src/base/metrics/stats_table_unittest.cc - cobalt - Git at Google

 // Copyright (c) 2012 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/metrics/stats_counters.h"
 #include "base/metrics/stats_table.h"
 #include "base/shared_memory.h"
 #include "base/stringprintf.h"
 #include "base/string_piece.h"
 #include "base/test/multiprocess_test.h"
 #include "base/threading/platform_thread.h"
 #include "base/threading/simple_thread.h"
 #include "base/utf_string_conversions.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "testing/multiprocess_func_list.h"

 namespace base {

 class StatsTableTest : public MultiProcessTest {
  public:
   void DeleteShmem(const std::string& name) {
     SharedMemory mem;
     mem.Delete(name);
   }
 };

 // Open a StatsTable and verify that we can write to each of the
 // locations in the table.
 TEST_F(StatsTableTest, VerifySlots) {
   const std::string kTableName = "VerifySlotsStatTable";
   const int kMaxThreads = 1;
   const int kMaxCounter = 5;
   DeleteShmem(kTableName);
   StatsTable table(kTableName, kMaxThreads, kMaxCounter);

   // Register a single thread.
   std::string thread_name = "mainThread";
   int slot_id = table.RegisterThread(thread_name);
   EXPECT_NE(slot_id, 0);

   // Fill up the table with counters.
   std::string counter_base_name = "counter";
   for (int index = 0; index < kMaxCounter; index++) {
     std::string counter_name = counter_base_name;
     base::StringAppendF(&counter_name, "counter.ctr%d", index);
     int counter_id = table.FindCounter(counter_name);
     EXPECT_GT(counter_id, 0);
   }

   // Try to allocate an additional thread.  Verify it fails.
   slot_id = table.RegisterThread("too many threads");
   EXPECT_EQ(slot_id, 0);

   // Try to allocate an additional counter.  Verify it fails.
   int counter_id = table.FindCounter(counter_base_name);
   EXPECT_EQ(counter_id, 0);

   DeleteShmem(kTableName);
 }

 // CounterZero will continually be set to 0.
 const std::string kCounterZero = "CounterZero";
 // Counter1313 will continually be set to 1313.
 const std::string kCounter1313 = "Counter1313";
 // CounterIncrement will be incremented each time.
 const std::string kCounterIncrement = "CounterIncrement";
 // CounterDecrement will be decremented each time.
 const std::string kCounterDecrement = "CounterDecrement";
 // CounterMixed will be incremented by odd numbered threads and
 // decremented by even threads.
 const std::string kCounterMixed = "CounterMixed";
 // The number of thread loops that we will do.
 const int kThreadLoops = 100;

 class StatsTableThread : public SimpleThread {
  public:
   StatsTableThread(std::string name, int id)
       : SimpleThread(name),
         id_(id) {}

   virtual void Run() OVERRIDE;

  private:
   int id_;
 };

 void StatsTableThread::Run() {
   // Each thread will open the shared memory and set counters
   // concurrently in a loop.  We'll use some pauses to
   // mixup the thread scheduling.

   StatsCounter zero_counter(kCounterZero);
   StatsCounter lucky13_counter(kCounter1313);
   StatsCounter increment_counter(kCounterIncrement);
   StatsCounter decrement_counter(kCounterDecrement);
   for (int index = 0; index < kThreadLoops; index++) {
     StatsCounter mixed_counter(kCounterMixed);  // create this one in the loop
     zero_counter.Set(0);
     lucky13_counter.Set(1313);
     increment_counter.Increment();
     decrement_counter.Decrement();
     if (id_ % 2)
       mixed_counter.Decrement();
     else
       mixed_counter.Increment();
     PlatformThread::Sleep(TimeDelta::FromMilliseconds(index % 10));
   }
 }

 // Create a few threads and have them poke on their counters.
 // See http://crbug.com/10611 for more information.
 #if defined(OS_MACOSX)
 #define MAYBE_MultipleThreads DISABLED_MultipleThreads
 #else
 #define MAYBE_MultipleThreads MultipleThreads
 #endif
 TEST_F(StatsTableTest, MAYBE_MultipleThreads) {
   // Create a stats table.
   const std::string kTableName = "MultipleThreadStatTable";
   const int kMaxThreads = 20;
   const int kMaxCounter = 5;
   DeleteShmem(kTableName);
   StatsTable table(kTableName, kMaxThreads, kMaxCounter);
   StatsTable::set_current(&table);

   EXPECT_EQ(0, table.CountThreadsRegistered());

   // Spin up a set of threads to go bang on the various counters.
   // After we join the threads, we'll make sure the counters
   // contain the values we expected.
   StatsTableThread* threads[kMaxThreads];

   // Spawn the threads.
   for (int index = 0; index < kMaxThreads; index++) {
     threads[index] = new StatsTableThread("MultipleThreadsTest", index);
     threads[index]->Start();
   }

   // Wait for the threads to finish.
   for (int index = 0; index < kMaxThreads; index++) {
     threads[index]->Join();
     delete threads[index];
   }

   StatsCounter zero_counter(kCounterZero);
   StatsCounter lucky13_counter(kCounter1313);
   StatsCounter increment_counter(kCounterIncrement);
   StatsCounter decrement_counter(kCounterDecrement);
   StatsCounter mixed_counter(kCounterMixed);

   // Verify the various counters are correct.
   std::string name;
   name = "c:" + kCounterZero;
   EXPECT_EQ(0, table.GetCounterValue(name));
   name = "c:" + kCounter1313;
   EXPECT_EQ(1313 * kMaxThreads,
       table.GetCounterValue(name));
   name = "c:" + kCounterIncrement;
   EXPECT_EQ(kMaxThreads * kThreadLoops,
       table.GetCounterValue(name));
   name = "c:" + kCounterDecrement;
   EXPECT_EQ(-kMaxThreads * kThreadLoops,
       table.GetCounterValue(name));
   name = "c:" + kCounterMixed;
   EXPECT_EQ((kMaxThreads % 2) * kThreadLoops,
       table.GetCounterValue(name));
   EXPECT_EQ(0, table.CountThreadsRegistered());

   DeleteShmem(kTableName);
 }

 const std::string kMPTableName = "MultipleProcessStatTable";

 MULTIPROCESS_TEST_MAIN(StatsTableMultipleProcessMain) {
   // Each process will open the shared memory and set counters
   // concurrently in a loop.  We'll use some pauses to
   // mixup the scheduling.

   StatsTable table(kMPTableName, 0, 0);
   StatsTable::set_current(&table);
   StatsCounter zero_counter(kCounterZero);
   StatsCounter lucky13_counter(kCounter1313);
   StatsCounter increment_counter(kCounterIncrement);
   StatsCounter decrement_counter(kCounterDecrement);
   for (int index = 0; index < kThreadLoops; index++) {
     zero_counter.Set(0);
     lucky13_counter.Set(1313);
     increment_counter.Increment();
     decrement_counter.Decrement();
     PlatformThread::Sleep(TimeDelta::FromMilliseconds(index % 10));
   }
   return 0;
 }

 // Create a few processes and have them poke on their counters.
 // This test is slow and flaky http://crbug.com/10611
 TEST_F(StatsTableTest, DISABLED_MultipleProcesses) {
   // Create a stats table.
   const int kMaxProcs = 20;
   const int kMaxCounter = 5;
   DeleteShmem(kMPTableName);
   StatsTable table(kMPTableName, kMaxProcs, kMaxCounter);
   StatsTable::set_current(&table);
   EXPECT_EQ(0, table.CountThreadsRegistered());

   // Spin up a set of processes to go bang on the various counters.
   // After we join the processes, we'll make sure the counters
   // contain the values we expected.
   ProcessHandle procs[kMaxProcs];

   // Spawn the processes.
   for (int16 index = 0; index < kMaxProcs; index++) {
     procs[index] = this->SpawnChild("StatsTableMultipleProcessMain", false);
     EXPECT_NE(kNullProcessHandle, procs[index]);
   }

   // Wait for the processes to finish.
   for (int index = 0; index < kMaxProcs; index++) {
     EXPECT_TRUE(WaitForSingleProcess(
         procs[index], base::TimeDelta::FromMinutes(1)));
     CloseProcessHandle(procs[index]);
   }

   StatsCounter zero_counter(kCounterZero);
   StatsCounter lucky13_counter(kCounter1313);
   StatsCounter increment_counter(kCounterIncrement);
   StatsCounter decrement_counter(kCounterDecrement);

   // Verify the various counters are correct.
   std::string name;
   name = "c:" + kCounterZero;
   EXPECT_EQ(0, table.GetCounterValue(name));
   name = "c:" + kCounter1313;
   EXPECT_EQ(1313 * kMaxProcs,
       table.GetCounterValue(name));
   name = "c:" + kCounterIncrement;
   EXPECT_EQ(kMaxProcs * kThreadLoops,
       table.GetCounterValue(name));
   name = "c:" + kCounterDecrement;
   EXPECT_EQ(-kMaxProcs * kThreadLoops,
       table.GetCounterValue(name));
   EXPECT_EQ(0, table.CountThreadsRegistered());

   DeleteShmem(kMPTableName);
 }

 class MockStatsCounter : public StatsCounter {
  public:
   explicit MockStatsCounter(const std::string& name)
       : StatsCounter(name) {}
   int* Pointer() { return GetPtr(); }
 };

 // Test some basic StatsCounter operations
 TEST_F(StatsTableTest, StatsCounter) {
   // Create a stats table.
   const std::string kTableName = "StatTable";
   const int kMaxThreads = 20;
   const int kMaxCounter = 5;
   DeleteShmem(kTableName);
   StatsTable table(kTableName, kMaxThreads, kMaxCounter);
   StatsTable::set_current(&table);

   MockStatsCounter foo("foo");

   // Test initial state.
   EXPECT_TRUE(foo.Enabled());
   ASSERT_NE(foo.Pointer(), static_cast<int*>(0));
   EXPECT_EQ(0, *(foo.Pointer()));
   EXPECT_EQ(0, table.GetCounterValue("c:foo"));

   // Test Increment.
   while (*(foo.Pointer()) < 123) foo.Increment();
   EXPECT_EQ(123, table.GetCounterValue("c:foo"));
   foo.Add(0);
   EXPECT_EQ(123, table.GetCounterValue("c:foo"));
   foo.Add(-1);
   EXPECT_EQ(122, table.GetCounterValue("c:foo"));

   // Test Set.
   foo.Set(0);
   EXPECT_EQ(0, table.GetCounterValue("c:foo"));
   foo.Set(100);
   EXPECT_EQ(100, table.GetCounterValue("c:foo"));
   foo.Set(-1);
   EXPECT_EQ(-1, table.GetCounterValue("c:foo"));
   foo.Set(0);
   EXPECT_EQ(0, table.GetCounterValue("c:foo"));

   // Test Decrement.
   foo.Subtract(1);
   EXPECT_EQ(-1, table.GetCounterValue("c:foo"));
   foo.Subtract(0);
   EXPECT_EQ(-1, table.GetCounterValue("c:foo"));
   foo.Subtract(-1);
   EXPECT_EQ(0, table.GetCounterValue("c:foo"));

   DeleteShmem(kTableName);
 }

 class MockStatsCounterTimer : public StatsCounterTimer {
  public:
   explicit MockStatsCounterTimer(const std::string& name)
       : StatsCounterTimer(name) {}

   TimeTicks start_time() { return start_time_; }
   TimeTicks stop_time() { return stop_time_; }
 };

 // Test some basic StatsCounterTimer operations
 TEST_F(StatsTableTest, StatsCounterTimer) {
   // Create a stats table.
   const std::string kTableName = "StatTable";
   const int kMaxThreads = 20;
   const int kMaxCounter = 5;
   DeleteShmem(kTableName);
   StatsTable table(kTableName, kMaxThreads, kMaxCounter);
   StatsTable::set_current(&table);

   MockStatsCounterTimer bar("bar");

   // Test initial state.
   EXPECT_FALSE(bar.Running());
   EXPECT_TRUE(bar.start_time().is_null());
   EXPECT_TRUE(bar.stop_time().is_null());

   const TimeDelta kDuration = TimeDelta::FromMilliseconds(100);

   // Do some timing.
   bar.Start();
   PlatformThread::Sleep(kDuration);
   bar.Stop();
   EXPECT_GT(table.GetCounterValue("t:bar"), 0);
   EXPECT_LE(kDuration.InMilliseconds(), table.GetCounterValue("t:bar"));

   // Verify that timing again is additive.
   bar.Start();
   PlatformThread::Sleep(kDuration);
   bar.Stop();
   EXPECT_GT(table.GetCounterValue("t:bar"), 0);
   EXPECT_LE(kDuration.InMilliseconds() * 2, table.GetCounterValue("t:bar"));
   DeleteShmem(kTableName);
 }

 // Test some basic StatsRate operations
 TEST_F(StatsTableTest, StatsRate) {
   // Create a stats table.
   const std::string kTableName = "StatTable";
   const int kMaxThreads = 20;
   const int kMaxCounter = 5;
   DeleteShmem(kTableName);
   StatsTable table(kTableName, kMaxThreads, kMaxCounter);
   StatsTable::set_current(&table);

   StatsRate baz("baz");

   // Test initial state.
   EXPECT_FALSE(baz.Running());
   EXPECT_EQ(0, table.GetCounterValue("c:baz"));
   EXPECT_EQ(0, table.GetCounterValue("t:baz"));

   const TimeDelta kDuration = TimeDelta::FromMilliseconds(100);

   // Do some timing.
   baz.Start();
   PlatformThread::Sleep(kDuration);
   baz.Stop();
   EXPECT_EQ(1, table.GetCounterValue("c:baz"));
   EXPECT_LE(kDuration.InMilliseconds(), table.GetCounterValue("t:baz"));

   // Verify that timing again is additive.
   baz.Start();
   PlatformThread::Sleep(kDuration);
   baz.Stop();
   EXPECT_EQ(2, table.GetCounterValue("c:baz"));
   EXPECT_LE(kDuration.InMilliseconds() * 2, table.GetCounterValue("t:baz"));
   DeleteShmem(kTableName);
 }

 // Test some basic StatsScope operations
 TEST_F(StatsTableTest, StatsScope) {
   // Create a stats table.
   const std::string kTableName = "StatTable";
   const int kMaxThreads = 20;
   const int kMaxCounter = 5;
   DeleteShmem(kTableName);
   StatsTable table(kTableName, kMaxThreads, kMaxCounter);
   StatsTable::set_current(&table);

   StatsCounterTimer foo("foo");
   StatsRate bar("bar");

   // Test initial state.
   EXPECT_EQ(0, table.GetCounterValue("t:foo"));
   EXPECT_EQ(0, table.GetCounterValue("t:bar"));
   EXPECT_EQ(0, table.GetCounterValue("c:bar"));

   const TimeDelta kDuration = TimeDelta::FromMilliseconds(100);

   // Try a scope.
   {
     StatsScope<StatsCounterTimer> timer(foo);
     StatsScope<StatsRate> timer2(bar);
     PlatformThread::Sleep(kDuration);
   }
   EXPECT_LE(kDuration.InMilliseconds(), table.GetCounterValue("t:foo"));
   EXPECT_LE(kDuration.InMilliseconds(), table.GetCounterValue("t:bar"));
   EXPECT_EQ(1, table.GetCounterValue("c:bar"));

   // Try a second scope.
   {
     StatsScope<StatsCounterTimer> timer(foo);
     StatsScope<StatsRate> timer2(bar);
     PlatformThread::Sleep(kDuration);
   }
   EXPECT_LE(kDuration.InMilliseconds() * 2, table.GetCounterValue("t:foo"));
   EXPECT_LE(kDuration.InMilliseconds() * 2, table.GetCounterValue("t:bar"));
   EXPECT_EQ(2, table.GetCounterValue("c:bar"));

   DeleteShmem(kTableName);
 }

 }  // namespace base
	// Copyright (c) 2012 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/metrics/stats_counters.h"
	#include "base/metrics/stats_table.h"
	#include "base/shared_memory.h"
	#include "base/stringprintf.h"
	#include "base/string_piece.h"
	#include "base/test/multiprocess_test.h"
	#include "base/threading/platform_thread.h"
	#include "base/threading/simple_thread.h"
	#include "base/utf_string_conversions.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "testing/multiprocess_func_list.h"

	namespace base {

	class StatsTableTest : public MultiProcessTest {
	public:
	void DeleteShmem(const std::string& name) {
	SharedMemory mem;
	mem.Delete(name);
	}
	};

	// Open a StatsTable and verify that we can write to each of the
	// locations in the table.
	TEST_F(StatsTableTest, VerifySlots) {
	const std::string kTableName = "VerifySlotsStatTable";
	const int kMaxThreads = 1;
	const int kMaxCounter = 5;
	DeleteShmem(kTableName);
	StatsTable table(kTableName, kMaxThreads, kMaxCounter);

	// Register a single thread.
	std::string thread_name = "mainThread";
	int slot_id = table.RegisterThread(thread_name);
	EXPECT_NE(slot_id, 0);

	// Fill up the table with counters.
	std::string counter_base_name = "counter";
	for (int index = 0; index < kMaxCounter; index++) {
	std::string counter_name = counter_base_name;
	base::StringAppendF(&counter_name, "counter.ctr%d", index);
	int counter_id = table.FindCounter(counter_name);
	EXPECT_GT(counter_id, 0);
	}

	// Try to allocate an additional thread. Verify it fails.
	slot_id = table.RegisterThread("too many threads");
	EXPECT_EQ(slot_id, 0);

	// Try to allocate an additional counter. Verify it fails.
	int counter_id = table.FindCounter(counter_base_name);
	EXPECT_EQ(counter_id, 0);

	DeleteShmem(kTableName);
	}

	// CounterZero will continually be set to 0.
	const std::string kCounterZero = "CounterZero";
	// Counter1313 will continually be set to 1313.
	const std::string kCounter1313 = "Counter1313";
	// CounterIncrement will be incremented each time.
	const std::string kCounterIncrement = "CounterIncrement";
	// CounterDecrement will be decremented each time.
	const std::string kCounterDecrement = "CounterDecrement";
	// CounterMixed will be incremented by odd numbered threads and
	// decremented by even threads.
	const std::string kCounterMixed = "CounterMixed";
	// The number of thread loops that we will do.
	const int kThreadLoops = 100;

	class StatsTableThread : public SimpleThread {
	public:
	StatsTableThread(std::string name, int id)
	: SimpleThread(name),
	id_(id) {}

	virtual void Run() OVERRIDE;

	private:
	int id_;
	};

	void StatsTableThread::Run() {
	// Each thread will open the shared memory and set counters
	// concurrently in a loop. We'll use some pauses to
	// mixup the thread scheduling.

	StatsCounter zero_counter(kCounterZero);
	StatsCounter lucky13_counter(kCounter1313);
	StatsCounter increment_counter(kCounterIncrement);
	StatsCounter decrement_counter(kCounterDecrement);
	for (int index = 0; index < kThreadLoops; index++) {
	StatsCounter mixed_counter(kCounterMixed); // create this one in the loop
	zero_counter.Set(0);
	lucky13_counter.Set(1313);
	increment_counter.Increment();
	decrement_counter.Decrement();
	if (id_ % 2)
	mixed_counter.Decrement();
	else
	mixed_counter.Increment();
	PlatformThread::Sleep(TimeDelta::FromMilliseconds(index % 10));
	}
	}

	// Create a few threads and have them poke on their counters.
	// See http://crbug.com/10611 for more information.
	#if defined(OS_MACOSX)
	#define MAYBE_MultipleThreads DISABLED_MultipleThreads
	#else
	#define MAYBE_MultipleThreads MultipleThreads
	#endif
	TEST_F(StatsTableTest, MAYBE_MultipleThreads) {
	// Create a stats table.
	const std::string kTableName = "MultipleThreadStatTable";
	const int kMaxThreads = 20;
	const int kMaxCounter = 5;
	DeleteShmem(kTableName);
	StatsTable table(kTableName, kMaxThreads, kMaxCounter);
	StatsTable::set_current(&table);

	EXPECT_EQ(0, table.CountThreadsRegistered());

	// Spin up a set of threads to go bang on the various counters.
	// After we join the threads, we'll make sure the counters
	// contain the values we expected.
	StatsTableThread* threads[kMaxThreads];

	// Spawn the threads.
	for (int index = 0; index < kMaxThreads; index++) {
	threads[index] = new StatsTableThread("MultipleThreadsTest", index);
	threads[index]->Start();
	}

	// Wait for the threads to finish.
	for (int index = 0; index < kMaxThreads; index++) {
	threads[index]->Join();
	delete threads[index];
	}

	StatsCounter zero_counter(kCounterZero);
	StatsCounter lucky13_counter(kCounter1313);
	StatsCounter increment_counter(kCounterIncrement);
	StatsCounter decrement_counter(kCounterDecrement);
	StatsCounter mixed_counter(kCounterMixed);

	// Verify the various counters are correct.
	std::string name;
	name = "c:" + kCounterZero;
	EXPECT_EQ(0, table.GetCounterValue(name));
	name = "c:" + kCounter1313;
	EXPECT_EQ(1313 * kMaxThreads,
	table.GetCounterValue(name));
	name = "c:" + kCounterIncrement;
	EXPECT_EQ(kMaxThreads * kThreadLoops,
	table.GetCounterValue(name));
	name = "c:" + kCounterDecrement;
	EXPECT_EQ(-kMaxThreads * kThreadLoops,
	table.GetCounterValue(name));
	name = "c:" + kCounterMixed;
	EXPECT_EQ((kMaxThreads % 2) * kThreadLoops,
	table.GetCounterValue(name));
	EXPECT_EQ(0, table.CountThreadsRegistered());

	DeleteShmem(kTableName);
	}

	const std::string kMPTableName = "MultipleProcessStatTable";

	MULTIPROCESS_TEST_MAIN(StatsTableMultipleProcessMain) {
	// Each process will open the shared memory and set counters
	// concurrently in a loop. We'll use some pauses to
	// mixup the scheduling.

	StatsTable table(kMPTableName, 0, 0);
	StatsTable::set_current(&table);
	StatsCounter zero_counter(kCounterZero);
	StatsCounter lucky13_counter(kCounter1313);
	StatsCounter increment_counter(kCounterIncrement);
	StatsCounter decrement_counter(kCounterDecrement);
	for (int index = 0; index < kThreadLoops; index++) {
	zero_counter.Set(0);
	lucky13_counter.Set(1313);
	increment_counter.Increment();
	decrement_counter.Decrement();
	PlatformThread::Sleep(TimeDelta::FromMilliseconds(index % 10));
	}
	return 0;
	}

	// Create a few processes and have them poke on their counters.
	// This test is slow and flaky http://crbug.com/10611
	TEST_F(StatsTableTest, DISABLED_MultipleProcesses) {
	// Create a stats table.
	const int kMaxProcs = 20;
	const int kMaxCounter = 5;
	DeleteShmem(kMPTableName);
	StatsTable table(kMPTableName, kMaxProcs, kMaxCounter);
	StatsTable::set_current(&table);
	EXPECT_EQ(0, table.CountThreadsRegistered());

	// Spin up a set of processes to go bang on the various counters.
	// After we join the processes, we'll make sure the counters
	// contain the values we expected.
	ProcessHandle procs[kMaxProcs];

	// Spawn the processes.
	for (int16 index = 0; index < kMaxProcs; index++) {
	procs[index] = this->SpawnChild("StatsTableMultipleProcessMain", false);
	EXPECT_NE(kNullProcessHandle, procs[index]);
	}

	// Wait for the processes to finish.
	for (int index = 0; index < kMaxProcs; index++) {
	EXPECT_TRUE(WaitForSingleProcess(
	procs[index], base::TimeDelta::FromMinutes(1)));
	CloseProcessHandle(procs[index]);
	}

	StatsCounter zero_counter(kCounterZero);
	StatsCounter lucky13_counter(kCounter1313);
	StatsCounter increment_counter(kCounterIncrement);
	StatsCounter decrement_counter(kCounterDecrement);

	// Verify the various counters are correct.
	std::string name;
	name = "c:" + kCounterZero;
	EXPECT_EQ(0, table.GetCounterValue(name));
	name = "c:" + kCounter1313;
	EXPECT_EQ(1313 * kMaxProcs,
	table.GetCounterValue(name));
	name = "c:" + kCounterIncrement;
	EXPECT_EQ(kMaxProcs * kThreadLoops,
	table.GetCounterValue(name));
	name = "c:" + kCounterDecrement;
	EXPECT_EQ(-kMaxProcs * kThreadLoops,
	table.GetCounterValue(name));
	EXPECT_EQ(0, table.CountThreadsRegistered());

	DeleteShmem(kMPTableName);
	}

	class MockStatsCounter : public StatsCounter {
	public:
	explicit MockStatsCounter(const std::string& name)
	: StatsCounter(name) {}
	int* Pointer() { return GetPtr(); }
	};

	// Test some basic StatsCounter operations
	TEST_F(StatsTableTest, StatsCounter) {
	// Create a stats table.
	const std::string kTableName = "StatTable";
	const int kMaxThreads = 20;
	const int kMaxCounter = 5;
	DeleteShmem(kTableName);
	StatsTable table(kTableName, kMaxThreads, kMaxCounter);
	StatsTable::set_current(&table);

	MockStatsCounter foo("foo");

	// Test initial state.
	EXPECT_TRUE(foo.Enabled());
	ASSERT_NE(foo.Pointer(), static_cast<int*>(0));
	EXPECT_EQ(0, *(foo.Pointer()));
	EXPECT_EQ(0, table.GetCounterValue("c:foo"));

	// Test Increment.
	while (*(foo.Pointer()) < 123) foo.Increment();
	EXPECT_EQ(123, table.GetCounterValue("c:foo"));
	foo.Add(0);
	EXPECT_EQ(123, table.GetCounterValue("c:foo"));
	foo.Add(-1);
	EXPECT_EQ(122, table.GetCounterValue("c:foo"));

	// Test Set.
	foo.Set(0);
	EXPECT_EQ(0, table.GetCounterValue("c:foo"));
	foo.Set(100);
	EXPECT_EQ(100, table.GetCounterValue("c:foo"));
	foo.Set(-1);
	EXPECT_EQ(-1, table.GetCounterValue("c:foo"));
	foo.Set(0);
	EXPECT_EQ(0, table.GetCounterValue("c:foo"));

	// Test Decrement.
	foo.Subtract(1);
	EXPECT_EQ(-1, table.GetCounterValue("c:foo"));
	foo.Subtract(0);
	EXPECT_EQ(-1, table.GetCounterValue("c:foo"));
	foo.Subtract(-1);
	EXPECT_EQ(0, table.GetCounterValue("c:foo"));

	DeleteShmem(kTableName);
	}

	class MockStatsCounterTimer : public StatsCounterTimer {
	public:
	explicit MockStatsCounterTimer(const std::string& name)
	: StatsCounterTimer(name) {}

	TimeTicks start_time() { return start_time_; }
	TimeTicks stop_time() { return stop_time_; }
	};

	// Test some basic StatsCounterTimer operations
	TEST_F(StatsTableTest, StatsCounterTimer) {
	// Create a stats table.
	const std::string kTableName = "StatTable";
	const int kMaxThreads = 20;
	const int kMaxCounter = 5;
	DeleteShmem(kTableName);
	StatsTable table(kTableName, kMaxThreads, kMaxCounter);
	StatsTable::set_current(&table);

	MockStatsCounterTimer bar("bar");

	// Test initial state.
	EXPECT_FALSE(bar.Running());
	EXPECT_TRUE(bar.start_time().is_null());
	EXPECT_TRUE(bar.stop_time().is_null());

	const TimeDelta kDuration = TimeDelta::FromMilliseconds(100);

	// Do some timing.
	bar.Start();
	PlatformThread::Sleep(kDuration);
	bar.Stop();
	EXPECT_GT(table.GetCounterValue("t:bar"), 0);
	EXPECT_LE(kDuration.InMilliseconds(), table.GetCounterValue("t:bar"));

	// Verify that timing again is additive.
	bar.Start();
	PlatformThread::Sleep(kDuration);
	bar.Stop();
	EXPECT_GT(table.GetCounterValue("t:bar"), 0);
	EXPECT_LE(kDuration.InMilliseconds() * 2, table.GetCounterValue("t:bar"));
	DeleteShmem(kTableName);
	}

	// Test some basic StatsRate operations
	TEST_F(StatsTableTest, StatsRate) {
	// Create a stats table.
	const std::string kTableName = "StatTable";
	const int kMaxThreads = 20;
	const int kMaxCounter = 5;
	DeleteShmem(kTableName);
	StatsTable table(kTableName, kMaxThreads, kMaxCounter);
	StatsTable::set_current(&table);

	StatsRate baz("baz");

	// Test initial state.
	EXPECT_FALSE(baz.Running());
	EXPECT_EQ(0, table.GetCounterValue("c:baz"));
	EXPECT_EQ(0, table.GetCounterValue("t:baz"));

	const TimeDelta kDuration = TimeDelta::FromMilliseconds(100);

	// Do some timing.
	baz.Start();
	PlatformThread::Sleep(kDuration);
	baz.Stop();
	EXPECT_EQ(1, table.GetCounterValue("c:baz"));
	EXPECT_LE(kDuration.InMilliseconds(), table.GetCounterValue("t:baz"));

	// Verify that timing again is additive.
	baz.Start();
	PlatformThread::Sleep(kDuration);
	baz.Stop();
	EXPECT_EQ(2, table.GetCounterValue("c:baz"));
	EXPECT_LE(kDuration.InMilliseconds() * 2, table.GetCounterValue("t:baz"));
	DeleteShmem(kTableName);
	}

	// Test some basic StatsScope operations
	TEST_F(StatsTableTest, StatsScope) {
	// Create a stats table.
	const std::string kTableName = "StatTable";
	const int kMaxThreads = 20;
	const int kMaxCounter = 5;
	DeleteShmem(kTableName);
	StatsTable table(kTableName, kMaxThreads, kMaxCounter);
	StatsTable::set_current(&table);

	StatsCounterTimer foo("foo");
	StatsRate bar("bar");

	// Test initial state.
	EXPECT_EQ(0, table.GetCounterValue("t:foo"));
	EXPECT_EQ(0, table.GetCounterValue("t:bar"));
	EXPECT_EQ(0, table.GetCounterValue("c:bar"));

	const TimeDelta kDuration = TimeDelta::FromMilliseconds(100);

	// Try a scope.
	{
	StatsScope<StatsCounterTimer> timer(foo);
	StatsScope<StatsRate> timer2(bar);
	PlatformThread::Sleep(kDuration);
	}
	EXPECT_LE(kDuration.InMilliseconds(), table.GetCounterValue("t:foo"));
	EXPECT_LE(kDuration.InMilliseconds(), table.GetCounterValue("t:bar"));
	EXPECT_EQ(1, table.GetCounterValue("c:bar"));

	// Try a second scope.
	{
	StatsScope<StatsCounterTimer> timer(foo);
	StatsScope<StatsRate> timer2(bar);
	PlatformThread::Sleep(kDuration);
	}
	EXPECT_LE(kDuration.InMilliseconds() * 2, table.GetCounterValue("t:foo"));
	EXPECT_LE(kDuration.InMilliseconds() * 2, table.GetCounterValue("t:bar"));
	EXPECT_EQ(2, table.GetCounterValue("c:bar"));

	DeleteShmem(kTableName);
	}

	} // namespace base