openssl/include/internal/quic_cc.h
Hugo Landau 878df9be67 QUIC CC: Use OSSL_PARAM
Reviewed-by: Tomas Mraz <tomas@openssl.org>
Reviewed-by: Matt Caswell <matt@openssl.org>
(Merged from https://github.com/openssl/openssl/pull/20423)
2023-05-01 11:03:54 +01:00

220 lines
8.2 KiB
C

/*
* Copyright 2022 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_CC_H
# define OSSL_QUIC_CC_H
#include "openssl/params.h"
#include "internal/time.h"
# ifndef OPENSSL_NO_QUIC
typedef struct ossl_cc_data_st OSSL_CC_DATA;
typedef struct ossl_cc_ack_info_st {
/* The time the packet being acknowledged was originally sent. */
OSSL_TIME tx_time;
/* The size in bytes of the packet being acknowledged. */
size_t tx_size;
} OSSL_CC_ACK_INFO;
typedef struct ossl_cc_loss_info_st {
/* The time the packet being lost was originally sent. */
OSSL_TIME tx_time;
/* The size in bytes of the packet which has been determined lost. */
size_t tx_size;
} OSSL_CC_LOSS_INFO;
typedef struct ossl_cc_ecn_info_st {
/*
* The time at which the largest acked PN (in the incoming ACK frame) was
* sent.
*/
OSSL_TIME largest_acked_time;
} OSSL_CC_ECN_INFO;
/* Parameter (read-write): Maximum datagram payload length in bytes. */
#define OSSL_CC_OPTION_MAX_DGRAM_PAYLOAD_LEN "max_dgram_payload_len"
/* Diagnostic (read-only): current congestion window size in bytes. */
#define OSSL_CC_OPTION_CUR_CWND_SIZE "cur_cwnd_size"
/* Diagnostic (read-only): minimum congestion window size in bytes. */
#define OSSL_CC_OPTION_MIN_CWND_SIZE "min_cwnd_size"
/* Diagnostic (read-only): current net bytes in flight. */
#define OSSL_CC_OPTION_CUR_BYTES_IN_FLIGHT "bytes_in_flight"
/* Diagnostic (read-only): method-specific state value. */
#define OSSL_CC_OPTION_CUR_STATE "cur_state"
/*
* Congestion control abstract interface.
*
* This interface is broadly based on the design described in RFC 9002. However,
* the demarcation between the ACKM and the congestion controller does not
* exactly match that delineated in the RFC 9002 psuedocode. Where aspects of
* the demarcation involve the congestion controller accessing internal state of
* the ACKM, the interface has been revised where possible to provide the
* information needed by the congestion controller and avoid needing to give the
* congestion controller access to the ACKM's internal data structures.
*
* Particular changes include:
*
* - In our implementation, it is the responsibility of the ACKM to determine
* if a loss event constitutes persistent congestion.
*
* - In our implementation, it is the responsibility of the ACKM to determine
* if the ECN-CE counter has increased. The congestion controller is simply
* informed when an ECN-CE event occurs.
*
* All of these changes are intended to avoid having a congestion controller
* have to access ACKM internal state.
*/
#define OSSL_CC_LOST_FLAG_PERSISTENT_CONGESTION (1U << 0)
typedef struct ossl_cc_method_st {
/*
* Instantiation.
*/
OSSL_CC_DATA *(*new)(OSSL_TIME (*now_cb)(void *arg),
void *now_cb_arg);
void (*free)(OSSL_CC_DATA *ccdata);
/*
* Reset of state.
*/
void (*reset)(OSSL_CC_DATA *ccdata);
/*
* Escape hatch for option configuration.
*
* params is an array of OSSL_PARAM structures.
*
* Returns 1 on success and 0 on failure.
*/
int (*set_input_params)(OSSL_CC_DATA *ccdata,
const OSSL_PARAM *params);
/*
* (Re)bind output (diagnostic) information.
*
* params is an array of OSSL_PARAM structures used to output values. The
* storage locations associated with each parameter are stored internally
* and updated whenever the state of the congestion controller is updated;
* thus, the storage locations associated with the OSSL_PARAMs passed in the
* call to this function must remain valid until the congestion controller
* is freed or those parameters are unbound. A given parameter name may be
* bound to only one location at a time. The params structures themselves
* do not need to remain allocated after this call returns.
*
* Returns 1 on success and 0 on failure.
*/
int (*bind_diagnostics)(OSSL_CC_DATA *ccdata,
OSSL_PARAM *params);
/*
* Unbind diagnostic information. The parameters with the given names are
* unbound, cancelling the effects of a previous call to bind_diagnostic().
* params is an array of OSSL_PARAMs. The values of the parameters are
* ignored. If a parameter is already unbound, there is no effect for that
* parameter but other parameters are still unbound.
*
* Returns 1 on success or 0 on failure.
*/
int (*unbind_diagnostics)(OSSL_CC_DATA *ccdata,
OSSL_PARAM *params);
/*
* Returns the amount of additional data (above and beyond the data
* currently in flight) which can be sent in bytes. Returns 0 if no more
* data can be sent at this time. The return value of this method
* can vary as time passes.
*/
uint64_t (*get_tx_allowance)(OSSL_CC_DATA *ccdata);
/*
* Returns the time at which the return value of get_tx_allowance might be
* higher than its current value. This is not a guarantee and spurious
* wakeups are allowed. Returns ossl_time_infinite() if there is no current
* wakeup deadline.
*/
OSSL_TIME (*get_wakeup_deadline)(OSSL_CC_DATA *ccdata);
/*
* The On Data Sent event. num_bytes should be the size of the packet in
* bytes (or the aggregate size of multiple packets which have just been
* sent).
*/
int (*on_data_sent)(OSSL_CC_DATA *ccdata,
uint64_t num_bytes);
/*
* The On Data Acked event. See OSSL_CC_ACK_INFO structure for details
* of the information to be passed.
*/
int (*on_data_acked)(OSSL_CC_DATA *ccdata,
const OSSL_CC_ACK_INFO *info);
/*
* The On Data Lost event. See OSSL_CC_LOSS_INFO structure for details
* of the information to be passed.
*
* Note: When the ACKM determines that a set of multiple packets has been
* lost, it is useful for a congestion control algorithm to be able to
* process this as a single loss event rather than multiple loss events.
* Thus, calling this function may cause the congestion controller to defer
* state updates under the assumption that subsequent calls to
* on_data_lost() representing further lost packets in the same loss event
* may be forthcoming. Always call on_data_lost_finished() after one or more
* calls to on_data_lost().
*/
int (*on_data_lost)(OSSL_CC_DATA *ccdata,
const OSSL_CC_LOSS_INFO *info);
/*
* To be called after a sequence of one or more on_data_lost() calls
* representing multiple packets in a single loss detection incident.
*
* Flags may be 0 or OSSL_CC_LOST_FLAG_PERSISTENT_CONGESTION.
*/
int (*on_data_lost_finished)(OSSL_CC_DATA *ccdata, uint32_t flags);
/*
* For use when a PN space is invalidated or a packet must otherwise be
* 'undone' for congestion control purposes without acting as a loss signal.
* Only the size of the packet is needed.
*/
int (*on_data_invalidated)(OSSL_CC_DATA *ccdata,
uint64_t num_bytes);
/*
* Called from the ACKM when detecting an increased ECN-CE value in an ACK
* frame. This indicates congestion.
*
* Note that this differs from the RFC's conceptual segregation of the loss
* detection and congestion controller functions, as in our implementation
* the ACKM is responsible for detecting increases to ECN-CE and simply
* tells the congestion controller when ECN-triggered congestion has
* occurred. This allows a slightly more efficient implementation and
* narrower interface between the ACKM and CC.
*/
int (*on_ecn)(OSSL_CC_DATA *ccdata,
const OSSL_CC_ECN_INFO *info);
} OSSL_CC_METHOD;
extern const OSSL_CC_METHOD ossl_cc_dummy_method;
extern const OSSL_CC_METHOD ossl_cc_newreno_method;
# endif
#endif