media/cast/net/rtcp/receiver_rtcp_event_subscriber.cc - cobalt - Git at Google

 // 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 "media/cast/net/rtcp/receiver_rtcp_event_subscriber.h"

 #include <algorithm>
 #include <utility>

 #include "base/logging.h"

 namespace media {
 namespace cast {

 ReceiverRtcpEventSubscriber::ReceiverRtcpEventSubscriber(
     const size_t max_size_to_retain, EventMediaType type)
     : max_size_to_retain_(
           max_size_to_retain * (kResendDelay * kNumResends + 1)),
       type_(type),
       popped_events_(0) {
   DCHECK(max_size_to_retain_ > 0u);
   DCHECK(type_ == AUDIO_EVENT || type_ == VIDEO_EVENT);
   for (size_t i = 0; i < kNumResends; i++) {
     send_ptrs_[i] = 0;
   }
 }

 ReceiverRtcpEventSubscriber::~ReceiverRtcpEventSubscriber() {
   DCHECK(thread_checker_.CalledOnValidThread());
 }

 void ReceiverRtcpEventSubscriber::OnReceiveFrameEvent(
     const FrameEvent& frame_event) {
   DCHECK(thread_checker_.CalledOnValidThread());

   if (ShouldProcessEvent(frame_event.type, frame_event.media_type)) {
     RtcpEvent rtcp_event;
     switch (frame_event.type) {
       case FRAME_PLAYOUT:
         rtcp_event.delay_delta = frame_event.delay_delta;
         FALLTHROUGH;
       case FRAME_ACK_SENT:
       case FRAME_DECODED:
         rtcp_event.type = frame_event.type;
         rtcp_event.timestamp = frame_event.timestamp;
         rtcp_events_.push_back(
             std::make_pair(frame_event.rtp_timestamp, rtcp_event));
         break;
       default:
         break;
     }
   }

   TruncateMapIfNeeded();
 }

 void ReceiverRtcpEventSubscriber::OnReceivePacketEvent(
     const PacketEvent& packet_event) {
   DCHECK(thread_checker_.CalledOnValidThread());

   if (ShouldProcessEvent(packet_event.type, packet_event.media_type)) {
     RtcpEvent rtcp_event;
     if (packet_event.type == PACKET_RECEIVED) {
       rtcp_event.type = packet_event.type;
       rtcp_event.timestamp = packet_event.timestamp;
       rtcp_event.packet_id = packet_event.packet_id;
       rtcp_events_.push_back(
           std::make_pair(packet_event.rtp_timestamp, rtcp_event));
     }
   }

   TruncateMapIfNeeded();
 }

 struct CompareByFirst {
   bool operator()(const std::pair<RtpTimeTicks, RtcpEvent>& a,
                   const std::pair<RtpTimeTicks, RtcpEvent>& b) {
     return a.first < b.first;
   }
 };

 void ReceiverRtcpEventSubscriber::GetRtcpEventsWithRedundancy(
     RtcpEvents* rtcp_events) {
   DCHECK(thread_checker_.CalledOnValidThread());
   DCHECK(rtcp_events);

   uint64_t event_level = rtcp_events_.size() + popped_events_;
   event_levels_for_past_frames_.push_back(event_level);

   for (size_t i = 0; i < kNumResends; i++) {
     size_t resend_delay = kResendDelay * i;
     if (event_levels_for_past_frames_.size() < resend_delay + 1)
       break;

     uint64_t send_limit =
         event_levels_for_past_frames_[event_levels_for_past_frames_.size() - 1 -
                                       resend_delay];

     if (send_ptrs_[i] < popped_events_) {
       send_ptrs_[i] = popped_events_;
     }

     while (send_ptrs_[i] < send_limit &&
            rtcp_events->size() < kMaxEventsPerRTCP) {
       rtcp_events->push_back(rtcp_events_[send_ptrs_[i] - popped_events_]);
       send_ptrs_[i]++;
     }
     send_limit = send_ptrs_[i];
   }

   if (event_levels_for_past_frames_.size() > kResendDelay * (kNumResends + 1)) {
     while (popped_events_ < event_levels_for_past_frames_[0]) {
       rtcp_events_.pop_front();
       popped_events_++;
     }
     event_levels_for_past_frames_.pop_front();
   }

   std::sort(rtcp_events->begin(), rtcp_events->end(), CompareByFirst());
 }

 void ReceiverRtcpEventSubscriber::TruncateMapIfNeeded() {
   // If map size has exceeded |max_size_to_retain_|, remove entry with
   // the smallest RTP timestamp.
   if (rtcp_events_.size() > max_size_to_retain_) {
     DVLOG(3) << "RTCP event map exceeded size limit; "
              << "removing oldest entry";
     // This is fine since we only insert elements one at a time.
     rtcp_events_.pop_front();
     popped_events_++;
   }

   DCHECK(rtcp_events_.size() <= max_size_to_retain_);
 }

 bool ReceiverRtcpEventSubscriber::ShouldProcessEvent(
     CastLoggingEvent event_type, EventMediaType event_media_type) {
   return type_ == event_media_type &&
       (event_type == FRAME_ACK_SENT || event_type == FRAME_DECODED ||
        event_type == FRAME_PLAYOUT || event_type == PACKET_RECEIVED);
 }

 }  // namespace cast
 }  // namespace media
	// 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 "media/cast/net/rtcp/receiver_rtcp_event_subscriber.h"

	#include <algorithm>
	#include <utility>

	#include "base/logging.h"

	namespace media {
	namespace cast {

	ReceiverRtcpEventSubscriber::ReceiverRtcpEventSubscriber(
	const size_t max_size_to_retain, EventMediaType type)
	: max_size_to_retain_(
	max_size_to_retain * (kResendDelay * kNumResends + 1)),
	type_(type),
	popped_events_(0) {
	DCHECK(max_size_to_retain_ > 0u);
	DCHECK(type_ == AUDIO_EVENT \|\| type_ == VIDEO_EVENT);
	for (size_t i = 0; i < kNumResends; i++) {
	send_ptrs_[i] = 0;
	}
	}

	ReceiverRtcpEventSubscriber::~ReceiverRtcpEventSubscriber() {
	DCHECK(thread_checker_.CalledOnValidThread());
	}

	void ReceiverRtcpEventSubscriber::OnReceiveFrameEvent(
	const FrameEvent& frame_event) {
	DCHECK(thread_checker_.CalledOnValidThread());

	if (ShouldProcessEvent(frame_event.type, frame_event.media_type)) {
	RtcpEvent rtcp_event;
	switch (frame_event.type) {
	case FRAME_PLAYOUT:
	rtcp_event.delay_delta = frame_event.delay_delta;
	FALLTHROUGH;
	case FRAME_ACK_SENT:
	case FRAME_DECODED:
	rtcp_event.type = frame_event.type;
	rtcp_event.timestamp = frame_event.timestamp;
	rtcp_events_.push_back(
	std::make_pair(frame_event.rtp_timestamp, rtcp_event));
	break;
	default:
	break;
	}
	}

	TruncateMapIfNeeded();
	}

	void ReceiverRtcpEventSubscriber::OnReceivePacketEvent(
	const PacketEvent& packet_event) {
	DCHECK(thread_checker_.CalledOnValidThread());

	if (ShouldProcessEvent(packet_event.type, packet_event.media_type)) {
	RtcpEvent rtcp_event;
	if (packet_event.type == PACKET_RECEIVED) {
	rtcp_event.type = packet_event.type;
	rtcp_event.timestamp = packet_event.timestamp;
	rtcp_event.packet_id = packet_event.packet_id;
	rtcp_events_.push_back(
	std::make_pair(packet_event.rtp_timestamp, rtcp_event));
	}
	}

	TruncateMapIfNeeded();
	}

	struct CompareByFirst {
	bool operator()(const std::pair<RtpTimeTicks, RtcpEvent>& a,
	const std::pair<RtpTimeTicks, RtcpEvent>& b) {
	return a.first < b.first;
	}
	};

	void ReceiverRtcpEventSubscriber::GetRtcpEventsWithRedundancy(
	RtcpEvents* rtcp_events) {
	DCHECK(thread_checker_.CalledOnValidThread());
	DCHECK(rtcp_events);

	uint64_t event_level = rtcp_events_.size() + popped_events_;
	event_levels_for_past_frames_.push_back(event_level);

	for (size_t i = 0; i < kNumResends; i++) {
	size_t resend_delay = kResendDelay * i;
	if (event_levels_for_past_frames_.size() < resend_delay + 1)
	break;

	uint64_t send_limit =
	event_levels_for_past_frames_[event_levels_for_past_frames_.size() - 1 -
	resend_delay];

	if (send_ptrs_[i] < popped_events_) {
	send_ptrs_[i] = popped_events_;
	}

	while (send_ptrs_[i] < send_limit &&
	rtcp_events->size() < kMaxEventsPerRTCP) {
	rtcp_events->push_back(rtcp_events_[send_ptrs_[i] - popped_events_]);
	send_ptrs_[i]++;
	}
	send_limit = send_ptrs_[i];
	}

	if (event_levels_for_past_frames_.size() > kResendDelay * (kNumResends + 1)) {
	while (popped_events_ < event_levels_for_past_frames_[0]) {
	rtcp_events_.pop_front();
	popped_events_++;
	}
	event_levels_for_past_frames_.pop_front();
	}

	std::sort(rtcp_events->begin(), rtcp_events->end(), CompareByFirst());
	}

	void ReceiverRtcpEventSubscriber::TruncateMapIfNeeded() {
	// If map size has exceeded \|max_size_to_retain_\|, remove entry with
	// the smallest RTP timestamp.
	if (rtcp_events_.size() > max_size_to_retain_) {
	DVLOG(3) << "RTCP event map exceeded size limit; "
	<< "removing oldest entry";
	// This is fine since we only insert elements one at a time.
	rtcp_events_.pop_front();
	popped_events_++;
	}

	DCHECK(rtcp_events_.size() <= max_size_to_retain_);
	}

	bool ReceiverRtcpEventSubscriber::ShouldProcessEvent(
	CastLoggingEvent event_type, EventMediaType event_media_type) {
	return type_ == event_media_type &&
	(event_type == FRAME_ACK_SENT \|\| event_type == FRAME_DECODED \|\|
	event_type == FRAME_PLAYOUT \|\| event_type == PACKET_RECEIVED);
	}

	} // namespace cast
	} // namespace media