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/*
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* Copyright (c) 2021 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#ifndef NET_DCSCTP_TX_OUTSTANDING_DATA_H_
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#define NET_DCSCTP_TX_OUTSTANDING_DATA_H_
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#include <map>
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#include <set>
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#include <utility>
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#include <vector>
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#include "absl/types/optional.h"
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#include "net/dcsctp/common/sequence_numbers.h"
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#include "net/dcsctp/packet/chunk/forward_tsn_chunk.h"
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#include "net/dcsctp/packet/chunk/iforward_tsn_chunk.h"
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#include "net/dcsctp/packet/chunk/sack_chunk.h"
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#include "net/dcsctp/packet/data.h"
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#include "net/dcsctp/public/types.h"
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namespace dcsctp {
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// This class keeps track of outstanding data chunks (sent, not yet acked) and
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// handles acking, nacking, rescheduling and abandoning.
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class OutstandingData {
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public:
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// State for DATA chunks (message fragments) in the queue - used in tests.
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enum class State {
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// The chunk has been sent but not received yet (from the sender's point of
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// view, as no SACK has been received yet that reference this chunk).
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kInFlight,
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// A SACK has been received which explicitly marked this chunk as missing -
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// it's now NACKED and may be retransmitted if NACKED enough times.
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kNacked,
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// A chunk that will be retransmitted when possible.
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kToBeRetransmitted,
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// A SACK has been received which explicitly marked this chunk as received.
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kAcked,
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// A chunk whose message has expired or has been retransmitted too many
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// times (RFC3758). It will not be retransmitted anymore.
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kAbandoned,
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};
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// Contains variables scoped to a processing of an incoming SACK.
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struct AckInfo {
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explicit AckInfo(UnwrappedTSN cumulative_tsn_ack)
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: highest_tsn_acked(cumulative_tsn_ack) {}
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// Bytes acked by increasing cumulative_tsn_ack and gap_ack_blocks.
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size_t bytes_acked = 0;
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// Indicates if this SACK indicates that packet loss has occurred. Just
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// because a packet is missing in the SACK doesn't necessarily mean that
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// there is packet loss as that packet might be in-flight and received
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// out-of-order. But when it has been reported missing consecutive times, it
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// will eventually be considered "lost" and this will be set.
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bool has_packet_loss = false;
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// Highest TSN Newly Acknowledged, an SCTP variable.
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UnwrappedTSN highest_tsn_acked;
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// The set of lifecycle IDs that were acked using cumulative_tsn_ack.
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std::vector<LifecycleId> acked_lifecycle_ids;
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// The set of lifecycle IDs that were acked, but had been abandoned.
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std::vector<LifecycleId> abandoned_lifecycle_ids;
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};
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OutstandingData(
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size_t data_chunk_header_size,
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UnwrappedTSN next_tsn,
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UnwrappedTSN last_cumulative_tsn_ack,
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std::function<bool(IsUnordered, StreamID, MID)> discard_from_send_queue)
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: data_chunk_header_size_(data_chunk_header_size),
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next_tsn_(next_tsn),
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last_cumulative_tsn_ack_(last_cumulative_tsn_ack),
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discard_from_send_queue_(std::move(discard_from_send_queue)) {}
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AckInfo HandleSack(
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UnwrappedTSN cumulative_tsn_ack,
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rtc::ArrayView<const SackChunk::GapAckBlock> gap_ack_blocks,
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bool is_in_fast_recovery);
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// Returns as many of the chunks that are eligible for fast retransmissions
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// and that would fit in a single packet of `max_size`. The eligible chunks
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// that didn't fit will be marked for (normal) retransmission and will not be
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// returned if this method is called again.
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std::vector<std::pair<TSN, Data>> GetChunksToBeFastRetransmitted(
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size_t max_size);
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// Given `max_size` of space left in a packet, which chunks can be added to
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// it?
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std::vector<std::pair<TSN, Data>> GetChunksToBeRetransmitted(size_t max_size);
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size_t outstanding_bytes() const { return outstanding_bytes_; }
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// Returns the number of DATA chunks that are in-flight.
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size_t outstanding_items() const { return outstanding_items_; }
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// Given the current time `now_ms`, expire and abandon outstanding (sent at
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// least once) chunks that have a limited lifetime.
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void ExpireOutstandingChunks(TimeMs now);
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bool empty() const { return outstanding_data_.empty(); }
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bool has_data_to_be_fast_retransmitted() const {
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return !to_be_fast_retransmitted_.empty();
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}
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bool has_data_to_be_retransmitted() const {
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return !to_be_retransmitted_.empty() || !to_be_fast_retransmitted_.empty();
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}
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UnwrappedTSN last_cumulative_tsn_ack() const {
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return last_cumulative_tsn_ack_;
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}
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UnwrappedTSN next_tsn() const { return next_tsn_; }
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UnwrappedTSN highest_outstanding_tsn() const;
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// Schedules `data` to be sent, with the provided partial reliability
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// parameters. Returns the TSN if the item was actually added and scheduled to
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// be sent, and absl::nullopt if it shouldn't be sent.
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absl::optional<UnwrappedTSN> Insert(
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const Data& data,
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TimeMs time_sent,
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MaxRetransmits max_retransmissions = MaxRetransmits::NoLimit(),
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TimeMs expires_at = TimeMs::InfiniteFuture(),
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LifecycleId lifecycle_id = LifecycleId::NotSet());
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// Nacks all outstanding data.
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void NackAll();
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// Creates a FORWARD-TSN chunk.
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ForwardTsnChunk CreateForwardTsn() const;
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// Creates an I-FORWARD-TSN chunk.
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IForwardTsnChunk CreateIForwardTsn() const;
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// Given the current time and a TSN, it returns the measured RTT between when
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// the chunk was sent and now. It takes into acccount Karn's algorithm, so if
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// the chunk has ever been retransmitted, it will return absl::nullopt.
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absl::optional<DurationMs> MeasureRTT(TimeMs now, UnwrappedTSN tsn) const;
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// Returns the internal state of all queued chunks. This is only used in
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// unit-tests.
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std::vector<std::pair<TSN, State>> GetChunkStatesForTesting() const;
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// Returns true if the next chunk that is not acked by the peer has been
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// abandoned, which means that a FORWARD-TSN should be sent.
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bool ShouldSendForwardTsn() const;
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// Sets the next TSN to be used. This is used in handover.
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void ResetSequenceNumbers(UnwrappedTSN next_tsn,
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UnwrappedTSN last_cumulative_tsn);
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private:
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// A fragmented message's DATA chunk while in the retransmission queue, and
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// its associated metadata.
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class Item {
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public:
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enum class NackAction {
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kNothing,
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kRetransmit,
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kAbandon,
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};
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Item(Data data,
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TimeMs time_sent,
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MaxRetransmits max_retransmissions,
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TimeMs expires_at,
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LifecycleId lifecycle_id)
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: time_sent_(time_sent),
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max_retransmissions_(max_retransmissions),
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expires_at_(expires_at),
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lifecycle_id_(lifecycle_id),
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data_(std::move(data)) {}
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Item(const Item&) = delete;
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Item& operator=(const Item&) = delete;
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TimeMs time_sent() const { return time_sent_; }
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const Data& data() const { return data_; }
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// Acks an item.
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void Ack();
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// Nacks an item. If it has been nacked enough times, or if `retransmit_now`
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// is set, it might be marked for retransmission. If the item has reached
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// its max retransmission value, it will instead be abandoned. The action
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// performed is indicated as return value.
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NackAction Nack(bool retransmit_now);
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// Prepares the item to be retransmitted. Sets it as outstanding and
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// clears all nack counters.
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void MarkAsRetransmitted();
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// Marks this item as abandoned.
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void Abandon();
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bool is_outstanding() const { return ack_state_ == AckState::kUnacked; }
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bool is_acked() const { return ack_state_ == AckState::kAcked; }
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bool is_nacked() const { return ack_state_ == AckState::kNacked; }
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bool is_abandoned() const { return lifecycle_ == Lifecycle::kAbandoned; }
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// Indicates if this chunk should be retransmitted.
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bool should_be_retransmitted() const {
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return lifecycle_ == Lifecycle::kToBeRetransmitted;
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}
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// Indicates if this chunk has ever been retransmitted.
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bool has_been_retransmitted() const { return num_retransmissions_ > 0; }
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// Given the current time, and the current state of this DATA chunk, it will
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// indicate if it has expired (SCTP Partial Reliability Extension).
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bool has_expired(TimeMs now) const;
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LifecycleId lifecycle_id() const { return lifecycle_id_; }
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private:
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enum class Lifecycle : uint8_t {
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// The chunk is alive (sent, received, etc)
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kActive,
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// The chunk is scheduled to be retransmitted, and will then transition to
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// become active.
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kToBeRetransmitted,
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// The chunk has been abandoned. This is a terminal state.
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kAbandoned
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};
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enum class AckState : uint8_t {
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// The chunk is in-flight.
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kUnacked,
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// The chunk has been received and acknowledged.
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kAcked,
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// The chunk has been nacked and is possibly lost.
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kNacked
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};
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// NOTE: This data structure has been optimized for size, by ordering fields
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// to avoid unnecessary padding.
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// When the packet was sent, and placed in this queue.
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const TimeMs time_sent_;
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// If the message was sent with a maximum number of retransmissions, this is
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// set to that number. The value zero (0) means that it will never be
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// retransmitted.
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const MaxRetransmits max_retransmissions_;
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// Indicates the life cycle status of this chunk.
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Lifecycle lifecycle_ = Lifecycle::kActive;
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// Indicates the presence of this chunk, if it's in flight (Unacked), has
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// been received (Acked) or is possibly lost (Nacked).
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AckState ack_state_ = AckState::kUnacked;
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// The number of times the DATA chunk has been nacked (by having received a
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// SACK which doesn't include it). Will be cleared on retransmissions.
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uint8_t nack_count_ = 0;
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// The number of times the DATA chunk has been retransmitted.
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uint16_t num_retransmissions_ = 0;
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// At this exact millisecond, the item is considered expired. If the message
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// is not to be expired, this is set to the infinite future.
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const TimeMs expires_at_;
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// An optional lifecycle id, which may only be set for the last fragment.
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const LifecycleId lifecycle_id_;
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// The actual data to send/retransmit.
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const Data data_;
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};
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// Returns how large a chunk will be, serialized, carrying the data
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size_t GetSerializedChunkSize(const Data& data) const;
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// Given a `cumulative_tsn_ack` from an incoming SACK, will remove those items
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// in the retransmission queue up until this value and will update `ack_info`
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// by setting `bytes_acked_by_cumulative_tsn_ack`.
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void RemoveAcked(UnwrappedTSN cumulative_tsn_ack, AckInfo& ack_info);
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// Will mark the chunks covered by the `gap_ack_blocks` from an incoming SACK
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// as "acked" and update `ack_info` by adding new TSNs to `added_tsns`.
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void AckGapBlocks(UnwrappedTSN cumulative_tsn_ack,
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rtc::ArrayView<const SackChunk::GapAckBlock> gap_ack_blocks,
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AckInfo& ack_info);
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// Mark chunks reported as "missing", as "nacked" or "to be retransmitted"
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// depending how many times this has happened. Only packets up until
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// `ack_info.highest_tsn_acked` (highest TSN newly acknowledged) are
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// nacked/retransmitted. The method will set `ack_info.has_packet_loss`.
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void NackBetweenAckBlocks(
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UnwrappedTSN cumulative_tsn_ack,
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rtc::ArrayView<const SackChunk::GapAckBlock> gap_ack_blocks,
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bool is_in_fast_recovery,
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OutstandingData::AckInfo& ack_info);
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// Process the acknowledgement of the chunk referenced by `iter` and updates
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// state in `ack_info` and the object's state.
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void AckChunk(AckInfo& ack_info, std::map<UnwrappedTSN, Item>::iterator iter);
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// Helper method to process an incoming nack of an item and perform the
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// correct operations given the action indicated when nacking an item (e.g.
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// retransmitting or abandoning). The return value indicate if an action was
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// performed, meaning that packet loss was detected and acted upon. If
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// `do_fast_retransmit` is set and if the item has been nacked sufficiently
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// many times so that it should be retransmitted, this will schedule it to be
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// "fast retransmitted". This is only done just before going into fast
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// recovery.
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bool NackItem(UnwrappedTSN tsn,
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Item& item,
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bool retransmit_now,
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bool do_fast_retransmit);
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2022-03-11 16:49:54 +00:00
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// Given that a message fragment, `item` has been abandoned, abandon all other
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// fragments that share the same message - both never-before-sent fragments
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// that are still in the SendQueue and outstanding chunks.
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void AbandonAllFor(const OutstandingData::Item& item);
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2023-02-18 21:24:25 +00:00
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std::vector<std::pair<TSN, Data>> ExtractChunksThatCanFit(
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std::set<UnwrappedTSN>& chunks,
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size_t max_size);
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2022-03-11 16:49:54 +00:00
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bool IsConsistent() const;
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// The size of the data chunk (DATA/I-DATA) header that is used.
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const size_t data_chunk_header_size_;
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// Next TSN to used.
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UnwrappedTSN next_tsn_;
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// The last cumulative TSN ack number.
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UnwrappedTSN last_cumulative_tsn_ack_;
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// Callback when to discard items from the send queue.
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std::function<bool(IsUnordered, StreamID, MID)> discard_from_send_queue_;
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std::map<UnwrappedTSN, Item> outstanding_data_;
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// The number of bytes that are in-flight (sent but not yet acked or nacked).
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size_t outstanding_bytes_ = 0;
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// The number of DATA chunks that are in-flight (sent but not yet acked or
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// nacked).
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size_t outstanding_items_ = 0;
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2023-02-18 21:24:25 +00:00
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// Data chunks that are eligible for fast retransmission.
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std::set<UnwrappedTSN> to_be_fast_retransmitted_;
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2022-03-11 16:49:54 +00:00
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// Data chunks that are to be retransmitted.
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std::set<UnwrappedTSN> to_be_retransmitted_;
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};
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} // namespace dcsctp
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#endif // NET_DCSCTP_TX_OUTSTANDING_DATA_H_
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