/* * Copyright 2022-2023 The OpenSSL Project Authors. All Rights Reserved. * * Licensed under the Apache License 2.0 (the "License"). You may not use * this file except in compliance with the License. You can obtain a copy * in the file LICENSE in the source distribution or at * https://www.openssl.org/source/license.html */ #ifndef OSSL_QUIC_ACKM_H # define OSSL_QUIC_ACKM_H # include "internal/quic_statm.h" # include "internal/quic_cc.h" # include "internal/quic_types.h" # include "internal/quic_wire.h" # include "internal/time.h" # include "internal/list.h" # ifndef OPENSSL_NO_QUIC typedef struct ossl_ackm_st OSSL_ACKM; OSSL_ACKM *ossl_ackm_new(OSSL_TIME (*now)(void *arg), void *now_arg, OSSL_STATM *statm, const OSSL_CC_METHOD *cc_method, OSSL_CC_DATA *cc_data); void ossl_ackm_free(OSSL_ACKM *ackm); void ossl_ackm_set_loss_detection_deadline_callback(OSSL_ACKM *ackm, void (*fn)(OSSL_TIME deadline, void *arg), void *arg); void ossl_ackm_set_ack_deadline_callback(OSSL_ACKM *ackm, void (*fn)(OSSL_TIME deadline, int pkt_space, void *arg), void *arg); /* * Configures the RX-side maximum ACK delay. This is the maximum amount of time * the peer is allowed to delay sending an ACK frame after receiving an * ACK-eliciting packet. The peer communicates this value via a transport * parameter and it must be provided to the ACKM. */ void ossl_ackm_set_rx_max_ack_delay(OSSL_ACKM *ackm, OSSL_TIME rx_max_ack_delay); /* * Configures the TX-side maximum ACK delay. This is the maximum amount of time * we are allowed to delay sending an ACK frame after receiving an ACK-eliciting * packet. Note that this cannot be changed after a connection is established as * it must be accurately reported in the transport parameters we send to our * peer. */ void ossl_ackm_set_tx_max_ack_delay(OSSL_ACKM *ackm, OSSL_TIME tx_max_ack_delay); typedef struct ossl_ackm_tx_pkt_st OSSL_ACKM_TX_PKT; struct ossl_ackm_tx_pkt_st { /* The packet number of the transmitted packet. */ QUIC_PN pkt_num; /* The number of bytes in the packet which was sent. */ size_t num_bytes; /* The time at which the packet was sent. */ OSSL_TIME time; /* * If the packet being described by this structure contains an ACK frame, * this must be set to the largest PN ACK'd by that frame. * * Otherwise, it should be set to QUIC_PN_INVALID. * * This is necessary to bound the number of PNs we have to keep track of on * the RX side (RFC 9000 s. 13.2.4). It allows older PN tracking information * on the RX side to be discarded. */ QUIC_PN largest_acked; /* * One of the QUIC_PN_SPACE_* values. This qualifies the pkt_num field * into a packet number space. */ unsigned int pkt_space :2; /* * 1 if the packet is in flight. A packet is considered 'in flight' if it is * counted for purposes of congestion control and 'bytes in flight' counts. * Most packets are considered in flight. The only circumstance where a * numbered packet is not considered in flight is if it contains only ACK * frames (not even PADDING frames), as these frames can bypass CC. */ unsigned int is_inflight :1; /* * 1 if the packet has one or more ACK-eliciting frames. * Note that if this is set, is_inflight must be set. */ unsigned int is_ack_eliciting :1; /* 1 if the packet is a PTO probe. */ unsigned int is_pto_probe :1; /* 1 if the packet is an MTU probe. */ unsigned int is_mtu_probe :1; /* Callback called if frames in this packet are lost. arg is cb_arg. */ void (*on_lost)(void *arg); /* Callback called if frames in this packet are acked. arg is cb_arg. */ void (*on_acked)(void *arg); /* * Callback called if frames in this packet are neither acked nor lost. arg * is cb_arg. */ void (*on_discarded)(void *arg); void *cb_arg; /* * (Internal use fields; must be zero-initialized.) * * Keep a TX history list, anext is used to manifest * a singly-linked list of newly-acknowledged packets, and lnext is used to * manifest a singly-linked list of newly lost packets. */ OSSL_LIST_MEMBER(tx_history, OSSL_ACKM_TX_PKT); struct ossl_ackm_tx_pkt_st *anext; struct ossl_ackm_tx_pkt_st *lnext; }; int ossl_ackm_on_tx_packet(OSSL_ACKM *ackm, OSSL_ACKM_TX_PKT *pkt); int ossl_ackm_on_rx_datagram(OSSL_ACKM *ackm, size_t num_bytes); # define OSSL_ACKM_ECN_NONE 0 # define OSSL_ACKM_ECN_ECT1 1 # define OSSL_ACKM_ECN_ECT0 2 # define OSSL_ACKM_ECN_ECNCE 3 typedef struct ossl_ackm_rx_pkt_st { /* The packet number of the received packet. */ QUIC_PN pkt_num; /* The time at which the packet was received. */ OSSL_TIME time; /* * One of the QUIC_PN_SPACE_* values. This qualifies the pkt_num field * into a packet number space. */ unsigned int pkt_space :2; /* 1 if the packet has one or more ACK-eliciting frames. */ unsigned int is_ack_eliciting :1; /* * One of the OSSL_ACKM_ECN_* values. This is the ECN labelling applied to * the received packet. If unknown, use OSSL_ACKM_ECN_NONE. */ unsigned int ecn :2; } OSSL_ACKM_RX_PKT; int ossl_ackm_on_rx_packet(OSSL_ACKM *ackm, const OSSL_ACKM_RX_PKT *pkt); int ossl_ackm_on_rx_ack_frame(OSSL_ACKM *ackm, const OSSL_QUIC_FRAME_ACK *ack, int pkt_space, OSSL_TIME rx_time); /* * Discards a PN space. This must be called for a PN space before freeing the * ACKM if you want in-flight packets to have their discarded callbacks called. * This should never be called in ordinary QUIC usage for the Application Data * PN space, but it may be called for the Application Data PN space prior to * freeing the ACKM to simplify teardown implementations. */ int ossl_ackm_on_pkt_space_discarded(OSSL_ACKM *ackm, int pkt_space); int ossl_ackm_on_handshake_confirmed(OSSL_ACKM *ackm); int ossl_ackm_on_timeout(OSSL_ACKM *ackm); OSSL_TIME ossl_ackm_get_loss_detection_deadline(OSSL_ACKM *ackm); /* * Generates an ACK frame, regardless of whether the ACK manager thinks * one should currently be sent. * * This clears the flag returned by ossl_ackm_is_ack_desired and the deadline * returned by ossl_ackm_get_ack_deadline. */ const OSSL_QUIC_FRAME_ACK *ossl_ackm_get_ack_frame(OSSL_ACKM *ackm, int pkt_space); /* * Returns the deadline after which an ACK frame should be generated by calling * ossl_ackm_get_ack_frame, or OSSL_TIME_INFINITY if no deadline is currently * applicable. If the deadline has already passed, this function may return that * deadline, or may return OSSL_TIME_ZERO. */ OSSL_TIME ossl_ackm_get_ack_deadline(OSSL_ACKM *ackm, int pkt_space); /* * Returns 1 if the ACK manager thinks an ACK frame ought to be generated and * sent at this time. ossl_ackm_get_ack_frame will always provide an ACK frame * whether or not this returns 1, so it is suggested that you call this function * first to determine whether you need to generate an ACK frame. * * The return value of this function can change based on calls to * ossl_ackm_on_rx_packet and based on the passage of time (see * ossl_ackm_get_ack_deadline). */ int ossl_ackm_is_ack_desired(OSSL_ACKM *ackm, int pkt_space); /* * Returns 1 if the given RX PN is 'processable'. A processable PN is one that * is not either * * - duplicate, meaning that we have already been passed such a PN in a call * to ossl_ackm_on_rx_packet; or * * - written off, meaning that the PN is so old we have stopped tracking state * for it (meaning that we cannot tell whether it is a duplicate and cannot * process it safely). * * This should be called for a packet before attempting to process its contents. * Failure to do so may result in processing a duplicated packet in violation of * the RFC. * * The return value of this function transitions from 1 to 0 for a given PN once * that PN is passed to ossl_ackm_on_rx_packet, thus thus function must be used * before calling ossl_ackm_on_rx_packet. */ int ossl_ackm_is_rx_pn_processable(OSSL_ACKM *ackm, QUIC_PN pn, int pkt_space); typedef struct ossl_ackm_probe_info_st { /* * The following two probe request types are used only for anti-deadlock * purposes in relation to the anti-amplification logic, by generating * packets to buy ourselves more anti-amplification credit with the server * until a client address is verified. Note that like all Initial packets, * any Initial probes are padded. * * Note: The ACKM will only ever increase these by one at a time, * as only one probe packet should be generated for these cases. */ uint32_t anti_deadlock_initial, anti_deadlock_handshake; /* * Send an ACK-eliciting packet for each count here. * * Note: The ACKM may increase this by either one or two for each probe * request, depending on how many probe packets it thinks should be * generated. */ uint32_t pto[QUIC_PN_SPACE_NUM]; } OSSL_ACKM_PROBE_INFO; /* * Returns a pointer to a structure counting any pending probe requests which * have been generated by the ACKM. The fields in the structure are incremented * by one every time the ACKM wants another probe of the given type to be sent. * If the ACKM thinks two packets should be generated for a probe, it will * increment the field twice. * * It is permissible for the caller to decrement or zero these fields to keep * track of when it has generated a probe as asked. The returned structure * has the same lifetime as the ACKM. * * This function should be called after calling e.g. ossl_ackm_on_timeout * to determine if any probe requests have been generated. */ OSSL_ACKM_PROBE_INFO *ossl_ackm_get0_probe_request(OSSL_ACKM *ackm); int ossl_ackm_get_largest_unacked(OSSL_ACKM *ackm, int pkt_space, QUIC_PN *pn); /* * Forces the ACKM to consider a packet with the given PN in the given PN space * as having been pseudo-lost. The main reason to use this is during a Retry, to * force any resources sent in the first Initial packet to be resent. * * The lost callback is called for the packet, but the packet is NOT considered * lost for congestion control purposes. Thus this is not exactly the same as a * true loss situation. */ int ossl_ackm_mark_packet_pseudo_lost(OSSL_ACKM *ackm, int pkt_space, QUIC_PN pn); /* * Returns the PTO duration as currently calculated. This is a quantity of time. * This duration is used in various parts of QUIC besides the ACKM. */ OSSL_TIME ossl_ackm_get_pto_duration(OSSL_ACKM *ackm); /* Returns the largest acked PN in the given PN space. */ QUIC_PN ossl_ackm_get_largest_acked(OSSL_ACKM *ackm, int pkt_space); # endif #endif