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chromium / chromium / src / 3a6cdd45b3404defd9f09d44d5e2e3bb53fd5cf1 / . / cc / resources / resource_pool_unittest.cc
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// Copyright 2015 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 "cc/resources/resource_pool.h"
#include <stddef.h>
#include "base/single_thread_task_runner.h"
#include "base/test/test_mock_time_task_runner.h"
#include "base/threading/thread_task_runner_handle.h"
#include "components/viz/client/client_resource_provider.h"
#include "components/viz/common/resources/resource_sizes.h"
#include "components/viz/common/resources/returned_resource.h"
#include "components/viz/test/test_context_provider.h"
#include "components/viz/test/test_context_support.h"
#include "components/viz/test/test_shared_bitmap_manager.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace cc {
class ResourcePoolTest : public testing::Test {
public:
void SetUp() override {
auto context_support = std::make_unique<MockContextSupport>();
context_support_ = context_support.get();
context_provider_ =
viz::TestContextProvider::Create(std::move(context_support));
context_provider_->BindToCurrentThread();
resource_provider_ = std::make_unique<viz::ClientResourceProvider>(true);
test_task_runner_ = base::MakeRefCounted<base::TestMockTimeTaskRunner>();
resource_pool_ = std::make_unique<ResourcePool>(
resource_provider_.get(), context_provider_.get(), test_task_runner_,
ResourcePool::kDefaultExpirationDelay, false);
resource_pool_->SetClockForTesting(test_task_runner_->GetMockTickClock());
}
void TearDown() override {
resource_provider_->ShutdownAndReleaseAllResources();
}
protected:
class MockContextSupport : public viz::TestContextSupport {
public:
MockContextSupport() = default;
MOCK_METHOD0(FlushPendingWork, void());
};
class StubGpuBacking : public ResourcePool::GpuBacking {
public:
void OnMemoryDump(
base::trace_event::ProcessMemoryDump* pmd,
const base::trace_event::MemoryAllocatorDumpGuid& buffer_dump_guid,
uint64_t tracing_process_id,
int importance) const override {}
};
void SetBackingOnResource(const ResourcePool::InUsePoolResource& resource) {
auto backing = std::make_unique<StubGpuBacking>();
backing->mailbox = gpu::Mailbox::Generate();
backing->mailbox_sync_token.Set(
gpu::GPU_IO, gpu::CommandBufferId::FromUnsafeValue(1), 1);
resource.set_gpu_backing(std::move(backing));
}
void CheckAndReturnResource(ResourcePool::InUsePoolResource resource) {
EXPECT_TRUE(!!resource);
resource_pool_->ReleaseResource(std::move(resource));
}
viz::TestSharedBitmapManager shared_bitmap_manager_;
MockContextSupport* context_support_;
scoped_refptr<viz::TestContextProvider> context_provider_;
std::unique_ptr<viz::ClientResourceProvider> resource_provider_;
scoped_refptr<base::TestMockTimeTaskRunner> test_task_runner_;
std::unique_ptr<ResourcePool> resource_pool_;
};
TEST_F(ResourcePoolTest, AcquireRelease) {
gfx::Size size(100, 100);
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space = gfx::ColorSpace::CreateSRGB();
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(size, format, color_space);
EXPECT_EQ(size, resource.size());
EXPECT_EQ(format, resource.format());
EXPECT_EQ(color_space, resource.color_space());
resource_pool_->ReleaseResource(std::move(resource));
}
TEST_F(ResourcePoolTest, EventuallyEvictAndFlush) {
gfx::Size size(100, 100);
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space = gfx::ColorSpace::CreateSRGB();
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(size, format, color_space);
resource_pool_->ReleaseResource(std::move(resource));
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
// Expect flush after eviction and flush delay.
EXPECT_CALL(*context_support_, FlushPendingWork()).Times(testing::AtLeast(1));
test_task_runner_->FastForwardBy(ResourcePool::kDefaultExpirationDelay +
ResourcePool::kDefaultMaxFlushDelay);
EXPECT_EQ(0u, resource_pool_->GetTotalResourceCountForTesting());
}
TEST_F(ResourcePoolTest, FlushEvenIfMoreUnusedToEvict) {
gfx::Size size(100, 100);
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space = gfx::ColorSpace::CreateSRGB();
ResourcePool::InUsePoolResource resource1 =
resource_pool_->AcquireResource(size, format, color_space);
ResourcePool::InUsePoolResource resource2 =
resource_pool_->AcquireResource(size, format, color_space);
// Time 0: No resources evicted yet.
EXPECT_EQ(2u, resource_pool_->GetTotalResourceCountForTesting());
// Space the resource last_usage out so that they don't expire at the same
// time. resource1 last used at time 0 (expires kDefaultExpirationDelay) and
// resource2 last used at last_usage_gap (expires kDefaultExpireationDelay +
// last_usage_gap).
const base::TimeDelta last_usage_gap =
ResourcePool::kDefaultMaxFlushDelay * 2;
resource_pool_->ReleaseResource(std::move(resource1));
test_task_runner_->FastForwardBy(last_usage_gap);
resource_pool_->ReleaseResource(std::move(resource2));
// Time |last_usage_gap|: No resources evicted yet.
EXPECT_EQ(2u, resource_pool_->GetTotalResourceCountForTesting());
// Time |kDefaultExpirationDelay|: resource1 evicted, but not resource2 yet.
test_task_runner_->FastForwardBy(ResourcePool::kDefaultExpirationDelay -
last_usage_gap);
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
// Expect at least one flush kDefaultMaxFlushDelay after an eviction.
EXPECT_CALL(*context_support_, FlushPendingWork()).Times(testing::AtLeast(1));
test_task_runner_->FastForwardBy(ResourcePool::kDefaultMaxFlushDelay);
// Time |kDefaultExpirationDelay + kDefaultMaxFlushDelay|:
// Check that flush was called and resource2 still not evicted.
testing::Mock::VerifyAndClearExpectations(context_support_);
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
// Wait a long time and resource2 should get evicted and flushed.
EXPECT_CALL(*context_support_, FlushPendingWork()).Times(testing::AtLeast(1));
test_task_runner_->FastForwardBy(ResourcePool::kDefaultExpirationDelay * 100);
EXPECT_EQ(0u, resource_pool_->GetTotalResourceCountForTesting());
}
TEST_F(ResourcePoolTest, AccountingSingleResource) {
// Limits high enough to not be hit by this test.
size_t bytes_limit = 10 * 1024 * 1024;
size_t count_limit = 100;
resource_pool_->SetResourceUsageLimits(bytes_limit, count_limit);
gfx::Size size(100, 100);
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space = gfx::ColorSpace::CreateSRGB();
size_t resource_bytes =
viz::ResourceSizes::UncheckedSizeInBytes<size_t>(size, format);
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(size, format, color_space);
EXPECT_EQ(resource_bytes, resource_pool_->GetTotalMemoryUsageForTesting());
EXPECT_EQ(resource_bytes, resource_pool_->memory_usage_bytes());
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(1u, resource_pool_->resource_count());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
resource_pool_->ReleaseResource(std::move(resource));
EXPECT_EQ(resource_bytes, resource_pool_->GetTotalMemoryUsageForTesting());
EXPECT_EQ(0u, resource_pool_->memory_usage_bytes());
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->resource_count());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
resource_pool_->SetResourceUsageLimits(0u, 0u);
resource_pool_->ReduceResourceUsage();
EXPECT_EQ(0u, resource_pool_->GetTotalMemoryUsageForTesting());
EXPECT_EQ(0u, resource_pool_->memory_usage_bytes());
EXPECT_EQ(0u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->resource_count());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
}
TEST_F(ResourcePoolTest, SimpleResourceReuse) {
// Limits high enough to not be hit by this test.
size_t bytes_limit = 10 * 1024 * 1024;
size_t count_limit = 100;
resource_pool_->SetResourceUsageLimits(bytes_limit, count_limit);
gfx::Size size(100, 100);
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space1;
gfx::ColorSpace color_space2 = gfx::ColorSpace::CreateSRGB();
CheckAndReturnResource(
resource_pool_->AcquireResource(size, format, color_space1));
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
// Same size/format should re-use resource.
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(size, format, color_space1);
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
CheckAndReturnResource(std::move(resource));
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
// Different size/format should allocate new resource.
resource = resource_pool_->AcquireResource(gfx::Size(50, 50),
viz::LUMINANCE_8, color_space1);
EXPECT_EQ(2u, resource_pool_->GetTotalResourceCountForTesting());
CheckAndReturnResource(std::move(resource));
EXPECT_EQ(2u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
// Different color space should allocate new resource.
resource = resource_pool_->AcquireResource(size, format, color_space2);
EXPECT_EQ(3u, resource_pool_->GetTotalResourceCountForTesting());
CheckAndReturnResource(std::move(resource));
EXPECT_EQ(3u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
}
TEST_F(ResourcePoolTest, LostResource) {
// Limits high enough to not be hit by this test.
size_t bytes_limit = 10 * 1024 * 1024;
size_t count_limit = 100;
resource_pool_->SetResourceUsageLimits(bytes_limit, count_limit);
gfx::Size size(100, 100);
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space = gfx::ColorSpace::CreateSRGB();
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(size, format, color_space);
SetBackingOnResource(resource);
EXPECT_TRUE(resource_pool_->PrepareForExport(resource));
std::vector<viz::ResourceId> export_ids = {resource.resource_id_for_export()};
std::vector<viz::TransferableResource> transferable_resources;
resource_provider_->PrepareSendToParent(export_ids, &transferable_resources,
context_provider_.get());
auto returned_resources =
viz::TransferableResource::ReturnResources(transferable_resources);
ASSERT_EQ(1u, returned_resources.size());
returned_resources[0].lost = true;
resource_provider_->ReceiveReturnsFromParent(returned_resources);
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
resource_pool_->ReleaseResource(std::move(resource));
EXPECT_EQ(0u, resource_pool_->GetTotalResourceCountForTesting());
}
TEST_F(ResourcePoolTest, BusyResourcesNotFreed) {
// Limits high enough to not be hit by this test.
size_t bytes_limit = 10 * 1024 * 1024;
size_t count_limit = 100;
resource_pool_->SetResourceUsageLimits(bytes_limit, count_limit);
gfx::Size size(100, 100);
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space;
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(size, format, color_space);
EXPECT_EQ(40000u, resource_pool_->GetTotalMemoryUsageForTesting());
EXPECT_EQ(1u, resource_pool_->resource_count());
SetBackingOnResource(resource);
EXPECT_TRUE(resource_pool_->PrepareForExport(resource));
std::vector<viz::TransferableResource> transfers;
resource_provider_->PrepareSendToParent({resource.resource_id_for_export()},
&transfers, context_provider_.get());
resource_pool_->ReleaseResource(std::move(resource));
EXPECT_EQ(40000u, resource_pool_->GetTotalMemoryUsageForTesting());
EXPECT_EQ(0u, resource_pool_->memory_usage_bytes());
EXPECT_EQ(1u, resource_pool_->GetBusyResourceCountForTesting());
// Wait for our resource pool to evict resources. Wait 10x the expiration
// delay.
test_task_runner_->FastForwardBy(ResourcePool::kDefaultExpirationDelay * 10);
// Busy resources are still held, since they may be in flight to the display
// compositor and should not be freed.
EXPECT_EQ(40000u, resource_pool_->GetTotalMemoryUsageForTesting());
EXPECT_EQ(0u, resource_pool_->memory_usage_bytes());
EXPECT_EQ(1u, resource_pool_->GetBusyResourceCountForTesting());
}
TEST_F(ResourcePoolTest, UnusedResourcesEventuallyFreed) {
// Limits high enough to not be hit by this test.
size_t bytes_limit = 10 * 1024 * 1024;
size_t count_limit = 100;
resource_pool_->SetResourceUsageLimits(bytes_limit, count_limit);
gfx::Size size(100, 100);
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space;
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(size, format, color_space);
EXPECT_EQ(40000u, resource_pool_->GetTotalMemoryUsageForTesting());
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(1u, resource_pool_->resource_count());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
// Export the resource to the display compositor.
SetBackingOnResource(resource);
EXPECT_TRUE(resource_pool_->PrepareForExport(resource));
std::vector<viz::TransferableResource> transfers;
resource_provider_->PrepareSendToParent({resource.resource_id_for_export()},
&transfers, context_provider_.get());
resource_pool_->ReleaseResource(std::move(resource));
EXPECT_EQ(40000u, resource_pool_->GetTotalMemoryUsageForTesting());
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->resource_count());
EXPECT_EQ(1u, resource_pool_->GetBusyResourceCountForTesting());
// Transfer the resource from the busy pool to the unused pool.
resource_provider_->ReceiveReturnsFromParent(
viz::TransferableResource::ReturnResources(transfers));
EXPECT_EQ(40000u, resource_pool_->GetTotalMemoryUsageForTesting());
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->resource_count());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
// Wait for our resource pool to evict resources. Wait 10x the expiration
// delay.
test_task_runner_->FastForwardBy(ResourcePool::kDefaultExpirationDelay * 10);
EXPECT_EQ(0u, resource_pool_->GetTotalMemoryUsageForTesting());
}
TEST_F(ResourcePoolTest, UpdateContentId) {
gfx::Size size(100, 100);
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space;
uint64_t content_id = 42;
uint64_t new_content_id = 43;
gfx::Rect new_invalidated_rect(20, 20, 10, 10);
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(size, format, color_space);
resource_pool_->OnContentReplaced(resource, content_id);
auto original_id = resource.unique_id_for_testing();
resource_pool_->ReleaseResource(std::move(resource));
// Ensure that we can retrieve the resource based on |content_id|.
gfx::Rect invalidated_rect;
ResourcePool::InUsePoolResource reacquired_resource =
resource_pool_->TryAcquireResourceForPartialRaster(
new_content_id, new_invalidated_rect, content_id, &invalidated_rect);
EXPECT_EQ(original_id, reacquired_resource.unique_id_for_testing());
EXPECT_EQ(new_invalidated_rect, invalidated_rect);
resource_pool_->ReleaseResource(std::move(reacquired_resource));
}
TEST_F(ResourcePoolTest, UpdateContentIdAndInvalidatedRect) {
gfx::Size size(100, 100);
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space;
uint64_t content_ids[] = {42, 43, 44};
gfx::Rect invalidated_rect(20, 20, 10, 10);
gfx::Rect second_invalidated_rect(25, 25, 10, 10);
gfx::Rect expected_total_invalidated_rect(20, 20, 15, 15);
// Acquire a new resource with the first content id.
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(size, format, color_space);
resource_pool_->OnContentReplaced(resource, content_ids[0]);
auto original_id = resource.unique_id_for_testing();
// Attempt to acquire this resource. It is in use, so its ID and invalidated
// rect should be updated, but a new resource will be returned.
gfx::Rect new_invalidated_rect;
ResourcePool::InUsePoolResource reacquired_resource =
resource_pool_->TryAcquireResourceForPartialRaster(
content_ids[1], invalidated_rect, content_ids[0],
&new_invalidated_rect);
EXPECT_FALSE(!!reacquired_resource);
EXPECT_EQ(gfx::Rect(), new_invalidated_rect);
// Release the original resource, returning it to the unused pool.
resource_pool_->ReleaseResource(std::move(resource));
// Ensure that we cannot retrieve a resource based on the original content id.
reacquired_resource = resource_pool_->TryAcquireResourceForPartialRaster(
content_ids[1], invalidated_rect, content_ids[0], &new_invalidated_rect);
EXPECT_FALSE(!!reacquired_resource);
EXPECT_EQ(gfx::Rect(), new_invalidated_rect);
// Ensure that we can retrieve the resource based on the second (updated)
// content ID and that it has the expected invalidated rect.
gfx::Rect total_invalidated_rect;
reacquired_resource = resource_pool_->TryAcquireResourceForPartialRaster(
content_ids[2], second_invalidated_rect, content_ids[1],
&total_invalidated_rect);
EXPECT_EQ(original_id, reacquired_resource.unique_id_for_testing());
EXPECT_EQ(expected_total_invalidated_rect, total_invalidated_rect);
resource_pool_->ReleaseResource(std::move(reacquired_resource));
}
TEST_F(ResourcePoolTest, LargeInvalidatedRect) {
gfx::Size size(100, 100);
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space;
uint64_t content_ids[] = {42, 43, 44};
// This rect is too large to take the area of it.
gfx::Rect large_invalidated_rect(0, 0, std::numeric_limits<int>::max() / 2,
std::numeric_limits<int>::max() / 2);
// Acquire a resource with the first content id.
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(size, format, color_space);
resource_pool_->OnContentReplaced(resource, content_ids[0]);
// Set an invalidated rect on the resource.
gfx::Rect new_invalidated_rect;
ResourcePool::InUsePoolResource reacquired_resource =
resource_pool_->TryAcquireResourceForPartialRaster(
content_ids[1], large_invalidated_rect, content_ids[0],
&new_invalidated_rect);
EXPECT_FALSE(!!reacquired_resource);
// Release the original resource, returning it to the unused pool.
resource_pool_->ReleaseResource(std::move(resource));
// Try to get the resource again, this should work even though the area was
// too large to compute the area for.
resource = resource_pool_->TryAcquireResourceForPartialRaster(
content_ids[2], large_invalidated_rect, content_ids[1],
&new_invalidated_rect);
EXPECT_TRUE(!!resource);
resource_pool_->ReleaseResource(std::move(resource));
}
TEST_F(ResourcePoolTest, ReuseResource) {
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space = gfx::ColorSpace::CreateSRGB();
// Create unused resource with size 100x100.
ResourcePool::InUsePoolResource original =
resource_pool_->AcquireResource(gfx::Size(100, 100), format, color_space);
auto original_id = original.unique_id_for_testing();
CheckAndReturnResource(std::move(original));
// Try some cases that are too large, none should succeed.
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(101, 100), format,
color_space));
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(100, 101), format,
color_space));
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(90, 120), format,
color_space));
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(120, 120), format,
color_space));
// Try some cases that are more than 2x smaller than 100x100 in area and
// won't be re-used.
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(49, 100), format,
color_space));
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(100, 49), format,
color_space));
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(50, 50), format,
color_space));
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(70, 70), format,
color_space));
// Try some cases that are smaller than 100x100, but within 2x area. Reuse
// should succeed if non-exact requests are supported. Some platforms never
// support these.
if (resource_pool_->AllowsNonExactReUseForTesting()) {
ResourcePool::InUsePoolResource reused = resource_pool_->AcquireResource(
gfx::Size(50, 100), format, color_space);
EXPECT_EQ(original_id, reused.unique_id_for_testing());
CheckAndReturnResource(std::move(reused));
reused = resource_pool_->AcquireResource(gfx::Size(100, 50), format,
color_space);
EXPECT_EQ(original_id, reused.unique_id_for_testing());
CheckAndReturnResource(std::move(reused));
reused =
resource_pool_->AcquireResource(gfx::Size(71, 71), format, color_space);
EXPECT_EQ(original_id, reused.unique_id_for_testing());
CheckAndReturnResource(std::move(reused));
} else {
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(50, 100), format,
color_space));
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(100, 50), format,
color_space));
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(71, 71), format,
color_space));
}
// 100x100 is an exact match and should succeed. A subsequent request for
// the same size should fail (the resource is already in use).
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(gfx::Size(100, 100), format, color_space);
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(100, 100), format,
color_space));
CheckAndReturnResource(std::move(resource));
}
TEST_F(ResourcePoolTest, PurgedMemory) {
// Limits high enough to not be hit by this test.
size_t bytes_limit = 10 * 1024 * 1024;
size_t count_limit = 100;
resource_pool_->SetResourceUsageLimits(bytes_limit, count_limit);
gfx::Size size(100, 100);
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space = gfx::ColorSpace::CreateSRGB();
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(size, format, color_space);
SetBackingOnResource(resource);
EXPECT_TRUE(resource_pool_->PrepareForExport(resource));
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
// Purging and suspending should not impact an in-use resource.
resource_pool_->OnMemoryPressure(
base::MemoryPressureListener::MEMORY_PRESSURE_LEVEL_CRITICAL);
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
// Export the resource to the display compositor, so it will be busy once
// released.
std::vector<viz::TransferableResource> transfers;
resource_provider_->PrepareSendToParent({resource.resource_id_for_export()},
&transfers, context_provider_.get());
// Release the resource making it busy.
resource_pool_->ReleaseResource(std::move(resource));
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(1u, resource_pool_->GetBusyResourceCountForTesting());
// Purging and suspending should not impact a busy resource either.
resource_pool_->OnMemoryPressure(
base::MemoryPressureListener::MEMORY_PRESSURE_LEVEL_CRITICAL);
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(1u, resource_pool_->GetBusyResourceCountForTesting());
// The resource moves from busy to available.
resource_provider_->ReceiveReturnsFromParent(
viz::TransferableResource::ReturnResources(transfers));
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
// Purging and suspending should drop unused resources.
resource_pool_->OnMemoryPressure(
base::MemoryPressureListener::MEMORY_PRESSURE_LEVEL_CRITICAL);
EXPECT_EQ(0u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
}
TEST_F(ResourcePoolTest, InvalidateResources) {
// Limits high enough to not be hit by this test.
size_t bytes_limit = 10 * 1024 * 1024;
size_t count_limit = 100;
resource_pool_->SetResourceUsageLimits(bytes_limit, count_limit);
gfx::Size size(100, 100);
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space = gfx::ColorSpace::CreateSRGB();
ResourcePool::InUsePoolResource busy_resource =
resource_pool_->AcquireResource(size, format, color_space);
SetBackingOnResource(busy_resource);
EXPECT_TRUE(resource_pool_->PrepareForExport(busy_resource));
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
EXPECT_EQ(1u, resource_pool_->resource_count());
// Make a 2nd resource which will be left available in the pool.
ResourcePool::InUsePoolResource avail_resource =
resource_pool_->AcquireResource(size, format, color_space);
EXPECT_EQ(2u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
EXPECT_EQ(2u, resource_pool_->resource_count());
// Make a 3nd resource which will be kept in use.
ResourcePool::InUsePoolResource in_use_resource =
resource_pool_->AcquireResource(size, format, color_space);
EXPECT_EQ(3u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
EXPECT_EQ(3u, resource_pool_->resource_count());
// Mark this one as available.
resource_pool_->ReleaseResource(std::move(avail_resource));
EXPECT_EQ(3u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
EXPECT_EQ(2u, resource_pool_->resource_count());
// Export the first resource to the display compositor, so it will be busy
// once released.
std::vector<viz::TransferableResource> transfers;
resource_provider_->PrepareSendToParent(
{busy_resource.resource_id_for_export()}, &transfers,
context_provider_.get());
// Release the resource making it busy.
resource_pool_->ReleaseResource(std::move(busy_resource));
EXPECT_EQ(3u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(1u, resource_pool_->GetBusyResourceCountForTesting());
EXPECT_EQ(1u, resource_pool_->resource_count());
// Invalidating resources should prevent reuse of any resource.
resource_pool_->InvalidateResources();
// The available resource is just dropped immediately.
EXPECT_EQ(2u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(1u, resource_pool_->GetBusyResourceCountForTesting());
EXPECT_EQ(1u, resource_pool_->resource_count());
// The resource moves from busy to available, but since we invalidated,
// it is not kept.
resource_provider_->ReceiveReturnsFromParent(
viz::TransferableResource::ReturnResources(transfers));
EXPECT_EQ(1u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
EXPECT_EQ(1u, resource_pool_->resource_count());
// The last resource was in use, when it is released it will not become able
// to be reused.
resource_pool_->ReleaseResource(std::move(in_use_resource));
EXPECT_EQ(0u, resource_pool_->GetTotalResourceCountForTesting());
EXPECT_EQ(0u, resource_pool_->GetBusyResourceCountForTesting());
}
TEST_F(ResourcePoolTest, ExactRequestsRespected) {
viz::ResourceFormat format = viz::RGBA_8888;
gfx::ColorSpace color_space = gfx::ColorSpace::CreateSRGB();
resource_pool_ = std::make_unique<ResourcePool>(
resource_provider_.get(), context_provider_.get(), test_task_runner_,
ResourcePool::kDefaultExpirationDelay, true);
// Create unused resource with size 100x100.
CheckAndReturnResource(resource_pool_->AcquireResource(gfx::Size(100, 100),
format, color_space));
// Try some cases that are smaller than 100x100, but within 2x area which
// would typically allow reuse. Reuse should fail.
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(50, 100), format,
color_space));
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(100, 50), format,
color_space));
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(71, 71), format,
color_space));
// 100x100 is an exact match and should succeed. A subsequent request for
// the same size should fail (the resource is already in use).
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(gfx::Size(100, 100), format, color_space);
EXPECT_EQ(nullptr, resource_pool_->ReuseResource(gfx::Size(100, 100), format,
color_space));
CheckAndReturnResource(std::move(resource));
}
TEST_F(ResourcePoolTest, MetadataSentToDisplayCompositor) {
// Limits high enough to not be hit by this test.
size_t bytes_limit = 10 * 1024 * 1024;
size_t count_limit = 100;
resource_pool_->SetResourceUsageLimits(bytes_limit, count_limit);
// These values are all non-default values so we can tell they are propagated.
gfx::Size size(100, 101);
viz::ResourceFormat format = viz::RGBA_4444;
EXPECT_NE(gfx::BufferFormat::RGBA_8888, viz::BufferFormat(format));
gfx::ColorSpace color_space = gfx::ColorSpace::CreateSRGB();
uint32_t target = 5;
gpu::Mailbox mailbox;
mailbox.name[0] = 'a';
gpu::SyncToken sync_token(gpu::CommandBufferNamespace::GPU_IO,
gpu::CommandBufferId::FromUnsafeValue(0x123), 7);
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(size, format, color_space);
SetBackingOnResource(resource);
// More non-default values.
resource.gpu_backing()->mailbox = mailbox;
resource.gpu_backing()->mailbox_sync_token = sync_token;
resource.gpu_backing()->texture_target = target;
resource.gpu_backing()->wait_on_fence_required = true;
resource.gpu_backing()->overlay_candidate = true;
EXPECT_TRUE(resource_pool_->PrepareForExport(resource));
std::vector<viz::TransferableResource> transfer;
resource_provider_->PrepareSendToParent({resource.resource_id_for_export()},
&transfer, context_provider_.get());
// The verified_flush flag will be set by the ResourceProvider when it exports
// the resource.
sync_token.SetVerifyFlush();
ASSERT_EQ(transfer.size(), 1u);
EXPECT_EQ(transfer[0].id, resource.resource_id_for_export());
EXPECT_EQ(transfer[0].mailbox_holder.mailbox, mailbox);
EXPECT_EQ(transfer[0].mailbox_holder.sync_token, sync_token);
EXPECT_EQ(transfer[0].mailbox_holder.texture_target, target);
EXPECT_EQ(transfer[0].format, format);
EXPECT_TRUE(transfer[0].read_lock_fences_enabled);
EXPECT_TRUE(transfer[0].is_overlay_candidate);
resource_pool_->ReleaseResource(std::move(resource));
}
TEST_F(ResourcePoolTest, InvalidResource) {
// Limits high enough to not be hit by this test.
size_t bytes_limit = 10 * 1024 * 1024;
size_t count_limit = 100;
resource_pool_->SetResourceUsageLimits(bytes_limit, count_limit);
// These values are all non-default values so we can tell they are propagated.
gfx::Size size(100, 101);
viz::ResourceFormat format = viz::RGBA_4444;
EXPECT_NE(gfx::BufferFormat::RGBA_8888, viz::BufferFormat(format));
gfx::ColorSpace color_space = gfx::ColorSpace::CreateSRGB();
uint32_t target = 5;
ResourcePool::InUsePoolResource resource =
resource_pool_->AcquireResource(size, format, color_space);
// Keep a zero mailbox
auto backing = std::make_unique<StubGpuBacking>();
backing->texture_target = target;
backing->wait_on_fence_required = true;
backing->overlay_candidate = true;
resource.set_gpu_backing(std::move(backing));
EXPECT_FALSE(resource_pool_->PrepareForExport(resource));
resource_pool_->ReleaseResource(std::move(resource));
// Acquire another resource. The resource should not be reused.
resource = resource_pool_->AcquireResource(size, format, color_space);
EXPECT_FALSE(resource.gpu_backing());
resource_pool_->ReleaseResource(std::move(resource));
}
} // namespace cc