webrtc/media/base/rtpdump.cc - src - Git at Google

 /*
  *  Copyright (c) 2010 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "webrtc/media/base/rtpdump.h"

 #include <ctype.h>

 #include <string>

 #include "webrtc/base/byteorder.h"
 #include "webrtc/base/logging.h"
 #include "webrtc/base/timeutils.h"
 #include "webrtc/media/base/rtputils.h"

 namespace {
 static const int kRtpSsrcOffset = 8;
 const int  kWarnSlowWritesDelayMs = 50;
 }  // namespace

 namespace cricket {

 const char RtpDumpFileHeader::kFirstLine[] = "#!rtpplay1.0 0.0.0.0/0\n";

 RtpDumpFileHeader::RtpDumpFileHeader(int64_t start_ms, uint32_t s, uint16_t p)
     : start_sec(static_cast<uint32_t>(start_ms / 1000)),
       start_usec(static_cast<uint32_t>(start_ms % 1000 * 1000)),
       source(s),
       port(p),
       padding(0) {}

 void RtpDumpFileHeader::WriteToByteBuffer(rtc::ByteBufferWriter* buf) {
   buf->WriteUInt32(start_sec);
   buf->WriteUInt32(start_usec);
   buf->WriteUInt32(source);
   buf->WriteUInt16(port);
   buf->WriteUInt16(padding);
 }

 static const int kDefaultTimeIncrease = 30;

 bool RtpDumpPacket::IsValidRtpPacket() const {
   return original_data_len >= data.size() &&
       data.size() >= kMinRtpPacketLen;
 }

 bool RtpDumpPacket::IsValidRtcpPacket() const {
   return original_data_len == 0 &&
       data.size() >= kMinRtcpPacketLen;
 }

 bool RtpDumpPacket::GetRtpPayloadType(int* pt) const {
   return IsValidRtpPacket() &&
       cricket::GetRtpPayloadType(&data[0], data.size(), pt);
 }

 bool RtpDumpPacket::GetRtpSeqNum(int* seq_num) const {
   return IsValidRtpPacket() &&
       cricket::GetRtpSeqNum(&data[0], data.size(), seq_num);
 }

 bool RtpDumpPacket::GetRtpTimestamp(uint32_t* ts) const {
   return IsValidRtpPacket() &&
       cricket::GetRtpTimestamp(&data[0], data.size(), ts);
 }

 bool RtpDumpPacket::GetRtpSsrc(uint32_t* ssrc) const {
   return IsValidRtpPacket() &&
       cricket::GetRtpSsrc(&data[0], data.size(), ssrc);
 }

 bool RtpDumpPacket::GetRtpHeaderLen(size_t* len) const {
   return IsValidRtpPacket() &&
       cricket::GetRtpHeaderLen(&data[0], data.size(), len);
 }

 bool RtpDumpPacket::GetRtcpType(int* type) const {
   return IsValidRtcpPacket() &&
       cricket::GetRtcpType(&data[0], data.size(), type);
 }

 ///////////////////////////////////////////////////////////////////////////
 // Implementation of RtpDumpReader.
 ///////////////////////////////////////////////////////////////////////////

 void RtpDumpReader::SetSsrc(uint32_t ssrc) {
   ssrc_override_ = ssrc;
 }

 rtc::StreamResult RtpDumpReader::ReadPacket(RtpDumpPacket* packet) {
   if (!packet) return rtc::SR_ERROR;

   rtc::StreamResult res = rtc::SR_SUCCESS;
   // Read the file header if it has not been read yet.
   if (!file_header_read_) {
     res = ReadFileHeader();
     if (res != rtc::SR_SUCCESS) {
       return res;
     }
     file_header_read_ = true;
   }

   // Read the RTP dump packet header.
   char header[RtpDumpPacket::kHeaderLength];
   res = stream_->ReadAll(header, sizeof(header), NULL, NULL);
   if (res != rtc::SR_SUCCESS) {
     return res;
   }
   rtc::ByteBufferReader buf(header, sizeof(header));
   uint16_t dump_packet_len;
   uint16_t data_len;
   // Read the full length of the rtpdump packet, including the rtpdump header.
   buf.ReadUInt16(&dump_packet_len);
   packet->data.resize(dump_packet_len - sizeof(header));
   // Read the size of the original packet, which may be larger than the size in
   // the rtpdump file, in the event that only part of the packet (perhaps just
   // the header) was recorded. Note that this field is set to zero for RTCP
   // packets, which have their own internal length field.
   buf.ReadUInt16(&data_len);
   packet->original_data_len = data_len;
   // Read the elapsed time for this packet (different than RTP timestamp).
   buf.ReadUInt32(&packet->elapsed_time);

   // Read the actual RTP or RTCP packet.
   res = stream_->ReadAll(&packet->data[0], packet->data.size(), NULL, NULL);

   // If the packet is RTP and we have specified a ssrc, replace the RTP ssrc
   // with the specified ssrc.
   if (res == rtc::SR_SUCCESS &&
       packet->IsValidRtpPacket() &&
       ssrc_override_ != 0) {
     rtc::SetBE32(&packet->data[kRtpSsrcOffset], ssrc_override_);
   }

   return res;
 }

 rtc::StreamResult RtpDumpReader::ReadFileHeader() {
   // Read the first line.
   std::string first_line;
   rtc::StreamResult res = stream_->ReadLine(&first_line);
   if (res != rtc::SR_SUCCESS) {
     return res;
   }
   if (!CheckFirstLine(first_line)) {
     return rtc::SR_ERROR;
   }

   // Read the 16 byte file header.
   char header[RtpDumpFileHeader::kHeaderLength];
   res = stream_->ReadAll(header, sizeof(header), NULL, NULL);
   if (res == rtc::SR_SUCCESS) {
     rtc::ByteBufferReader buf(header, sizeof(header));
     uint32_t start_sec;
     uint32_t start_usec;
     buf.ReadUInt32(&start_sec);
     buf.ReadUInt32(&start_usec);
     start_time_ms_ = static_cast<int64_t>(start_sec * 1000 + start_usec / 1000);
     // Increase the length by 1 since first_line does not contain the ending \n.
     first_line_and_file_header_len_ = first_line.size() + 1 + sizeof(header);
   }
   return res;
 }

 bool RtpDumpReader::CheckFirstLine(const std::string& first_line) {
   // The first line is like "#!rtpplay1.0 address/port"
   bool matched = (0 == first_line.find("#!rtpplay1.0 "));

   // The address could be IP or hostname. We do not check it here. Instead, we
   // check the port at the end.
   size_t pos = first_line.find('/');
   matched &= (pos != std::string::npos && pos < first_line.size() - 1);
   for (++pos; pos < first_line.size() && matched; ++pos) {
     matched &= (0 != isdigit(first_line[pos]));
   }

   return matched;
 }

 ///////////////////////////////////////////////////////////////////////////
 // Implementation of RtpDumpLoopReader.
 ///////////////////////////////////////////////////////////////////////////
 RtpDumpLoopReader::RtpDumpLoopReader(rtc::StreamInterface* stream)
     : RtpDumpReader(stream),
       loop_count_(0),
       elapsed_time_increases_(0),
       rtp_seq_num_increase_(0),
       rtp_timestamp_increase_(0),
       packet_count_(0),
       frame_count_(0),
       first_elapsed_time_(0),
       first_rtp_seq_num_(0),
       first_rtp_timestamp_(0),
       prev_elapsed_time_(0),
       prev_rtp_seq_num_(0),
       prev_rtp_timestamp_(0) {
 }

 rtc::StreamResult RtpDumpLoopReader::ReadPacket(RtpDumpPacket* packet) {
   if (!packet) return rtc::SR_ERROR;

   rtc::StreamResult res = RtpDumpReader::ReadPacket(packet);
   if (rtc::SR_SUCCESS == res) {
     if (0 == loop_count_) {
       // During the first loop, we update the statistics of the input stream.
       UpdateStreamStatistics(*packet);
     }
   } else if (rtc::SR_EOS == res) {
     if (0 == loop_count_) {
       // At the end of the first loop, calculate elapsed_time_increases_,
       // rtp_seq_num_increase_, and rtp_timestamp_increase_, which will be
       // used during the second and later loops.
       CalculateIncreases();
     }

     // Rewind the input stream to the first dump packet and read again.
     ++loop_count_;
     if (RewindToFirstDumpPacket()) {
       res = RtpDumpReader::ReadPacket(packet);
     }
   }

   if (rtc::SR_SUCCESS == res && loop_count_ > 0) {
     // During the second and later loops, we update the elapsed time of the dump
     // packet. If the dumped packet is a RTP packet, we also update its RTP
     // sequence number and timestamp.
     UpdateDumpPacket(packet);
   }

   return res;
 }

 void RtpDumpLoopReader::UpdateStreamStatistics(const RtpDumpPacket& packet) {
   // Get the RTP sequence number and timestamp of the dump packet.
   int rtp_seq_num = 0;
   packet.GetRtpSeqNum(&rtp_seq_num);
   uint32_t rtp_timestamp = 0;
   packet.GetRtpTimestamp(&rtp_timestamp);

   // Set the timestamps and sequence number for the first dump packet.
   if (0 == packet_count_++) {
     first_elapsed_time_ = packet.elapsed_time;
     first_rtp_seq_num_ = rtp_seq_num;
     first_rtp_timestamp_ = rtp_timestamp;
     // The first packet belongs to a new payload frame.
     ++frame_count_;
   } else if (rtp_timestamp != prev_rtp_timestamp_) {
     // The current and previous packets belong to different payload frames.
     ++frame_count_;
   }

   prev_elapsed_time_ = packet.elapsed_time;
   prev_rtp_timestamp_ = rtp_timestamp;
   prev_rtp_seq_num_ = rtp_seq_num;
 }

 void RtpDumpLoopReader::CalculateIncreases() {
   // At this time, prev_elapsed_time_, prev_rtp_seq_num_, and
   // prev_rtp_timestamp_ are values of the last dump packet in the input stream.
   rtp_seq_num_increase_ = prev_rtp_seq_num_ - first_rtp_seq_num_ + 1;
   // If we have only one packet or frame, we use the default timestamp
   // increase. Otherwise, we use the difference between the first and the last
   // packets or frames.
   elapsed_time_increases_ = packet_count_ <= 1 ? kDefaultTimeIncrease :
       (prev_elapsed_time_ - first_elapsed_time_) * packet_count_ /
       (packet_count_ - 1);
   rtp_timestamp_increase_ = frame_count_ <= 1 ? kDefaultTimeIncrease :
       (prev_rtp_timestamp_ - first_rtp_timestamp_) * frame_count_ /
       (frame_count_ - 1);
 }

 void RtpDumpLoopReader::UpdateDumpPacket(RtpDumpPacket* packet) {
   // Increase the elapsed time of the dump packet.
   packet->elapsed_time += loop_count_ * elapsed_time_increases_;

   if (packet->IsValidRtpPacket()) {
     // Get the old RTP sequence number and timestamp.
     int sequence = 0;
     packet->GetRtpSeqNum(&sequence);
     uint32_t timestamp = 0;
     packet->GetRtpTimestamp(&timestamp);
     // Increase the RTP sequence number and timestamp.
     sequence += loop_count_ * rtp_seq_num_increase_;
     timestamp += loop_count_ * rtp_timestamp_increase_;
     // Write the updated sequence number and timestamp back to the RTP packet.
     rtc::ByteBufferWriter buffer;
     buffer.WriteUInt16(sequence);
     buffer.WriteUInt32(timestamp);
     memcpy(&packet->data[2], buffer.Data(), buffer.Length());
   }
 }

 ///////////////////////////////////////////////////////////////////////////
 // Implementation of RtpDumpWriter.
 ///////////////////////////////////////////////////////////////////////////

 RtpDumpWriter::RtpDumpWriter(rtc::StreamInterface* stream)
     : stream_(stream),
       packet_filter_(PF_ALL),
       file_header_written_(false),
       start_time_ms_(rtc::TimeMillis()),
       warn_slow_writes_delay_(kWarnSlowWritesDelayMs) {}

 void RtpDumpWriter::set_packet_filter(int filter) {
   packet_filter_ = filter;
   LOG(LS_INFO) << "RtpDumpWriter set_packet_filter to " << packet_filter_;
 }

 uint32_t RtpDumpWriter::GetElapsedTime() const {
   return static_cast<uint32_t>(rtc::TimeSince(start_time_ms_));
 }

 rtc::StreamResult RtpDumpWriter::WriteFileHeader() {
   rtc::StreamResult res = WriteToStream(
       RtpDumpFileHeader::kFirstLine,
       strlen(RtpDumpFileHeader::kFirstLine));
   if (res != rtc::SR_SUCCESS) {
     return res;
   }

   rtc::ByteBufferWriter buf;
   RtpDumpFileHeader file_header(rtc::TimeMillis(), 0, 0);
   file_header.WriteToByteBuffer(&buf);
   return WriteToStream(buf.Data(), buf.Length());
 }

 rtc::StreamResult RtpDumpWriter::WritePacket(const void* data,
                                              size_t data_len,
                                              uint32_t elapsed,
                                              bool rtcp) {
   if (!stream_ || !data || 0 == data_len) return rtc::SR_ERROR;

   rtc::StreamResult res = rtc::SR_SUCCESS;
   // Write the file header if it has not been written yet.
   if (!file_header_written_) {
     res = WriteFileHeader();
     if (res != rtc::SR_SUCCESS) {
       return res;
     }
     file_header_written_ = true;
   }

   // Figure out what to write.
   size_t write_len = FilterPacket(data, data_len, rtcp);
   if (write_len == 0) {
     return rtc::SR_SUCCESS;
   }

   // Write the dump packet header.
   rtc::ByteBufferWriter buf;
   buf.WriteUInt16(
       static_cast<uint16_t>(RtpDumpPacket::kHeaderLength + write_len));
   buf.WriteUInt16(static_cast<uint16_t>(rtcp ? 0 : data_len));
   buf.WriteUInt32(elapsed);
   res = WriteToStream(buf.Data(), buf.Length());
   if (res != rtc::SR_SUCCESS) {
     return res;
   }

   // Write the header or full packet as indicated by write_len.
   return WriteToStream(data, write_len);
 }

 size_t RtpDumpWriter::FilterPacket(const void* data, size_t data_len,
                                    bool rtcp) {
   size_t filtered_len = 0;
   if (!rtcp) {
     if ((packet_filter_ & PF_RTPPACKET) == PF_RTPPACKET) {
       // RTP header + payload
       filtered_len = data_len;
     } else if ((packet_filter_ & PF_RTPHEADER) == PF_RTPHEADER) {
       // RTP header only
       size_t header_len;
       if (GetRtpHeaderLen(data, data_len, &header_len)) {
         filtered_len = header_len;
       }
     }
   } else {
     if ((packet_filter_ & PF_RTCPPACKET) == PF_RTCPPACKET) {
       // RTCP header + payload
       filtered_len = data_len;
     }
   }

   return filtered_len;
 }

 rtc::StreamResult RtpDumpWriter::WriteToStream(
     const void* data, size_t data_len) {
   int64_t before = rtc::TimeMillis();
   rtc::StreamResult result =
       stream_->WriteAll(data, data_len, NULL, NULL);
   int64_t delay = rtc::TimeSince(before);
   if (delay >= warn_slow_writes_delay_) {
     LOG(LS_WARNING) << "Slow RtpDump: took " << delay << "ms to write "
                     << data_len << " bytes.";
   }
   return result;
 }

 }  // namespace cricket
	/*
	* Copyright (c) 2010 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "webrtc/media/base/rtpdump.h"

	#include <ctype.h>

	#include <string>

	#include "webrtc/base/byteorder.h"
	#include "webrtc/base/logging.h"
	#include "webrtc/base/timeutils.h"
	#include "webrtc/media/base/rtputils.h"

	namespace {
	static const int kRtpSsrcOffset = 8;
	const int kWarnSlowWritesDelayMs = 50;
	} // namespace

	namespace cricket {

	const char RtpDumpFileHeader::kFirstLine[] = "#!rtpplay1.0 0.0.0.0/0\n";

	RtpDumpFileHeader::RtpDumpFileHeader(int64_t start_ms, uint32_t s, uint16_t p)
	: start_sec(static_cast<uint32_t>(start_ms / 1000)),
	start_usec(static_cast<uint32_t>(start_ms % 1000 * 1000)),
	source(s),
	port(p),
	padding(0) {}

	void RtpDumpFileHeader::WriteToByteBuffer(rtc::ByteBufferWriter* buf) {
	buf->WriteUInt32(start_sec);
	buf->WriteUInt32(start_usec);
	buf->WriteUInt32(source);
	buf->WriteUInt16(port);
	buf->WriteUInt16(padding);
	}

	static const int kDefaultTimeIncrease = 30;

	bool RtpDumpPacket::IsValidRtpPacket() const {
	return original_data_len >= data.size() &&
	data.size() >= kMinRtpPacketLen;
	}

	bool RtpDumpPacket::IsValidRtcpPacket() const {
	return original_data_len == 0 &&
	data.size() >= kMinRtcpPacketLen;
	}

	bool RtpDumpPacket::GetRtpPayloadType(int* pt) const {
	return IsValidRtpPacket() &&
	cricket::GetRtpPayloadType(&data[0], data.size(), pt);
	}

	bool RtpDumpPacket::GetRtpSeqNum(int* seq_num) const {
	return IsValidRtpPacket() &&
	cricket::GetRtpSeqNum(&data[0], data.size(), seq_num);
	}

	bool RtpDumpPacket::GetRtpTimestamp(uint32_t* ts) const {
	return IsValidRtpPacket() &&
	cricket::GetRtpTimestamp(&data[0], data.size(), ts);
	}

	bool RtpDumpPacket::GetRtpSsrc(uint32_t* ssrc) const {
	return IsValidRtpPacket() &&
	cricket::GetRtpSsrc(&data[0], data.size(), ssrc);
	}

	bool RtpDumpPacket::GetRtpHeaderLen(size_t* len) const {
	return IsValidRtpPacket() &&
	cricket::GetRtpHeaderLen(&data[0], data.size(), len);
	}

	bool RtpDumpPacket::GetRtcpType(int* type) const {
	return IsValidRtcpPacket() &&
	cricket::GetRtcpType(&data[0], data.size(), type);
	}

	///////////////////////////////////////////////////////////////////////////
	// Implementation of RtpDumpReader.
	///////////////////////////////////////////////////////////////////////////

	void RtpDumpReader::SetSsrc(uint32_t ssrc) {
	ssrc_override_ = ssrc;
	}

	rtc::StreamResult RtpDumpReader::ReadPacket(RtpDumpPacket* packet) {
	if (!packet) return rtc::SR_ERROR;

	rtc::StreamResult res = rtc::SR_SUCCESS;
	// Read the file header if it has not been read yet.
	if (!file_header_read_) {
	res = ReadFileHeader();
	if (res != rtc::SR_SUCCESS) {
	return res;
	}
	file_header_read_ = true;
	}

	// Read the RTP dump packet header.
	char header[RtpDumpPacket::kHeaderLength];
	res = stream_->ReadAll(header, sizeof(header), NULL, NULL);
	if (res != rtc::SR_SUCCESS) {
	return res;
	}
	rtc::ByteBufferReader buf(header, sizeof(header));
	uint16_t dump_packet_len;
	uint16_t data_len;
	// Read the full length of the rtpdump packet, including the rtpdump header.
	buf.ReadUInt16(&dump_packet_len);
	packet->data.resize(dump_packet_len - sizeof(header));
	// Read the size of the original packet, which may be larger than the size in
	// the rtpdump file, in the event that only part of the packet (perhaps just
	// the header) was recorded. Note that this field is set to zero for RTCP
	// packets, which have their own internal length field.
	buf.ReadUInt16(&data_len);
	packet->original_data_len = data_len;
	// Read the elapsed time for this packet (different than RTP timestamp).
	buf.ReadUInt32(&packet->elapsed_time);

	// Read the actual RTP or RTCP packet.
	res = stream_->ReadAll(&packet->data[0], packet->data.size(), NULL, NULL);

	// If the packet is RTP and we have specified a ssrc, replace the RTP ssrc
	// with the specified ssrc.
	if (res == rtc::SR_SUCCESS &&
	packet->IsValidRtpPacket() &&
	ssrc_override_ != 0) {
	rtc::SetBE32(&packet->data[kRtpSsrcOffset], ssrc_override_);
	}

	return res;
	}

	rtc::StreamResult RtpDumpReader::ReadFileHeader() {
	// Read the first line.
	std::string first_line;
	rtc::StreamResult res = stream_->ReadLine(&first_line);
	if (res != rtc::SR_SUCCESS) {
	return res;
	}
	if (!CheckFirstLine(first_line)) {
	return rtc::SR_ERROR;
	}

	// Read the 16 byte file header.
	char header[RtpDumpFileHeader::kHeaderLength];
	res = stream_->ReadAll(header, sizeof(header), NULL, NULL);
	if (res == rtc::SR_SUCCESS) {
	rtc::ByteBufferReader buf(header, sizeof(header));
	uint32_t start_sec;
	uint32_t start_usec;
	buf.ReadUInt32(&start_sec);
	buf.ReadUInt32(&start_usec);
	start_time_ms_ = static_cast<int64_t>(start_sec * 1000 + start_usec / 1000);
	// Increase the length by 1 since first_line does not contain the ending \n.
	first_line_and_file_header_len_ = first_line.size() + 1 + sizeof(header);
	}
	return res;
	}

	bool RtpDumpReader::CheckFirstLine(const std::string& first_line) {
	// The first line is like "#!rtpplay1.0 address/port"
	bool matched = (0 == first_line.find("#!rtpplay1.0 "));

	// The address could be IP or hostname. We do not check it here. Instead, we
	// check the port at the end.
	size_t pos = first_line.find('/');
	matched &= (pos != std::string::npos && pos < first_line.size() - 1);
	for (++pos; pos < first_line.size() && matched; ++pos) {
	matched &= (0 != isdigit(first_line[pos]));
	}

	return matched;
	}

	///////////////////////////////////////////////////////////////////////////
	// Implementation of RtpDumpLoopReader.
	///////////////////////////////////////////////////////////////////////////
	RtpDumpLoopReader::RtpDumpLoopReader(rtc::StreamInterface* stream)
	: RtpDumpReader(stream),
	loop_count_(0),
	elapsed_time_increases_(0),
	rtp_seq_num_increase_(0),
	rtp_timestamp_increase_(0),
	packet_count_(0),
	frame_count_(0),
	first_elapsed_time_(0),
	first_rtp_seq_num_(0),
	first_rtp_timestamp_(0),
	prev_elapsed_time_(0),
	prev_rtp_seq_num_(0),
	prev_rtp_timestamp_(0) {
	}

	rtc::StreamResult RtpDumpLoopReader::ReadPacket(RtpDumpPacket* packet) {
	if (!packet) return rtc::SR_ERROR;

	rtc::StreamResult res = RtpDumpReader::ReadPacket(packet);
	if (rtc::SR_SUCCESS == res) {
	if (0 == loop_count_) {
	// During the first loop, we update the statistics of the input stream.
	UpdateStreamStatistics(*packet);
	}
	} else if (rtc::SR_EOS == res) {
	if (0 == loop_count_) {
	// At the end of the first loop, calculate elapsed_time_increases_,
	// rtp_seq_num_increase_, and rtp_timestamp_increase_, which will be
	// used during the second and later loops.
	CalculateIncreases();
	}

	// Rewind the input stream to the first dump packet and read again.
	++loop_count_;
	if (RewindToFirstDumpPacket()) {
	res = RtpDumpReader::ReadPacket(packet);
	}
	}

	if (rtc::SR_SUCCESS == res && loop_count_ > 0) {
	// During the second and later loops, we update the elapsed time of the dump
	// packet. If the dumped packet is a RTP packet, we also update its RTP
	// sequence number and timestamp.
	UpdateDumpPacket(packet);
	}

	return res;
	}

	void RtpDumpLoopReader::UpdateStreamStatistics(const RtpDumpPacket& packet) {
	// Get the RTP sequence number and timestamp of the dump packet.
	int rtp_seq_num = 0;
	packet.GetRtpSeqNum(&rtp_seq_num);
	uint32_t rtp_timestamp = 0;
	packet.GetRtpTimestamp(&rtp_timestamp);

	// Set the timestamps and sequence number for the first dump packet.
	if (0 == packet_count_++) {
	first_elapsed_time_ = packet.elapsed_time;
	first_rtp_seq_num_ = rtp_seq_num;
	first_rtp_timestamp_ = rtp_timestamp;
	// The first packet belongs to a new payload frame.
	++frame_count_;
	} else if (rtp_timestamp != prev_rtp_timestamp_) {
	// The current and previous packets belong to different payload frames.
	++frame_count_;
	}

	prev_elapsed_time_ = packet.elapsed_time;
	prev_rtp_timestamp_ = rtp_timestamp;
	prev_rtp_seq_num_ = rtp_seq_num;
	}

	void RtpDumpLoopReader::CalculateIncreases() {
	// At this time, prev_elapsed_time_, prev_rtp_seq_num_, and
	// prev_rtp_timestamp_ are values of the last dump packet in the input stream.
	rtp_seq_num_increase_ = prev_rtp_seq_num_ - first_rtp_seq_num_ + 1;
	// If we have only one packet or frame, we use the default timestamp
	// increase. Otherwise, we use the difference between the first and the last
	// packets or frames.
	elapsed_time_increases_ = packet_count_ <= 1 ? kDefaultTimeIncrease :
	(prev_elapsed_time_ - first_elapsed_time_) * packet_count_ /
	(packet_count_ - 1);
	rtp_timestamp_increase_ = frame_count_ <= 1 ? kDefaultTimeIncrease :
	(prev_rtp_timestamp_ - first_rtp_timestamp_) * frame_count_ /
	(frame_count_ - 1);
	}

	void RtpDumpLoopReader::UpdateDumpPacket(RtpDumpPacket* packet) {
	// Increase the elapsed time of the dump packet.
	packet->elapsed_time += loop_count_ * elapsed_time_increases_;

	if (packet->IsValidRtpPacket()) {
	// Get the old RTP sequence number and timestamp.
	int sequence = 0;
	packet->GetRtpSeqNum(&sequence);
	uint32_t timestamp = 0;
	packet->GetRtpTimestamp(&timestamp);
	// Increase the RTP sequence number and timestamp.
	sequence += loop_count_ * rtp_seq_num_increase_;
	timestamp += loop_count_ * rtp_timestamp_increase_;
	// Write the updated sequence number and timestamp back to the RTP packet.
	rtc::ByteBufferWriter buffer;
	buffer.WriteUInt16(sequence);
	buffer.WriteUInt32(timestamp);
	memcpy(&packet->data[2], buffer.Data(), buffer.Length());
	}
	}

	///////////////////////////////////////////////////////////////////////////
	// Implementation of RtpDumpWriter.
	///////////////////////////////////////////////////////////////////////////

	RtpDumpWriter::RtpDumpWriter(rtc::StreamInterface* stream)
	: stream_(stream),
	packet_filter_(PF_ALL),
	file_header_written_(false),
	start_time_ms_(rtc::TimeMillis()),
	warn_slow_writes_delay_(kWarnSlowWritesDelayMs) {}

	void RtpDumpWriter::set_packet_filter(int filter) {
	packet_filter_ = filter;
	LOG(LS_INFO) << "RtpDumpWriter set_packet_filter to " << packet_filter_;
	}

	uint32_t RtpDumpWriter::GetElapsedTime() const {
	return static_cast<uint32_t>(rtc::TimeSince(start_time_ms_));
	}

	rtc::StreamResult RtpDumpWriter::WriteFileHeader() {
	rtc::StreamResult res = WriteToStream(
	RtpDumpFileHeader::kFirstLine,
	strlen(RtpDumpFileHeader::kFirstLine));
	if (res != rtc::SR_SUCCESS) {
	return res;
	}

	rtc::ByteBufferWriter buf;
	RtpDumpFileHeader file_header(rtc::TimeMillis(), 0, 0);
	file_header.WriteToByteBuffer(&buf);
	return WriteToStream(buf.Data(), buf.Length());
	}

	rtc::StreamResult RtpDumpWriter::WritePacket(const void* data,
	size_t data_len,
	uint32_t elapsed,
	bool rtcp) {
	if (!stream_ \|\| !data \|\| 0 == data_len) return rtc::SR_ERROR;

	rtc::StreamResult res = rtc::SR_SUCCESS;
	// Write the file header if it has not been written yet.
	if (!file_header_written_) {
	res = WriteFileHeader();
	if (res != rtc::SR_SUCCESS) {
	return res;
	}
	file_header_written_ = true;
	}

	// Figure out what to write.
	size_t write_len = FilterPacket(data, data_len, rtcp);
	if (write_len == 0) {
	return rtc::SR_SUCCESS;
	}

	// Write the dump packet header.
	rtc::ByteBufferWriter buf;
	buf.WriteUInt16(
	static_cast<uint16_t>(RtpDumpPacket::kHeaderLength + write_len));
	buf.WriteUInt16(static_cast<uint16_t>(rtcp ? 0 : data_len));
	buf.WriteUInt32(elapsed);
	res = WriteToStream(buf.Data(), buf.Length());
	if (res != rtc::SR_SUCCESS) {
	return res;
	}

	// Write the header or full packet as indicated by write_len.
	return WriteToStream(data, write_len);
	}

	size_t RtpDumpWriter::FilterPacket(const void* data, size_t data_len,
	bool rtcp) {
	size_t filtered_len = 0;
	if (!rtcp) {
	if ((packet_filter_ & PF_RTPPACKET) == PF_RTPPACKET) {
	// RTP header + payload
	filtered_len = data_len;
	} else if ((packet_filter_ & PF_RTPHEADER) == PF_RTPHEADER) {
	// RTP header only
	size_t header_len;
	if (GetRtpHeaderLen(data, data_len, &header_len)) {
	filtered_len = header_len;
	}
	}
	} else {
	if ((packet_filter_ & PF_RTCPPACKET) == PF_RTCPPACKET) {
	// RTCP header + payload
	filtered_len = data_len;
	}
	}

	return filtered_len;
	}

	rtc::StreamResult RtpDumpWriter::WriteToStream(
	const void* data, size_t data_len) {
	int64_t before = rtc::TimeMillis();
	rtc::StreamResult result =
	stream_->WriteAll(data, data_len, NULL, NULL);
	int64_t delay = rtc::TimeSince(before);
	if (delay >= warn_slow_writes_delay_) {
	LOG(LS_WARNING) << "Slow RtpDump: took " << delay << "ms to write "
	<< data_len << " bytes.";
	}
	return result;
	}

	} // namespace cricket