base/metrics/persistent_histogram_allocator_unittest.cc - cobalt - Git at Google

 // Copyright 2016 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/persistent_histogram_allocator.h"

 #include "base/files/file.h"
 #include "base/files/file_util.h"
 #include "base/files/scoped_temp_dir.h"
 #include "base/logging.h"
 #include "base/memory/ptr_util.h"
 #include "base/metrics/bucket_ranges.h"
 #include "base/metrics/histogram_macros.h"
 #include "base/metrics/persistent_memory_allocator.h"
 #include "base/metrics/statistics_recorder.h"
 #include "starboard/memory.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace base {

 class PersistentHistogramAllocatorTest : public testing::Test {
  protected:
   const int32_t kAllocatorMemorySize = 64 << 10;  // 64 KiB

   PersistentHistogramAllocatorTest()
       : statistics_recorder_(StatisticsRecorder::CreateTemporaryForTesting()) {
     CreatePersistentHistogramAllocator();
   }
   ~PersistentHistogramAllocatorTest() override {
     DestroyPersistentHistogramAllocator();
   }

   void CreatePersistentHistogramAllocator() {
     allocator_memory_.reset(new char[kAllocatorMemorySize]);

     GlobalHistogramAllocator::ReleaseForTesting();
     memset(allocator_memory_.get(), 0, kAllocatorMemorySize);
     GlobalHistogramAllocator::CreateWithPersistentMemory(
         allocator_memory_.get(), kAllocatorMemorySize, 0, 0,
         "PersistentHistogramAllocatorTest");
     allocator_ = GlobalHistogramAllocator::Get()->memory_allocator();
   }

   void DestroyPersistentHistogramAllocator() {
     allocator_ = nullptr;
     GlobalHistogramAllocator::ReleaseForTesting();
   }

   std::unique_ptr<StatisticsRecorder> statistics_recorder_;
   std::unique_ptr<char[]> allocator_memory_;
   PersistentMemoryAllocator* allocator_ = nullptr;

  private:
   DISALLOW_COPY_AND_ASSIGN(PersistentHistogramAllocatorTest);
 };

 TEST_F(PersistentHistogramAllocatorTest, CreateAndIterate) {
   PersistentMemoryAllocator::MemoryInfo meminfo0;
   allocator_->GetMemoryInfo(&meminfo0);

   // Try basic construction
   HistogramBase* histogram = Histogram::FactoryGet(
       "TestHistogram", 1, 1000, 10, HistogramBase::kIsPersistent);
   EXPECT_TRUE(histogram);
   histogram->CheckName("TestHistogram");
   PersistentMemoryAllocator::MemoryInfo meminfo1;
   allocator_->GetMemoryInfo(&meminfo1);
   EXPECT_GT(meminfo0.free, meminfo1.free);

   HistogramBase* linear_histogram = LinearHistogram::FactoryGet(
       "TestLinearHistogram", 1, 1000, 10, HistogramBase::kIsPersistent);
   EXPECT_TRUE(linear_histogram);
   linear_histogram->CheckName("TestLinearHistogram");
   PersistentMemoryAllocator::MemoryInfo meminfo2;
   allocator_->GetMemoryInfo(&meminfo2);
   EXPECT_GT(meminfo1.free, meminfo2.free);

   HistogramBase* boolean_histogram = BooleanHistogram::FactoryGet(
       "TestBooleanHistogram", HistogramBase::kIsPersistent);
   EXPECT_TRUE(boolean_histogram);
   boolean_histogram->CheckName("TestBooleanHistogram");
   PersistentMemoryAllocator::MemoryInfo meminfo3;
   allocator_->GetMemoryInfo(&meminfo3);
   EXPECT_GT(meminfo2.free, meminfo3.free);

   std::vector<int> custom_ranges;
   custom_ranges.push_back(1);
   custom_ranges.push_back(5);
   HistogramBase* custom_histogram = CustomHistogram::FactoryGet(
       "TestCustomHistogram", custom_ranges, HistogramBase::kIsPersistent);
   EXPECT_TRUE(custom_histogram);
   custom_histogram->CheckName("TestCustomHistogram");
   PersistentMemoryAllocator::MemoryInfo meminfo4;
   allocator_->GetMemoryInfo(&meminfo4);
   EXPECT_GT(meminfo3.free, meminfo4.free);

   PersistentMemoryAllocator::Iterator iter(allocator_);
   uint32_t type;
   EXPECT_NE(0U, iter.GetNext(&type));  // Histogram
   EXPECT_NE(0U, iter.GetNext(&type));  // LinearHistogram
   EXPECT_NE(0U, iter.GetNext(&type));  // BooleanHistogram
   EXPECT_NE(0U, iter.GetNext(&type));  // CustomHistogram
   EXPECT_EQ(0U, iter.GetNext(&type));

   // Create a second allocator and have it access the memory of the first.
   std::unique_ptr<HistogramBase> recovered;
   PersistentHistogramAllocator recovery(
       std::make_unique<PersistentMemoryAllocator>(
           allocator_memory_.get(), kAllocatorMemorySize, 0, 0, "", false));
   PersistentHistogramAllocator::Iterator histogram_iter(&recovery);

   recovered = histogram_iter.GetNext();
   ASSERT_TRUE(recovered);
   recovered->CheckName("TestHistogram");

   recovered = histogram_iter.GetNext();
   ASSERT_TRUE(recovered);
   recovered->CheckName("TestLinearHistogram");

   recovered = histogram_iter.GetNext();
   ASSERT_TRUE(recovered);
   recovered->CheckName("TestBooleanHistogram");

   recovered = histogram_iter.GetNext();
   ASSERT_TRUE(recovered);
   recovered->CheckName("TestCustomHistogram");

   recovered = histogram_iter.GetNext();
   EXPECT_FALSE(recovered);
 }

 #if !defined(STARBOARD)
 TEST_F(PersistentHistogramAllocatorTest, ConstructPaths) {
   const FilePath dir_path(FILE_PATH_LITERAL("foo/"));
   const std::string dir_string =
       dir_path.NormalizePathSeparators().AsUTF8Unsafe();

   FilePath path = GlobalHistogramAllocator::ConstructFilePath(dir_path, "bar");
   EXPECT_EQ(dir_string + "bar.pma", path.AsUTF8Unsafe());

   std::string name;
   Time stamp;
   ProcessId pid;
   EXPECT_FALSE(
       GlobalHistogramAllocator::ParseFilePath(path, &name, nullptr, nullptr));
   EXPECT_FALSE(
       GlobalHistogramAllocator::ParseFilePath(path, nullptr, &stamp, nullptr));
   EXPECT_FALSE(
       GlobalHistogramAllocator::ParseFilePath(path, nullptr, nullptr, &pid));

   path = GlobalHistogramAllocator::ConstructFilePathForUploadDir(
       dir_path, "bar", Time::FromTimeT(12345), 6789);
   EXPECT_EQ(dir_string + "bar-3039-1A85.pma", path.AsUTF8Unsafe());
   ASSERT_TRUE(
       GlobalHistogramAllocator::ParseFilePath(path, &name, &stamp, &pid));
   EXPECT_EQ(name, "bar");
   EXPECT_EQ(Time::FromTimeT(12345), stamp);
   EXPECT_EQ(static_cast<ProcessId>(6789), pid);
 }

 TEST_F(PersistentHistogramAllocatorTest, CreateWithFile) {
   const char temp_name[] = "CreateWithFileTest";
   ScopedTempDir temp_dir;
   ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
   FilePath temp_file = temp_dir.GetPath().AppendASCII(temp_name);
   const size_t temp_size = 64 << 10;  // 64 KiB

   // Test creation of a new file.
   GlobalHistogramAllocator::ReleaseForTesting();
   GlobalHistogramAllocator::CreateWithFile(temp_file, temp_size, 0, temp_name);
   EXPECT_EQ(std::string(temp_name),
             GlobalHistogramAllocator::Get()->memory_allocator()->Name());

   // Test re-open of a possibly-existing file.
   GlobalHistogramAllocator::ReleaseForTesting();
   GlobalHistogramAllocator::CreateWithFile(temp_file, temp_size, 0, "");
   EXPECT_EQ(std::string(temp_name),
             GlobalHistogramAllocator::Get()->memory_allocator()->Name());

   // Test re-open of an known-existing file.
   GlobalHistogramAllocator::ReleaseForTesting();
   GlobalHistogramAllocator::CreateWithFile(temp_file, 0, 0, "");
   EXPECT_EQ(std::string(temp_name),
             GlobalHistogramAllocator::Get()->memory_allocator()->Name());

   // Final release so file and temp-dir can be removed.
   GlobalHistogramAllocator::ReleaseForTesting();
 }

 TEST_F(PersistentHistogramAllocatorTest, CreateSpareFile) {
   const char temp_name[] = "CreateSpareFileTest.pma";
   ScopedTempDir temp_dir;
   ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
   FilePath temp_file = temp_dir.GetPath().AppendASCII(temp_name);
   const size_t temp_size = 64 << 10;  // 64 KiB

   ASSERT_TRUE(GlobalHistogramAllocator::CreateSpareFile(temp_file, temp_size));

   File file(temp_file, File::FLAG_OPEN | File::FLAG_READ);
   ASSERT_TRUE(file.IsValid());
   EXPECT_EQ(static_cast<int64_t>(temp_size), file.GetLength());

   char buffer[256];
   for (size_t pos = 0; pos < temp_size; pos += sizeof(buffer)) {
     ASSERT_EQ(static_cast<int>(sizeof(buffer)),
               file.ReadAtCurrentPos(buffer, sizeof(buffer)));
     for (size_t i = 0; i < sizeof(buffer); ++i)
       EXPECT_EQ(0, buffer[i]);
   }
 }
 #endif  // !defined(STARBOARD)

 TEST_F(PersistentHistogramAllocatorTest, StatisticsRecorderMerge) {
   const char LinearHistogramName[] = "SRTLinearHistogram";
   const char SparseHistogramName[] = "SRTSparseHistogram";
   const size_t starting_sr_count = StatisticsRecorder::GetHistogramCount();

   // Create a local StatisticsRecorder in which the newly created histogram
   // will be recorded. The global allocator must be replaced after because the
   // act of releasing will cause the active SR to forget about all histograms
   // in the relased memory.
   std::unique_ptr<StatisticsRecorder> local_sr =
       StatisticsRecorder::CreateTemporaryForTesting();
   EXPECT_EQ(0U, StatisticsRecorder::GetHistogramCount());
   std::unique_ptr<GlobalHistogramAllocator> old_allocator =
       GlobalHistogramAllocator::ReleaseForTesting();
   GlobalHistogramAllocator::CreateWithLocalMemory(kAllocatorMemorySize, 0, "");
   ASSERT_TRUE(GlobalHistogramAllocator::Get());

   // Create a linear histogram for merge testing.
   HistogramBase* histogram1 =
       LinearHistogram::FactoryGet(LinearHistogramName, 1, 10, 10, 0);
   ASSERT_TRUE(histogram1);
   EXPECT_EQ(1U, StatisticsRecorder::GetHistogramCount());
   histogram1->Add(3);
   histogram1->Add(1);
   histogram1->Add(4);
   histogram1->AddCount(1, 4);
   histogram1->Add(6);

   // Create a sparse histogram for merge testing.
   HistogramBase* histogram2 =
       SparseHistogram::FactoryGet(SparseHistogramName, 0);
   ASSERT_TRUE(histogram2);
   EXPECT_EQ(2U, StatisticsRecorder::GetHistogramCount());
   histogram2->Add(3);
   histogram2->Add(1);
   histogram2->Add(4);
   histogram2->AddCount(1, 4);
   histogram2->Add(6);

   // Destroy the local SR and ensure that we're back to the initial state and
   // restore the global allocator. Histograms created in the local SR will
   // become unmanaged.
   std::unique_ptr<GlobalHistogramAllocator> new_allocator =
       GlobalHistogramAllocator::ReleaseForTesting();
   local_sr.reset();
   EXPECT_EQ(starting_sr_count, StatisticsRecorder::GetHistogramCount());
   GlobalHistogramAllocator::Set(std::move(old_allocator));

   // Create a "recovery" allocator using the same memory as the local one.
   PersistentHistogramAllocator recovery1(
       std::make_unique<PersistentMemoryAllocator>(
           const_cast<void*>(new_allocator->memory_allocator()->data()),
           new_allocator->memory_allocator()->size(), 0, 0, "", false));
   PersistentHistogramAllocator::Iterator histogram_iter1(&recovery1);

   // Get the histograms that were created locally (and forgotten) and merge
   // them into the global SR. New objects will be created.
   std::unique_ptr<HistogramBase> recovered;
   while (true) {
     recovered = histogram_iter1.GetNext();
     if (!recovered)
       break;

     recovery1.MergeHistogramDeltaToStatisticsRecorder(recovered.get());
     HistogramBase* found =
         StatisticsRecorder::FindHistogram(recovered->histogram_name());
     EXPECT_NE(recovered.get(), found);
   };
   EXPECT_EQ(starting_sr_count + 2, StatisticsRecorder::GetHistogramCount());

   // Check the merged histograms for accuracy.
   HistogramBase* found = StatisticsRecorder::FindHistogram(LinearHistogramName);
   ASSERT_TRUE(found);
   std::unique_ptr<HistogramSamples> snapshot = found->SnapshotSamples();
   EXPECT_EQ(found->SnapshotSamples()->TotalCount(), snapshot->TotalCount());
   EXPECT_EQ(1, snapshot->GetCount(3));
   EXPECT_EQ(5, snapshot->GetCount(1));
   EXPECT_EQ(1, snapshot->GetCount(4));
   EXPECT_EQ(1, snapshot->GetCount(6));

   found = StatisticsRecorder::FindHistogram(SparseHistogramName);
   ASSERT_TRUE(found);
   snapshot = found->SnapshotSamples();
   EXPECT_EQ(found->SnapshotSamples()->TotalCount(), snapshot->TotalCount());
   EXPECT_EQ(1, snapshot->GetCount(3));
   EXPECT_EQ(5, snapshot->GetCount(1));
   EXPECT_EQ(1, snapshot->GetCount(4));
   EXPECT_EQ(1, snapshot->GetCount(6));

   // Perform additional histogram increments.
   histogram1->AddCount(1, 3);
   histogram1->Add(6);
   histogram2->AddCount(1, 3);
   histogram2->Add(7);

   // Do another merge.
   PersistentHistogramAllocator recovery2(
       std::make_unique<PersistentMemoryAllocator>(
           const_cast<void*>(new_allocator->memory_allocator()->data()),
           new_allocator->memory_allocator()->size(), 0, 0, "", false));
   PersistentHistogramAllocator::Iterator histogram_iter2(&recovery2);
   while (true) {
     recovered = histogram_iter2.GetNext();
     if (!recovered)
       break;
     recovery2.MergeHistogramDeltaToStatisticsRecorder(recovered.get());
   };
   EXPECT_EQ(starting_sr_count + 2, StatisticsRecorder::GetHistogramCount());

   // And verify.
   found = StatisticsRecorder::FindHistogram(LinearHistogramName);
   snapshot = found->SnapshotSamples();
   EXPECT_EQ(found->SnapshotSamples()->TotalCount(), snapshot->TotalCount());
   EXPECT_EQ(1, snapshot->GetCount(3));
   EXPECT_EQ(8, snapshot->GetCount(1));
   EXPECT_EQ(1, snapshot->GetCount(4));
   EXPECT_EQ(2, snapshot->GetCount(6));

   found = StatisticsRecorder::FindHistogram(SparseHistogramName);
   snapshot = found->SnapshotSamples();
   EXPECT_EQ(found->SnapshotSamples()->TotalCount(), snapshot->TotalCount());
   EXPECT_EQ(1, snapshot->GetCount(3));
   EXPECT_EQ(8, snapshot->GetCount(1));
   EXPECT_EQ(1, snapshot->GetCount(4));
   EXPECT_EQ(1, snapshot->GetCount(6));
   EXPECT_EQ(1, snapshot->GetCount(7));
 }

 TEST_F(PersistentHistogramAllocatorTest, RangesDeDuplication) {
   // This corresponds to the "ranges_ref" field of the PersistentHistogramData
   // structure defined (privately) inside persistent_histogram_allocator.cc.
   const int kRangesRefIndex = 5;

   // Create two histograms with the same ranges.
   HistogramBase* histogram1 =
       Histogram::FactoryGet("TestHistogram1", 1, 1000, 10, 0);
   HistogramBase* histogram2 =
       Histogram::FactoryGet("TestHistogram2", 1, 1000, 10, 0);
   const uint32_t ranges_ref = static_cast<Histogram*>(histogram1)
                                   ->bucket_ranges()
                                   ->persistent_reference();
   ASSERT_NE(0U, ranges_ref);
   EXPECT_EQ(ranges_ref, static_cast<Histogram*>(histogram2)
                             ->bucket_ranges()
                             ->persistent_reference());

   // Make sure that the persistent data record is also correct. Two histograms
   // will be fetched; other allocations are not "iterable".
   PersistentMemoryAllocator::Iterator iter(allocator_);
   uint32_t type;
   uint32_t ref1 = iter.GetNext(&type);
   uint32_t ref2 = iter.GetNext(&type);
   EXPECT_EQ(0U, iter.GetNext(&type));
   EXPECT_NE(0U, ref1);
   EXPECT_NE(0U, ref2);
   EXPECT_NE(ref1, ref2);

   uint32_t* data1 =
       allocator_->GetAsArray<uint32_t>(ref1, 0, kRangesRefIndex + 1);
   uint32_t* data2 =
       allocator_->GetAsArray<uint32_t>(ref2, 0, kRangesRefIndex + 1);
   EXPECT_EQ(ranges_ref, data1[kRangesRefIndex]);
   EXPECT_EQ(ranges_ref, data2[kRangesRefIndex]);
 }

 }  // namespace base
	// Copyright 2016 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/persistent_histogram_allocator.h"

	#include "base/files/file.h"
	#include "base/files/file_util.h"
	#include "base/files/scoped_temp_dir.h"
	#include "base/logging.h"
	#include "base/memory/ptr_util.h"
	#include "base/metrics/bucket_ranges.h"
	#include "base/metrics/histogram_macros.h"
	#include "base/metrics/persistent_memory_allocator.h"
	#include "base/metrics/statistics_recorder.h"
	#include "starboard/memory.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace base {

	class PersistentHistogramAllocatorTest : public testing::Test {
	protected:
	const int32_t kAllocatorMemorySize = 64 << 10; // 64 KiB

	PersistentHistogramAllocatorTest()
	: statistics_recorder_(StatisticsRecorder::CreateTemporaryForTesting()) {
	CreatePersistentHistogramAllocator();
	}
	~PersistentHistogramAllocatorTest() override {
	DestroyPersistentHistogramAllocator();
	}

	void CreatePersistentHistogramAllocator() {
	allocator_memory_.reset(new char[kAllocatorMemorySize]);

	GlobalHistogramAllocator::ReleaseForTesting();
	memset(allocator_memory_.get(), 0, kAllocatorMemorySize);
	GlobalHistogramAllocator::CreateWithPersistentMemory(
	allocator_memory_.get(), kAllocatorMemorySize, 0, 0,
	"PersistentHistogramAllocatorTest");
	allocator_ = GlobalHistogramAllocator::Get()->memory_allocator();
	}

	void DestroyPersistentHistogramAllocator() {
	allocator_ = nullptr;
	GlobalHistogramAllocator::ReleaseForTesting();
	}

	std::unique_ptr<StatisticsRecorder> statistics_recorder_;
	std::unique_ptr<char[]> allocator_memory_;
	PersistentMemoryAllocator* allocator_ = nullptr;

	private:
	DISALLOW_COPY_AND_ASSIGN(PersistentHistogramAllocatorTest);
	};

	TEST_F(PersistentHistogramAllocatorTest, CreateAndIterate) {
	PersistentMemoryAllocator::MemoryInfo meminfo0;
	allocator_->GetMemoryInfo(&meminfo0);

	// Try basic construction
	HistogramBase* histogram = Histogram::FactoryGet(
	"TestHistogram", 1, 1000, 10, HistogramBase::kIsPersistent);
	EXPECT_TRUE(histogram);
	histogram->CheckName("TestHistogram");
	PersistentMemoryAllocator::MemoryInfo meminfo1;
	allocator_->GetMemoryInfo(&meminfo1);
	EXPECT_GT(meminfo0.free, meminfo1.free);

	HistogramBase* linear_histogram = LinearHistogram::FactoryGet(
	"TestLinearHistogram", 1, 1000, 10, HistogramBase::kIsPersistent);
	EXPECT_TRUE(linear_histogram);
	linear_histogram->CheckName("TestLinearHistogram");
	PersistentMemoryAllocator::MemoryInfo meminfo2;
	allocator_->GetMemoryInfo(&meminfo2);
	EXPECT_GT(meminfo1.free, meminfo2.free);

	HistogramBase* boolean_histogram = BooleanHistogram::FactoryGet(
	"TestBooleanHistogram", HistogramBase::kIsPersistent);
	EXPECT_TRUE(boolean_histogram);
	boolean_histogram->CheckName("TestBooleanHistogram");
	PersistentMemoryAllocator::MemoryInfo meminfo3;
	allocator_->GetMemoryInfo(&meminfo3);
	EXPECT_GT(meminfo2.free, meminfo3.free);

	std::vector<int> custom_ranges;
	custom_ranges.push_back(1);
	custom_ranges.push_back(5);
	HistogramBase* custom_histogram = CustomHistogram::FactoryGet(
	"TestCustomHistogram", custom_ranges, HistogramBase::kIsPersistent);
	EXPECT_TRUE(custom_histogram);
	custom_histogram->CheckName("TestCustomHistogram");
	PersistentMemoryAllocator::MemoryInfo meminfo4;
	allocator_->GetMemoryInfo(&meminfo4);
	EXPECT_GT(meminfo3.free, meminfo4.free);

	PersistentMemoryAllocator::Iterator iter(allocator_);
	uint32_t type;
	EXPECT_NE(0U, iter.GetNext(&type)); // Histogram
	EXPECT_NE(0U, iter.GetNext(&type)); // LinearHistogram
	EXPECT_NE(0U, iter.GetNext(&type)); // BooleanHistogram
	EXPECT_NE(0U, iter.GetNext(&type)); // CustomHistogram
	EXPECT_EQ(0U, iter.GetNext(&type));

	// Create a second allocator and have it access the memory of the first.
	std::unique_ptr<HistogramBase> recovered;
	PersistentHistogramAllocator recovery(
	std::make_unique<PersistentMemoryAllocator>(
	allocator_memory_.get(), kAllocatorMemorySize, 0, 0, "", false));
	PersistentHistogramAllocator::Iterator histogram_iter(&recovery);

	recovered = histogram_iter.GetNext();
	ASSERT_TRUE(recovered);
	recovered->CheckName("TestHistogram");

	recovered = histogram_iter.GetNext();
	ASSERT_TRUE(recovered);
	recovered->CheckName("TestLinearHistogram");

	recovered = histogram_iter.GetNext();
	ASSERT_TRUE(recovered);
	recovered->CheckName("TestBooleanHistogram");

	recovered = histogram_iter.GetNext();
	ASSERT_TRUE(recovered);
	recovered->CheckName("TestCustomHistogram");

	recovered = histogram_iter.GetNext();
	EXPECT_FALSE(recovered);
	}

	#if !defined(STARBOARD)
	TEST_F(PersistentHistogramAllocatorTest, ConstructPaths) {
	const FilePath dir_path(FILE_PATH_LITERAL("foo/"));
	const std::string dir_string =
	dir_path.NormalizePathSeparators().AsUTF8Unsafe();

	FilePath path = GlobalHistogramAllocator::ConstructFilePath(dir_path, "bar");
	EXPECT_EQ(dir_string + "bar.pma", path.AsUTF8Unsafe());

	std::string name;
	Time stamp;
	ProcessId pid;
	EXPECT_FALSE(
	GlobalHistogramAllocator::ParseFilePath(path, &name, nullptr, nullptr));
	EXPECT_FALSE(
	GlobalHistogramAllocator::ParseFilePath(path, nullptr, &stamp, nullptr));
	EXPECT_FALSE(
	GlobalHistogramAllocator::ParseFilePath(path, nullptr, nullptr, &pid));

	path = GlobalHistogramAllocator::ConstructFilePathForUploadDir(
	dir_path, "bar", Time::FromTimeT(12345), 6789);
	EXPECT_EQ(dir_string + "bar-3039-1A85.pma", path.AsUTF8Unsafe());
	ASSERT_TRUE(
	GlobalHistogramAllocator::ParseFilePath(path, &name, &stamp, &pid));
	EXPECT_EQ(name, "bar");
	EXPECT_EQ(Time::FromTimeT(12345), stamp);
	EXPECT_EQ(static_cast<ProcessId>(6789), pid);
	}

	TEST_F(PersistentHistogramAllocatorTest, CreateWithFile) {
	const char temp_name[] = "CreateWithFileTest";
	ScopedTempDir temp_dir;
	ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
	FilePath temp_file = temp_dir.GetPath().AppendASCII(temp_name);
	const size_t temp_size = 64 << 10; // 64 KiB

	// Test creation of a new file.
	GlobalHistogramAllocator::ReleaseForTesting();
	GlobalHistogramAllocator::CreateWithFile(temp_file, temp_size, 0, temp_name);
	EXPECT_EQ(std::string(temp_name),
	GlobalHistogramAllocator::Get()->memory_allocator()->Name());

	// Test re-open of a possibly-existing file.
	GlobalHistogramAllocator::ReleaseForTesting();
	GlobalHistogramAllocator::CreateWithFile(temp_file, temp_size, 0, "");
	EXPECT_EQ(std::string(temp_name),
	GlobalHistogramAllocator::Get()->memory_allocator()->Name());

	// Test re-open of an known-existing file.
	GlobalHistogramAllocator::ReleaseForTesting();
	GlobalHistogramAllocator::CreateWithFile(temp_file, 0, 0, "");
	EXPECT_EQ(std::string(temp_name),
	GlobalHistogramAllocator::Get()->memory_allocator()->Name());

	// Final release so file and temp-dir can be removed.
	GlobalHistogramAllocator::ReleaseForTesting();
	}

	TEST_F(PersistentHistogramAllocatorTest, CreateSpareFile) {
	const char temp_name[] = "CreateSpareFileTest.pma";
	ScopedTempDir temp_dir;
	ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
	FilePath temp_file = temp_dir.GetPath().AppendASCII(temp_name);
	const size_t temp_size = 64 << 10; // 64 KiB

	ASSERT_TRUE(GlobalHistogramAllocator::CreateSpareFile(temp_file, temp_size));

	File file(temp_file, File::FLAG_OPEN \| File::FLAG_READ);
	ASSERT_TRUE(file.IsValid());
	EXPECT_EQ(static_cast<int64_t>(temp_size), file.GetLength());

	char buffer[256];
	for (size_t pos = 0; pos < temp_size; pos += sizeof(buffer)) {
	ASSERT_EQ(static_cast<int>(sizeof(buffer)),
	file.ReadAtCurrentPos(buffer, sizeof(buffer)));
	for (size_t i = 0; i < sizeof(buffer); ++i)
	EXPECT_EQ(0, buffer[i]);
	}
	}
	#endif // !defined(STARBOARD)

	TEST_F(PersistentHistogramAllocatorTest, StatisticsRecorderMerge) {
	const char LinearHistogramName[] = "SRTLinearHistogram";
	const char SparseHistogramName[] = "SRTSparseHistogram";
	const size_t starting_sr_count = StatisticsRecorder::GetHistogramCount();

	// Create a local StatisticsRecorder in which the newly created histogram
	// will be recorded. The global allocator must be replaced after because the
	// act of releasing will cause the active SR to forget about all histograms
	// in the relased memory.
	std::unique_ptr<StatisticsRecorder> local_sr =
	StatisticsRecorder::CreateTemporaryForTesting();
	EXPECT_EQ(0U, StatisticsRecorder::GetHistogramCount());
	std::unique_ptr<GlobalHistogramAllocator> old_allocator =
	GlobalHistogramAllocator::ReleaseForTesting();
	GlobalHistogramAllocator::CreateWithLocalMemory(kAllocatorMemorySize, 0, "");
	ASSERT_TRUE(GlobalHistogramAllocator::Get());

	// Create a linear histogram for merge testing.
	HistogramBase* histogram1 =
	LinearHistogram::FactoryGet(LinearHistogramName, 1, 10, 10, 0);
	ASSERT_TRUE(histogram1);
	EXPECT_EQ(1U, StatisticsRecorder::GetHistogramCount());
	histogram1->Add(3);
	histogram1->Add(1);
	histogram1->Add(4);
	histogram1->AddCount(1, 4);
	histogram1->Add(6);

	// Create a sparse histogram for merge testing.
	HistogramBase* histogram2 =
	SparseHistogram::FactoryGet(SparseHistogramName, 0);
	ASSERT_TRUE(histogram2);
	EXPECT_EQ(2U, StatisticsRecorder::GetHistogramCount());
	histogram2->Add(3);
	histogram2->Add(1);
	histogram2->Add(4);
	histogram2->AddCount(1, 4);
	histogram2->Add(6);

	// Destroy the local SR and ensure that we're back to the initial state and
	// restore the global allocator. Histograms created in the local SR will
	// become unmanaged.
	std::unique_ptr<GlobalHistogramAllocator> new_allocator =
	GlobalHistogramAllocator::ReleaseForTesting();
	local_sr.reset();
	EXPECT_EQ(starting_sr_count, StatisticsRecorder::GetHistogramCount());
	GlobalHistogramAllocator::Set(std::move(old_allocator));

	// Create a "recovery" allocator using the same memory as the local one.
	PersistentHistogramAllocator recovery1(
	std::make_unique<PersistentMemoryAllocator>(
	const_cast<void*>(new_allocator->memory_allocator()->data()),
	new_allocator->memory_allocator()->size(), 0, 0, "", false));
	PersistentHistogramAllocator::Iterator histogram_iter1(&recovery1);

	// Get the histograms that were created locally (and forgotten) and merge
	// them into the global SR. New objects will be created.
	std::unique_ptr<HistogramBase> recovered;
	while (true) {
	recovered = histogram_iter1.GetNext();
	if (!recovered)
	break;

	recovery1.MergeHistogramDeltaToStatisticsRecorder(recovered.get());
	HistogramBase* found =
	StatisticsRecorder::FindHistogram(recovered->histogram_name());
	EXPECT_NE(recovered.get(), found);
	};
	EXPECT_EQ(starting_sr_count + 2, StatisticsRecorder::GetHistogramCount());

	// Check the merged histograms for accuracy.
	HistogramBase* found = StatisticsRecorder::FindHistogram(LinearHistogramName);
	ASSERT_TRUE(found);
	std::unique_ptr<HistogramSamples> snapshot = found->SnapshotSamples();
	EXPECT_EQ(found->SnapshotSamples()->TotalCount(), snapshot->TotalCount());
	EXPECT_EQ(1, snapshot->GetCount(3));
	EXPECT_EQ(5, snapshot->GetCount(1));
	EXPECT_EQ(1, snapshot->GetCount(4));
	EXPECT_EQ(1, snapshot->GetCount(6));

	found = StatisticsRecorder::FindHistogram(SparseHistogramName);
	ASSERT_TRUE(found);
	snapshot = found->SnapshotSamples();
	EXPECT_EQ(found->SnapshotSamples()->TotalCount(), snapshot->TotalCount());
	EXPECT_EQ(1, snapshot->GetCount(3));
	EXPECT_EQ(5, snapshot->GetCount(1));
	EXPECT_EQ(1, snapshot->GetCount(4));
	EXPECT_EQ(1, snapshot->GetCount(6));

	// Perform additional histogram increments.
	histogram1->AddCount(1, 3);
	histogram1->Add(6);
	histogram2->AddCount(1, 3);
	histogram2->Add(7);

	// Do another merge.
	PersistentHistogramAllocator recovery2(
	std::make_unique<PersistentMemoryAllocator>(
	const_cast<void*>(new_allocator->memory_allocator()->data()),
	new_allocator->memory_allocator()->size(), 0, 0, "", false));
	PersistentHistogramAllocator::Iterator histogram_iter2(&recovery2);
	while (true) {
	recovered = histogram_iter2.GetNext();
	if (!recovered)
	break;
	recovery2.MergeHistogramDeltaToStatisticsRecorder(recovered.get());
	};
	EXPECT_EQ(starting_sr_count + 2, StatisticsRecorder::GetHistogramCount());

	// And verify.
	found = StatisticsRecorder::FindHistogram(LinearHistogramName);
	snapshot = found->SnapshotSamples();
	EXPECT_EQ(found->SnapshotSamples()->TotalCount(), snapshot->TotalCount());
	EXPECT_EQ(1, snapshot->GetCount(3));
	EXPECT_EQ(8, snapshot->GetCount(1));
	EXPECT_EQ(1, snapshot->GetCount(4));
	EXPECT_EQ(2, snapshot->GetCount(6));

	found = StatisticsRecorder::FindHistogram(SparseHistogramName);
	snapshot = found->SnapshotSamples();
	EXPECT_EQ(found->SnapshotSamples()->TotalCount(), snapshot->TotalCount());
	EXPECT_EQ(1, snapshot->GetCount(3));
	EXPECT_EQ(8, snapshot->GetCount(1));
	EXPECT_EQ(1, snapshot->GetCount(4));
	EXPECT_EQ(1, snapshot->GetCount(6));
	EXPECT_EQ(1, snapshot->GetCount(7));
	}

	TEST_F(PersistentHistogramAllocatorTest, RangesDeDuplication) {
	// This corresponds to the "ranges_ref" field of the PersistentHistogramData
	// structure defined (privately) inside persistent_histogram_allocator.cc.
	const int kRangesRefIndex = 5;

	// Create two histograms with the same ranges.
	HistogramBase* histogram1 =
	Histogram::FactoryGet("TestHistogram1", 1, 1000, 10, 0);
	HistogramBase* histogram2 =
	Histogram::FactoryGet("TestHistogram2", 1, 1000, 10, 0);
	const uint32_t ranges_ref = static_cast<Histogram*>(histogram1)
	->bucket_ranges()
	->persistent_reference();
	ASSERT_NE(0U, ranges_ref);
	EXPECT_EQ(ranges_ref, static_cast<Histogram*>(histogram2)
	->bucket_ranges()
	->persistent_reference());

	// Make sure that the persistent data record is also correct. Two histograms
	// will be fetched; other allocations are not "iterable".
	PersistentMemoryAllocator::Iterator iter(allocator_);
	uint32_t type;
	uint32_t ref1 = iter.GetNext(&type);
	uint32_t ref2 = iter.GetNext(&type);
	EXPECT_EQ(0U, iter.GetNext(&type));
	EXPECT_NE(0U, ref1);
	EXPECT_NE(0U, ref2);
	EXPECT_NE(ref1, ref2);

	uint32_t* data1 =
	allocator_->GetAsArray<uint32_t>(ref1, 0, kRangesRefIndex + 1);
	uint32_t* data2 =
	allocator_->GetAsArray<uint32_t>(ref2, 0, kRangesRefIndex + 1);
	EXPECT_EQ(ranges_ref, data1[kRangesRefIndex]);
	EXPECT_EQ(ranges_ref, data2[kRangesRefIndex]);
	}

	} // namespace base