xref: /freebsd/usr.sbin/ppp/fsm.c (revision b1f9167f94059fd55c630891d359bcff987bd7eb)
1 /*-
2  * Copyright (c) 1996 - 2001 Brian Somers <brian@Awfulhak.org>
3  *          based on work by Toshiharu OHNO <tony-o@iij.ad.jp>
4  *                           Internet Initiative Japan, Inc (IIJ)
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 <sys/socket.h>
36 #include <sys/un.h>
37 
38 #include <string.h>
39 #include <termios.h>
40 
41 #include "layer.h"
42 #include "ua.h"
43 #include "mbuf.h"
44 #include "log.h"
45 #include "defs.h"
46 #include "timer.h"
47 #include "fsm.h"
48 #include "iplist.h"
49 #include "lqr.h"
50 #include "hdlc.h"
51 #include "throughput.h"
52 #include "slcompress.h"
53 #include "ncpaddr.h"
54 #include "ipcp.h"
55 #include "filter.h"
56 #include "descriptor.h"
57 #include "lcp.h"
58 #include "ccp.h"
59 #include "link.h"
60 #include "mp.h"
61 #ifndef NORADIUS
62 #include "radius.h"
63 #endif
64 #include "ipv6cp.h"
65 #include "ncp.h"
66 #include "bundle.h"
67 #include "async.h"
68 #include "physical.h"
69 #include "proto.h"
70 
71 static void FsmSendConfigReq(struct fsm *);
72 static void FsmSendTerminateReq(struct fsm *);
73 static void FsmInitRestartCounter(struct fsm *, int);
74 
75 typedef void (recvfn)(struct fsm *, struct fsmheader *, struct mbuf *);
76 static recvfn FsmRecvConfigReq, FsmRecvConfigAck, FsmRecvConfigNak,
77               FsmRecvConfigRej, FsmRecvTermReq, FsmRecvTermAck,
78               FsmRecvCodeRej, FsmRecvProtoRej, FsmRecvEchoReq,
79               FsmRecvEchoRep, FsmRecvDiscReq, FsmRecvIdent,
80               FsmRecvTimeRemain, FsmRecvResetReq, FsmRecvResetAck;
81 
82 static const struct fsmcodedesc {
83   recvfn *recv;
84   unsigned check_reqid : 1;
85   unsigned inc_reqid : 1;
86   const char *name;
87 } FsmCodes[] = {
88   { FsmRecvConfigReq, 0, 0, "ConfigReq"    },
89   { FsmRecvConfigAck, 1, 1, "ConfigAck"    },
90   { FsmRecvConfigNak, 1, 1, "ConfigNak"    },
91   { FsmRecvConfigRej, 1, 1, "ConfigRej"    },
92   { FsmRecvTermReq,   0, 0, "TerminateReq" },
93   { FsmRecvTermAck,   1, 1, "TerminateAck" },
94   { FsmRecvCodeRej,   0, 0, "CodeRej"      },
95   { FsmRecvProtoRej,  0, 0, "ProtocolRej"  },
96   { FsmRecvEchoReq,   0, 0, "EchoRequest"  },
97   { FsmRecvEchoRep,   0, 0, "EchoReply"    },
98   { FsmRecvDiscReq,   0, 0, "DiscardReq"   },
99   { FsmRecvIdent,     0, 1, "Ident"        },
100   { FsmRecvTimeRemain,0, 0, "TimeRemain"   },
101   { FsmRecvResetReq,  0, 0, "ResetReq"     },
102   { FsmRecvResetAck,  0, 1, "ResetAck"     }
103 };
104 
105 static const char *
106 Code2Nam(u_int code)
107 {
108   if (code == 0 || code > sizeof FsmCodes / sizeof FsmCodes[0])
109     return "Unknown";
110   return FsmCodes[code-1].name;
111 }
112 
113 const char *
114 State2Nam(u_int state)
115 {
116   static const char * const StateNames[] = {
117     "Initial", "Starting", "Closed", "Stopped", "Closing", "Stopping",
118     "Req-Sent", "Ack-Rcvd", "Ack-Sent", "Opened",
119   };
120 
121   if (state >= sizeof StateNames / sizeof StateNames[0])
122     return "unknown";
123   return StateNames[state];
124 }
125 
126 static void
127 StoppedTimeout(void *v)
128 {
129   struct fsm *fp = (struct fsm *)v;
130 
131   log_Printf(fp->LogLevel, "%s: Stopped timer expired\n", fp->link->name);
132   if (fp->OpenTimer.state == TIMER_RUNNING) {
133     log_Printf(LogWARN, "%s: %s: aborting open delay due to stopped timer\n",
134               fp->link->name, fp->name);
135     timer_Stop(&fp->OpenTimer);
136   }
137   if (fp->state == ST_STOPPED)
138     fsm2initial(fp);
139 }
140 
141 void
142 fsm_Init(struct fsm *fp, const char *name, u_short proto, int mincode,
143          int maxcode, int LogLevel, struct bundle *bundle,
144          struct link *l, const struct fsm_parent *parent,
145          struct fsm_callbacks *fn, const char * const timer_names[3])
146 {
147   fp->name = name;
148   fp->proto = proto;
149   fp->min_code = mincode;
150   fp->max_code = maxcode;
151   fp->state = fp->min_code > CODE_TERMACK ? ST_OPENED : ST_INITIAL;
152   fp->reqid = 1;
153   fp->restart = 1;
154   fp->more.reqs = fp->more.naks = fp->more.rejs = 3;
155   memset(&fp->FsmTimer, '\0', sizeof fp->FsmTimer);
156   memset(&fp->OpenTimer, '\0', sizeof fp->OpenTimer);
157   memset(&fp->StoppedTimer, '\0', sizeof fp->StoppedTimer);
158   fp->LogLevel = LogLevel;
159   fp->link = l;
160   fp->bundle = bundle;
161   fp->parent = parent;
162   fp->fn = fn;
163   fp->FsmTimer.name = timer_names[0];
164   fp->OpenTimer.name = timer_names[1];
165   fp->StoppedTimer.name = timer_names[2];
166 }
167 
168 static void
169 NewState(struct fsm *fp, int new)
170 {
171   log_Printf(fp->LogLevel, "%s: State change %s --> %s\n",
172              fp->link->name, State2Nam(fp->state), State2Nam(new));
173   if (fp->state == ST_STOPPED && fp->StoppedTimer.state == TIMER_RUNNING)
174     timer_Stop(&fp->StoppedTimer);
175   fp->state = new;
176   if ((new >= ST_INITIAL && new <= ST_STOPPED) || (new == ST_OPENED)) {
177     timer_Stop(&fp->FsmTimer);
178     if (new == ST_STOPPED && fp->StoppedTimer.load) {
179       timer_Stop(&fp->StoppedTimer);
180       fp->StoppedTimer.func = StoppedTimeout;
181       fp->StoppedTimer.arg = (void *) fp;
182       timer_Start(&fp->StoppedTimer);
183     }
184   }
185 }
186 
187 void
188 fsm_Output(struct fsm *fp, u_int code, u_int id, u_char *ptr, unsigned count,
189            int mtype)
190 {
191   int plen;
192   struct fsmheader lh;
193   struct mbuf *bp;
194 
195   if (log_IsKept(fp->LogLevel)) {
196     log_Printf(fp->LogLevel, "%s: Send%s(%d) state = %s\n",
197               fp->link->name, Code2Nam(code), id, State2Nam(fp->state));
198     switch (code) {
199       case CODE_CONFIGREQ:
200       case CODE_CONFIGACK:
201       case CODE_CONFIGREJ:
202       case CODE_CONFIGNAK:
203         (*fp->fn->DecodeConfig)(fp, ptr, ptr + count, MODE_NOP, NULL);
204         if (count < sizeof(struct fsm_opt_hdr))
205           log_Printf(fp->LogLevel, "  [EMPTY]\n");
206         break;
207     }
208   }
209 
210   plen = sizeof(struct fsmheader) + count;
211   lh.code = code;
212   lh.id = id;
213   lh.length = htons(plen);
214   bp = m_get(plen, mtype);
215   memcpy(MBUF_CTOP(bp), &lh, sizeof(struct fsmheader));
216   if (count)
217     memcpy(MBUF_CTOP(bp) + sizeof(struct fsmheader), ptr, count);
218   log_DumpBp(LogDEBUG, "fsm_Output", bp);
219   link_PushPacket(fp->link, bp, fp->bundle, LINK_QUEUES(fp->link) - 1,
220                   fp->proto);
221 
222   if (code == CODE_CONFIGREJ)
223     lcp_SendIdentification(&fp->link->lcp);
224 }
225 
226 static void
227 FsmOpenNow(void *v)
228 {
229   struct fsm *fp = (struct fsm *)v;
230 
231   timer_Stop(&fp->OpenTimer);
232   if (fp->state <= ST_STOPPED) {
233     if (fp->state != ST_STARTING) {
234       /*
235        * In practice, we're only here in ST_STOPPED (when delaying the
236        * first config request) or ST_CLOSED (when openmode == 0).
237        *
238        * The ST_STOPPED bit is breaking the RFC already :-(
239        *
240        * According to the RFC (1661) state transition table, a TLS isn't
241        * required for an Open event when state == Closed, but the RFC
242        * must be wrong as TLS hasn't yet been called (since the last TLF)
243        * ie, Initial gets an `Up' event, Closing gets a RTA etc.
244        */
245       (*fp->fn->LayerStart)(fp);
246       (*fp->parent->LayerStart)(fp->parent->object, fp);
247     }
248     FsmInitRestartCounter(fp, FSM_REQ_TIMER);
249     FsmSendConfigReq(fp);
250     NewState(fp, ST_REQSENT);
251   }
252 }
253 
254 void
255 fsm_Open(struct fsm *fp)
256 {
257   switch (fp->state) {
258   case ST_INITIAL:
259     NewState(fp, ST_STARTING);
260     (*fp->fn->LayerStart)(fp);
261     (*fp->parent->LayerStart)(fp->parent->object, fp);
262     break;
263   case ST_CLOSED:
264     if (fp->open_mode == OPEN_PASSIVE) {
265       NewState(fp, ST_STOPPED);		/* XXX: This is a hack ! */
266     } else if (fp->open_mode > 0) {
267       if (fp->open_mode > 1)
268         log_Printf(LogPHASE, "%s: Entering STOPPED state for %d seconds\n",
269                   fp->link->name, fp->open_mode);
270       NewState(fp, ST_STOPPED);		/* XXX: This is a not-so-bad hack ! */
271       timer_Stop(&fp->OpenTimer);
272       fp->OpenTimer.load = fp->open_mode * SECTICKS;
273       fp->OpenTimer.func = FsmOpenNow;
274       fp->OpenTimer.arg = (void *)fp;
275       timer_Start(&fp->OpenTimer);
276     } else
277       FsmOpenNow(fp);
278     break;
279   case ST_STOPPED:		/* XXX: restart option */
280   case ST_REQSENT:
281   case ST_ACKRCVD:
282   case ST_ACKSENT:
283   case ST_OPENED:		/* XXX: restart option */
284     break;
285   case ST_CLOSING:		/* XXX: restart option */
286   case ST_STOPPING:		/* XXX: restart option */
287     NewState(fp, ST_STOPPING);
288     break;
289   }
290 }
291 
292 void
293 fsm_Up(struct fsm *fp)
294 {
295   switch (fp->state) {
296   case ST_INITIAL:
297     log_Printf(fp->LogLevel, "FSM: Using \"%s\" as a transport\n",
298               fp->link->name);
299     NewState(fp, ST_CLOSED);
300     break;
301   case ST_STARTING:
302     FsmInitRestartCounter(fp, FSM_REQ_TIMER);
303     FsmSendConfigReq(fp);
304     NewState(fp, ST_REQSENT);
305     break;
306   default:
307     log_Printf(fp->LogLevel, "%s: Oops, Up at %s\n",
308               fp->link->name, State2Nam(fp->state));
309     break;
310   }
311 }
312 
313 void
314 fsm_Down(struct fsm *fp)
315 {
316   switch (fp->state) {
317   case ST_CLOSED:
318     NewState(fp, ST_INITIAL);
319     break;
320   case ST_CLOSING:
321     /* This TLF contradicts the RFC (1661), which ``misses it out'' ! */
322     (*fp->fn->LayerFinish)(fp);
323     NewState(fp, ST_INITIAL);
324     (*fp->parent->LayerFinish)(fp->parent->object, fp);
325     break;
326   case ST_STOPPED:
327     NewState(fp, ST_STARTING);
328     (*fp->fn->LayerStart)(fp);
329     (*fp->parent->LayerStart)(fp->parent->object, fp);
330     break;
331   case ST_STOPPING:
332   case ST_REQSENT:
333   case ST_ACKRCVD:
334   case ST_ACKSENT:
335     NewState(fp, ST_STARTING);
336     break;
337   case ST_OPENED:
338     (*fp->fn->LayerDown)(fp);
339     NewState(fp, ST_STARTING);
340     (*fp->parent->LayerDown)(fp->parent->object, fp);
341     break;
342   }
343 }
344 
345 void
346 fsm_Close(struct fsm *fp)
347 {
348   switch (fp->state) {
349   case ST_STARTING:
350     (*fp->fn->LayerFinish)(fp);
351     NewState(fp, ST_INITIAL);
352     (*fp->parent->LayerFinish)(fp->parent->object, fp);
353     break;
354   case ST_STOPPED:
355     NewState(fp, ST_CLOSED);
356     break;
357   case ST_STOPPING:
358     NewState(fp, ST_CLOSING);
359     break;
360   case ST_OPENED:
361     (*fp->fn->LayerDown)(fp);
362     if (fp->state == ST_OPENED) {
363       FsmInitRestartCounter(fp, FSM_TRM_TIMER);
364       FsmSendTerminateReq(fp);
365       NewState(fp, ST_CLOSING);
366       (*fp->parent->LayerDown)(fp->parent->object, fp);
367     }
368     break;
369   case ST_REQSENT:
370   case ST_ACKRCVD:
371   case ST_ACKSENT:
372     FsmInitRestartCounter(fp, FSM_TRM_TIMER);
373     FsmSendTerminateReq(fp);
374     NewState(fp, ST_CLOSING);
375     break;
376   }
377 }
378 
379 /*
380  *	Send functions
381  */
382 static void
383 FsmSendConfigReq(struct fsm *fp)
384 {
385   if (fp->more.reqs-- > 0 && fp->restart-- > 0) {
386     (*fp->fn->SendConfigReq)(fp);
387     timer_Start(&fp->FsmTimer);		/* Start restart timer */
388   } else {
389     if (fp->more.reqs < 0)
390       log_Printf(LogPHASE, "%s: Too many %s REQs sent - abandoning "
391                  "negotiation\n", fp->link->name, fp->name);
392     lcp_SendIdentification(&fp->link->lcp);
393     fsm_Close(fp);
394   }
395 }
396 
397 static void
398 FsmSendTerminateReq(struct fsm *fp)
399 {
400   fsm_Output(fp, CODE_TERMREQ, fp->reqid, NULL, 0, MB_UNKNOWN);
401   (*fp->fn->SentTerminateReq)(fp);
402   timer_Start(&fp->FsmTimer);	/* Start restart timer */
403   fp->restart--;		/* Decrement restart counter */
404 }
405 
406 /*
407  *	Timeout actions
408  */
409 static void
410 FsmTimeout(void *v)
411 {
412   struct fsm *fp = (struct fsm *)v;
413 
414   if (fp->restart) {
415     switch (fp->state) {
416     case ST_CLOSING:
417     case ST_STOPPING:
418       FsmSendTerminateReq(fp);
419       break;
420     case ST_REQSENT:
421     case ST_ACKSENT:
422       FsmSendConfigReq(fp);
423       break;
424     case ST_ACKRCVD:
425       FsmSendConfigReq(fp);
426       NewState(fp, ST_REQSENT);
427       break;
428     }
429     timer_Start(&fp->FsmTimer);
430   } else {
431     switch (fp->state) {
432     case ST_CLOSING:
433       (*fp->fn->LayerFinish)(fp);
434       NewState(fp, ST_CLOSED);
435       (*fp->parent->LayerFinish)(fp->parent->object, fp);
436       break;
437     case ST_STOPPING:
438       (*fp->fn->LayerFinish)(fp);
439       NewState(fp, ST_STOPPED);
440       (*fp->parent->LayerFinish)(fp->parent->object, fp);
441       break;
442     case ST_REQSENT:		/* XXX: 3p */
443     case ST_ACKSENT:
444     case ST_ACKRCVD:
445       (*fp->fn->LayerFinish)(fp);
446       NewState(fp, ST_STOPPED);
447       (*fp->parent->LayerFinish)(fp->parent->object, fp);
448       break;
449     }
450   }
451 }
452 
453 static void
454 FsmInitRestartCounter(struct fsm *fp, int what)
455 {
456   timer_Stop(&fp->FsmTimer);
457   fp->FsmTimer.func = FsmTimeout;
458   fp->FsmTimer.arg = (void *)fp;
459   (*fp->fn->InitRestartCounter)(fp, what);
460 }
461 
462 /*
463  * Actions when receive packets
464  */
465 static void
466 FsmRecvConfigReq(struct fsm *fp, struct fsmheader *lhp, struct mbuf *bp)
467 /* RCR */
468 {
469   struct fsm_decode dec;
470   int plen, flen;
471   int ackaction = 0;
472   u_char *cp;
473 
474   bp = m_pullup(bp);
475   plen = m_length(bp);
476   flen = ntohs(lhp->length) - sizeof *lhp;
477   if (plen < flen) {
478     log_Printf(LogWARN, "%s: FsmRecvConfigReq: plen (%d) < flen (%d)\n",
479                fp->link->name, plen, flen);
480     m_freem(bp);
481     return;
482   }
483 
484   /* Some things must be done before we Decode the packet */
485   switch (fp->state) {
486   case ST_OPENED:
487     (*fp->fn->LayerDown)(fp);
488   }
489 
490   dec.ackend = dec.ack;
491   dec.nakend = dec.nak;
492   dec.rejend = dec.rej;
493   cp = MBUF_CTOP(bp);
494   (*fp->fn->DecodeConfig)(fp, cp, cp + flen, MODE_REQ, &dec);
495   if (flen < (int)sizeof(struct fsm_opt_hdr))
496     log_Printf(fp->LogLevel, "  [EMPTY]\n");
497 
498   if (dec.nakend == dec.nak && dec.rejend == dec.rej)
499     ackaction = 1;
500 
501   /* Check and process easy case */
502   switch (fp->state) {
503   case ST_INITIAL:
504     if (fp->proto == PROTO_CCP && fp->link->lcp.fsm.state == ST_OPENED) {
505       /*
506        * ccp_SetOpenMode() leaves us in initial if we're disabling
507        * & denying everything.
508        */
509       bp = m_prepend(bp, lhp, sizeof *lhp, 2);
510       bp = proto_Prepend(bp, fp->proto, 0, 0);
511       bp = m_pullup(bp);
512       lcp_SendProtoRej(&fp->link->lcp, MBUF_CTOP(bp), bp->m_len);
513       m_freem(bp);
514       return;
515     }
516     /* Drop through */
517   case ST_STARTING:
518     log_Printf(fp->LogLevel, "%s: Oops, RCR in %s.\n",
519               fp->link->name, State2Nam(fp->state));
520     m_freem(bp);
521     return;
522   case ST_CLOSED:
523     (*fp->fn->SendTerminateAck)(fp, lhp->id);
524     m_freem(bp);
525     return;
526   case ST_CLOSING:
527     log_Printf(fp->LogLevel, "%s: Error: Got ConfigReq while state = %s\n",
528               fp->link->name, State2Nam(fp->state));
529   case ST_STOPPING:
530     m_freem(bp);
531     return;
532   case ST_STOPPED:
533     FsmInitRestartCounter(fp, FSM_REQ_TIMER);
534     /* Drop through */
535   case ST_OPENED:
536     FsmSendConfigReq(fp);
537     break;
538   }
539 
540   if (dec.rejend != dec.rej)
541     fsm_Output(fp, CODE_CONFIGREJ, lhp->id, dec.rej, dec.rejend - dec.rej,
542                MB_UNKNOWN);
543   if (dec.nakend != dec.nak)
544     fsm_Output(fp, CODE_CONFIGNAK, lhp->id, dec.nak, dec.nakend - dec.nak,
545                MB_UNKNOWN);
546   if (ackaction)
547     fsm_Output(fp, CODE_CONFIGACK, lhp->id, dec.ack, dec.ackend - dec.ack,
548                MB_UNKNOWN);
549 
550   switch (fp->state) {
551   case ST_STOPPED:
552       /*
553        * According to the RFC (1661) state transition table, a TLS isn't
554        * required for a RCR when state == ST_STOPPED, but the RFC
555        * must be wrong as TLS hasn't yet been called (since the last TLF)
556        */
557     (*fp->fn->LayerStart)(fp);
558     (*fp->parent->LayerStart)(fp->parent->object, fp);
559     /* FALLTHROUGH */
560 
561   case ST_OPENED:
562     if (ackaction)
563       NewState(fp, ST_ACKSENT);
564     else
565       NewState(fp, ST_REQSENT);
566     (*fp->parent->LayerDown)(fp->parent->object, fp);
567     break;
568   case ST_REQSENT:
569     if (ackaction)
570       NewState(fp, ST_ACKSENT);
571     break;
572   case ST_ACKRCVD:
573     if (ackaction) {
574       NewState(fp, ST_OPENED);
575       if ((*fp->fn->LayerUp)(fp))
576         (*fp->parent->LayerUp)(fp->parent->object, fp);
577       else {
578         (*fp->fn->LayerDown)(fp);
579         FsmInitRestartCounter(fp, FSM_TRM_TIMER);
580         FsmSendTerminateReq(fp);
581         NewState(fp, ST_CLOSING);
582         lcp_SendIdentification(&fp->link->lcp);
583       }
584     }
585     break;
586   case ST_ACKSENT:
587     if (!ackaction)
588       NewState(fp, ST_REQSENT);
589     break;
590   }
591   m_freem(bp);
592 
593   if (dec.rejend != dec.rej && --fp->more.rejs <= 0) {
594     log_Printf(LogPHASE, "%s: Too many %s REJs sent - abandoning negotiation\n",
595                fp->link->name, fp->name);
596     lcp_SendIdentification(&fp->link->lcp);
597     fsm_Close(fp);
598   }
599 
600   if (dec.nakend != dec.nak && --fp->more.naks <= 0) {
601     log_Printf(LogPHASE, "%s: Too many %s NAKs sent - abandoning negotiation\n",
602                fp->link->name, fp->name);
603     lcp_SendIdentification(&fp->link->lcp);
604     fsm_Close(fp);
605   }
606 }
607 
608 static void
609 FsmRecvConfigAck(struct fsm *fp, struct fsmheader *lhp, struct mbuf *bp)
610 /* RCA */
611 {
612   struct fsm_decode dec;
613   int plen, flen;
614   u_char *cp;
615 
616   plen = m_length(bp);
617   flen = ntohs(lhp->length) - sizeof *lhp;
618   if (plen < flen) {
619     m_freem(bp);
620     return;
621   }
622 
623   bp = m_pullup(bp);
624   dec.ackend = dec.ack;
625   dec.nakend = dec.nak;
626   dec.rejend = dec.rej;
627   cp = MBUF_CTOP(bp);
628   (*fp->fn->DecodeConfig)(fp, cp, cp + flen, MODE_ACK, &dec);
629   if (flen < (int)sizeof(struct fsm_opt_hdr))
630     log_Printf(fp->LogLevel, "  [EMPTY]\n");
631 
632   switch (fp->state) {
633     case ST_CLOSED:
634     case ST_STOPPED:
635     (*fp->fn->SendTerminateAck)(fp, lhp->id);
636     break;
637   case ST_CLOSING:
638   case ST_STOPPING:
639     break;
640   case ST_REQSENT:
641     FsmInitRestartCounter(fp, FSM_REQ_TIMER);
642     NewState(fp, ST_ACKRCVD);
643     break;
644   case ST_ACKRCVD:
645     FsmSendConfigReq(fp);
646     NewState(fp, ST_REQSENT);
647     break;
648   case ST_ACKSENT:
649     FsmInitRestartCounter(fp, FSM_REQ_TIMER);
650     NewState(fp, ST_OPENED);
651     if ((*fp->fn->LayerUp)(fp))
652       (*fp->parent->LayerUp)(fp->parent->object, fp);
653     else {
654       (*fp->fn->LayerDown)(fp);
655       FsmInitRestartCounter(fp, FSM_TRM_TIMER);
656       FsmSendTerminateReq(fp);
657       NewState(fp, ST_CLOSING);
658       lcp_SendIdentification(&fp->link->lcp);
659     }
660     break;
661   case ST_OPENED:
662     (*fp->fn->LayerDown)(fp);
663     FsmSendConfigReq(fp);
664     NewState(fp, ST_REQSENT);
665     (*fp->parent->LayerDown)(fp->parent->object, fp);
666     break;
667   }
668   m_freem(bp);
669 }
670 
671 static void
672 FsmRecvConfigNak(struct fsm *fp, struct fsmheader *lhp, struct mbuf *bp)
673 /* RCN */
674 {
675   struct fsm_decode dec;
676   int plen, flen;
677   u_char *cp;
678 
679   plen = m_length(bp);
680   flen = ntohs(lhp->length) - sizeof *lhp;
681   if (plen < flen) {
682     m_freem(bp);
683     return;
684   }
685 
686   /*
687    * Check and process easy case
688    */
689   switch (fp->state) {
690   case ST_INITIAL:
691   case ST_STARTING:
692     log_Printf(fp->LogLevel, "%s: Oops, RCN in %s.\n",
693               fp->link->name, State2Nam(fp->state));
694     m_freem(bp);
695     return;
696   case ST_CLOSED:
697   case ST_STOPPED:
698     (*fp->fn->SendTerminateAck)(fp, lhp->id);
699     m_freem(bp);
700     return;
701   case ST_CLOSING:
702   case ST_STOPPING:
703     m_freem(bp);
704     return;
705   }
706 
707   bp = m_pullup(bp);
708   dec.ackend = dec.ack;
709   dec.nakend = dec.nak;
710   dec.rejend = dec.rej;
711   cp = MBUF_CTOP(bp);
712   (*fp->fn->DecodeConfig)(fp, cp, cp + flen, MODE_NAK, &dec);
713   if (flen < (int)sizeof(struct fsm_opt_hdr))
714     log_Printf(fp->LogLevel, "  [EMPTY]\n");
715 
716   switch (fp->state) {
717   case ST_REQSENT:
718   case ST_ACKSENT:
719     FsmInitRestartCounter(fp, FSM_REQ_TIMER);
720     FsmSendConfigReq(fp);
721     break;
722   case ST_OPENED:
723     (*fp->fn->LayerDown)(fp);
724     FsmSendConfigReq(fp);
725     NewState(fp, ST_REQSENT);
726     (*fp->parent->LayerDown)(fp->parent->object, fp);
727     break;
728   case ST_ACKRCVD:
729     FsmSendConfigReq(fp);
730     NewState(fp, ST_REQSENT);
731     break;
732   }
733 
734   m_freem(bp);
735 }
736 
737 static void
738 FsmRecvTermReq(struct fsm *fp, struct fsmheader *lhp, struct mbuf *bp)
739 /* RTR */
740 {
741   switch (fp->state) {
742   case ST_INITIAL:
743   case ST_STARTING:
744     log_Printf(fp->LogLevel, "%s: Oops, RTR in %s\n",
745               fp->link->name, State2Nam(fp->state));
746     break;
747   case ST_CLOSED:
748   case ST_STOPPED:
749   case ST_CLOSING:
750   case ST_STOPPING:
751   case ST_REQSENT:
752     (*fp->fn->SendTerminateAck)(fp, lhp->id);
753     break;
754   case ST_ACKRCVD:
755   case ST_ACKSENT:
756     (*fp->fn->SendTerminateAck)(fp, lhp->id);
757     NewState(fp, ST_REQSENT);
758     break;
759   case ST_OPENED:
760     (*fp->fn->LayerDown)(fp);
761     (*fp->fn->SendTerminateAck)(fp, lhp->id);
762     FsmInitRestartCounter(fp, FSM_TRM_TIMER);
763     timer_Start(&fp->FsmTimer);			/* Start restart timer */
764     fp->restart = 0;
765     NewState(fp, ST_STOPPING);
766     (*fp->parent->LayerDown)(fp->parent->object, fp);
767     /* A delayed ST_STOPPED is now scheduled */
768     break;
769   }
770   m_freem(bp);
771 }
772 
773 static void
774 FsmRecvTermAck(struct fsm *fp, struct fsmheader *lhp __unused, struct mbuf *bp)
775 /* RTA */
776 {
777   switch (fp->state) {
778   case ST_CLOSING:
779     (*fp->fn->LayerFinish)(fp);
780     NewState(fp, ST_CLOSED);
781     (*fp->parent->LayerFinish)(fp->parent->object, fp);
782     break;
783   case ST_STOPPING:
784     (*fp->fn->LayerFinish)(fp);
785     NewState(fp, ST_STOPPED);
786     (*fp->parent->LayerFinish)(fp->parent->object, fp);
787     break;
788   case ST_ACKRCVD:
789     NewState(fp, ST_REQSENT);
790     break;
791   case ST_OPENED:
792     (*fp->fn->LayerDown)(fp);
793     FsmSendConfigReq(fp);
794     NewState(fp, ST_REQSENT);
795     (*fp->parent->LayerDown)(fp->parent->object, fp);
796     break;
797   }
798   m_freem(bp);
799 }
800 
801 static void
802 FsmRecvConfigRej(struct fsm *fp, struct fsmheader *lhp, struct mbuf *bp)
803 /* RCJ */
804 {
805   struct fsm_decode dec;
806   size_t plen;
807   int flen;
808   u_char *cp;
809 
810   plen = m_length(bp);
811   flen = ntohs(lhp->length) - sizeof *lhp;
812   if ((int)plen < flen) {
813     m_freem(bp);
814     return;
815   }
816 
817   lcp_SendIdentification(&fp->link->lcp);
818 
819   /*
820    * Check and process easy case
821    */
822   switch (fp->state) {
823   case ST_INITIAL:
824   case ST_STARTING:
825     log_Printf(fp->LogLevel, "%s: Oops, RCJ in %s.\n",
826               fp->link->name, State2Nam(fp->state));
827     m_freem(bp);
828     return;
829   case ST_CLOSED:
830   case ST_STOPPED:
831     (*fp->fn->SendTerminateAck)(fp, lhp->id);
832     m_freem(bp);
833     return;
834   case ST_CLOSING:
835   case ST_STOPPING:
836     m_freem(bp);
837     return;
838   }
839 
840   bp = m_pullup(bp);
841   dec.ackend = dec.ack;
842   dec.nakend = dec.nak;
843   dec.rejend = dec.rej;
844   cp = MBUF_CTOP(bp);
845   (*fp->fn->DecodeConfig)(fp, cp, cp + flen, MODE_REJ, &dec);
846   if (flen < (int)sizeof(struct fsm_opt_hdr))
847     log_Printf(fp->LogLevel, "  [EMPTY]\n");
848 
849   switch (fp->state) {
850   case ST_REQSENT:
851   case ST_ACKSENT:
852     FsmInitRestartCounter(fp, FSM_REQ_TIMER);
853     FsmSendConfigReq(fp);
854     break;
855   case ST_OPENED:
856     (*fp->fn->LayerDown)(fp);
857     FsmSendConfigReq(fp);
858     NewState(fp, ST_REQSENT);
859     (*fp->parent->LayerDown)(fp->parent->object, fp);
860     break;
861   case ST_ACKRCVD:
862     FsmSendConfigReq(fp);
863     NewState(fp, ST_REQSENT);
864     break;
865   }
866   m_freem(bp);
867 }
868 
869 static void
870 FsmRecvCodeRej(struct fsm *fp __unused, struct fsmheader *lhp __unused,
871 	       struct mbuf *bp)
872 {
873   m_freem(bp);
874 }
875 
876 static void
877 FsmRecvProtoRej(struct fsm *fp, struct fsmheader *lhp __unused, struct mbuf *bp)
878 {
879   struct physical *p = link2physical(fp->link);
880   u_short proto;
881 
882   if (m_length(bp) < 2) {
883     m_freem(bp);
884     return;
885   }
886   bp = mbuf_Read(bp, &proto, 2);
887   proto = ntohs(proto);
888   log_Printf(fp->LogLevel, "%s: -- Protocol 0x%04x (%s) was rejected!\n",
889             fp->link->name, proto, hdlc_Protocol2Nam(proto));
890 
891   switch (proto) {
892   case PROTO_LQR:
893     if (p)
894       lqr_Stop(p, LQM_LQR);
895     else
896       log_Printf(LogERROR, "%s: FsmRecvProtoRej: Not a physical link !\n",
897                 fp->link->name);
898     break;
899   case PROTO_CCP:
900     if (fp->proto == PROTO_LCP) {
901       fp = &fp->link->ccp.fsm;
902       /* Despite the RFC (1661), don't do an out-of-place TLF */
903       /* (*fp->fn->LayerFinish)(fp); */
904       switch (fp->state) {
905       case ST_CLOSED:
906       case ST_CLOSING:
907         NewState(fp, ST_CLOSED);
908         break;
909       default:
910         NewState(fp, ST_STOPPED);
911         break;
912       }
913       /* See above */
914       /* (*fp->parent->LayerFinish)(fp->parent->object, fp); */
915     }
916     break;
917   case PROTO_IPCP:
918     if (fp->proto == PROTO_LCP) {
919       log_Printf(LogPHASE, "%s: IPCP protocol reject closes IPCP !\n",
920                 fp->link->name);
921       fsm_Close(&fp->bundle->ncp.ipcp.fsm);
922     }
923     break;
924 #ifndef NOINET6
925   case PROTO_IPV6CP:
926     if (fp->proto == PROTO_LCP) {
927       log_Printf(LogPHASE, "%s: IPV6CP protocol reject closes IPV6CP !\n",
928                 fp->link->name);
929       fsm_Close(&fp->bundle->ncp.ipv6cp.fsm);
930     }
931     break;
932 #endif
933   case PROTO_MP:
934     if (fp->proto == PROTO_LCP) {
935       struct lcp *lcp = fsm2lcp(fp);
936 
937       if (lcp->want_mrru && lcp->his_mrru) {
938         log_Printf(LogPHASE, "%s: MP protocol reject is fatal !\n",
939                   fp->link->name);
940         fsm_Close(fp);
941       }
942     }
943     break;
944   }
945   m_freem(bp);
946 }
947 
948 static void
949 FsmRecvEchoReq(struct fsm *fp, struct fsmheader *lhp, struct mbuf *bp)
950 {
951   struct lcp *lcp = fsm2lcp(fp);
952   u_char *cp;
953   u_int32_t magic;
954 
955   bp = m_pullup(bp);
956   m_settype(bp, MB_ECHOIN);
957 
958   if (lcp && ntohs(lhp->length) - sizeof *lhp >= 4) {
959     cp = MBUF_CTOP(bp);
960     ua_ntohl(cp, &magic);
961     if (magic != lcp->his_magic) {
962       log_Printf(fp->LogLevel, "%s: RecvEchoReq: magic 0x%08lx is wrong,"
963                  " expecting 0x%08lx\n", fp->link->name, (u_long)magic,
964                  (u_long)lcp->his_magic);
965       /* XXX: We should send terminate request */
966     }
967     if (fp->state == ST_OPENED) {
968       ua_htonl(&lcp->want_magic, cp);		/* local magic */
969       fsm_Output(fp, CODE_ECHOREP, lhp->id, cp,
970                  ntohs(lhp->length) - sizeof *lhp, MB_ECHOOUT);
971     }
972   }
973   m_freem(bp);
974 }
975 
976 static void
977 FsmRecvEchoRep(struct fsm *fp, struct fsmheader *lhp __unused, struct mbuf *bp)
978 {
979   if (fsm2lcp(fp))
980     bp = lqr_RecvEcho(fp, bp);
981 
982   m_freem(bp);
983 }
984 
985 static void
986 FsmRecvDiscReq(struct fsm *fp __unused, struct fsmheader *lhp __unused,
987 	       struct mbuf *bp)
988 {
989   m_freem(bp);
990 }
991 
992 static void
993 FsmRecvIdent(struct fsm *fp, struct fsmheader *lhp, struct mbuf *bp)
994 {
995   u_int32_t magic;
996   u_short len;
997   u_char *cp;
998 
999   len = ntohs(lhp->length) - sizeof *lhp;
1000   if (len >= 4) {
1001     bp = m_pullup(m_append(bp, "", 1));
1002     cp = MBUF_CTOP(bp);
1003     ua_ntohl(cp, &magic);
1004     if (magic != fp->link->lcp.his_magic)
1005       log_Printf(fp->LogLevel, "%s: RecvIdent: magic 0x%08lx is wrong,"
1006                  " expecting 0x%08lx\n", fp->link->name, (u_long)magic,
1007                  (u_long)fp->link->lcp.his_magic);
1008     cp[len] = '\0';
1009     lcp_RecvIdentification(&fp->link->lcp, cp + 4);
1010   }
1011   m_freem(bp);
1012 }
1013 
1014 static void
1015 FsmRecvTimeRemain(struct fsm *fp __unused, struct fsmheader *lhp __unused,
1016 		  struct mbuf *bp)
1017 {
1018   m_freem(bp);
1019 }
1020 
1021 static void
1022 FsmRecvResetReq(struct fsm *fp, struct fsmheader *lhp, struct mbuf *bp)
1023 {
1024   if ((*fp->fn->RecvResetReq)(fp)) {
1025     /*
1026      * All sendable compressed packets are queued in the first (lowest
1027      * priority) modem output queue.... dump 'em to the priority queue
1028      * so that they arrive at the peer before our ResetAck.
1029      */
1030     link_SequenceQueue(fp->link);
1031     fsm_Output(fp, CODE_RESETACK, lhp->id, NULL, 0, MB_CCPOUT);
1032   }
1033   m_freem(bp);
1034 }
1035 
1036 static void
1037 FsmRecvResetAck(struct fsm *fp, struct fsmheader *lhp, struct mbuf *bp)
1038 {
1039   (*fp->fn->RecvResetAck)(fp, lhp->id);
1040   m_freem(bp);
1041 }
1042 
1043 void
1044 fsm_Input(struct fsm *fp, struct mbuf *bp)
1045 {
1046   size_t len;
1047   struct fsmheader lh;
1048   const struct fsmcodedesc *codep;
1049 
1050   len = m_length(bp);
1051   if (len < sizeof(struct fsmheader)) {
1052     m_freem(bp);
1053     return;
1054   }
1055   bp = mbuf_Read(bp, &lh, sizeof lh);
1056 
1057   if (ntohs(lh.length) > len) {
1058     log_Printf(LogWARN, "%s: Oops: Got %zu bytes but %d byte payload "
1059                "- dropped\n", fp->link->name, len, (int)ntohs(lh.length));
1060     m_freem(bp);
1061     return;
1062   }
1063 
1064   if (lh.code < fp->min_code || lh.code > fp->max_code ||
1065       lh.code > sizeof FsmCodes / sizeof *FsmCodes) {
1066     /*
1067      * Use a private id.  This is really a response-type packet, but we
1068      * MUST send a unique id for each REQ....
1069      */
1070     static u_char id;
1071 
1072     bp = m_prepend(bp, &lh, sizeof lh, 0);
1073     bp = m_pullup(bp);
1074     fsm_Output(fp, CODE_CODEREJ, id++, MBUF_CTOP(bp), bp->m_len, MB_UNKNOWN);
1075     m_freem(bp);
1076     return;
1077   }
1078 
1079   codep = FsmCodes + lh.code - 1;
1080   if (lh.id != fp->reqid && codep->check_reqid &&
1081       Enabled(fp->bundle, OPT_IDCHECK)) {
1082     log_Printf(fp->LogLevel, "%s: Recv%s(%d), dropped (expected %d)\n",
1083                fp->link->name, codep->name, lh.id, fp->reqid);
1084     return;
1085   }
1086 
1087   log_Printf(fp->LogLevel, "%s: Recv%s(%d) state = %s\n",
1088              fp->link->name, codep->name, lh.id, State2Nam(fp->state));
1089 
1090   if (codep->inc_reqid && (lh.id == fp->reqid ||
1091       (!Enabled(fp->bundle, OPT_IDCHECK) && codep->check_reqid)))
1092     fp->reqid++;	/* That's the end of that ``exchange''.... */
1093 
1094   (*codep->recv)(fp, &lh, bp);
1095 }
1096 
1097 int
1098 fsm_NullRecvResetReq(struct fsm *fp)
1099 {
1100   log_Printf(fp->LogLevel, "%s: Oops - received unexpected reset req\n",
1101             fp->link->name);
1102   return 1;
1103 }
1104 
1105 void
1106 fsm_NullRecvResetAck(struct fsm *fp, u_char id __unused)
1107 {
1108   log_Printf(fp->LogLevel, "%s: Oops - received unexpected reset ack\n",
1109             fp->link->name);
1110 }
1111 
1112 void
1113 fsm_Reopen(struct fsm *fp)
1114 {
1115   if (fp->state == ST_OPENED) {
1116     (*fp->fn->LayerDown)(fp);
1117     FsmInitRestartCounter(fp, FSM_REQ_TIMER);
1118     FsmSendConfigReq(fp);
1119     NewState(fp, ST_REQSENT);
1120     (*fp->parent->LayerDown)(fp->parent->object, fp);
1121   }
1122 }
1123 
1124 void
1125 fsm2initial(struct fsm *fp)
1126 {
1127   timer_Stop(&fp->FsmTimer);
1128   timer_Stop(&fp->OpenTimer);
1129   timer_Stop(&fp->StoppedTimer);
1130   if (fp->state == ST_STOPPED)
1131     fsm_Close(fp);
1132   if (fp->state > ST_INITIAL)
1133     fsm_Down(fp);
1134   if (fp->state > ST_INITIAL)
1135     fsm_Close(fp);
1136 }
1137 
1138 struct fsm_opt *
1139 fsm_readopt(u_char **cp)
1140 {
1141   struct fsm_opt *o = (struct fsm_opt *)*cp;
1142 
1143   if (o->hdr.len < sizeof(struct fsm_opt_hdr)) {
1144     log_Printf(LogERROR, "Bad option length %d (out of phase?)\n", o->hdr.len);
1145     return NULL;
1146   }
1147 
1148   *cp += o->hdr.len;
1149 
1150   if (o->hdr.len > sizeof(struct fsm_opt)) {
1151     log_Printf(LogERROR, "Warning: Truncating option length from %d to %d\n",
1152                o->hdr.len, (int)sizeof(struct fsm_opt));
1153     o->hdr.len = sizeof(struct fsm_opt);
1154   }
1155 
1156   return o;
1157 }
1158 
1159 static int
1160 fsm_opt(u_char *opt, int optlen, const struct fsm_opt *o)
1161 {
1162   unsigned cplen = o->hdr.len;
1163 
1164   if (optlen < (int)sizeof(struct fsm_opt_hdr))
1165     optlen = 0;
1166 
1167   if ((int)cplen > optlen) {
1168     log_Printf(LogERROR, "Can't REJ length %d - trunating to %d\n",
1169       cplen, optlen);
1170     cplen = optlen;
1171   }
1172   memcpy(opt, o, cplen);
1173   if (cplen)
1174     opt[1] = cplen;
1175 
1176   return cplen;
1177 }
1178 
1179 void
1180 fsm_rej(struct fsm_decode *dec, const struct fsm_opt *o)
1181 {
1182   if (!dec)
1183     return;
1184   dec->rejend += fsm_opt(dec->rejend, FSM_OPTLEN - (dec->rejend - dec->rej), o);
1185 }
1186 
1187 void
1188 fsm_ack(struct fsm_decode *dec, const struct fsm_opt *o)
1189 {
1190   if (!dec)
1191     return;
1192   dec->ackend += fsm_opt(dec->ackend, FSM_OPTLEN - (dec->ackend - dec->ack), o);
1193 }
1194 
1195 void
1196 fsm_nak(struct fsm_decode *dec, const struct fsm_opt *o)
1197 {
1198   if (!dec)
1199     return;
1200   dec->nakend += fsm_opt(dec->nakend, FSM_OPTLEN - (dec->nakend - dec->nak), o);
1201 }
1202 
1203 void
1204 fsm_opt_normalise(struct fsm_decode *dec)
1205 {
1206   if (dec->rejend != dec->rej) {
1207     /* rejects are preferred */
1208     dec->ackend = dec->ack;
1209     dec->nakend = dec->nak;
1210   } else if (dec->nakend != dec->nak)
1211     /* then NAKs */
1212     dec->ackend = dec->ack;
1213 }
1214