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// Copyright 2016 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 "services/video_capture/device_factory_media_to_mojo_adapter.h"
#include <sstream>
#include <utility>
#include "base/bind.h"
#include "base/notreached.h"
#include "base/stl_util.h"
#include "base/strings/stringprintf.h"
#include "media/capture/video/fake_video_capture_device.h"
#include "media/capture/video/video_capture_device_info.h"
#include "mojo/public/cpp/bindings/pending_remote.h"
#include "services/video_capture/device_media_to_mojo_adapter.h"
#include "services/video_capture/public/mojom/producer.mojom.h"
#include "services/video_capture/public/uma/video_capture_service_event.h"
namespace {
// Translates a set of device infos reported by a VideoCaptureSystem to a set
// of device infos that the video capture service exposes to its client.
// A translation is needed, because the actual video frames, on their way
// from the VideoCaptureSystem to clients of the Video Capture Service, will
// pass through an instance of VideoCaptureDeviceClient, which performs certain
// format conversions.
// TODO(chfremer): A cleaner design would be to have this translation
// happen in VideoCaptureDeviceClient, and talk only to VideoCaptureDeviceClient
// instead of VideoCaptureSystem.
static void TranslateDeviceInfos(
video_capture::mojom::DeviceFactory::GetDeviceInfosCallback callback,
const std::vector<media::VideoCaptureDeviceInfo>& device_infos) {
std::vector<media::VideoCaptureDeviceInfo> translated_device_infos;
for (const auto& device_info : device_infos) {
media::VideoCaptureDeviceInfo translated_device_info;
translated_device_info.descriptor = device_info.descriptor;
for (const auto& format : device_info.supported_formats) {
media::VideoCaptureFormat translated_format;
translated_format.pixel_format =
(format.pixel_format == media::PIXEL_FORMAT_Y16)
? media::PIXEL_FORMAT_Y16
: media::PIXEL_FORMAT_I420;
translated_format.frame_size = format.frame_size;
translated_format.frame_rate = format.frame_rate;
if (base::Contains(translated_device_info.supported_formats,
translated_format))
continue;
translated_device_info.supported_formats.push_back(translated_format);
}
// We explicitly need to include device infos for which there are zero
// supported formats reported until https://crbug.com/792260 is resolved.
translated_device_infos.push_back(translated_device_info);
}
std::move(callback).Run(translated_device_infos);
}
static void DiscardDeviceInfosAndCallContinuation(
base::OnceClosure continuation,
const std::vector<media::VideoCaptureDeviceInfo>&) {
std::move(continuation).Run();
}
} // anonymous namespace
namespace video_capture {
DeviceFactoryMediaToMojoAdapter::ActiveDeviceEntry::ActiveDeviceEntry() =
default;
DeviceFactoryMediaToMojoAdapter::ActiveDeviceEntry::~ActiveDeviceEntry() =
default;
DeviceFactoryMediaToMojoAdapter::ActiveDeviceEntry::ActiveDeviceEntry(
DeviceFactoryMediaToMojoAdapter::ActiveDeviceEntry&& other) = default;
DeviceFactoryMediaToMojoAdapter::ActiveDeviceEntry&
DeviceFactoryMediaToMojoAdapter::ActiveDeviceEntry::operator=(
DeviceFactoryMediaToMojoAdapter::ActiveDeviceEntry&& other) = default;
#if defined(OS_CHROMEOS)
DeviceFactoryMediaToMojoAdapter::DeviceFactoryMediaToMojoAdapter(
std::unique_ptr<media::VideoCaptureSystem> capture_system,
media::MojoMjpegDecodeAcceleratorFactoryCB jpeg_decoder_factory_callback,
scoped_refptr<base::SequencedTaskRunner> jpeg_decoder_task_runner)
: capture_system_(std::move(capture_system)),
jpeg_decoder_factory_callback_(std::move(jpeg_decoder_factory_callback)),
jpeg_decoder_task_runner_(std::move(jpeg_decoder_task_runner)),
has_called_get_device_infos_(false),
weak_factory_(this) {}
#else
DeviceFactoryMediaToMojoAdapter::DeviceFactoryMediaToMojoAdapter(
std::unique_ptr<media::VideoCaptureSystem> capture_system)
: capture_system_(std::move(capture_system)),
has_called_get_device_infos_(false) {}
#endif // defined(OS_CHROMEOS)
DeviceFactoryMediaToMojoAdapter::~DeviceFactoryMediaToMojoAdapter() = default;
void DeviceFactoryMediaToMojoAdapter::GetDeviceInfos(
GetDeviceInfosCallback callback) {
capture_system_->GetDeviceInfosAsync(
base::BindOnce(&TranslateDeviceInfos, std::move(callback)));
has_called_get_device_infos_ = true;
}
void DeviceFactoryMediaToMojoAdapter::CreateDevice(
const std::string& device_id,
mojo::PendingReceiver<mojom::Device> device_receiver,
CreateDeviceCallback callback) {
auto active_device_iter = active_devices_by_id_.find(device_id);
if (active_device_iter != active_devices_by_id_.end()) {
// The requested device is already in use.
// Revoke the access and close the device, then bind to the new receiver.
ActiveDeviceEntry& device_entry = active_device_iter->second;
device_entry.receiver->reset();
device_entry.device->Stop();
device_entry.receiver->Bind(std::move(device_receiver));
device_entry.receiver->set_disconnect_handler(base::BindOnce(
&DeviceFactoryMediaToMojoAdapter::OnClientConnectionErrorOrClose,
base::Unretained(this), device_id));
std::move(callback).Run(mojom::DeviceAccessResultCode::SUCCESS);
return;
}
auto create_and_add_new_device_cb =
base::BindOnce(&DeviceFactoryMediaToMojoAdapter::CreateAndAddNewDevice,
weak_factory_.GetWeakPtr(), device_id,
std::move(device_receiver), std::move(callback));
if (has_called_get_device_infos_) {
std::move(create_and_add_new_device_cb).Run();
return;
}
capture_system_->GetDeviceInfosAsync(
base::BindOnce(&DiscardDeviceInfosAndCallContinuation,
std::move(create_and_add_new_device_cb)));
has_called_get_device_infos_ = true;
}
void DeviceFactoryMediaToMojoAdapter::AddSharedMemoryVirtualDevice(
const media::VideoCaptureDeviceInfo& device_info,
mojo::PendingRemote<mojom::Producer> producer,
bool send_buffer_handles_to_producer_as_raw_file_descriptors,
mojo::PendingReceiver<mojom::SharedMemoryVirtualDevice>
virtual_device_receiver) {
NOTIMPLEMENTED();
}
void DeviceFactoryMediaToMojoAdapter::AddTextureVirtualDevice(
const media::VideoCaptureDeviceInfo& device_info,
mojo::PendingReceiver<mojom::TextureVirtualDevice>
virtual_device_receiver) {
NOTIMPLEMENTED();
}
void DeviceFactoryMediaToMojoAdapter::RegisterVirtualDevicesChangedObserver(
mojo::PendingRemote<mojom::DevicesChangedObserver> observer,
bool raise_event_if_virtual_devices_already_present) {
NOTIMPLEMENTED();
}
void DeviceFactoryMediaToMojoAdapter::CreateAndAddNewDevice(
const std::string& device_id,
mojo::PendingReceiver<mojom::Device> device_receiver,
CreateDeviceCallback callback) {
std::unique_ptr<media::VideoCaptureDevice> media_device =
capture_system_->CreateDevice(device_id);
if (media_device == nullptr) {
std::move(callback).Run(
mojom::DeviceAccessResultCode::ERROR_DEVICE_NOT_FOUND);
return;
}
// Add entry to active_devices to keep track of it
ActiveDeviceEntry device_entry;
#if defined(OS_CHROMEOS)
device_entry.device = std::make_unique<DeviceMediaToMojoAdapter>(
std::move(media_device), jpeg_decoder_factory_callback_,
jpeg_decoder_task_runner_);
#else
device_entry.device =
std::make_unique<DeviceMediaToMojoAdapter>(std::move(media_device));
#endif // defined(OS_CHROMEOS)
device_entry.receiver = std::make_unique<mojo::Receiver<mojom::Device>>(
device_entry.device.get(), std::move(device_receiver));
device_entry.receiver->set_disconnect_handler(base::BindOnce(
&DeviceFactoryMediaToMojoAdapter::OnClientConnectionErrorOrClose,
base::Unretained(this), device_id));
active_devices_by_id_[device_id] = std::move(device_entry);
std::move(callback).Run(mojom::DeviceAccessResultCode::SUCCESS);
}
void DeviceFactoryMediaToMojoAdapter::OnClientConnectionErrorOrClose(
const std::string& device_id) {
video_capture::uma::LogVideoCaptureServiceEvent(
video_capture::uma::SERVICE_LOST_CONNECTION_TO_BROWSER);
active_devices_by_id_[device_id].device->Stop();
active_devices_by_id_.erase(device_id);
}
} // namespace video_capture