1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License (the "License"). 6 * You may not use this file except in compliance with the License. 7 * 8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9 * or http://www.opensolaris.org/os/licensing. 10 * See the License for the specific language governing permissions 11 * and limitations under the License. 12 * 13 * When distributing Covered Code, include this CDDL HEADER in each 14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15 * If applicable, add the following below this CDDL HEADER, with the 16 * fields enclosed by brackets "[]" replaced with your own identifying 17 * information: Portions Copyright [yyyy] [name of copyright owner] 18 * 19 * CDDL HEADER END 20 */ 21 /* 22 * Copyright 2007 Sun Microsystems, Inc. All rights reserved. 23 * Use is subject to license terms. 24 */ 25 /* Copyright (c) 1990 Mentat Inc. */ 26 27 #ifndef _INET_IP_IRE_H 28 #define _INET_IP_IRE_H 29 30 #pragma ident "%Z%%M% %I% %E% SMI" 31 32 #ifdef __cplusplus 33 extern "C" { 34 #endif 35 36 #define IPV6_LL_PREFIXLEN 10 /* Number of bits in link-local pref */ 37 38 #define IP_CACHE_TABLE_SIZE 256 39 #define IP_MRTUN_TABLE_SIZE 256 /* Mobile IP reverse tunnel table */ 40 /* size. Only used by mipagent */ 41 #define IP_SRCIF_TABLE_SIZE 256 /* Per interface routing table size */ 42 #define IP_MASK_TABLE_SIZE (IP_ABITS + 1) /* 33 ptrs */ 43 44 #define IP6_FTABLE_HASH_SIZE 32 /* size of each hash table in ptrs */ 45 #define IP6_CACHE_TABLE_SIZE 256 46 #define IP6_MASK_TABLE_SIZE (IPV6_ABITS + 1) /* 129 ptrs */ 47 48 /* 49 * We use the common modulo hash function. In ip_ire_init(), we make 50 * sure that the cache table size is always a power of 2. That's why 51 * we can use & instead of %. Also note that we try hard to make sure 52 * the lower bits of an address capture most info from the whole address. 53 * The reason being that since our hash table is probably a lot smaller 54 * than 2^32 buckets so the lower bits are the most important. 55 */ 56 #define IRE_ADDR_HASH(addr, table_size) \ 57 (((addr) ^ ((addr) >> 8) ^ ((addr) >> 16) ^ ((addr) >> 24)) & \ 58 ((table_size) - 1)) 59 60 /* 61 * To make a byte-order neutral hash for IPv6, just take all the 62 * bytes in the bottom 32 bits into account. 63 */ 64 #define IRE_ADDR_HASH_V6(addr, table_size) \ 65 IRE_ADDR_HASH((addr).s6_addr32[3], table_size) 66 67 /* This assumes that the ftable size is a power of 2. */ 68 #define IRE_ADDR_MASK_HASH_V6(addr, mask, table_size) \ 69 ((((addr).s6_addr8[8] & (mask).s6_addr8[8]) ^ \ 70 ((addr).s6_addr8[9] & (mask).s6_addr8[9]) ^ \ 71 ((addr).s6_addr8[10] & (mask).s6_addr8[10]) ^ \ 72 ((addr).s6_addr8[13] & (mask).s6_addr8[13]) ^ \ 73 ((addr).s6_addr8[14] & (mask).s6_addr8[14]) ^ \ 74 ((addr).s6_addr8[15] & (mask).s6_addr8[15])) & ((table_size) - 1)) 75 76 /* 77 * match parameter definitions for 78 * IRE lookup routines. 79 */ 80 #define MATCH_IRE_DSTONLY 0x0000 /* Match just the address */ 81 #define MATCH_IRE_TYPE 0x0001 /* Match IRE type */ 82 #define MATCH_IRE_SRC 0x0002 /* Match IRE source address */ 83 #define MATCH_IRE_MASK 0x0004 /* Match IRE mask */ 84 #define MATCH_IRE_WQ 0x0008 /* Match IRE Write Q */ 85 #define MATCH_IRE_GW 0x0010 /* Match IRE gateway */ 86 #define MATCH_IRE_IPIF 0x0020 /* Match IRE ipif */ 87 #define MATCH_IRE_RECURSIVE 0x0040 /* Do recursive lookup if necessary */ 88 #define MATCH_IRE_DEFAULT 0x0080 /* Return default route if no route */ 89 /* found. */ 90 #define MATCH_IRE_RJ_BHOLE 0x0100 /* During lookup if we hit an ire */ 91 /* with RTF_REJECT or RTF_BLACKHOLE, */ 92 /* return the ire. No recursive */ 93 /* lookup should be done. */ 94 #define MATCH_IRE_IHANDLE 0x0200 /* Match IRE on ihandle */ 95 #define MATCH_IRE_MARK_HIDDEN 0x0400 /* Match IRE ire_marks with */ 96 /* IRE_MARK_HIDDEN. */ 97 /* 98 * MATCH_IRE_ILL is used whenever we want to specifically match an IRE 99 * whose ire_ipif->ipif_ill or (ill_t *)ire_stq->q_ptr matches a given 100 * ill. When MATCH_IRE_ILL is used to locate an IRE_CACHE, it implies 101 * that the packet will not be load balanced. This is normally used 102 * by in.mpathd to send out failure detection probes. 103 * 104 * MATCH_IRE_ILL_GROUP is used whenever we are not specific about which 105 * interface (ill) the packet should be sent out. This implies that the 106 * packets will be subjected to load balancing and it might go out on 107 * any interface in the group. When there is only interface in the group, 108 * MATCH_IRE_ILL_GROUP becomes MATCH_IRE_ILL. Most of the code uses 109 * MATCH_IRE_ILL_GROUP and MATCH_IRE_ILL is used in very few cases where 110 * we want to disable load balancing. 111 * 112 * MATCH_IRE_PARENT is used whenever we unconditionally want to get the 113 * parent IRE (sire) while recursively searching IREs for an offsubnet 114 * destination. With this flag, even if no IRE_CACHETABLE or IRE_INTERFACE 115 * is found to help resolving IRE_OFFSUBNET in lookup routines, the 116 * IRE_OFFSUBNET sire, if any, is returned to the caller. 117 */ 118 #define MATCH_IRE_ILL_GROUP 0x0800 /* Match IRE on ill or the ill_group. */ 119 #define MATCH_IRE_ILL 0x1000 /* Match IRE on the ill only */ 120 121 #define MATCH_IRE_PARENT 0x2000 /* Match parent ire, if any, */ 122 /* even if ire is not matched. */ 123 #define MATCH_IRE_ZONEONLY 0x4000 /* Match IREs in specified zone, ie */ 124 /* don't match IRE_LOCALs from other */ 125 /* zones or shared IREs */ 126 #define MATCH_IRE_MARK_PRIVATE_ADDR 0x8000 /* Match IRE ire_marks with */ 127 /* IRE_MARK_PRIVATE_ADDR. */ 128 #define MATCH_IRE_SECATTR 0x10000 /* Match gateway security attributes */ 129 #define MATCH_IRE_COMPLETE 0x20000 /* ire_ftable_lookup() can return */ 130 /* IRE_CACHE entry only if it is */ 131 /* ND_REACHABLE */ 132 133 /* 134 * Any ire to nce association is long term, and 135 * the refhold and refrele may be done by different 136 * threads. So all cases of making or breaking ire to 137 * nce association should all effectively use the NOTR variants. 138 * To understand the *effectively* part read on. 139 * 140 * ndp_lookup() and ndp_add() implicitly does NCE_REFHOLD. So wherever we 141 * make ire to nce association after calling these functions, 142 * we effectively want to end up with NCE_REFHOLD_NOTR, 143 * We call this macro to achieve this effect. This macro changes 144 * a NCE_REFHOLD to a NCE_REFHOLD_NOTR. The macro's NCE_REFRELE 145 * cancels off ndp_lookup[ndp_add]'s implicit NCE_REFHOLD, and what 146 * you are left with is a NCE_REFHOLD_NOTR 147 */ 148 #define NCE_REFHOLD_TO_REFHOLD_NOTR(nce) { \ 149 NCE_REFHOLD_NOTR(nce); \ 150 NCE_REFRELE(nce); \ 151 } 152 153 /* 154 * find the next ire_t entry in the ire_next chain starting at ire 155 * that is not CONDEMNED. ire is set to NULL if we reach the end of the list. 156 * Caller must hold the ire_bucket lock. 157 */ 158 159 #define IRE_FIND_NEXT_ORIGIN(ire) { \ 160 while ((ire) != NULL && ((ire)->ire_marks & IRE_MARK_CONDEMNED))\ 161 (ire) = (ire)->ire_next; \ 162 } 163 164 165 /* Structure for ire_cache_count() */ 166 typedef struct { 167 int icc_total; /* Total number of IRE_CACHE */ 168 int icc_unused; /* # off/no PMTU unused since last reclaim */ 169 int icc_offlink; /* # offlink without PMTU information */ 170 int icc_pmtu; /* # offlink with PMTU information */ 171 int icc_onlink; /* # onlink */ 172 } ire_cache_count_t; 173 174 /* 175 * Structure for ire_cache_reclaim(). Each field is a fraction i.e. 1 meaning 176 * reclaim all, N meaning reclaim 1/Nth of all entries, 0 meaning reclaim none. 177 * 178 * The comment below (and for other netstack_t references) refers 179 * to the fact that we only do netstack_hold in particular cases, 180 * such as the references from open streams (ill_t and conn_t's 181 * pointers). Internally within IP we rely on IP's ability to cleanup e.g. 182 * ire_t's when an ill goes away. 183 */ 184 typedef struct { 185 int icr_unused; /* Fraction for unused since last reclaim */ 186 int icr_offlink; /* Fraction for offlink without PMTU info */ 187 int icr_pmtu; /* Fraction for offlink with PMTU info */ 188 int icr_onlink; /* Fraction for onlink */ 189 ip_stack_t *icr_ipst; /* Does not have a netstack_hold */ 190 } ire_cache_reclaim_t; 191 192 /* 193 * We use atomics so that we get an accurate accounting on the ires. 194 * Otherwise we can't determine leaks correctly. 195 */ 196 #define BUMP_IRE_STATS(ire_stats, x) atomic_add_64(&(ire_stats).x, 1) 197 198 #ifdef _KERNEL 199 struct ts_label_s; 200 201 extern ipaddr_t ip_plen_to_mask(uint_t); 202 extern in6_addr_t *ip_plen_to_mask_v6(uint_t, in6_addr_t *); 203 204 extern int ip_ire_advise(queue_t *, mblk_t *, cred_t *); 205 extern int ip_ire_delete(queue_t *, mblk_t *, cred_t *); 206 extern boolean_t ip_ire_clookup_and_delete(ipaddr_t, ipif_t *, ip_stack_t *); 207 extern void ip_ire_clookup_and_delete_v6(const in6_addr_t *, 208 ip_stack_t *); 209 210 extern int ip_ire_report(queue_t *, mblk_t *, caddr_t, cred_t *); 211 extern int ip_ire_report_mrtun(queue_t *, mblk_t *, caddr_t, cred_t *); 212 extern int ip_ire_report_srcif(queue_t *, mblk_t *, caddr_t, cred_t *); 213 extern int ip_ire_report_v6(queue_t *, mblk_t *, caddr_t, cred_t *); 214 extern void ire_report_ftable(ire_t *, char *); 215 216 extern void ip_ire_req(queue_t *, mblk_t *); 217 218 extern int ip_mask_to_plen(ipaddr_t); 219 extern int ip_mask_to_plen_v6(const in6_addr_t *); 220 221 extern ire_t *ipif_to_ire(const ipif_t *); 222 extern ire_t *ipif_to_ire_v6(const ipif_t *); 223 224 extern int ire_add(ire_t **, queue_t *, mblk_t *, ipsq_func_t, boolean_t); 225 extern int ire_add_mrtun(ire_t **, queue_t *, mblk_t *, ipsq_func_t); 226 extern void ire_add_then_send(queue_t *, ire_t *, mblk_t *); 227 extern int ire_add_v6(ire_t **, queue_t *, mblk_t *, ipsq_func_t); 228 extern int ire_atomic_start(irb_t *irb_ptr, ire_t *ire, queue_t *q, 229 mblk_t *mp, ipsq_func_t func); 230 extern void ire_atomic_end(irb_t *irb_ptr, ire_t *ire); 231 232 extern void ire_cache_count(ire_t *, char *); 233 extern ire_t *ire_cache_lookup(ipaddr_t, zoneid_t, 234 const struct ts_label_s *, ip_stack_t *); 235 extern ire_t *ire_cache_lookup_v6(const in6_addr_t *, zoneid_t, 236 const struct ts_label_s *, ip_stack_t *); 237 extern void ire_cache_reclaim(ire_t *, char *); 238 239 extern void ire_check_bcast_present(ipif_t *, ipaddr_t, int, boolean_t *, 240 boolean_t *); 241 242 extern ire_t *ire_create_mp(uchar_t *, uchar_t *, uchar_t *, uchar_t *, 243 uchar_t *, uint_t, mblk_t *, queue_t *, queue_t *, ushort_t, mblk_t *, 244 ipif_t *, ill_t *, ipaddr_t, uint32_t, uint32_t, uint32_t, const iulp_t *, 245 tsol_gc_t *, tsol_gcgrp_t *, ip_stack_t *); 246 extern ire_t *ire_create(uchar_t *, uchar_t *, uchar_t *, uchar_t *, 247 uchar_t *, uint_t *, mblk_t *, queue_t *, queue_t *, ushort_t, mblk_t *, 248 ipif_t *, ill_t *, ipaddr_t, uint32_t, uint32_t, uint32_t, const iulp_t *, 249 tsol_gc_t *, tsol_gcgrp_t *, ip_stack_t *); 250 251 extern ire_t **ire_check_and_create_bcast(ipif_t *, ipaddr_t, 252 ire_t **, int); 253 extern ire_t **ire_create_bcast(ipif_t *, ipaddr_t, ire_t **); 254 extern ire_t *ire_init(ire_t *, uchar_t *, uchar_t *, uchar_t *, 255 uchar_t *, uchar_t *, uint_t *, mblk_t *, queue_t *, queue_t *, ushort_t, 256 mblk_t *, ipif_t *, ill_t *, ipaddr_t, uint32_t, uint32_t, uint32_t, 257 const iulp_t *, tsol_gc_t *, tsol_gcgrp_t *, ip_stack_t *); 258 259 extern boolean_t ire_init_common(ire_t *, uint_t *, mblk_t *, queue_t *, 260 queue_t *, ushort_t, mblk_t *, ipif_t *, ill_t *, uint32_t, 261 uint32_t, uint32_t, uchar_t, const iulp_t *, tsol_gc_t *, tsol_gcgrp_t *, 262 ip_stack_t *); 263 264 extern ire_t *ire_create_v6(const in6_addr_t *, const in6_addr_t *, 265 const in6_addr_t *, const in6_addr_t *, uint_t *, mblk_t *, queue_t *, 266 queue_t *, ushort_t, mblk_t *, ipif_t *, 267 const in6_addr_t *, uint32_t, uint32_t, uint_t, const iulp_t *, 268 tsol_gc_t *, tsol_gcgrp_t *, ip_stack_t *); 269 270 extern ire_t *ire_create_mp_v6(const in6_addr_t *, const in6_addr_t *, 271 const in6_addr_t *, const in6_addr_t *, mblk_t *, queue_t *, 272 queue_t *, ushort_t, mblk_t *, ipif_t *, 273 const in6_addr_t *, uint32_t, uint32_t, uint_t, const iulp_t *, 274 tsol_gc_t *, tsol_gcgrp_t *, ip_stack_t *); 275 276 extern ire_t *ire_init_v6(ire_t *, const in6_addr_t *, const in6_addr_t *, 277 const in6_addr_t *, const in6_addr_t *, uint_t *, mblk_t *, queue_t *, 278 queue_t *, ushort_t, mblk_t *, ipif_t *, 279 const in6_addr_t *, uint32_t, uint32_t, uint_t, const iulp_t *, 280 tsol_gc_t *, tsol_gcgrp_t *, ip_stack_t *); 281 282 extern void ire_clookup_delete_cache_gw(ipaddr_t, zoneid_t, 283 ip_stack_t *); 284 extern void ire_clookup_delete_cache_gw_v6(const in6_addr_t *, zoneid_t, 285 ip_stack_t *); 286 287 extern ire_t *ire_ctable_lookup(ipaddr_t, ipaddr_t, int, const ipif_t *, 288 zoneid_t, const struct ts_label_s *, int, ip_stack_t *); 289 290 extern ire_t *ire_ctable_lookup_v6(const in6_addr_t *, const in6_addr_t *, 291 int, const ipif_t *, zoneid_t, const struct ts_label_s *, int, 292 ip_stack_t *); 293 294 extern void ire_delete(ire_t *); 295 extern void ire_delete_cache_gw(ire_t *, char *); 296 extern void ire_delete_cache_gw_v6(ire_t *, char *); 297 extern void ire_delete_cache_v6(ire_t *, char *); 298 extern void ire_delete_srcif(ire_t *); 299 extern void ire_delete_v6(ire_t *); 300 301 extern void ire_expire(ire_t *, char *); 302 303 extern void ire_flush_cache_v4(ire_t *, int); 304 extern void ire_flush_cache_v6(ire_t *, int); 305 306 extern ire_t *ire_ftable_lookup_v6(const in6_addr_t *, const in6_addr_t *, 307 const in6_addr_t *, int, const ipif_t *, ire_t **, zoneid_t, 308 uint32_t, const struct ts_label_s *, int, ip_stack_t *); 309 310 extern ire_t *ire_ihandle_lookup_onlink(ire_t *); 311 extern ire_t *ire_ihandle_lookup_offlink(ire_t *, ire_t *); 312 extern ire_t *ire_ihandle_lookup_offlink_v6(ire_t *, ire_t *); 313 314 extern boolean_t ire_local_same_ill_group(ire_t *, ire_t *); 315 extern boolean_t ire_local_ok_across_zones(ire_t *, zoneid_t, void *, 316 const struct ts_label_s *, ip_stack_t *); 317 318 extern ire_t *ire_lookup_local(zoneid_t, ip_stack_t *); 319 extern ire_t *ire_lookup_local_v6(zoneid_t, ip_stack_t *); 320 321 extern ire_t *ire_lookup_multi(ipaddr_t, zoneid_t, ip_stack_t *); 322 extern ire_t *ire_lookup_multi_v6(const in6_addr_t *, zoneid_t, 323 ip_stack_t *); 324 325 extern ire_t *ire_mrtun_lookup(ipaddr_t, ill_t *); 326 327 extern void ire_refrele(ire_t *); 328 extern void ire_refrele_notr(ire_t *); 329 extern ire_t *ire_route_lookup(ipaddr_t, ipaddr_t, ipaddr_t, int, 330 const ipif_t *, ire_t **, zoneid_t, const struct ts_label_s *, int, 331 ip_stack_t *); 332 333 extern ire_t *ire_route_lookup_v6(const in6_addr_t *, const in6_addr_t *, 334 const in6_addr_t *, int, const ipif_t *, ire_t **, zoneid_t, 335 const struct ts_label_s *, int, ip_stack_t *); 336 337 extern ire_t *ire_srcif_table_lookup(ipaddr_t, int, ipif_t *, ill_t *, int); 338 extern ill_t *ire_to_ill(const ire_t *); 339 340 extern void ire_walk(pfv_t, void *, ip_stack_t *); 341 extern void ire_walk_ill(uint_t, uint_t, pfv_t, void *, ill_t *); 342 extern void ire_walk_ill_mrtun(uint_t, uint_t, pfv_t, void *, ill_t *, 343 ip_stack_t *); 344 extern void ire_walk_ill_v4(uint_t, uint_t, pfv_t, void *, ill_t *); 345 extern void ire_walk_ill_v6(uint_t, uint_t, pfv_t, void *, ill_t *); 346 extern void ire_walk_v4(pfv_t, void *, zoneid_t, ip_stack_t *); 347 extern void ire_walk_ill_tables(uint_t match_flags, uint_t ire_type, 348 pfv_t func, void *arg, size_t ftbl_sz, size_t htbl_sz, 349 irb_t **ipftbl, size_t ctbl_sz, irb_t *ipctbl, ill_t *ill, 350 zoneid_t zoneid, ip_stack_t *); 351 extern void ire_walk_srcif_table_v4(pfv_t, void *, ip_stack_t *); 352 extern void ire_walk_v6(pfv_t, void *, zoneid_t, ip_stack_t *); 353 354 extern boolean_t ire_multirt_lookup(ire_t **, ire_t **, uint32_t, 355 const struct ts_label_s *, ip_stack_t *); 356 extern boolean_t ire_multirt_need_resolve(ipaddr_t, 357 const struct ts_label_s *, ip_stack_t *); 358 extern boolean_t ire_multirt_lookup_v6(ire_t **, ire_t **, uint32_t, 359 const struct ts_label_s *, ip_stack_t *); 360 extern boolean_t ire_multirt_need_resolve_v6(const in6_addr_t *, 361 const struct ts_label_s *, ip_stack_t *); 362 363 extern ire_t *ipif_lookup_multi_ire(ipif_t *, ipaddr_t); 364 extern ire_t *ipif_lookup_multi_ire_v6(ipif_t *, const in6_addr_t *); 365 366 extern ire_t *ire_get_next_bcast_ire(ire_t *, ire_t *); 367 extern ire_t *ire_get_next_default_ire(ire_t *, ire_t *); 368 369 extern void ire_arpresolve(ire_t *, ill_t *); 370 extern void ire_freemblk(ire_t *); 371 extern boolean_t ire_match_args(ire_t *, ipaddr_t, ipaddr_t, ipaddr_t, 372 int, const ipif_t *, zoneid_t, uint32_t, const struct ts_label_s *, int); 373 extern int ire_nce_init(ire_t *, mblk_t *, mblk_t *); 374 extern boolean_t ire_walk_ill_match(uint_t, uint_t, ire_t *, ill_t *, 375 zoneid_t, ip_stack_t *); 376 377 #endif /* _KERNEL */ 378 379 #ifdef __cplusplus 380 } 381 #endif 382 383 #endif /* _INET_IP_IRE_H */ 384