route.h revision 1.78
1 1.78 matt /* $NetBSD: route.h,v 1.78 2011/02/01 01:39:20 matt Exp $ */ 2 1.6 cgd 3 1.1 cgd /* 4 1.4 mycroft * Copyright (c) 1980, 1986, 1993 5 1.4 mycroft * The Regents of the University of California. All rights reserved. 6 1.1 cgd * 7 1.1 cgd * Redistribution and use in source and binary forms, with or without 8 1.1 cgd * modification, are permitted provided that the following conditions 9 1.1 cgd * are met: 10 1.1 cgd * 1. Redistributions of source code must retain the above copyright 11 1.1 cgd * notice, this list of conditions and the following disclaimer. 12 1.1 cgd * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 cgd * notice, this list of conditions and the following disclaimer in the 14 1.1 cgd * documentation and/or other materials provided with the distribution. 15 1.36 agc * 3. Neither the name of the University nor the names of its contributors 16 1.1 cgd * may be used to endorse or promote products derived from this software 17 1.1 cgd * without specific prior written permission. 18 1.1 cgd * 19 1.1 cgd * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 20 1.1 cgd * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 21 1.1 cgd * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 22 1.1 cgd * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 23 1.1 cgd * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 24 1.1 cgd * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 25 1.1 cgd * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 26 1.1 cgd * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 27 1.1 cgd * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 28 1.1 cgd * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 29 1.1 cgd * SUCH DAMAGE. 30 1.1 cgd * 31 1.11 christos * @(#)route.h 8.5 (Berkeley) 2/8/95 32 1.1 cgd */ 33 1.1 cgd 34 1.11 christos #ifndef _NET_ROUTE_H_ 35 1.11 christos #define _NET_ROUTE_H_ 36 1.13 thorpej 37 1.13 thorpej #include <sys/queue.h> 38 1.14 thorpej #include <sys/socket.h> 39 1.44 dyoung #include <sys/types.h> 40 1.44 dyoung #include <net/if.h> 41 1.13 thorpej 42 1.68 simonb #if !(defined(_KERNEL) || defined(_STANDALONE)) 43 1.67 dyoung #include <stdbool.h> 44 1.67 dyoung #endif 45 1.67 dyoung 46 1.1 cgd /* 47 1.1 cgd * Kernel resident routing tables. 48 1.39 perry * 49 1.1 cgd * The routing tables are initialized when interface addresses 50 1.1 cgd * are set by making entries for all directly connected interfaces. 51 1.1 cgd */ 52 1.1 cgd 53 1.1 cgd /* 54 1.67 dyoung * A route consists of a destination address and a reference 55 1.67 dyoung * to a routing entry. These are often held by protocols 56 1.67 dyoung * in their control blocks, e.g. inpcb. 57 1.67 dyoung */ 58 1.67 dyoung struct route { 59 1.67 dyoung struct rtentry *_ro_rt; 60 1.67 dyoung struct sockaddr *ro_sa; 61 1.67 dyoung LIST_ENTRY(route) ro_rtcache_next; 62 1.67 dyoung bool ro_invalid; 63 1.67 dyoung }; 64 1.67 dyoung 65 1.67 dyoung /* 66 1.1 cgd * These numbers are used by reliable protocols for determining 67 1.1 cgd * retransmission behavior and are included in the routing structure. 68 1.1 cgd */ 69 1.1 cgd struct rt_metrics { 70 1.78 matt uint64_t rmx_locks; /* Kernel must leave these values alone */ 71 1.78 matt uint64_t rmx_mtu; /* MTU for this path */ 72 1.78 matt uint64_t rmx_hopcount; /* max hops expected */ 73 1.78 matt uint64_t rmx_recvpipe; /* inbound delay-bandwidth product */ 74 1.78 matt uint64_t rmx_sendpipe; /* outbound delay-bandwidth product */ 75 1.78 matt uint64_t rmx_ssthresh; /* outbound gateway buffer limit */ 76 1.78 matt uint64_t rmx_rtt; /* estimated round trip time */ 77 1.78 matt uint64_t rmx_rttvar; /* estimated rtt variance */ 78 1.72 christos time_t rmx_expire; /* lifetime for route, e.g. redirect */ 79 1.72 christos time_t rmx_pksent; /* packets sent using this route */ 80 1.72 christos }; 81 1.72 christos 82 1.1 cgd /* 83 1.1 cgd * rmx_rtt and rmx_rttvar are stored as microseconds; 84 1.1 cgd * RTTTOPRHZ(rtt) converts to a value suitable for use 85 1.1 cgd * by a protocol slowtimo counter. 86 1.1 cgd */ 87 1.1 cgd #define RTM_RTTUNIT 1000000 /* units for rtt, rttvar, as units per sec */ 88 1.1 cgd #define RTTTOPRHZ(r) ((r) / (RTM_RTTUNIT / PR_SLOWHZ)) 89 1.1 cgd 90 1.1 cgd /* 91 1.1 cgd * We distinguish between routes to hosts and routes to networks, 92 1.1 cgd * preferring the former if available. For each route we infer 93 1.1 cgd * the interface to use from the gateway address supplied when 94 1.1 cgd * the route was entered. Routes that forward packets through 95 1.1 cgd * gateways are marked so that the output routines know to address the 96 1.1 cgd * gateway rather than the ultimate destination. 97 1.1 cgd */ 98 1.1 cgd #ifndef RNF_NORMAL 99 1.4 mycroft #include <net/radix.h> 100 1.1 cgd #endif 101 1.1 cgd struct rtentry { 102 1.1 cgd struct radix_node rt_nodes[2]; /* tree glue, and other values */ 103 1.57 dyoung #define rt_mask(r) ((const struct sockaddr *)((r)->rt_nodes->rn_mask)) 104 1.1 cgd struct sockaddr *rt_gateway; /* value */ 105 1.22 ragge int rt_flags; /* up/down?, host/net */ 106 1.22 ragge int rt_refcnt; /* # held references */ 107 1.78 matt uint64_t rt_use; /* raw # packets forwarded */ 108 1.1 cgd struct ifnet *rt_ifp; /* the answer: interface to use */ 109 1.1 cgd struct ifaddr *rt_ifa; /* the answer: interface to use */ 110 1.44 dyoung uint32_t rt_ifa_seqno; 111 1.52 christos void * rt_llinfo; /* pointer to link level info cache */ 112 1.78 matt struct rt_metrics rt_rmx; /* metrics used by rx'ing protocols */ 113 1.4 mycroft struct rtentry *rt_gwroute; /* implied entry for gatewayed routes */ 114 1.12 kml LIST_HEAD(, rttimer) rt_timer; /* queue of timeouts for misc funcs */ 115 1.26 itojun struct rtentry *rt_parent; /* parent of cloned route */ 116 1.75 kefren struct sockaddr *_rt_key; 117 1.75 kefren struct sockaddr *rt_tag; /* route tagging info */ 118 1.1 cgd }; 119 1.1 cgd 120 1.57 dyoung static inline const struct sockaddr * 121 1.57 dyoung rt_getkey(const struct rtentry *rt) 122 1.57 dyoung { 123 1.57 dyoung return rt->_rt_key; 124 1.57 dyoung } 125 1.57 dyoung 126 1.1 cgd /* 127 1.1 cgd * Following structure necessary for 4.3 compatibility; 128 1.1 cgd * We should eventually move it to a compat file. 129 1.1 cgd */ 130 1.1 cgd struct ortentry { 131 1.69 matt uint32_t rt_hash; /* to speed lookups */ 132 1.11 christos struct sockaddr rt_dst; /* key */ 133 1.11 christos struct sockaddr rt_gateway; /* value */ 134 1.11 christos int16_t rt_flags; /* up/down?, host/net */ 135 1.11 christos int16_t rt_refcnt; /* # held references */ 136 1.69 matt uint32_t rt_use; /* raw # packets forwarded */ 137 1.11 christos struct ifnet *rt_ifp; /* the answer: interface to use */ 138 1.1 cgd }; 139 1.1 cgd 140 1.4 mycroft #define RTF_UP 0x1 /* route usable */ 141 1.1 cgd #define RTF_GATEWAY 0x2 /* destination is a gateway */ 142 1.1 cgd #define RTF_HOST 0x4 /* host entry (net otherwise) */ 143 1.1 cgd #define RTF_REJECT 0x8 /* host or net unreachable */ 144 1.1 cgd #define RTF_DYNAMIC 0x10 /* created dynamically (by redirect) */ 145 1.1 cgd #define RTF_MODIFIED 0x20 /* modified dynamically (by redirect) */ 146 1.1 cgd #define RTF_DONE 0x40 /* message confirmed */ 147 1.1 cgd #define RTF_MASK 0x80 /* subnet mask present */ 148 1.1 cgd #define RTF_CLONING 0x100 /* generate new routes on use */ 149 1.1 cgd #define RTF_XRESOLVE 0x200 /* external daemon resolves name */ 150 1.1 cgd #define RTF_LLINFO 0x400 /* generated by ARP or ESIS */ 151 1.4 mycroft #define RTF_STATIC 0x800 /* manually added */ 152 1.4 mycroft #define RTF_BLACKHOLE 0x1000 /* just discard pkts (during updates) */ 153 1.25 itojun #define RTF_CLONED 0x2000 /* this is a cloned route */ 154 1.1 cgd #define RTF_PROTO2 0x4000 /* protocol specific routing flag */ 155 1.1 cgd #define RTF_PROTO1 0x8000 /* protocol specific routing flag */ 156 1.44 dyoung #define RTF_SRC 0x10000 /* route has fixed source address */ 157 1.1 cgd 158 1.1 cgd 159 1.1 cgd /* 160 1.1 cgd * Routing statistics. 161 1.1 cgd */ 162 1.1 cgd struct rtstat { 163 1.74 dyoung uint64_t rts_badredirect; /* bogus redirect calls */ 164 1.74 dyoung uint64_t rts_dynamic; /* routes created by redirects */ 165 1.74 dyoung uint64_t rts_newgateway; /* routes modified by redirects */ 166 1.74 dyoung uint64_t rts_unreach; /* lookups which failed */ 167 1.74 dyoung uint64_t rts_wildcard; /* lookups satisfied by a wildcard */ 168 1.1 cgd }; 169 1.78 matt 170 1.1 cgd /* 171 1.78 matt * Structures for routing messages. By forcing the first member to be aligned 172 1.78 matt * at a 64-bit boundary, we also force the size to be a multiple of 64-bits. 173 1.1 cgd */ 174 1.78 matt 175 1.78 matt #if !defined(_KERNEL) || !defined(COMPAT_RTSOCK) 176 1.78 matt /* 177 1.78 matt * If we aren't being compiled for backwards compatiblity, enforce 64-bit 178 1.78 matt * alignment so any routing message is the same regardless if the kernel 179 1.78 matt * is an ILP32 or LP64 kernel. 180 1.78 matt */ 181 1.78 matt #define __align64 __aligned(sizeof(uint64_t)) 182 1.78 matt #else 183 1.78 matt #define __align64 184 1.78 matt #endif 185 1.78 matt 186 1.1 cgd struct rt_msghdr { 187 1.78 matt u_short rtm_msglen __align64; 188 1.78 matt /* to skip over non-understood messages */ 189 1.4 mycroft u_char rtm_version; /* future binary compatibility */ 190 1.1 cgd u_char rtm_type; /* message type */ 191 1.1 cgd u_short rtm_index; /* index for associated ifp */ 192 1.4 mycroft int rtm_flags; /* flags, incl. kern & message, e.g. DONE */ 193 1.4 mycroft int rtm_addrs; /* bitmask identifying sockaddrs in msg */ 194 1.1 cgd pid_t rtm_pid; /* identify sender */ 195 1.1 cgd int rtm_seq; /* for sender to identify action */ 196 1.1 cgd int rtm_errno; /* why failed */ 197 1.1 cgd int rtm_use; /* from rtentry */ 198 1.78 matt int rtm_inits; /* which metrics we are initializing */ 199 1.78 matt struct rt_metrics rtm_rmx __align64; 200 1.78 matt /* metrics themselves */ 201 1.1 cgd }; 202 1.1 cgd 203 1.78 matt #undef __align64 204 1.78 matt 205 1.78 matt #define RTM_VERSION 4 /* Up the ante and ignore older versions */ 206 1.1 cgd 207 1.1 cgd #define RTM_ADD 0x1 /* Add Route */ 208 1.1 cgd #define RTM_DELETE 0x2 /* Delete Route */ 209 1.1 cgd #define RTM_CHANGE 0x3 /* Change Metrics or flags */ 210 1.1 cgd #define RTM_GET 0x4 /* Report Metrics */ 211 1.1 cgd #define RTM_LOSING 0x5 /* Kernel Suspects Partitioning */ 212 1.1 cgd #define RTM_REDIRECT 0x6 /* Told to use different route */ 213 1.1 cgd #define RTM_MISS 0x7 /* Lookup failed on this address */ 214 1.1 cgd #define RTM_LOCK 0x8 /* fix specified metrics */ 215 1.1 cgd #define RTM_OLDADD 0x9 /* caused by SIOCADDRT */ 216 1.1 cgd #define RTM_OLDDEL 0xa /* caused by SIOCDELRT */ 217 1.1 cgd #define RTM_RESOLVE 0xb /* req to resolve dst to LL addr */ 218 1.4 mycroft #define RTM_NEWADDR 0xc /* address being added to iface */ 219 1.4 mycroft #define RTM_DELADDR 0xd /* address being removed from iface */ 220 1.72 christos #define RTM_OOIFINFO 0xe /* Old (pre-1.5) RTM_IFINFO message */ 221 1.78 matt #define RTM_OIFINFO 0xf /* Old (pre-64bit time) RTM_IFINFO message */ 222 1.21 thorpej #define RTM_IFANNOUNCE 0x10 /* iface arrival/departure */ 223 1.41 dyoung #define RTM_IEEE80211 0x11 /* IEEE80211 wireless event */ 224 1.58 dyoung #define RTM_SETGATE 0x12 /* set prototype gateway for clones 225 1.58 dyoung * (see example in arp_rtrequest). 226 1.58 dyoung */ 227 1.71 dyoung #define RTM_LLINFO_UPD 0x13 /* indication to ARP/NDP/etc. that link-layer 228 1.71 dyoung * address has changed 229 1.71 dyoung */ 230 1.72 christos #define RTM_IFINFO 0x14 /* iface/link going up/down etc. */ 231 1.77 dyoung #define RTM_CHGADDR 0x15 /* address properties changed */ 232 1.1 cgd 233 1.1 cgd #define RTV_MTU 0x1 /* init or lock _mtu */ 234 1.1 cgd #define RTV_HOPCOUNT 0x2 /* init or lock _hopcount */ 235 1.28 enami #define RTV_EXPIRE 0x4 /* init or lock _expire */ 236 1.1 cgd #define RTV_RPIPE 0x8 /* init or lock _recvpipe */ 237 1.1 cgd #define RTV_SPIPE 0x10 /* init or lock _sendpipe */ 238 1.1 cgd #define RTV_SSTHRESH 0x20 /* init or lock _ssthresh */ 239 1.1 cgd #define RTV_RTT 0x40 /* init or lock _rtt */ 240 1.1 cgd #define RTV_RTTVAR 0x80 /* init or lock _rttvar */ 241 1.1 cgd 242 1.4 mycroft /* 243 1.4 mycroft * Bitmask values for rtm_addr. 244 1.4 mycroft */ 245 1.1 cgd #define RTA_DST 0x1 /* destination sockaddr present */ 246 1.1 cgd #define RTA_GATEWAY 0x2 /* gateway sockaddr present */ 247 1.1 cgd #define RTA_NETMASK 0x4 /* netmask sockaddr present */ 248 1.1 cgd #define RTA_GENMASK 0x8 /* cloning mask sockaddr present */ 249 1.1 cgd #define RTA_IFP 0x10 /* interface name sockaddr present */ 250 1.1 cgd #define RTA_IFA 0x20 /* interface addr sockaddr present */ 251 1.1 cgd #define RTA_AUTHOR 0x40 /* sockaddr for author of redirect */ 252 1.4 mycroft #define RTA_BRD 0x80 /* for NEWADDR, broadcast or p-p dest addr */ 253 1.75 kefren #define RTA_TAG 0x100 /* route tag */ 254 1.4 mycroft 255 1.4 mycroft /* 256 1.4 mycroft * Index offsets for sockaddr array for alternate internal encoding. 257 1.4 mycroft */ 258 1.4 mycroft #define RTAX_DST 0 /* destination sockaddr present */ 259 1.4 mycroft #define RTAX_GATEWAY 1 /* gateway sockaddr present */ 260 1.4 mycroft #define RTAX_NETMASK 2 /* netmask sockaddr present */ 261 1.4 mycroft #define RTAX_GENMASK 3 /* cloning mask sockaddr present */ 262 1.4 mycroft #define RTAX_IFP 4 /* interface name sockaddr present */ 263 1.4 mycroft #define RTAX_IFA 5 /* interface addr sockaddr present */ 264 1.4 mycroft #define RTAX_AUTHOR 6 /* sockaddr for author of redirect */ 265 1.4 mycroft #define RTAX_BRD 7 /* for NEWADDR, broadcast or p-p dest addr */ 266 1.75 kefren #define RTAX_TAG 8 /* route tag */ 267 1.75 kefren #define RTAX_MAX 9 /* size of array to allocate */ 268 1.4 mycroft 269 1.78 matt #define RT_ROUNDUP2(a, n) ((a) > 0 ? (1 + (((a) - 1) | ((n) - 1))) : (n)) 270 1.78 matt #define RT_ROUNDUP(a) RT_ROUNDUP2((a), sizeof(uint64_t)) 271 1.78 matt #define RT_ADVANCE(x, n) (x += RT_ROUNDUP((n)->sa_len)) 272 1.73 christos 273 1.4 mycroft struct rt_addrinfo { 274 1.4 mycroft int rti_addrs; 275 1.37 matt const struct sockaddr *rti_info[RTAX_MAX]; 276 1.24 itojun int rti_flags; 277 1.24 itojun struct ifaddr *rti_ifa; 278 1.24 itojun struct ifnet *rti_ifp; 279 1.4 mycroft }; 280 1.1 cgd 281 1.4 mycroft struct route_cb { 282 1.4 mycroft int ip_count; 283 1.18 itojun int ip6_count; 284 1.4 mycroft int iso_count; 285 1.75 kefren int mpls_count; 286 1.4 mycroft int any_count; 287 1.4 mycroft }; 288 1.1 cgd 289 1.39 perry /* 290 1.12 kml * This structure, and the prototypes for the rt_timer_{init,remove_all, 291 1.12 kml * add,timer} functions all used with the kind permission of BSDI. 292 1.12 kml * These allow functions to be called for routes at specific times. 293 1.12 kml */ 294 1.12 kml 295 1.12 kml struct rttimer { 296 1.17 thorpej TAILQ_ENTRY(rttimer) rtt_next; /* entry on timer queue */ 297 1.17 thorpej LIST_ENTRY(rttimer) rtt_link; /* multiple timers per rtentry */ 298 1.38 matt struct rttimer_queue *rtt_queue; /* back pointer to queue */ 299 1.38 matt struct rtentry *rtt_rt; /* Back pointer to the route */ 300 1.38 matt void (*rtt_func)(struct rtentry *, struct rttimer *); 301 1.38 matt time_t rtt_time; /* When this timer was registered */ 302 1.12 kml }; 303 1.12 kml 304 1.12 kml struct rttimer_queue { 305 1.12 kml long rtq_timeout; 306 1.23 itojun unsigned long rtq_count; 307 1.17 thorpej TAILQ_HEAD(, rttimer) rtq_head; 308 1.12 kml LIST_ENTRY(rttimer_queue) rtq_link; 309 1.17 thorpej }; 310 1.12 kml 311 1.12 kml 312 1.8 jtc #ifdef _KERNEL 313 1.72 christos 314 1.72 christos struct rt_walkarg { 315 1.72 christos int w_op; 316 1.72 christos int w_arg; 317 1.72 christos int w_given; 318 1.72 christos int w_needed; 319 1.72 christos void * w_where; 320 1.72 christos int w_tmemsize; 321 1.72 christos int w_tmemneeded; 322 1.72 christos void * w_tmem; 323 1.72 christos }; 324 1.72 christos 325 1.57 dyoung #if 0 326 1.57 dyoung #define RT_DPRINTF(__fmt, ...) do { } while (/*CONSTCOND*/0) 327 1.57 dyoung #else 328 1.57 dyoung #define RT_DPRINTF(__fmt, ...) /* do nothing */ 329 1.57 dyoung #endif 330 1.57 dyoung 331 1.56 dyoung struct rtwalk { 332 1.56 dyoung int (*rw_f)(struct rtentry *, void *); 333 1.56 dyoung void *rw_v; 334 1.56 dyoung }; 335 1.78 matt 336 1.78 matt /* 337 1.78 matt * Global data specific to the routing socket. 338 1.78 matt */ 339 1.78 matt struct route_info { 340 1.78 matt struct sockaddr ri_dst; 341 1.78 matt struct sockaddr ri_src; 342 1.78 matt struct route_cb ri_cb; 343 1.78 matt int ri_maxqlen; 344 1.78 matt struct ifqueue ri_intrq; 345 1.78 matt void *ri_sih; 346 1.78 matt }; 347 1.78 matt 348 1.78 matt extern struct route_info route_info; 349 1.29 matt extern struct rtstat rtstat; 350 1.29 matt extern struct radix_node_head *rt_tables[AF_MAX+1]; 351 1.4 mycroft 352 1.11 christos struct socket; 353 1.65 dyoung struct dom_rtlist; 354 1.11 christos 355 1.70 ad void rt_init(void); 356 1.38 matt void rt_ifannouncemsg(struct ifnet *, int); 357 1.41 dyoung void rt_ieee80211msg(struct ifnet *, int, void *, size_t); 358 1.38 matt void rt_ifmsg(struct ifnet *); 359 1.78 matt void rt_missmsg(int, const struct rt_addrinfo *, int, int); 360 1.78 matt struct mbuf *rt_msg1(int, struct rt_addrinfo *, void *, int); 361 1.78 matt void rt_newaddrmsg(int, struct ifaddr *, int, struct rtentry *); 362 1.78 matt 363 1.38 matt void rt_maskedcopy(const struct sockaddr *, 364 1.38 matt struct sockaddr *, const struct sockaddr *); 365 1.57 dyoung int rt_setgate(struct rtentry *, const struct sockaddr *); 366 1.38 matt int rt_timer_add(struct rtentry *, 367 1.12 kml void(*)(struct rtentry *, struct rttimer *), 368 1.38 matt struct rttimer_queue *); 369 1.38 matt void rt_timer_init(void); 370 1.12 kml struct rttimer_queue * 371 1.38 matt rt_timer_queue_create(u_int); 372 1.38 matt void rt_timer_queue_change(struct rttimer_queue *, long); 373 1.38 matt void rt_timer_queue_remove_all(struct rttimer_queue *, int); 374 1.38 matt void rt_timer_queue_destroy(struct rttimer_queue *, int); 375 1.38 matt void rt_timer_remove_all(struct rtentry *, int); 376 1.38 matt unsigned long rt_timer_count(struct rttimer_queue *); 377 1.38 matt void rt_timer_timer(void *); 378 1.38 matt void rtable_init(void **); 379 1.48 dyoung void rtcache(struct route *); 380 1.48 dyoung void rtflushall(int); 381 1.4 mycroft struct rtentry * 382 1.38 matt rtalloc1(const struct sockaddr *, int); 383 1.38 matt void rtfree(struct rtentry *); 384 1.38 matt int rt_getifa(struct rt_addrinfo *); 385 1.38 matt int rtinit(struct ifaddr *, int, int); 386 1.52 christos int rtioctl(u_long, void *, struct lwp *); 387 1.38 matt void rtredirect(const struct sockaddr *, const struct sockaddr *, 388 1.37 matt const struct sockaddr *, int, const struct sockaddr *, 389 1.38 matt struct rtentry **); 390 1.38 matt int rtrequest(int, const struct sockaddr *, 391 1.37 matt const struct sockaddr *, const struct sockaddr *, int, 392 1.38 matt struct rtentry **); 393 1.38 matt int rtrequest1(int, struct rt_addrinfo *, struct rtentry **); 394 1.44 dyoung 395 1.49 joerg struct ifaddr *rt_get_ifa(struct rtentry *); 396 1.49 joerg void rt_replace_ifa(struct rtentry *, struct ifaddr *); 397 1.49 joerg 398 1.75 kefren const struct sockaddr *rt_settag(struct rtentry *, const struct sockaddr *); 399 1.75 kefren struct sockaddr *rt_gettag(struct rtentry *); 400 1.75 kefren 401 1.57 dyoung static inline void 402 1.57 dyoung rt_destroy(struct rtentry *rt) 403 1.57 dyoung { 404 1.57 dyoung if (rt->_rt_key != NULL) 405 1.57 dyoung sockaddr_free(rt->_rt_key); 406 1.57 dyoung if (rt->rt_gateway != NULL) 407 1.57 dyoung sockaddr_free(rt->rt_gateway); 408 1.75 kefren if (rt_gettag(rt) != NULL) 409 1.75 kefren sockaddr_free(rt_gettag(rt)); 410 1.75 kefren rt->_rt_key = rt->rt_gateway = rt->rt_tag = NULL; 411 1.57 dyoung } 412 1.57 dyoung 413 1.57 dyoung static inline const struct sockaddr * 414 1.57 dyoung rt_setkey(struct rtentry *rt, const struct sockaddr *key, int flags) 415 1.57 dyoung { 416 1.57 dyoung if (rt->_rt_key == key) 417 1.57 dyoung goto out; 418 1.57 dyoung 419 1.57 dyoung if (rt->_rt_key != NULL) 420 1.57 dyoung sockaddr_free(rt->_rt_key); 421 1.57 dyoung rt->_rt_key = sockaddr_dup(key, flags); 422 1.57 dyoung out: 423 1.57 dyoung KASSERT(rt->_rt_key != NULL); 424 1.57 dyoung rt->rt_nodes->rn_key = (const char *)rt->_rt_key; 425 1.57 dyoung return rt->_rt_key; 426 1.57 dyoung } 427 1.57 dyoung 428 1.49 joerg struct rtentry *rtfindparent(struct radix_node_head *, struct route *); 429 1.49 joerg 430 1.61 dyoung struct rtentry *rtcache_init(struct route *); 431 1.61 dyoung struct rtentry *rtcache_init_noclone(struct route *); 432 1.54 dyoung void rtcache_copy(struct route *, const struct route *); 433 1.65 dyoung void rtcache_invalidate(struct dom_rtlist *); 434 1.50 joerg 435 1.55 dyoung struct rtentry *rtcache_lookup2(struct route *, const struct sockaddr *, int, 436 1.55 dyoung int *); 437 1.53 xtraeme void rtcache_clear(struct route *); 438 1.61 dyoung struct rtentry *rtcache_update(struct route *, int); 439 1.49 joerg void rtcache_free(struct route *); 440 1.54 dyoung int rtcache_setdst(struct route *, const struct sockaddr *); 441 1.49 joerg 442 1.71 dyoung static inline void 443 1.71 dyoung rtcache_invariants(const struct route *ro) 444 1.71 dyoung { 445 1.71 dyoung KASSERT(ro->ro_sa != NULL || ro->_ro_rt == NULL); 446 1.71 dyoung KASSERT(!ro->ro_invalid || ro->_ro_rt != NULL); 447 1.71 dyoung } 448 1.71 dyoung 449 1.54 dyoung static inline struct rtentry * 450 1.55 dyoung rtcache_lookup1(struct route *ro, const struct sockaddr *dst, int clone) 451 1.55 dyoung { 452 1.55 dyoung int hit; 453 1.55 dyoung 454 1.55 dyoung return rtcache_lookup2(ro, dst, clone, &hit); 455 1.55 dyoung } 456 1.55 dyoung 457 1.55 dyoung static inline struct rtentry * 458 1.54 dyoung rtcache_lookup_noclone(struct route *ro, const struct sockaddr *dst) 459 1.54 dyoung { 460 1.54 dyoung return rtcache_lookup1(ro, dst, 0); 461 1.54 dyoung } 462 1.54 dyoung 463 1.54 dyoung static inline struct rtentry * 464 1.54 dyoung rtcache_lookup(struct route *ro, const struct sockaddr *dst) 465 1.51 dyoung { 466 1.54 dyoung return rtcache_lookup1(ro, dst, 1); 467 1.51 dyoung } 468 1.51 dyoung 469 1.54 dyoung static inline const struct sockaddr * 470 1.54 dyoung rtcache_getdst(const struct route *ro) 471 1.51 dyoung { 472 1.71 dyoung rtcache_invariants(ro); 473 1.54 dyoung return ro->ro_sa; 474 1.51 dyoung } 475 1.51 dyoung 476 1.62 dyoung /* If the cache is not empty, and the cached route is still present 477 1.62 dyoung * in the routing table, return the cached route. Otherwise, return 478 1.62 dyoung * NULL. 479 1.55 dyoung */ 480 1.60 dyoung static inline struct rtentry * 481 1.60 dyoung rtcache_validate(const struct route *ro) 482 1.55 dyoung { 483 1.60 dyoung struct rtentry *rt = ro->_ro_rt; 484 1.60 dyoung 485 1.71 dyoung rtcache_invariants(ro); 486 1.71 dyoung 487 1.65 dyoung if (ro->ro_invalid) 488 1.65 dyoung return NULL; 489 1.65 dyoung 490 1.60 dyoung if (rt != NULL && (rt->rt_flags & RTF_UP) != 0 && rt->rt_ifp != NULL) 491 1.60 dyoung return rt; 492 1.60 dyoung return NULL; 493 1.60 dyoung 494 1.55 dyoung } 495 1.55 dyoung 496 1.49 joerg static inline void 497 1.48 dyoung RTFREE(struct rtentry *rt) 498 1.48 dyoung { 499 1.48 dyoung if (rt->rt_refcnt <= 1) 500 1.48 dyoung rtfree(rt); 501 1.48 dyoung else 502 1.48 dyoung rt->rt_refcnt--; 503 1.48 dyoung } 504 1.48 dyoung 505 1.56 dyoung int 506 1.56 dyoung rt_walktree(sa_family_t, int (*)(struct rtentry *, void *), void *); 507 1.72 christos void route_enqueue(struct mbuf *, int); 508 1.56 dyoung 509 1.8 jtc #endif /* _KERNEL */ 510 1.42 elad #endif /* !_NET_ROUTE_H_ */ 511
Indexes created Sat Sep 20 22:09:52 GMT 2025