#include #include #include #include namespace android { namespace frameworks { namespace bufferhub { namespace V1_0 { namespace implementation { void BufferNode::InitializeMetadata() { // Using placement new here to reuse shared memory instead of new allocation // Initialize the atomic variables to zero. dvr::BufferHubDefs::MetadataHeader* metadata_header = metadata_.metadata_header(); buffer_state_ = new (&metadata_header->buffer_state) std::atomic(0); fence_state_ = new (&metadata_header->fence_state) std::atomic(0); active_clients_bit_mask_ = new (&metadata_header->active_clients_bit_mask) std::atomic(0); } // Allocates a new BufferNode. BufferNode::BufferNode(uint32_t width, uint32_t height, uint32_t layer_count, uint32_t format, uint64_t usage, size_t user_metadata_size) { uint32_t out_stride = 0; // graphicBufferId is not used in GraphicBufferAllocator::allocate // TODO(b/112338294) After move to the service folder, stop using the // hardcoded service name "bufferhub". int ret = GraphicBufferAllocator::get().allocate(width, height, format, layer_count, usage, const_cast( &buffer_handle_), &out_stride, /*graphicBufferId=*/0, /*requestor=*/"bufferhub"); if (ret != OK || buffer_handle_ == nullptr) { ALOGE("BufferNode::BufferNode: Failed to allocate buffer: %s", strerror(-ret)); return; } buffer_desc_.width = width; buffer_desc_.height = height; buffer_desc_.layers = layer_count; buffer_desc_.format = format; buffer_desc_.usage = usage; buffer_desc_.stride = out_stride; metadata_ = BufferHubMetadata::Create(user_metadata_size); if (!metadata_.IsValid()) { ALOGE("BufferNode::BufferNode: Failed to allocate metadata."); return; } InitializeMetadata(); } // Free the handle BufferNode::~BufferNode() { if (buffer_handle_ != nullptr) { status_t ret = GraphicBufferAllocator::get().free(buffer_handle_); if (ret != OK) { ALOGE("BufferNode::~BufferNode: Failed to free handle; Got error: %d", ret); } } } uint64_t BufferNode::GetActiveClientsBitMask() const { return active_clients_bit_mask_->load(std::memory_order_acquire); } uint64_t BufferNode::AddNewActiveClientsBitToMask() { uint64_t current_active_clients_bit_mask = GetActiveClientsBitMask(); uint64_t client_state_mask = 0ULL; uint64_t updated_active_clients_bit_mask = 0ULL; do { client_state_mask = dvr::BufferHubDefs::FindNextAvailableClientStateMask( current_active_clients_bit_mask); if (client_state_mask == 0ULL) { ALOGE("BufferNode::AddNewActiveClientsBitToMask: reached the maximum " "mumber of channels per buffer node: 32."); errno = E2BIG; return 0ULL; } updated_active_clients_bit_mask = current_active_clients_bit_mask | client_state_mask; } while (!(active_clients_bit_mask_->compare_exchange_weak(current_active_clients_bit_mask, updated_active_clients_bit_mask, std::memory_order_acq_rel, std::memory_order_acquire))); return client_state_mask; } void BufferNode::RemoveClientsBitFromMask(const uint64_t& value) { active_clients_bit_mask_->fetch_and(~value); } } // namespace implementation } // namespace V1_0 } // namespace bufferhub } // namespace frameworks } // namespace android