media/capture/video/chromeos/camera_device_delegate.cc - Issue 2837273004: media: add video capture device for ARC++ camera HAL v3

Unified Diff: media/capture/video/chromeos/camera_device_delegate.cc

Issue 2837273004: media: add video capture device for ARC++ camera HAL v3 (Closed)

Patch Set: address chfremer's comments Created 3 years, 7 months ago

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« media/capture/video/chromeos/camera_device_delegate.h ('K') | « media/capture/video/chromeos/camera_device_delegate.h ('k') | media/capture/video/chromeos/camera_device_delegate_unittest.cc » ('j') | media/capture/video/chromeos/camera_device_delegate_unittest.cc » ('J')
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Index: media/capture/video/chromeos/camera_device_delegate.cc

diff --git a/media/capture/video/chromeos/camera_device_delegate.cc b/media/capture/video/chromeos/camera_device_delegate.cc

new file mode 100644

index 0000000000000000000000000000000000000000..423c6a3f90f71fc3f345395c0f34e685fbf63360

--- /dev/null

+++ b/media/capture/video/chromeos/camera_device_delegate.cc

@@ -0,0 +1,739 @@

+// Use of this source code is governed by a BSD-style license that can be

+// found in the LICENSE file.

+#include "media/capture/video/chromeos/camera_device_delegate.h"

+#include "media/base/bind_to_current_loop.h"

+#include "media/capture/video/chromeos/camera_hal_delegate.h"

+#include "media/capture/video/chromeos/camera_metadata_utils.h"

+#include "media/capture/video/chromeos/pixel_format_utils.h"

+#include "mojo/edk/embedder/embedder.h"

+#include "mojo/edk/embedder/scoped_platform_handle.h"

+#include "third_party/libsync/include/sync/sync.h"

+namespace media {

+CameraDeviceDelegate::CameraDeviceDelegate(

+ VideoCaptureDeviceDescriptor device_descriptor,

+ scoped_refptr<CameraHalDelegate> camera_hal_delegate,

+ scoped_refptr<base::SingleThreadTaskRunner> ipc_task_runner)

+ : device_descriptor_(device_descriptor),

+ camera_hal_delegate_(std::move(camera_hal_delegate)),

+ state_(kStopped),

+ rotation_(0),

+ callback_ops_(this),

+ ipc_task_runner_(std::move(ipc_task_runner)),

+ frame_number_(0),

+ partial_result_count_(1),

+ first_frame_shutter_time_(base::TimeTicks::Now()) {}

+void CameraDeviceDelegate::AllocateAndStart(

+ const VideoCaptureParams& params,

+ std::unique_ptr<VideoCaptureDevice::Client> client) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ DCHECK(!client_);

+ DCHECK_EQ(state_, kStopped);

+ chrome_capture_params_ = params;

+ client_ = std::move(client);

+ frame_number_ = 0;

+ partial_results_.clear();

+ first_frame_shutter_time_ = base::TimeTicks::Now();

+ SetState(kStarting);

+ int32_t camera_id = std::stoi(device_descriptor_.device_id);

+ // We need to get the static camera metadata of the camera deivce first.

+ camera_hal_delegate_->GetCameraInfo(

+ camera_id, BindToCurrentLoop(

+ base::Bind(&CameraDeviceDelegate::OnGotCameraInfo, this)));

+void CameraDeviceDelegate::StopAndDeAllocate() {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ // StopAndDeAllocate may be called at any state except kStopping.

+ DCHECK_NE(state_, kStopping);

+ if (state_ == kStopped) {

+ // In case of Mojo connection error the device may be stopped before

+ // StopAndDeAllocate is called.

+ return;

+ }

+ SetState(kStopping);

+ if (!device_ops_.is_bound()) {

+ // The device delegate is in the process of opening the camera device.

+ return;

+ }

+ device_ops_->Close(base::Bind(&CameraDeviceDelegate::OnClosed, this));

+void CameraDeviceDelegate::TakePhoto(

+ VideoCaptureDevice::TakePhotoCallback callback) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ // TODO(jcliang): Implement TakePhoto.

+void CameraDeviceDelegate::GetPhotoCapabilities(

+ VideoCaptureDevice::GetPhotoCapabilitiesCallback callback) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ // TODO(jcliang): Implement GetPhotoCapabilities.

+void CameraDeviceDelegate::SetPhotoOptions(

+ mojom::PhotoSettingsPtr settings,

+ VideoCaptureDevice::SetPhotoOptionsCallback callback) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ // TODO(jcliang): Implement SetPhotoOptions.

+void CameraDeviceDelegate::SetRotation(int rotation) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ DCHECK(rotation >= 0 && rotation < 360 && rotation % 90 == 0);

+ rotation_ = rotation;

+void CameraDeviceDelegate::SetState(State state) {

+ state_ = state;

+void CameraDeviceDelegate::SetErrorState(

+ const tracked_objects::Location& from_here,

+ const std::string& reason) {

+ state_ = kError;

+ LOG(ERROR) << reason;

+ client_->OnError(from_here, reason);

+void CameraDeviceDelegate::ResetMojoInterface() {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ device_ops_.reset();

+ if (callback_ops_.is_bound()) {

+ callback_ops_.Unbind();

+ }

+void CameraDeviceDelegate::OnMojoConnectionError() {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ if (state_ == kStopping) {

+ // When in stopping state the camera HAL adapter may terminate the Mojo

+ // channel before we do, in which case the OnClosed callback would not be

+ // called.

+ OnClosed(0);

+ } else {

+ // The Mojo channel terminated unexpectedly.

+ ResetMojoInterface();

+ SetState(kStopped);

+ SetErrorState(FROM_HERE, "Mojo connection error");

+ }

+void CameraDeviceDelegate::OnClosed(int32_t result) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ DCHECK_EQ(state_, kStopping);

+ if (result) {

+ client_->OnLog(std::string("Failed to close device: ") +

+ std::string(strerror(result)));

+ }

+ ResetMojoInterface();

+ // Only after the Mojo channel is closed can we be sure that |stream_context_|

+ // is not accessed anymore.

+ stream_context_.reset();

+ client_.reset();

+ SetState(kStopped);

+void CameraDeviceDelegate::OnGotCameraInfo(

+ int32_t result,

+ arc::mojom::CameraInfoPtr camera_info) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ if (state_ != kStarting) {

+ DCHECK_EQ(state_, kStopping);

+ OnClosed(0);

+ return;

+ }

+ if (result) {

+ std::string error_msg = "Failed to get camera info";

+ LOG(ERROR) << error_msg;

+ client_->OnError(FROM_HERE, error_msg);

+ return;

+ }

+ static_metadata_ = std::move(camera_info->static_camera_characteristics);

+ const arc::mojom::CameraMetadataEntryPtr* partial_count = GetMetadataEntry(

+ static_metadata_,

+ arc::mojom::CameraMetadataTag::ANDROID_REQUEST_PARTIAL_RESULT_COUNT);

+ // The partial result count metadata is optional; defaults to 1 in case it

+ // is not set in the static metadata.

+ if (partial_count) {

+ partial_result_count_ =

+ *reinterpret_cast<int32_t*>((*partial_count)->data.data());

+ }

+ int32_t camera_id = std::stoi(device_descriptor_.device_id);

+ arc::mojom::Camera3DeviceOpsRequest device_ops_request =

+ mojo::MakeRequest(&device_ops_);

+ device_ops_.set_connection_error_handler(

+ base::Bind(&CameraDeviceDelegate::OnMojoConnectionError, this));

+ camera_hal_delegate_->OpenDevice(

+ camera_id, std::move(device_ops_request),

+ base::Bind(&CameraDeviceDelegate::OnOpenedDeviceOnModuleDelegate, this));

+void CameraDeviceDelegate::OnOpenedDeviceOnModuleDelegate(int32_t result) {

+ // This method runs on |module_task_runner_| of |camera_hal_delegate_|.

+ ipc_task_runner_->PostTask(

+ FROM_HERE,

+ base::Bind(&CameraDeviceDelegate::OnOpenedDevice, this, result));

+void CameraDeviceDelegate::OnOpenedDevice(int32_t result) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ if (state_ != kStarting) {

+ DCHECK_EQ(state_, kStopping);

+ OnClosed(0);

+ return;

+ }

+ if (result) {

+ std::string error_msg = "Failed to open camera device";

+ LOG(ERROR) << error_msg;

+ client_->OnError(FROM_HERE, error_msg);

+ return;

+ }

+ Initialize();

+void CameraDeviceDelegate::Initialize() {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ DCHECK_EQ(state_, kStarting);

+ // Set up context for preview stream.

+ arc::mojom::Camera3StreamPtr preview_stream =

+ arc::mojom::Camera3Stream::New();

+ preview_stream->id = static_cast<uint64_t>(

+ arc::mojom::Camera3RequestTemplate::CAMERA3_TEMPLATE_PREVIEW);

+ preview_stream->stream_type =

+ arc::mojom::Camera3StreamType::CAMERA3_STREAM_OUTPUT;

+ preview_stream->width =

+ chrome_capture_params_.requested_format.frame_size.width();

+ preview_stream->height =

+ chrome_capture_params_.requested_format.frame_size.height();

+ preview_stream->format =

+ arc::mojom::HalPixelFormat::HAL_PIXEL_FORMAT_YCbCr_420_888;

+ preview_stream->data_space = 0;

+ preview_stream->rotation =

+ arc::mojom::Camera3StreamRotation::CAMERA3_STREAM_ROTATION_0;

+ stream_context_.reset(new StreamContext);

+ stream_context_->stream = std::move(preview_stream);

+ device_ops_->Initialize(

+ callback_ops_.CreateInterfacePtrAndBind(),

+ base::Bind(&CameraDeviceDelegate::OnInitialized, this));

+ callback_ops_.set_connection_error_handler(

+ base::Bind(&CameraDeviceDelegate::OnMojoConnectionError, this));

+void CameraDeviceDelegate::OnInitialized(int32_t result) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ if (state_ != kStarting) {

+ DCHECK_EQ(state_, kStopping);

+ return;

+ }

+ if (result) {

+ SetErrorState(FROM_HERE, std::string("Failed to initialize camera device") +

+ std::to_string(result));

+ return;

+ }

+ SetState(kInitialized);

+ ConfigureStreams();

+void CameraDeviceDelegate::ConfigureStreams() {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ DCHECK_EQ(state_, kInitialized);

+ arc::mojom::Camera3StreamConfigurationPtr stream_config =

+ arc::mojom::Camera3StreamConfiguration::New();

+ stream_config->streams.push_back(stream_context_->stream.Clone());

+ stream_config->operation_mode = arc::mojom::Camera3StreamConfigurationMode::

+ CAMERA3_STREAM_CONFIGURATION_NORMAL_MODE;

+ device_ops_->ConfigureStreams(

+ std::move(stream_config),

+ base::Bind(&CameraDeviceDelegate::OnConfiguredStreams, this));

+void CameraDeviceDelegate::OnConfiguredStreams(

+ int32_t result,

+ arc::mojom::Camera3StreamConfigurationPtr updated_config) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ if (state_ != kInitialized) {

+ DCHECK_EQ(state_, kStopping);

+ return;

+ }

+ if (result) {

+ SetErrorState(FROM_HERE, std::string("Failed to configure streams") +

+ std::to_string(result));

+ return;

+ }

+ if (!updated_config || updated_config->streams.size() != 1) {

+ SetErrorState(FROM_HERE,

+ std::string("Wrong number of streams configured") +

+ std::to_string(updated_config->streams.size()));

+ return;

+ }

+ auto& updated_stream = updated_config->streams[0];

+ const size_t kMaximumAllowedBuffers = 15;

+ if (updated_stream->max_buffers > kMaximumAllowedBuffers) {

+ SetErrorState(FROM_HERE,

+ std::string("Camera HAL requested ") +

+ std::to_string(updated_stream->max_buffers) +

+ std::string(" buffers which exceeds the allowed maximum "

+ "number of buffers"));

+ return;

+ }

+ VideoCaptureFormat capture_format = chrome_capture_params_.requested_format;

+ // TODO(jcliang): Determine the best format from metadata.

+ capture_format.pixel_format = PIXEL_FORMAT_NV12;

+ stream_context_->capture_format = capture_format;

+ stream_context_->stream->usage = updated_stream->usage;

+ stream_context_->stream->max_buffers = updated_stream->max_buffers;

+ VLOG(2) << "Stream " << updated_stream->id

+ << " configured: usage=" << updated_stream->usage

+ << " max_buffers=" << updated_stream->max_buffers;

+ // Allocate buffers.

+ size_t num_buffers = stream_context_->stream->max_buffers;

+ stream_context_->buffers.resize(num_buffers);

+ for (size_t j = 0; j < num_buffers; ++j) {

+ const VideoCaptureFormat frame_format(

+ gfx::Size(stream_context_->stream->width,

+ stream_context_->stream->height),

+ 0.0, stream_context_->capture_format.pixel_format);

+ std::unique_ptr<base::SharedMemory> buffer(new base::SharedMemory());

+ base::SharedMemoryCreateOptions options;

+ options.size = frame_format.ImageAllocationSize();

+ options.share_read_only = false;

+ bool ret = buffer->Create(options);

+ if (!ret) {

+ SetErrorState(FROM_HERE, "Failed to create SharedMemory buffer");

+ return;

+ }

+ ret = buffer->Map(buffer->requested_size());

+ if (!ret) {

+ SetErrorState(FROM_HERE, "Failed to map SharedMemory buffer");

+ return;

+ }

+ stream_context_->buffers[j] = std::move(buffer);

+ stream_context_->free_buffers.push(j);

+ }

+ VLOG(2) << "Allocated " << stream_context_->stream->max_buffers << " buffers";

+ ConstructDefaultRequestSettings();

+ client_->OnStarted();

+void CameraDeviceDelegate::ConstructDefaultRequestSettings() {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ DCHECK_EQ(state_, kInitialized);

+ DCHECK(stream_context_);

+ device_ops_->ConstructDefaultRequestSettings(

+ arc::mojom::Camera3RequestTemplate::CAMERA3_TEMPLATE_PREVIEW,

+ base::Bind(&CameraDeviceDelegate::OnConstructedDefaultRequestSettings,

+ this));

+void CameraDeviceDelegate::OnConstructedDefaultRequestSettings(

+ arc::mojom::CameraMetadataPtr settings) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ if (state_ != kInitialized) {

+ DCHECK_EQ(state_, kStopping);

+ return;

+ }

+ DCHECK(stream_context_);

+ stream_context_->request_settings = std::move(settings);

+ SetState(kStreamConfigured);

+ StartCapture();

+void CameraDeviceDelegate::StartCapture() {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ DCHECK_EQ(state_, kStreamConfigured);

+ DCHECK(stream_context_);

+ DCHECK(!stream_context_->request_settings.is_null());

+ SetState(kCapturing);

+ // We cannot use a loop to register all the free buffers in one shot here

+ // because the camera HAL v3 API specifies that the client cannot call

+ // ProcessCaptureRequest before the previous one returns.

+ RegisterBuffer();

+void CameraDeviceDelegate::RegisterBuffer() {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ DCHECK_EQ(state_, kCapturing);

+ DCHECK(stream_context_);

+ if (stream_context_->free_buffers.empty()) {

+ return;

+ }

+ size_t buffer_id = stream_context_->free_buffers.front();

+ stream_context_->free_buffers.pop();

+ const base::SharedMemory* buffer = stream_context_->buffers[buffer_id].get();

+ VideoPixelFormat buffer_format = stream_context_->capture_format.pixel_format;

+ uint32_t drm_format = PixFormatChromiumToDrm(buffer_format);

+ if (!drm_format) {

+ SetErrorState(FROM_HERE, std::string("Unsupported video pixel format") +

+ VideoPixelFormatToString(buffer_format));

+ return;

+ }

+ arc::mojom::HalPixelFormat hal_pixel_format = stream_context_->stream->format;

+ size_t num_planes = VideoFrame::NumPlanes(buffer_format);

+ std::vector<mojo::ScopedHandle> fds(num_planes);

+ std::vector<uint32_t> strides(num_planes);

+ std::vector<uint32_t> offsets(num_planes);

+ for (size_t i = 0; i < num_planes; ++i) {

+ base::SharedMemoryHandle shm_handle = buffer->handle();

+ // Wrap the platform handle.

+ MojoHandle wrapped_handle;

+ MojoResult result = mojo::edk::CreatePlatformHandleWrapper(

+ mojo::edk::ScopedPlatformHandle(mojo::edk::PlatformHandle(

+ base::SharedMemory::DuplicateHandle(shm_handle).GetHandle())),

+ &wrapped_handle);

+ if (result != MOJO_RESULT_OK) {

+ SetErrorState(FROM_HERE, "Failed to wrap shared memory handle");

+ return;

+ }

+ fds[i].reset(mojo::Handle(wrapped_handle));

+ strides[i] = VideoFrame::RowBytes(

+ i, buffer_format,

+ chrome_capture_params_.requested_format.frame_size.width());

+ if (!i) {

+ offsets[i] = 0;

+ } else {

+ offsets[i] = offsets[i - 1] +

+ VideoFrame::PlaneSize(

+ buffer_format, i - 1,

+ chrome_capture_params_.requested_format.frame_size)

+ .GetArea();

+ }

+ device_ops_->RegisterBuffer(

+ buffer_id, arc::mojom::Camera3DeviceOps::BufferType::SHM, std::move(fds),

+ drm_format, hal_pixel_format, stream_context_->stream->width,

+ stream_context_->stream->height, std::move(strides), std::move(offsets),

+ base::Bind(&CameraDeviceDelegate::OnRegisteredBuffer, this, buffer_id));

+ VLOG(2) << "Registered buffer " << buffer_id;

+void CameraDeviceDelegate::OnRegisteredBuffer(size_t buffer_id,

+ int32_t result) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ if (state_ != kCapturing) {

+ DCHECK_EQ(state_, kStopping);

+ return;

+ }

+ if (result) {

+ SetErrorState(FROM_HERE, std::string("Failed to register buffer: ") +

+ std::to_string(result));

+ return;

+ }

+ ProcessCaptureRequest(buffer_id);

+void CameraDeviceDelegate::ProcessCaptureRequest(size_t buffer_id) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ DCHECK_EQ(state_, kCapturing);

+ DCHECK(stream_context_);

+ arc::mojom::Camera3StreamBufferPtr buffer =

+ arc::mojom::Camera3StreamBuffer::New();

+ buffer->stream_id = static_cast<uint64_t>(

+ arc::mojom::Camera3RequestTemplate::CAMERA3_TEMPLATE_PREVIEW);

+ buffer->buffer_id = buffer_id;

+ buffer->status = arc::mojom::Camera3BufferStatus::CAMERA3_BUFFER_STATUS_OK;

+ arc::mojom::Camera3CaptureRequestPtr request =

+ arc::mojom::Camera3CaptureRequest::New();

+ request->frame_number = frame_number_;

+ request->settings = stream_context_->request_settings.Clone();

+ request->output_buffers.push_back(std::move(buffer));

+ device_ops_->ProcessCaptureRequest(

+ std::move(request),

+ base::Bind(&CameraDeviceDelegate::OnProcessedCaptureRequest, this));

+ VLOG(2) << "Requested capture for frame " << frame_number_ << " with buffer "

+ << buffer_id;

+ frame_number_++;

+ // In case |frame_number_| wraps around, we start at 1 to avoid resetting

+ // |first_frame_shutter_time_|.

+ if (!frame_number_) {

+ frame_number_++;

+ }

+void CameraDeviceDelegate::OnProcessedCaptureRequest(int32_t result) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ if (state_ != kCapturing) {

+ DCHECK_EQ(state_, kStopping);

+ return;

+ }

+ if (result) {

+ SetErrorState(FROM_HERE, std::string("Process capture request failed") +

+ std::to_string(result));

+ return;

+ }

+ RegisterBuffer();

+void CameraDeviceDelegate::ProcessCaptureResult(

+ arc::mojom::Camera3CaptureResultPtr result) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ if (state_ != kCapturing) {

+ DCHECK_EQ(state_, kStopping);

+ return;

+ }

+ uint32_t frame_number = result->frame_number;

+ // A new partial result may be created in either ProcessCaptureResult or

+ // Notify.

+ CaptureResult& partial_result = partial_results_[frame_number];

+ if (partial_results_.size() > stream_context_->stream->max_buffers) {

+ SetErrorState(

+ FROM_HERE,

+ "Received more capture results than the maximum number of buffers");

+ return;

+ }

+ if (result->output_buffers) {

+ if (result->output_buffers->size() != 1) {

+ SetErrorState(

+ FROM_HERE,

+ std::string("Incorrect number of output buffers received: ") +

+ std::to_string(result->output_buffers->size()));

+ return;

+ }

+ arc::mojom::Camera3StreamBufferPtr& stream_buffer =

+ result->output_buffers.value()[0];

+ VLOG(2) << "Received capture result for frame " << frame_number

+ << " stream_id: " << stream_buffer->stream_id;

+ // The camera HAL v3 API specifies that only one capture result can carry

+ // the result buffer for any given frame number.

+ if (!partial_result.buffer.is_null()) {

+ SetErrorState(FROM_HERE,

+ std::string("Received multiple result buffers for frame ") +

+ std::to_string(frame_number));

+ return;

+ } else {

+ partial_result.buffer = std::move(stream_buffer);

+ }

+ // |result->partial_result| is set to 0 if the capture result contains only

+ // the result buffer handles and no result metadata.

+ if (result->partial_result) {

+ uint32_t result_id = result->partial_result;

+ if (result_id > partial_result_count_) {

+ SetErrorState(FROM_HERE, std::string("Invalid partial_result id: ") +

+ std::to_string(result_id));

+ return;

+ }

+ if (partial_result.partial_metadata_received.find(result_id) !=

+ partial_result.partial_metadata_received.end()) {

+ SetErrorState(FROM_HERE,

+ std::string("Received duplicated partial metadata: ") +

+ std::to_string(result_id));

+ return;

+ }

+ partial_result.partial_metadata_received.insert(result_id);

+ MergeMetadata(&partial_result.metadata, result->result);

+ }

+ if (partial_result.partial_metadata_received.size() ==

+ partial_result_count_ &&

+ !partial_result.buffer.is_null()) {

+ // We can only submit the result buffer after we receive the shutter time.

+ if (partial_result.reference_time != base::TimeTicks()) {

+ SubmitCaptureResult(frame_number);

+ }

+void CameraDeviceDelegate::Notify(arc::mojom::Camera3NotifyMsgPtr message) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ if (state_ != kCapturing) {

+ DCHECK_EQ(state_, kStopping);

+ return;

+ }

+ if (message->type == arc::mojom::Camera3MsgType::CAMERA3_MSG_ERROR) {

+ uint32_t frame_number = message->message->get_error()->frame_number;

+ uint64_t error_stream_id = message->message->get_error()->error_stream_id;

+ arc::mojom::Camera3ErrorMsgCode error_code =

+ message->message->get_error()->error_code;

+ HandleNotifyError(frame_number, error_stream_id, error_code);

+ } else { // arc::mojom::Camera3MsgType::CAMERA3_MSG_SHUTTER

+ uint32_t frame_number = message->message->get_shutter()->frame_number;

+ uint64_t shutter_time = message->message->get_shutter()->timestamp;

+ // A new partial result may be created in either ProcessCaptureResult or

+ // Notify.

+ VLOG(2) << "Received shutter time for frame " << frame_number;

+ if (!shutter_time) {

+ SetErrorState(FROM_HERE, std::string("Received invalid shutter time: ") +

+ std::to_string(shutter_time));

+ return;

+ }

+ CaptureResult& partial_result = partial_results_[frame_number];

+ if (partial_results_.size() > stream_context_->stream->max_buffers) {

+ SetErrorState(

+ FROM_HERE,

+ "Received more capture results than the maximum number of buffers");

+ return;

+ }

+ // Shutter timestamp is in ns.

+ base::TimeTicks reference_time =

+ base::TimeTicks::FromInternalValue(shutter_time / 1000);

+ partial_result.reference_time = reference_time;

+ if (!frame_number) {

+ // Record the shutter time of the first frame for calculating the

+ // timestamp.

+ first_frame_shutter_time_ = reference_time;

+ }

+ partial_result.timestamp = reference_time - first_frame_shutter_time_;

+ if (partial_result.partial_metadata_received.size() ==

+ partial_result_count_ &&

+ !partial_result.buffer.is_null()) {

+ SubmitCaptureResult(frame_number);

+ }

+void CameraDeviceDelegate::HandleNotifyError(

+ uint32_t frame_number,

+ uint64_t error_stream_id,

+ arc::mojom::Camera3ErrorMsgCode error_code) {

+ switch (error_code) {

+ case arc::mojom::Camera3ErrorMsgCode::CAMERA3_MSG_ERROR_DEVICE:

+ // Fatal error and no more frames will be produced by the device.

+ SetErrorState(FROM_HERE, "Fatal device error");

+ break;

+ case arc::mojom::Camera3ErrorMsgCode::CAMERA3_MSG_ERROR_REQUEST: {

+ // An error has occurred in processing the request; the request

+ // specified by |frame_number| has been dropped by the camera device.

+ // Subsequent requests are unaffected.

+ //

+ // The HAL will call ProcessCaptureResult with the buffers' state set to

+ // STATUS_ERROR. The content of the buffers will be dropped and the

+ // buffers will be reused in SubmitCaptureResult.

+ std::string warning_msg =

+ std::string("An error occurred while processing request for frame ") +

+ std::to_string(frame_number);

+ LOG(WARNING) << warning_msg;

+ client_->OnLog(warning_msg);

+ break;

+ }

+ case arc::mojom::Camera3ErrorMsgCode::CAMERA3_MSG_ERROR_RESULT: {

+ // An error has occurred in producing the output metadata buffer for a

+ // result; the output metadata will not be available for the frame

+ // specified by |frame_number|. Subsequent requests are unaffected.

+ std::string warning_msg = std::string(

+ "An error occurred while producing result "

+ "metadata for frame ") +

+ std::to_string(frame_number);

+ LOG(WARNING) << warning_msg;

+ client_->OnLog(warning_msg);

+ // The result metadata will not be complete so we don't need to wait for

+ // partial results on frame |frame_number|.

+ partial_results_[frame_number].partial_metadata_received.clear();

+ for (uint32_t i = 0; i < partial_result_count_; ++i) {

+ partial_results_[frame_number].partial_metadata_received.insert(i);

+ }

+ break;

+ }

+ case arc::mojom::Camera3ErrorMsgCode::CAMERA3_MSG_ERROR_BUFFER:

+ // An error has occurred in placing the output buffer into a stream for

+ // a request. |frame_number| specifies the request for which the buffer

+ // was dropped, and |error_stream_id| specifies the stream that dropped

+ // the buffer.

+ //

+ // The HAL will call ProcessCaptureResult with the buffer's state set to

+ // STATUS_ERROR. The content of the buffer will be dropped and the

+ // buffer will be reused in SubmitCaptureResult.

+ client_->OnLog(

+ std::string(

+ "An error occurred while filling output buffer of stream ") +

+ std::to_string(error_stream_id) + std::string(" in frame ") +

+ std::to_string(frame_number));

+ break;

+ default:

+ // To eliminate the warning for not handling CAMERA3_MSG_NUM_ERRORS

+ break;

+ }

+void CameraDeviceDelegate::SubmitCaptureResult(uint32_t frame_number) {

+ DCHECK(ipc_task_runner_->BelongsToCurrentThread());

+ DCHECK_EQ(state_, kCapturing);

+ if (partial_results_.begin()->first != frame_number) {

+ SetErrorState(FROM_HERE,

+ std::string("Received frame is out-of-order; expect ") +

+ std::to_string(partial_results_.begin()->first) +

+ std::string(" but got ") + std::to_string(frame_number));

+ return;

+ }

+ VLOG(2) << "Submit capture result of frame " << frame_number;

+ CaptureResult& partial_result = partial_results_[frame_number];

+ DCHECK_EQ(partial_result.partial_metadata_received.size(),

+ partial_result_count_);

+ DCHECK(partial_result.buffer);

+ uint32_t buffer_id = partial_result.buffer->buffer_id;

+ // Wait on release fence before delivering the result buffer to client.

+ if (partial_result.buffer->release_fence.is_valid()) {

+ const int kSyncWaitTimeoutMs = 1000;

+ mojo::edk::ScopedPlatformHandle fence;

+ MojoResult result = mojo::edk::PassWrappedPlatformHandle(

+ partial_result.buffer->release_fence.release().value(), &fence);

+ if (result != MOJO_RESULT_OK) {

+ SetErrorState(FROM_HERE, "Failed to unwrap release fence fd");

+ return;

+ }

+ if (!sync_wait(fence.get().handle, kSyncWaitTimeoutMs)) {

+ SetErrorState(FROM_HERE, "Sync wait on release fence timed out");

+ return;

+ }

+ // Deliver the captured data to client and then re-queue the buffer.

+ if (partial_result.buffer->status !=

+ arc::mojom::Camera3BufferStatus::CAMERA3_BUFFER_STATUS_ERROR) {

+ const base::SharedMemory* shm_buffer =

+ stream_context_->buffers[buffer_id].get();

+ client_->OnIncomingCapturedData(

+ reinterpret_cast<uint8_t*>(shm_buffer->memory()),

+ shm_buffer->mapped_size(), stream_context_->capture_format, rotation_,

+ partial_result.reference_time, partial_result.timestamp);

+ }

+ stream_context_->free_buffers.push(buffer_id);

+ partial_results_.erase(frame_number);

+ RegisterBuffer();

+} // namespace media