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// 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.
#ifndef QUICHE_QUIC_CORE_QUIC_CONNECTION_STATS_H_
#define QUICHE_QUIC_CORE_QUIC_CONNECTION_STATS_H_
#include <cstdint>
#include <ostream>
#include "quic/core/quic_bandwidth.h"
#include "quic/core/quic_packets.h"
#include "quic/core/quic_time.h"
#include "quic/core/quic_time_accumulator.h"
#include "quic/platform/api/quic_export.h"
namespace quic {
// Structure to hold stats for a QuicConnection.
struct QUIC_EXPORT_PRIVATE QuicConnectionStats {
QUIC_EXPORT_PRIVATE friend std::ostream& operator<<(
std::ostream& os,
const QuicConnectionStats& s);
QuicByteCount bytes_sent = 0; // Includes retransmissions.
QuicPacketCount packets_sent = 0;
// Non-retransmitted bytes sent in a stream frame.
QuicByteCount stream_bytes_sent = 0;
// Packets serialized and discarded before sending.
QuicPacketCount packets_discarded = 0;
// These include version negotiation and public reset packets, which do not
// have packet numbers or frame data.
QuicByteCount bytes_received = 0; // Includes duplicate data for a stream.
// Includes packets which were not processable.
QuicPacketCount packets_received = 0;
// Excludes packets which were not processable.
QuicPacketCount packets_processed = 0;
QuicByteCount stream_bytes_received = 0; // Bytes received in a stream frame.
QuicByteCount bytes_retransmitted = 0;
QuicPacketCount packets_retransmitted = 0;
QuicByteCount bytes_spuriously_retransmitted = 0;
QuicPacketCount packets_spuriously_retransmitted = 0;
// Number of packets abandoned as lost by the loss detection algorithm.
QuicPacketCount packets_lost = 0;
QuicPacketCount packet_spuriously_detected_lost = 0;
// The sum of loss detection response times of all lost packets, in number of
// round trips.
// Given a packet detected as lost:
// T(S) T(1Rtt) T(D)
// |_________________________________|_______|
// Where
// T(S) is the time when the packet is sent.
// T(1Rtt) is one rtt after T(S), using the rtt at the time of detection.
// T(D) is the time of detection, i.e. when the packet is declared as lost.
// The loss detection response time is defined as
// (T(D) - T(S)) / (T(1Rtt) - T(S))
//
// The average loss detection response time is this number divided by
// |packets_lost|. Smaller result means detection is faster.
float total_loss_detection_response_time = 0.0;
// Number of times this connection went through the slow start phase.
uint32_t slowstart_count = 0;
// Number of round trips spent in slow start.
uint32_t slowstart_num_rtts = 0;
// Number of packets sent in slow start.
QuicPacketCount slowstart_packets_sent = 0;
// Number of bytes sent in slow start.
QuicByteCount slowstart_bytes_sent = 0;
// Number of packets lost exiting slow start.
QuicPacketCount slowstart_packets_lost = 0;
// Number of bytes lost exiting slow start.
QuicByteCount slowstart_bytes_lost = 0;
// Time spent in slow start. Populated for BBRv1 and BBRv2.
QuicTimeAccumulator slowstart_duration;
// Number of PROBE_BW cycles. Populated for BBRv1 and BBRv2.
uint32_t bbr_num_cycles = 0;
// Number of PROBE_BW cycles shortened for reno coexistence. BBRv2 only.
uint32_t bbr_num_short_cycles_for_reno_coexistence = 0;
// Whether BBR exited STARTUP due to excessive loss. Populated for BBRv1 and
// BBRv2.
bool bbr_exit_startup_due_to_loss = false;
QuicPacketCount packets_dropped = 0; // Duplicate or less than least unacked.
// Packets that failed to decrypt when they were first received,
// before the handshake was complete.
QuicPacketCount undecryptable_packets_received_before_handshake_complete = 0;
size_t crypto_retransmit_count = 0;
// Count of times the loss detection alarm fired. At least one packet should
// be lost when the alarm fires.
size_t loss_timeout_count = 0;
size_t tlp_count = 0;
size_t rto_count = 0; // Count of times the rto timer fired.
size_t pto_count = 0;
int64_t min_rtt_us = 0; // Minimum RTT in microseconds.
int64_t srtt_us = 0; // Smoothed RTT in microseconds.
int64_t cwnd_bootstrapping_rtt_us = 0; // RTT used in cwnd_bootstrapping.
// The connection's |long_term_mtu_| used for sending packets, populated by
// QuicConnection::GetStats().
QuicByteCount egress_mtu = 0;
// The maximum |long_term_mtu_| the connection ever used.
QuicByteCount max_egress_mtu = 0;
// Size of the largest packet received from the peer, populated by
// QuicConnection::GetStats().
QuicByteCount ingress_mtu = 0;
QuicBandwidth estimated_bandwidth = QuicBandwidth::Zero();
// Reordering stats for received packets.
// Number of packets received out of packet number order.
QuicPacketCount packets_reordered = 0;
// Maximum reordering observed in packet number space.
QuicPacketCount max_sequence_reordering = 0;
// Maximum reordering observed in microseconds
int64_t max_time_reordering_us = 0;
// Maximum sequence reordering observed from acked packets.
QuicPacketCount sent_packets_max_sequence_reordering = 0;
// Number of times that a packet is not detected as lost per reordering_shift,
// but would have been if the reordering_shift increases by one.
QuicPacketCount sent_packets_num_borderline_time_reorderings = 0;
// The following stats are used only in TcpCubicSender.
// The number of loss events from TCP's perspective. Each loss event includes
// one or more lost packets.
uint32_t tcp_loss_events = 0;
// Creation time, as reported by the QuicClock.
QuicTime connection_creation_time = QuicTime::Zero();
// Handshake completion time.
QuicTime handshake_completion_time = QuicTime::Zero();
uint64_t blocked_frames_received = 0;
uint64_t blocked_frames_sent = 0;
// Number of connectivity probing packets received by this connection.
uint64_t num_connectivity_probing_received = 0;
// Whether a RETRY packet was successfully processed.
bool retry_packet_processed = false;
// Number of received coalesced packets.
uint64_t num_coalesced_packets_received = 0;
// Number of successfully processed coalesced packets.
uint64_t num_coalesced_packets_processed = 0;
// Number of ack aggregation epochs. For the same number of bytes acked, the
// smaller this value, the more ack aggregation is going on.
uint64_t num_ack_aggregation_epochs = 0;
// Whether overshooting is detected (and pacing rate decreases) during start
// up with network parameters adjusted.
bool overshooting_detected_with_network_parameters_adjusted = false;
// Whether there is any non app-limited bandwidth sample.
bool has_non_app_limited_sample = false;
// Packet number of first decrypted packet.
QuicPacketNumber first_decrypted_packet;
// Max consecutive retransmission timeout before making forward progress.
size_t max_consecutive_rto_with_forward_progress = 0;
// Number of sent packets that were encapsulated using Legacy Version
// Encapsulation.
QuicPacketCount sent_legacy_version_encapsulated_packets = 0;
// Number of times when the connection tries to send data but gets throttled
// by amplification factor.
size_t num_amplification_throttling = 0;
// Number of key phase updates that have occurred. In the case of a locally
// initiated key update, this is incremented when the keys are updated, before
// the peer has acknowledged the key update.
uint32_t key_update_count = 0;
// Counts the number of undecryptable packets received across all keys. Does
// not include packets where a decryption key for that level was absent.
QuicPacketCount num_failed_authentication_packets_received = 0;
// Counts the number of QUIC+TLS 0-RTT packets received after 0-RTT decrypter
// was discarded, only on server connections.
QuicPacketCount
num_tls_server_zero_rtt_packets_received_after_discarding_decrypter = 0;
// True if address is validated via decrypting HANDSHAKE or 1-RTT packet.
bool address_validated_via_decrypting_packet = false;
// True if address is validated via validating token received in INITIAL
// packet.
bool address_validated_via_token = false;
size_t ping_frames_sent = 0;
// Number of detected peer address changes which changes to a peer address
// validated by earlier path validation.
size_t num_peer_migration_to_proactively_validated_address = 0;
// Number of detected peer address changes which triggers reverse path
// validation.
size_t num_reverse_path_validtion_upon_migration = 0;
// Number of detected peer migrations which either succeed reverse path
// validation or no need to be validated.
size_t num_validated_peer_migration = 0;
// Number of detected peer migrations which triggered reverse path validation
// and failed and fell back to the old path.
size_t num_invalid_peer_migration = 0;
// Number of detected peer migrations which triggered reverse path validation
// which was canceled because the peer migrated again. Such migration is also
// counted as invalid peer migration.
size_t num_peer_migration_while_validating_default_path = 0;
// Number of NEW_CONNECTION_ID frames sent.
size_t num_new_connection_id_sent = 0;
// Number of RETIRE_CONNECTION_ID frames sent.
size_t num_retire_connection_id_sent = 0;
struct QUIC_NO_EXPORT TlsServerOperationStats {
bool success = false;
// If the operation is performed asynchronously, how long did it take.
// Zero() for synchronous operations.
QuicTime::Delta async_latency = QuicTime::Delta::Zero();
};
// The TLS server op stats only have values when the corresponding operation
// is performed by TlsServerHandshaker. If an operation is done within
// BoringSSL, e.g. ticket decrypted without using
// TlsServerHandshaker::SessionTicketOpen, it will not be recorded here.
absl::optional<TlsServerOperationStats> tls_server_select_cert_stats;
absl::optional<TlsServerOperationStats> tls_server_compute_signature_stats;
absl::optional<TlsServerOperationStats> tls_server_decrypt_ticket_stats;
};
} // namespace quic
#endif // QUICHE_QUIC_CORE_QUIC_CONNECTION_STATS_H_