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/*
* Copyright 2019 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.
*/
#ifndef LOGGING_RTC_EVENT_LOG_LOGGED_EVENTS_H_
#define LOGGING_RTC_EVENT_LOG_LOGGED_EVENTS_H_
#include <string>
#include <vector>
#include "absl/types/optional.h"
#include "api/rtp_headers.h"
#include "api/units/time_delta.h"
#include "api/units/timestamp.h"
#include "modules/rtp_rtcp/source/rtcp_packet/bye.h"
#include "modules/rtp_rtcp/source/rtcp_packet/extended_reports.h"
#include "modules/rtp_rtcp/source/rtcp_packet/fir.h"
#include "modules/rtp_rtcp/source/rtcp_packet/loss_notification.h"
#include "modules/rtp_rtcp/source/rtcp_packet/nack.h"
#include "modules/rtp_rtcp/source/rtcp_packet/pli.h"
#include "modules/rtp_rtcp/source/rtcp_packet/receiver_report.h"
#include "modules/rtp_rtcp/source/rtcp_packet/remb.h"
#include "modules/rtp_rtcp/source/rtcp_packet/sender_report.h"
#include "modules/rtp_rtcp/source/rtcp_packet/transport_feedback.h"
namespace webrtc {
// The different event types are deliberately POD. Analysis of large logs is
// already resource intensive. The code simplifications that would be possible
// possible by having a base class (containing e.g. the log time) are not
// considered to outweigh the added memory and runtime overhead incurred by
// adding a vptr.
struct LoggedRtpPacket {
LoggedRtpPacket(Timestamp timestamp,
RTPHeader header,
size_t header_length,
size_t total_length)
: timestamp(timestamp),
header(header),
header_length(header_length),
total_length(total_length) {}
int64_t log_time_us() const { return timestamp.us(); }
int64_t log_time_ms() const { return timestamp.ms(); }
Timestamp timestamp;
// TODO(terelius): This allocates space for 15 CSRCs even if none are used.
RTPHeader header;
size_t header_length;
size_t total_length;
};
struct LoggedRtpPacketIncoming {
LoggedRtpPacketIncoming(Timestamp timestamp,
RTPHeader header,
size_t header_length,
size_t total_length)
: rtp(timestamp, header, header_length, total_length) {}
int64_t log_time_us() const { return rtp.timestamp.us(); }
int64_t log_time_ms() const { return rtp.timestamp.ms(); }
LoggedRtpPacket rtp;
};
struct LoggedRtpPacketOutgoing {
LoggedRtpPacketOutgoing(Timestamp timestamp,
RTPHeader header,
size_t header_length,
size_t total_length)
: rtp(timestamp, header, header_length, total_length) {}
int64_t log_time_us() const { return rtp.timestamp.us(); }
int64_t log_time_ms() const { return rtp.timestamp.ms(); }
LoggedRtpPacket rtp;
};
struct LoggedRtcpPacket {
LoggedRtcpPacket(Timestamp timestamp, const std::vector<uint8_t>& packet);
LoggedRtcpPacket(Timestamp timestamp, const std::string& packet);
LoggedRtcpPacket(const LoggedRtcpPacket&);
~LoggedRtcpPacket();
int64_t log_time_us() const { return timestamp.us(); }
int64_t log_time_ms() const { return timestamp.ms(); }
Timestamp timestamp;
std::vector<uint8_t> raw_data;
};
struct LoggedRtcpPacketIncoming {
LoggedRtcpPacketIncoming(Timestamp timestamp,
const std::vector<uint8_t>& packet)
: rtcp(timestamp, packet) {}
LoggedRtcpPacketIncoming(Timestamp timestamp, const std::string& packet)
: rtcp(timestamp, packet) {}
int64_t log_time_us() const { return rtcp.timestamp.us(); }
int64_t log_time_ms() const { return rtcp.timestamp.ms(); }
LoggedRtcpPacket rtcp;
};
struct LoggedRtcpPacketOutgoing {
LoggedRtcpPacketOutgoing(Timestamp timestamp,
const std::vector<uint8_t>& packet)
: rtcp(timestamp, packet) {}
LoggedRtcpPacketOutgoing(Timestamp timestamp, const std::string& packet)
: rtcp(timestamp, packet) {}
int64_t log_time_us() const { return rtcp.timestamp.us(); }
int64_t log_time_ms() const { return rtcp.timestamp.ms(); }
LoggedRtcpPacket rtcp;
};
struct LoggedRtcpPacketReceiverReport {
LoggedRtcpPacketReceiverReport() = default;
LoggedRtcpPacketReceiverReport(Timestamp timestamp,
const rtcp::ReceiverReport& rr)
: timestamp(timestamp), rr(rr) {}
int64_t log_time_us() const { return timestamp.us(); }
int64_t log_time_ms() const { return timestamp.ms(); }
Timestamp timestamp = Timestamp::MinusInfinity();
rtcp::ReceiverReport rr;
};
struct LoggedRtcpPacketSenderReport {
LoggedRtcpPacketSenderReport() = default;
LoggedRtcpPacketSenderReport(Timestamp timestamp,
const rtcp::SenderReport& sr)
: timestamp(timestamp), sr(sr) {}
int64_t log_time_us() const { return timestamp.us(); }
int64_t log_time_ms() const { return timestamp.ms(); }
Timestamp timestamp = Timestamp::MinusInfinity();
rtcp::SenderReport sr;
};
struct LoggedRtcpPacketExtendedReports {
LoggedRtcpPacketExtendedReports() = default;
int64_t log_time_us() const { return timestamp.us(); }
int64_t log_time_ms() const { return timestamp.ms(); }
Timestamp timestamp = Timestamp::MinusInfinity();
rtcp::ExtendedReports xr;
};
struct LoggedRtcpPacketRemb {
LoggedRtcpPacketRemb() = default;
LoggedRtcpPacketRemb(Timestamp timestamp, const rtcp::Remb& remb)
: timestamp(timestamp), remb(remb) {}
int64_t log_time_us() const { return timestamp.us(); }
int64_t log_time_ms() const { return timestamp.ms(); }
Timestamp timestamp = Timestamp::MinusInfinity();
rtcp::Remb remb;
};
struct LoggedRtcpPacketNack {
LoggedRtcpPacketNack() = default;
LoggedRtcpPacketNack(Timestamp timestamp, const rtcp::Nack& nack)
: timestamp(timestamp), nack(nack) {}
int64_t log_time_us() const { return timestamp.us(); }
int64_t log_time_ms() const { return timestamp.ms(); }
Timestamp timestamp = Timestamp::MinusInfinity();
rtcp::Nack nack;
};
struct LoggedRtcpPacketFir {
LoggedRtcpPacketFir() = default;
int64_t log_time_us() const { return timestamp.us(); }
int64_t log_time_ms() const { return timestamp.ms(); }
Timestamp timestamp = Timestamp::MinusInfinity();
rtcp::Fir fir;
};
struct LoggedRtcpPacketPli {
LoggedRtcpPacketPli() = default;
int64_t log_time_us() const { return timestamp.us(); }
int64_t log_time_ms() const { return timestamp.ms(); }
Timestamp timestamp = Timestamp::MinusInfinity();
rtcp::Pli pli;
};
struct LoggedRtcpPacketTransportFeedback {
LoggedRtcpPacketTransportFeedback()
: transport_feedback(/*include_timestamps=*/true, /*include_lost*/ true) {
}
LoggedRtcpPacketTransportFeedback(
Timestamp timestamp,
const rtcp::TransportFeedback& transport_feedback)
: timestamp(timestamp), transport_feedback(transport_feedback) {}
int64_t log_time_us() const { return timestamp.us(); }
int64_t log_time_ms() const { return timestamp.ms(); }
Timestamp timestamp = Timestamp::MinusInfinity();
rtcp::TransportFeedback transport_feedback;
};
struct LoggedRtcpPacketLossNotification {
LoggedRtcpPacketLossNotification() = default;
LoggedRtcpPacketLossNotification(
Timestamp timestamp,
const rtcp::LossNotification& loss_notification)
: timestamp(timestamp), loss_notification(loss_notification) {}
int64_t log_time_us() const { return timestamp.us(); }
int64_t log_time_ms() const { return timestamp.ms(); }
Timestamp timestamp = Timestamp::MinusInfinity();
rtcp::LossNotification loss_notification;
};
struct LoggedRtcpPacketBye {
LoggedRtcpPacketBye() = default;
int64_t log_time_us() const { return timestamp.us(); }
int64_t log_time_ms() const { return timestamp.ms(); }
Timestamp timestamp = Timestamp::MinusInfinity();
rtcp::Bye bye;
};
struct InferredRouteChangeEvent {
int64_t log_time_ms() const { return log_time.ms(); }
int64_t log_time_us() const { return log_time.us(); }
uint32_t route_id;
Timestamp log_time = Timestamp::MinusInfinity();
uint16_t send_overhead;
uint16_t return_overhead;
};
enum class LoggedMediaType : uint8_t { kUnknown, kAudio, kVideo };
struct LoggedPacketInfo {
LoggedPacketInfo(const LoggedRtpPacket& rtp,
LoggedMediaType media_type,
bool rtx,
Timestamp capture_time);
LoggedPacketInfo(const LoggedPacketInfo&);
~LoggedPacketInfo();
int64_t log_time_ms() const { return log_packet_time.ms(); }
int64_t log_time_us() const { return log_packet_time.us(); }
uint32_t ssrc;
uint16_t stream_seq_no;
uint16_t size;
uint16_t payload_size;
uint16_t padding_size;
uint16_t overhead = 0;
uint8_t payload_type;
LoggedMediaType media_type = LoggedMediaType::kUnknown;
bool rtx = false;
bool marker_bit = false;
bool has_transport_seq_no = false;
bool last_in_feedback = false;
uint16_t transport_seq_no = 0;
// The RTP header timestamp unwrapped and converted from tick count to seconds
// based timestamp.
Timestamp capture_time;
// The time the packet was logged. This is the receive time for incoming
// packets and send time for outgoing.
Timestamp log_packet_time;
// Send time as reported by abs-send-time extension, For outgoing packets this
// corresponds to log_packet_time, but might be measured using another clock.
Timestamp reported_send_time;
// The receive time that was reported in feedback. For incoming packets this
// corresponds to log_packet_time, but might be measured using another clock.
// PlusInfinity indicates that the packet was lost.
Timestamp reported_recv_time = Timestamp::MinusInfinity();
// The time feedback message was logged. This is the feedback send time for
// incoming packets and feedback receive time for outgoing.
// PlusInfinity indicates that feedback was expected but not received.
Timestamp log_feedback_time = Timestamp::MinusInfinity();
// The delay betweeen receiving an RTP packet and sending feedback for
// incoming packets. For outgoing packets we don't know the feedback send
// time, and this is instead calculated as the difference in reported receive
// time between this packet and the last packet in the same feedback message.
TimeDelta feedback_hold_duration = TimeDelta::MinusInfinity();
};
enum class LoggedIceEventType {
kAdded,
kUpdated,
kDestroyed,
kSelected,
kCheckSent,
kCheckReceived,
kCheckResponseSent,
kCheckResponseReceived,
};
struct LoggedIceEvent {
uint32_t candidate_pair_id;
Timestamp log_time;
LoggedIceEventType event_type;
};
} // namespace webrtc
#endif // LOGGING_RTC_EVENT_LOG_LOGGED_EVENTS_H_