/* * Copyright (c) 2021 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 NET_DCSCTP_TX_RETRANSMISSION_QUEUE_H_ #define NET_DCSCTP_TX_RETRANSMISSION_QUEUE_H_ #include #include #include #include #include #include #include #include "absl/strings/string_view.h" #include "absl/types/optional.h" #include "api/array_view.h" #include "net/dcsctp/common/sequence_numbers.h" #include "net/dcsctp/packet/chunk/forward_tsn_chunk.h" #include "net/dcsctp/packet/chunk/iforward_tsn_chunk.h" #include "net/dcsctp/packet/chunk/sack_chunk.h" #include "net/dcsctp/packet/data.h" #include "net/dcsctp/public/dcsctp_handover_state.h" #include "net/dcsctp/public/dcsctp_options.h" #include "net/dcsctp/timer/timer.h" #include "net/dcsctp/tx/outstanding_data.h" #include "net/dcsctp/tx/retransmission_timeout.h" #include "net/dcsctp/tx/send_queue.h" namespace dcsctp { // The RetransmissionQueue manages all DATA/I-DATA chunks that are in-flight and // schedules them to be retransmitted if necessary. Chunks are retransmitted // when they have been lost for a number of consecutive SACKs, or when the // retransmission timer, `t3_rtx` expires. // // As congestion control is tightly connected with the state of transmitted // packets, that's also managed here to limit the amount of data that is // in-flight (sent, but not yet acknowledged). class RetransmissionQueue { public: static constexpr size_t kMinimumFragmentedPayload = 10; using State = OutstandingData::State; // Creates a RetransmissionQueue which will send data using `my_initial_tsn` // (or a value from `DcSctpSocketHandoverState` if given) as the first TSN // to use for sent fragments. It will poll data from `send_queue`. When SACKs // are received, it will estimate the RTT, and call `on_new_rtt`. When an // outstanding chunk has been ACKed, it will call // `on_clear_retransmission_counter` and will also use `t3_rtx`, which is the // SCTP retransmission timer to manage retransmissions. RetransmissionQueue( absl::string_view log_prefix, TSN my_initial_tsn, size_t a_rwnd, SendQueue& send_queue, std::function on_new_rtt, std::function on_clear_retransmission_counter, Timer& t3_rtx, const DcSctpOptions& options, bool supports_partial_reliability = true, bool use_message_interleaving = false, const DcSctpSocketHandoverState* handover_state = nullptr); // Handles a received SACK. Returns true if the `sack` was processed and // false if it was discarded due to received out-of-order and not relevant. bool HandleSack(TimeMs now, const SackChunk& sack); // Handles an expired retransmission timer. void HandleT3RtxTimerExpiry(); // Returns a list of chunks to send that would fit in one SCTP packet with // `bytes_remaining_in_packet` bytes available. This may be further limited by // the congestion control windows. Note that `ShouldSendForwardTSN` must be // called prior to this method, to abandon expired chunks, as this method will // not expire any chunks. std::vector> GetChunksToSend( TimeMs now, size_t bytes_remaining_in_packet); // Returns the internal state of all queued chunks. This is only used in // unit-tests. std::vector> GetChunkStatesForTesting() const { return outstanding_data_.GetChunkStatesForTesting(); } // Returns the next TSN that will be allocated for sent DATA chunks. TSN next_tsn() const { return outstanding_data_.next_tsn().Wrap(); } // Returns the size of the congestion window, in bytes. This is the number of // bytes that may be in-flight. size_t cwnd() const { return cwnd_; } // Overrides the current congestion window size. void set_cwnd(size_t cwnd) { cwnd_ = cwnd; } // Returns the current receiver window size. size_t rwnd() const { return rwnd_; } // Returns the number of bytes of packets that are in-flight. size_t outstanding_bytes() const { return outstanding_data_.outstanding_bytes(); } // Returns the number of DATA chunks that are in-flight. size_t outstanding_items() const { return outstanding_data_.outstanding_items(); } // Indicates if the congestion control algorithm allows data to be sent. bool can_send_data() const; // Given the current time `now`, it will evaluate if there are chunks that // have expired and that need to be discarded. It returns true if a // FORWARD-TSN should be sent. bool ShouldSendForwardTsn(TimeMs now); // Creates a FORWARD-TSN chunk. ForwardTsnChunk CreateForwardTsn() const { return outstanding_data_.CreateForwardTsn(); } // Creates an I-FORWARD-TSN chunk. IForwardTsnChunk CreateIForwardTsn() const { return outstanding_data_.CreateIForwardTsn(); } // See the SendQueue for a longer description of these methods related // to stream resetting. void PrepareResetStreams(rtc::ArrayView streams); bool CanResetStreams() const; void CommitResetStreams(); void RollbackResetStreams(); HandoverReadinessStatus GetHandoverReadiness() const; void AddHandoverState(DcSctpSocketHandoverState& state); private: enum class CongestionAlgorithmPhase { kSlowStart, kCongestionAvoidance, }; bool IsConsistent() const; // Returns how large a chunk will be, serialized, carrying the data size_t GetSerializedChunkSize(const Data& data) const; // Indicates if the congestion control algorithm is in "fast recovery". bool is_in_fast_recovery() const { return fast_recovery_exit_tsn_.has_value(); } // Indicates if the provided SACK is valid given what has previously been // received. If it returns false, the SACK is most likely a duplicate of // something already seen, so this returning false doesn't necessarily mean // that the SACK is illegal. bool IsSackValid(const SackChunk& sack) const; // When a SACK chunk is received, this method will be called which _may_ call // into the `RetransmissionTimeout` to update the RTO. void UpdateRTT(TimeMs now, UnwrappedTSN cumulative_tsn_ack); // If the congestion control is in "fast recovery mode", this may be exited // now. void MaybeExitFastRecovery(UnwrappedTSN cumulative_tsn_ack); // If chunks have been ACKed, stop the retransmission timer. void StopT3RtxTimerOnIncreasedCumulativeTsnAck( UnwrappedTSN cumulative_tsn_ack); // Update the congestion control algorithm given as the cumulative ack TSN // value has increased, as reported in an incoming SACK chunk. void HandleIncreasedCumulativeTsnAck(size_t outstanding_bytes, size_t total_bytes_acked); // Update the congestion control algorithm, given as packet loss has been // detected, as reported in an incoming SACK chunk. void HandlePacketLoss(UnwrappedTSN highest_tsn_acked); // Update the view of the receiver window size. void UpdateReceiverWindow(uint32_t a_rwnd); // If there is data sent and not ACKED, ensure that the retransmission timer // is running. void StartT3RtxTimerIfOutstandingData(); // Returns the current congestion control algorithm phase. CongestionAlgorithmPhase phase() const { return (cwnd_ <= ssthresh_) ? CongestionAlgorithmPhase::kSlowStart : CongestionAlgorithmPhase::kCongestionAvoidance; } // Returns the number of bytes that may be sent in a single packet according // to the congestion control algorithm. size_t max_bytes_to_send() const; const DcSctpOptions options_; // The minimum bytes required to be available in the congestion window to // allow packets to be sent - to avoid sending too small packets. const size_t min_bytes_required_to_send_; // If the peer supports RFC3758 - SCTP Partial Reliability Extension. const bool partial_reliability_; const std::string log_prefix_; // The size of the data chunk (DATA/I-DATA) header that is used. const size_t data_chunk_header_size_; // Called when a new RTT measurement has been done const std::function on_new_rtt_; // Called when a SACK has been seen that cleared the retransmission counter. const std::function on_clear_retransmission_counter_; // The retransmission counter. Timer& t3_rtx_; // Unwraps TSNs UnwrappedTSN::Unwrapper tsn_unwrapper_; // Congestion Window. Number of bytes that may be in-flight (sent, not acked). size_t cwnd_; // Receive Window. Number of bytes available in the receiver's RX buffer. size_t rwnd_; // Slow Start Threshold. See RFC4960. size_t ssthresh_; // Partial Bytes Acked. See RFC4960. size_t partial_bytes_acked_; // If set, fast recovery is enabled until this TSN has been cumulative // acked. absl::optional fast_recovery_exit_tsn_ = absl::nullopt; // Indicates if the congestion algorithm is in fast retransmit. bool is_in_fast_retransmit_ = false; // The send queue. SendQueue& send_queue_; // All the outstanding data chunks that are in-flight and that have not been // cumulative acked. Note that it also contains chunks that have been acked in // gap ack blocks. OutstandingData outstanding_data_; }; } // namespace dcsctp #endif // NET_DCSCTP_TX_RETRANSMISSION_QUEUE_H_