path: root/media/cast/rtcp/rtcp_receiver.cc

// Copyright 2013 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/rtcp/rtcp_receiver.h"

#include "base/logging.h"
#include "media/cast/rtcp/rtcp_utility.h"

namespace {

media::cast::CastLoggingEvent TranslateToLogEventFromWireFormat(uint8 event) {
  switch (event) {
    case 1:
      return media::cast::kAckSent;
    case 2:
      return media::cast::kAudioPlayoutDelay;
    case 3:
      return media::cast::kAudioFrameDecoded;
    case 4:
      return media::cast::kVideoFrameDecoded;
    case 5:
      return media::cast::kVideoRenderDelay;
    case 6:
      return media::cast::kPacketReceived;
    default:
      // If the sender adds new log messages we will end up here until we add
      // the new messages in the receiver.
      VLOG(1) << "Unexpected log message received: " << static_cast<int>(event);
      NOTREACHED();
      return media::cast::kUnknown;
  }
}

media::cast::RtcpSenderFrameStatus TranslateToFrameStatusFromWireFormat(
    uint8 status) {
  switch (status) {
    case 0:
      return media::cast::kRtcpSenderFrameStatusUnknown;
    case 1:
      return media::cast::kRtcpSenderFrameStatusDroppedByEncoder;
    case 2:
      return media::cast::kRtcpSenderFrameStatusDroppedByFlowControl;
    case 3:
      return media::cast::kRtcpSenderFrameStatusSentToNetwork;
    default:
      // If the sender adds new log messages we will end up here until we add
      // the new messages in the receiver.
      NOTREACHED();
      VLOG(1) << "Unexpected status received: " << static_cast<int>(status);
      return media::cast::kRtcpSenderFrameStatusUnknown;
  }
}

}  // namespace

namespace media {
namespace cast {

RtcpReceiver::RtcpReceiver(scoped_refptr<CastEnvironment> cast_environment,
                           RtcpSenderFeedback* sender_feedback,
                           RtcpReceiverFeedback* receiver_feedback,
                           RtcpRttFeedback* rtt_feedback,
                           uint32 local_ssrc)
    : ssrc_(local_ssrc),
      remote_ssrc_(0),
      sender_feedback_(sender_feedback),
      receiver_feedback_(receiver_feedback),
      rtt_feedback_(rtt_feedback),
      cast_environment_(cast_environment) {}

RtcpReceiver::~RtcpReceiver() {}

void RtcpReceiver::SetRemoteSSRC(uint32 ssrc) {
  remote_ssrc_ = ssrc;
}

void RtcpReceiver::IncomingRtcpPacket(RtcpParser* rtcp_parser) {
  RtcpFieldTypes field_type = rtcp_parser->Begin();
  while (field_type != kRtcpNotValidCode) {
    // Each "case" is responsible for iterate the parser to the next top
    // level packet.
    switch (field_type) {
      case kRtcpSrCode:
        HandleSenderReport(rtcp_parser);
        break;
      case kRtcpRrCode:
        HandleReceiverReport(rtcp_parser);
        break;
      case kRtcpSdesCode:
        HandleSDES(rtcp_parser);
        break;
      case kRtcpByeCode:
        HandleBYE(rtcp_parser);
        break;
      case kRtcpXrCode:
        HandleXr(rtcp_parser);
        break;
      case kRtcpGenericRtpFeedbackNackCode:
        HandleNACK(rtcp_parser);
        break;
      case kRtcpGenericRtpFeedbackSrReqCode:
        HandleSendReportRequest(rtcp_parser);
        break;
      case kRtcpPayloadSpecificPliCode:
        HandlePLI(rtcp_parser);
        break;
      case kRtcpPayloadSpecificRpsiCode:
        HandleRpsi(rtcp_parser);
        break;
      case kRtcpPayloadSpecificFirCode:
        HandleFIR(rtcp_parser);
        break;
      case kRtcpPayloadSpecificAppCode:
        HandlePayloadSpecificApp(rtcp_parser);
        break;
      case kRtcpApplicationSpecificCastReceiverLogCode:
        HandleApplicationSpecificCastReceiverLog(rtcp_parser);
        break;
      case kRtcpApplicationSpecificCastSenderLogCode:
        HandleApplicationSpecificCastSenderLog(rtcp_parser);
        break;
      case kRtcpPayloadSpecificRembCode:
      case kRtcpPayloadSpecificRembItemCode:
      case kRtcpPayloadSpecificCastCode:
      case kRtcpPayloadSpecificCastNackItemCode:
      case kRtcpApplicationSpecificCastReceiverLogFrameCode:
      case kRtcpApplicationSpecificCastReceiverLogEventCode:
      case kRtcpNotValidCode:
      case kRtcpReportBlockItemCode:
      case kRtcpSdesChunkCode:
      case kRtcpGenericRtpFeedbackNackItemCode:
      case kRtcpPayloadSpecificFirItemCode:
      case kRtcpXrRrtrCode:
      case kRtcpXrDlrrCode:
      case kRtcpXrUnknownItemCode:
        rtcp_parser->Iterate();
        NOTREACHED() << "Invalid state";
        break;
    }
    field_type = rtcp_parser->FieldType();
  }
}

void RtcpReceiver::HandleSenderReport(RtcpParser* rtcp_parser) {
  RtcpFieldTypes rtcp_field_type = rtcp_parser->FieldType();
  const RtcpField& rtcp_field = rtcp_parser->Field();

  DCHECK(rtcp_field_type == kRtcpSrCode) << "Invalid state";

  // Synchronization source identifier for the originator of this SR packet.
  uint32 remote_ssrc = rtcp_field.sender_report.sender_ssrc;

  VLOG(1) << "Cast RTCP received SR from SSRC " << remote_ssrc;

  if (remote_ssrc_ == remote_ssrc) {
    RtcpSenderInfo remote_sender_info;
    remote_sender_info.ntp_seconds =
        rtcp_field.sender_report.ntp_most_significant;
    remote_sender_info.ntp_fraction =
        rtcp_field.sender_report.ntp_least_significant;
    remote_sender_info.rtp_timestamp =
        rtcp_field.sender_report.rtp_timestamp;
    remote_sender_info.send_packet_count =
        rtcp_field.sender_report.sender_packet_count;
    remote_sender_info.send_octet_count =
        rtcp_field.sender_report.sender_octet_count;
    if (receiver_feedback_) {
      receiver_feedback_->OnReceivedSenderReport(remote_sender_info);
    }
  }
  rtcp_field_type = rtcp_parser->Iterate();
  while (rtcp_field_type == kRtcpReportBlockItemCode) {
    HandleReportBlock(&rtcp_field, remote_ssrc);
    rtcp_field_type = rtcp_parser->Iterate();
  }
}

void RtcpReceiver::HandleReceiverReport(RtcpParser* rtcp_parser) {
  RtcpFieldTypes rtcp_field_type = rtcp_parser->FieldType();
  const RtcpField& rtcp_field = rtcp_parser->Field();

  DCHECK(rtcp_field_type == kRtcpRrCode) << "Invalid state";

  uint32 remote_ssrc = rtcp_field.receiver_report.sender_ssrc;

  VLOG(1) << "Cast RTCP received RR from SSRC " << remote_ssrc;

  rtcp_field_type = rtcp_parser->Iterate();
  while (rtcp_field_type == kRtcpReportBlockItemCode) {
    HandleReportBlock(&rtcp_field, remote_ssrc);
    rtcp_field_type = rtcp_parser->Iterate();
  }
}

void RtcpReceiver::HandleReportBlock(const RtcpField* rtcp_field,
                                     uint32 remote_ssrc) {
  // This will be called once per report block in the Rtcp packet.
  // We filter out all report blocks that are not for us.
  // Each packet has max 31 RR blocks.
  //
  // We can calculate RTT if we send a send report and get a report block back.

  // |rtcp_field.ReportBlockItem.ssrc| is the ssrc identifier of the source to
  // which the information in this reception report block pertains.

  const RtcpFieldReportBlockItem& rb = rtcp_field->report_block_item;

  // Filter out all report blocks that are not for us.
  if (rb.ssrc != ssrc_) {
    // This block is not for us ignore it.
    return;
  }
  VLOG(1) << "Cast RTCP received RB from SSRC " << remote_ssrc;
  cast_environment_->Logging()->InsertGenericEvent(kPacketLoss,
                                                   rb.fraction_lost);
  cast_environment_->Logging()->InsertGenericEvent(kJitterMs,
                                                   rb.jitter);

  RtcpReportBlock report_block;
  report_block.remote_ssrc = remote_ssrc;
  report_block.media_ssrc = rb.ssrc;
  report_block.fraction_lost = rb.fraction_lost;
  report_block.cumulative_lost = rb.cumulative_number_of_packets_lost;
  report_block.extended_high_sequence_number =
      rb.extended_highest_sequence_number;
  report_block.jitter = rb.jitter;
  report_block.last_sr = rb.last_sender_report;
  report_block.delay_since_last_sr = rb.delay_last_sender_report;

  if (rtt_feedback_) {
    rtt_feedback_->OnReceivedDelaySinceLastReport(rb.ssrc,
                                                  rb.last_sender_report,
                                                  rb.delay_last_sender_report);
  }
}

void RtcpReceiver::HandleSDES(RtcpParser* rtcp_parser) {
  RtcpFieldTypes field_type = rtcp_parser->Iterate();
  while (field_type == kRtcpSdesChunkCode) {
    HandleSDESChunk(rtcp_parser);
    field_type = rtcp_parser->Iterate();
  }
}

void RtcpReceiver::HandleSDESChunk(RtcpParser* rtcp_parser) {
  const RtcpField& rtcp_field = rtcp_parser->Field();
  VLOG(1) << "Cast RTCP received SDES with cname " << rtcp_field.c_name.name;
}

void RtcpReceiver::HandleXr(RtcpParser* rtcp_parser) {
  RtcpFieldTypes rtcp_field_type = rtcp_parser->FieldType();
  const RtcpField& rtcp_field = rtcp_parser->Field();

  DCHECK(rtcp_field_type == kRtcpXrCode) << "Invalid state";

  uint32 remote_ssrc = rtcp_field.extended_report.sender_ssrc;
  rtcp_field_type = rtcp_parser->Iterate();

  while (rtcp_field_type == kRtcpXrDlrrCode ||
         rtcp_field_type == kRtcpXrRrtrCode ||
         rtcp_field_type == kRtcpXrUnknownItemCode) {
    if (rtcp_field_type == kRtcpXrRrtrCode) {
      HandleRrtr(rtcp_parser, remote_ssrc);
    } else if (rtcp_field_type == kRtcpXrDlrrCode) {
      HandleDlrr(rtcp_parser);
    }
    rtcp_field_type = rtcp_parser->Iterate();
  }
}

void RtcpReceiver::HandleRrtr(RtcpParser* rtcp_parser, uint32 remote_ssrc) {
  if (remote_ssrc_ != remote_ssrc) {
    // Not to us.
    return;
  }
  const RtcpField& rtcp_field = rtcp_parser->Field();
  RtcpReceiverReferenceTimeReport remote_time_report;
  remote_time_report.remote_ssrc = remote_ssrc;
  remote_time_report.ntp_seconds = rtcp_field.rrtr.ntp_most_significant;
  remote_time_report.ntp_fraction = rtcp_field.rrtr.ntp_least_significant;

  if (receiver_feedback_) {
    receiver_feedback_->OnReceiverReferenceTimeReport(remote_time_report);
  }
}

void RtcpReceiver::HandleDlrr(RtcpParser* rtcp_parser) {
  const RtcpField& rtcp_field = rtcp_parser->Field();
  if (remote_ssrc_ != rtcp_field.dlrr.receivers_ssrc) {
    // Not to us.
    return;
  }
  if (rtt_feedback_) {
    rtt_feedback_->OnReceivedDelaySinceLastReport(
        rtcp_field.dlrr.receivers_ssrc,
        rtcp_field.dlrr.last_receiver_report,
        rtcp_field.dlrr.delay_last_receiver_report);
  }
}

void RtcpReceiver::HandleNACK(RtcpParser* rtcp_parser) {
  const RtcpField& rtcp_field = rtcp_parser->Field();
  if (ssrc_ != rtcp_field.nack.media_ssrc) {
    RtcpFieldTypes field_type;
    // Message not to us. Iterate until we have passed this message.
    do {
      field_type = rtcp_parser->Iterate();
    } while (field_type == kRtcpGenericRtpFeedbackNackItemCode);
    return;
  }
  std::list<uint16> nackSequenceNumbers;

  RtcpFieldTypes field_type = rtcp_parser->Iterate();
  while (field_type == kRtcpGenericRtpFeedbackNackItemCode) {
    HandleNACKItem(&rtcp_field, &nackSequenceNumbers);
    field_type = rtcp_parser->Iterate();
  }
}

void RtcpReceiver::HandleNACKItem(const RtcpField* rtcp_field,
                                  std::list<uint16>* nack_sequence_numbers) {
  nack_sequence_numbers->push_back(rtcp_field->nack_item.packet_id);

  uint16 bitmask = rtcp_field->nack_item.bitmask;
  if (bitmask) {
    for (int i = 1; i <= 16; ++i) {
      if (bitmask & 1) {
        nack_sequence_numbers->push_back(rtcp_field->nack_item.packet_id + i);
      }
      bitmask = bitmask >> 1;
    }
  }
}

void RtcpReceiver::HandleBYE(RtcpParser* rtcp_parser) {
  const RtcpField& rtcp_field = rtcp_parser->Field();
  uint32 remote_ssrc = rtcp_field.bye.sender_ssrc;
  if (remote_ssrc_ == remote_ssrc) {
    VLOG(1) << "Cast RTCP received BYE from SSRC " << remote_ssrc;
  }
  rtcp_parser->Iterate();
}

void RtcpReceiver::HandlePLI(RtcpParser* rtcp_parser) {
  const RtcpField& rtcp_field = rtcp_parser->Field();
  if (ssrc_ == rtcp_field.pli.media_ssrc) {
    // Received a signal that we need to send a new key frame.
    VLOG(1) << "Cast RTCP received PLI on our SSRC " << ssrc_;
  }
  rtcp_parser->Iterate();
}

void RtcpReceiver::HandleSendReportRequest(RtcpParser* rtcp_parser) {
  if (receiver_feedback_) {
    receiver_feedback_->OnReceivedSendReportRequest();
  }
  rtcp_parser->Iterate();
}

void RtcpReceiver::HandleRpsi(RtcpParser* rtcp_parser) {
  const RtcpField& rtcp_field = rtcp_parser->Field();
  if (rtcp_parser->Iterate() != kRtcpPayloadSpecificRpsiCode) {
    return;
  }
  if (rtcp_field.rpsi.number_of_valid_bits % 8 != 0) {
    // Continue
    return;
  }
  uint64 rpsi_picture_id = 0;

  // Convert native_bit_string to rpsi_picture_id
  uint8 bytes = rtcp_field.rpsi.number_of_valid_bits / 8;
  for (uint8 n = 0; n < (bytes - 1); ++n) {
    rpsi_picture_id += (rtcp_field.rpsi.native_bit_string[n] & 0x7f);
    rpsi_picture_id <<= 7;  // Prepare next.
  }
  rpsi_picture_id += (rtcp_field.rpsi.native_bit_string[bytes - 1] & 0x7f);

  VLOG(1) << "Cast RTCP received RPSI with picture_id " << rpsi_picture_id;
}

void RtcpReceiver::HandlePayloadSpecificApp(RtcpParser* rtcp_parser) {
  const RtcpField& rtcp_field = rtcp_parser->Field();
  uint32 remote_ssrc = rtcp_field.application_specific.sender_ssrc;
  if (remote_ssrc_ != remote_ssrc) {
    // Message not to us. Iterate until we have passed this message.
    RtcpFieldTypes field_type;
    do {
      field_type = rtcp_parser->Iterate();
    } while (field_type == kRtcpPayloadSpecificRembCode ||
             field_type == kRtcpPayloadSpecificRembItemCode ||
             field_type == kRtcpPayloadSpecificCastCode ||
             field_type == kRtcpPayloadSpecificCastNackItemCode);
    return;
  }

  RtcpFieldTypes packet_type = rtcp_parser->Iterate();
  switch (packet_type) {
    case kRtcpPayloadSpecificRembCode:
      packet_type = rtcp_parser->Iterate();
      if (packet_type == kRtcpPayloadSpecificRembItemCode) {
        HandlePayloadSpecificRembItem(rtcp_parser);
        rtcp_parser->Iterate();
      }
      break;
    case kRtcpPayloadSpecificCastCode:
      packet_type = rtcp_parser->Iterate();
      if (packet_type == kRtcpPayloadSpecificCastCode) {
        HandlePayloadSpecificCastItem(rtcp_parser);
      }
      break;
    default:
      return;
  }
}

void RtcpReceiver::HandlePayloadSpecificRembItem(RtcpParser* rtcp_parser) {
  const RtcpField& rtcp_field = rtcp_parser->Field();

  for (int i = 0; i < rtcp_field.remb_item.number_of_ssrcs; ++i) {
    if (rtcp_field.remb_item.ssrcs[i] == ssrc_) {
      // Found matching ssrc.
      VLOG(1) << "Cast RTCP received REMB with received_bitrate "
              << rtcp_field.remb_item.bitrate;
      return;
    }
  }
}

void RtcpReceiver::HandleApplicationSpecificCastReceiverLog(
    RtcpParser* rtcp_parser) {
  const RtcpField& rtcp_field = rtcp_parser->Field();

  uint32 remote_ssrc = rtcp_field.cast_receiver_log.sender_ssrc;
  if (remote_ssrc_ != remote_ssrc) {
    // Message not to us. Iterate until we have passed this message.
    RtcpFieldTypes field_type;
    do {
      field_type = rtcp_parser->Iterate();
    } while (field_type == kRtcpApplicationSpecificCastReceiverLogFrameCode ||
             field_type == kRtcpApplicationSpecificCastReceiverLogEventCode);
    return;
  }
  RtcpReceiverLogMessage receiver_log;
  RtcpFieldTypes field_type = rtcp_parser->Iterate();
  while (field_type == kRtcpApplicationSpecificCastReceiverLogFrameCode) {
    RtcpReceiverFrameLogMessage frame_log(
        rtcp_field.cast_receiver_log.rtp_timestamp);

    field_type = rtcp_parser->Iterate();
    while (field_type == kRtcpApplicationSpecificCastReceiverLogEventCode) {
      HandleApplicationSpecificCastReceiverEventLog(rtcp_parser,
          &frame_log.event_log_messages_);
      field_type = rtcp_parser->Iterate();
    }
    receiver_log.push_back(frame_log);
  }

  if (receiver_feedback_ && !receiver_log.empty()) {
    receiver_feedback_->OnReceivedReceiverLog(receiver_log);
  }
}

void RtcpReceiver::HandleApplicationSpecificCastReceiverEventLog(
    RtcpParser* rtcp_parser,
    RtcpReceiverEventLogMessages* event_log_messages) {
  const RtcpField& rtcp_field = rtcp_parser->Field();

  RtcpReceiverEventLogMessage event_log;
  event_log.type = TranslateToLogEventFromWireFormat(
      rtcp_field.cast_receiver_log.event);
  event_log.event_timestamp = base::TimeTicks() +
      base::TimeDelta::FromMilliseconds(
          rtcp_field.cast_receiver_log.event_timestamp_base +
          rtcp_field.cast_receiver_log.event_timestamp_delta);
  event_log.delay_delta = base::TimeDelta::FromMilliseconds(
      rtcp_field.cast_receiver_log.delay_delta_or_packet_id);
  event_log.packet_id =
      rtcp_field.cast_receiver_log.delay_delta_or_packet_id;
  event_log_messages->push_back(event_log);
}

void RtcpReceiver::HandleApplicationSpecificCastSenderLog(
    RtcpParser* rtcp_parser) {
  const RtcpField& rtcp_field = rtcp_parser->Field();
  uint32 remote_ssrc = rtcp_field.cast_sender_log.sender_ssrc;

  if (remote_ssrc_ != remote_ssrc) {
    RtcpFieldTypes field_type;
    // Message not to us. Iterate until we have passed this message.
    do {
      field_type = rtcp_parser->Iterate();
    } while (field_type == kRtcpApplicationSpecificCastSenderLogCode);
    return;
  }
  RtcpSenderLogMessage sender_log;

  RtcpFieldTypes field_type = rtcp_parser->Iterate();
  while (field_type == kRtcpApplicationSpecificCastSenderLogCode) {
    const RtcpField& rtcp_field = rtcp_parser->Field();
    RtcpSenderFrameLogMessage frame_log;
    frame_log.frame_status =
        TranslateToFrameStatusFromWireFormat(rtcp_field.cast_sender_log.status);
    frame_log.rtp_timestamp = rtcp_field.cast_sender_log.rtp_timestamp;
    sender_log.push_back(frame_log);
    field_type = rtcp_parser->Iterate();
  }
  if (receiver_feedback_) {
    receiver_feedback_->OnReceivedSenderLog(sender_log);
  }
}

void RtcpReceiver::HandlePayloadSpecificCastItem(RtcpParser* rtcp_parser) {
  const RtcpField& rtcp_field = rtcp_parser->Field();
  RtcpCastMessage cast_message(remote_ssrc_);
  cast_message.ack_frame_id_ = ack_frame_id_wrap_helper_.MapTo32bitsFrameId(
      rtcp_field.cast_item.last_frame_id);

  RtcpFieldTypes packet_type = rtcp_parser->Iterate();
  while (packet_type == kRtcpPayloadSpecificCastNackItemCode) {
    const RtcpField& rtcp_field = rtcp_parser->Field();
    HandlePayloadSpecificCastNackItem(
        &rtcp_field, &cast_message.missing_frames_and_packets_);
    packet_type = rtcp_parser->Iterate();
  }
  if (sender_feedback_) {
    sender_feedback_->OnReceivedCastFeedback(cast_message);
  }
}

void RtcpReceiver::HandlePayloadSpecificCastNackItem(
    const RtcpField* rtcp_field,
    MissingFramesAndPacketsMap* missing_frames_and_packets) {

  MissingFramesAndPacketsMap::iterator frame_it =
      missing_frames_and_packets->find(rtcp_field->cast_nack_item.frame_id);

  if (frame_it == missing_frames_and_packets->end()) {
    // First missing packet in a frame.
    PacketIdSet empty_set;
    std::pair<MissingFramesAndPacketsMap::iterator, bool> ret =
        missing_frames_and_packets->insert(std::pair<uint8, PacketIdSet>(
            rtcp_field->cast_nack_item.frame_id, empty_set));
    frame_it = ret.first;
    DCHECK(frame_it != missing_frames_and_packets->end()) << "Invalid state";
  }
  if (rtcp_field->cast_nack_item.packet_id == kRtcpCastAllPacketsLost) {
    // Special case all packets in a frame is missing.
    return;
  }
  uint16 packet_id = rtcp_field->cast_nack_item.packet_id;
  uint8 bitmask = rtcp_field->cast_nack_item.bitmask;

  frame_it->second.insert(packet_id);

  if (bitmask) {
    for (int i = 1; i <= 8; ++i) {
      if (bitmask & 1) {
        frame_it->second.insert(packet_id + i);
      }
      bitmask = bitmask >> 1;
    }
  }
}

void RtcpReceiver::HandleFIR(RtcpParser* rtcp_parser) {
  const RtcpField& rtcp_field = rtcp_parser->Field();

  RtcpFieldTypes field_type = rtcp_parser->Iterate();
  while (field_type == kRtcpPayloadSpecificFirItemCode) {
    HandleFIRItem(&rtcp_field);
    field_type = rtcp_parser->Iterate();
  }
}

void RtcpReceiver::HandleFIRItem(const RtcpField* rtcp_field) {
  // Is it our sender that is requested to generate a new keyframe.
  if (ssrc_ != rtcp_field->fir_item.ssrc) return;

  VLOG(1) << "Cast RTCP received FIR on our SSRC " << ssrc_;
}

}  // namespace cast
}  // namespace media