libs/vr/libbufferhub/consumer_buffer.cpp - LeafOS-Project/android_frameworks_native - Gitiles

 #include <private/dvr/consumer_buffer.h>

 using android::pdx::LocalChannelHandle;
 using android::pdx::LocalHandle;
 using android::pdx::Status;

 namespace android {
 namespace dvr {

 ConsumerBuffer::ConsumerBuffer(LocalChannelHandle channel)
     : BASE(std::move(channel)) {
   const int ret = ImportBuffer();
   if (ret < 0) {
     ALOGE("ConsumerBuffer::ConsumerBuffer: Failed to import buffer: %s",
           strerror(-ret));
     Close(ret);
   }
 }

 std::unique_ptr<ConsumerBuffer> ConsumerBuffer::Import(
     LocalChannelHandle channel) {
   ATRACE_NAME("ConsumerBuffer::Import");
   ALOGD_IF(TRACE, "ConsumerBuffer::Import: channel=%d", channel.value());
   return ConsumerBuffer::Create(std::move(channel));
 }

 std::unique_ptr<ConsumerBuffer> ConsumerBuffer::Import(
     Status<LocalChannelHandle> status) {
   return Import(status ? status.take()
                        : LocalChannelHandle{nullptr, -status.error()});
 }

 int ConsumerBuffer::LocalAcquire(DvrNativeBufferMetadata* out_meta,
                                  LocalHandle* out_fence) {
   if (!out_meta)
     return -EINVAL;

   // The buffer can be acquired iff the buffer state for this client is posted.
   uint32_t current_buffer_state =
       buffer_state_->load(std::memory_order_acquire);
   if (!BufferHubDefs::isClientPosted(current_buffer_state,
                                      client_state_mask())) {
     ALOGE(
         "%s: Failed to acquire the buffer. The buffer is not posted, id=%d "
         "state=%" PRIx32 " client_state_mask=%" PRIx32 ".",
         __FUNCTION__, id(), current_buffer_state, client_state_mask());
     return -EBUSY;
   }

   // Change the buffer state for this consumer from posted to acquired.
   uint32_t updated_buffer_state = current_buffer_state ^ client_state_mask();
   while (!buffer_state_->compare_exchange_weak(
       current_buffer_state, updated_buffer_state, std::memory_order_acq_rel,
       std::memory_order_acquire)) {
     if (!BufferHubDefs::isClientPosted(current_buffer_state,
                                        client_state_mask())) {
       ALOGE(
           "%s: Failed to acquire the buffer. The buffer is no longer posted, "
           "id=%d state=%" PRIx32 " client_state_mask=%" PRIx32 ".",
           __FUNCTION__, id(), current_buffer_state, client_state_mask());
       return -EBUSY;
     }
     // The failure of compare_exchange_weak updates current_buffer_state.
     updated_buffer_state = current_buffer_state ^ client_state_mask();
   }

   // Copy the canonical metadata.
   void* metadata_ptr = reinterpret_cast<void*>(&metadata_header_->metadata);
   memcpy(out_meta, metadata_ptr, sizeof(DvrNativeBufferMetadata));
   // Fill in the user_metadata_ptr in address space of the local process.
   if (out_meta->user_metadata_size) {
     out_meta->user_metadata_ptr =
         reinterpret_cast<uint64_t>(user_metadata_ptr_);
   } else {
     out_meta->user_metadata_ptr = 0;
   }

   uint32_t fence_state = fence_state_->load(std::memory_order_acquire);
   // If there is an acquire fence from producer, we need to return it.
   // The producer state bit mask is kFirstClientBitMask for now.
   if (fence_state & BufferHubDefs::kFirstClientBitMask) {
     *out_fence = shared_acquire_fence_.Duplicate();
   }

   return 0;
 }

 int ConsumerBuffer::Acquire(LocalHandle* ready_fence) {
   return Acquire(ready_fence, nullptr, 0);
 }

 int ConsumerBuffer::Acquire(LocalHandle* ready_fence, void* meta,
                             size_t user_metadata_size) {
   ATRACE_NAME("ConsumerBuffer::Acquire");

   if (const int error = CheckMetadata(user_metadata_size))
     return error;

   DvrNativeBufferMetadata canonical_meta;
   if (const int error = LocalAcquire(&canonical_meta, ready_fence))
     return error;

   if (meta && user_metadata_size) {
     void* metadata_src =
         reinterpret_cast<void*>(canonical_meta.user_metadata_ptr);
     if (metadata_src) {
       memcpy(meta, metadata_src, user_metadata_size);
     } else {
       ALOGW("ConsumerBuffer::Acquire: no user-defined metadata.");
     }
   }

   auto status = InvokeRemoteMethod<BufferHubRPC::ConsumerAcquire>();
   if (!status)
     return -status.error();
   return 0;
 }

 int ConsumerBuffer::AcquireAsync(DvrNativeBufferMetadata* out_meta,
                                  LocalHandle* out_fence) {
   ATRACE_NAME("ConsumerBuffer::AcquireAsync");

   if (const int error = LocalAcquire(out_meta, out_fence))
     return error;

   auto status = SendImpulse(BufferHubRPC::ConsumerAcquire::Opcode);
   if (!status)
     return -status.error();
   return 0;
 }

 int ConsumerBuffer::LocalRelease(const DvrNativeBufferMetadata* meta,
                                  const LocalHandle& release_fence) {
   if (const int error = CheckMetadata(meta->user_metadata_size))
     return error;

   // Set the buffer state of this client to released if it is not already in
   // released state.
   uint32_t current_buffer_state =
       buffer_state_->load(std::memory_order_acquire);
   if (BufferHubDefs::isClientReleased(current_buffer_state,
                                       client_state_mask())) {
     return 0;
   }
   uint32_t updated_buffer_state = current_buffer_state & (~client_state_mask());
   while (!buffer_state_->compare_exchange_weak(
       current_buffer_state, updated_buffer_state, std::memory_order_acq_rel,
       std::memory_order_acquire)) {
     // The failure of compare_exchange_weak updates current_buffer_state.
     updated_buffer_state = current_buffer_state & (~client_state_mask());
   }

   // On release, only the user requested metadata is copied back into the shared
   // memory for metadata. Since there are multiple consumers, it doesn't make
   // sense to send the canonical metadata back to the producer. However, one of
   // the consumer can still choose to write up to user_metadata_size bytes of
   // data into user_metadata_ptr.
   if (meta->user_metadata_ptr && meta->user_metadata_size) {
     void* metadata_src = reinterpret_cast<void*>(meta->user_metadata_ptr);
     memcpy(user_metadata_ptr_, metadata_src, meta->user_metadata_size);
   }

   // Send out the release fence through the shared epoll fd. Note that during
   // releasing the producer is not expected to be polling on the fence.
   if (const int error = UpdateSharedFence(release_fence, shared_release_fence_))
     return error;

   return 0;
 }

 int ConsumerBuffer::Release(const LocalHandle& release_fence) {
   ATRACE_NAME("ConsumerBuffer::Release");

   DvrNativeBufferMetadata meta;
   if (const int error = LocalRelease(&meta, release_fence))
     return error;

   return ReturnStatusOrError(InvokeRemoteMethod<BufferHubRPC::ConsumerRelease>(
       BorrowedFence(release_fence.Borrow())));
 }

 int ConsumerBuffer::ReleaseAsync() {
   DvrNativeBufferMetadata meta;
   return ReleaseAsync(&meta, LocalHandle());
 }

 int ConsumerBuffer::ReleaseAsync(const DvrNativeBufferMetadata* meta,
                                  const LocalHandle& release_fence) {
   ATRACE_NAME("ConsumerBuffer::ReleaseAsync");

   if (const int error = LocalRelease(meta, release_fence))
     return error;

   return ReturnStatusOrError(
       SendImpulse(BufferHubRPC::ConsumerRelease::Opcode));
 }

 int ConsumerBuffer::Discard() { return Release(LocalHandle()); }

 }  // namespace dvr
 }  // namespace android
	#include <private/dvr/consumer_buffer.h>

	using android::pdx::LocalChannelHandle;
	using android::pdx::LocalHandle;
	using android::pdx::Status;

	namespace android {
	namespace dvr {

	ConsumerBuffer::ConsumerBuffer(LocalChannelHandle channel)
	: BASE(std::move(channel)) {
	const int ret = ImportBuffer();
	if (ret < 0) {
	ALOGE("ConsumerBuffer::ConsumerBuffer: Failed to import buffer: %s",
	strerror(-ret));
	Close(ret);
	}
	}

	std::unique_ptr<ConsumerBuffer> ConsumerBuffer::Import(
	LocalChannelHandle channel) {
	ATRACE_NAME("ConsumerBuffer::Import");
	ALOGD_IF(TRACE, "ConsumerBuffer::Import: channel=%d", channel.value());
	return ConsumerBuffer::Create(std::move(channel));
	}

	std::unique_ptr<ConsumerBuffer> ConsumerBuffer::Import(
	Status<LocalChannelHandle> status) {
	return Import(status ? status.take()
	: LocalChannelHandle{nullptr, -status.error()});
	}

	int ConsumerBuffer::LocalAcquire(DvrNativeBufferMetadata* out_meta,
	LocalHandle* out_fence) {
	if (!out_meta)
	return -EINVAL;

	// The buffer can be acquired iff the buffer state for this client is posted.
	uint32_t current_buffer_state =
	buffer_state_->load(std::memory_order_acquire);
	if (!BufferHubDefs::isClientPosted(current_buffer_state,
	client_state_mask())) {
	ALOGE(
	"%s: Failed to acquire the buffer. The buffer is not posted, id=%d "
	"state=%" PRIx32 " client_state_mask=%" PRIx32 ".",
	__FUNCTION__, id(), current_buffer_state, client_state_mask());
	return -EBUSY;
	}

	// Change the buffer state for this consumer from posted to acquired.
	uint32_t updated_buffer_state = current_buffer_state ^ client_state_mask();
	while (!buffer_state_->compare_exchange_weak(
	current_buffer_state, updated_buffer_state, std::memory_order_acq_rel,
	std::memory_order_acquire)) {
	if (!BufferHubDefs::isClientPosted(current_buffer_state,
	client_state_mask())) {
	ALOGE(
	"%s: Failed to acquire the buffer. The buffer is no longer posted, "
	"id=%d state=%" PRIx32 " client_state_mask=%" PRIx32 ".",
	__FUNCTION__, id(), current_buffer_state, client_state_mask());
	return -EBUSY;
	}
	// The failure of compare_exchange_weak updates current_buffer_state.
	updated_buffer_state = current_buffer_state ^ client_state_mask();
	}

	// Copy the canonical metadata.
	void* metadata_ptr = reinterpret_cast<void*>(&metadata_header_->metadata);
	memcpy(out_meta, metadata_ptr, sizeof(DvrNativeBufferMetadata));
	// Fill in the user_metadata_ptr in address space of the local process.
	if (out_meta->user_metadata_size) {
	out_meta->user_metadata_ptr =
	reinterpret_cast<uint64_t>(user_metadata_ptr_);
	} else {
	out_meta->user_metadata_ptr = 0;
	}

	uint32_t fence_state = fence_state_->load(std::memory_order_acquire);
	// If there is an acquire fence from producer, we need to return it.
	// The producer state bit mask is kFirstClientBitMask for now.
	if (fence_state & BufferHubDefs::kFirstClientBitMask) {
	*out_fence = shared_acquire_fence_.Duplicate();
	}

	return 0;
	}

	int ConsumerBuffer::Acquire(LocalHandle* ready_fence) {
	return Acquire(ready_fence, nullptr, 0);
	}

	int ConsumerBuffer::Acquire(LocalHandle* ready_fence, void* meta,
	size_t user_metadata_size) {
	ATRACE_NAME("ConsumerBuffer::Acquire");

	if (const int error = CheckMetadata(user_metadata_size))
	return error;

	DvrNativeBufferMetadata canonical_meta;
	if (const int error = LocalAcquire(&canonical_meta, ready_fence))
	return error;

	if (meta && user_metadata_size) {
	void* metadata_src =
	reinterpret_cast<void*>(canonical_meta.user_metadata_ptr);
	if (metadata_src) {
	memcpy(meta, metadata_src, user_metadata_size);
	} else {
	ALOGW("ConsumerBuffer::Acquire: no user-defined metadata.");
	}
	}

	auto status = InvokeRemoteMethod<BufferHubRPC::ConsumerAcquire>();
	if (!status)
	return -status.error();
	return 0;
	}

	int ConsumerBuffer::AcquireAsync(DvrNativeBufferMetadata* out_meta,
	LocalHandle* out_fence) {
	ATRACE_NAME("ConsumerBuffer::AcquireAsync");

	if (const int error = LocalAcquire(out_meta, out_fence))
	return error;

	auto status = SendImpulse(BufferHubRPC::ConsumerAcquire::Opcode);
	if (!status)
	return -status.error();
	return 0;
	}

	int ConsumerBuffer::LocalRelease(const DvrNativeBufferMetadata* meta,
	const LocalHandle& release_fence) {
	if (const int error = CheckMetadata(meta->user_metadata_size))
	return error;

	// Set the buffer state of this client to released if it is not already in
	// released state.
	uint32_t current_buffer_state =
	buffer_state_->load(std::memory_order_acquire);
	if (BufferHubDefs::isClientReleased(current_buffer_state,
	client_state_mask())) {
	return 0;
	}
	uint32_t updated_buffer_state = current_buffer_state & (~client_state_mask());
	while (!buffer_state_->compare_exchange_weak(
	current_buffer_state, updated_buffer_state, std::memory_order_acq_rel,
	std::memory_order_acquire)) {
	// The failure of compare_exchange_weak updates current_buffer_state.
	updated_buffer_state = current_buffer_state & (~client_state_mask());
	}

	// On release, only the user requested metadata is copied back into the shared
	// memory for metadata. Since there are multiple consumers, it doesn't make
	// sense to send the canonical metadata back to the producer. However, one of
	// the consumer can still choose to write up to user_metadata_size bytes of
	// data into user_metadata_ptr.
	if (meta->user_metadata_ptr && meta->user_metadata_size) {
	void* metadata_src = reinterpret_cast<void*>(meta->user_metadata_ptr);
	memcpy(user_metadata_ptr_, metadata_src, meta->user_metadata_size);
	}

	// Send out the release fence through the shared epoll fd. Note that during
	// releasing the producer is not expected to be polling on the fence.
	if (const int error = UpdateSharedFence(release_fence, shared_release_fence_))
	return error;

	return 0;
	}

	int ConsumerBuffer::Release(const LocalHandle& release_fence) {
	ATRACE_NAME("ConsumerBuffer::Release");

	DvrNativeBufferMetadata meta;
	if (const int error = LocalRelease(&meta, release_fence))
	return error;

	return ReturnStatusOrError(InvokeRemoteMethod<BufferHubRPC::ConsumerRelease>(
	BorrowedFence(release_fence.Borrow())));
	}

	int ConsumerBuffer::ReleaseAsync() {
	DvrNativeBufferMetadata meta;
	return ReleaseAsync(&meta, LocalHandle());
	}

	int ConsumerBuffer::ReleaseAsync(const DvrNativeBufferMetadata* meta,
	const LocalHandle& release_fence) {
	ATRACE_NAME("ConsumerBuffer::ReleaseAsync");

	if (const int error = LocalRelease(meta, release_fence))
	return error;

	return ReturnStatusOrError(
	SendImpulse(BufferHubRPC::ConsumerRelease::Opcode));
	}

	int ConsumerBuffer::Discard() { return Release(LocalHandle()); }

	} // namespace dvr
	} // namespace android