1 /*- 2 * SPDX-License-Identifier: BSD-2-Clause 3 * 4 * Copyright (c) 1998 Brian Somers <brian@Awfulhak.org> 5 * All rights reserved. 6 * 7 * Redistribution and use in source and binary forms, with or without 8 * modification, are permitted provided that the following conditions 9 * are met: 10 * 1. Redistributions of source code must retain the above copyright 11 * notice, this list of conditions and the following disclaimer. 12 * 2. Redistributions in binary form must reproduce the above copyright 13 * notice, this list of conditions and the following disclaimer in the 14 * documentation and/or other materials provided with the distribution. 15 * 16 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 17 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 18 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 19 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 20 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 21 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 22 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 23 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 24 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 25 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 26 * SUCH DAMAGE. 27 * 28 * $FreeBSD$ 29 */ 30 31 #include <sys/param.h> 32 #include <netinet/in.h> 33 #include <netinet/in_systm.h> 34 #include <netinet/ip.h> 35 #include <arpa/inet.h> 36 #include <net/if_dl.h> 37 #include <sys/socket.h> 38 #include <sys/un.h> 39 40 #include <errno.h> 41 #include <paths.h> 42 #include <stdarg.h> 43 #include <stdio.h> 44 #include <stdlib.h> 45 #include <string.h> 46 #include <sys/stat.h> 47 #include <termios.h> 48 #include <unistd.h> 49 50 #include "layer.h" 51 #ifndef NONAT 52 #include "nat_cmd.h" 53 #endif 54 #include "vjcomp.h" 55 #include "ua.h" 56 #include "defs.h" 57 #include "command.h" 58 #include "mbuf.h" 59 #include "log.h" 60 #include "timer.h" 61 #include "fsm.h" 62 #include "iplist.h" 63 #include "throughput.h" 64 #include "slcompress.h" 65 #include "lqr.h" 66 #include "hdlc.h" 67 #include "ncpaddr.h" 68 #include "ipcp.h" 69 #include "auth.h" 70 #include "lcp.h" 71 #include "async.h" 72 #include "ccp.h" 73 #include "link.h" 74 #include "descriptor.h" 75 #include "physical.h" 76 #include "chat.h" 77 #include "proto.h" 78 #include "filter.h" 79 #include "mp.h" 80 #include "chap.h" 81 #include "cbcp.h" 82 #include "datalink.h" 83 #ifndef NORADIUS 84 #include "radius.h" 85 #endif 86 #include "ipv6cp.h" 87 #include "ncp.h" 88 #include "bundle.h" 89 #include "prompt.h" 90 #include "id.h" 91 #include "arp.h" 92 93 void 94 peerid_Init(struct peerid *peer) 95 { 96 peer->enddisc.class = 0; 97 *peer->enddisc.address = '\0'; 98 peer->enddisc.len = 0; 99 *peer->authname = '\0'; 100 } 101 102 int 103 peerid_Equal(const struct peerid *p1, const struct peerid *p2) 104 { 105 return !strcmp(p1->authname, p2->authname) && 106 p1->enddisc.class == p2->enddisc.class && 107 p1->enddisc.len == p2->enddisc.len && 108 !memcmp(p1->enddisc.address, p2->enddisc.address, p1->enddisc.len); 109 } 110 111 static u_int32_t 112 inc_seq(unsigned is12bit, u_int32_t seq) 113 { 114 seq++; 115 if (is12bit) { 116 if (seq & 0xfffff000) 117 seq = 0; 118 } else if (seq & 0xff000000) 119 seq = 0; 120 return seq; 121 } 122 123 static int 124 isbefore(unsigned is12bit, u_int32_t seq1, u_int32_t seq2) 125 { 126 u_int32_t max = (is12bit ? 0xfff : 0xffffff) - 0x200; 127 128 if (seq1 > max) { 129 if (seq2 < 0x200 || seq2 > seq1) 130 return 1; 131 } else if ((seq1 > 0x200 || seq2 <= max) && seq1 < seq2) 132 return 1; 133 134 return 0; 135 } 136 137 static int 138 mp_ReadHeader(struct mp *mp, struct mbuf *m, struct mp_header *header) 139 { 140 if (mp->local_is12bit) { 141 u_int16_t val; 142 143 ua_ntohs(MBUF_CTOP(m), &val); 144 if (val & 0x3000) { 145 log_Printf(LogWARN, "Oops - MP header without required zero bits\n"); 146 return 0; 147 } 148 header->begin = val & 0x8000 ? 1 : 0; 149 header->end = val & 0x4000 ? 1 : 0; 150 header->seq = val & 0x0fff; 151 return 2; 152 } else { 153 ua_ntohl(MBUF_CTOP(m), &header->seq); 154 if (header->seq & 0x3f000000) { 155 log_Printf(LogWARN, "Oops - MP header without required zero bits\n"); 156 return 0; 157 } 158 header->begin = header->seq & 0x80000000 ? 1 : 0; 159 header->end = header->seq & 0x40000000 ? 1 : 0; 160 header->seq &= 0x00ffffff; 161 return 4; 162 } 163 } 164 165 static void 166 mp_LayerStart(void *v __unused, struct fsm *fp __unused) 167 { 168 /* The given FSM (ccp) is about to start up ! */ 169 } 170 171 static void 172 mp_LayerUp(void *v __unused, struct fsm *fp) 173 { 174 /* The given fsm (ccp) is now up */ 175 176 bundle_CalculateBandwidth(fp->bundle); /* Against ccp_MTUOverhead */ 177 } 178 179 static void 180 mp_LayerDown(void *v __unused, struct fsm *fp __unused) 181 { 182 /* The given FSM (ccp) has been told to come down */ 183 } 184 185 static void 186 mp_LayerFinish(void *v __unused, struct fsm *fp) 187 { 188 /* The given fsm (ccp) is now down */ 189 if (fp->state == ST_CLOSED && fp->open_mode == OPEN_PASSIVE) 190 fsm_Open(fp); /* CCP goes to ST_STOPPED */ 191 } 192 193 static void 194 mp_UpDown(void *v) 195 { 196 struct mp *mp = (struct mp *)v; 197 int percent; 198 199 percent = MAX(mp->link.stats.total.in.OctetsPerSecond, 200 mp->link.stats.total.out.OctetsPerSecond) * 800 / 201 mp->bundle->bandwidth; 202 if (percent >= mp->cfg.autoload.max) { 203 log_Printf(LogDEBUG, "%d%% saturation - bring a link up ?\n", percent); 204 bundle_AutoAdjust(mp->bundle, percent, AUTO_UP); 205 } else if (percent <= mp->cfg.autoload.min) { 206 log_Printf(LogDEBUG, "%d%% saturation - bring a link down ?\n", percent); 207 bundle_AutoAdjust(mp->bundle, percent, AUTO_DOWN); 208 } 209 } 210 211 void 212 mp_StopAutoloadTimer(struct mp *mp) 213 { 214 throughput_stop(&mp->link.stats.total); 215 } 216 217 void 218 mp_CheckAutoloadTimer(struct mp *mp) 219 { 220 if (mp->link.stats.total.SamplePeriod != mp->cfg.autoload.period) { 221 throughput_destroy(&mp->link.stats.total); 222 throughput_init(&mp->link.stats.total, mp->cfg.autoload.period); 223 throughput_callback(&mp->link.stats.total, mp_UpDown, mp); 224 } 225 226 if (bundle_WantAutoloadTimer(mp->bundle)) 227 throughput_start(&mp->link.stats.total, "MP throughput", 1); 228 else 229 mp_StopAutoloadTimer(mp); 230 } 231 232 void 233 mp_RestartAutoloadTimer(struct mp *mp) 234 { 235 if (mp->link.stats.total.SamplePeriod != mp->cfg.autoload.period) 236 mp_CheckAutoloadTimer(mp); 237 else 238 throughput_clear(&mp->link.stats.total, THROUGHPUT_OVERALL, NULL); 239 } 240 241 void 242 mp_Init(struct mp *mp, struct bundle *bundle) 243 { 244 mp->peer_is12bit = mp->local_is12bit = 0; 245 mp->peer_mrru = mp->local_mrru = 0; 246 247 peerid_Init(&mp->peer); 248 249 mp->out.seq = 0; 250 mp->out.link = 0; 251 mp->out.af = AF_INET; 252 mp->seq.min_in = 0; 253 mp->seq.next_in = 0; 254 mp->inbufs = NULL; 255 mp->bundle = bundle; 256 257 mp->link.type = LOGICAL_LINK; 258 mp->link.name = "mp"; 259 mp->link.len = sizeof *mp; 260 261 mp->cfg.autoload.period = SAMPLE_PERIOD; 262 mp->cfg.autoload.min = mp->cfg.autoload.max = 0; 263 throughput_init(&mp->link.stats.total, mp->cfg.autoload.period); 264 throughput_callback(&mp->link.stats.total, mp_UpDown, mp); 265 mp->link.stats.parent = NULL; 266 mp->link.stats.gather = 0; /* Let the physical links gather stats */ 267 memset(mp->link.Queue, '\0', sizeof mp->link.Queue); 268 memset(mp->link.proto_in, '\0', sizeof mp->link.proto_in); 269 memset(mp->link.proto_out, '\0', sizeof mp->link.proto_out); 270 271 mp->fsmp.LayerStart = mp_LayerStart; 272 mp->fsmp.LayerUp = mp_LayerUp; 273 mp->fsmp.LayerDown = mp_LayerDown; 274 mp->fsmp.LayerFinish = mp_LayerFinish; 275 mp->fsmp.object = mp; 276 277 mpserver_Init(&mp->server); 278 279 mp->cfg.mrru = 0; 280 mp->cfg.shortseq = NEG_ENABLED|NEG_ACCEPTED; 281 mp->cfg.negenddisc = NEG_ENABLED|NEG_ACCEPTED; 282 mp->cfg.enddisc.class = 0; 283 *mp->cfg.enddisc.address = '\0'; 284 mp->cfg.enddisc.len = 0; 285 286 lcp_Init(&mp->link.lcp, mp->bundle, &mp->link, NULL); 287 ccp_Init(&mp->link.ccp, mp->bundle, &mp->link, &mp->fsmp); 288 289 link_EmptyStack(&mp->link); 290 link_Stack(&mp->link, &protolayer); 291 link_Stack(&mp->link, &ccplayer); 292 link_Stack(&mp->link, &vjlayer); 293 #ifndef NONAT 294 link_Stack(&mp->link, &natlayer); 295 #endif 296 } 297 298 int 299 mp_Up(struct mp *mp, struct datalink *dl) 300 { 301 struct lcp *lcp = &dl->physical->link.lcp; 302 303 if (mp->active) { 304 /* We're adding a link - do a last validation on our parameters */ 305 if (!peerid_Equal(&dl->peer, &mp->peer)) { 306 log_Printf(LogPHASE, "%s: Inappropriate peer !\n", dl->name); 307 log_Printf(LogPHASE, " Attached to peer %s/%s\n", mp->peer.authname, 308 mp_Enddisc(mp->peer.enddisc.class, mp->peer.enddisc.address, 309 mp->peer.enddisc.len)); 310 log_Printf(LogPHASE, " New link is peer %s/%s\n", dl->peer.authname, 311 mp_Enddisc(dl->peer.enddisc.class, dl->peer.enddisc.address, 312 dl->peer.enddisc.len)); 313 return MP_FAILED; 314 } 315 if (mp->local_mrru != lcp->want_mrru || 316 mp->peer_mrru != lcp->his_mrru || 317 mp->local_is12bit != lcp->want_shortseq || 318 mp->peer_is12bit != lcp->his_shortseq) { 319 log_Printf(LogPHASE, "%s: Invalid MRRU/SHORTSEQ MP parameters !\n", 320 dl->name); 321 return MP_FAILED; 322 } 323 return MP_ADDED; 324 } else { 325 /* First link in multilink mode */ 326 327 mp->local_mrru = lcp->want_mrru; 328 mp->peer_mrru = lcp->his_mrru; 329 mp->local_is12bit = lcp->want_shortseq; 330 mp->peer_is12bit = lcp->his_shortseq; 331 mp->peer = dl->peer; 332 333 throughput_destroy(&mp->link.stats.total); 334 throughput_init(&mp->link.stats.total, mp->cfg.autoload.period); 335 throughput_callback(&mp->link.stats.total, mp_UpDown, mp); 336 memset(mp->link.Queue, '\0', sizeof mp->link.Queue); 337 memset(mp->link.proto_in, '\0', sizeof mp->link.proto_in); 338 memset(mp->link.proto_out, '\0', sizeof mp->link.proto_out); 339 340 /* Tell the link who it belongs to */ 341 dl->physical->link.stats.parent = &mp->link.stats.total; 342 343 mp->out.seq = 0; 344 mp->out.link = 0; 345 mp->out.af = AF_INET; 346 mp->seq.min_in = 0; 347 mp->seq.next_in = 0; 348 349 /* 350 * Now we create our server socket. 351 * If it already exists, join it. Otherwise, create and own it 352 */ 353 switch (mpserver_Open(&mp->server, &mp->peer)) { 354 case MPSERVER_CONNECTED: 355 log_Printf(LogPHASE, "mp: Transfer link on %s\n", 356 mp->server.socket.sun_path); 357 mp->server.send.dl = dl; /* Defer 'till it's safe to send */ 358 return MP_LINKSENT; 359 case MPSERVER_FAILED: 360 return MP_FAILED; 361 case MPSERVER_LISTENING: 362 log_Printf(LogPHASE, "mp: Listening on %s\n", mp->server.socket.sun_path); 363 log_Printf(LogPHASE, " First link: %s\n", dl->name); 364 365 /* Re-point our NCP layers at our MP link */ 366 ncp_SetLink(&mp->bundle->ncp, &mp->link); 367 368 /* Our lcp's already up 'cos of the NULL parent */ 369 if (ccp_SetOpenMode(&mp->link.ccp)) { 370 fsm_Up(&mp->link.ccp.fsm); 371 fsm_Open(&mp->link.ccp.fsm); 372 } 373 374 mp->active = 1; 375 break; 376 } 377 } 378 379 return MP_UP; 380 } 381 382 void 383 mp_Down(struct mp *mp) 384 { 385 if (mp->active) { 386 struct mbuf *next; 387 388 /* Stop that ! */ 389 mp_StopAutoloadTimer(mp); 390 391 /* Don't want any more of these */ 392 mpserver_Close(&mp->server); 393 394 /* CCP goes down with a bang */ 395 fsm2initial(&mp->link.ccp.fsm); 396 397 /* Received fragments go in the bit-bucket */ 398 while (mp->inbufs) { 399 next = mp->inbufs->m_nextpkt; 400 m_freem(mp->inbufs); 401 mp->inbufs = next; 402 } 403 404 peerid_Init(&mp->peer); 405 mp->active = 0; 406 } 407 } 408 409 void 410 mp_linkInit(struct mp_link *mplink) 411 { 412 mplink->seq = 0; 413 mplink->bandwidth = 0; 414 } 415 416 static void 417 mp_Assemble(struct mp *mp, struct mbuf *m, struct physical *p) 418 { 419 struct mp_header mh, h; 420 struct mbuf *q, *last; 421 u_int32_t seq; 422 423 /* 424 * When `m' and `p' are NULL, it means our oldest link has gone down. 425 * We want to determine a new min, and process any intermediate stuff 426 * as normal 427 */ 428 429 if (m && mp_ReadHeader(mp, m, &mh) == 0) { 430 m_freem(m); 431 return; 432 } 433 434 if (p) { 435 seq = p->dl->mp.seq; 436 p->dl->mp.seq = mh.seq; 437 } else 438 seq = mp->seq.min_in; 439 440 if (mp->seq.min_in == seq) { 441 /* 442 * We've received new data on the link that has our min (oldest) seq. 443 * Figure out which link now has the smallest (oldest) seq. 444 */ 445 struct datalink *dl; 446 447 mp->seq.min_in = (u_int32_t)-1; 448 for (dl = mp->bundle->links; dl; dl = dl->next) 449 if (dl->state == DATALINK_OPEN && 450 (mp->seq.min_in == (u_int32_t)-1 || 451 isbefore(mp->local_is12bit, dl->mp.seq, mp->seq.min_in))) 452 mp->seq.min_in = dl->mp.seq; 453 } 454 455 /* 456 * Now process as many of our fragments as we can, adding our new 457 * fragment in as we go, and ordering with the oldest at the top of 458 * the queue. 459 */ 460 461 last = NULL; 462 seq = mp->seq.next_in; 463 q = mp->inbufs; 464 while (q || m) { 465 if (!q) { 466 if (last) 467 last->m_nextpkt = m; 468 else 469 mp->inbufs = m; 470 q = m; 471 m = NULL; 472 h = mh; 473 } else { 474 mp_ReadHeader(mp, q, &h); 475 476 if (m && isbefore(mp->local_is12bit, mh.seq, h.seq)) { 477 /* Our received fragment fits in before this one, so link it in */ 478 if (last) 479 last->m_nextpkt = m; 480 else 481 mp->inbufs = m; 482 m->m_nextpkt = q; 483 q = m; 484 h = mh; 485 m = NULL; 486 } 487 } 488 489 if (h.seq != seq) { 490 /* we're missing something :-( */ 491 if (isbefore(mp->local_is12bit, seq, mp->seq.min_in)) { 492 /* we're never gonna get it */ 493 struct mbuf *next; 494 495 /* Zap all older fragments */ 496 while (mp->inbufs != q) { 497 log_Printf(LogDEBUG, "Drop frag\n"); 498 next = mp->inbufs->m_nextpkt; 499 m_freem(mp->inbufs); 500 mp->inbufs = next; 501 } 502 503 /* 504 * Zap everything until the next `end' fragment OR just before 505 * the next `begin' fragment OR 'till seq.min_in - whichever 506 * comes first. 507 */ 508 do { 509 mp_ReadHeader(mp, mp->inbufs, &h); 510 if (h.begin) { 511 /* We might be able to process this ! */ 512 h.seq--; /* We're gonna look for fragment with h.seq+1 */ 513 break; 514 } 515 next = mp->inbufs->m_nextpkt; 516 log_Printf(LogDEBUG, "Drop frag %u\n", h.seq); 517 m_freem(mp->inbufs); 518 mp->inbufs = next; 519 } while (mp->inbufs && (isbefore(mp->local_is12bit, mp->seq.min_in, 520 h.seq) || h.end)); 521 522 /* 523 * Continue processing things from here. 524 * This deals with the possibility that we received a fragment 525 * on the slowest link that invalidates some of our data (because 526 * of the hole at `q'), but where there are subsequent `whole' 527 * packets that have already been received. 528 */ 529 530 mp->seq.next_in = seq = inc_seq(mp->local_is12bit, h.seq); 531 last = NULL; 532 q = mp->inbufs; 533 } else 534 /* we may still receive the missing fragment */ 535 break; 536 } else if (h.end) { 537 /* We've got something, reassemble */ 538 struct mbuf **frag = &q; 539 int len; 540 long long first = -1; 541 542 do { 543 *frag = mp->inbufs; 544 mp->inbufs = mp->inbufs->m_nextpkt; 545 len = mp_ReadHeader(mp, *frag, &h); 546 if (first == -1) 547 first = h.seq; 548 if (frag == &q && !h.begin) { 549 log_Printf(LogWARN, "Oops - MP frag %lu should have a begin flag\n", 550 (u_long)h.seq); 551 m_freem(q); 552 q = NULL; 553 } else if (frag != &q && h.begin) { 554 log_Printf(LogWARN, "Oops - MP frag %lu should have an end flag\n", 555 (u_long)h.seq - 1); 556 /* 557 * Stuff our fragment back at the front of the queue and zap 558 * our half-assembled packet. 559 */ 560 (*frag)->m_nextpkt = mp->inbufs; 561 mp->inbufs = *frag; 562 *frag = NULL; 563 m_freem(q); 564 q = NULL; 565 frag = &q; 566 h.end = 0; /* just in case it's a whole packet */ 567 } else { 568 (*frag)->m_offset += len; 569 (*frag)->m_len -= len; 570 (*frag)->m_nextpkt = NULL; 571 do 572 frag = &(*frag)->m_next; 573 while (*frag != NULL); 574 } 575 } while (!h.end); 576 577 if (q) { 578 q = m_pullup(q); 579 log_Printf(LogDEBUG, "MP: Reassembled frags %lu-%lu, length %zd\n", 580 (u_long)first, (u_long)h.seq, m_length(q)); 581 link_PullPacket(&mp->link, MBUF_CTOP(q), q->m_len, mp->bundle); 582 m_freem(q); 583 } 584 585 mp->seq.next_in = seq = inc_seq(mp->local_is12bit, h.seq); 586 last = NULL; 587 q = mp->inbufs; 588 } else { 589 /* Look for the next fragment */ 590 seq = inc_seq(mp->local_is12bit, seq); 591 last = q; 592 q = q->m_nextpkt; 593 } 594 } 595 596 if (m) { 597 /* We still have to find a home for our new fragment */ 598 last = NULL; 599 for (q = mp->inbufs; q; last = q, q = q->m_nextpkt) { 600 mp_ReadHeader(mp, q, &h); 601 if (isbefore(mp->local_is12bit, mh.seq, h.seq)) 602 break; 603 } 604 /* Our received fragment fits in here */ 605 if (last) 606 last->m_nextpkt = m; 607 else 608 mp->inbufs = m; 609 m->m_nextpkt = q; 610 } 611 } 612 613 struct mbuf * 614 mp_Input(struct bundle *bundle, struct link *l, struct mbuf *bp) 615 { 616 struct physical *p = link2physical(l); 617 618 if (!bundle->ncp.mp.active) 619 /* Let someone else deal with it ! */ 620 return bp; 621 622 if (p == NULL) { 623 log_Printf(LogWARN, "DecodePacket: Can't do MP inside MP !\n"); 624 m_freem(bp); 625 } else { 626 m_settype(bp, MB_MPIN); 627 mp_Assemble(&bundle->ncp.mp, bp, p); 628 } 629 630 return NULL; 631 } 632 633 static void 634 mp_Output(struct mp *mp, struct bundle *bundle, struct link *l, 635 struct mbuf *m, u_int32_t begin, u_int32_t end) 636 { 637 char prepend[4]; 638 639 /* Stuff an MP header on the front of our packet and send it */ 640 641 if (mp->peer_is12bit) { 642 u_int16_t val; 643 644 val = (begin << 15) | (end << 14) | (u_int16_t)mp->out.seq; 645 ua_htons(&val, prepend); 646 m = m_prepend(m, prepend, 2, 0); 647 } else { 648 u_int32_t val; 649 650 val = (begin << 31) | (end << 30) | (u_int32_t)mp->out.seq; 651 ua_htonl(&val, prepend); 652 m = m_prepend(m, prepend, 4, 0); 653 } 654 if (log_IsKept(LogDEBUG)) 655 log_Printf(LogDEBUG, "MP[frag %d]: Send %zd bytes on link `%s'\n", 656 mp->out.seq, m_length(m), l->name); 657 mp->out.seq = inc_seq(mp->peer_is12bit, mp->out.seq); 658 659 if (l->ccp.fsm.state != ST_OPENED && ccp_Required(&l->ccp)) { 660 log_Printf(LogPHASE, "%s: Not transmitting... waiting for CCP\n", l->name); 661 return; 662 } 663 664 link_PushPacket(l, m, bundle, LINK_QUEUES(l) - 1, PROTO_MP); 665 } 666 667 int 668 mp_FillPhysicalQueues(struct bundle *bundle) 669 { 670 struct mp *mp = &bundle->ncp.mp; 671 struct datalink *dl, *fdl; 672 size_t total, add, len; 673 int thislink, nlinks, nopenlinks, sendasip; 674 u_int32_t begin, end; 675 struct mbuf *m, *mo; 676 struct link *bestlink; 677 678 thislink = nlinks = nopenlinks = 0; 679 for (fdl = NULL, dl = bundle->links; dl; dl = dl->next) { 680 /* Include non-open links here as mp->out.link will stay more correct */ 681 if (!fdl) { 682 if (thislink == mp->out.link) 683 fdl = dl; 684 else 685 thislink++; 686 } 687 nlinks++; 688 if (dl->state == DATALINK_OPEN) 689 nopenlinks++; 690 } 691 692 if (!fdl) { 693 fdl = bundle->links; 694 if (!fdl) 695 return 0; 696 thislink = 0; 697 } 698 699 total = 0; 700 for (dl = fdl; nlinks > 0; dl = dl->next, nlinks--, thislink++) { 701 if (!dl) { 702 dl = bundle->links; 703 thislink = 0; 704 } 705 706 if (dl->state != DATALINK_OPEN) 707 continue; 708 709 if (dl->physical->out) 710 /* this link has suffered a short write. Let it continue */ 711 continue; 712 713 add = link_QueueLen(&dl->physical->link); 714 if (add) { 715 /* this link has got stuff already queued. Let it continue */ 716 total += add; 717 continue; 718 } 719 720 if (!mp_QueueLen(mp)) { 721 int mrutoosmall; 722 723 /* 724 * If there's only a single open link in our bundle and we haven't got 725 * MP level link compression, queue outbound traffic directly via that 726 * link's protocol stack rather than using the MP link. This results 727 * in the outbound traffic going out as PROTO_IP or PROTO_IPV6 rather 728 * than PROTO_MP. 729 */ 730 731 mrutoosmall = 0; 732 sendasip = nopenlinks < 2; 733 if (sendasip) { 734 if (dl->physical->link.lcp.his_mru < mp->peer_mrru) { 735 /* 736 * Actually, forget it. This test is done against the MRRU rather 737 * than the packet size so that we don't end up sending some data 738 * in MP fragments and some data in PROTO_IP packets. That's just 739 * too likely to upset some ppp implementations. 740 */ 741 mrutoosmall = 1; 742 sendasip = 0; 743 } 744 } 745 746 bestlink = sendasip ? &dl->physical->link : &mp->link; 747 if (!ncp_PushPacket(&bundle->ncp, &mp->out.af, bestlink)) 748 break; /* Nothing else to send */ 749 750 if (mrutoosmall) 751 log_Printf(LogDEBUG, "Don't send data as PROTO_IP, MRU < MRRU\n"); 752 else if (sendasip) 753 log_Printf(LogDEBUG, "Sending data as PROTO_IP, not PROTO_MP\n"); 754 755 if (sendasip) { 756 add = link_QueueLen(&dl->physical->link); 757 if (add) { 758 /* this link has got stuff already queued. Let it continue */ 759 total += add; 760 continue; 761 } 762 } 763 } 764 765 m = link_Dequeue(&mp->link); 766 if (m) { 767 len = m_length(m); 768 begin = 1; 769 end = 0; 770 771 while (!end) { 772 if (dl->state == DATALINK_OPEN) { 773 /* Write at most his_mru bytes to the physical link */ 774 if (len <= dl->physical->link.lcp.his_mru) { 775 mo = m; 776 end = 1; 777 m_settype(mo, MB_MPOUT); 778 } else { 779 /* It's > his_mru, chop the packet (`m') into bits */ 780 mo = m_get(dl->physical->link.lcp.his_mru, MB_MPOUT); 781 len -= mo->m_len; 782 m = mbuf_Read(m, MBUF_CTOP(mo), mo->m_len); 783 } 784 mp_Output(mp, bundle, &dl->physical->link, mo, begin, end); 785 begin = 0; 786 } 787 788 if (!end) { 789 nlinks--; 790 dl = dl->next; 791 if (!dl) { 792 dl = bundle->links; 793 thislink = 0; 794 } else 795 thislink++; 796 } 797 } 798 } 799 } 800 mp->out.link = thislink; /* Start here next time */ 801 802 return total; 803 } 804 805 int 806 mp_SetDatalinkBandwidth(struct cmdargs const *arg) 807 { 808 int val; 809 810 if (arg->argc != arg->argn+1) 811 return -1; 812 813 val = atoi(arg->argv[arg->argn]); 814 if (val <= 0) { 815 log_Printf(LogWARN, "The link bandwidth must be greater than zero\n"); 816 return 1; 817 } 818 arg->cx->mp.bandwidth = val; 819 820 if (arg->cx->state == DATALINK_OPEN) 821 bundle_CalculateBandwidth(arg->bundle); 822 823 return 0; 824 } 825 826 int 827 mp_ShowStatus(struct cmdargs const *arg) 828 { 829 struct mp *mp = &arg->bundle->ncp.mp; 830 831 prompt_Printf(arg->prompt, "Multilink is %sactive\n", mp->active ? "" : "in"); 832 if (mp->active) { 833 struct mbuf *m, *lm; 834 int bufs = 0; 835 836 lm = NULL; 837 prompt_Printf(arg->prompt, "Socket: %s\n", 838 mp->server.socket.sun_path); 839 for (m = mp->inbufs; m; m = m->m_nextpkt) { 840 bufs++; 841 lm = m; 842 } 843 prompt_Printf(arg->prompt, "Pending frags: %d", bufs); 844 if (bufs) { 845 struct mp_header mh; 846 unsigned long first, last; 847 848 first = mp_ReadHeader(mp, mp->inbufs, &mh) ? mh.seq : 0; 849 last = mp_ReadHeader(mp, lm, &mh) ? mh.seq : 0; 850 prompt_Printf(arg->prompt, " (Have %lu - %lu, want %lu, lowest %lu)\n", 851 first, last, (unsigned long)mp->seq.next_in, 852 (unsigned long)mp->seq.min_in); 853 prompt_Printf(arg->prompt, " First has %sbegin bit and " 854 "%send bit", mh.begin ? "" : "no ", mh.end ? "" : "no "); 855 } 856 prompt_Printf(arg->prompt, "\n"); 857 } 858 859 prompt_Printf(arg->prompt, "\nMy Side:\n"); 860 if (mp->active) { 861 prompt_Printf(arg->prompt, " Output SEQ: %u\n", mp->out.seq); 862 prompt_Printf(arg->prompt, " MRRU: %u\n", mp->local_mrru); 863 prompt_Printf(arg->prompt, " Short Seq: %s\n", 864 mp->local_is12bit ? "on" : "off"); 865 } 866 prompt_Printf(arg->prompt, " Discriminator: %s\n", 867 mp_Enddisc(mp->cfg.enddisc.class, mp->cfg.enddisc.address, 868 mp->cfg.enddisc.len)); 869 870 prompt_Printf(arg->prompt, "\nHis Side:\n"); 871 if (mp->active) { 872 prompt_Printf(arg->prompt, " Auth Name: %s\n", mp->peer.authname); 873 prompt_Printf(arg->prompt, " Input SEQ: %u\n", mp->seq.next_in); 874 prompt_Printf(arg->prompt, " MRRU: %u\n", mp->peer_mrru); 875 prompt_Printf(arg->prompt, " Short Seq: %s\n", 876 mp->peer_is12bit ? "on" : "off"); 877 } 878 prompt_Printf(arg->prompt, " Discriminator: %s\n", 879 mp_Enddisc(mp->peer.enddisc.class, mp->peer.enddisc.address, 880 mp->peer.enddisc.len)); 881 882 prompt_Printf(arg->prompt, "\nDefaults:\n"); 883 884 prompt_Printf(arg->prompt, " MRRU: "); 885 if (mp->cfg.mrru) 886 prompt_Printf(arg->prompt, "%d (multilink enabled)\n", mp->cfg.mrru); 887 else 888 prompt_Printf(arg->prompt, "disabled\n"); 889 prompt_Printf(arg->prompt, " Short Seq: %s\n", 890 command_ShowNegval(mp->cfg.shortseq)); 891 prompt_Printf(arg->prompt, " Discriminator: %s\n", 892 command_ShowNegval(mp->cfg.negenddisc)); 893 prompt_Printf(arg->prompt, " AutoLoad: min %d%%, max %d%%," 894 " period %d secs\n", mp->cfg.autoload.min, 895 mp->cfg.autoload.max, mp->cfg.autoload.period); 896 897 return 0; 898 } 899 900 const char * 901 mp_Enddisc(u_char c, const char *address, size_t len) 902 { 903 static char result[100]; /* Used immediately after it's returned */ 904 unsigned f, header; 905 906 switch (c) { 907 case ENDDISC_NULL: 908 sprintf(result, "Null Class"); 909 break; 910 911 case ENDDISC_LOCAL: 912 snprintf(result, sizeof result, "Local Addr: %.*s", (int)len, 913 address); 914 break; 915 916 case ENDDISC_IP: 917 if (len == 4) 918 snprintf(result, sizeof result, "IP %s", 919 inet_ntoa(*(const struct in_addr *)address)); 920 else 921 sprintf(result, "IP[%zd] ???", len); 922 break; 923 924 case ENDDISC_MAC: 925 if (len == 6) { 926 const u_char *m = (const u_char *)address; 927 snprintf(result, sizeof result, "MAC %02x:%02x:%02x:%02x:%02x:%02x", 928 m[0], m[1], m[2], m[3], m[4], m[5]); 929 } else 930 sprintf(result, "MAC[%zd] ???", len); 931 break; 932 933 case ENDDISC_MAGIC: 934 sprintf(result, "Magic: 0x"); 935 header = strlen(result); 936 if (len + header + 1 > sizeof result) 937 len = sizeof result - header - 1; 938 for (f = 0; f < len; f++) 939 sprintf(result + header + 2 * f, "%02x", address[f]); 940 break; 941 942 case ENDDISC_PSN: 943 snprintf(result, sizeof result, "PSN: %.*s", (int)len, address); 944 break; 945 946 default: 947 sprintf(result, "%d: ", (int)c); 948 header = strlen(result); 949 if (len + header + 1 > sizeof result) 950 len = sizeof result - header - 1; 951 for (f = 0; f < len; f++) 952 sprintf(result + header + 2 * f, "%02x", address[f]); 953 break; 954 } 955 return result; 956 } 957 958 int 959 mp_SetEnddisc(struct cmdargs const *arg) 960 { 961 struct mp *mp = &arg->bundle->ncp.mp; 962 struct in_addr addr; 963 964 switch (bundle_Phase(arg->bundle)) { 965 case PHASE_DEAD: 966 break; 967 case PHASE_ESTABLISH: 968 /* Make sure none of our links are DATALINK_LCP or greater */ 969 if (bundle_HighestState(arg->bundle) >= DATALINK_LCP) { 970 log_Printf(LogWARN, "enddisc: Only changeable before" 971 " LCP negotiations\n"); 972 return 1; 973 } 974 break; 975 default: 976 log_Printf(LogWARN, "enddisc: Only changeable at phase DEAD/ESTABLISH\n"); 977 return 1; 978 } 979 980 if (arg->argc == arg->argn) { 981 mp->cfg.enddisc.class = 0; 982 *mp->cfg.enddisc.address = '\0'; 983 mp->cfg.enddisc.len = 0; 984 } else if (arg->argc > arg->argn) { 985 if (!strcasecmp(arg->argv[arg->argn], "label")) { 986 mp->cfg.enddisc.class = ENDDISC_LOCAL; 987 strcpy(mp->cfg.enddisc.address, arg->bundle->cfg.label); 988 mp->cfg.enddisc.len = strlen(mp->cfg.enddisc.address); 989 } else if (!strcasecmp(arg->argv[arg->argn], "ip")) { 990 if (arg->bundle->ncp.ipcp.my_ip.s_addr == INADDR_ANY) 991 ncprange_getip4addr(&arg->bundle->ncp.ipcp.cfg.my_range, &addr); 992 else 993 addr = arg->bundle->ncp.ipcp.my_ip; 994 memcpy(mp->cfg.enddisc.address, &addr.s_addr, sizeof addr.s_addr); 995 mp->cfg.enddisc.class = ENDDISC_IP; 996 mp->cfg.enddisc.len = sizeof arg->bundle->ncp.ipcp.my_ip.s_addr; 997 } else if (!strcasecmp(arg->argv[arg->argn], "mac")) { 998 struct sockaddr_dl hwaddr; 999 1000 if (arg->bundle->ncp.ipcp.my_ip.s_addr == INADDR_ANY) 1001 ncprange_getip4addr(&arg->bundle->ncp.ipcp.cfg.my_range, &addr); 1002 else 1003 addr = arg->bundle->ncp.ipcp.my_ip; 1004 1005 if (arp_EtherAddr(addr, &hwaddr, 1)) { 1006 mp->cfg.enddisc.class = ENDDISC_MAC; 1007 memcpy(mp->cfg.enddisc.address, hwaddr.sdl_data + hwaddr.sdl_nlen, 1008 hwaddr.sdl_alen); 1009 mp->cfg.enddisc.len = hwaddr.sdl_alen; 1010 } else { 1011 log_Printf(LogWARN, "set enddisc: Can't locate MAC address for %s\n", 1012 inet_ntoa(addr)); 1013 return 4; 1014 } 1015 } else if (!strcasecmp(arg->argv[arg->argn], "magic")) { 1016 int f; 1017 1018 randinit(); 1019 for (f = 0; f < 20; f += sizeof(long)) 1020 *(long *)(mp->cfg.enddisc.address + f) = random(); 1021 mp->cfg.enddisc.class = ENDDISC_MAGIC; 1022 mp->cfg.enddisc.len = 20; 1023 } else if (!strcasecmp(arg->argv[arg->argn], "psn")) { 1024 if (arg->argc > arg->argn+1) { 1025 mp->cfg.enddisc.class = ENDDISC_PSN; 1026 strcpy(mp->cfg.enddisc.address, arg->argv[arg->argn+1]); 1027 mp->cfg.enddisc.len = strlen(mp->cfg.enddisc.address); 1028 } else { 1029 log_Printf(LogWARN, "PSN endpoint requires additional data\n"); 1030 return 5; 1031 } 1032 } else { 1033 log_Printf(LogWARN, "%s: Unrecognised endpoint type\n", 1034 arg->argv[arg->argn]); 1035 return 6; 1036 } 1037 } 1038 1039 return 0; 1040 } 1041 1042 static int 1043 mpserver_UpdateSet(struct fdescriptor *d, fd_set *r, fd_set *w, fd_set *e, 1044 int *n) 1045 { 1046 struct mpserver *s = descriptor2mpserver(d); 1047 int result; 1048 1049 result = 0; 1050 if (s->send.dl != NULL) { 1051 /* We've connect()ed */ 1052 if (!link_QueueLen(&s->send.dl->physical->link) && 1053 !s->send.dl->physical->out) { 1054 /* Only send if we've transmitted all our data (i.e. the ConfigAck) */ 1055 result -= datalink_RemoveFromSet(s->send.dl, r, w, e); 1056 bundle_SendDatalink(s->send.dl, s->fd, &s->socket); 1057 s->send.dl = NULL; 1058 s->fd = -1; 1059 } else 1060 /* Never read from a datalink that's on death row ! */ 1061 result -= datalink_RemoveFromSet(s->send.dl, r, NULL, NULL); 1062 } else if (r && s->fd >= 0) { 1063 if (*n < s->fd + 1) 1064 *n = s->fd + 1; 1065 FD_SET(s->fd, r); 1066 log_Printf(LogTIMER, "mp: fdset(r) %d\n", s->fd); 1067 result++; 1068 } 1069 return result; 1070 } 1071 1072 static int 1073 mpserver_IsSet(struct fdescriptor *d, const fd_set *fdset) 1074 { 1075 struct mpserver *s = descriptor2mpserver(d); 1076 return s->fd >= 0 && FD_ISSET(s->fd, fdset); 1077 } 1078 1079 static void 1080 mpserver_Read(struct fdescriptor *d, struct bundle *bundle, 1081 const fd_set *fdset __unused) 1082 { 1083 struct mpserver *s = descriptor2mpserver(d); 1084 1085 bundle_ReceiveDatalink(bundle, s->fd); 1086 } 1087 1088 static int 1089 mpserver_Write(struct fdescriptor *d __unused, struct bundle *bundle __unused, 1090 const fd_set *fdset __unused) 1091 { 1092 /* We never want to write here ! */ 1093 log_Printf(LogALERT, "mpserver_Write: Internal error: Bad call !\n"); 1094 return 0; 1095 } 1096 1097 void 1098 mpserver_Init(struct mpserver *s) 1099 { 1100 s->desc.type = MPSERVER_DESCRIPTOR; 1101 s->desc.UpdateSet = mpserver_UpdateSet; 1102 s->desc.IsSet = mpserver_IsSet; 1103 s->desc.Read = mpserver_Read; 1104 s->desc.Write = mpserver_Write; 1105 s->send.dl = NULL; 1106 s->fd = -1; 1107 memset(&s->socket, '\0', sizeof s->socket); 1108 } 1109 1110 int 1111 mpserver_Open(struct mpserver *s, struct peerid *peer) 1112 { 1113 int f, l; 1114 mode_t mask; 1115 1116 if (s->fd != -1) { 1117 log_Printf(LogALERT, "Internal error ! mpserver already open\n"); 1118 mpserver_Close(s); 1119 } 1120 1121 l = snprintf(s->socket.sun_path, sizeof s->socket.sun_path, "%sppp-%s-%02x-", 1122 _PATH_VARRUN, peer->authname, peer->enddisc.class); 1123 if (l < 0) { 1124 log_Printf(LogERROR, "mpserver: snprintf(): %s\n", strerror(errno)); 1125 return MPSERVER_FAILED; 1126 } 1127 1128 for (f = 0; 1129 f < peer->enddisc.len && (size_t)l < sizeof s->socket.sun_path - 2; 1130 f++) { 1131 snprintf(s->socket.sun_path + l, sizeof s->socket.sun_path - l, 1132 "%02x", *(u_char *)(peer->enddisc.address+f)); 1133 l += 2; 1134 } 1135 1136 s->socket.sun_family = AF_LOCAL; 1137 s->socket.sun_len = sizeof s->socket; 1138 s->fd = ID0socket(PF_LOCAL, SOCK_DGRAM, 0); 1139 if (s->fd < 0) { 1140 log_Printf(LogERROR, "mpserver: socket(): %s\n", strerror(errno)); 1141 return MPSERVER_FAILED; 1142 } 1143 1144 setsockopt(s->fd, SOL_SOCKET, SO_REUSEADDR, (struct sockaddr *)&s->socket, 1145 sizeof s->socket); 1146 mask = umask(0177); 1147 1148 /* 1149 * Try to bind the socket. If we succeed we play server, if we fail 1150 * we connect() and hand the link off. 1151 */ 1152 1153 if (ID0bind_un(s->fd, &s->socket) < 0) { 1154 if (errno != EADDRINUSE) { 1155 log_Printf(LogPHASE, "mpserver: can't create bundle socket %s (%s)\n", 1156 s->socket.sun_path, strerror(errno)); 1157 umask(mask); 1158 close(s->fd); 1159 s->fd = -1; 1160 return MPSERVER_FAILED; 1161 } 1162 1163 /* So we're the sender */ 1164 umask(mask); 1165 if (ID0connect_un(s->fd, &s->socket) < 0) { 1166 log_Printf(LogPHASE, "mpserver: can't connect to bundle socket %s (%s)\n", 1167 s->socket.sun_path, strerror(errno)); 1168 if (errno == ECONNREFUSED) 1169 log_Printf(LogPHASE, " The previous server died badly !\n"); 1170 close(s->fd); 1171 s->fd = -1; 1172 return MPSERVER_FAILED; 1173 } 1174 1175 /* Donate our link to the other guy */ 1176 return MPSERVER_CONNECTED; 1177 } 1178 1179 return MPSERVER_LISTENING; 1180 } 1181 1182 void 1183 mpserver_Close(struct mpserver *s) 1184 { 1185 if (s->send.dl != NULL) { 1186 bundle_SendDatalink(s->send.dl, s->fd, &s->socket); 1187 s->send.dl = NULL; 1188 s->fd = -1; 1189 } else if (s->fd >= 0) { 1190 close(s->fd); 1191 if (ID0unlink(s->socket.sun_path) == -1) 1192 log_Printf(LogERROR, "%s: Failed to remove: %s\n", s->socket.sun_path, 1193 strerror(errno)); 1194 memset(&s->socket, '\0', sizeof s->socket); 1195 s->fd = -1; 1196 } 1197 } 1198 1199 void 1200 mp_LinkLost(struct mp *mp, struct datalink *dl) 1201 { 1202 if (mp->seq.min_in == dl->mp.seq) 1203 /* We've lost the link that's holding everything up ! */ 1204 mp_Assemble(mp, NULL, NULL); 1205 } 1206 1207 size_t 1208 mp_QueueLen(struct mp *mp) 1209 { 1210 return link_QueueLen(&mp->link); 1211 } 1212