1 /*- 2 * Copyright (c) 2009 The FreeBSD Foundation 3 * All rights reserved. 4 * 5 * This software was developed by Rui Paulo under sponsorship from the 6 * FreeBSD Foundation. 7 * 8 * Redistribution and use in source and binary forms, with or without 9 * modification, are permitted provided that the following conditions 10 * are met: 11 * 1. Redistributions of source code must retain the above copyright 12 * notice, this list of conditions and the following disclaimer. 13 * 2. Redistributions in binary form must reproduce the above copyright 14 * notice, this list of conditions and the following disclaimer in the 15 * documentation and/or other materials provided with the distribution. 16 * 17 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 18 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 19 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 20 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 21 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 22 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 23 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 24 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 25 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 26 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 27 * SUCH DAMAGE. 28 */ 29 #include <sys/cdefs.h> 30 #ifdef __FreeBSD__ 31 __FBSDID("$FreeBSD$"); 32 #endif 33 34 /* 35 * IEEE 802.11s Hybrid Wireless Mesh Protocol, HWMP. 36 * 37 * Based on March 2009, D3.0 802.11s draft spec. 38 */ 39 #include "opt_inet.h" 40 #include "opt_wlan.h" 41 42 #include <sys/param.h> 43 #include <sys/systm.h> 44 #include <sys/mbuf.h> 45 #include <sys/malloc.h> 46 #include <sys/kernel.h> 47 48 #include <sys/socket.h> 49 #include <sys/sockio.h> 50 #include <sys/endian.h> 51 #include <sys/errno.h> 52 #include <sys/proc.h> 53 #include <sys/sysctl.h> 54 55 #include <net/if.h> 56 #include <net/if_media.h> 57 #include <net/if_llc.h> 58 #include <net/ethernet.h> 59 60 #include <net/bpf.h> 61 62 #include <netproto/802_11/ieee80211_var.h> 63 #include <netproto/802_11/ieee80211_action.h> 64 #include <netproto/802_11/ieee80211_input.h> 65 #include <netproto/802_11/ieee80211_mesh.h> 66 67 static void hwmp_vattach(struct ieee80211vap *); 68 static void hwmp_vdetach(struct ieee80211vap *); 69 static int hwmp_newstate(struct ieee80211vap *, 70 enum ieee80211_state, int); 71 static int hwmp_send_action(struct ieee80211vap *, 72 const uint8_t [IEEE80211_ADDR_LEN], 73 uint8_t *, size_t); 74 static uint8_t * hwmp_add_meshpreq(uint8_t *, 75 const struct ieee80211_meshpreq_ie *); 76 static uint8_t * hwmp_add_meshprep(uint8_t *, 77 const struct ieee80211_meshprep_ie *); 78 static uint8_t * hwmp_add_meshperr(uint8_t *, 79 const struct ieee80211_meshperr_ie *); 80 static uint8_t * hwmp_add_meshrann(uint8_t *, 81 const struct ieee80211_meshrann_ie *); 82 static void hwmp_rootmode_setup(struct ieee80211vap *); 83 static void hwmp_rootmode_cb(void *); 84 static void hwmp_rootmode_rann_cb(void *); 85 static void hwmp_recv_preq(struct ieee80211vap *, struct ieee80211_node *, 86 const struct ieee80211_frame *, 87 const struct ieee80211_meshpreq_ie *); 88 static int hwmp_send_preq(struct ieee80211vap *, 89 const uint8_t [IEEE80211_ADDR_LEN], 90 struct ieee80211_meshpreq_ie *, 91 struct timeval *, struct timeval *); 92 static void hwmp_recv_prep(struct ieee80211vap *, struct ieee80211_node *, 93 const struct ieee80211_frame *, 94 const struct ieee80211_meshprep_ie *); 95 static int hwmp_send_prep(struct ieee80211vap *, 96 const uint8_t [IEEE80211_ADDR_LEN], 97 struct ieee80211_meshprep_ie *); 98 static void hwmp_recv_perr(struct ieee80211vap *, struct ieee80211_node *, 99 const struct ieee80211_frame *, 100 const struct ieee80211_meshperr_ie *); 101 static int hwmp_send_perr(struct ieee80211vap *, 102 const uint8_t [IEEE80211_ADDR_LEN], 103 struct ieee80211_meshperr_ie *); 104 static void hwmp_senderror(struct ieee80211vap *, 105 const uint8_t [IEEE80211_ADDR_LEN], 106 struct ieee80211_mesh_route *, int); 107 static void hwmp_recv_rann(struct ieee80211vap *, struct ieee80211_node *, 108 const struct ieee80211_frame *, 109 const struct ieee80211_meshrann_ie *); 110 static int hwmp_send_rann(struct ieee80211vap *, 111 const uint8_t [IEEE80211_ADDR_LEN], 112 struct ieee80211_meshrann_ie *); 113 static struct ieee80211_node * 114 hwmp_discover(struct ieee80211vap *, 115 const uint8_t [IEEE80211_ADDR_LEN], struct mbuf *); 116 static void hwmp_peerdown(struct ieee80211_node *); 117 118 static struct timeval ieee80211_hwmp_preqminint = { 0, 100000 }; 119 static struct timeval ieee80211_hwmp_perrminint = { 0, 100000 }; 120 121 /* unalligned little endian access */ 122 #define LE_WRITE_2(p, v) do { \ 123 ((uint8_t *)(p))[0] = (v) & 0xff; \ 124 ((uint8_t *)(p))[1] = ((v) >> 8) & 0xff; \ 125 } while (0) 126 #define LE_WRITE_4(p, v) do { \ 127 ((uint8_t *)(p))[0] = (v) & 0xff; \ 128 ((uint8_t *)(p))[1] = ((v) >> 8) & 0xff; \ 129 ((uint8_t *)(p))[2] = ((v) >> 16) & 0xff; \ 130 ((uint8_t *)(p))[3] = ((v) >> 24) & 0xff; \ 131 } while (0) 132 133 134 /* NB: the Target Address set in a Proactive PREQ is the broadcast address. */ 135 static const uint8_t broadcastaddr[IEEE80211_ADDR_LEN] = 136 { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff }; 137 138 typedef uint32_t ieee80211_hwmp_seq; 139 #define HWMP_SEQ_LT(a, b) ((int32_t)((a)-(b)) < 0) 140 #define HWMP_SEQ_LEQ(a, b) ((int32_t)((a)-(b)) <= 0) 141 #define HWMP_SEQ_EQ(a, b) ((int32_t)((a)-(b)) == 0) 142 #define HWMP_SEQ_GT(a, b) ((int32_t)((a)-(b)) > 0) 143 #define HWMP_SEQ_GEQ(a, b) ((int32_t)((a)-(b)) >= 0) 144 145 #define HWMP_SEQ_MAX(a, b) (a > b ? a : b) 146 147 /* 148 * Private extension of ieee80211_mesh_route. 149 */ 150 struct ieee80211_hwmp_route { 151 ieee80211_hwmp_seq hr_seq; /* last HWMP seq seen from dst*/ 152 ieee80211_hwmp_seq hr_preqid; /* last PREQ ID seen from dst */ 153 ieee80211_hwmp_seq hr_origseq; /* seq. no. on our latest PREQ*/ 154 struct timeval hr_lastpreq; /* last time we sent a PREQ */ 155 struct timeval hr_lastrootconf; /* last sent PREQ root conf */ 156 int hr_preqretries; /* number of discoveries */ 157 int hr_lastdiscovery; /* last discovery in ticks */ 158 }; 159 struct ieee80211_hwmp_state { 160 ieee80211_hwmp_seq hs_seq; /* next seq to be used */ 161 ieee80211_hwmp_seq hs_preqid; /* next PREQ ID to be used */ 162 int hs_rootmode; /* proactive HWMP */ 163 struct timeval hs_lastperr; /* last time we sent a PERR */ 164 struct callout hs_roottimer; 165 uint8_t hs_maxhops; /* max hop count */ 166 }; 167 168 static SYSCTL_NODE(_net_wlan, OID_AUTO, hwmp, CTLFLAG_RD, 0, 169 "IEEE 802.11s HWMP parameters"); 170 static int ieee80211_hwmp_targetonly = 0; 171 SYSCTL_INT(_net_wlan_hwmp, OID_AUTO, targetonly, CTLFLAG_RW, 172 &ieee80211_hwmp_targetonly, 0, "Set TO bit on generated PREQs"); 173 static int ieee80211_hwmp_pathtimeout = -1; 174 SYSCTL_PROC(_net_wlan_hwmp, OID_AUTO, pathlifetime, CTLTYPE_INT | CTLFLAG_RW, 175 &ieee80211_hwmp_pathtimeout, 0, ieee80211_sysctl_msecs_ticks, "I", 176 "path entry lifetime (ms)"); 177 static int ieee80211_hwmp_maxpreq_retries = -1; 178 SYSCTL_PROC(_net_wlan_hwmp, OID_AUTO, maxpreq_retries, CTLTYPE_INT | CTLFLAG_RW, 179 &ieee80211_hwmp_maxpreq_retries, 0, ieee80211_sysctl_msecs_ticks, "I", 180 "maximum number of preq retries"); 181 static int ieee80211_hwmp_net_diameter_traversaltime = -1; 182 SYSCTL_PROC(_net_wlan_hwmp, OID_AUTO, net_diameter_traversal_time, 183 CTLTYPE_INT | CTLFLAG_RW, &ieee80211_hwmp_net_diameter_traversaltime, 0, 184 ieee80211_sysctl_msecs_ticks, "I", 185 "estimate travelse time across the MBSS (ms)"); 186 static int ieee80211_hwmp_roottimeout = -1; 187 SYSCTL_PROC(_net_wlan_hwmp, OID_AUTO, roottimeout, CTLTYPE_INT | CTLFLAG_RW, 188 &ieee80211_hwmp_roottimeout, 0, ieee80211_sysctl_msecs_ticks, "I", 189 "root PREQ timeout (ms)"); 190 static int ieee80211_hwmp_rootint = -1; 191 SYSCTL_PROC(_net_wlan_hwmp, OID_AUTO, rootint, CTLTYPE_INT | CTLFLAG_RW, 192 &ieee80211_hwmp_rootint, 0, ieee80211_sysctl_msecs_ticks, "I", 193 "root interval (ms)"); 194 static int ieee80211_hwmp_rannint = -1; 195 SYSCTL_PROC(_net_wlan_hwmp, OID_AUTO, rannint, CTLTYPE_INT | CTLFLAG_RW, 196 &ieee80211_hwmp_rannint, 0, ieee80211_sysctl_msecs_ticks, "I", 197 "root announcement interval (ms)"); 198 static struct timeval ieee80211_hwmp_rootconfint = { 0, 0 }; 199 static int ieee80211_hwmp_rootconfint_internal = -1; 200 SYSCTL_PROC(_net_wlan_hwmp, OID_AUTO, rootconfint, CTLTYPE_INT | CTLFLAG_RD, 201 &ieee80211_hwmp_rootconfint_internal, 0, ieee80211_sysctl_msecs_ticks, "I", 202 "root confirmation interval (ms) (read-only)"); 203 204 #define IEEE80211_HWMP_DEFAULT_MAXHOPS 31 205 206 static ieee80211_recv_action_func hwmp_recv_action_meshpath; 207 208 static struct ieee80211_mesh_proto_path mesh_proto_hwmp = { 209 .mpp_descr = "HWMP", 210 .mpp_ie = IEEE80211_MESHCONF_PATH_HWMP, 211 .mpp_discover = hwmp_discover, 212 .mpp_peerdown = hwmp_peerdown, 213 .mpp_senderror = hwmp_senderror, 214 .mpp_vattach = hwmp_vattach, 215 .mpp_vdetach = hwmp_vdetach, 216 .mpp_newstate = hwmp_newstate, 217 .mpp_privlen = sizeof(struct ieee80211_hwmp_route), 218 }; 219 SYSCTL_PROC(_net_wlan_hwmp, OID_AUTO, inact, CTLTYPE_INT | CTLFLAG_RW, 220 &mesh_proto_hwmp.mpp_inact, 0, ieee80211_sysctl_msecs_ticks, "I", 221 "mesh route inactivity timeout (ms)"); 222 223 224 static void 225 ieee80211_hwmp_init(void) 226 { 227 /* Default values as per amendment */ 228 ieee80211_hwmp_pathtimeout = msecs_to_ticks(5*1000); 229 ieee80211_hwmp_roottimeout = msecs_to_ticks(5*1000); 230 ieee80211_hwmp_rootint = msecs_to_ticks(2*1000); 231 ieee80211_hwmp_rannint = msecs_to_ticks(1*1000); 232 ieee80211_hwmp_rootconfint_internal = msecs_to_ticks(2*1000); 233 ieee80211_hwmp_maxpreq_retries = 3; 234 /* 235 * (TU): A measurement of time equal to 1024 μs, 236 * 500 TU is 512 ms. 237 */ 238 ieee80211_hwmp_net_diameter_traversaltime = msecs_to_ticks(512); 239 240 /* 241 * NB: I dont know how to make SYSCTL_PROC that calls ms to ticks 242 * and return a struct timeval... 243 */ 244 ieee80211_hwmp_rootconfint.tv_usec = 245 ieee80211_hwmp_rootconfint_internal * 1000; 246 247 /* 248 * Register action frame handler. 249 */ 250 ieee80211_recv_action_register(IEEE80211_ACTION_CAT_MESH, 251 IEEE80211_ACTION_MESH_HWMP, hwmp_recv_action_meshpath); 252 253 /* NB: default is 5 secs per spec */ 254 mesh_proto_hwmp.mpp_inact = msecs_to_ticks(5*1000); 255 256 /* 257 * Register HWMP. 258 */ 259 ieee80211_mesh_register_proto_path(&mesh_proto_hwmp); 260 } 261 SYSINIT(wlan_hwmp, SI_SUB_DRIVERS, SI_ORDER_SECOND, ieee80211_hwmp_init, NULL); 262 263 static void 264 hwmp_vattach(struct ieee80211vap *vap) 265 { 266 struct ieee80211_hwmp_state *hs; 267 268 KASSERT(vap->iv_opmode == IEEE80211_M_MBSS, 269 ("not a mesh vap, opmode %d", vap->iv_opmode)); 270 271 hs = kmalloc(sizeof(struct ieee80211_hwmp_state), M_80211_VAP, 272 M_INTWAIT | M_ZERO); 273 if (hs == NULL) { 274 kprintf("%s: couldn't alloc HWMP state\n", __func__); 275 return; 276 } 277 hs->hs_maxhops = IEEE80211_HWMP_DEFAULT_MAXHOPS; 278 callout_init_mp(&hs->hs_roottimer); 279 vap->iv_hwmp = hs; 280 } 281 282 static void 283 hwmp_vdetach(struct ieee80211vap *vap) 284 { 285 struct ieee80211_hwmp_state *hs = vap->iv_hwmp; 286 287 callout_drain(&hs->hs_roottimer); 288 kfree(vap->iv_hwmp, M_80211_VAP); 289 vap->iv_hwmp = NULL; 290 } 291 292 static int 293 hwmp_newstate(struct ieee80211vap *vap, enum ieee80211_state ostate, int arg) 294 { 295 enum ieee80211_state nstate = vap->iv_state; 296 struct ieee80211_hwmp_state *hs = vap->iv_hwmp; 297 298 IEEE80211_DPRINTF(vap, IEEE80211_MSG_STATE, "%s: %s -> %s (%d)\n", 299 __func__, ieee80211_state_name[ostate], 300 ieee80211_state_name[nstate], arg); 301 302 if (nstate != IEEE80211_S_RUN && ostate == IEEE80211_S_RUN) 303 callout_drain(&hs->hs_roottimer); 304 if (nstate == IEEE80211_S_RUN) 305 hwmp_rootmode_setup(vap); 306 return 0; 307 } 308 309 /* 310 * Verify the length of an HWMP PREQ and return the number 311 * of destinations >= 1, if verification fails -1 is returned. 312 */ 313 static int 314 verify_mesh_preq_len(struct ieee80211vap *vap, 315 const struct ieee80211_frame *wh, const uint8_t *iefrm) 316 { 317 int alloc_sz = -1; 318 int ndest = -1; 319 if (iefrm[2] & IEEE80211_MESHPREQ_FLAGS_AE) { 320 /* Originator External Address present */ 321 alloc_sz = IEEE80211_MESHPREQ_BASE_SZ_AE; 322 ndest = iefrm[IEEE80211_MESHPREQ_TCNT_OFFSET_AE]; 323 } else { 324 /* w/o Originator External Address */ 325 alloc_sz = IEEE80211_MESHPREQ_BASE_SZ; 326 ndest = iefrm[IEEE80211_MESHPREQ_TCNT_OFFSET]; 327 } 328 alloc_sz += ndest * IEEE80211_MESHPREQ_TRGT_SZ; 329 330 if(iefrm[1] != (alloc_sz)) { 331 IEEE80211_DISCARD(vap, 332 IEEE80211_MSG_ACTION | IEEE80211_MSG_HWMP, 333 wh, NULL, "PREQ (AE=%s) with wrong len", 334 iefrm[2] & IEEE80211_MESHPREQ_FLAGS_AE ? "1" : "0"); 335 return (-1); 336 } 337 return ndest; 338 } 339 340 /* 341 * Verify the length of an HWMP PREP and returns 1 on success, 342 * otherwise -1. 343 */ 344 static int 345 verify_mesh_prep_len(struct ieee80211vap *vap, 346 const struct ieee80211_frame *wh, const uint8_t *iefrm) 347 { 348 int alloc_sz = -1; 349 if (iefrm[2] & IEEE80211_MESHPREP_FLAGS_AE) { 350 if (iefrm[1] == IEEE80211_MESHPREP_BASE_SZ_AE) 351 alloc_sz = IEEE80211_MESHPREP_BASE_SZ_AE; 352 } else if (iefrm[1] == IEEE80211_MESHPREP_BASE_SZ) 353 alloc_sz = IEEE80211_MESHPREP_BASE_SZ; 354 if(alloc_sz < 0) { 355 IEEE80211_DISCARD(vap, 356 IEEE80211_MSG_ACTION | IEEE80211_MSG_HWMP, 357 wh, NULL, "PREP (AE=%s) with wrong len", 358 iefrm[2] & IEEE80211_MESHPREP_FLAGS_AE ? "1" : "0"); 359 return (-1); 360 } 361 return (1); 362 } 363 364 /* 365 * Verify the length of an HWMP PERR and return the number 366 * of destinations >= 1, if verification fails -1 is returned. 367 */ 368 static int 369 verify_mesh_perr_len(struct ieee80211vap *vap, 370 const struct ieee80211_frame *wh, const uint8_t *iefrm) 371 { 372 int alloc_sz = -1; 373 const uint8_t *iefrm_t = iefrm; 374 uint8_t ndest = iefrm_t[IEEE80211_MESHPERR_NDEST_OFFSET]; 375 int i; 376 377 if(ndest > IEEE80211_MESHPERR_MAXDEST) { 378 IEEE80211_DISCARD(vap, 379 IEEE80211_MSG_ACTION | IEEE80211_MSG_HWMP, 380 wh, NULL, "PERR with wrong number of destionat (>19), %u", 381 ndest); 382 return (-1); 383 } 384 385 iefrm_t += IEEE80211_MESHPERR_NDEST_OFFSET + 1; /* flag is next field */ 386 /* We need to check each destionation flag to know size */ 387 for(i = 0; i<ndest; i++) { 388 if ((*iefrm_t) & IEEE80211_MESHPERR_FLAGS_AE) 389 iefrm_t += IEEE80211_MESHPERR_DEST_SZ_AE; 390 else 391 iefrm_t += IEEE80211_MESHPERR_DEST_SZ; 392 } 393 394 alloc_sz = (iefrm_t - iefrm) - 2; /* action + code */ 395 if(alloc_sz != iefrm[1]) { 396 IEEE80211_DISCARD(vap, 397 IEEE80211_MSG_ACTION | IEEE80211_MSG_HWMP, 398 wh, NULL, "%s", "PERR with wrong len"); 399 return (-1); 400 } 401 return ndest; 402 } 403 404 static int 405 hwmp_recv_action_meshpath(struct ieee80211_node *ni, 406 const struct ieee80211_frame *wh, 407 const uint8_t *frm, const uint8_t *efrm) 408 { 409 struct ieee80211vap *vap = ni->ni_vap; 410 struct ieee80211_meshpreq_ie *preq; 411 struct ieee80211_meshprep_ie *prep; 412 struct ieee80211_meshperr_ie *perr; 413 struct ieee80211_meshrann_ie rann; 414 const uint8_t *iefrm = frm + 2; /* action + code */ 415 const uint8_t *iefrm_t = iefrm; /* temporary pointer */ 416 int ndest = -1; 417 int found = 0; 418 419 while (efrm - iefrm > 1) { 420 IEEE80211_VERIFY_LENGTH(efrm - iefrm, iefrm[1] + 2, return 0); 421 switch (*iefrm) { 422 case IEEE80211_ELEMID_MESHPREQ: 423 { 424 int i = 0; 425 426 iefrm_t = iefrm; 427 ndest = verify_mesh_preq_len(vap, wh, iefrm_t); 428 if (ndest < 0) { 429 vap->iv_stats.is_rx_mgtdiscard++; 430 break; 431 } 432 preq = kmalloc(sizeof(*preq) + 433 (ndest - 1) * sizeof(*preq->preq_targets), 434 M_80211_MESH_PREQ, M_INTWAIT | M_ZERO); 435 KASSERT(preq != NULL, ("preq == NULL")); 436 437 preq->preq_ie = *iefrm_t++; 438 preq->preq_len = *iefrm_t++; 439 preq->preq_flags = *iefrm_t++; 440 preq->preq_hopcount = *iefrm_t++; 441 preq->preq_ttl = *iefrm_t++; 442 preq->preq_id = LE_READ_4(iefrm_t); iefrm_t += 4; 443 IEEE80211_ADDR_COPY(preq->preq_origaddr, iefrm_t); 444 iefrm_t += 6; 445 preq->preq_origseq = LE_READ_4(iefrm_t); iefrm_t += 4; 446 /* NB: may have Originator Proxied Address */ 447 if (preq->preq_flags & IEEE80211_MESHPREQ_FLAGS_AE) { 448 IEEE80211_ADDR_COPY( 449 preq->preq_orig_ext_addr, iefrm_t); 450 iefrm_t += 6; 451 } 452 preq->preq_lifetime = LE_READ_4(iefrm_t); iefrm_t += 4; 453 preq->preq_metric = LE_READ_4(iefrm_t); iefrm_t += 4; 454 preq->preq_tcount = *iefrm_t++; 455 456 for (i = 0; i < preq->preq_tcount; i++) { 457 preq->preq_targets[i].target_flags = *iefrm_t++; 458 IEEE80211_ADDR_COPY( 459 preq->preq_targets[i].target_addr, iefrm_t); 460 iefrm_t += 6; 461 preq->preq_targets[i].target_seq = 462 LE_READ_4(iefrm_t); 463 iefrm_t += 4; 464 } 465 466 hwmp_recv_preq(vap, ni, wh, preq); 467 kfree(preq, M_80211_MESH_PREQ); 468 found++; 469 break; 470 } 471 case IEEE80211_ELEMID_MESHPREP: 472 { 473 iefrm_t = iefrm; 474 ndest = verify_mesh_prep_len(vap, wh, iefrm_t); 475 if (ndest < 0) { 476 vap->iv_stats.is_rx_mgtdiscard++; 477 break; 478 } 479 prep = kmalloc(sizeof(*prep), 480 M_80211_MESH_PREP, M_INTWAIT | M_ZERO); 481 KASSERT(prep != NULL, ("prep == NULL")); 482 483 prep->prep_ie = *iefrm_t++; 484 prep->prep_len = *iefrm_t++; 485 prep->prep_flags = *iefrm_t++; 486 prep->prep_hopcount = *iefrm_t++; 487 prep->prep_ttl = *iefrm_t++; 488 IEEE80211_ADDR_COPY(prep->prep_targetaddr, iefrm_t); 489 iefrm_t += 6; 490 prep->prep_targetseq = LE_READ_4(iefrm_t); iefrm_t += 4; 491 /* NB: May have Target Proxied Address */ 492 if (prep->prep_flags & IEEE80211_MESHPREP_FLAGS_AE) { 493 IEEE80211_ADDR_COPY( 494 prep->prep_target_ext_addr, iefrm_t); 495 iefrm_t += 6; 496 } 497 prep->prep_lifetime = LE_READ_4(iefrm_t); iefrm_t += 4; 498 prep->prep_metric = LE_READ_4(iefrm_t); iefrm_t += 4; 499 IEEE80211_ADDR_COPY(prep->prep_origaddr, iefrm_t); 500 iefrm_t += 6; 501 prep->prep_origseq = LE_READ_4(iefrm_t); iefrm_t += 4; 502 503 hwmp_recv_prep(vap, ni, wh, prep); 504 kfree(prep, M_80211_MESH_PREP); 505 found++; 506 break; 507 } 508 case IEEE80211_ELEMID_MESHPERR: 509 { 510 int i = 0; 511 512 iefrm_t = iefrm; 513 ndest = verify_mesh_perr_len(vap, wh, iefrm_t); 514 if (ndest < 0) { 515 vap->iv_stats.is_rx_mgtdiscard++; 516 break; 517 } 518 perr = kmalloc(sizeof(*perr) + 519 (ndest - 1) * sizeof(*perr->perr_dests), 520 M_80211_MESH_PERR, M_INTWAIT | M_ZERO); 521 KASSERT(perr != NULL, ("perr == NULL")); 522 523 perr->perr_ie = *iefrm_t++; 524 perr->perr_len = *iefrm_t++; 525 perr->perr_ttl = *iefrm_t++; 526 perr->perr_ndests = *iefrm_t++; 527 528 for (i = 0; i<perr->perr_ndests; i++) { 529 perr->perr_dests[i].dest_flags = *iefrm_t++; 530 IEEE80211_ADDR_COPY( 531 perr->perr_dests[i].dest_addr, iefrm_t); 532 iefrm_t += 6; 533 perr->perr_dests[i].dest_seq = LE_READ_4(iefrm_t); 534 iefrm_t += 4; 535 /* NB: May have Target Proxied Address */ 536 if (perr->perr_dests[i].dest_flags & 537 IEEE80211_MESHPERR_FLAGS_AE) { 538 IEEE80211_ADDR_COPY( 539 perr->perr_dests[i].dest_ext_addr, 540 iefrm_t); 541 iefrm_t += 6; 542 } 543 perr->perr_dests[i].dest_rcode = 544 LE_READ_2(iefrm_t); 545 iefrm_t += 2; 546 } 547 548 hwmp_recv_perr(vap, ni, wh, perr); 549 kfree(perr, M_80211_MESH_PERR); 550 found++; 551 break; 552 } 553 case IEEE80211_ELEMID_MESHRANN: 554 { 555 const struct ieee80211_meshrann_ie *mrann = 556 (const struct ieee80211_meshrann_ie *) iefrm; 557 if (mrann->rann_len != 558 sizeof(struct ieee80211_meshrann_ie) - 2) { 559 IEEE80211_DISCARD(vap, 560 IEEE80211_MSG_ACTION | IEEE80211_MSG_HWMP, 561 wh, NULL, "%s", "RAN with wrong len"); 562 vap->iv_stats.is_rx_mgtdiscard++; 563 return 1; 564 } 565 memcpy(&rann, mrann, sizeof(rann)); 566 rann.rann_seq = LE_READ_4(&mrann->rann_seq); 567 rann.rann_interval = LE_READ_4(&mrann->rann_interval); 568 rann.rann_metric = LE_READ_4(&mrann->rann_metric); 569 hwmp_recv_rann(vap, ni, wh, &rann); 570 found++; 571 break; 572 } 573 } 574 iefrm += iefrm[1] + 2; 575 } 576 if (!found) { 577 IEEE80211_DISCARD(vap, 578 IEEE80211_MSG_ACTION | IEEE80211_MSG_HWMP, 579 wh, NULL, "%s", "PATH SEL action without IE"); 580 vap->iv_stats.is_rx_mgtdiscard++; 581 } 582 return 0; 583 } 584 585 static int 586 hwmp_send_action(struct ieee80211vap *vap, 587 const uint8_t da[IEEE80211_ADDR_LEN], 588 uint8_t *ie, size_t len) 589 { 590 struct ieee80211_node *ni; 591 struct ieee80211com *ic; 592 struct ieee80211_bpf_params params; 593 struct mbuf *m; 594 uint8_t *frm; 595 int ret; 596 597 if (IEEE80211_IS_MULTICAST(da)) { 598 ni = ieee80211_ref_node(vap->iv_bss); 599 #ifdef IEEE80211_DEBUG_REFCNT 600 IEEE80211_DPRINTF(vap, IEEE80211_MSG_NODE, 601 "ieee80211_ref_node (%s:%u) %p<%s> refcnt %d\n", 602 __func__, __LINE__, 603 ni, ether_sprintf(ni->ni_macaddr), 604 ieee80211_node_refcnt(ni)+1); 605 #endif 606 ieee80211_ref_node(ni); 607 } 608 else 609 ni = ieee80211_mesh_find_txnode(vap, da); 610 611 if (vap->iv_state == IEEE80211_S_CAC) { 612 IEEE80211_NOTE(vap, IEEE80211_MSG_OUTPUT, ni, 613 "block %s frame in CAC state", "HWMP action"); 614 vap->iv_stats.is_tx_badstate++; 615 return EIO; /* XXX */ 616 } 617 618 KASSERT(ni != NULL, ("null node")); 619 ic = ni->ni_ic; 620 621 m = ieee80211_getmgtframe(&frm, 622 ic->ic_headroom + sizeof(struct ieee80211_frame), 623 sizeof(struct ieee80211_action) + len 624 ); 625 if (m == NULL) { 626 ieee80211_free_node(ni); 627 vap->iv_stats.is_tx_nobuf++; 628 return ENOMEM; 629 } 630 *frm++ = IEEE80211_ACTION_CAT_MESH; 631 *frm++ = IEEE80211_ACTION_MESH_HWMP; 632 switch (*ie) { 633 case IEEE80211_ELEMID_MESHPREQ: 634 frm = hwmp_add_meshpreq(frm, 635 (struct ieee80211_meshpreq_ie *)ie); 636 break; 637 case IEEE80211_ELEMID_MESHPREP: 638 frm = hwmp_add_meshprep(frm, 639 (struct ieee80211_meshprep_ie *)ie); 640 break; 641 case IEEE80211_ELEMID_MESHPERR: 642 frm = hwmp_add_meshperr(frm, 643 (struct ieee80211_meshperr_ie *)ie); 644 break; 645 case IEEE80211_ELEMID_MESHRANN: 646 frm = hwmp_add_meshrann(frm, 647 (struct ieee80211_meshrann_ie *)ie); 648 break; 649 } 650 651 m->m_pkthdr.len = m->m_len = frm - mtod(m, uint8_t *); 652 M_PREPEND(m, sizeof(struct ieee80211_frame), M_NOWAIT); 653 if (m == NULL) { 654 ieee80211_free_node(ni); 655 vap->iv_stats.is_tx_nobuf++; 656 return ENOMEM; 657 } 658 659 IEEE80211_TX_LOCK(ic); 660 661 ieee80211_send_setup(ni, m, 662 IEEE80211_FC0_TYPE_MGT | IEEE80211_FC0_SUBTYPE_ACTION, 663 IEEE80211_NONQOS_TID, vap->iv_myaddr, da, vap->iv_myaddr); 664 665 m->m_flags |= M_ENCAP; /* mark encapsulated */ 666 IEEE80211_NODE_STAT(ni, tx_mgmt); 667 668 memset(¶ms, 0, sizeof(params)); 669 params.ibp_pri = WME_AC_VO; 670 params.ibp_rate0 = ni->ni_txparms->mgmtrate; 671 if (IEEE80211_IS_MULTICAST(da)) 672 params.ibp_try0 = 1; 673 else 674 params.ibp_try0 = ni->ni_txparms->maxretry; 675 params.ibp_power = ni->ni_txpower; 676 ret = ieee80211_raw_output(vap, ni, m, ¶ms); 677 IEEE80211_TX_UNLOCK(ic); 678 return (ret); 679 } 680 681 #define ADDSHORT(frm, v) do { \ 682 frm[0] = (v) & 0xff; \ 683 frm[1] = (v) >> 8; \ 684 frm += 2; \ 685 } while (0) 686 #define ADDWORD(frm, v) do { \ 687 LE_WRITE_4(frm, v); \ 688 frm += 4; \ 689 } while (0) 690 /* 691 * Add a Mesh Path Request IE to a frame. 692 */ 693 #define PREQ_TFLAGS(n) preq->preq_targets[n].target_flags 694 #define PREQ_TADDR(n) preq->preq_targets[n].target_addr 695 #define PREQ_TSEQ(n) preq->preq_targets[n].target_seq 696 static uint8_t * 697 hwmp_add_meshpreq(uint8_t *frm, const struct ieee80211_meshpreq_ie *preq) 698 { 699 int i; 700 701 *frm++ = IEEE80211_ELEMID_MESHPREQ; 702 *frm++ = preq->preq_len; /* len already calculated */ 703 *frm++ = preq->preq_flags; 704 *frm++ = preq->preq_hopcount; 705 *frm++ = preq->preq_ttl; 706 ADDWORD(frm, preq->preq_id); 707 IEEE80211_ADDR_COPY(frm, preq->preq_origaddr); frm += 6; 708 ADDWORD(frm, preq->preq_origseq); 709 if (preq->preq_flags & IEEE80211_MESHPREQ_FLAGS_AE) { 710 IEEE80211_ADDR_COPY(frm, preq->preq_orig_ext_addr); 711 frm += 6; 712 } 713 ADDWORD(frm, preq->preq_lifetime); 714 ADDWORD(frm, preq->preq_metric); 715 *frm++ = preq->preq_tcount; 716 for (i = 0; i < preq->preq_tcount; i++) { 717 *frm++ = PREQ_TFLAGS(i); 718 IEEE80211_ADDR_COPY(frm, PREQ_TADDR(i)); 719 frm += 6; 720 ADDWORD(frm, PREQ_TSEQ(i)); 721 } 722 return frm; 723 } 724 #undef PREQ_TFLAGS 725 #undef PREQ_TADDR 726 #undef PREQ_TSEQ 727 728 /* 729 * Add a Mesh Path Reply IE to a frame. 730 */ 731 static uint8_t * 732 hwmp_add_meshprep(uint8_t *frm, const struct ieee80211_meshprep_ie *prep) 733 { 734 *frm++ = IEEE80211_ELEMID_MESHPREP; 735 *frm++ = prep->prep_len; /* len already calculated */ 736 *frm++ = prep->prep_flags; 737 *frm++ = prep->prep_hopcount; 738 *frm++ = prep->prep_ttl; 739 IEEE80211_ADDR_COPY(frm, prep->prep_targetaddr); frm += 6; 740 ADDWORD(frm, prep->prep_targetseq); 741 if (prep->prep_flags & IEEE80211_MESHPREP_FLAGS_AE) { 742 IEEE80211_ADDR_COPY(frm, prep->prep_target_ext_addr); 743 frm += 6; 744 } 745 ADDWORD(frm, prep->prep_lifetime); 746 ADDWORD(frm, prep->prep_metric); 747 IEEE80211_ADDR_COPY(frm, prep->prep_origaddr); frm += 6; 748 ADDWORD(frm, prep->prep_origseq); 749 return frm; 750 } 751 752 /* 753 * Add a Mesh Path Error IE to a frame. 754 */ 755 #define PERR_DFLAGS(n) perr->perr_dests[n].dest_flags 756 #define PERR_DADDR(n) perr->perr_dests[n].dest_addr 757 #define PERR_DSEQ(n) perr->perr_dests[n].dest_seq 758 #define PERR_EXTADDR(n) perr->perr_dests[n].dest_ext_addr 759 #define PERR_DRCODE(n) perr->perr_dests[n].dest_rcode 760 static uint8_t * 761 hwmp_add_meshperr(uint8_t *frm, const struct ieee80211_meshperr_ie *perr) 762 { 763 int i; 764 765 *frm++ = IEEE80211_ELEMID_MESHPERR; 766 *frm++ = perr->perr_len; /* len already calculated */ 767 *frm++ = perr->perr_ttl; 768 *frm++ = perr->perr_ndests; 769 for (i = 0; i < perr->perr_ndests; i++) { 770 *frm++ = PERR_DFLAGS(i); 771 IEEE80211_ADDR_COPY(frm, PERR_DADDR(i)); 772 frm += 6; 773 ADDWORD(frm, PERR_DSEQ(i)); 774 if (PERR_DFLAGS(i) & IEEE80211_MESHPERR_FLAGS_AE) { 775 IEEE80211_ADDR_COPY(frm, PERR_EXTADDR(i)); 776 frm += 6; 777 } 778 ADDSHORT(frm, PERR_DRCODE(i)); 779 } 780 return frm; 781 } 782 #undef PERR_DFLAGS 783 #undef PERR_DADDR 784 #undef PERR_DSEQ 785 #undef PERR_EXTADDR 786 #undef PERR_DRCODE 787 788 /* 789 * Add a Root Annoucement IE to a frame. 790 */ 791 static uint8_t * 792 hwmp_add_meshrann(uint8_t *frm, const struct ieee80211_meshrann_ie *rann) 793 { 794 *frm++ = IEEE80211_ELEMID_MESHRANN; 795 *frm++ = rann->rann_len; 796 *frm++ = rann->rann_flags; 797 *frm++ = rann->rann_hopcount; 798 *frm++ = rann->rann_ttl; 799 IEEE80211_ADDR_COPY(frm, rann->rann_addr); frm += 6; 800 ADDWORD(frm, rann->rann_seq); 801 ADDWORD(frm, rann->rann_interval); 802 ADDWORD(frm, rann->rann_metric); 803 return frm; 804 } 805 806 static void 807 hwmp_rootmode_setup(struct ieee80211vap *vap) 808 { 809 struct ieee80211_hwmp_state *hs = vap->iv_hwmp; 810 struct ieee80211_mesh_state *ms = vap->iv_mesh; 811 812 switch (hs->hs_rootmode) { 813 case IEEE80211_HWMP_ROOTMODE_DISABLED: 814 callout_drain(&hs->hs_roottimer); 815 ms->ms_flags &= ~IEEE80211_MESHFLAGS_ROOT; 816 break; 817 case IEEE80211_HWMP_ROOTMODE_NORMAL: 818 case IEEE80211_HWMP_ROOTMODE_PROACTIVE: 819 callout_reset(&hs->hs_roottimer, ieee80211_hwmp_rootint, 820 hwmp_rootmode_cb, vap); 821 ms->ms_flags |= IEEE80211_MESHFLAGS_ROOT; 822 break; 823 case IEEE80211_HWMP_ROOTMODE_RANN: 824 callout_reset(&hs->hs_roottimer, ieee80211_hwmp_rannint, 825 hwmp_rootmode_rann_cb, vap); 826 ms->ms_flags |= IEEE80211_MESHFLAGS_ROOT; 827 break; 828 } 829 } 830 831 /* 832 * Send a broadcast Path Request to find all nodes on the mesh. We are 833 * called when the vap is configured as a HWMP root node. 834 */ 835 #define PREQ_TFLAGS(n) preq.preq_targets[n].target_flags 836 #define PREQ_TADDR(n) preq.preq_targets[n].target_addr 837 #define PREQ_TSEQ(n) preq.preq_targets[n].target_seq 838 static void 839 hwmp_rootmode_cb(void *arg) 840 { 841 struct ieee80211vap *vap = (struct ieee80211vap *)arg; 842 struct ieee80211_hwmp_state *hs = vap->iv_hwmp; 843 struct ieee80211_mesh_state *ms = vap->iv_mesh; 844 struct ieee80211_meshpreq_ie preq; 845 846 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, vap->iv_bss, 847 "%s", "send broadcast PREQ"); 848 849 preq.preq_flags = 0; 850 if (ms->ms_flags & IEEE80211_MESHFLAGS_GATE) 851 preq.preq_flags |= IEEE80211_MESHPREQ_FLAGS_GATE; 852 if (hs->hs_rootmode == IEEE80211_HWMP_ROOTMODE_PROACTIVE) 853 preq.preq_flags |= IEEE80211_MESHPREQ_FLAGS_PP; 854 preq.preq_hopcount = 0; 855 preq.preq_ttl = ms->ms_ttl; 856 preq.preq_id = ++hs->hs_preqid; 857 IEEE80211_ADDR_COPY(preq.preq_origaddr, vap->iv_myaddr); 858 preq.preq_origseq = ++hs->hs_seq; 859 preq.preq_lifetime = ticks_to_msecs(ieee80211_hwmp_roottimeout); 860 preq.preq_metric = IEEE80211_MESHLMETRIC_INITIALVAL; 861 preq.preq_tcount = 1; 862 IEEE80211_ADDR_COPY(PREQ_TADDR(0), broadcastaddr); 863 PREQ_TFLAGS(0) = IEEE80211_MESHPREQ_TFLAGS_TO | 864 IEEE80211_MESHPREQ_TFLAGS_USN; 865 PREQ_TSEQ(0) = 0; 866 vap->iv_stats.is_hwmp_rootreqs++; 867 /* NB: we enforce rate check ourself */ 868 hwmp_send_preq(vap, broadcastaddr, &preq, NULL, NULL); 869 hwmp_rootmode_setup(vap); 870 } 871 #undef PREQ_TFLAGS 872 #undef PREQ_TADDR 873 #undef PREQ_TSEQ 874 875 /* 876 * Send a Root Annoucement (RANN) to find all the nodes on the mesh. We are 877 * called when the vap is configured as a HWMP RANN root node. 878 */ 879 static void 880 hwmp_rootmode_rann_cb(void *arg) 881 { 882 struct ieee80211vap *vap = (struct ieee80211vap *)arg; 883 struct ieee80211_hwmp_state *hs = vap->iv_hwmp; 884 struct ieee80211_mesh_state *ms = vap->iv_mesh; 885 struct ieee80211_meshrann_ie rann; 886 887 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, vap->iv_bss, 888 "%s", "send broadcast RANN"); 889 890 rann.rann_flags = 0; 891 if (ms->ms_flags & IEEE80211_MESHFLAGS_GATE) 892 rann.rann_flags |= IEEE80211_MESHFLAGS_GATE; 893 rann.rann_hopcount = 0; 894 rann.rann_ttl = ms->ms_ttl; 895 IEEE80211_ADDR_COPY(rann.rann_addr, vap->iv_myaddr); 896 rann.rann_seq = ++hs->hs_seq; 897 rann.rann_interval = ieee80211_hwmp_rannint; 898 rann.rann_metric = IEEE80211_MESHLMETRIC_INITIALVAL; 899 900 vap->iv_stats.is_hwmp_rootrann++; 901 hwmp_send_rann(vap, broadcastaddr, &rann); 902 hwmp_rootmode_setup(vap); 903 } 904 905 /* 906 * Update forwarding information to TA if metric improves. 907 */ 908 static void 909 hwmp_update_transmitter(struct ieee80211vap *vap, struct ieee80211_node *ni, 910 const char *hwmp_frame) 911 { 912 struct ieee80211_mesh_state *ms = vap->iv_mesh; 913 struct ieee80211_mesh_route *rttran = NULL; /* Transmitter */ 914 int metric = 0; 915 916 rttran = ieee80211_mesh_rt_find(vap, ni->ni_macaddr); 917 if (rttran == NULL) { 918 rttran = ieee80211_mesh_rt_add(vap, ni->ni_macaddr); 919 if (rttran == NULL) { 920 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 921 "unable to add path to transmitter %s of %s", 922 ether_sprintf(ni->ni_macaddr), hwmp_frame); 923 vap->iv_stats.is_mesh_rtaddfailed++; 924 return; 925 } 926 } 927 metric = ms->ms_pmetric->mpm_metric(ni); 928 if (!(rttran->rt_flags & IEEE80211_MESHRT_FLAGS_VALID) || 929 rttran->rt_metric > metric) 930 { 931 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 932 "%s path to transmitter %s of %s, metric %d:%d", 933 rttran->rt_flags & IEEE80211_MESHRT_FLAGS_VALID ? 934 "prefer" : "update", ether_sprintf(ni->ni_macaddr), 935 hwmp_frame, 936 rttran->rt_metric, metric); 937 IEEE80211_ADDR_COPY(rttran->rt_nexthop, ni->ni_macaddr); 938 rttran->rt_metric = metric; 939 rttran->rt_nhops = 1; 940 ieee80211_mesh_rt_update(rttran, ms->ms_ppath->mpp_inact); 941 rttran->rt_flags = IEEE80211_MESHRT_FLAGS_VALID; 942 } 943 } 944 945 #define PREQ_TFLAGS(n) preq->preq_targets[n].target_flags 946 #define PREQ_TADDR(n) preq->preq_targets[n].target_addr 947 #define PREQ_TSEQ(n) preq->preq_targets[n].target_seq 948 static void 949 hwmp_recv_preq(struct ieee80211vap *vap, struct ieee80211_node *ni, 950 const struct ieee80211_frame *wh, const struct ieee80211_meshpreq_ie *preq) 951 { 952 struct ieee80211_mesh_state *ms = vap->iv_mesh; 953 struct ieee80211_mesh_route *rtorig = NULL; 954 struct ieee80211_mesh_route *rtorig_ext = NULL; 955 struct ieee80211_mesh_route *rttarg = NULL; 956 struct ieee80211_hwmp_route *hrorig = NULL; 957 struct ieee80211_hwmp_route *hrtarg = NULL; 958 struct ieee80211_hwmp_state *hs = vap->iv_hwmp; 959 struct ieee80211_meshprep_ie prep; 960 ieee80211_hwmp_seq preqid; /* last seen preqid for orig */ 961 uint32_t metric = 0; 962 963 /* 964 * Ignore PREQs from us. Could happen because someone forward it 965 * back to us. 966 */ 967 if (IEEE80211_ADDR_EQ(vap->iv_myaddr, preq->preq_origaddr)) 968 return; 969 970 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 971 "received PREQ, orig %s, targ(0) %s", 972 ether_sprintf(preq->preq_origaddr), 973 ether_sprintf(PREQ_TADDR(0))); 974 975 /* 976 * Acceptance criteria: (if the PREQ is not for us or not broadcast, 977 * or an external mac address not proxied by us), 978 * AND forwarding is disabled, discard this PREQ. 979 */ 980 rttarg = ieee80211_mesh_rt_find(vap, PREQ_TADDR(0)); 981 if (!(ms->ms_flags & IEEE80211_MESHFLAGS_FWD) && 982 (!IEEE80211_ADDR_EQ(vap->iv_myaddr, PREQ_TADDR(0)) || 983 !IEEE80211_IS_MULTICAST(PREQ_TADDR(0)) || 984 (rttarg != NULL && 985 rttarg->rt_flags & IEEE80211_MESHRT_FLAGS_PROXY && 986 IEEE80211_ADDR_EQ(vap->iv_myaddr, rttarg->rt_mesh_gate)))) { 987 IEEE80211_DISCARD_MAC(vap, IEEE80211_MSG_HWMP, 988 preq->preq_origaddr, NULL, "%s", "not accepting PREQ"); 989 return; 990 } 991 /* 992 * Acceptance criteria: if unicast addressed 993 * AND no valid forwarding for Target of PREQ, discard this PREQ. 994 */ 995 if(rttarg != NULL) 996 hrtarg = IEEE80211_MESH_ROUTE_PRIV(rttarg, 997 struct ieee80211_hwmp_route); 998 /* Address mode: ucast */ 999 if(preq->preq_flags & IEEE80211_MESHPREQ_FLAGS_AM && 1000 rttarg == NULL && 1001 !IEEE80211_ADDR_EQ(vap->iv_myaddr, PREQ_TADDR(0))) { 1002 IEEE80211_DISCARD_MAC(vap, IEEE80211_MSG_HWMP, 1003 preq->preq_origaddr, NULL, 1004 "unicast addressed PREQ of unknown target %s", 1005 ether_sprintf(PREQ_TADDR(0))); 1006 return; 1007 } 1008 1009 /* PREQ ACCEPTED */ 1010 1011 rtorig = ieee80211_mesh_rt_find(vap, preq->preq_origaddr); 1012 if (rtorig == NULL) { 1013 rtorig = ieee80211_mesh_rt_add(vap, preq->preq_origaddr); 1014 if (rtorig == NULL) { 1015 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1016 "unable to add orig path to %s", 1017 ether_sprintf(preq->preq_origaddr)); 1018 vap->iv_stats.is_mesh_rtaddfailed++; 1019 return; 1020 } 1021 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1022 "adding originator %s", 1023 ether_sprintf(preq->preq_origaddr)); 1024 } 1025 hrorig = IEEE80211_MESH_ROUTE_PRIV(rtorig, struct ieee80211_hwmp_route); 1026 1027 /* record last seen preqid */ 1028 preqid = hrorig->hr_preqid; 1029 hrorig->hr_preqid = HWMP_SEQ_MAX(hrorig->hr_preqid, preq->preq_id); 1030 1031 /* Data creation and update of forwarding information 1032 * according to Table 11C-8 for originator mesh STA. 1033 */ 1034 metric = preq->preq_metric + ms->ms_pmetric->mpm_metric(ni); 1035 if (HWMP_SEQ_GT(preq->preq_origseq, hrorig->hr_seq) || 1036 (HWMP_SEQ_EQ(preq->preq_origseq, hrorig->hr_seq) && 1037 metric < rtorig->rt_metric)) { 1038 hrorig->hr_seq = preq->preq_origseq; 1039 IEEE80211_ADDR_COPY(rtorig->rt_nexthop, wh->i_addr2); 1040 rtorig->rt_metric = metric; 1041 rtorig->rt_nhops = preq->preq_hopcount + 1; 1042 ieee80211_mesh_rt_update(rtorig, preq->preq_lifetime); 1043 /* Path to orig is valid now. 1044 * NB: we know it can't be Proxy, and if it is GATE 1045 * it will be marked below. 1046 */ 1047 rtorig->rt_flags = IEEE80211_MESHRT_FLAGS_VALID; 1048 } else if ((hrtarg != NULL && 1049 !HWMP_SEQ_EQ(hrtarg->hr_seq, PREQ_TSEQ(0))) || 1050 (rtorig->rt_flags & IEEE80211_MESHRT_FLAGS_VALID && 1051 preqid >= preq->preq_id)) { 1052 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1053 "discard PREQ from %s, old seqno %u <= %u," 1054 " or old preqid %u < %u", 1055 ether_sprintf(preq->preq_origaddr), 1056 preq->preq_origseq, hrorig->hr_seq, 1057 preq->preq_id, preqid); 1058 return; 1059 } 1060 1061 /* Update forwarding information to TA if metric improves. */ 1062 hwmp_update_transmitter(vap, ni, "PREQ"); 1063 1064 /* 1065 * Check if the PREQ is addressed to us. 1066 * or a Proxy currently gated by us. 1067 */ 1068 if (IEEE80211_ADDR_EQ(vap->iv_myaddr, PREQ_TADDR(0)) || 1069 (ms->ms_flags & IEEE80211_MESHFLAGS_GATE && 1070 rttarg != NULL && 1071 IEEE80211_ADDR_EQ(vap->iv_myaddr, rttarg->rt_mesh_gate) && 1072 rttarg->rt_flags & IEEE80211_MESHRT_FLAGS_PROXY && 1073 rttarg->rt_flags & IEEE80211_MESHRT_FLAGS_VALID)) { 1074 /* 1075 * When we are the target we shall update our own HWMP seq 1076 * number with max of (current and preq->seq) + 1 1077 */ 1078 hs->hs_seq = HWMP_SEQ_MAX(hs->hs_seq, PREQ_TSEQ(0)) + 1; 1079 1080 prep.prep_flags = 0; 1081 prep.prep_hopcount = 0; 1082 prep.prep_metric = IEEE80211_MESHLMETRIC_INITIALVAL; 1083 IEEE80211_ADDR_COPY(prep.prep_targetaddr, vap->iv_myaddr); 1084 if (rttarg != NULL && /* if NULL it means we are the target */ 1085 rttarg->rt_flags & IEEE80211_MESHRT_FLAGS_PROXY) { 1086 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1087 "reply for proxy %s", 1088 ether_sprintf(rttarg->rt_dest)); 1089 prep.prep_flags |= IEEE80211_MESHPREP_FLAGS_AE; 1090 IEEE80211_ADDR_COPY(prep.prep_target_ext_addr, 1091 rttarg->rt_dest); 1092 /* update proxy seqno to HWMP seqno */ 1093 rttarg->rt_ext_seq = hs->hs_seq; 1094 prep.prep_hopcount = rttarg->rt_nhops; 1095 prep.prep_metric = rttarg->rt_metric; 1096 IEEE80211_ADDR_COPY(prep.prep_targetaddr, rttarg->rt_mesh_gate); 1097 } 1098 /* 1099 * Build and send a PREP frame. 1100 */ 1101 prep.prep_ttl = ms->ms_ttl; 1102 prep.prep_targetseq = hs->hs_seq; 1103 prep.prep_lifetime = preq->preq_lifetime; 1104 IEEE80211_ADDR_COPY(prep.prep_origaddr, preq->preq_origaddr); 1105 prep.prep_origseq = preq->preq_origseq; 1106 1107 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1108 "reply to %s", ether_sprintf(preq->preq_origaddr)); 1109 hwmp_send_prep(vap, wh->i_addr2, &prep); 1110 return; 1111 } 1112 /* we may update our proxy information for the orig external */ 1113 else if (preq->preq_flags & IEEE80211_MESHPREQ_FLAGS_AE) { 1114 rtorig_ext = 1115 ieee80211_mesh_rt_find(vap, preq->preq_orig_ext_addr); 1116 if (rtorig_ext == NULL) { 1117 rtorig_ext = ieee80211_mesh_rt_add(vap, 1118 preq->preq_orig_ext_addr); 1119 if (rtorig_ext == NULL) { 1120 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1121 "unable to add orig ext proxy to %s", 1122 ether_sprintf(preq->preq_orig_ext_addr)); 1123 vap->iv_stats.is_mesh_rtaddfailed++; 1124 return; 1125 } 1126 IEEE80211_ADDR_COPY(rtorig_ext->rt_mesh_gate, 1127 preq->preq_origaddr); 1128 } 1129 rtorig_ext->rt_ext_seq = preq->preq_origseq; 1130 ieee80211_mesh_rt_update(rtorig_ext, preq->preq_lifetime); 1131 } 1132 /* 1133 * Proactive PREQ: reply with a proactive PREP to the 1134 * root STA if requested. 1135 */ 1136 if (IEEE80211_ADDR_EQ(PREQ_TADDR(0), broadcastaddr) && 1137 (PREQ_TFLAGS(0) & IEEE80211_MESHPREQ_TFLAGS_TO)) { 1138 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1139 "root mesh station @ %s", 1140 ether_sprintf(preq->preq_origaddr)); 1141 1142 /* Check if root is a mesh gate, mark it */ 1143 if (preq->preq_flags & IEEE80211_MESHPREQ_FLAGS_GATE) { 1144 struct ieee80211_mesh_gate_route *gr; 1145 1146 rtorig->rt_flags |= IEEE80211_MESHRT_FLAGS_GATE; 1147 gr = ieee80211_mesh_mark_gate(vap, preq->preq_origaddr, 1148 rtorig); 1149 gr->gr_lastseq = 0; /* NOT GANN */ 1150 } 1151 1152 /* 1153 * Reply with a PREP if we don't have a path to the root 1154 * or if the root sent us a proactive PREQ. 1155 */ 1156 if ((rtorig->rt_flags & IEEE80211_MESHRT_FLAGS_VALID) == 0 || 1157 (preq->preq_flags & IEEE80211_MESHPREQ_FLAGS_PP)) { 1158 prep.prep_flags = 0; 1159 prep.prep_hopcount = 0; 1160 prep.prep_ttl = ms->ms_ttl; 1161 IEEE80211_ADDR_COPY(prep.prep_origaddr, 1162 preq->preq_origaddr); 1163 prep.prep_origseq = preq->preq_origseq; 1164 prep.prep_lifetime = preq->preq_lifetime; 1165 prep.prep_metric = IEEE80211_MESHLMETRIC_INITIALVAL; 1166 IEEE80211_ADDR_COPY(prep.prep_targetaddr, 1167 vap->iv_myaddr); 1168 prep.prep_targetseq = ++hs->hs_seq; 1169 hwmp_send_prep(vap, rtorig->rt_nexthop, &prep); 1170 } 1171 } 1172 1173 /* 1174 * Forwarding and Intermediate reply for PREQs with 1 target. 1175 */ 1176 if ((preq->preq_tcount == 1) && (preq->preq_ttl > 1) && 1177 (ms->ms_flags & IEEE80211_MESHFLAGS_FWD)) { 1178 struct ieee80211_meshpreq_ie ppreq; /* propagated PREQ */ 1179 1180 memcpy(&ppreq, preq, sizeof(ppreq)); 1181 1182 /* 1183 * We have a valid route to this node. 1184 * NB: if target is proxy dont reply. 1185 */ 1186 if (rttarg != NULL && 1187 rttarg->rt_flags & IEEE80211_MESHRT_FLAGS_VALID && 1188 !(rttarg->rt_flags & IEEE80211_MESHRT_FLAGS_PROXY)) { 1189 /* 1190 * Check if we can send an intermediate Path Reply, 1191 * i.e., Target Only bit is not set and target is not 1192 * the MAC broadcast address. 1193 */ 1194 if (!(PREQ_TFLAGS(0) & IEEE80211_MESHPREQ_TFLAGS_TO) && 1195 !IEEE80211_ADDR_EQ(PREQ_TADDR(0), broadcastaddr)) { 1196 struct ieee80211_meshprep_ie prep; 1197 1198 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1199 "intermediate reply for PREQ from %s", 1200 ether_sprintf(preq->preq_origaddr)); 1201 prep.prep_flags = 0; 1202 prep.prep_hopcount = rttarg->rt_nhops; 1203 prep.prep_ttl = ms->ms_ttl; 1204 IEEE80211_ADDR_COPY(&prep.prep_targetaddr, 1205 PREQ_TADDR(0)); 1206 prep.prep_targetseq = hrtarg->hr_seq; 1207 prep.prep_lifetime = preq->preq_lifetime; 1208 prep.prep_metric =rttarg->rt_metric; 1209 IEEE80211_ADDR_COPY(&prep.prep_origaddr, 1210 preq->preq_origaddr); 1211 prep.prep_origseq = hrorig->hr_seq; 1212 hwmp_send_prep(vap, rtorig->rt_nexthop, &prep); 1213 1214 /* 1215 * Set TO and unset RF bits because we have 1216 * sent a PREP. 1217 */ 1218 ppreq.preq_targets[0].target_flags |= 1219 IEEE80211_MESHPREQ_TFLAGS_TO; 1220 } 1221 } 1222 1223 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1224 "forward PREQ from %s", 1225 ether_sprintf(preq->preq_origaddr)); 1226 ppreq.preq_hopcount += 1; 1227 ppreq.preq_ttl -= 1; 1228 ppreq.preq_metric += ms->ms_pmetric->mpm_metric(ni); 1229 1230 /* don't do PREQ ratecheck when we propagate */ 1231 hwmp_send_preq(vap, broadcastaddr, &ppreq, NULL, NULL); 1232 } 1233 } 1234 #undef PREQ_TFLAGS 1235 #undef PREQ_TADDR 1236 #undef PREQ_TSEQ 1237 1238 static int 1239 hwmp_send_preq(struct ieee80211vap *vap, 1240 const uint8_t da[IEEE80211_ADDR_LEN], 1241 struct ieee80211_meshpreq_ie *preq, 1242 struct timeval *last, struct timeval *minint) 1243 { 1244 1245 /* 1246 * Enforce PREQ interval. 1247 * NB: Proactive ROOT PREQs rate is handled by cb task. 1248 */ 1249 if (last != NULL && minint != NULL) { 1250 if (ratecheck(last, minint) == 0) 1251 return EALREADY; /* XXX: we should postpone */ 1252 getmicrouptime(last); 1253 } 1254 1255 /* 1256 * mesh preq action frame format 1257 * [6] da 1258 * [6] sa 1259 * [6] addr3 = sa 1260 * [1] action 1261 * [1] category 1262 * [tlv] mesh path request 1263 */ 1264 preq->preq_ie = IEEE80211_ELEMID_MESHPREQ; 1265 preq->preq_len = (preq->preq_flags & IEEE80211_MESHPREQ_FLAGS_AE ? 1266 IEEE80211_MESHPREQ_BASE_SZ_AE : IEEE80211_MESHPREQ_BASE_SZ) + 1267 preq->preq_tcount * IEEE80211_MESHPREQ_TRGT_SZ; 1268 return hwmp_send_action(vap, da, (uint8_t *)preq, preq->preq_len+2); 1269 } 1270 1271 static void 1272 hwmp_recv_prep(struct ieee80211vap *vap, struct ieee80211_node *ni, 1273 const struct ieee80211_frame *wh, const struct ieee80211_meshprep_ie *prep) 1274 { 1275 #define IS_PROXY(rt) (rt->rt_flags & IEEE80211_MESHRT_FLAGS_PROXY) 1276 #define PROXIED_BY_US(rt) \ 1277 (IEEE80211_ADDR_EQ(vap->iv_myaddr, rt->rt_mesh_gate)) 1278 struct ieee80211_mesh_state *ms = vap->iv_mesh; 1279 struct ieee80211_hwmp_state *hs = vap->iv_hwmp; 1280 struct ieee80211_mesh_route *rt = NULL; 1281 struct ieee80211_mesh_route *rtorig = NULL; 1282 struct ieee80211_mesh_route *rtext = NULL; 1283 struct ieee80211_hwmp_route *hr; 1284 struct ieee80211com *ic = vap->iv_ic; 1285 struct mbuf *m, *next; 1286 uint32_t metric = 0; 1287 const uint8_t *addr; 1288 1289 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1290 "received PREP, orig %s, targ %s", 1291 ether_sprintf(prep->prep_origaddr), 1292 ether_sprintf(prep->prep_targetaddr)); 1293 1294 /* 1295 * Acceptance criteria: (If the corresponding PREP was not generated 1296 * by us OR not generated by an external mac that is not proxied by us) 1297 * AND forwarding is disabled, discard this PREP. 1298 */ 1299 rtorig = ieee80211_mesh_rt_find(vap, prep->prep_origaddr); 1300 if ((!IEEE80211_ADDR_EQ(vap->iv_myaddr, prep->prep_origaddr) || 1301 (rtorig != NULL && IS_PROXY(rtorig) && !PROXIED_BY_US(rtorig))) && 1302 !(ms->ms_flags & IEEE80211_MESHFLAGS_FWD)){ 1303 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1304 "discard PREP, orig(%s) not proxied or generated by us", 1305 ether_sprintf(prep->prep_origaddr)); 1306 return; 1307 } 1308 1309 /* PREP ACCEPTED */ 1310 1311 /* 1312 * If accepted shall create or update the active forwarding information 1313 * it maintains for the target mesh STA of the PREP (according to the 1314 * rules defined in 13.10.8.4). If the conditions for creating or 1315 * updating the forwarding information have not been met in those 1316 * rules, no further steps are applied to the PREP. 1317 */ 1318 rt = ieee80211_mesh_rt_find(vap, prep->prep_targetaddr); 1319 if (rt == NULL) { 1320 rt = ieee80211_mesh_rt_add(vap, prep->prep_targetaddr); 1321 if (rt == NULL) { 1322 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1323 "unable to add PREP path to %s", 1324 ether_sprintf(prep->prep_targetaddr)); 1325 vap->iv_stats.is_mesh_rtaddfailed++; 1326 return; 1327 } 1328 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1329 "adding target %s", ether_sprintf(prep->prep_targetaddr)); 1330 } 1331 hr = IEEE80211_MESH_ROUTE_PRIV(rt, struct ieee80211_hwmp_route); 1332 /* update path metric */ 1333 metric = prep->prep_metric + ms->ms_pmetric->mpm_metric(ni); 1334 if ((rt->rt_flags & IEEE80211_MESHRT_FLAGS_VALID)) { 1335 if (HWMP_SEQ_LT(prep->prep_targetseq, hr->hr_seq)) { 1336 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1337 "discard PREP from %s, old seq no %u < %u", 1338 ether_sprintf(prep->prep_targetaddr), 1339 prep->prep_targetseq, hr->hr_seq); 1340 return; 1341 } else if (HWMP_SEQ_LEQ(prep->prep_targetseq, hr->hr_seq) && 1342 metric > rt->rt_metric) { 1343 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1344 "discard PREP from %s, new metric %u > %u", 1345 ether_sprintf(prep->prep_targetaddr), 1346 metric, rt->rt_metric); 1347 return; 1348 } 1349 } 1350 1351 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1352 "%s path to %s, hopcount %d:%d metric %d:%d", 1353 rt->rt_flags & IEEE80211_MESHRT_FLAGS_VALID ? 1354 "prefer" : "update", 1355 ether_sprintf(prep->prep_targetaddr), 1356 rt->rt_nhops, prep->prep_hopcount + 1, 1357 rt->rt_metric, metric); 1358 1359 hr->hr_seq = prep->prep_targetseq; 1360 hr->hr_preqretries = 0; 1361 IEEE80211_ADDR_COPY(rt->rt_nexthop, ni->ni_macaddr); 1362 rt->rt_metric = metric; 1363 rt->rt_nhops = prep->prep_hopcount + 1; 1364 ieee80211_mesh_rt_update(rt, prep->prep_lifetime); 1365 if (rt->rt_flags & IEEE80211_MESHRT_FLAGS_DISCOVER) { 1366 /* discovery complete */ 1367 rt->rt_flags &= ~IEEE80211_MESHRT_FLAGS_DISCOVER; 1368 } 1369 rt->rt_flags |= IEEE80211_MESHRT_FLAGS_VALID; /* mark valid */ 1370 1371 /* Update forwarding information to TA if metric improves */ 1372 hwmp_update_transmitter(vap, ni, "PREP"); 1373 1374 /* 1375 * If it's NOT for us, propagate the PREP 1376 */ 1377 if (!IEEE80211_ADDR_EQ(vap->iv_myaddr, prep->prep_origaddr) && 1378 prep->prep_ttl > 1 && 1379 prep->prep_hopcount < hs->hs_maxhops) { 1380 struct ieee80211_meshprep_ie pprep; /* propagated PREP */ 1381 /* 1382 * NB: We should already have setup the path to orig 1383 * mesh STA when we propagated PREQ to target mesh STA, 1384 * no PREP is generated without a corresponding PREQ. 1385 * XXX: for now just ignore. 1386 */ 1387 if (rtorig == NULL) { 1388 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1389 "received PREP for an unknown orig(%s)", 1390 ether_sprintf(prep->prep_origaddr)); 1391 return; 1392 } 1393 1394 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1395 "propagate PREP from %s", 1396 ether_sprintf(prep->prep_targetaddr)); 1397 1398 memcpy(&pprep, prep, sizeof(pprep)); 1399 pprep.prep_hopcount += 1; 1400 pprep.prep_ttl -= 1; 1401 pprep.prep_metric += ms->ms_pmetric->mpm_metric(ni); 1402 hwmp_send_prep(vap, rtorig->rt_nexthop, &pprep); 1403 1404 /* precursor list for the Target Mesh STA Address is updated */ 1405 } 1406 1407 /* 1408 * Check if we received a PREP w/ AE and store target external address. 1409 * We may store target external address if recevied PREP w/ AE 1410 * and we are not final destination 1411 */ 1412 if (prep->prep_flags & IEEE80211_MESHPREP_FLAGS_AE) { 1413 rtext = ieee80211_mesh_rt_find(vap, 1414 prep->prep_target_ext_addr); 1415 if (rtext == NULL) { 1416 rtext = ieee80211_mesh_rt_add(vap, 1417 prep->prep_target_ext_addr); 1418 if (rtext == NULL) { 1419 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1420 "unable to add PREP path to proxy %s", 1421 ether_sprintf(prep->prep_targetaddr)); 1422 vap->iv_stats.is_mesh_rtaddfailed++; 1423 return; 1424 } 1425 } 1426 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1427 "%s path to %s, hopcount %d:%d metric %d:%d", 1428 rtext->rt_flags & IEEE80211_MESHRT_FLAGS_VALID ? 1429 "prefer" : "update", 1430 ether_sprintf(prep->prep_target_ext_addr), 1431 rtext->rt_nhops, prep->prep_hopcount + 1, 1432 rtext->rt_metric, metric); 1433 1434 rtext->rt_flags = IEEE80211_MESHRT_FLAGS_PROXY | 1435 IEEE80211_MESHRT_FLAGS_VALID; 1436 IEEE80211_ADDR_COPY(rtext->rt_dest, 1437 prep->prep_target_ext_addr); 1438 IEEE80211_ADDR_COPY(rtext->rt_mesh_gate, 1439 prep->prep_targetaddr); 1440 IEEE80211_ADDR_COPY(rtext->rt_nexthop, wh->i_addr2); 1441 rtext->rt_metric = metric; 1442 rtext->rt_lifetime = prep->prep_lifetime; 1443 rtext->rt_nhops = prep->prep_hopcount + 1; 1444 rtext->rt_ext_seq = prep->prep_origseq; /* new proxy seq */ 1445 /* 1446 * XXX: proxy entries have no HWMP priv data, 1447 * nullify them to be sure? 1448 */ 1449 } 1450 /* 1451 * Check for frames queued awaiting path discovery. 1452 * XXX probably can tell exactly and avoid remove call 1453 * NB: hash may have false matches, if so they will get 1454 * stuck back on the stageq because there won't be 1455 * a path. 1456 */ 1457 addr = prep->prep_flags & IEEE80211_MESHPREP_FLAGS_AE ? 1458 prep->prep_target_ext_addr : prep->prep_targetaddr; 1459 m = ieee80211_ageq_remove(&ic->ic_stageq, 1460 (struct ieee80211_node *)(uintptr_t) 1461 ieee80211_mac_hash(ic, addr)); /* either dest or ext_dest */ 1462 1463 /* 1464 * All frames in the stageq here should be non-M_ENCAP; or things 1465 * will get very unhappy. 1466 */ 1467 for (; m != NULL; m = next) { 1468 next = m->m_nextpkt; 1469 m->m_nextpkt = NULL; 1470 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1471 "flush queued frame %p len %d", m, m->m_pkthdr.len); 1472 /* 1473 * If the mbuf has M_ENCAP set, ensure we free it. 1474 * Note that after if_transmit() is called, m is invalid. 1475 */ 1476 (void) ieee80211_vap_xmitpkt(vap, m); 1477 } 1478 #undef IS_PROXY 1479 #undef PROXIED_BY_US 1480 } 1481 1482 static int 1483 hwmp_send_prep(struct ieee80211vap *vap, 1484 const uint8_t da[IEEE80211_ADDR_LEN], 1485 struct ieee80211_meshprep_ie *prep) 1486 { 1487 /* NB: there's no PREP minimum interval. */ 1488 1489 /* 1490 * mesh prep action frame format 1491 * [6] da 1492 * [6] sa 1493 * [6] addr3 = sa 1494 * [1] action 1495 * [1] category 1496 * [tlv] mesh path reply 1497 */ 1498 prep->prep_ie = IEEE80211_ELEMID_MESHPREP; 1499 prep->prep_len = prep->prep_flags & IEEE80211_MESHPREP_FLAGS_AE ? 1500 IEEE80211_MESHPREP_BASE_SZ_AE : IEEE80211_MESHPREP_BASE_SZ; 1501 return hwmp_send_action(vap, da, (uint8_t *)prep, prep->prep_len + 2); 1502 } 1503 1504 #define PERR_DFLAGS(n) perr.perr_dests[n].dest_flags 1505 #define PERR_DADDR(n) perr.perr_dests[n].dest_addr 1506 #define PERR_DSEQ(n) perr.perr_dests[n].dest_seq 1507 #define PERR_DRCODE(n) perr.perr_dests[n].dest_rcode 1508 static void 1509 hwmp_peerdown(struct ieee80211_node *ni) 1510 { 1511 struct ieee80211vap *vap = ni->ni_vap; 1512 struct ieee80211_mesh_state *ms = vap->iv_mesh; 1513 struct ieee80211_meshperr_ie perr; 1514 struct ieee80211_mesh_route *rt; 1515 struct ieee80211_hwmp_route *hr; 1516 1517 rt = ieee80211_mesh_rt_find(vap, ni->ni_macaddr); 1518 if (rt == NULL) 1519 return; 1520 hr = IEEE80211_MESH_ROUTE_PRIV(rt, struct ieee80211_hwmp_route); 1521 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1522 "%s", "delete route entry"); 1523 perr.perr_ttl = ms->ms_ttl; 1524 perr.perr_ndests = 1; 1525 PERR_DFLAGS(0) = 0; 1526 if (hr->hr_seq == 0) 1527 PERR_DFLAGS(0) |= IEEE80211_MESHPERR_DFLAGS_USN; 1528 PERR_DFLAGS(0) |= IEEE80211_MESHPERR_DFLAGS_RC; 1529 IEEE80211_ADDR_COPY(PERR_DADDR(0), rt->rt_dest); 1530 PERR_DSEQ(0) = ++hr->hr_seq; 1531 PERR_DRCODE(0) = IEEE80211_REASON_MESH_PERR_DEST_UNREACH; 1532 /* NB: flush everything passing through peer */ 1533 ieee80211_mesh_rt_flush_peer(vap, ni->ni_macaddr); 1534 hwmp_send_perr(vap, broadcastaddr, &perr); 1535 } 1536 #undef PERR_DFLAGS 1537 #undef PERR_DADDR 1538 #undef PERR_DSEQ 1539 #undef PERR_DRCODE 1540 1541 #define PERR_DFLAGS(n) perr->perr_dests[n].dest_flags 1542 #define PERR_DADDR(n) perr->perr_dests[n].dest_addr 1543 #define PERR_DSEQ(n) perr->perr_dests[n].dest_seq 1544 #define PERR_DEXTADDR(n) perr->perr_dests[n].dest_ext_addr 1545 #define PERR_DRCODE(n) perr->perr_dests[n].dest_rcode 1546 static void 1547 hwmp_recv_perr(struct ieee80211vap *vap, struct ieee80211_node *ni, 1548 const struct ieee80211_frame *wh, const struct ieee80211_meshperr_ie *perr) 1549 { 1550 struct ieee80211_mesh_state *ms = vap->iv_mesh; 1551 struct ieee80211_mesh_route *rt = NULL; 1552 struct ieee80211_mesh_route *rt_ext = NULL; 1553 struct ieee80211_hwmp_route *hr; 1554 struct ieee80211_meshperr_ie *pperr = NULL; 1555 int i, j = 0, forward = 0; 1556 1557 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1558 "received PERR from %s", ether_sprintf(wh->i_addr2)); 1559 1560 /* 1561 * if forwarding is true, prepare pperr 1562 */ 1563 if (ms->ms_flags & IEEE80211_MESHFLAGS_FWD) { 1564 forward = 1; 1565 pperr = kmalloc(sizeof(*perr) + 31*sizeof(*perr->perr_dests), 1566 M_80211_MESH_PERR, M_INTWAIT); /* XXX: magic number, 32 err dests */ 1567 } 1568 1569 /* 1570 * Acceptance criteria: check if we have forwarding information 1571 * stored about destination, and that nexthop == TA of this PERR. 1572 * NB: we also build a new PERR to propagate in case we should forward. 1573 */ 1574 for (i = 0; i < perr->perr_ndests; i++) { 1575 rt = ieee80211_mesh_rt_find(vap, PERR_DADDR(i)); 1576 if (rt == NULL) 1577 continue; 1578 if (!IEEE80211_ADDR_EQ(rt->rt_nexthop, wh->i_addr2)) 1579 continue; 1580 1581 /* found and accepted a PERR ndest element, process it... */ 1582 if (forward) 1583 memcpy(&pperr->perr_dests[j], &perr->perr_dests[i], 1584 sizeof(*perr->perr_dests)); 1585 hr = IEEE80211_MESH_ROUTE_PRIV(rt, struct ieee80211_hwmp_route); 1586 switch(PERR_DFLAGS(i)) { 1587 case (IEEE80211_REASON_MESH_PERR_NO_FI): 1588 if (PERR_DSEQ(i) == 0) { 1589 hr->hr_seq++; 1590 if (forward) { 1591 pperr->perr_dests[j].dest_seq = 1592 hr->hr_seq; 1593 } 1594 } else { 1595 hr->hr_seq = PERR_DSEQ(i); 1596 } 1597 rt->rt_flags &= ~IEEE80211_MESHRT_FLAGS_VALID; 1598 j++; 1599 break; 1600 case (IEEE80211_REASON_MESH_PERR_DEST_UNREACH): 1601 if(HWMP_SEQ_GT(PERR_DSEQ(i), hr->hr_seq)) { 1602 hr->hr_seq = PERR_DSEQ(i); 1603 rt->rt_flags &= ~IEEE80211_MESHRT_FLAGS_VALID; 1604 j++; 1605 } 1606 break; 1607 case (IEEE80211_REASON_MESH_PERR_NO_PROXY): 1608 rt_ext = ieee80211_mesh_rt_find(vap, PERR_DEXTADDR(i)); 1609 if (rt_ext != NULL) { 1610 rt_ext->rt_flags &= 1611 ~IEEE80211_MESHRT_FLAGS_VALID; 1612 j++; 1613 } 1614 break; 1615 default: 1616 IEEE80211_DISCARD(vap, IEEE80211_MSG_HWMP, wh, NULL, 1617 "PERR, unknown reason code %u\n", PERR_DFLAGS(i)); 1618 goto done; /* XXX: stats?? */ 1619 } 1620 ieee80211_mesh_rt_flush_peer(vap, PERR_DADDR(i)); 1621 KASSERT(j < 32, ("PERR, error ndest >= 32 (%u)", j)); 1622 } 1623 if (j == 0) { 1624 IEEE80211_DISCARD(vap, IEEE80211_MSG_HWMP, wh, NULL, "%s", 1625 "PERR not accepted"); 1626 goto done; /* XXX: stats?? */ 1627 } 1628 1629 /* 1630 * Propagate the PERR if we previously found it on our routing table. 1631 */ 1632 if (forward && perr->perr_ttl > 1) { 1633 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, ni, 1634 "propagate PERR from %s", ether_sprintf(wh->i_addr2)); 1635 pperr->perr_ndests = j; 1636 pperr->perr_ttl--; 1637 hwmp_send_perr(vap, broadcastaddr, pperr); 1638 } 1639 done: 1640 if (pperr != NULL) 1641 kfree(pperr, M_80211_MESH_PERR); 1642 } 1643 #undef PERR_DFLAGS 1644 #undef PERR_DADDR 1645 #undef PERR_DSEQ 1646 #undef PERR_DEXTADDR 1647 #undef PERR_DRCODE 1648 1649 static int 1650 hwmp_send_perr(struct ieee80211vap *vap, 1651 const uint8_t da[IEEE80211_ADDR_LEN], 1652 struct ieee80211_meshperr_ie *perr) 1653 { 1654 struct ieee80211_hwmp_state *hs = vap->iv_hwmp; 1655 int i; 1656 uint8_t length = 0; 1657 1658 /* 1659 * Enforce PERR interval. 1660 */ 1661 if (ratecheck(&hs->hs_lastperr, &ieee80211_hwmp_perrminint) == 0) 1662 return EALREADY; 1663 getmicrouptime(&hs->hs_lastperr); 1664 1665 /* 1666 * mesh perr action frame format 1667 * [6] da 1668 * [6] sa 1669 * [6] addr3 = sa 1670 * [1] action 1671 * [1] category 1672 * [tlv] mesh path error 1673 */ 1674 perr->perr_ie = IEEE80211_ELEMID_MESHPERR; 1675 length = IEEE80211_MESHPERR_BASE_SZ; 1676 for (i = 0; i<perr->perr_ndests; i++) { 1677 if (perr->perr_dests[i].dest_flags & 1678 IEEE80211_MESHPERR_FLAGS_AE) { 1679 length += IEEE80211_MESHPERR_DEST_SZ_AE; 1680 continue ; 1681 } 1682 length += IEEE80211_MESHPERR_DEST_SZ; 1683 } 1684 perr->perr_len =length; 1685 return hwmp_send_action(vap, da, (uint8_t *)perr, perr->perr_len+2); 1686 } 1687 1688 /* 1689 * Called from the rest of the net80211 code (mesh code for example). 1690 * NB: IEEE80211_REASON_MESH_PERR_DEST_UNREACH can be trigger by the fact that 1691 * a mesh STA is unable to forward an MSDU/MMPDU to a next-hop mesh STA. 1692 */ 1693 #define PERR_DFLAGS(n) perr.perr_dests[n].dest_flags 1694 #define PERR_DADDR(n) perr.perr_dests[n].dest_addr 1695 #define PERR_DSEQ(n) perr.perr_dests[n].dest_seq 1696 #define PERR_DEXTADDR(n) perr.perr_dests[n].dest_ext_addr 1697 #define PERR_DRCODE(n) perr.perr_dests[n].dest_rcode 1698 static void 1699 hwmp_senderror(struct ieee80211vap *vap, 1700 const uint8_t addr[IEEE80211_ADDR_LEN], 1701 struct ieee80211_mesh_route *rt, int rcode) 1702 { 1703 struct ieee80211_mesh_state *ms = vap->iv_mesh; 1704 struct ieee80211_hwmp_route *hr = NULL; 1705 struct ieee80211_meshperr_ie perr; 1706 1707 if (rt != NULL) 1708 hr = IEEE80211_MESH_ROUTE_PRIV(rt, 1709 struct ieee80211_hwmp_route); 1710 1711 perr.perr_ndests = 1; 1712 perr.perr_ttl = ms->ms_ttl; 1713 PERR_DFLAGS(0) = 0; 1714 PERR_DRCODE(0) = rcode; 1715 1716 switch (rcode) { 1717 case IEEE80211_REASON_MESH_PERR_NO_FI: 1718 IEEE80211_ADDR_COPY(PERR_DADDR(0), addr); 1719 PERR_DSEQ(0) = 0; /* reserved */ 1720 break; 1721 case IEEE80211_REASON_MESH_PERR_NO_PROXY: 1722 KASSERT(rt != NULL, ("no proxy info for sending PERR")); 1723 KASSERT(rt->rt_flags & IEEE80211_MESHRT_FLAGS_PROXY, 1724 ("route is not marked proxy")); 1725 PERR_DFLAGS(0) |= IEEE80211_MESHPERR_FLAGS_AE; 1726 IEEE80211_ADDR_COPY(PERR_DADDR(0), vap->iv_myaddr); 1727 PERR_DSEQ(0) = rt->rt_ext_seq; 1728 IEEE80211_ADDR_COPY(PERR_DEXTADDR(0), addr); 1729 break; 1730 case IEEE80211_REASON_MESH_PERR_DEST_UNREACH: 1731 KASSERT(rt != NULL, ("no route info for sending PERR")); 1732 IEEE80211_ADDR_COPY(PERR_DADDR(0), addr); 1733 PERR_DSEQ(0) = hr->hr_seq; 1734 break; 1735 default: 1736 KASSERT(0, ("unknown reason code for HWMP PERR (%u)", rcode)); 1737 } 1738 hwmp_send_perr(vap, broadcastaddr, &perr); 1739 } 1740 #undef PERR_DFLAGS 1741 #undef PEER_DADDR 1742 #undef PERR_DSEQ 1743 #undef PERR_DEXTADDR 1744 #undef PERR_DRCODE 1745 1746 static void 1747 hwmp_recv_rann(struct ieee80211vap *vap, struct ieee80211_node *ni, 1748 const struct ieee80211_frame *wh, const struct ieee80211_meshrann_ie *rann) 1749 { 1750 struct ieee80211_mesh_state *ms = vap->iv_mesh; 1751 struct ieee80211_hwmp_state *hs = vap->iv_hwmp; 1752 struct ieee80211_mesh_route *rt = NULL; 1753 struct ieee80211_hwmp_route *hr; 1754 struct ieee80211_meshpreq_ie preq; 1755 struct ieee80211_meshrann_ie prann; 1756 uint32_t metric = 0; 1757 1758 if (IEEE80211_ADDR_EQ(rann->rann_addr, vap->iv_myaddr)) 1759 return; 1760 1761 rt = ieee80211_mesh_rt_find(vap, rann->rann_addr); 1762 if (rt != NULL && rt->rt_flags & IEEE80211_MESHRT_FLAGS_VALID) { 1763 hr = IEEE80211_MESH_ROUTE_PRIV(rt, struct ieee80211_hwmp_route); 1764 1765 /* Acceptance criteria: if RANN.seq < stored seq, discard RANN */ 1766 if (HWMP_SEQ_LT(rann->rann_seq, hr->hr_seq)) { 1767 IEEE80211_DISCARD(vap, IEEE80211_MSG_HWMP, wh, NULL, 1768 "RANN seq %u < %u", rann->rann_seq, hr->hr_seq); 1769 return; 1770 } 1771 1772 /* Acceptance criteria: if RANN.seq == stored seq AND 1773 * RANN.metric > stored metric, discard RANN */ 1774 if (HWMP_SEQ_EQ(rann->rann_seq, hr->hr_seq) && 1775 rann->rann_metric > rt->rt_metric) { 1776 IEEE80211_DISCARD(vap, IEEE80211_MSG_HWMP, wh, NULL, 1777 "RANN metric %u > %u", rann->rann_metric, rt->rt_metric); 1778 return; 1779 } 1780 } 1781 1782 /* RANN ACCEPTED */ 1783 1784 ieee80211_hwmp_rannint = rann->rann_interval; /* XXX: mtx lock? */ 1785 metric = rann->rann_metric + ms->ms_pmetric->mpm_metric(ni); 1786 1787 if (rt == NULL) { 1788 rt = ieee80211_mesh_rt_add(vap, rann->rann_addr); 1789 if (rt == NULL) { 1790 IEEE80211_DISCARD(vap, IEEE80211_MSG_HWMP, wh, NULL, 1791 "unable to add mac for RANN root %s", 1792 ether_sprintf(rann->rann_addr)); 1793 vap->iv_stats.is_mesh_rtaddfailed++; 1794 return; 1795 } 1796 } 1797 hr = IEEE80211_MESH_ROUTE_PRIV(rt, struct ieee80211_hwmp_route); 1798 /* Check if root is a mesh gate, mark it */ 1799 if (rann->rann_flags & IEEE80211_MESHRANN_FLAGS_GATE) { 1800 struct ieee80211_mesh_gate_route *gr; 1801 1802 rt->rt_flags |= IEEE80211_MESHRT_FLAGS_GATE; 1803 gr = ieee80211_mesh_mark_gate(vap, rann->rann_addr, 1804 rt); 1805 gr->gr_lastseq = 0; /* NOT GANN */ 1806 } 1807 /* discovery timeout */ 1808 ieee80211_mesh_rt_update(rt, 1809 ticks_to_msecs(ieee80211_hwmp_roottimeout)); 1810 1811 preq.preq_flags = IEEE80211_MESHPREQ_FLAGS_AM; 1812 preq.preq_hopcount = 0; 1813 preq.preq_ttl = ms->ms_ttl; 1814 preq.preq_id = 0; /* reserved */ 1815 IEEE80211_ADDR_COPY(preq.preq_origaddr, vap->iv_myaddr); 1816 preq.preq_origseq = ++hs->hs_seq; 1817 preq.preq_lifetime = ieee80211_hwmp_roottimeout; 1818 preq.preq_metric = IEEE80211_MESHLMETRIC_INITIALVAL; 1819 preq.preq_tcount = 1; 1820 preq.preq_targets[0].target_flags = IEEE80211_MESHPREQ_TFLAGS_TO; 1821 /* NB: IEEE80211_MESHPREQ_TFLAGS_USN = 0 implicitly implied */ 1822 IEEE80211_ADDR_COPY(preq.preq_targets[0].target_addr, rann->rann_addr); 1823 preq.preq_targets[0].target_seq = rann->rann_seq; 1824 /* XXX: if rootconfint have not passed, we built this preq in vain */ 1825 hwmp_send_preq(vap, wh->i_addr2, &preq, &hr->hr_lastrootconf, 1826 &ieee80211_hwmp_rootconfint); 1827 1828 /* propagate a RANN */ 1829 if (rt->rt_flags & IEEE80211_MESHRT_FLAGS_VALID && 1830 rann->rann_ttl > 1 && 1831 ms->ms_flags & IEEE80211_MESHFLAGS_FWD) { 1832 hr->hr_seq = rann->rann_seq; 1833 memcpy(&prann, rann, sizeof(prann)); 1834 prann.rann_hopcount += 1; 1835 prann.rann_ttl -= 1; 1836 prann.rann_metric += ms->ms_pmetric->mpm_metric(ni); 1837 hwmp_send_rann(vap, broadcastaddr, &prann); 1838 } 1839 } 1840 1841 static int 1842 hwmp_send_rann(struct ieee80211vap *vap, 1843 const uint8_t da[IEEE80211_ADDR_LEN], 1844 struct ieee80211_meshrann_ie *rann) 1845 { 1846 /* 1847 * mesh rann action frame format 1848 * [6] da 1849 * [6] sa 1850 * [6] addr3 = sa 1851 * [1] action 1852 * [1] category 1853 * [tlv] root annoucement 1854 */ 1855 rann->rann_ie = IEEE80211_ELEMID_MESHRANN; 1856 rann->rann_len = IEEE80211_MESHRANN_BASE_SZ; 1857 return hwmp_send_action(vap, da, (uint8_t *)rann, rann->rann_len + 2); 1858 } 1859 1860 #define PREQ_TFLAGS(n) preq.preq_targets[n].target_flags 1861 #define PREQ_TADDR(n) preq.preq_targets[n].target_addr 1862 #define PREQ_TSEQ(n) preq.preq_targets[n].target_seq 1863 static void 1864 hwmp_rediscover_cb(void *arg) 1865 { 1866 struct ieee80211_mesh_route *rt = arg; 1867 struct ieee80211vap *vap = rt->rt_vap; 1868 struct ieee80211_hwmp_state *hs = vap->iv_hwmp; 1869 struct ieee80211_mesh_state *ms = vap->iv_mesh; 1870 struct ieee80211_hwmp_route *hr; 1871 struct ieee80211_meshpreq_ie preq; /* Optimize: storing first preq? */ 1872 1873 if ((rt->rt_flags & IEEE80211_MESHRT_FLAGS_VALID)) 1874 return ; /* nothing to do */ 1875 1876 hr = IEEE80211_MESH_ROUTE_PRIV(rt, struct ieee80211_hwmp_route); 1877 if (hr->hr_preqretries >= 1878 ieee80211_hwmp_maxpreq_retries) { 1879 IEEE80211_NOTE_MAC(vap, IEEE80211_MSG_ANY, 1880 rt->rt_dest, "%s", 1881 "max number of discovery, send queued frames to GATE"); 1882 ieee80211_mesh_forward_to_gates(vap, rt); 1883 vap->iv_stats.is_mesh_fwd_nopath++; 1884 return ; /* XXX: flush queue? */ 1885 } 1886 1887 hr->hr_preqretries++; 1888 1889 1890 IEEE80211_NOTE_MAC(vap, IEEE80211_MSG_HWMP, rt->rt_dest, 1891 "start path rediscovery , target seq %u", hr->hr_seq); 1892 /* 1893 * Try to discover the path for this node. 1894 * Group addressed PREQ Case A 1895 */ 1896 preq.preq_flags = 0; 1897 preq.preq_hopcount = 0; 1898 preq.preq_ttl = ms->ms_ttl; 1899 preq.preq_id = ++hs->hs_preqid; 1900 IEEE80211_ADDR_COPY(preq.preq_origaddr, vap->iv_myaddr); 1901 preq.preq_origseq = hr->hr_origseq; 1902 preq.preq_lifetime = ticks_to_msecs(ieee80211_hwmp_pathtimeout); 1903 preq.preq_metric = IEEE80211_MESHLMETRIC_INITIALVAL; 1904 preq.preq_tcount = 1; 1905 IEEE80211_ADDR_COPY(PREQ_TADDR(0), rt->rt_dest); 1906 PREQ_TFLAGS(0) = 0; 1907 if (ieee80211_hwmp_targetonly) 1908 PREQ_TFLAGS(0) |= IEEE80211_MESHPREQ_TFLAGS_TO; 1909 PREQ_TFLAGS(0) |= IEEE80211_MESHPREQ_TFLAGS_USN; 1910 PREQ_TSEQ(0) = 0; /* RESERVED when USN flag is set */ 1911 /* XXX check return value */ 1912 hwmp_send_preq(vap, broadcastaddr, &preq, &hr->hr_lastpreq, 1913 &ieee80211_hwmp_preqminint); 1914 callout_reset(&rt->rt_discovery, 1915 ieee80211_hwmp_net_diameter_traversaltime * 2, 1916 hwmp_rediscover_cb, rt); 1917 } 1918 1919 static struct ieee80211_node * 1920 hwmp_discover(struct ieee80211vap *vap, 1921 const uint8_t dest[IEEE80211_ADDR_LEN], struct mbuf *m) 1922 { 1923 struct ieee80211_hwmp_state *hs = vap->iv_hwmp; 1924 struct ieee80211_mesh_state *ms = vap->iv_mesh; 1925 struct ieee80211_mesh_route *rt = NULL; 1926 struct ieee80211_hwmp_route *hr; 1927 struct ieee80211_meshpreq_ie preq; 1928 struct ieee80211_node *ni; 1929 int sendpreq = 0; 1930 1931 KASSERT(vap->iv_opmode == IEEE80211_M_MBSS, 1932 ("not a mesh vap, opmode %d", vap->iv_opmode)); 1933 1934 KASSERT(!IEEE80211_ADDR_EQ(vap->iv_myaddr, dest), 1935 ("%s: discovering self!", __func__)); 1936 1937 ni = NULL; 1938 if (!IEEE80211_IS_MULTICAST(dest)) { 1939 rt = ieee80211_mesh_rt_find(vap, dest); 1940 if (rt == NULL) { 1941 rt = ieee80211_mesh_rt_add(vap, dest); 1942 if (rt == NULL) { 1943 IEEE80211_NOTE(vap, IEEE80211_MSG_HWMP, 1944 ni, "unable to add discovery path to %s", 1945 ether_sprintf(dest)); 1946 vap->iv_stats.is_mesh_rtaddfailed++; 1947 goto done; 1948 } 1949 } 1950 hr = IEEE80211_MESH_ROUTE_PRIV(rt, 1951 struct ieee80211_hwmp_route); 1952 if (rt->rt_flags & IEEE80211_MESHRT_FLAGS_DISCOVER) { 1953 IEEE80211_NOTE_MAC(vap, IEEE80211_MSG_HWMP, dest, 1954 "%s", "already discovering queue frame until path found"); 1955 sendpreq = 1; 1956 goto done; 1957 } 1958 if ((rt->rt_flags & IEEE80211_MESHRT_FLAGS_VALID) == 0) { 1959 if (hr->hr_lastdiscovery != 0 && 1960 (ticks - hr->hr_lastdiscovery < 1961 (ieee80211_hwmp_net_diameter_traversaltime * 2))) { 1962 IEEE80211_DISCARD_MAC(vap, IEEE80211_MSG_ANY, 1963 dest, NULL, "%s", 1964 "too frequent discovery requeust"); 1965 sendpreq = 1; 1966 goto done; 1967 } 1968 hr->hr_lastdiscovery = ticks; 1969 if (hr->hr_preqretries >= 1970 ieee80211_hwmp_maxpreq_retries) { 1971 IEEE80211_DISCARD_MAC(vap, IEEE80211_MSG_ANY, 1972 dest, NULL, "%s", 1973 "no valid path , max number of discovery"); 1974 vap->iv_stats.is_mesh_fwd_nopath++; 1975 goto done; 1976 } 1977 rt->rt_flags = IEEE80211_MESHRT_FLAGS_DISCOVER; 1978 hr->hr_preqretries++; 1979 if (hr->hr_origseq == 0) 1980 hr->hr_origseq = ++hs->hs_seq; 1981 rt->rt_metric = IEEE80211_MESHLMETRIC_INITIALVAL; 1982 sendpreq = 1; 1983 IEEE80211_NOTE_MAC(vap, IEEE80211_MSG_HWMP, dest, 1984 "start path discovery (src %s), target seq %u", 1985 m == NULL ? "<none>" : ether_sprintf( 1986 mtod(m, struct ether_header *)->ether_shost), 1987 hr->hr_seq); 1988 /* 1989 * Try to discover the path for this node. 1990 * Group addressed PREQ Case A 1991 */ 1992 preq.preq_flags = 0; 1993 preq.preq_hopcount = 0; 1994 preq.preq_ttl = ms->ms_ttl; 1995 preq.preq_id = ++hs->hs_preqid; 1996 IEEE80211_ADDR_COPY(preq.preq_origaddr, vap->iv_myaddr); 1997 preq.preq_origseq = hr->hr_origseq; 1998 preq.preq_lifetime = 1999 ticks_to_msecs(ieee80211_hwmp_pathtimeout); 2000 preq.preq_metric = IEEE80211_MESHLMETRIC_INITIALVAL; 2001 preq.preq_tcount = 1; 2002 IEEE80211_ADDR_COPY(PREQ_TADDR(0), dest); 2003 PREQ_TFLAGS(0) = 0; 2004 if (ieee80211_hwmp_targetonly) 2005 PREQ_TFLAGS(0) |= IEEE80211_MESHPREQ_TFLAGS_TO; 2006 PREQ_TFLAGS(0) |= IEEE80211_MESHPREQ_TFLAGS_USN; 2007 PREQ_TSEQ(0) = 0; /* RESERVED when USN flag is set */ 2008 /* XXX check return value */ 2009 hwmp_send_preq(vap, broadcastaddr, &preq, 2010 &hr->hr_lastpreq, &ieee80211_hwmp_preqminint); 2011 callout_reset(&rt->rt_discovery, 2012 ieee80211_hwmp_net_diameter_traversaltime * 2, 2013 hwmp_rediscover_cb, rt); 2014 } 2015 if (rt->rt_flags & IEEE80211_MESHRT_FLAGS_VALID) 2016 ni = ieee80211_find_txnode(vap, rt->rt_nexthop); 2017 } else { 2018 ni = ieee80211_find_txnode(vap, dest); 2019 /* NB: if null then we leak mbuf */ 2020 KASSERT(ni != NULL, ("leak mcast frame")); 2021 return ni; 2022 } 2023 done: 2024 if (ni == NULL && m != NULL) { 2025 if (sendpreq) { 2026 struct ieee80211com *ic = vap->iv_ic; 2027 /* 2028 * Queue packet for transmit when path discovery 2029 * completes. If discovery never completes the 2030 * frame will be flushed by way of the aging timer. 2031 */ 2032 IEEE80211_NOTE_MAC(vap, IEEE80211_MSG_HWMP, dest, 2033 "%s", "queue frame until path found"); 2034 m->m_pkthdr.rcvif = (void *)(uintptr_t) 2035 ieee80211_mac_hash(ic, dest); 2036 /* XXX age chosen randomly */ 2037 ieee80211_ageq_append(&ic->ic_stageq, m, 2038 IEEE80211_INACT_WAIT); 2039 } else { 2040 IEEE80211_DISCARD_MAC(vap, IEEE80211_MSG_HWMP, 2041 dest, NULL, "%s", "no valid path to this node"); 2042 m_freem(m); 2043 } 2044 } 2045 return ni; 2046 } 2047 #undef PREQ_TFLAGS 2048 #undef PREQ_TADDR 2049 #undef PREQ_TSEQ 2050 2051 static int 2052 hwmp_ioctl_get80211(struct ieee80211vap *vap, struct ieee80211req *ireq) 2053 { 2054 struct ieee80211_hwmp_state *hs = vap->iv_hwmp; 2055 int error; 2056 2057 if (vap->iv_opmode != IEEE80211_M_MBSS) 2058 return ENOSYS; 2059 error = 0; 2060 switch (ireq->i_type) { 2061 case IEEE80211_IOC_HWMP_ROOTMODE: 2062 ireq->i_val = hs->hs_rootmode; 2063 break; 2064 case IEEE80211_IOC_HWMP_MAXHOPS: 2065 ireq->i_val = hs->hs_maxhops; 2066 break; 2067 default: 2068 return ENOSYS; 2069 } 2070 return error; 2071 } 2072 IEEE80211_IOCTL_GET(hwmp, hwmp_ioctl_get80211); 2073 2074 static int 2075 hwmp_ioctl_set80211(struct ieee80211vap *vap, struct ieee80211req *ireq) 2076 { 2077 struct ieee80211_hwmp_state *hs = vap->iv_hwmp; 2078 int error; 2079 2080 if (vap->iv_opmode != IEEE80211_M_MBSS) 2081 return ENOSYS; 2082 error = 0; 2083 switch (ireq->i_type) { 2084 case IEEE80211_IOC_HWMP_ROOTMODE: 2085 if (ireq->i_val < 0 || ireq->i_val > 3) 2086 return EINVAL; 2087 hs->hs_rootmode = ireq->i_val; 2088 hwmp_rootmode_setup(vap); 2089 break; 2090 case IEEE80211_IOC_HWMP_MAXHOPS: 2091 if (ireq->i_val <= 0 || ireq->i_val > 255) 2092 return EINVAL; 2093 hs->hs_maxhops = ireq->i_val; 2094 break; 2095 default: 2096 return ENOSYS; 2097 } 2098 return error; 2099 } 2100 IEEE80211_IOCTL_SET(hwmp, hwmp_ioctl_set80211); 2101