| Index: base/memory/discardable_memory_allocator_android_unittest.cc
|
| diff --git a/base/memory/discardable_memory_allocator_android_unittest.cc b/base/memory/discardable_memory_allocator_android_unittest.cc
|
| new file mode 100644
|
| index 0000000000000000000000000000000000000000..b2e8d558608fb03c6f5a5142e63f1d30ef30009b
|
| --- /dev/null
|
| +++ b/base/memory/discardable_memory_allocator_android_unittest.cc
|
| @@ -0,0 +1,303 @@
|
| +// 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/memory/discardable_memory_allocator_android.h"
|
| +
|
| +#include <sys/types.h>
|
| +#include <unistd.h>
|
| +
|
| +#include "base/memory/discardable_memory.h"
|
| +#include "base/memory/scoped_ptr.h"
|
| +#include "base/strings/string_number_conversions.h"
|
| +#include "base/strings/string_split.h"
|
| +#include "base/strings/stringprintf.h"
|
| +#include "build/build_config.h"
|
| +#include "testing/gtest/include/gtest/gtest.h"
|
| +
|
| +namespace base {
|
| +namespace internal {
|
| +
|
| +const char kAllocatorName[] = "allocator-for-testing";
|
| +
|
| +const size_t kAshmemRegionSizeForTesting = 32 * 1024 * 1024;
|
| +const size_t kPageSize = 4096;
|
| +
|
| +const size_t kMaxAllowedAllocationSize =
|
| + std::numeric_limits<size_t>::max() - kPageSize + 1;
|
| +
|
| +class DiscardableMemoryAllocatorTest : public testing::Test {
|
| + protected:
|
| + DiscardableMemoryAllocatorTest()
|
| + : allocator_(kAllocatorName, kAshmemRegionSizeForTesting) {
|
| + }
|
| +
|
| + DiscardableMemoryAllocator allocator_;
|
| +};
|
| +
|
| +void WriteToDiscardableMemory(DiscardableMemory* memory, size_t size) {
|
| + // Write to the first and the last pages only to avoid paging in up to 64
|
| + // MBytes.
|
| + static_cast<char*>(memory->Memory())[0] = 'a';
|
| + static_cast<char*>(memory->Memory())[size - 1] = 'a';
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, Basic) {
|
| + const size_t size = 128;
|
| + scoped_ptr<DiscardableMemory> memory(allocator_.Allocate(size));
|
| + ASSERT_TRUE(memory);
|
| + WriteToDiscardableMemory(memory.get(), size);
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, ZeroAllocationIsNotSupported) {
|
| + scoped_ptr<DiscardableMemory> memory(allocator_.Allocate(0));
|
| + ASSERT_FALSE(memory);
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, TooLargeAllocationFails) {
|
| + scoped_ptr<DiscardableMemory> memory(
|
| + allocator_.Allocate(kMaxAllowedAllocationSize + 1));
|
| + // Page-alignment would have caused an overflow resulting in a small
|
| + // allocation if the input size wasn't checked correctly.
|
| + ASSERT_FALSE(memory);
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest,
|
| + AshmemRegionsAreNotSmallerThanRequestedSize) {
|
| + // The creation of the underlying ashmem region is expected to fail since
|
| + // there should not be enough room in the address space. When ashmem creation
|
| + // fails, the allocator repetitively retries by dividing the size by 2. This
|
| + // size should not be smaller than the size the user requested so the
|
| + // allocation here should just fail (and not succeed with the minimum ashmem
|
| + // region size).
|
| + scoped_ptr<DiscardableMemory> memory(
|
| + allocator_.Allocate(kMaxAllowedAllocationSize));
|
| + ASSERT_FALSE(memory);
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, AshmemRegionsAreAlwaysPageAligned) {
|
| + // Use a separate allocator here so that we can override the ashmem region
|
| + // size.
|
| + DiscardableMemoryAllocator allocator(
|
| + kAllocatorName, kMaxAllowedAllocationSize);
|
| + scoped_ptr<DiscardableMemory> memory(allocator.Allocate(kPageSize));
|
| + ASSERT_TRUE(memory);
|
| + EXPECT_GT(kMaxAllowedAllocationSize, allocator.last_ashmem_region_size());
|
| + ASSERT_TRUE(allocator.last_ashmem_region_size() % kPageSize == 0);
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, LargeAllocation) {
|
| + // Note that large allocations should just use DiscardableMemoryAndroidSimple
|
| + // instead.
|
| + const size_t size = 64 * 1024 * 1024;
|
| + scoped_ptr<DiscardableMemory> memory(allocator_.Allocate(size));
|
| + ASSERT_TRUE(memory);
|
| + WriteToDiscardableMemory(memory.get(), size);
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, ChunksArePageAligned) {
|
| + scoped_ptr<DiscardableMemory> memory(allocator_.Allocate(kPageSize));
|
| + ASSERT_TRUE(memory);
|
| + EXPECT_EQ(0U, reinterpret_cast<uint64_t>(memory->Memory()) % kPageSize);
|
| + WriteToDiscardableMemory(memory.get(), kPageSize);
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, AllocateFreeAllocate) {
|
| + scoped_ptr<DiscardableMemory> memory(allocator_.Allocate(kPageSize));
|
| + // Extra allocation that prevents the region from being deleted when |memory|
|
| + // gets deleted.
|
| + scoped_ptr<DiscardableMemory> memory_lock(allocator_.Allocate(kPageSize));
|
| + ASSERT_TRUE(memory);
|
| + void* const address = memory->Memory();
|
| + memory->Unlock(); // Tests that the reused chunk is being locked correctly.
|
| + memory.reset();
|
| + memory = allocator_.Allocate(kPageSize);
|
| + ASSERT_TRUE(memory);
|
| + // The previously freed chunk should be reused.
|
| + EXPECT_EQ(address, memory->Memory());
|
| + WriteToDiscardableMemory(memory.get(), kPageSize);
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, FreeingWholeAshmemRegionClosesAshmem) {
|
| + scoped_ptr<DiscardableMemory> memory(allocator_.Allocate(kPageSize));
|
| + ASSERT_TRUE(memory);
|
| + const int kMagic = 0xdeadbeef;
|
| + *static_cast<int*>(memory->Memory()) = kMagic;
|
| + memory.reset();
|
| + // The previous ashmem region should have been closed thus it should not be
|
| + // reused.
|
| + memory = allocator_.Allocate(kPageSize);
|
| + ASSERT_TRUE(memory);
|
| + EXPECT_NE(kMagic, *static_cast<const int*>(memory->Memory()));
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, AllocateUsesBestFitAlgorithm) {
|
| + scoped_ptr<DiscardableMemory> memory1(allocator_.Allocate(3 * kPageSize));
|
| + ASSERT_TRUE(memory1);
|
| + scoped_ptr<DiscardableMemory> memory2(allocator_.Allocate(2 * kPageSize));
|
| + ASSERT_TRUE(memory2);
|
| + scoped_ptr<DiscardableMemory> memory3(allocator_.Allocate(1 * kPageSize));
|
| + ASSERT_TRUE(memory3);
|
| + void* const address_3 = memory3->Memory();
|
| + memory1.reset();
|
| + // Don't free |memory2| to avoid merging the 3 blocks together.
|
| + memory3.reset();
|
| + memory1 = allocator_.Allocate(1 * kPageSize);
|
| + ASSERT_TRUE(memory1);
|
| + // The chunk whose size is closest to the requested size should be reused.
|
| + EXPECT_EQ(address_3, memory1->Memory());
|
| + WriteToDiscardableMemory(memory1.get(), kPageSize);
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, MergeFreeChunks) {
|
| + scoped_ptr<DiscardableMemory> memory1(allocator_.Allocate(kPageSize));
|
| + ASSERT_TRUE(memory1);
|
| + scoped_ptr<DiscardableMemory> memory2(allocator_.Allocate(kPageSize));
|
| + ASSERT_TRUE(memory2);
|
| + scoped_ptr<DiscardableMemory> memory3(allocator_.Allocate(kPageSize));
|
| + ASSERT_TRUE(memory3);
|
| + scoped_ptr<DiscardableMemory> memory4(allocator_.Allocate(kPageSize));
|
| + ASSERT_TRUE(memory4);
|
| + void* const memory1_address = memory1->Memory();
|
| + memory1.reset();
|
| + memory3.reset();
|
| + // Freeing |memory2| (located between memory1 and memory3) should merge the
|
| + // three free blocks together.
|
| + memory2.reset();
|
| + memory1 = allocator_.Allocate(3 * kPageSize);
|
| + EXPECT_EQ(memory1_address, memory1->Memory());
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, MergeFreeChunksAdvanced) {
|
| + scoped_ptr<DiscardableMemory> memory1(allocator_.Allocate(4 * kPageSize));
|
| + ASSERT_TRUE(memory1);
|
| + scoped_ptr<DiscardableMemory> memory2(allocator_.Allocate(4 * kPageSize));
|
| + ASSERT_TRUE(memory2);
|
| + void* const memory1_address = memory1->Memory();
|
| + memory1.reset();
|
| + memory1 = allocator_.Allocate(2 * kPageSize);
|
| + memory2.reset();
|
| + // At this point, the region should be in this state:
|
| + // 8 KBytes (used), 24 KBytes (free).
|
| + memory2 = allocator_.Allocate(6 * kPageSize);
|
| + EXPECT_EQ(
|
| + static_cast<const char*>(memory2->Memory()),
|
| + static_cast<const char*>(memory1_address) + 2 * kPageSize);
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, MergeFreeChunksAdvanced2) {
|
| + scoped_ptr<DiscardableMemory> memory1(allocator_.Allocate(4 * kPageSize));
|
| + ASSERT_TRUE(memory1);
|
| + scoped_ptr<DiscardableMemory> memory2(allocator_.Allocate(4 * kPageSize));
|
| + ASSERT_TRUE(memory2);
|
| + void* const memory1_address = memory1->Memory();
|
| + memory1.reset();
|
| + memory1 = allocator_.Allocate(2 * kPageSize);
|
| + scoped_ptr<DiscardableMemory> memory3(allocator_.Allocate(2 * kPageSize));
|
| + // At this point, the region should be in this state:
|
| + // 8 KBytes (used), 8 KBytes (used), 16 KBytes (used).
|
| + memory3.reset();
|
| + memory2.reset();
|
| + // At this point, the region should be in this state:
|
| + // 8 KBytes (used), 24 KBytes (free).
|
| + memory2 = allocator_.Allocate(6 * kPageSize);
|
| + EXPECT_EQ(
|
| + static_cast<const char*>(memory2->Memory()),
|
| + static_cast<const char*>(memory1_address) + 2 * kPageSize);
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, MergeFreeChunksAndDeleteAshmemRegion) {
|
| + scoped_ptr<DiscardableMemory> memory1(allocator_.Allocate(4 * kPageSize));
|
| + ASSERT_TRUE(memory1);
|
| + scoped_ptr<DiscardableMemory> memory2(allocator_.Allocate(4 * kPageSize));
|
| + ASSERT_TRUE(memory2);
|
| + memory1.reset();
|
| + memory1 = allocator_.Allocate(2 * kPageSize);
|
| + scoped_ptr<DiscardableMemory> memory3(allocator_.Allocate(2 * kPageSize));
|
| + // At this point, the region should be in this state:
|
| + // 8 KBytes (used), 8 KBytes (used), 16 KBytes (used).
|
| + memory1.reset();
|
| + memory3.reset();
|
| + // At this point, the region should be in this state:
|
| + // 8 KBytes (free), 8 KBytes (used), 8 KBytes (free).
|
| + const int kMagic = 0xdeadbeef;
|
| + *static_cast<int*>(memory2->Memory()) = kMagic;
|
| + memory2.reset();
|
| + // The whole region should have been deleted.
|
| + memory2 = allocator_.Allocate(2 * kPageSize);
|
| + EXPECT_NE(kMagic, *static_cast<int*>(memory2->Memory()));
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest,
|
| + TooLargeFreeChunksDontCauseTooMuchFragmentationWhenRecycled) {
|
| + // Keep |memory_1| below allocated so that the ashmem region doesn't get
|
| + // closed when |memory_2| is deleted.
|
| + scoped_ptr<DiscardableMemory> memory_1(allocator_.Allocate(64 * 1024));
|
| + ASSERT_TRUE(memory_1);
|
| + scoped_ptr<DiscardableMemory> memory_2(allocator_.Allocate(32 * 1024));
|
| + ASSERT_TRUE(memory_2);
|
| + void* const address = memory_2->Memory();
|
| + memory_2.reset();
|
| + const size_t size = 16 * 1024;
|
| + memory_2 = allocator_.Allocate(size);
|
| + ASSERT_TRUE(memory_2);
|
| + EXPECT_EQ(address, memory_2->Memory());
|
| + WriteToDiscardableMemory(memory_2.get(), size);
|
| + scoped_ptr<DiscardableMemory> memory_3(allocator_.Allocate(size));
|
| + // The unused tail (16 KBytes large) of the previously freed chunk should be
|
| + // reused.
|
| + EXPECT_EQ(static_cast<char*>(address) + size, memory_3->Memory());
|
| + WriteToDiscardableMemory(memory_3.get(), size);
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest, UseMultipleAshmemRegions) {
|
| + // Leave one page untouched at the end of the ashmem region.
|
| + const size_t size = kAshmemRegionSizeForTesting - kPageSize;
|
| + scoped_ptr<DiscardableMemory> memory1(allocator_.Allocate(size));
|
| + ASSERT_TRUE(memory1);
|
| + WriteToDiscardableMemory(memory1.get(), size);
|
| +
|
| + scoped_ptr<DiscardableMemory> memory2(
|
| + allocator_.Allocate(kAshmemRegionSizeForTesting));
|
| + ASSERT_TRUE(memory2);
|
| + WriteToDiscardableMemory(memory2.get(), kAshmemRegionSizeForTesting);
|
| + // The last page of the first ashmem region should be used for this
|
| + // allocation.
|
| + scoped_ptr<DiscardableMemory> memory3(allocator_.Allocate(kPageSize));
|
| + ASSERT_TRUE(memory3);
|
| + WriteToDiscardableMemory(memory3.get(), kPageSize);
|
| + EXPECT_EQ(memory3->Memory(), static_cast<char*>(memory1->Memory()) + size);
|
| +}
|
| +
|
| +TEST_F(DiscardableMemoryAllocatorTest,
|
| + HighestAllocatedChunkPointerIsUpdatedWhenHighestChunkGetsSplit) {
|
| + // Prevents the ashmem region from getting closed when |memory2| gets freed.
|
| + scoped_ptr<DiscardableMemory> memory1(allocator_.Allocate(kPageSize));
|
| + ASSERT_TRUE(memory1);
|
| +
|
| + scoped_ptr<DiscardableMemory> memory2(allocator_.Allocate(4 * kPageSize));
|
| + ASSERT_TRUE(memory2);
|
| +
|
| + memory2.reset();
|
| + memory2 = allocator_.Allocate(kPageSize);
|
| + // There should now be a free chunk of size 3 * |kPageSize| starting at offset
|
| + // 2 * |kPageSize| and the pointer to the highest allocated chunk should have
|
| + // also been updated to |base_| + 2 * |kPageSize|. This pointer is used to
|
| + // maintain the container mapping a chunk address to its previous chunk and
|
| + // this map is in turn used while merging previous contiguous chunks.
|
| +
|
| + // Allocate more than 3 * |kPageSize| so that the free chunk of size 3 *
|
| + // |kPageSize| is not reused and |highest_allocated_chunk_| gets used instead.
|
| + scoped_ptr<DiscardableMemory> memory3(allocator_.Allocate(4 * kPageSize));
|
| + ASSERT_TRUE(memory3);
|
| +
|
| + // Deleting |memory3| (whose size is 4 * |kPageSize|) should result in a merge
|
| + // with its previous chunk which is the free chunk of size |3 * kPageSize|.
|
| + memory3.reset();
|
| + memory3 = allocator_.Allocate((3 + 4) * kPageSize);
|
| + EXPECT_EQ(memory3->Memory(),
|
| + static_cast<const char*>(memory2->Memory()) + kPageSize);
|
| +}
|
| +
|
| +} // namespace internal
|
| +} // namespace base
|
|
|
Chromium Code Reviews
Issue 260673003:
Revert of Use DiscardableMemoryManager on Android. (Closed)
Base URL: svn://svn.chromium.org/chrome/trunk/src