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1.1 ! root 1: /* ! 2: * Copyright (c) 1984, 1985, 1986 Regents of the University of California. ! 3: * All rights reserved. The Berkeley software License Agreement ! 4: * specifies the terms and conditions for redistribution. ! 5: * ! 6: * @(#)spp_usrreq.c 7.1 (Berkeley) 6/5/86 ! 7: */ ! 8: ! 9: #include "param.h" ! 10: #include "dir.h" ! 11: #include "user.h" ! 12: #include "mbuf.h" ! 13: #include "protosw.h" ! 14: #include "socket.h" ! 15: #include "socketvar.h" ! 16: #include "errno.h" ! 17: ! 18: #include "../net/if.h" ! 19: #include "../net/route.h" ! 20: #include "../netinet/tcp_fsm.h" ! 21: #include "../netinet/tcp_timer.h" ! 22: ! 23: #include "ns.h" ! 24: #include "ns_pcb.h" ! 25: #include "idp.h" ! 26: #include "idp_var.h" ! 27: #include "ns_error.h" ! 28: #include "sp.h" ! 29: #include "spidp.h" ! 30: #include "spp_var.h" ! 31: #include "spp_debug.h" ! 32: ! 33: /* ! 34: * SP protocol implementation. ! 35: */ ! 36: spp_init() ! 37: { ! 38: ! 39: spp_iss = 1; /* WRONG !! should fish it out of TODR */ ! 40: } ! 41: struct spidp spp_savesi; ! 42: int traceallspps = 0; ! 43: extern int sppconsdebug; ! 44: int spp_hardnosed; ! 45: int spp_use_delack = 0; ! 46: ! 47: /*ARGSUSED*/ ! 48: spp_input(m, nsp, ifp) ! 49: register struct mbuf *m; ! 50: register struct nspcb *nsp; ! 51: struct ifnet *ifp; ! 52: { ! 53: register struct sppcb *cb; ! 54: register struct spidp *si = mtod(m, struct spidp *); ! 55: register struct socket *so; ! 56: short ostate; ! 57: int dropsocket = 0; ! 58: ! 59: ! 60: if (nsp == 0) { ! 61: panic("No nspcb in spp_input\n"); ! 62: return; ! 63: } ! 64: ! 65: cb = nstosppcb(nsp); ! 66: if (cb == 0) goto bad; ! 67: ! 68: if (m->m_len < sizeof(*si)) { ! 69: if ((m = m_pullup(m, sizeof(*si))) == 0) { ! 70: spp_istat.hdrops++; ! 71: return; ! 72: } ! 73: si = mtod(m, struct spidp *); ! 74: } ! 75: si->si_seq = ntohs(si->si_seq); ! 76: si->si_ack = ntohs(si->si_ack); ! 77: si->si_alo = ntohs(si->si_alo); ! 78: ! 79: so = nsp->nsp_socket; ! 80: if (so->so_options & SO_DEBUG || traceallspps) { ! 81: ostate = cb->s_state; ! 82: spp_savesi = *si; ! 83: } ! 84: if (so->so_options & SO_ACCEPTCONN) { ! 85: so = sonewconn(so); ! 86: if (so == 0) { ! 87: spp_istat.nonucn++; ! 88: goto drop; ! 89: } ! 90: /* ! 91: * This is ugly, but .... ! 92: * ! 93: * Mark socket as temporary until we're ! 94: * committed to keeping it. The code at ! 95: * ``drop'' and ``dropwithreset'' check the ! 96: * flag dropsocket to see if the temporary ! 97: * socket created here should be discarded. ! 98: * We mark the socket as discardable until ! 99: * we're committed to it below in TCPS_LISTEN. ! 100: */ ! 101: dropsocket++; ! 102: nsp = (struct nspcb *)so->so_pcb; ! 103: nsp->nsp_laddr = si->si_dna; ! 104: cb = nstosppcb(nsp); ! 105: cb->s_state = TCPS_LISTEN; ! 106: } ! 107: ! 108: /* ! 109: * Packet received on connection. ! 110: * reset idle time and keep-alive timer; ! 111: */ ! 112: cb->s_idle = 0; ! 113: cb->s_timer[TCPT_KEEP] = TCPTV_KEEP; ! 114: ! 115: switch (cb->s_state) { ! 116: ! 117: case TCPS_LISTEN:{ ! 118: struct mbuf *am; ! 119: register struct sockaddr_ns *sns; ! 120: struct ns_addr laddr; ! 121: ! 122: /* ! 123: * If somebody here was carying on a conversation ! 124: * and went away, and his pen pal thinks he can ! 125: * still talk, we get the misdirected packet. ! 126: */ ! 127: if (spp_hardnosed && (si->si_did != 0 || si->si_seq != 0)) { ! 128: spp_istat.gonawy++; ! 129: goto dropwithreset; ! 130: } ! 131: am = m_get(M_DONTWAIT, MT_SONAME); ! 132: if (am == NULL) ! 133: goto drop; ! 134: am->m_len = sizeof (struct sockaddr_ns); ! 135: sns = mtod(am, struct sockaddr_ns *); ! 136: sns->sns_family = AF_NS; ! 137: sns->sns_addr = si->si_sna; ! 138: laddr = nsp->nsp_laddr; ! 139: if (ns_nullhost(laddr)) ! 140: nsp->nsp_laddr = si->si_dna; ! 141: if (ns_pcbconnect(nsp, am)) { ! 142: nsp->nsp_laddr = laddr; ! 143: (void) m_free(am); ! 144: spp_istat.noconn++; ! 145: goto drop; ! 146: } ! 147: (void) m_free(am); ! 148: spp_template(cb); ! 149: dropsocket = 0; /* committed to socket */ ! 150: cb->s_did = si->si_sid; ! 151: cb->s_rack = si->si_ack; ! 152: cb->s_ralo = si->si_alo; ! 153: #define THREEWAYSHAKE ! 154: #ifdef THREEWAYSHAKE ! 155: cb->s_state = TCPS_SYN_RECEIVED; ! 156: cb->s_force = 1 + TCPT_REXMT; ! 157: cb->s_timer[TCPT_REXMT] = 2 * TCPTV_MIN; ! 158: } ! 159: break; ! 160: /* ! 161: * This state means that we have heard a response ! 162: * to our acceptance of their connection ! 163: * It is probably logically unnecessary in this ! 164: * implementation. ! 165: */ ! 166: case TCPS_SYN_RECEIVED: ! 167: if (si->si_did!=cb->s_sid) { ! 168: spp_istat.wrncon++; ! 169: goto drop; ! 170: } ! 171: #endif ! 172: nsp->nsp_fport = si->si_sport; ! 173: cb->s_timer[TCPT_REXMT] = 0; ! 174: cb->s_timer[TCPT_KEEP] = TCPTV_KEEP; ! 175: soisconnected(so); ! 176: cb->s_state = TCPS_ESTABLISHED; ! 177: break; ! 178: ! 179: /* ! 180: * This state means that we have gotten a response ! 181: * to our attempt to establish a connection. ! 182: * We fill in the data from the other side, ! 183: * telling us which port to respond to, instead of the well- ! 184: * known one we might have sent to in the first place. ! 185: * We also require that this is a response to our ! 186: * connection id. ! 187: */ ! 188: case TCPS_SYN_SENT: ! 189: if (si->si_did!=cb->s_sid) { ! 190: spp_istat.notme++; ! 191: goto drop; ! 192: } ! 193: cb->s_did = si->si_sid; ! 194: cb->s_rack = si->si_ack; ! 195: cb->s_ralo = si->si_alo; ! 196: cb->s_dport = nsp->nsp_fport = si->si_sport; ! 197: cb->s_timer[TCPT_REXMT] = 0; ! 198: cb->s_flags |= SF_AK; ! 199: soisconnected(so); ! 200: cb->s_state = TCPS_ESTABLISHED; ! 201: } ! 202: if (so->so_options & SO_DEBUG || traceallspps) ! 203: spp_trace(SA_INPUT, (u_char)ostate, cb, &spp_savesi, 0); ! 204: ! 205: m->m_len -= sizeof (struct idp); ! 206: m->m_off += sizeof (struct idp); ! 207: ! 208: if (spp_reass(cb, si)) { ! 209: m_freem(m); ! 210: } ! 211: (void) spp_output(cb, (struct mbuf *)0); ! 212: return; ! 213: ! 214: dropwithreset: ! 215: if (dropsocket) ! 216: (void) soabort(so); ! 217: si->si_seq = ntohs(si->si_seq); ! 218: si->si_ack = ntohs(si->si_ack); ! 219: si->si_alo = ntohs(si->si_alo); ! 220: ns_error(dtom(si), NS_ERR_NOSOCK, 0); ! 221: if (cb->s_nspcb->nsp_socket->so_options & SO_DEBUG || traceallspps) ! 222: spp_trace(SA_DROP, (u_char)ostate, cb, &spp_savesi, 0); ! 223: return; ! 224: ! 225: drop: ! 226: bad: ! 227: if (cb == 0 || cb->s_nspcb->nsp_socket->so_options & SO_DEBUG || traceallspps) ! 228: spp_trace(SA_DROP, (u_char)ostate, cb, &spp_savesi, 0); ! 229: m_freem(m); ! 230: } ! 231: ! 232: /* ! 233: * This is structurally similar to the tcp reassembly routine ! 234: * but its function is somewhat different: It merely queues ! 235: * packets up, and suppresses duplicates. ! 236: */ ! 237: spp_reass(cb, si) ! 238: register struct sppcb *cb; ! 239: register struct spidp *si; ! 240: { ! 241: register struct spidp_q *q; ! 242: register struct mbuf *m; ! 243: struct socket *so = cb->s_nspcb->nsp_socket; ! 244: struct sockbuf *sb = & (so->so_rcv); ! 245: char packetp = cb->s_flags & SF_HI; ! 246: char wakeup = 0; ! 247: ! 248: ! 249: if (si == SI(0)) ! 250: goto present; ! 251: /* ! 252: * Update our news from them. ! 253: */ ! 254: if (si->si_cc & SP_SA) ! 255: cb->s_flags |= (spp_use_delack ? SF_DELACK : SF_AK); ! 256: if (SSEQ_GT(si->si_ack, cb->s_rack)) { ! 257: cb->s_rack = si->si_ack; ! 258: /* ! 259: * If there are other packets outstanding, ! 260: * restart the timer for them. ! 261: */ ! 262: if (SSEQ_GEQ(cb->s_snt, si->si_ack)) { ! 263: TCPT_RANGESET(cb->s_timer[TCPT_REXMT], ! 264: tcp_beta * cb->s_srtt, TCPTV_MIN, ! 265: TCPTV_MAX); ! 266: cb->s_rxtshift = 0; ! 267: } else ! 268: cb->s_timer[TCPT_REXMT] = 0; ! 269: /* ! 270: * If transmit timer is running and timed sequence ! 271: * number was acked, update smoothed round trip time. ! 272: */ ! 273: if (cb->s_rtt && SSEQ_GT(si->si_ack, cb->s_rtseq)) { ! 274: if (cb->s_srtt == 0) ! 275: cb->s_srtt = cb->s_rtt; ! 276: else ! 277: cb->s_srtt = ! 278: tcp_alpha * cb->s_srtt + ! 279: (1 - tcp_alpha) * cb->s_rtt; ! 280: cb->s_rtt = 0; ! 281: } ! 282: } ! 283: if (SSEQ_GT(si->si_alo, cb->s_ralo)) { ! 284: cb->s_ralo = si->si_alo; ! 285: cb->s_timer[TCPT_PERSIST] = 0; ! 286: } ! 287: /* ! 288: * If this is a system packet, we don't need to ! 289: * queue it up, and won't update acknowledge # ! 290: */ ! 291: if (si->si_cc & SP_SP) { ! 292: m_freem(dtom(si)); ! 293: return (0); ! 294: } ! 295: ! 296: /* ! 297: * If this packet number has a sequence number less ! 298: * than that of the first packet not yet seen coming ! 299: * from them, this must be a duplicate, so drop. ! 300: */ ! 301: if (SSEQ_LT(si->si_seq, cb->s_ack)) { ! 302: spp_istat.bdreas++; ! 303: if (si->si_seq == cb->s_ack-1) ! 304: spp_istat.lstdup++; ! 305: return (1); ! 306: } ! 307: /* ! 308: * If this packet number is higher than that which ! 309: * we have allocated refuse it, unless urgent ! 310: */ ! 311: if (SSEQ_GT(si->si_seq, cb->s_alo)) { ! 312: if (si->si_cc & SP_OB) { ! 313: if (SSEQ_GT(si->si_seq, cb->s_alo + 60)) { ! 314: ns_error(dtom(si), NS_ERR_FULLUP, 0); ! 315: return (0); ! 316: } /* else queue this packet; */ ! 317: } else { ! 318: spp_istat.notyet++; ! 319: return (1); ! 320: } ! 321: } ! 322: ! 323: /* ! 324: * Loop through all packets queued up to insert in ! 325: * appropriate sequence. ! 326: */ ! 327: ! 328: for (q = cb->s_q.si_next; q!=&cb->s_q; q = q->si_next) { ! 329: if (si->si_seq == SI(q)->si_seq) return (1); /*duplicate */ ! 330: if (SSEQ_LT(si->si_seq, SI(q)->si_seq)) break; ! 331: } ! 332: insque(si, q->si_prev); ! 333: /* ! 334: * If this packet is urgent, inform process ! 335: */ ! 336: if (si->si_cc & SP_OB) { ! 337: cb->s_iobc = ((char *)si)[1 + sizeof(*si)]; ! 338: sohasoutofband(so); ! 339: cb->s_oobflags |= SF_IOOB; ! 340: } ! 341: present: ! 342: #define SPINC sizeof(struct sphdr) ! 343: /* ! 344: * Loop through all packets queued up to update acknowledge ! 345: * number, and present all acknowledged data to user; ! 346: * If in packet interface mode, show packet headers. ! 347: */ ! 348: for (q = cb->s_q.si_next; q!=&cb->s_q; q = q->si_next) { ! 349: if (SI(q)->si_seq == cb->s_ack) { ! 350: cb->s_ack++; ! 351: m = dtom(q); ! 352: if (SI(q)->si_cc & SP_OB) { ! 353: cb->s_oobflags &= ~SF_IOOB; ! 354: if (sb->sb_cc) ! 355: so->so_oobmark = sb->sb_cc; ! 356: else ! 357: so->so_state |= SS_RCVATMARK; ! 358: } ! 359: q = q->si_prev; ! 360: remque(q->si_next); ! 361: wakeup = 1; ! 362: if (packetp) { ! 363: sbappendrecord(sb, m); ! 364: } else { ! 365: cb->s_rhdr = *mtod(m, struct sphdr *); ! 366: m->m_off += SPINC; ! 367: m->m_len -= SPINC; ! 368: sbappend(sb, m); ! 369: } ! 370: } else ! 371: break; ! 372: } ! 373: if (wakeup) sorwakeup(so); ! 374: return (0); ! 375: } ! 376: ! 377: spp_ctlinput(cmd, arg) ! 378: int cmd; ! 379: caddr_t arg; ! 380: { ! 381: struct ns_addr *na; ! 382: extern u_char nsctlerrmap[]; ! 383: extern spp_abort(); ! 384: extern struct nspcb *idp_drop(); ! 385: struct ns_errp *errp; ! 386: struct nspcb *nsp; ! 387: struct sockaddr_ns *sns; ! 388: int type; ! 389: ! 390: if (cmd < 0 || cmd > PRC_NCMDS) ! 391: return; ! 392: type = NS_ERR_UNREACH_HOST; ! 393: ! 394: switch (cmd) { ! 395: ! 396: case PRC_ROUTEDEAD: ! 397: case PRC_QUENCH: ! 398: break; ! 399: ! 400: case PRC_IFDOWN: ! 401: case PRC_HOSTDEAD: ! 402: case PRC_HOSTUNREACH: ! 403: sns = (struct sockaddr_ns *)arg; ! 404: if (sns->sns_family != AF_NS) ! 405: return; ! 406: na = &sns->sns_addr; ! 407: break; ! 408: ! 409: default: ! 410: errp = (struct ns_errp *)arg; ! 411: na = &errp->ns_err_idp.idp_dna; ! 412: type = errp->ns_err_num; ! 413: type = ntohs((u_short)type); ! 414: } ! 415: switch (type) { ! 416: ! 417: case NS_ERR_UNREACH_HOST: ! 418: ns_pcbnotify(na, (int)nsctlerrmap[cmd], spp_abort, (long) 0); ! 419: break; ! 420: ! 421: case NS_ERR_TOO_BIG: ! 422: case NS_ERR_NOSOCK: ! 423: nsp = ns_pcblookup(na, errp->ns_err_idp.idp_sna.x_port, ! 424: NS_WILDCARD); ! 425: if (nsp) { ! 426: if(nsp->nsp_pcb) ! 427: (void) spp_drop((struct sppcb *)nsp->nsp_pcb, ! 428: (int)nsctlerrmap[cmd]); ! 429: else ! 430: (void) idp_drop(nsp, (int)nsctlerrmap[cmd]); ! 431: } ! 432: } ! 433: } ! 434: ! 435: #ifdef notdef ! 436: int ! 437: spp_fixmtu(nsp) ! 438: register struct nspcb *nsp; ! 439: { ! 440: register struct sppcb *cb = (struct sppcb *)(nsp->nsp_pcb); ! 441: register struct mbuf *m; ! 442: register struct spidp *si; ! 443: struct ns_errp *ep; ! 444: struct sockbuf *sb; ! 445: int badseq, len; ! 446: struct mbuf *firstbad, *m0; ! 447: ! 448: if (cb) { ! 449: /* ! 450: * The notification that we have sent ! 451: * too much is bad news -- we will ! 452: * have to go through queued up so far ! 453: * splitting ones which are too big and ! 454: * reassigning sequence numbers and checksums. ! 455: * we should then retransmit all packets from ! 456: * one above the offending packet to the last one ! 457: * we had sent (or our allocation) ! 458: * then the offending one so that the any queued ! 459: * data at our destination will be discarded. ! 460: */ ! 461: ep = (struct ns_errp *)nsp->nsp_notify_param; ! 462: sb = &nsp->nsp_socket->so_snd; ! 463: cb->s_mtu = ep->ns_err_param; ! 464: badseq = SI(&ep->ns_err_idp)->si_seq; ! 465: for (m = sb->sb_mb; m; m = m->m_act) { ! 466: si = mtod(m, struct spidp *); ! 467: if (si->si_seq == badseq) ! 468: break; ! 469: } ! 470: if (m == 0) return; ! 471: firstbad = m; ! 472: /*for (;;) {*/ ! 473: /* calculate length */ ! 474: for (m0 = m, len = 0; m ; m = m->m_next) ! 475: len += m->m_len; ! 476: if (len > cb->s_mtu) { ! 477: } ! 478: /* FINISH THIS ! 479: } */ ! 480: } ! 481: } ! 482: #endif ! 483: ! 484: int spp_output_cnt = 0; ! 485: ! 486: spp_output(cb, m0) ! 487: register struct sppcb *cb; ! 488: struct mbuf *m0; ! 489: { ! 490: struct socket *so = cb->s_nspcb->nsp_socket; ! 491: register struct mbuf *m; ! 492: register struct spidp *si = (struct spidp *) 0; ! 493: register struct sockbuf *sb = &(so->so_snd); ! 494: register int len = 0; ! 495: int error = 0; ! 496: u_short lookfor = 0; ! 497: struct mbuf *mprev; ! 498: extern int idpcksum; ! 499: ! 500: if (m0) { ! 501: int mtu = cb->s_mtu; ! 502: int datalen; ! 503: /* ! 504: * Make sure that packet isn't too big. ! 505: */ ! 506: for (m = m0; m ; m = m->m_next) { ! 507: mprev = m; ! 508: len += m->m_len; ! 509: } ! 510: datalen = (cb->s_flags & SF_HO) ? ! 511: len - sizeof (struct sphdr) : len; ! 512: if (datalen > mtu) { ! 513: if (cb->s_flags & SF_PI) { ! 514: m_freem(m0); ! 515: return (EMSGSIZE); ! 516: } else { ! 517: int off = 0; ! 518: int oldEM = cb->s_cc & SP_EM; ! 519: ! 520: cb->s_cc &= ~SP_EM; ! 521: while (len > mtu) { ! 522: m = m_copy(m0, off, mtu); ! 523: if (m == NULL) { ! 524: error = ENOBUFS; ! 525: goto bad_copy; ! 526: } ! 527: error = spp_output(cb, m); ! 528: if (error) { ! 529: bad_copy: ! 530: cb->s_cc |= oldEM; ! 531: m_freem(m0); ! 532: return(error); ! 533: } ! 534: m_adj(m0, mtu); ! 535: len -= mtu; ! 536: } ! 537: cb->s_cc |= oldEM; ! 538: } ! 539: } ! 540: /* ! 541: * Force length even, by adding a "garbage byte" if ! 542: * necessary. ! 543: */ ! 544: if (len & 1) { ! 545: m = mprev; ! 546: if (m->m_len + m->m_off < MMAXOFF) ! 547: m->m_len++; ! 548: else { ! 549: struct mbuf *m1 = m_get(M_DONTWAIT, MT_DATA); ! 550: ! 551: if (m1 == 0) { ! 552: m_freem(m0); ! 553: return (ENOBUFS); ! 554: } ! 555: m1->m_len = 1; ! 556: m1->m_off = MMAXOFF - 1; ! 557: m->m_next = m1; ! 558: } ! 559: } ! 560: m = m_get(M_DONTWAIT, MT_HEADER); ! 561: if (m == 0) { ! 562: m_freem(m0); ! 563: return (ENOBUFS); ! 564: } ! 565: /* ! 566: * Fill in mbuf with extended SP header ! 567: * and addresses and length put into network format. ! 568: * Long align so prepended ip headers will work on Gould. ! 569: */ ! 570: m->m_off = MMAXOFF - sizeof (struct spidp) - 2; ! 571: m->m_len = sizeof (struct spidp); ! 572: m->m_next = m0; ! 573: si = mtod(m, struct spidp *); ! 574: *si = cb->s_shdr; ! 575: if ((cb->s_flags & SF_PI) && (cb->s_flags & SF_HO)) { ! 576: register struct sphdr *sh; ! 577: if (m0->m_len < sizeof (*sh)) { ! 578: if((m0 = m_pullup(m0, sizeof(*sh))) == NULL) { ! 579: (void) m_free(m); ! 580: m_freem(m0); ! 581: return (EINVAL); ! 582: } ! 583: m->m_next = m0; ! 584: } ! 585: sh = mtod(m0, struct sphdr *); ! 586: si->si_dt = sh->sp_dt; ! 587: si->si_cc |= sh->sp_cc & SP_EM; ! 588: m0->m_len -= sizeof (*sh); ! 589: m0->m_off += sizeof (*sh); ! 590: len -= sizeof (*sh); ! 591: } ! 592: len += sizeof(*si); ! 593: if (cb->s_oobflags & SF_SOOB) { ! 594: /* ! 595: * Per jqj@cornell: ! 596: * make sure OB packets convey exactly 1 byte. ! 597: * If the packet is 1 byte or larger, we ! 598: * have already guaranted there to be at least ! 599: * one garbage byte for the checksum, and ! 600: * extra bytes shouldn't hurt! ! 601: */ ! 602: if (len > sizeof(*si)) { ! 603: si->si_cc |= SP_OB; ! 604: len = (1 + sizeof(*si)); ! 605: } ! 606: } ! 607: si->si_len = htons((u_short)len); ! 608: /* ! 609: * queue stuff up for output ! 610: */ ! 611: sbappendrecord(sb, m); ! 612: cb->s_seq++; ! 613: } ! 614: /* ! 615: * update window ! 616: */ ! 617: { ! 618: register struct sockbuf *sb2 = &so->so_rcv; ! 619: int credit = ((((int)sb2->sb_mbmax) - (int)sb2->sb_mbcnt) / ! 620: ((short)cb->s_mtu)); ! 621: int alo = cb->s_ack + (credit > 0 ? credit : 0) - 1; ! 622: ! 623: if (cb->s_alo < alo) { ! 624: /* If the amount we are raising the window ! 625: is more than his remaining headroom, tell ! 626: him about it. In particular, if he is at ! 627: his limit, any amount at all will do! */ ! 628: u_short raise = alo - cb->s_alo; ! 629: u_short headroom = 1 + cb->s_alo - cb->s_ack; ! 630: ! 631: if(SSEQ_LT(headroom, raise)) ! 632: cb->s_flags |= SF_AK; ! 633: cb->s_alo = alo; ! 634: } ! 635: } ! 636: ! 637: if (cb->s_oobflags & SF_SOOB) { ! 638: /* ! 639: * must transmit this out of band packet ! 640: */ ! 641: cb->s_oobflags &= ~ SF_SOOB; ! 642: } else { ! 643: /* ! 644: * Decide what to transmit: ! 645: * If it is time to retransmit a packet, ! 646: * send that. ! 647: * If we have a new packet, send that ! 648: * (So long as it is in our allocation) ! 649: * Otherwise, see if it time to bang on them ! 650: * to ask for our current allocation. ! 651: */ ! 652: if (cb->s_force == (1+TCPT_REXMT)) { ! 653: lookfor = cb->s_rack; ! 654: } else if (SSEQ_LT(cb->s_snt, cb->s_ralo)) { ! 655: lookfor = cb->s_snt + 1; ! 656: } else if (SSEQ_LT(cb->s_ralo, cb->s_seq)) { ! 657: lookfor = 0; ! 658: if (cb->s_timer[TCPT_PERSIST] == 0) { ! 659: spp_setpersist(cb); ! 660: /* tcp has cb->s_rxtshift = 0; here */ ! 661: } ! 662: } ! 663: m = sb->sb_mb; ! 664: while (m) { ! 665: si = mtod(m, struct spidp *); ! 666: m = m->m_act; ! 667: if (SSEQ_LT(si->si_seq, cb->s_rack)) { ! 668: if ((sb->sb_flags & SB_WAIT) ! 669: || so->so_snd.sb_sel) ! 670: sowwakeup(so); ! 671: sbdroprecord(sb); ! 672: si = 0; ! 673: continue; ! 674: } ! 675: if (SSEQ_LT(si->si_seq, lookfor)) ! 676: continue; ! 677: break; ! 678: } ! 679: if (si && (si->si_seq != lookfor)) ! 680: si = 0; ! 681: } ! 682: cb->s_want = lookfor; ! 683: ! 684: if (si) { ! 685: /* ! 686: * must make a copy of this packet for ! 687: * idp_output to monkey with ! 688: */ ! 689: m = m_copy(dtom(si), 0, (int)M_COPYALL); ! 690: if (m == NULL) ! 691: return (ENOBUFS); ! 692: m0 = m; ! 693: si = mtod(m, struct spidp *); ! 694: } else if (cb->s_force || cb->s_flags & SF_AK) { ! 695: /* ! 696: * Must send an acknowledgement or a probe ! 697: */ ! 698: m = m_get(M_DONTWAIT, MT_HEADER); ! 699: if (m == 0) ! 700: return (ENOBUFS); ! 701: /* ! 702: * Fill in mbuf with extended SP header ! 703: * and addresses and length put into network format. ! 704: */ ! 705: m->m_off = MMAXOFF - sizeof (struct spidp); ! 706: m->m_len = sizeof (*si); ! 707: m->m_next = 0; ! 708: si = mtod(m, struct spidp *); ! 709: *si = cb->s_shdr; ! 710: si->si_seq = cb->s_snt + 1; ! 711: si->si_len = htons(sizeof (*si)); ! 712: si->si_cc |= SP_SP; ! 713: } ! 714: /* ! 715: * Stuff checksum and output datagram. ! 716: */ ! 717: if (si) { ! 718: if (cb->s_flags & (SF_AK|SF_DELACK)) ! 719: cb->s_flags &= ~(SF_AK|SF_DELACK); ! 720: /* ! 721: * If we are almost out of allocation ! 722: * or one of the timers has gone off ! 723: * request an ack. ! 724: */ ! 725: if (SSEQ_GEQ(cb->s_seq, cb->s_ralo)) ! 726: si->si_cc |= SP_SA; ! 727: if (cb->s_force) { ! 728: si->si_cc |= SP_SA; ! 729: cb->s_force = 0; ! 730: } ! 731: /* ! 732: * If this is a new packet (and not a system packet), ! 733: * and we are not currently timing anything, ! 734: * time this one and ask for an ack. ! 735: */ ! 736: if (SSEQ_LT(cb->s_snt, si->si_seq) && (!(si->si_cc & SP_SP))) { ! 737: cb->s_snt = si->si_seq; ! 738: if (cb->s_rtt == 0) { ! 739: cb->s_rtseq = si->si_seq; ! 740: cb->s_rtt = 1; ! 741: si->si_cc |= SP_SA; ! 742: } ! 743: /* ! 744: * If the retransmit timer has not been set ! 745: * and this is a real packet ! 746: * then start the retransmit timer ! 747: */ ! 748: if (cb->s_timer[TCPT_REXMT] == 0) { ! 749: TCPT_RANGESET(cb->s_timer[TCPT_REXMT], ! 750: tcp_beta * cb->s_srtt, TCPTV_MIN, ! 751: TCPTV_MAX); ! 752: cb->s_rxtshift = 0; ! 753: } ! 754: } ! 755: si->si_seq = htons(si->si_seq); ! 756: si->si_alo = htons(cb->s_alo); ! 757: si->si_ack = htons(cb->s_ack); ! 758: ! 759: if (idpcksum) { ! 760: si->si_sum = 0; ! 761: len = ntohs(si->si_len); ! 762: if (len & 1) ! 763: len++; ! 764: si->si_sum = ns_cksum(dtom(si), len); ! 765: } else ! 766: si->si_sum = 0xffff; ! 767: ! 768: if (so->so_options & SO_DEBUG || traceallspps) ! 769: spp_trace(SA_OUTPUT, cb->s_state, cb, si, 0); ! 770: spp_output_cnt++; ! 771: if (so->so_options & SO_DONTROUTE) ! 772: error = ns_output(m, (struct route *)0, NS_ROUTETOIF); ! 773: else ! 774: error = ns_output(m, &cb->s_nspcb->nsp_route, 0); ! 775: if (traceallspps && sppconsdebug) { ! 776: printf("spp_out: %x\n", error); ! 777: } ! 778: if (so->so_options & SO_DEBUG || traceallspps) ! 779: spp_trace(SA_OUTPUT, cb->s_state, cb, si, 0); ! 780: } ! 781: return (error); ! 782: } ! 783: ! 784: /*ARGSUSED*/ ! 785: spp_ctloutput(req, so, level, name, value) ! 786: int req; ! 787: struct socket *so; ! 788: int name; ! 789: struct mbuf **value; ! 790: { ! 791: register struct mbuf *m; ! 792: struct nspcb *nsp = sotonspcb(so); ! 793: register struct sppcb *cb; ! 794: int mask, error = 0; ! 795: ! 796: if (level != NSPROTO_SPP) { ! 797: /* This will have to be changed when we do more general ! 798: stacking of protocols */ ! 799: return (idp_ctloutput(req, so, level, name, value)); ! 800: } ! 801: if (nsp == NULL) { ! 802: error = EINVAL; ! 803: goto release; ! 804: } else ! 805: cb = nstosppcb(nsp); ! 806: ! 807: switch (req) { ! 808: ! 809: case PRCO_GETOPT: ! 810: if (value == NULL) ! 811: return (EINVAL); ! 812: m = m_get(M_DONTWAIT, MT_DATA); ! 813: if (m == NULL) ! 814: return (ENOBUFS); ! 815: switch (name) { ! 816: ! 817: case SO_HEADERS_ON_INPUT: ! 818: mask = SF_HI; ! 819: goto get_flags; ! 820: ! 821: case SO_HEADERS_ON_OUTPUT: ! 822: mask = SF_HO; ! 823: get_flags: ! 824: m->m_len = sizeof(short); ! 825: m->m_off = MMAXOFF - sizeof(short); ! 826: *mtod(m, short *) = cb->s_flags & mask; ! 827: break; ! 828: ! 829: case SO_MTU: ! 830: m->m_len = sizeof(u_short); ! 831: m->m_off = MMAXOFF - sizeof(short); ! 832: *mtod(m, short *) = cb->s_mtu; ! 833: break; ! 834: ! 835: case SO_LAST_HEADER: ! 836: m->m_len = sizeof(struct sphdr); ! 837: m->m_off = MMAXOFF - sizeof(struct sphdr); ! 838: *mtod(m, struct sphdr *) = cb->s_rhdr; ! 839: break; ! 840: ! 841: case SO_DEFAULT_HEADERS: ! 842: m->m_len = sizeof(struct spidp); ! 843: m->m_off = MMAXOFF - sizeof(struct sphdr); ! 844: *mtod(m, struct sphdr *) = cb->s_shdr.si_s; ! 845: break; ! 846: ! 847: default: ! 848: error = EINVAL; ! 849: } ! 850: *value = m; ! 851: break; ! 852: ! 853: case PRCO_SETOPT: ! 854: if (value == 0 || *value == 0) { ! 855: error = EINVAL; ! 856: break; ! 857: } ! 858: switch (name) { ! 859: int *ok; ! 860: ! 861: case SO_HEADERS_ON_INPUT: ! 862: mask = SF_HI; ! 863: goto set_head; ! 864: ! 865: case SO_HEADERS_ON_OUTPUT: ! 866: mask = SF_HO; ! 867: set_head: ! 868: if (cb->s_flags & SF_PI) { ! 869: ok = mtod(*value, int *); ! 870: if (*ok) ! 871: cb->s_flags |= mask; ! 872: else ! 873: cb->s_flags &= ~mask; ! 874: } else error = EINVAL; ! 875: break; ! 876: ! 877: case SO_MTU: ! 878: cb->s_mtu = *(mtod(*value, u_short *)); ! 879: break; ! 880: ! 881: case SO_DEFAULT_HEADERS: ! 882: { ! 883: register struct sphdr *sp ! 884: = mtod(*value, struct sphdr *); ! 885: cb->s_dt = sp->sp_dt; ! 886: cb->s_cc = sp->sp_cc & SP_EM; ! 887: } ! 888: break; ! 889: ! 890: default: ! 891: error = EINVAL; ! 892: } ! 893: m_freem(*value); ! 894: break; ! 895: } ! 896: release: ! 897: return (error); ! 898: } ! 899: ! 900: /*ARGSUSED*/ ! 901: spp_usrreq(so, req, m, nam, rights) ! 902: struct socket *so; ! 903: int req; ! 904: struct mbuf *m, *nam, *rights; ! 905: { ! 906: struct nspcb *nsp = sotonspcb(so); ! 907: register struct sppcb *cb; ! 908: int s = splnet(); ! 909: int error = 0, ostate; ! 910: ! 911: if (req == PRU_CONTROL) ! 912: return (ns_control(so, (int)m, (caddr_t)nam, ! 913: (struct ifnet *)rights)); ! 914: if (rights && rights->m_len) { ! 915: error = EINVAL; ! 916: goto release; ! 917: } ! 918: if (nsp == NULL) { ! 919: if (req != PRU_ATTACH) { ! 920: error = EINVAL; ! 921: goto release; ! 922: } ! 923: } else ! 924: cb = nstosppcb(nsp); ! 925: ! 926: ostate = cb ? cb->s_state : 0; ! 927: ! 928: switch (req) { ! 929: ! 930: case PRU_ATTACH: ! 931: if (nsp != NULL) { ! 932: error = EISCONN; ! 933: break; ! 934: } ! 935: error = ns_pcballoc(so, &nspcb); ! 936: if (error) ! 937: break; ! 938: error = soreserve(so, 2048, 2048); ! 939: if (error) ! 940: break; ! 941: nsp = sotonspcb(so); ! 942: { ! 943: struct mbuf *mm = m_getclr(M_DONTWAIT, MT_PCB); ! 944: ! 945: if (mm == NULL) { ! 946: error = ENOBUFS; ! 947: break; ! 948: } ! 949: cb = mtod(mm, struct sppcb *); ! 950: cb->s_state = TCPS_LISTEN; ! 951: cb->s_snt = -1; ! 952: cb->s_q.si_next = cb->s_q.si_prev = &cb->s_q; ! 953: cb->s_nspcb = nsp; ! 954: nsp->nsp_pcb = (caddr_t) cb; ! 955: } ! 956: break; ! 957: ! 958: case PRU_DETACH: ! 959: if (nsp == NULL) { ! 960: error = ENOTCONN; ! 961: break; ! 962: } ! 963: if (cb->s_state > TCPS_LISTEN) ! 964: cb = spp_disconnect(cb); ! 965: else ! 966: cb = spp_close(cb); ! 967: break; ! 968: ! 969: case PRU_BIND: ! 970: error = ns_pcbbind(nsp, nam); ! 971: break; ! 972: ! 973: case PRU_LISTEN: ! 974: if (nsp->nsp_lport == 0) ! 975: error = ns_pcbbind(nsp, (struct mbuf *)0); ! 976: if (error == 0) ! 977: cb->s_state = TCPS_LISTEN; ! 978: break; ! 979: ! 980: /* ! 981: * Initiate connection to peer. ! 982: * Enter SYN_SENT state, and mark socket as connecting. ! 983: * Start keep-alive timer, setup prototype header, ! 984: * Send initial system packet requesting connection. ! 985: */ ! 986: case PRU_CONNECT: ! 987: if (nsp->nsp_lport == 0) { ! 988: error = ns_pcbbind(nsp, (struct mbuf *)0); ! 989: if (error) ! 990: break; ! 991: } ! 992: error = ns_pcbconnect(nsp, nam); ! 993: if (error) ! 994: break; ! 995: soisconnecting(so); ! 996: cb->s_state = TCPS_SYN_SENT; ! 997: cb->s_did = 0; ! 998: spp_template(cb); ! 999: cb->s_timer[TCPT_KEEP] = TCPTV_KEEP; ! 1000: cb->s_force = 1 + TCPTV_KEEP; ! 1001: /* ! 1002: * Other party is required to respond to ! 1003: * the port I send from, but he is not ! 1004: * required to answer from where I am sending to, ! 1005: * so allow wildcarding. ! 1006: * original port I am sending to is still saved in ! 1007: * cb->s_dport. ! 1008: */ ! 1009: nsp->nsp_fport = 0; ! 1010: error = spp_output(cb, (struct mbuf *) 0); ! 1011: break; ! 1012: ! 1013: case PRU_CONNECT2: ! 1014: error = EOPNOTSUPP; ! 1015: break; ! 1016: ! 1017: /* ! 1018: * We may decide later to implement connection closing ! 1019: * handshaking at the spp level optionally. ! 1020: * here is the hook to do it: ! 1021: */ ! 1022: case PRU_DISCONNECT: ! 1023: cb = spp_disconnect(cb); ! 1024: break; ! 1025: ! 1026: /* ! 1027: * Accept a connection. Essentially all the work is ! 1028: * done at higher levels; just return the address ! 1029: * of the peer, storing through addr. ! 1030: */ ! 1031: case PRU_ACCEPT: { ! 1032: struct sockaddr_ns *sns = mtod(nam, struct sockaddr_ns *); ! 1033: ! 1034: nam->m_len = sizeof (struct sockaddr_ns); ! 1035: sns->sns_family = AF_NS; ! 1036: sns->sns_addr = nsp->nsp_faddr; ! 1037: break; ! 1038: } ! 1039: ! 1040: case PRU_SHUTDOWN: ! 1041: socantsendmore(so); ! 1042: cb = spp_usrclosed(cb); ! 1043: if (cb) ! 1044: error = spp_output(cb, (struct mbuf *) 0); ! 1045: break; ! 1046: ! 1047: /* ! 1048: * After a receive, possibly send acknowledgment ! 1049: * updating allocation. ! 1050: */ ! 1051: case PRU_RCVD: ! 1052: (void) spp_output(cb, (struct mbuf *) 0); ! 1053: break; ! 1054: ! 1055: case PRU_ABORT: ! 1056: (void) spp_drop(cb, ECONNABORTED); ! 1057: break; ! 1058: ! 1059: case PRU_SENSE: ! 1060: case PRU_CONTROL: ! 1061: m = NULL; ! 1062: error = EOPNOTSUPP; ! 1063: break; ! 1064: ! 1065: case PRU_RCVOOB: ! 1066: if ((cb->s_oobflags & SF_IOOB) || so->so_oobmark || ! 1067: (so->so_state & SS_RCVATMARK)) { ! 1068: m->m_len = 1; ! 1069: *mtod(m, caddr_t) = cb->s_iobc; ! 1070: break; ! 1071: } ! 1072: error = EINVAL; ! 1073: break; ! 1074: ! 1075: case PRU_SENDOOB: ! 1076: if (sbspace(&so->so_snd) < -512) { ! 1077: error = ENOBUFS; ! 1078: break; ! 1079: } ! 1080: cb->s_oobflags |= SF_SOOB; ! 1081: /* fall into */ ! 1082: case PRU_SEND: ! 1083: error = spp_output(cb, m); ! 1084: m = NULL; ! 1085: break; ! 1086: ! 1087: case PRU_SOCKADDR: ! 1088: ns_setsockaddr(nsp, nam); ! 1089: break; ! 1090: ! 1091: case PRU_PEERADDR: ! 1092: ns_setpeeraddr(nsp, nam); ! 1093: break; ! 1094: ! 1095: case PRU_SLOWTIMO: ! 1096: cb = spp_timers(cb, (int)nam); ! 1097: break; ! 1098: ! 1099: case PRU_FASTTIMO: ! 1100: case PRU_PROTORCV: ! 1101: case PRU_PROTOSEND: ! 1102: error = EOPNOTSUPP; ! 1103: break; ! 1104: ! 1105: default: ! 1106: panic("sp_usrreq"); ! 1107: } ! 1108: if (cb && (so->so_options & SO_DEBUG || traceallspps)) ! 1109: spp_trace(SA_USER, (u_char)ostate, cb, (struct spidp *)0, req); ! 1110: release: ! 1111: if (m != NULL) ! 1112: m_freem(m); ! 1113: splx(s); ! 1114: return (error); ! 1115: } ! 1116: ! 1117: spp_usrreq_sp(so, req, m, nam, rights) ! 1118: struct socket *so; ! 1119: int req; ! 1120: struct mbuf *m, *nam, *rights; ! 1121: { ! 1122: int error = spp_usrreq(so, req, m, nam, rights); ! 1123: ! 1124: if (req == PRU_ATTACH && error == 0) { ! 1125: struct nspcb *nsp = sotonspcb(so); ! 1126: ((struct sppcb *)nsp->nsp_pcb)->s_flags |= ! 1127: (SF_HI | SF_HO | SF_PI); ! 1128: } ! 1129: return (error); ! 1130: } ! 1131: ! 1132: /* ! 1133: * Create template to be used to send spp packets on a connection. ! 1134: * Called after host entry created, fills ! 1135: * in a skeletal spp header (choosing connection id), ! 1136: * minimizing the amount of work necessary when the connection is used. ! 1137: */ ! 1138: spp_template(cb) ! 1139: struct sppcb *cb; ! 1140: { ! 1141: register struct nspcb *nsp = cb->s_nspcb; ! 1142: register struct spidp *n = &(cb->s_shdr); ! 1143: ! 1144: cb->s_mtu = 576 - sizeof (struct spidp); ! 1145: n->si_pt = NSPROTO_SPP; ! 1146: n->si_sna = nsp->nsp_laddr; ! 1147: n->si_dna = nsp->nsp_faddr; ! 1148: n->si_sid = htons(spp_iss); ! 1149: spp_iss += SPP_ISSINCR/2; ! 1150: n->si_alo = 1; ! 1151: } ! 1152: ! 1153: /* ! 1154: * Close a SPIP control block: ! 1155: * discard spp control block itself ! 1156: * discard ns protocol control block ! 1157: * wake up any sleepers ! 1158: */ ! 1159: struct sppcb * ! 1160: spp_close(cb) ! 1161: register struct sppcb *cb; ! 1162: { ! 1163: register struct spidp_q *s; ! 1164: struct nspcb *nsp = cb->s_nspcb; ! 1165: struct socket *so = nsp->nsp_socket; ! 1166: register struct mbuf *m; ! 1167: ! 1168: s = cb->s_q.si_next; ! 1169: while (s != &(cb->s_q)) { ! 1170: s = s->si_next; ! 1171: m = dtom(s->si_prev); ! 1172: remque(s->si_prev); ! 1173: m_freem(m); ! 1174: } ! 1175: (void) m_free(dtom(cb)); ! 1176: nsp->nsp_pcb = 0; ! 1177: soisdisconnected(so); ! 1178: ns_pcbdetach(nsp); ! 1179: return ((struct sppcb *)0); ! 1180: } ! 1181: /* ! 1182: * Someday we may do level 3 handshaking ! 1183: * to close a connection or send a xerox style error. ! 1184: * For now, just close. ! 1185: */ ! 1186: struct sppcb * ! 1187: spp_usrclosed(cb) ! 1188: register struct sppcb *cb; ! 1189: { ! 1190: return (spp_close(cb)); ! 1191: } ! 1192: struct sppcb * ! 1193: spp_disconnect(cb) ! 1194: register struct sppcb *cb; ! 1195: { ! 1196: return (spp_close(cb)); ! 1197: } ! 1198: /* ! 1199: * Drop connection, reporting ! 1200: * the specified error. ! 1201: */ ! 1202: struct sppcb * ! 1203: spp_drop(cb, errno) ! 1204: register struct sppcb *cb; ! 1205: int errno; ! 1206: { ! 1207: struct socket *so = cb->s_nspcb->nsp_socket; ! 1208: ! 1209: /* ! 1210: * someday, in the xerox world ! 1211: * we will generate error protocol packets ! 1212: * announcing that the socket has gone away. ! 1213: */ ! 1214: /*if (TCPS_HAVERCVDSYN(tp->t_state)) { ! 1215: tp->t_state = TCPS_CLOSED; ! 1216: (void) tcp_output(tp); ! 1217: }*/ ! 1218: so->so_error = errno; ! 1219: return (spp_close(cb)); ! 1220: } ! 1221: ! 1222: spp_abort(nsp) ! 1223: struct nspcb *nsp; ! 1224: { ! 1225: ! 1226: (void) spp_close((struct sppcb *)nsp->nsp_pcb); ! 1227: } ! 1228: ! 1229: spp_setpersist(cb) ! 1230: register struct sppcb *cb; ! 1231: { ! 1232: ! 1233: /*if (cb->s_timer[TCPT_REXMT]) ! 1234: panic("spp_output REXMT");*/ ! 1235: /* ! 1236: * Start/restart persistance timer. ! 1237: */ ! 1238: TCPT_RANGESET(cb->s_timer[TCPT_PERSIST], ! 1239: ((int)(tcp_beta * cb->s_srtt)) << cb->s_rxtshift, ! 1240: TCPTV_PERSMIN, TCPTV_MAX); ! 1241: cb->s_rxtshift++; ! 1242: if (cb->s_rxtshift >= TCP_MAXRXTSHIFT) ! 1243: cb->s_rxtshift = 0; ! 1244: } ! 1245: /* ! 1246: * Fast timeout routine for processing delayed acks ! 1247: */ ! 1248: int spp_ftcnt; ! 1249: spp_fasttimo() ! 1250: { ! 1251: register struct nspcb *nsp; ! 1252: register struct sppcb *cb; ! 1253: int s = splnet(); ! 1254: ! 1255: nsp = nspcb.nsp_next; ! 1256: spp_ftcnt++; ! 1257: if (nsp) ! 1258: for (; nsp != &nspcb; nsp = nsp->nsp_next) ! 1259: if ((cb = (struct sppcb *)nsp->nsp_pcb) && ! 1260: (cb->s_flags & SF_DELACK)) { ! 1261: cb->s_flags &= ~SF_DELACK; ! 1262: cb->s_flags |= SF_AK; ! 1263: (void) spp_output(cb, (struct mbuf *) 0); ! 1264: } ! 1265: splx(s); ! 1266: } ! 1267: ! 1268: /* ! 1269: * spp protocol timeout routine called every 500 ms. ! 1270: * Updates the timers in all active pcb's and ! 1271: * causes finite state machine actions if timers expire. ! 1272: */ ! 1273: spp_slowtimo() ! 1274: { ! 1275: register struct nspcb *ip, *ipnxt; ! 1276: register struct sppcb *cb; ! 1277: int s = splnet(); ! 1278: register int i; ! 1279: ! 1280: /* ! 1281: * Search through tcb's and update active timers. ! 1282: */ ! 1283: ip = nspcb.nsp_next; ! 1284: if (ip == 0) { ! 1285: splx(s); ! 1286: return; ! 1287: } ! 1288: while (ip != &nspcb) { ! 1289: cb = nstosppcb(ip); ! 1290: ipnxt = ip->nsp_next; ! 1291: if (cb == 0) ! 1292: goto tpgone; ! 1293: for (i = 0; i < TCPT_NTIMERS; i++) { ! 1294: if (cb->s_timer[i] && --cb->s_timer[i] == 0) { ! 1295: (void) spp_usrreq(cb->s_nspcb->nsp_socket, ! 1296: PRU_SLOWTIMO, (struct mbuf *)0, ! 1297: (struct mbuf *)i, (struct mbuf *)0); ! 1298: if (ipnxt->nsp_prev != ip) ! 1299: goto tpgone; ! 1300: } ! 1301: } ! 1302: cb->s_idle++; ! 1303: if (cb->s_rtt) ! 1304: cb->s_rtt++; ! 1305: tpgone: ! 1306: ip = ipnxt; ! 1307: } ! 1308: spp_iss += SPP_ISSINCR/PR_SLOWHZ; /* increment iss */ ! 1309: splx(s); ! 1310: } ! 1311: ! 1312: float spp_backoff[TCP_MAXRXTSHIFT] = ! 1313: { 1.0, 1.2, 1.4, 1.7, 2.0, 3.0, 5.0, 8.0, 16.0, 32.0 }; ! 1314: int sppexprexmtbackoff = 0; ! 1315: /* ! 1316: * SPP timer processing. ! 1317: */ ! 1318: struct sppcb * ! 1319: spp_timers(cb, timer) ! 1320: register struct sppcb *cb; ! 1321: int timer; ! 1322: { ! 1323: ! 1324: cb->s_force = 1 + timer; ! 1325: switch (timer) { ! 1326: ! 1327: /* ! 1328: * 2 MSL timeout in shutdown went off. Delete connection ! 1329: * control block. ! 1330: */ ! 1331: case TCPT_2MSL: ! 1332: cb = spp_close(cb); ! 1333: break; ! 1334: ! 1335: /* ! 1336: * Retransmission timer went off. Message has not ! 1337: * been acked within retransmit interval. Back off ! 1338: * to a longer retransmit interval and retransmit all ! 1339: * unacknowledged messages in the window. ! 1340: */ ! 1341: case TCPT_REXMT: ! 1342: cb->s_rxtshift++; ! 1343: if (cb->s_rxtshift > TCP_MAXRXTSHIFT) { ! 1344: cb = spp_drop(cb, ETIMEDOUT); ! 1345: break; ! 1346: } ! 1347: (void) spp_output(cb, (struct mbuf *) 0); ! 1348: TCPT_RANGESET(cb->s_timer[TCPT_REXMT], ! 1349: (int)cb->s_srtt, TCPTV_MIN, TCPTV_MAX); ! 1350: if (sppexprexmtbackoff) { ! 1351: TCPT_RANGESET(cb->s_timer[TCPT_REXMT], ! 1352: cb->s_timer[TCPT_REXMT] << cb->s_rxtshift, ! 1353: TCPTV_MIN, TCPTV_MAX); ! 1354: } else { ! 1355: TCPT_RANGESET(cb->s_timer[TCPT_REXMT], ! 1356: cb->s_timer[TCPT_REXMT] * ! 1357: spp_backoff[cb->s_rxtshift - 1], ! 1358: TCPTV_MIN, TCPTV_MAX); ! 1359: } ! 1360: break; ! 1361: ! 1362: /* ! 1363: * Persistance timer into zero window. ! 1364: * Force a probe to be sent. ! 1365: */ ! 1366: case TCPT_PERSIST: ! 1367: (void) spp_output(cb, (struct mbuf *) 0); ! 1368: spp_setpersist(cb); ! 1369: break; ! 1370: ! 1371: /* ! 1372: * Keep-alive timer went off; send something ! 1373: * or drop connection if idle for too long. ! 1374: */ ! 1375: case TCPT_KEEP: ! 1376: if (cb->s_state < TCPS_ESTABLISHED) ! 1377: goto dropit; ! 1378: if (cb->s_nspcb->nsp_socket->so_options & SO_KEEPALIVE) { ! 1379: if (cb->s_idle >= TCPTV_MAXIDLE) ! 1380: goto dropit; ! 1381: (void) spp_output(cb, (struct mbuf *) 0); ! 1382: } else ! 1383: cb->s_idle = 0; ! 1384: cb->s_timer[TCPT_KEEP] = TCPTV_KEEP; ! 1385: break; ! 1386: dropit: ! 1387: cb = spp_drop(cb, ETIMEDOUT); ! 1388: break; ! 1389: } ! 1390: return (cb); ! 1391: }
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