1 // Copyright 2013 The Chromium Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style license that can be 3 // found in the LICENSE file. 4 5 #ifndef NET_QUIC_QUIC_SENT_PACKET_MANAGER_H_ 6 #define NET_QUIC_QUIC_SENT_PACKET_MANAGER_H_ 7 8 #include <map> 9 #include <set> 10 #include <utility> 11 #include <vector> 12 13 #include "base/containers/hash_tables.h" 14 #include "base/memory/scoped_ptr.h" 15 #include "net/base/linked_hash_map.h" 16 #include "net/quic/congestion_control/loss_detection_interface.h" 17 #include "net/quic/congestion_control/rtt_stats.h" 18 #include "net/quic/congestion_control/send_algorithm_interface.h" 19 #include "net/quic/quic_ack_notifier_manager.h" 20 #include "net/quic/quic_protocol.h" 21 #include "net/quic/quic_sustained_bandwidth_recorder.h" 22 #include "net/quic/quic_unacked_packet_map.h" 23 24 namespace net { 25 26 namespace test { 27 class QuicConnectionPeer; 28 class QuicSentPacketManagerPeer; 29 } // namespace test 30 31 class QuicClock; 32 class QuicConfig; 33 struct QuicConnectionStats; 34 35 // Class which tracks the set of packets sent on a QUIC connection and contains 36 // a send algorithm to decide when to send new packets. It keeps track of any 37 // retransmittable data associated with each packet. If a packet is 38 // retransmitted, it will keep track of each version of a packet so that if a 39 // previous transmission is acked, the data will not be retransmitted. 40 class NET_EXPORT_PRIVATE QuicSentPacketManager { 41 public: 42 // Interface which gets callbacks from the QuicSentPacketManager at 43 // interesting points. Implementations must not mutate the state of 44 // the packet manager or connection as a result of these callbacks. 45 class NET_EXPORT_PRIVATE DebugDelegate { 46 public: ~DebugDelegate()47 virtual ~DebugDelegate() {} 48 49 // Called when a spurious retransmission is detected. OnSpuriousPacketRetransmition(TransmissionType transmission_type,QuicByteCount byte_size)50 virtual void OnSpuriousPacketRetransmition( 51 TransmissionType transmission_type, 52 QuicByteCount byte_size) {} 53 OnSentPacket(QuicPacketSequenceNumber sequence_number,QuicTime sent_time,QuicByteCount bytes,TransmissionType transmission_type)54 virtual void OnSentPacket( 55 QuicPacketSequenceNumber sequence_number, 56 QuicTime sent_time, 57 QuicByteCount bytes, 58 TransmissionType transmission_type) {} 59 OnRetransmittedPacket(QuicPacketSequenceNumber old_sequence_number,QuicPacketSequenceNumber new_sequence_number,TransmissionType transmission_type,QuicTime time)60 virtual void OnRetransmittedPacket( 61 QuicPacketSequenceNumber old_sequence_number, 62 QuicPacketSequenceNumber new_sequence_number, 63 TransmissionType transmission_type, 64 QuicTime time) {} 65 OnIncomingAck(const QuicAckFrame & ack_frame,QuicTime ack_receive_time,QuicPacketSequenceNumber largest_observed,bool largest_observed_acked,QuicPacketSequenceNumber least_unacked_sent_packet)66 virtual void OnIncomingAck( 67 const QuicAckFrame& ack_frame, 68 QuicTime ack_receive_time, 69 QuicPacketSequenceNumber largest_observed, 70 bool largest_observed_acked, 71 QuicPacketSequenceNumber least_unacked_sent_packet) {} 72 OnSerializedPacket(const SerializedPacket & packet)73 virtual void OnSerializedPacket( 74 const SerializedPacket& packet) {} 75 }; 76 77 // Interface which gets callbacks from the QuicSentPacketManager when 78 // network-related state changes. Implementations must not mutate the 79 // state of the packet manager as a result of these callbacks. 80 class NET_EXPORT_PRIVATE NetworkChangeVisitor { 81 public: ~NetworkChangeVisitor()82 virtual ~NetworkChangeVisitor() {} 83 84 // Called when congestion window may have changed. 85 virtual void OnCongestionWindowChange(QuicByteCount congestion_window) = 0; 86 // TODO(jri): Add OnRttStatsChange() to this class as well. 87 }; 88 89 // Struct to store the pending retransmission information. 90 struct PendingRetransmission { PendingRetransmissionPendingRetransmission91 PendingRetransmission(QuicPacketSequenceNumber sequence_number, 92 TransmissionType transmission_type, 93 const RetransmittableFrames& retransmittable_frames, 94 QuicSequenceNumberLength sequence_number_length) 95 : sequence_number(sequence_number), 96 transmission_type(transmission_type), 97 retransmittable_frames(retransmittable_frames), 98 sequence_number_length(sequence_number_length) { 99 } 100 101 QuicPacketSequenceNumber sequence_number; 102 TransmissionType transmission_type; 103 const RetransmittableFrames& retransmittable_frames; 104 QuicSequenceNumberLength sequence_number_length; 105 }; 106 107 QuicSentPacketManager(bool is_server, 108 const QuicClock* clock, 109 QuicConnectionStats* stats, 110 CongestionControlType congestion_control_type, 111 LossDetectionType loss_type); 112 virtual ~QuicSentPacketManager(); 113 114 virtual void SetFromConfig(const QuicConfig& config); 115 SetHandshakeConfirmed()116 void SetHandshakeConfirmed() { handshake_confirmed_ = true; } 117 118 // Called when a new packet is serialized. If the packet contains 119 // retransmittable data, it will be added to the unacked packet map. 120 void OnSerializedPacket(const SerializedPacket& serialized_packet); 121 122 // Called when a packet is retransmitted with a new sequence number. 123 // Replaces the old entry in the unacked packet map with the new 124 // sequence number. 125 void OnRetransmittedPacket(QuicPacketSequenceNumber old_sequence_number, 126 QuicPacketSequenceNumber new_sequence_number); 127 128 // Processes the incoming ack. 129 void OnIncomingAck(const QuicAckFrame& ack_frame, 130 QuicTime ack_receive_time); 131 132 // Returns true if the non-FEC packet |sequence_number| is unacked. 133 bool IsUnacked(QuicPacketSequenceNumber sequence_number) const; 134 135 // Requests retransmission of all unacked packets of |retransmission_type|. 136 void RetransmitUnackedPackets(TransmissionType retransmission_type); 137 138 // Retransmits the oldest pending packet there is still a tail loss probe 139 // pending. Invoked after OnRetransmissionTimeout. 140 bool MaybeRetransmitTailLossProbe(); 141 142 // Removes the retransmittable frames from all unencrypted packets to ensure 143 // they don't get retransmitted. 144 void NeuterUnencryptedPackets(); 145 146 // Returns true if the unacked packet |sequence_number| has retransmittable 147 // frames. This will only return false if the packet has been acked, if a 148 // previous transmission of this packet was ACK'd, or if this packet has been 149 // retransmitted as with different sequence number. 150 bool HasRetransmittableFrames(QuicPacketSequenceNumber sequence_number) const; 151 152 // Returns true if there are pending retransmissions. 153 bool HasPendingRetransmissions() const; 154 155 // Retrieves the next pending retransmission. 156 PendingRetransmission NextPendingRetransmission(); 157 158 bool HasUnackedPackets() const; 159 160 // Returns the smallest sequence number of a serialized packet which has not 161 // been acked by the peer. 162 QuicPacketSequenceNumber GetLeastUnacked() const; 163 164 // Called when a congestion feedback frame is received from peer. 165 virtual void OnIncomingQuicCongestionFeedbackFrame( 166 const QuicCongestionFeedbackFrame& frame, 167 const QuicTime& feedback_receive_time); 168 169 // Called when we have sent bytes to the peer. This informs the manager both 170 // the number of bytes sent and if they were retransmitted. Returns true if 171 // the sender should reset the retransmission timer. 172 virtual bool OnPacketSent(QuicPacketSequenceNumber sequence_number, 173 QuicTime sent_time, 174 QuicByteCount bytes, 175 TransmissionType transmission_type, 176 HasRetransmittableData has_retransmittable_data); 177 178 // Called when the retransmission timer expires. 179 virtual void OnRetransmissionTimeout(); 180 181 // Calculate the time until we can send the next packet to the wire. 182 // Note 1: When kUnknownWaitTime is returned, there is no need to poll 183 // TimeUntilSend again until we receive an OnIncomingAckFrame event. 184 // Note 2: Send algorithms may or may not use |retransmit| in their 185 // calculations. 186 virtual QuicTime::Delta TimeUntilSend(QuicTime now, 187 HasRetransmittableData retransmittable); 188 189 // Returns amount of time for delayed ack timer. 190 const QuicTime::Delta DelayedAckTime() const; 191 192 // Returns the current delay for the retransmission timer, which may send 193 // either a tail loss probe or do a full RTO. Returns QuicTime::Zero() if 194 // there are no retransmittable packets. 195 const QuicTime GetRetransmissionTime() const; 196 197 const RttStats* GetRttStats() const; 198 199 // Returns the estimated bandwidth calculated by the congestion algorithm. 200 QuicBandwidth BandwidthEstimate() const; 201 202 // Returns true if the current instantaneous bandwidth estimate is reliable. 203 bool HasReliableBandwidthEstimate() const; 204 205 const QuicSustainedBandwidthRecorder& SustainedBandwidthRecorder() const; 206 207 // Returns the size of the current congestion window in bytes. Note, this is 208 // not the *available* window. Some send algorithms may not use a congestion 209 // window and will return 0. 210 QuicByteCount GetCongestionWindow() const; 211 212 // Returns the size of the slow start congestion window in bytes, 213 // aka ssthresh. Some send algorithms do not define a slow start 214 // threshold and will return 0. 215 QuicByteCount GetSlowStartThreshold() const; 216 217 // Enables pacing if it has not already been enabled. 218 void EnablePacing(); 219 using_pacing()220 bool using_pacing() const { return using_pacing_; } 221 set_debug_delegate(DebugDelegate * debug_delegate)222 void set_debug_delegate(DebugDelegate* debug_delegate) { 223 debug_delegate_ = debug_delegate; 224 } 225 largest_observed()226 QuicPacketSequenceNumber largest_observed() const { 227 return unacked_packets_.largest_observed(); 228 } 229 least_packet_awaited_by_peer()230 QuicPacketSequenceNumber least_packet_awaited_by_peer() { 231 return least_packet_awaited_by_peer_; 232 } 233 set_network_change_visitor(NetworkChangeVisitor * visitor)234 void set_network_change_visitor(NetworkChangeVisitor* visitor) { 235 DCHECK(!network_change_visitor_); 236 DCHECK(visitor); 237 network_change_visitor_ = visitor; 238 } 239 consecutive_rto_count()240 size_t consecutive_rto_count() const { 241 return consecutive_rto_count_; 242 } 243 consecutive_tlp_count()244 size_t consecutive_tlp_count() const { 245 return consecutive_tlp_count_; 246 } 247 248 private: 249 friend class test::QuicConnectionPeer; 250 friend class test::QuicSentPacketManagerPeer; 251 252 // The retransmission timer is a single timer which switches modes depending 253 // upon connection state. 254 enum RetransmissionTimeoutMode { 255 // A conventional TCP style RTO. 256 RTO_MODE, 257 // A tail loss probe. By default, QUIC sends up to two before RTOing. 258 TLP_MODE, 259 // Retransmission of handshake packets prior to handshake completion. 260 HANDSHAKE_MODE, 261 // Re-invoke the loss detection when a packet is not acked before the 262 // loss detection algorithm expects. 263 LOSS_MODE, 264 }; 265 266 typedef linked_hash_map<QuicPacketSequenceNumber, 267 TransmissionType> PendingRetransmissionMap; 268 269 // Updates the least_packet_awaited_by_peer. 270 void UpdatePacketInformationReceivedByPeer(const QuicAckFrame& ack_frame); 271 272 // Process the incoming ack looking for newly ack'd data packets. 273 void HandleAckForSentPackets(const QuicAckFrame& ack_frame); 274 275 // Returns the current retransmission mode. 276 RetransmissionTimeoutMode GetRetransmissionMode() const; 277 278 // Retransmits all crypto stream packets. 279 void RetransmitCryptoPackets(); 280 281 // Retransmits all the packets and abandons by invoking a full RTO. 282 void RetransmitAllPackets(); 283 284 // Returns the timer for retransmitting crypto handshake packets. 285 const QuicTime::Delta GetCryptoRetransmissionDelay() const; 286 287 // Returns the timer for a new tail loss probe. 288 const QuicTime::Delta GetTailLossProbeDelay() const; 289 290 // Returns the retransmission timeout, after which a full RTO occurs. 291 const QuicTime::Delta GetRetransmissionDelay() const; 292 293 // Update the RTT if the ack is for the largest acked sequence number. 294 // Returns true if the rtt was updated. 295 bool MaybeUpdateRTT(const QuicAckFrame& ack_frame, 296 const QuicTime& ack_receive_time); 297 298 // Invokes the loss detection algorithm and loses and retransmits packets if 299 // necessary. 300 void InvokeLossDetection(QuicTime time); 301 302 // Invokes OnCongestionEvent if |rtt_updated| is true, there are pending acks, 303 // or pending losses. Clears pending acks and pending losses afterwards. 304 // |bytes_in_flight| is the number of bytes in flight before the losses or 305 // acks. 306 void MaybeInvokeCongestionEvent(bool rtt_updated, 307 QuicByteCount bytes_in_flight); 308 309 // Marks |sequence_number| as having been revived by the peer, but not 310 // received, so the packet remains pending if it is and the congestion control 311 // does not consider the packet acked. 312 void MarkPacketRevived(QuicPacketSequenceNumber sequence_number, 313 QuicTime::Delta delta_largest_observed); 314 315 // Removes the retransmittability and pending properties from the packet at 316 // |it| due to receipt by the peer. Returns an iterator to the next remaining 317 // unacked packet. 318 void MarkPacketHandled(QuicPacketSequenceNumber sequence_number, 319 const TransmissionInfo& info, 320 QuicTime::Delta delta_largest_observed); 321 322 // Request that |sequence_number| be retransmitted after the other pending 323 // retransmissions. Does not add it to the retransmissions if it's already 324 // a pending retransmission. 325 void MarkForRetransmission(QuicPacketSequenceNumber sequence_number, 326 TransmissionType transmission_type); 327 328 // Notify observers about spurious retransmits. 329 void RecordSpuriousRetransmissions( 330 const SequenceNumberList& all_transmissions, 331 QuicPacketSequenceNumber acked_sequence_number); 332 333 // Newly serialized retransmittable and fec packets are added to this map, 334 // which contains owning pointers to any contained frames. If a packet is 335 // retransmitted, this map will contain entries for both the old and the new 336 // packet. The old packet's retransmittable frames entry will be NULL, while 337 // the new packet's entry will contain the frames to retransmit. 338 // If the old packet is acked before the new packet, then the old entry will 339 // be removed from the map and the new entry's retransmittable frames will be 340 // set to NULL. 341 QuicUnackedPacketMap unacked_packets_; 342 343 // Pending retransmissions which have not been packetized and sent yet. 344 PendingRetransmissionMap pending_retransmissions_; 345 346 // Tracks if the connection was created by the server. 347 bool is_server_; 348 349 // An AckNotifier can register to be informed when ACKs have been received for 350 // all packets that a given block of data was sent in. The AckNotifierManager 351 // maintains the currently active notifiers. 352 AckNotifierManager ack_notifier_manager_; 353 354 const QuicClock* clock_; 355 QuicConnectionStats* stats_; 356 DebugDelegate* debug_delegate_; 357 NetworkChangeVisitor* network_change_visitor_; 358 RttStats rtt_stats_; 359 scoped_ptr<SendAlgorithmInterface> send_algorithm_; 360 scoped_ptr<LossDetectionInterface> loss_algorithm_; 361 362 // Least sequence number which the peer is still waiting for. 363 QuicPacketSequenceNumber least_packet_awaited_by_peer_; 364 365 // Tracks the first RTO packet. If any packet before that packet gets acked, 366 // it indicates the RTO was spurious and should be reversed(F-RTO). 367 QuicPacketSequenceNumber first_rto_transmission_; 368 // Number of times the RTO timer has fired in a row without receiving an ack. 369 size_t consecutive_rto_count_; 370 // Number of times the tail loss probe has been sent. 371 size_t consecutive_tlp_count_; 372 // Number of times the crypto handshake has been retransmitted. 373 size_t consecutive_crypto_retransmission_count_; 374 // Number of pending transmissions of TLP or crypto packets. 375 size_t pending_timer_transmission_count_; 376 // Maximum number of tail loss probes to send before firing an RTO. 377 size_t max_tail_loss_probes_; 378 bool using_pacing_; 379 380 // Vectors packets acked and lost as a result of the last congestion event. 381 SendAlgorithmInterface::CongestionVector packets_acked_; 382 SendAlgorithmInterface::CongestionVector packets_lost_; 383 384 // Set to true after the crypto handshake has successfully completed. After 385 // this is true we no longer use HANDSHAKE_MODE, and further frames sent on 386 // the crypto stream (i.e. SCUP messages) are treated like normal 387 // retransmittable frames. 388 bool handshake_confirmed_; 389 390 // Records bandwidth from server to client in normal operation, over periods 391 // of time with no loss events. 392 QuicSustainedBandwidthRecorder sustained_bandwidth_recorder_; 393 394 DISALLOW_COPY_AND_ASSIGN(QuicSentPacketManager); 395 }; 396 397 } // namespace net 398 399 #endif // NET_QUIC_QUIC_SENT_PACKET_MANAGER_H_ 400