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/* $KAME: sctp_structs.h,v 1.13 2005/03/06 16:04:18 itojun Exp $ */
/* $NetBSD: sctp_structs.h,v 1.3 2023/06/24 05:35:00 msaitoh Exp $ */
#ifndef __SCTP_STRUCTS_H__
#define __SCTP_STRUCTS_H__
/*
* Copyright (c) 2001, 2002, 2003, 2004 Cisco Systems, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Cisco Systems, Inc.
* 4. Neither the name of the project nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY CISCO SYSTEMS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL CISCO SYSTEMS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <sys/queue.h>
#include <sys/callout.h>
#ifdef IPSEC
#include <netipsec/ipsec.h>
#include <netipsec/key.h>
#endif
#include <netinet/sctp_header.h>
#include <netinet/sctp_uio.h>
struct sctp_timer {
struct callout timer;
int type;
/*
* Depending on the timer type these will be setup and cast with
* the appropriate entity.
*/
void *ep;
void *tcb;
void *net;
};
/*
* This is the information we track on each interface that we know about * from the distant end.
*/
TAILQ_HEAD(sctpnetlisthead, sctp_nets);
/*
* Users of the iterator need to malloc a iterator with a call to
* sctp_initiate_iterator(func, pcb_flags, asoc_state, void-ptr-arg, u_int32_t,
* u_int32-arg, end_func, inp);
*
* Use the following two defines if you don't care what pcb flags are on the
* EP and/or you don't care what state the association is in.
*
* Note that if you specify an INP as the last argument then ONLY each
* association of that single INP will be executed upon. Note that the
* pcb flags STILL apply so if the inp you specify has different pcb_flags
* then what you put in pcb_flags nothing will happen. use SCTP_PCB_ANY_FLAGS
* to assure the inp you specify gets treated.
*/
#define SCTP_PCB_ANY_FLAGS 0x00000000
#define SCTP_ASOC_ANY_STATE 0x00000000
typedef void (*asoc_func)(struct sctp_inpcb *, struct sctp_tcb *, void *ptr,
u_int32_t val);
typedef void (*end_func)(void *ptr, u_int32_t val);
#define SCTP_ITERATOR_DO_ALL_INP 0x00000001
#define SCTP_ITERATOR_DO_SINGLE_INP 0x00000002
struct sctp_iterator {
LIST_ENTRY(sctp_iterator) sctp_nxt_itr;
struct sctp_timer tmr;
struct sctp_inpcb *inp; /* ep */
struct sctp_tcb *stcb; /* assoc */
asoc_func function_toapply;
end_func function_atend;
void *pointer; /* pointer for apply func to use */
u_int32_t val; /* value for apply func to use */
u_int32_t pcb_flags;
u_int32_t asoc_state;
u_int32_t iterator_flags;
};
LIST_HEAD(sctpiterators, sctp_iterator);
struct sctp_copy_all {
struct sctp_inpcb *inp; /* ep */
struct mbuf *m;
struct sctp_sndrcvinfo sndrcv;
int sndlen;
int cnt_sent;
int cnt_failed;
};
union sctp_sockstore {
#ifdef AF_INET
struct sockaddr_in sin;
#endif
#ifdef AF_INET6
struct sockaddr_in6 sin6;
#endif
struct sockaddr sa;
};
struct sctp_nets {
TAILQ_ENTRY(sctp_nets) sctp_next; /* next link */
/* Things on the top half may be able to be split
* into a common structure shared by all.
*/
struct sctp_timer pmtu_timer;
/*
* The following two in combination equate to a route entry for
* v6 or v4.
*/
#if 0
struct sctp_route {
struct rtentry *ro_rt;
union sctp_sockstore _l_addr; /* remote peer addr */
union sctp_sockstore _s_addr; /* our selected src addr */
} ro;
#endif
struct route ro;
/* union sctp_sockstore _l_addr; */
union sctp_sockstore _s_addr;
/* mtu discovered so far */
u_int32_t mtu;
u_int32_t ssthresh; /* not sure about this one for split */
/* smoothed average things for RTT and RTO itself */
int lastsa;
int lastsv;
unsigned int RTO;
/* This is used for SHUTDOWN/SHUTDOWN-ACK/SEND or INIT timers */
struct sctp_timer rxt_timer;
/* last time in seconds I sent to it */
struct timeval last_sent_time;
int ref_count;
/* Congestion stats per destination */
/*
* flight size variables and such, sorry Vern, I could not avoid
* this if I wanted performance :>
*/
u_int32_t flight_size;
u_int32_t cwnd; /* actual cwnd */
u_int32_t prev_cwnd; /* cwnd before any processing */
u_int32_t partial_bytes_acked; /* in CA tracks when to incr a MTU */
/* tracking variables to avoid the aloc/free in sack processing */
unsigned int net_ack;
unsigned int net_ack2;
/*
* These only are valid if the primary dest_sstate holds the
* SCTP_ADDR_SWITCH_PRIMARY flag
*/
u_int32_t next_tsn_at_change;
u_int32_t heartbeat_random1;
u_int32_t heartbeat_random2;
/* if this guy is ok or not ... status */
u_int16_t dest_state;
/* number of transmit failures to down this guy */
u_int16_t failure_threshold;
/* error stats on destination */
u_int16_t error_count;
/* Flags that probably can be combined into dest_state */
u_int8_t rto_pending; /* is segment marked for RTO update ** if we split?*/
u_int8_t fast_retran_ip; /* fast retransmit in progress */
u_int8_t hb_responded;
u_int8_t cacc_saw_newack; /* CACC algorithm flag */
u_int8_t src_addr_selected; /* if we split we move */
u_int8_t indx_of_eligible_next_to_use;
u_int8_t addr_is_local; /* its a local address (if known) could move in split */
#ifdef SCTP_HIGH_SPEED
u_int8_t last_hs_used; /* index into the last HS table entry we used */
#endif
};
struct sctp_data_chunkrec {
u_int32_t TSN_seq; /* the TSN of this transmit */
u_int16_t stream_seq; /* the stream sequence number of this transmit */
u_int16_t stream_number; /* the stream number of this guy */
u_int32_t payloadtype;
u_int32_t context; /* from send */
/* ECN Nonce: Nonce Value for this chunk */
u_int8_t ect_nonce;
/* part of the Highest sacked algorithm to be able to
* stroke counts on ones that are FR'd.
*/
u_int32_t fast_retran_tsn; /* sending_seq at the time of FR */
struct timeval timetodrop; /* time we drop it from queue */
u_int8_t doing_fast_retransmit;
u_int8_t rcv_flags; /* flags pulled from data chunk on inbound
* for outbound holds sending flags.
*/
u_int8_t state_flags;
};
TAILQ_HEAD(sctpchunk_listhead, sctp_tmit_chunk);
#define CHUNK_FLAGS_FRAGMENT_OK 0x0001
struct sctp_tmit_chunk {
union {
struct sctp_data_chunkrec data;
int chunk_id;
} rec;
int32_t sent; /* the send status */
int32_t snd_count; /* number of times I sent */
u_int32_t flags; /* flags, such as FRAGMENT_OK */
u_int32_t send_size;
u_int32_t book_size;
u_int32_t mbcnt;
struct sctp_association *asoc; /* bp to asoc this belongs to */
struct timeval sent_rcv_time; /* filled in if RTT being calculated */
struct mbuf *data; /* pointer to mbuf chain of data */
struct sctp_nets *whoTo;
TAILQ_ENTRY(sctp_tmit_chunk) sctp_next; /* next link */
uint8_t do_rtt;
};
/*
* this struct contains info that is used to track inbound stream data
* and help with ordering.
*/
TAILQ_HEAD(sctpwheelunrel_listhead, sctp_stream_in);
struct sctp_stream_in {
struct sctpchunk_listhead inqueue;
TAILQ_ENTRY(sctp_stream_in) next_spoke;
uint16_t stream_no;
uint16_t last_sequence_delivered; /* used for re-order */
};
/* This struct is used to track the traffic on outbound streams */
TAILQ_HEAD(sctpwheel_listhead, sctp_stream_out);
struct sctp_stream_out {
struct sctpchunk_listhead outqueue;
TAILQ_ENTRY(sctp_stream_out) next_spoke; /* next link in wheel */
uint16_t stream_no;
uint16_t next_sequence_sent; /* next one I expect to send out */
};
/* used to keep track of the addresses yet to try to add/delete */
TAILQ_HEAD(sctp_asconf_addrhead, sctp_asconf_addr);
struct sctp_asconf_addr {
TAILQ_ENTRY(sctp_asconf_addr) next;
struct sctp_asconf_addr_param ap;
struct ifaddr *ifa; /* save the ifa for add/del ip */
uint8_t sent; /* has this been sent yet? */
};
/*
* Here we have information about each individual association that we
* track. We probably in production would be more dynamic. But for ease
* of implementation we will have a fixed array that we hunt for in a
* linear fashion.
*/
struct sctp_association {
/* association state */
int state;
/* queue of pending addrs to add/delete */
struct sctp_asconf_addrhead asconf_queue;
struct timeval time_entered; /* time we entered state */
struct timeval time_last_rcvd;
struct timeval time_last_sent;
struct timeval time_last_sat_advance;
struct sctp_sndrcvinfo def_send; /* default send parameters */
/* timers and such */
struct sctp_timer hb_timer; /* hb timer */
struct sctp_timer dack_timer; /* Delayed ack timer */
struct sctp_timer asconf_timer; /* Asconf */
struct sctp_timer strreset_timer; /* stream reset */
struct sctp_timer shut_guard_timer; /* guard */
struct sctp_timer autoclose_timer; /* automatic close timer */
struct sctp_timer delayed_event_timer; /* timer for delayed events */
/* list of local addresses when add/del in progress */
struct sctpladdr sctp_local_addr_list;
struct sctpnetlisthead nets;
/* Control chunk queue */
struct sctpchunk_listhead control_send_queue;
/* Once a TSN hits the wire it is moved to the sent_queue. We
* maintain two counts here (don't know if any but retran_cnt
* is needed). The idea is that the sent_queue_retran_cnt
* reflects how many chunks have been marked for retranmission
* by either T3-rxt or FR.
*/
struct sctpchunk_listhead sent_queue;
struct sctpchunk_listhead send_queue;
/* re-assembly queue for fragmented chunks on the inbound path */
struct sctpchunk_listhead reasmqueue;
/*
* this queue is used when we reach a condition that we can NOT
* put data into the socket buffer. We track the size of this
* queue and set our rwnd to the space in the socket minus also
* the size_on_delivery_queue.
*/
struct sctpchunk_listhead delivery_queue;
struct sctpwheel_listhead out_wheel;
/* If an iterator is looking at me, this is it */
struct sctp_iterator *stcb_starting_point_for_iterator;
/* ASCONF destination address last sent to */
struct sctp_nets *asconf_last_sent_to;
/* ASCONF save the last ASCONF-ACK so we can resend it if necessary */
struct mbuf *last_asconf_ack_sent;
/*
* if Source Address Selection happening, this will rotate through
* the link list.
*/
struct sctp_laddr *last_used_address;
/* stream arrays */
struct sctp_stream_in *strmin;
struct sctp_stream_out *strmout;
u_int8_t *mapping_array;
/* primary destination to use */
struct sctp_nets *primary_destination;
/* last place I got a data chunk from */
struct sctp_nets *last_data_chunk_from;
/* last place I got a control from */
struct sctp_nets *last_control_chunk_from;
/* circular looking for output selection */
struct sctp_stream_out *last_out_stream;
/* wait to the point the cum-ack passes
* pending_reply->sr_resp.reset_at_tsn.
*/
struct sctp_stream_reset_response *pending_reply;
struct sctpchunk_listhead pending_reply_queue;
u_int32_t cookie_preserve_req;
/* ASCONF next seq I am sending out, inits at init-tsn */
uint32_t asconf_seq_out;
/* ASCONF last received ASCONF from peer, starts at peer's TSN-1 */
uint32_t asconf_seq_in;
/* next seq I am sending in str reset messages */
uint32_t str_reset_seq_out;
/* next seq I am expecting in str reset messages */
uint32_t str_reset_seq_in;
u_int32_t str_reset_sending_seq;
/* various verification tag information */
u_int32_t my_vtag; /*
* The tag to be used. if assoc is
* re-initited by remote end, and
* I have unlocked this will be
* regenerated to a new random value.
*/
u_int32_t peer_vtag; /* The peers last tag */
u_int32_t my_vtag_nonce;
u_int32_t peer_vtag_nonce;
/* This is the SCTP fragmentation threshold */
u_int32_t smallest_mtu;
/*
* Special hook for Fast retransmit, allows us to track the highest
* TSN that is NEW in this SACK if gap ack blocks are present.
*/
u_int32_t this_sack_highest_gap;
/*
* The highest consecutive TSN that has been acked by peer on my
* sends
*/
u_int32_t last_acked_seq;
/* The next TSN that I will use in sending. */
u_int32_t sending_seq;
/* Original seq number I used ??questionable to keep?? */
u_int32_t init_seq_number;
/*
* We use this value to know if FR's are allowed, i.e. did the
* cum-ack pass this point or equal it so FR's are now allowed.
*/
u_int32_t t3timeout_highest_marked;
/* The Advanced Peer Ack Point, as required by the PR-SCTP */
/* (A1 in Section 4.2) */
u_int32_t advanced_peer_ack_point;
/*
* The highest consequetive TSN at the bottom of the mapping
* array (for his sends).
*/
u_int32_t cumulative_tsn;
/*
* Used to track the mapping array and its offset bits. This
* MAY be lower then cumulative_tsn.
*/
u_int32_t mapping_array_base_tsn;
/*
* used to track highest TSN we have received and is listed in
* the mapping array.
*/
u_int32_t highest_tsn_inside_map;
u_int32_t last_echo_tsn;
u_int32_t last_cwr_tsn;
u_int32_t fast_recovery_tsn;
u_int32_t sat_t3_recovery_tsn;
u_int32_t tsn_last_delivered;
/*
* window state information and smallest MTU that I use to bound
* segmentation
*/
u_int32_t peers_rwnd;
u_int32_t my_rwnd;
u_int32_t my_last_reported_rwnd;
u_int32_t my_rwnd_control_len;
u_int32_t total_output_queue_size;
u_int32_t total_output_mbuf_queue_size;
/* 32 bit nonce stuff */
u_int32_t nonce_resync_tsn;
u_int32_t nonce_wait_tsn;
int ctrl_queue_cnt; /* could be removed REM */
/*
* All outbound datagrams queue into this list from the
* individual stream queue. Here they get assigned a TSN
* and then await sending. The stream seq comes when it
* is first put in the individual str queue
*/
unsigned int stream_queue_cnt;
unsigned int send_queue_cnt;
unsigned int sent_queue_cnt;
unsigned int sent_queue_cnt_removeable;
/*
* Number on sent queue that are marked for retran until this
* value is 0 we only send one packet of retran'ed data.
*/
unsigned int sent_queue_retran_cnt;
unsigned int size_on_reasm_queue;
unsigned int cnt_on_reasm_queue;
/* amount of data (bytes) currently in flight (on all destinations) */
unsigned int total_flight;
/* Total book size in flight */
unsigned int total_flight_count; /* count of chunks used with book total */
/* count of destinaton nets and list of destination nets */
unsigned int numnets;
/* Total error count on this association */
unsigned int overall_error_count;
unsigned int size_on_delivery_queue;
unsigned int cnt_on_delivery_queue;
unsigned int cnt_msg_on_sb;
/* All stream count of chunks for delivery */
unsigned int size_on_all_streams;
unsigned int cnt_on_all_streams;
/* Heart Beat delay in ticks */
unsigned int heart_beat_delay;
/* autoclose */
unsigned int sctp_autoclose_ticks;
/* how many preopen streams we have */
unsigned int pre_open_streams;
/* How many streams I support coming into me */
unsigned int max_inbound_streams;
/* the cookie life I award for any cookie, in seconds */
unsigned int cookie_life;
unsigned int numduptsns;
int dup_tsns[SCTP_MAX_DUP_TSNS];
unsigned int initial_init_rto_max; /* initial RTO for INIT's */
unsigned int initial_rto; /* initial send RTO */
unsigned int minrto; /* per assoc RTO-MIN */
unsigned int maxrto; /* per assoc RTO-MAX */
/* Being that we have no bag to collect stale cookies, and
* that we really would not want to anyway.. we will count
* them in this counter. We of course feed them to the
* pigeons right away (I have always thought of pigeons
* as flying rats).
*/
u_int16_t stale_cookie_count;
/* For the partial delivery API, if up, invoked
* this is what last TSN I delivered
*/
u_int16_t str_of_pdapi;
u_int16_t ssn_of_pdapi;
/* counts of actual built streams. Allocation may be more however */
/* could re-arrange to optimize space here. */
u_int16_t streamincnt;
u_int16_t streamoutcnt;
/* my maximum number of retrans of INIT and SEND */
/* copied from SCTP but should be individually setable */
u_int16_t max_init_times;
u_int16_t max_send_times;
u_int16_t def_net_failure;
/*
* lock flag: 0 is ok to send, 1+ (duals as a retran count) is
* awaiting ACK
*/
u_int16_t asconf_sent; /* possibly removable REM */
u_int16_t mapping_array_size;
u_int16_t chunks_on_out_queue; /* total chunks floating around */
int16_t num_send_timers_up;
/*
* This flag indicates that we need to send the first SACK. If
* in place it says we have NOT yet sent a SACK and need to.
*/
u_int8_t first_ack_sent;
/* max burst after fast retransmit completes */
u_int8_t max_burst;
u_int8_t sat_network; /* RTT is in range of sat net or greater */
u_int8_t sat_network_lockout;/* lockout code */
u_int8_t burst_limit_applied; /* Burst limit in effect at last send? */
/* flag goes on when we are doing a partial delivery api */
u_int8_t hb_random_values[4];
u_int8_t fragmented_delivery_inprogress;
u_int8_t fragment_flags;
u_int8_t hb_ect_randombit;
u_int8_t hb_random_idx;
/* ECN Nonce stuff */
u_int8_t receiver_nonce_sum; /* nonce I sum and put in my sack */
u_int8_t ecn_nonce_allowed; /* Tells us if ECN nonce is on */
u_int8_t nonce_sum_check; /* On off switch used during re-sync */
u_int8_t nonce_wait_for_ecne;/* flag when we expect a ECN */
u_int8_t peer_supports_ecn_nonce;
/*
* This value, plus all other ack'd but above cum-ack is added
* together to cross check against the bit that we have yet to
* define (probably in the SACK).
* When the cum-ack is updated, this sum is updated as well.
*/
u_int8_t nonce_sum_expect_base;
/* Flag to tell if ECN is allowed */
u_int8_t ecn_allowed;
/* flag to indicate if peer can do asconf */
uint8_t peer_supports_asconf;
uint8_t peer_supports_asconf_setprim; /* possibly removable REM */
/* pr-sctp support flag */
uint8_t peer_supports_prsctp;
/* stream resets are supported by the peer */
uint8_t peer_supports_strreset;
/*
* packet drop's are supported by the peer, we don't really care
* about this but we bookkeep it anyway.
*/
uint8_t peer_supports_pktdrop;
/* Do we allow V6/V4? */
u_int8_t ipv4_addr_legal;
u_int8_t ipv6_addr_legal;
/* Address scoping flags */
/* scope value for IPv4 */
u_int8_t ipv4_local_scope;
/* scope values for IPv6 */
u_int8_t local_scope;
u_int8_t site_scope;
/* loopback scope */
u_int8_t loopback_scope;
/* flags to handle send alternate net tracking */
u_int8_t used_alt_onsack;
u_int8_t used_alt_asconfack;
u_int8_t fast_retran_loss_recovery;
u_int8_t sat_t3_loss_recovery;
u_int8_t dropped_special_cnt;
u_int8_t seen_a_sack_this_pkt;
u_int8_t stream_reset_outstanding;
u_int8_t delayed_connection;
u_int8_t ifp_had_enobuf;
u_int8_t saw_sack_with_frags;
/*
* The mapping array is used to track out of order sequences above
* last_acked_seq. 0 indicates packet missing 1 indicates packet
* rec'd. We slide it up every time we raise last_acked_seq and 0
* trailing locactions out. If I get a TSN above the array
* mappingArraySz, I discard the datagram and let retransmit happen.
*/
};
#endif
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