// Copyright 2014 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 "remoting/host/cast_video_capturer_adapter.h" #include "third_party/webrtc/modules/desktop_capture/desktop_frame.h" namespace remoting { // Number of frames to be captured per second. const int kFramesPerSec = 10; CastVideoCapturerAdapter::CastVideoCapturerAdapter( scoped_ptr capturer) : desktop_capturer_(capturer.Pass()) { DCHECK(desktop_capturer_); thread_checker_.DetachFromThread(); // Disable video adaptation since we don't intend to use it. set_enable_video_adapter(false); } CastVideoCapturerAdapter::~CastVideoCapturerAdapter() { DCHECK(!capture_timer_); } webrtc::SharedMemory* CastVideoCapturerAdapter::CreateSharedMemory( size_t size) { return NULL; } void CastVideoCapturerAdapter::OnCaptureCompleted(webrtc::DesktopFrame* frame) { scoped_ptr owned_frame(frame); // Drop the owned_frame if there were no changes. if (!owned_frame || owned_frame->updated_region().is_empty()) { owned_frame.reset(); return; } // Convert the webrtc::DesktopFrame to a cricket::CapturedFrame. cricket::CapturedFrame captured_frame; captured_frame.width = owned_frame->size().width(); captured_frame.height = owned_frame->size().height(); base::TimeTicks current_time = base::TimeTicks::Now(); captured_frame.elapsed_time = (current_time - start_time_).InMicroseconds() * base::Time::kNanosecondsPerMicrosecond; captured_frame.time_stamp = current_time.ToInternalValue() * base::Time::kNanosecondsPerMicrosecond; captured_frame.data = owned_frame->data(); // The data_size attribute must be set. If multiple formats are supported, // this should be set appropriately for each one. captured_frame.data_size = (captured_frame.width * webrtc::DesktopFrame::kBytesPerPixel * 8 + 7) / 8 * captured_frame.height; captured_frame.fourcc = cricket::FOURCC_ARGB; SignalFrameCaptured(this, &captured_frame); } bool CastVideoCapturerAdapter::GetBestCaptureFormat( const cricket::VideoFormat& desired, cricket::VideoFormat* best_format) { DCHECK(thread_checker_.CalledOnValidThread()); // For now, just used the desired width and height. best_format->width = desired.width; best_format->height = desired.height; best_format->fourcc = cricket::FOURCC_ARGB; best_format->interval = FPS_TO_INTERVAL(kFramesPerSec); return true; } cricket::CaptureState CastVideoCapturerAdapter::Start( const cricket::VideoFormat& capture_format) { DCHECK(thread_checker_.CalledOnValidThread()); DCHECK(!capture_timer_); DCHECK_EQ(capture_format.fourcc, (static_cast(cricket::FOURCC_ARGB))); if (!desktop_capturer_) { VLOG(1) << "CastVideoCapturerAdapter failed to start."; return cricket::CS_FAILED; } // This is required to tell the cricket::VideoCapturer base class what the // capture format will be. SetCaptureFormat(&capture_format); desktop_capturer_->Start(this); // Save the Start() time of |desktop_capturer_|. This will be used // to estimate the creation time of the frame source, to set the elapsed_time // of future CapturedFrames in OnCaptureCompleted(). start_time_ = base::TimeTicks::Now(); capture_timer_.reset(new base::RepeatingTimer()); capture_timer_->Start(FROM_HERE, base::TimeDelta::FromMicroseconds( GetCaptureFormat()->interval / (base::Time::kNanosecondsPerMicrosecond)), this, &CastVideoCapturerAdapter::CaptureNextFrame); return cricket::CS_RUNNING; } // Similar to the base class implementation with some important differences: // 1. Does not call either Stop() or Start(), as those would affect the state of // |desktop_capturer_|. // 2. Does not support unpausing after stopping the capturer. It is unclear // if that flow needs to be supported. bool CastVideoCapturerAdapter::Pause(bool pause) { DCHECK(thread_checker_.CalledOnValidThread()); if (pause) { if (capture_state() == cricket::CS_PAUSED) return true; bool running = capture_state() == cricket::CS_STARTING || capture_state() == cricket::CS_RUNNING; DCHECK_EQ(running, IsRunning()); if (!running) { LOG(ERROR) << "Cannot pause CastVideoCapturerAdapter."; return false; } // Stop |capture_timer_| and set capture state to cricket::CS_PAUSED. capture_timer_->Stop(); SetCaptureState(cricket::CS_PAUSED); VLOG(1) << "CastVideoCapturerAdapter paused."; return true; } else { // Unpausing. if (capture_state() != cricket::CS_PAUSED || !GetCaptureFormat() || !capture_timer_) { LOG(ERROR) << "Cannot unpause CastVideoCapturerAdapter."; return false; } // Restart |capture_timer_| and set capture state to cricket::CS_RUNNING; capture_timer_->Start(FROM_HERE, base::TimeDelta::FromMicroseconds( GetCaptureFormat()->interval / (base::Time::kNanosecondsPerMicrosecond)), this, &CastVideoCapturerAdapter::CaptureNextFrame); SetCaptureState(cricket::CS_RUNNING); VLOG(1) << "CastVideoCapturerAdapter unpaused."; } return true; } void CastVideoCapturerAdapter::Stop() { DCHECK(thread_checker_.CalledOnValidThread()); DCHECK_NE(capture_state(), cricket::CS_STOPPED); capture_timer_.reset(); SetCaptureFormat(NULL); SetCaptureState(cricket::CS_STOPPED); VLOG(1) << "CastVideoCapturerAdapter stopped."; } bool CastVideoCapturerAdapter::IsRunning() { DCHECK(thread_checker_.CalledOnValidThread()); return capture_timer_->IsRunning(); } bool CastVideoCapturerAdapter::IsScreencast() const { return true; } bool CastVideoCapturerAdapter::GetPreferredFourccs( std::vector* fourccs) { DCHECK(thread_checker_.CalledOnValidThread()); if (!fourccs) return false; fourccs->push_back(cricket::FOURCC_ARGB); return true; } void CastVideoCapturerAdapter::CaptureNextFrame() { // If we are paused, then don't capture. if (!IsRunning()) return; desktop_capturer_->Capture(webrtc::DesktopRegion()); } } // namespace remoting