libs/vr/libbufferhub/bufferhub_tests.cpp - android_frameworks_native - Gitiles

 #include <android/native_window.h>
 #include <base/posix/eintr_wrapper.h>
 #include <gtest/gtest.h>
 #include <private/dvr/buffer_hub_client.h>

 #include <mutex>
 #include <thread>

 using android::dvr::BufferProducer;
 using android::dvr::BufferConsumer;
 using android::pdx::LocalHandle;

 const int kWidth = 640;
 const int kHeight = 480;
 const int kFormat = HAL_PIXEL_FORMAT_RGBA_8888;
 const int kUsage = 0;
 const uint64_t kContext = 42;

 using LibBufferHubTest = ::testing::Test;

 TEST_F(LibBufferHubTest, TestBasicUsage) {
   std::unique_ptr<BufferProducer> p = BufferProducer::Create(
       kWidth, kHeight, kFormat, kUsage, sizeof(uint64_t));
   ASSERT_TRUE(p.get() != nullptr);
   std::unique_ptr<BufferConsumer> c =
       BufferConsumer::Import(p->CreateConsumer());
   ASSERT_TRUE(c.get() != nullptr);
   // Check that consumers can spawn other consumers.
   std::unique_ptr<BufferConsumer> c2 =
       BufferConsumer::Import(c->CreateConsumer());
   ASSERT_TRUE(c2.get() != nullptr);

   EXPECT_EQ(0, p->Post(LocalHandle(), kContext));
   // Both consumers should be triggered.
   EXPECT_GE(0, HANDLE_EINTR(p->Poll(0)));
   EXPECT_LT(0, HANDLE_EINTR(c->Poll(10)));
   EXPECT_LT(0, HANDLE_EINTR(c2->Poll(10)));

   uint64_t context;
   LocalHandle fence;
   EXPECT_LE(0, c->Acquire(&fence, &context));
   EXPECT_EQ(kContext, context);
   EXPECT_GE(0, HANDLE_EINTR(c->Poll(0)));

   EXPECT_LE(0, c2->Acquire(&fence, &context));
   EXPECT_EQ(kContext, context);
   EXPECT_GE(0, HANDLE_EINTR(c2->Poll(0)));

   EXPECT_EQ(0, c->Release(LocalHandle()));
   EXPECT_GE(0, HANDLE_EINTR(p->Poll(0)));
   EXPECT_EQ(0, c2->Discard());

   EXPECT_LE(0, HANDLE_EINTR(p->Poll(0)));
   EXPECT_EQ(0, p->Gain(&fence));
   EXPECT_GE(0, HANDLE_EINTR(p->Poll(0)));
 }

 TEST_F(LibBufferHubTest, TestWithCustomMetadata) {
   struct Metadata {
     int64_t field1;
     int64_t field2;
   };
   std::unique_ptr<BufferProducer> p = BufferProducer::Create(
       kWidth, kHeight, kFormat, kUsage, sizeof(Metadata));
   ASSERT_TRUE(p.get() != nullptr);
   std::unique_ptr<BufferConsumer> c =
       BufferConsumer::Import(p->CreateConsumer());
   ASSERT_TRUE(c.get() != nullptr);

   Metadata m = {1, 3};
   EXPECT_EQ(0, p->Post(LocalHandle(), m));
   EXPECT_LE(0, HANDLE_EINTR(c->Poll(10)));

   LocalHandle fence;
   Metadata m2 = {};
   EXPECT_EQ(0, c->Acquire(&fence, &m2));
   EXPECT_EQ(m.field1, m2.field1);
   EXPECT_EQ(m.field2, m2.field2);

   EXPECT_EQ(0, c->Release(LocalHandle()));
   EXPECT_LT(0, HANDLE_EINTR(p->Poll(0)));
 }

 TEST_F(LibBufferHubTest, TestPostWithWrongMetaSize) {
   struct Metadata {
     int64_t field1;
     int64_t field2;
   };
   std::unique_ptr<BufferProducer> p = BufferProducer::Create(
       kWidth, kHeight, kFormat, kUsage, sizeof(Metadata));
   ASSERT_TRUE(p.get() != nullptr);
   std::unique_ptr<BufferConsumer> c =
       BufferConsumer::Import(p->CreateConsumer());
   ASSERT_TRUE(c.get() != nullptr);

   int64_t sequence = 3;
   EXPECT_NE(0, p->Post(LocalHandle(), sequence));
   EXPECT_GE(0, HANDLE_EINTR(c->Poll(10)));
 }

 TEST_F(LibBufferHubTest, TestAcquireWithWrongMetaSize) {
   struct Metadata {
     int64_t field1;
     int64_t field2;
   };
   std::unique_ptr<BufferProducer> p = BufferProducer::Create(
       kWidth, kHeight, kFormat, kUsage, sizeof(Metadata));
   ASSERT_TRUE(p.get() != nullptr);
   std::unique_ptr<BufferConsumer> c =
       BufferConsumer::Import(p->CreateConsumer());
   ASSERT_TRUE(c.get() != nullptr);

   Metadata m = {1, 3};
   EXPECT_EQ(0, p->Post(LocalHandle(), m));

   LocalHandle fence;
   int64_t sequence;
   EXPECT_NE(0, c->Acquire(&fence, &sequence));
 }

 TEST_F(LibBufferHubTest, TestAcquireWithNoMeta) {
   std::unique_ptr<BufferProducer> p = BufferProducer::Create(
       kWidth, kHeight, kFormat, kUsage, sizeof(uint64_t));
   ASSERT_TRUE(p.get() != nullptr);
   std::unique_ptr<BufferConsumer> c =
       BufferConsumer::Import(p->CreateConsumer());
   ASSERT_TRUE(c.get() != nullptr);

   int64_t sequence = 3;
   EXPECT_EQ(0, p->Post(LocalHandle(), sequence));

   LocalHandle fence;
   EXPECT_EQ(0, c->Acquire(&fence));
 }

 TEST_F(LibBufferHubTest, TestWithNoMeta) {
   std::unique_ptr<BufferProducer> p =
       BufferProducer::Create(kWidth, kHeight, kFormat, kUsage);
   ASSERT_TRUE(p.get() != nullptr);
   std::unique_ptr<BufferConsumer> c =
       BufferConsumer::Import(p->CreateConsumer());
   ASSERT_TRUE(c.get() != nullptr);

   LocalHandle fence;

   EXPECT_EQ(0, p->Post<void>(LocalHandle()));
   EXPECT_EQ(0, c->Acquire(&fence));
 }

 TEST_F(LibBufferHubTest, TestFailureToPostMetaFromABufferWithoutMeta) {
   std::unique_ptr<BufferProducer> p =
       BufferProducer::Create(kWidth, kHeight, kFormat, kUsage);
   ASSERT_TRUE(p.get() != nullptr);
   std::unique_ptr<BufferConsumer> c =
       BufferConsumer::Import(p->CreateConsumer());
   ASSERT_TRUE(c.get() != nullptr);

   int64_t sequence = 3;
   EXPECT_NE(0, p->Post(LocalHandle(), sequence));
 }

 TEST_F(LibBufferHubTest, TestPersistentBufferPersistence) {
   auto p = BufferProducer::Create("TestPersistentBuffer", -1, -1, kWidth,
                                   kHeight, kFormat, kUsage);
   ASSERT_NE(nullptr, p);

   // Record the original buffer id for later comparison.
   const int buffer_id = p->id();

   auto c = BufferConsumer::Import(p->CreateConsumer());
   ASSERT_NE(nullptr, c);

   EXPECT_EQ(0, p->Post<void>(LocalHandle()));

   // Close the connection to the producer. This should not affect the consumer.
   p = nullptr;

   LocalHandle fence;
   EXPECT_EQ(0, c->Acquire(&fence));
   EXPECT_EQ(0, c->Release(LocalHandle()));

   // Attempt to reconnect to the persistent buffer.
   p = BufferProducer::Create("TestPersistentBuffer");
   ASSERT_NE(nullptr, p);
   EXPECT_EQ(buffer_id, p->id());
   EXPECT_EQ(0, p->Gain(&fence));
 }

 TEST_F(LibBufferHubTest, TestPersistentBufferMismatchParams) {
   auto p = BufferProducer::Create("TestPersistentBuffer", -1, -1, kWidth,
                                   kHeight, kFormat, kUsage);
   ASSERT_NE(nullptr, p);

   // Close the connection to the producer.
   p = nullptr;

   // Mismatch the params.
   p = BufferProducer::Create("TestPersistentBuffer", -1, -1, kWidth * 2,
                              kHeight, kFormat, kUsage);
   ASSERT_EQ(nullptr, p);
 }

 TEST_F(LibBufferHubTest, TestRemovePersistentBuffer) {
   auto p = BufferProducer::Create("TestPersistentBuffer", -1, -1, kWidth,
                                   kHeight, kFormat, kUsage);
   ASSERT_NE(nullptr, p);

   LocalHandle fence;
   auto c = BufferConsumer::Import(p->CreateConsumer());
   ASSERT_NE(nullptr, c);
   EXPECT_NE(-EPIPE, c->Acquire(&fence));

   // Test that removing persistence and closing the producer orphans the
   // consumer.
   EXPECT_EQ(0, p->RemovePersistence());
   p = nullptr;

   EXPECT_EQ(-EPIPE, c->Release(LocalHandle()));
 }
	#include <android/native_window.h>
	#include <base/posix/eintr_wrapper.h>
	#include <gtest/gtest.h>
	#include <private/dvr/buffer_hub_client.h>

	#include <mutex>
	#include <thread>

	using android::dvr::BufferProducer;
	using android::dvr::BufferConsumer;
	using android::pdx::LocalHandle;

	const int kWidth = 640;
	const int kHeight = 480;
	const int kFormat = HAL_PIXEL_FORMAT_RGBA_8888;
	const int kUsage = 0;
	const uint64_t kContext = 42;

	using LibBufferHubTest = ::testing::Test;

	TEST_F(LibBufferHubTest, TestBasicUsage) {
	std::unique_ptr<BufferProducer> p = BufferProducer::Create(
	kWidth, kHeight, kFormat, kUsage, sizeof(uint64_t));
	ASSERT_TRUE(p.get() != nullptr);
	std::unique_ptr<BufferConsumer> c =
	BufferConsumer::Import(p->CreateConsumer());
	ASSERT_TRUE(c.get() != nullptr);
	// Check that consumers can spawn other consumers.
	std::unique_ptr<BufferConsumer> c2 =
	BufferConsumer::Import(c->CreateConsumer());
	ASSERT_TRUE(c2.get() != nullptr);

	EXPECT_EQ(0, p->Post(LocalHandle(), kContext));
	// Both consumers should be triggered.
	EXPECT_GE(0, HANDLE_EINTR(p->Poll(0)));
	EXPECT_LT(0, HANDLE_EINTR(c->Poll(10)));
	EXPECT_LT(0, HANDLE_EINTR(c2->Poll(10)));

	uint64_t context;
	LocalHandle fence;
	EXPECT_LE(0, c->Acquire(&fence, &context));
	EXPECT_EQ(kContext, context);
	EXPECT_GE(0, HANDLE_EINTR(c->Poll(0)));

	EXPECT_LE(0, c2->Acquire(&fence, &context));
	EXPECT_EQ(kContext, context);
	EXPECT_GE(0, HANDLE_EINTR(c2->Poll(0)));

	EXPECT_EQ(0, c->Release(LocalHandle()));
	EXPECT_GE(0, HANDLE_EINTR(p->Poll(0)));
	EXPECT_EQ(0, c2->Discard());

	EXPECT_LE(0, HANDLE_EINTR(p->Poll(0)));
	EXPECT_EQ(0, p->Gain(&fence));
	EXPECT_GE(0, HANDLE_EINTR(p->Poll(0)));
	}

	TEST_F(LibBufferHubTest, TestWithCustomMetadata) {
	struct Metadata {
	int64_t field1;
	int64_t field2;
	};
	std::unique_ptr<BufferProducer> p = BufferProducer::Create(
	kWidth, kHeight, kFormat, kUsage, sizeof(Metadata));
	ASSERT_TRUE(p.get() != nullptr);
	std::unique_ptr<BufferConsumer> c =
	BufferConsumer::Import(p->CreateConsumer());
	ASSERT_TRUE(c.get() != nullptr);

	Metadata m = {1, 3};
	EXPECT_EQ(0, p->Post(LocalHandle(), m));
	EXPECT_LE(0, HANDLE_EINTR(c->Poll(10)));

	LocalHandle fence;
	Metadata m2 = {};
	EXPECT_EQ(0, c->Acquire(&fence, &m2));
	EXPECT_EQ(m.field1, m2.field1);
	EXPECT_EQ(m.field2, m2.field2);

	EXPECT_EQ(0, c->Release(LocalHandle()));
	EXPECT_LT(0, HANDLE_EINTR(p->Poll(0)));
	}

	TEST_F(LibBufferHubTest, TestPostWithWrongMetaSize) {
	struct Metadata {
	int64_t field1;
	int64_t field2;
	};
	std::unique_ptr<BufferProducer> p = BufferProducer::Create(
	kWidth, kHeight, kFormat, kUsage, sizeof(Metadata));
	ASSERT_TRUE(p.get() != nullptr);
	std::unique_ptr<BufferConsumer> c =
	BufferConsumer::Import(p->CreateConsumer());
	ASSERT_TRUE(c.get() != nullptr);

	int64_t sequence = 3;
	EXPECT_NE(0, p->Post(LocalHandle(), sequence));
	EXPECT_GE(0, HANDLE_EINTR(c->Poll(10)));
	}

	TEST_F(LibBufferHubTest, TestAcquireWithWrongMetaSize) {
	struct Metadata {
	int64_t field1;
	int64_t field2;
	};
	std::unique_ptr<BufferProducer> p = BufferProducer::Create(
	kWidth, kHeight, kFormat, kUsage, sizeof(Metadata));
	ASSERT_TRUE(p.get() != nullptr);
	std::unique_ptr<BufferConsumer> c =
	BufferConsumer::Import(p->CreateConsumer());
	ASSERT_TRUE(c.get() != nullptr);

	Metadata m = {1, 3};
	EXPECT_EQ(0, p->Post(LocalHandle(), m));

	LocalHandle fence;
	int64_t sequence;
	EXPECT_NE(0, c->Acquire(&fence, &sequence));
	}

	TEST_F(LibBufferHubTest, TestAcquireWithNoMeta) {
	std::unique_ptr<BufferProducer> p = BufferProducer::Create(
	kWidth, kHeight, kFormat, kUsage, sizeof(uint64_t));
	ASSERT_TRUE(p.get() != nullptr);
	std::unique_ptr<BufferConsumer> c =
	BufferConsumer::Import(p->CreateConsumer());
	ASSERT_TRUE(c.get() != nullptr);

	int64_t sequence = 3;
	EXPECT_EQ(0, p->Post(LocalHandle(), sequence));

	LocalHandle fence;
	EXPECT_EQ(0, c->Acquire(&fence));
	}

	TEST_F(LibBufferHubTest, TestWithNoMeta) {
	std::unique_ptr<BufferProducer> p =
	BufferProducer::Create(kWidth, kHeight, kFormat, kUsage);
	ASSERT_TRUE(p.get() != nullptr);
	std::unique_ptr<BufferConsumer> c =
	BufferConsumer::Import(p->CreateConsumer());
	ASSERT_TRUE(c.get() != nullptr);

	LocalHandle fence;

	EXPECT_EQ(0, p->Post<void>(LocalHandle()));
	EXPECT_EQ(0, c->Acquire(&fence));
	}

	TEST_F(LibBufferHubTest, TestFailureToPostMetaFromABufferWithoutMeta) {
	std::unique_ptr<BufferProducer> p =
	BufferProducer::Create(kWidth, kHeight, kFormat, kUsage);
	ASSERT_TRUE(p.get() != nullptr);
	std::unique_ptr<BufferConsumer> c =
	BufferConsumer::Import(p->CreateConsumer());
	ASSERT_TRUE(c.get() != nullptr);

	int64_t sequence = 3;
	EXPECT_NE(0, p->Post(LocalHandle(), sequence));
	}

	TEST_F(LibBufferHubTest, TestPersistentBufferPersistence) {
	auto p = BufferProducer::Create("TestPersistentBuffer", -1, -1, kWidth,
	kHeight, kFormat, kUsage);
	ASSERT_NE(nullptr, p);

	// Record the original buffer id for later comparison.
	const int buffer_id = p->id();

	auto c = BufferConsumer::Import(p->CreateConsumer());
	ASSERT_NE(nullptr, c);

	EXPECT_EQ(0, p->Post<void>(LocalHandle()));

	// Close the connection to the producer. This should not affect the consumer.
	p = nullptr;

	LocalHandle fence;
	EXPECT_EQ(0, c->Acquire(&fence));
	EXPECT_EQ(0, c->Release(LocalHandle()));

	// Attempt to reconnect to the persistent buffer.
	p = BufferProducer::Create("TestPersistentBuffer");
	ASSERT_NE(nullptr, p);
	EXPECT_EQ(buffer_id, p->id());
	EXPECT_EQ(0, p->Gain(&fence));
	}

	TEST_F(LibBufferHubTest, TestPersistentBufferMismatchParams) {
	auto p = BufferProducer::Create("TestPersistentBuffer", -1, -1, kWidth,
	kHeight, kFormat, kUsage);
	ASSERT_NE(nullptr, p);

	// Close the connection to the producer.
	p = nullptr;

	// Mismatch the params.
	p = BufferProducer::Create("TestPersistentBuffer", -1, -1, kWidth * 2,
	kHeight, kFormat, kUsage);
	ASSERT_EQ(nullptr, p);
	}

	TEST_F(LibBufferHubTest, TestRemovePersistentBuffer) {
	auto p = BufferProducer::Create("TestPersistentBuffer", -1, -1, kWidth,
	kHeight, kFormat, kUsage);
	ASSERT_NE(nullptr, p);

	LocalHandle fence;
	auto c = BufferConsumer::Import(p->CreateConsumer());
	ASSERT_NE(nullptr, c);
	EXPECT_NE(-EPIPE, c->Acquire(&fence));

	// Test that removing persistence and closing the producer orphans the
	// consumer.
	EXPECT_EQ(0, p->RemovePersistence());
	p = nullptr;

	EXPECT_EQ(-EPIPE, c->Release(LocalHandle()));
	}