemoryTest, TraceMemoryController) {
   MessageLoop message_loop;

   // Start with no observers of the TraceLog.
   EXPECT_EQ(0u, TraceLog::GetInstance()->GetObserverCountForTest());

   // Creating a controller adds it to the TraceLog observer list.
   scoped_ptr<TraceMemoryController> controller(
       new TraceMemoryController(
           message_loop.message_loop_proxy(),
           ::HeapProfilerWithPseudoStackStart,
           ::HeapProfilerStop,
           ::GetHeapProfile));
   EXPECT_EQ(1u, TraceLog::GetInstance()->GetObserverCountForTest());
   EXPECT_TRUE(
       TraceLog::GetInstance()->HasEnabledStateObserver(controller.get()));

   // By default the observer isn't dumping memory profiles.
   EXPECT_FALSE(controller->IsTimerRunningForTest());

   // Simulate enabling tracing.
   controller->StartProfiling();
   message_loop.RunUntilIdle();
   EXPECT_TRUE(controller->IsTimerRunningForTest());

   // Simulate disabling tracing.
   controller->StopProfiling();
   message_loop.RunUntilIdle();
   EXPECT_FALSE(controller->IsTimerRunningForTest());

   // Deleting the observer removes it from the TraceLog observer list.
   controller.reset();
   EXPECT_EQ(0u, TraceLog::GetInstance()->GetObserverCountForTest());
 }

 TEST_F(TraceMemoryTest, ScopedTraceMemory) {
   ScopedTraceMemory::InitForTest();

   // Start with an empty stack.
   EXPECT_EQ(0, ScopedTraceMemory::GetStackDepthForTest());

   {
     // Push an item.
     ScopedTraceMemory scope1("cat1", "name1");
     EXPECT_EQ(1, ScopedTraceMemory::GetStackDepthForTest());
     EXPECT_EQ("cat1", ScopedTraceMemory::GetScopeDataForTest(0).category);
     EXPECT_EQ("name1", ScopedTraceMemory::GetScopeDataForTest(0).name);

     {
       // One more item.
       ScopedTraceMemory scope2("cat2", "name2");
       EXPECT_EQ(2, ScopedTraceMemory::GetStackDepthForTest());
       EXPECT_EQ("cat2", ScopedTraceMemory::GetScopeDataForTest(1).category);
       EXPECT_EQ("name2", ScopedTraceMemory::GetScopeDataForTest(1).name);
     }

     // Ended scope 2.
     EXPECT_EQ(1, ScopedTraceMemory::GetStackDepthForTest());
   }

   // Ended scope 1.
   EXPECT_EQ(0, ScopedTraceMemory::GetStackDepthForTest());

   ScopedTraceMemory::CleanupForTest();
 }

 void TestDeepScopeNesting(int current, int depth) {
   EXPECT_EQ(current, ScopedTraceMemory::GetStackDepthForTest());
   ScopedTraceMemory scope("category", "name");
   if (current < depth)
     TestDeepScopeNesting(current + 1, depth);
   EXPECT_EQ(current + 1, ScopedTraceMemory::GetStackDepthForTest());
 }

 TEST_F(TraceMemoryTest, DeepScopeNesting) {
   ScopedTraceMemory::InitForTest();

   // Ensure really deep scopes don't crash.
   TestDeepScopeNesting(0, 100);

   ScopedTraceMemory::CleanupForTest();
 }

 #endif  // defined(TRACE_MEMORY_SUPPORTED)

 /////////////////////////////////////////////////////////////////////////////

 TEST_F(TraceMemoryTest, AppendHeapProfileTotalsAsTraceFormat) {
   // Empty input gives empty output.
   std::string empty_output;
   AppendHeapProfileTotalsAsTraceFormat("", &empty_output);
   EXPECT_EQ("", empty_output);

   // Typical case.
   const char input[] =
       "heap profile:    357:    55227 [ 14653:  2624014] @ heapprofile";
   const std::string kExpectedOutput =
       "{\"current_allocs\": 357, \"current_bytes\": 55227, \"trace\": \"\"}";
   std::string output;
   AppendHeapProfileTotalsAsTraceFormat(input, &output);
   EXPECT_EQ(kExpectedOutput, output);
 }

 TEST_F(TraceMemoryTest, AppendHeapProfileLineAsTraceFormat) {
   // Empty input gives empty output.
   std::string empty_output;
   EXPECT_FALSE(AppendHeapProfileLineAsTraceFormat("", &empty_output));
   EXPECT_EQ("", empty_output);

   // Invalid input returns false.
   std::string junk_output;
   EXPECT_FALSE(AppendHeapProfileLineAsTraceFormat("junk", &junk_output));

   // Input with normal category and name entries.
   const char kCategory[] = "category";
   const char kName[] = "name";
   std::ostringstream input;
   input << "   68:     4195 [  1087:    98009] @ " << &kCategory << " "
         << &kName;
   const std::string kExpectedOutput =
       ",\n"
       "{"
       "\"current_allocs\": 68, "
       "\"current_bytes\": 4195, "
       "\"trace\": \"name \""
       "}";
   std::string output;
   EXPECT_TRUE(
       AppendHeapProfileLineAsTraceFormat(input.str().c_str(), &output));
   EXPECT_EQ(kExpectedOutput, output);

   // Input with with the category "toplevel".
   // TODO(jamescook): Eliminate this special case and move the logic to the
   // trace viewer code.
   const char kTaskCategory[] = "toplevel";
   const char kTaskName[] = "TaskName";
   std::ostringstream input2;
   input2 << "   68:     4195 [  1087:    98009] @ " << &kTaskCategory << " "
         << &kTaskName;
   const std::string kExpectedOutput2 =
       ",\n"
       "{"
       "\"current_allocs\": 68, "
       "\"current_bytes\": 4195, "
       "\"trace\": \"TaskName->PostTask \""
       "}";
   std::string output2;
   EXPECT_TRUE(
       AppendHeapProfileLineAsTraceFormat(input2.str().c_str(), &output2));
   EXPECT_EQ(kExpectedOutput2, output2);

   // Zero current allocations is skipped.
   std::ostringstream zero_input;
   zero_input << "   0:     0 [  1087:    98009] @ " << &kCategory << " "
              << &kName;
   std::string zero_output;
   EXPECT_FALSE(AppendHeapProfileLineAsTraceFormat(zero_input.str().c_str(),
                                                   &zero_output));
   EXPECT_EQ("", zero_output);
 }

 TEST_F(TraceMemoryTest, AppendHeapProfileAsTraceFormat) {
   // Empty input gives empty output.
   std::string empty_output;
   AppendHeapProfileAsTraceFormat("", &empty_output);
   EXPECT_EQ("", empty_output);

   // Typical case.
   const char input[] =
       "heap profile:    357:    55227 [ 14653:  2624014] @ heapprofile\n"
       "   95:    40940 [   649:   114260] @\n"
       "   77:    32546 [   742:   106234] @ 0x0 0x0\n"
       "    0:        0 [   132:     4236] @ 0x0\n"
       "\n"
       "MAPPED_LIBRARIES:\n"
       "1be411fc1000-1be4139e4000 rw-p 00000000 00:00 0\n"
       "1be4139e4000-1be4139e5000 ---p 00000000 00:00 0\n";
   const std::string kExpectedOutput =
       "[{"
       "\"current_allocs\": 357, "
       "\"current_bytes\": 55227, "
       "\"trace\": \"\"},\n"
       "{\"current_allocs\": 95, "
       "\"current_bytes\": 40940, "
       "\"trace\": \"\"},\n"
       "{\"current_allocs\": 77, "
       "\"current_bytes\": 32546, "
       "\"trace\": \"null \""
       "}]\n";
   std::string output;
   AppendHeapProfileAsTraceFormat(input, &output);
   EXPECT_EQ(kExpectedOutput, output);
 }

 TEST_F(TraceMemoryTest, StringFromHexAddress) {
   EXPECT_STREQ("null", StringFromHexAddress("0x0"));
   EXPECT_STREQ("error", StringFromHexAddress("not an address"));
   const char kHello[] = "hello";
   std::ostringstream hex_address;
   hex_address << &kHello;
   EXPECT_STREQ(kHello, StringFromHexAddress(hex_address.str()));
 }

 }  // namespace debug
 }  // namespace base
	// Copyright 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "base/debug/trace_event_memory.h"

	#include <sstream>
	#include <string>

	#include "base/debug/trace_event_impl.h"
	#include "base/message_loop/message_loop.h"
	#include "testing/gtest/include/gtest/gtest.h"

	#if defined(TCMALLOC_TRACE_MEMORY_SUPPORTED)
	#include "third_party/tcmalloc/chromium/src/gperftools/heap-profiler.h"
	#endif

	namespace base {
	namespace debug {

	// Tests for the trace event memory tracking system. Exists as a class so it
	// can be a friend of TraceMemoryController.
	class TraceMemoryTest : public testing::Test {
	public:
	TraceMemoryTest() {}
	virtual ~TraceMemoryTest() {}

	private:
	DISALLOW_COPY_AND_ASSIGN(TraceMemoryTest);
	};

	//////////////////////////////////////////////////////////////////////////////

	#if defined(TCMALLOC_TRACE_MEMORY_SUPPORTED)

	TEST_F(TraceMemoryTest, TraceMemoryController) {
	MessageLoop message_loop;

	// Start with no observers of the TraceLog.
	EXPECT_EQ(0u, TraceLog::GetInstance()->GetObserverCountForTest());

	// Creating a controller adds it to the TraceLog observer list.
	scoped_ptr<TraceMemoryController> controller(
	new TraceMemoryController(
	message_loop.message_loop_proxy(),
	::HeapProfilerWithPseudoStackStart,
	::HeapProfilerStop,
	::GetHeapProfile));
	EXPECT_EQ(1u, TraceLog::GetInstance()->GetObserverCountForTest());
	EXPECT_TRUE(
	TraceLog::GetInstance()->HasEnabledStateObserver(controller.get()));

	// By default the observer isn't dumping memory profiles.
	EXPECT_FALSE(controller->IsTimerRunningForTest());

	// Simulate enabling tracing.
	controller->StartProfiling();
	message_loop.RunUntilIdle();
	EXPECT_TRUE(controller->IsTimerRunningForTest());

	// Simulate disabling tracing.
	controller->StopProfiling();
	message_loop.RunUntilIdle();
	EXPECT_FALSE(controller->IsTimerRunningForTest());

	// Deleting the observer removes it from the TraceLog observer list.
	controller.reset();
	EXPECT_EQ(0u, TraceLog::GetInstance()->GetObserverCountForTest());
	}

	TEST_F(TraceMemoryTest, ScopedTraceMemory) {
	ScopedTraceMemory::InitForTest();

	// Start with an empty stack.
	EXPECT_EQ(0, ScopedTraceMemory::GetStackDepthForTest());

	{
	// Push an item.
	ScopedTraceMemory scope1("cat1", "name1");
	EXPECT_EQ(1, ScopedTraceMemory::GetStackDepthForTest());
	EXPECT_EQ("cat1", ScopedTraceMemory::GetScopeDataForTest(0).category);
	EXPECT_EQ("name1", ScopedTraceMemory::GetScopeDataForTest(0).name);

	{
	// One more item.
	ScopedTraceMemory scope2("cat2", "name2");
	EXPECT_EQ(2, ScopedTraceMemory::GetStackDepthForTest());
	EXPECT_EQ("cat2", ScopedTraceMemory::GetScopeDataForTest(1).category);
	EXPECT_EQ("name2", ScopedTraceMemory::GetScopeDataForTest(1).name);
	}

	// Ended scope 2.
	EXPECT_EQ(1, ScopedTraceMemory::GetStackDepthForTest());
	}

	// Ended scope 1.
	EXPECT_EQ(0, ScopedTraceMemory::GetStackDepthForTest());

	ScopedTraceMemory::CleanupForTest();
	}

	void TestDeepScopeNesting(int current, int depth) {
	EXPECT_EQ(current, ScopedTraceMemory::GetStackDepthForTest());
	ScopedTraceMemory scope("category", "name");
	if (current < depth)
	TestDeepScopeNesting(current + 1, depth);
	EXPECT_EQ(current + 1, ScopedTraceMemory::GetStackDepthForTest());
	}

	TEST_F(TraceMemoryTest, DeepScopeNesting) {
	ScopedTraceMemory::InitForTest();

	// Ensure really deep scopes don't crash.
	TestDeepScopeNesting(0, 100);

	ScopedTraceMemory::CleanupForTest();
	}

	#endif // defined(TRACE_MEMORY_SUPPORTED)

	/////////////////////////////////////////////////////////////////////////////

	TEST_F(TraceMemoryTest, AppendHeapProfileTotalsAsTraceFormat) {
	// Empty input gives empty output.
	std::string empty_output;
	AppendHeapProfileTotalsAsTraceFormat("", &empty_output);
	EXPECT_EQ("", empty_output);

	// Typical case.
	const char input[] =
	"heap profile: 357: 55227 [ 14653: 2624014] @ heapprofile";
	const std::string kExpectedOutput =
	"{\"current_allocs\": 357, \"current_bytes\": 55227, \"trace\": \"\"}";
	std::string output;
	AppendHeapProfileTotalsAsTraceFormat(input, &output);
	EXPECT_EQ(kExpectedOutput, output);
	}

	TEST_F(TraceMemoryTest, AppendHeapProfileLineAsTraceFormat) {
	// Empty input gives empty output.
	std::string empty_output;
	EXPECT_FALSE(AppendHeapProfileLineAsTraceFormat("", &empty_output));
	EXPECT_EQ("", empty_output);

	// Invalid input returns false.
	std::string junk_output;
	EXPECT_FALSE(AppendHeapProfileLineAsTraceFormat("junk", &junk_output));

	// Input with normal category and name entries.
	const char kCategory[] = "category";
	const char kName[] = "name";
	std::ostringstream input;
	input << " 68: 4195 [ 1087: 98009] @ " << &kCategory << " "
	<< &kName;
	const std::string kExpectedOutput =
	",\n"
	"{"
	"\"current_allocs\": 68, "
	"\"current_bytes\": 4195, "
	"\"trace\": \"name \""
	"}";
	std::string output;
	EXPECT_TRUE(
	AppendHeapProfileLineAsTraceFormat(input.str().c_str(), &output));
	EXPECT_EQ(kExpectedOutput, output);

	// Input with with the category "toplevel".
	// TODO(jamescook): Eliminate this special case and move the logic to the
	// trace viewer code.
	const char kTaskCategory[] = "toplevel";
	const char kTaskName[] = "TaskName";
	std::ostringstream input2;
	input2 << " 68: 4195 [ 1087: 98009] @ " << &kTaskCategory << " "
	<< &kTaskName;
	const std::string kExpectedOutput2 =
	",\n"
	"{"
	"\"current_allocs\": 68, "
	"\"current_bytes\": 4195, "
	"\"trace\": \"TaskName->PostTask \""
	"}";
	std::string output2;
	EXPECT_TRUE(
	AppendHeapProfileLineAsTraceFormat(input2.str().c_str(), &output2));
	EXPECT_EQ(kExpectedOutput2, output2);

	// Zero current allocations is skipped.
	std::ostringstream zero_input;
	zero_input << " 0: 0 [ 1087: 98009] @ " << &kCategory << " "
	<< &kName;
	std::string zero_output;
	EXPECT_FALSE(AppendHeapProfileLineAsTraceFormat(zero_input.str().c_str(),
	&zero_output));
	EXPECT_EQ("", zero_output);
	}

	TEST_F(TraceMemoryTest, AppendHeapProfileAsTraceFormat) {
	// Empty input gives empty output.
	std::string empty_output;
	AppendHeapProfileAsTraceFormat("", &empty_output);
	EXPECT_EQ("", empty_output);

	// Typical case.
	const char input[] =
	"heap profile: 357: 55227 [ 14653: 2624014] @ heapprofile\n"
	" 95: 40940 [ 649: 114260] @\n"
	" 77: 32546 [ 742: 106234] @ 0x0 0x0\n"
	" 0: 0 [ 132: 4236] @ 0x0\n"
	"\n"
	"MAPPED_LIBRARIES:\n"
	"1be411fc1000-1be4139e4000 rw-p 00000000 00:00 0\n"
	"1be4139e4000-1be4139e5000 ---p 00000000 00:00 0\n";
	const std::string kExpectedOutput =
	"[{"
	"\"current_allocs\": 357, "
	"\"current_bytes\": 55227, "
	"\"trace\": \"\"},\n"
	"{\"current_allocs\": 95, "
	"\"current_bytes\": 40940, "
	"\"trace\": \"\"},\n"
	"{\"current_allocs\": 77, "
	"\"current_bytes\": 32546, "
	"\"trace\": \"null \""
	"}]\n";
	std::string output;
	AppendHeapProfileAsTraceFormat(input, &output);
	EXPECT_EQ(kExpectedOutput, output);
	}

	TEST_F(TraceMemoryTest, StringFromHexAddress) {
	EXPECT_STREQ("null", StringFromHexAddress("0x0"));
	EXPECT_STREQ("error", StringFromHexAddress("not an address"));
	const char kHello[] = "hello";
	std::ostringstream hex_address;
	hex_address << &kHello;
	EXPECT_STREQ(kHello, StringFromHexAddress(hex_address.str()));
	}

	} // namespace debug
	} // namespace base