xref: /titanic_50/usr/src/uts/common/io/ppp/spppcomp/spppcomp.c (revision 24da5b34f49324ed742a340010ed5bd3d4e06625)
1 /*
2  * spppcomp.c - STREAMS module for kernel-level compression and CCP support.
3  *
4  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
5  * Use is subject to license terms.
6  *
7  * Permission to use, copy, modify, and distribute this software and its
8  * documentation is hereby granted, provided that the above copyright
9  * notice appears in all copies.
10  *
11  * SUN MAKES NO REPRESENTATION OR WARRANTIES ABOUT THE SUITABILITY OF
12  * THE SOFTWARE, EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED
13  * TO THE IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
14  * PARTICULAR PURPOSE, OR NON-INFRINGEMENT.  SUN SHALL NOT BE LIABLE FOR
15  * ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING OR
16  * DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES
17  *
18  * Copyright (c) 1994 The Australian National University.
19  * All rights reserved.
20  *
21  * Permission to use, copy, modify, and distribute this software and its
22  * documentation is hereby granted, provided that the above copyright
23  * notice appears in all copies.  This software is provided without any
24  * warranty, express or implied. The Australian National University
25  * makes no representations about the suitability of this software for
26  * any purpose.
27  *
28  * IN NO EVENT SHALL THE AUSTRALIAN NATIONAL UNIVERSITY BE LIABLE TO ANY
29  * PARTY FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
30  * ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN IF
31  * THE AUSTRALIAN NATIONAL UNIVERSITY HAS BEEN ADVISED OF THE POSSIBILITY
32  * OF SUCH DAMAGE.
33  *
34  * THE AUSTRALIAN NATIONAL UNIVERSITY SPECIFICALLY DISCLAIMS ANY WARRANTIES,
35  * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
36  * AND FITNESS FOR A PARTICULAR PURPOSE.  THE SOFTWARE PROVIDED HEREUNDER IS
37  * ON AN "AS IS" BASIS, AND THE AUSTRALIAN NATIONAL UNIVERSITY HAS NO
38  * OBLIGATION TO PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS,
39  * OR MODIFICATIONS.
40  *
41  * This module is derived from the original SVR4 STREAMS PPP compression
42  * module originally written by Paul Mackerras <paul.mackerras@cs.anu.edu.au>.
43  *
44  * James Carlson <james.d.carlson@sun.com> and Adi Masputra
45  * <adi.masputra@sun.com> rewrote and restructured the code for improved
46  * performance and scalability.
47  */
48 
49 #pragma ident	"%Z%%M%	%I%	%E% SMI"
50 #define	RCSID	"$Id: spppcomp.c,v 1.0 2000/05/08 01:10:12 masputra Exp $"
51 
52 #include <sys/types.h>
53 #include <sys/debug.h>
54 #include <sys/param.h>
55 #include <sys/stream.h>
56 #include <sys/stropts.h>
57 #include <sys/errno.h>
58 #include <sys/conf.h>
59 #include <sys/cpuvar.h>
60 #include <sys/cmn_err.h>
61 #include <sys/kmem.h>
62 #include <sys/ddi.h>
63 #include <sys/kstat.h>
64 #include <sys/strsun.h>
65 #include <sys/sysmacros.h>
66 #include <netinet/in.h>
67 #include <netinet/ip.h>
68 #include <net/ppp_defs.h>
69 #include <net/pppio.h>
70 #include <net/vjcompress.h>
71 
72 /* Defined for platform-neutral include file */
73 #define	PACKETPTR	mblk_t *
74 #include <net/ppp-comp.h>
75 
76 #include "s_common.h"
77 
78 #ifdef DEBUG
79 #define	SPC_DEBUG
80 #endif
81 #include "spppcomp.h"
82 
83 /*
84  * This is used to tag official Solaris sources.  Please do not define
85  * "INTERNAL_BUILD" when building this software outside of Sun
86  * Microsystems.
87  */
88 #ifdef INTERNAL_BUILD
89 /* MODINFO is limited to 32 characters. */
90 const char spppcomp_module_description[] = "PPP 4.0 compression v%I%";
91 #else /* INTERNAL_BUILD */
92 const char spppcomp_module_description[] =
93 	"ANU PPP compression $Revision: 1.16$ ";
94 
95 /* LINTED */
96 static const char buildtime[] = "Built " __DATE__ " at " __TIME__
97 #ifdef DEBUG
98 " DEBUG"
99 #endif
100 "\n";
101 #endif /* INTERNAL_BUILD */
102 
103 static int	spppcomp_open(queue_t *, dev_t *, int, int, cred_t *);
104 static int	spppcomp_close(queue_t *, int, cred_t *);
105 static int	spppcomp_rput(queue_t *, mblk_t *);
106 static int	spppcomp_rsrv(queue_t *);
107 static int	spppcomp_wput(queue_t *, mblk_t *);
108 static int	spppcomp_wsrv(queue_t *);
109 
110 #define	PPPCOMP_MI_MINPSZ	(0)
111 #define	PPPCOMP_MI_MAXPSZ	(INFPSZ)
112 #define	PPPCOMP_MI_HIWAT	(PPP_MTU * 20)
113 #define	PPPCOMP_MI_LOWAT	(PPP_MTU * 18)
114 
115 static struct module_info spppcomp_modinfo = {
116 	COMP_MOD_ID,		/* mi_idnum */
117 	COMP_MOD_NAME,		/* mi_idname */
118 	PPPCOMP_MI_MINPSZ,	/* mi_minpsz */
119 	PPPCOMP_MI_MAXPSZ,	/* mi_maxpsz */
120 	PPPCOMP_MI_HIWAT,	/* mi_hiwat */
121 	PPPCOMP_MI_LOWAT	/* mi_lowat */
122 };
123 
124 static struct qinit spppcomp_rinit = {
125 	spppcomp_rput,		/* qi_putp */
126 	spppcomp_rsrv,		/* qi_srvp */
127 	spppcomp_open,		/* qi_qopen */
128 	spppcomp_close,		/* qi_qclose */
129 	NULL,			/* qi_qadmin */
130 	&spppcomp_modinfo,	/* qi_minfo */
131 	NULL			/* qi_mstat */
132 };
133 
134 static struct qinit spppcomp_winit = {
135 	spppcomp_wput,		/* qi_putp */
136 	spppcomp_wsrv,		/* qi_srvp */
137 	NULL,			/* qi_qopen */
138 	NULL,			/* qi_qclose */
139 	NULL,			/* qi_qadmin */
140 	&spppcomp_modinfo,	/* qi_minfo */
141 	NULL			/* qi_mstat */
142 };
143 
144 struct streamtab spppcomp_tab = {
145 	&spppcomp_rinit,	/* st_rdinit */
146 	&spppcomp_winit,	/* st_wrinit */
147 	NULL,			/* st_muxrinit */
148 	NULL			/* st_muxwinit */
149 };
150 
151 /* Set non-zero to debug algorithm-specific problems alone. */
152 #define	ALG_DEBUG	0
153 
154 #define	MAX_IPHLEN	(0x0f << 2)
155 #define	MAX_TCPHLEN	(0x0f << 2)
156 #define	MAX_TCPIPHLEN	(MAX_IPHLEN + MAX_TCPHLEN) /* max TCP/IP header size */
157 #define	MAX_VJHDR	(20)		/* max VJ compressed header size (?) */
158 
159 #if 0
160 #define	DBGSTART	CE_CONT, COMP_MOD_NAME "%d: "
161 #define	CKDEBUG(x)	cmn_err x
162 #else
163 #define	DBGSTART	COMP_MOD_NAME "%d: "
164 #define	CKDEBUG(x)	printf x
165 #endif
166 #define	CPDEBUG(x)	(IS_CP_KDEBUG(cp) ? CKDEBUG(x) : (void)0)
167 
168 /*
169  * List of compressors we know about.
170  */
171 #if DO_BSD_COMPRESS
172 extern struct compressor ppp_bsd_compress;
173 #endif
174 #if DO_DEFLATE
175 extern struct compressor ppp_deflate;
176 extern struct compressor ppp_deflate_draft;
177 #endif
178 
179 struct compressor *ppp_compressors[] = {
180 #if DO_BSD_COMPRESS
181 	&ppp_bsd_compress,
182 #endif
183 #if DO_DEFLATE
184 	&ppp_deflate,
185 	&ppp_deflate_draft,
186 #endif
187 	NULL
188 };
189 
190 /*
191  * LCP_USE_DFLT() removed by James Carlson.  RFC 1661 section 6.6 has
192  * this to say on the topic:
193  *
194  *    The Address and Control fields MUST NOT be compressed when sending
195  *    any LCP packet.  This rule guarantees unambiguous recognition of
196  *    LCP packets.
197  */
198 
199 static void	spppcomp_ioctl(queue_t *, mblk_t *, sppp_comp_t *);
200 static int	spppcomp_mctl(queue_t *, mblk_t *);
201 static mblk_t	*spppcomp_outpkt(queue_t *, mblk_t *);
202 static mblk_t	*spppcomp_inpkt(queue_t *, mblk_t *);
203 static int	spppcomp_kstat_update(kstat_t *, int);
204 static void	comp_ccp(queue_t *, mblk_t *, sppp_comp_t *, boolean_t);
205 
206 /*
207  * Values for checking inter-arrival times on interrupt stacks.  These
208  * are used to prevent CPU hogging in interrupt context.
209  */
210 #define	MIN_ARRIVAL_TIME	5000000	/* interarrival time in nanoseconds */
211 #define	MAX_FAST_ARRIVALS	10	/* maximum packet count */
212 hrtime_t spppcomp_min_arrival = MIN_ARRIVAL_TIME;
213 
214 static const char *kstats_names[] = {
215 #ifdef SPCDEBUG_KSTATS_NAMES
216 	SPPPCOMP_KSTATS_NAMES,
217 	SPCDEBUG_KSTATS_NAMES
218 #else
219 	SPPPCOMP_KSTATS_NAMES
220 #endif
221 };
222 static const char *kstats64_names[] = { SPPPCOMP_KSTATS64_NAMES };
223 
224 /*
225  * spppcomp_open()
226  *
227  * MT-Perimeters:
228  *    exclusive inner.
229  *
230  * Description:
231  *    Common open procedure for module.
232  */
233 /* ARGSUSED */
234 static int
235 spppcomp_open(queue_t *q, dev_t *devp, int flag, int sflag, cred_t *credp)
236 {
237 	sppp_comp_t	*cp;
238 
239 	ASSERT(q != NULL);
240 	ASSERT(devp != NULL);
241 
242 	if (q->q_ptr != NULL) {
243 		return (0);
244 	}
245 	if (sflag != MODOPEN) {
246 		return (EINVAL);
247 	}
248 	cp = (sppp_comp_t *)kmem_zalloc(sizeof (sppp_comp_t), KM_SLEEP);
249 	ASSERT(cp != NULL);
250 	q->q_ptr = WR(q)->q_ptr = (caddr_t)cp;
251 
252 	cp->cp_mru = PPP_MRU;
253 	cp->cp_mtu = PPP_MTU;
254 
255 	mutex_init(&cp->cp_pair_lock, NULL, MUTEX_DRIVER, NULL);
256 	vj_compress_init(&cp->cp_vj, -1);
257 	cp->cp_nxslots = -1;
258 	cp->cp_effort = -1;
259 
260 	qprocson(q);
261 	return (0);
262 }
263 
264 /*
265  * spppcomp_close()
266  *
267  * MT-Perimeters:
268  *    exclusive inner.
269  *
270  * Description:
271  *    Common close procedure for module.
272  */
273 /* ARGSUSED */
274 static int
275 spppcomp_close(queue_t *q, int flag, cred_t *credp)
276 {
277 	sppp_comp_t	*cp;
278 
279 	ASSERT(q != NULL);
280 	ASSERT(q->q_ptr != NULL);
281 	cp = (sppp_comp_t *)q->q_ptr;
282 
283 	qprocsoff(q);
284 
285 	CPDEBUG((DBGSTART "close flags=0x%b\n",
286 	    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1), cp->cp_flags,
287 	    CP_FLAGSSTR));
288 	mutex_destroy(&cp->cp_pair_lock);
289 	if (cp->cp_kstats) {
290 		ASSERT(IS_CP_HASUNIT(cp));
291 		kstat_delete(cp->cp_kstats);
292 	}
293 	if (cp->cp_xstate != NULL) {
294 		(*cp->cp_xcomp->comp_free)(cp->cp_xstate);
295 	}
296 	if (cp->cp_rstate != NULL) {
297 		(*cp->cp_rcomp->decomp_free)(cp->cp_rstate);
298 	}
299 	kmem_free(cp, sizeof (sppp_comp_t));
300 	q->q_ptr = WR(q)->q_ptr = NULL;
301 
302 	return (0);
303 }
304 
305 /*
306  * spppcomp_wput()
307  *
308  * MT-Perimeters:
309  *    exclusive inner.
310  *
311  * Description:
312  *    Write-side put procedure.  Packets from above us arrive here.
313  *
314  *	The data handling logic is a little tricky here.  We defer to
315  *	the service routine if q_first isn't NULL (to preserve message
316  *	ordering after deferring a previous message), bcanputnext() is
317  *	FALSE (to handle flow control), or we need a lot of processing
318  *	and we're in an interrupt context (on the theory that we're
319  *	already on a very long call stack at that point).  Since many
320  *	callers will be in a non-interrupt context, this means that
321  *	most processing will be performed here in-line, and deferral
322  *	occurs only when necessary.
323  */
324 static int
325 spppcomp_wput(queue_t *q, mblk_t *mp)
326 {
327 	sppp_comp_t	*cp;
328 	int flag;
329 
330 	ASSERT(q != NULL);
331 	ASSERT(q->q_ptr != NULL);
332 	cp = (sppp_comp_t *)q->q_ptr;
333 	ASSERT(mp != NULL && mp->b_rptr != NULL);
334 
335 	switch (MTYPE(mp)) {
336 	case M_DATA:
337 		if (q->q_first != NULL || !bcanputnext(q, mp->b_band) ||
338 		    ((cp->cp_flags & (COMP_VJC|CCP_COMP_RUN)) &&
339 			servicing_interrupt())) {
340 #ifdef SPC_DEBUG
341 			cp->cp_out_queued++;
342 #endif
343 			(void) putq(q, mp);
344 		} else {
345 #ifdef SPC_DEBUG
346 			cp->cp_out_handled++;
347 #endif
348 			if ((mp = spppcomp_outpkt(q, mp)) != NULL) {
349 				putnext(q, mp);
350 			}
351 		}
352 		break;
353 	case M_IOCTL:
354 		spppcomp_ioctl(q, mp, cp);
355 		break;
356 	case M_CTL:
357 		mutex_enter(&cp->cp_pair_lock);
358 		flag = spppcomp_mctl(q, mp);
359 		mutex_exit(&cp->cp_pair_lock);
360 		if (flag != 0)
361 			putnext(q, mp);
362 		else
363 			freemsg(mp);
364 		break;
365 	case M_FLUSH:
366 		CPDEBUG((DBGSTART "wput M_FLUSH (0x%x) flags=0x%b\n",
367 		    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1),
368 		    *mp->b_rptr, cp->cp_flags,	CP_FLAGSSTR));
369 		/*
370 		 * Just discard pending data.  For CCP, any compressor
371 		 * dictionary sequencing problems caused by this will
372 		 * have to be handled by the compression protocol in
373 		 * use.  For VJ, we need to tell the compressor to
374 		 * start over.
375 		 */
376 		if (*mp->b_rptr & FLUSHW) {
377 			mutex_enter(&cp->cp_pair_lock);
378 			flushq(q, FLUSHDATA);
379 			vj_compress_init(&cp->cp_vj, cp->cp_nxslots);
380 			mutex_exit(&cp->cp_pair_lock);
381 		}
382 		putnext(q, mp);
383 		break;
384 	default:
385 		putnext(q, mp);
386 		break;
387 	}
388 	return (0);
389 }
390 
391 /*
392  * spppcomp_wsrv()
393  *
394  * MT-Perimeters:
395  *    exclusive inner
396  *
397  * Description:
398  *    Write-side service procedure.
399  */
400 static int
401 spppcomp_wsrv(queue_t *q)
402 {
403 	mblk_t		*mp;
404 
405 	ASSERT(q != NULL);
406 	ASSERT(q->q_ptr != NULL);
407 
408 	while ((mp = getq(q)) != NULL) {
409 		/* We should only place M_DATA on the service queue. */
410 		ASSERT(MTYPE(mp) == M_DATA);
411 		/*
412 		 * If the module below us is flow-controlled, then put
413 		 * this message back on the queue again.
414 		 */
415 		if (!bcanputnext(q, mp->b_band)) {
416 			(void) putbq(q, mp);
417 			break;
418 		}
419 		if ((mp = spppcomp_outpkt(q, mp)) != NULL) {
420 			putnext(q, mp);
421 		}
422 	}
423 	return (0);
424 }
425 
426 /*
427  * spppcomp_outpkt()
428  *
429  * MT-Perimeters:
430  *    exclusive inner
431  *
432  * Description:
433  *    Process outgoing packet.  Returns new mblk_t pointer on success
434  *    (caller should do putnext through q), NULL on failure (packet has
435  *    been discarded).
436  */
437 static mblk_t *
438 spppcomp_outpkt(queue_t *q, mblk_t *mp)
439 {
440 	mblk_t		*zmp;
441 	int		len;
442 	ushort_t	proto;
443 	sppp_comp_t	*cp;
444 
445 	ASSERT(q != NULL);
446 	ASSERT(mp != NULL);
447 	cp = (sppp_comp_t *)q->q_ptr;
448 	ASSERT(cp != NULL);
449 
450 	/*
451 	 * If the entire data size of the mblk is less than the length of the
452 	 * PPP header, then free it. We can't do much with such message anyway,
453 	 * since we can't determine what the PPP protocol is.
454 	 */
455 	len = msgsize(mp);
456 	if (MBLKL(mp) < PPP_HDRLEN) {
457 #ifdef SPC_DEBUG
458 		mutex_enter(&cp->cp_pair_lock);
459 		cp->cp_omsg_pull++;
460 		mutex_exit(&cp->cp_pair_lock);
461 #endif
462 		zmp = msgpullup(mp, PPP_HDRLEN);
463 		freemsg(mp);
464 		if ((mp = zmp) == NULL)
465 			goto msg_oerror;
466 	}
467 
468 	proto = PPP_PROTOCOL(mp->b_rptr);
469 
470 	/*
471 	 * Do VJ compression if requested.
472 	 */
473 	if (proto == PPP_IP && IS_COMP_VJC(cp) &&
474 	    MSG_BYTE(mp, PPP_HDRLEN+offsetof(struct ip, ip_p)) ==
475 	    IPPROTO_TCP) {
476 		uchar_t		*vjhdr;
477 		int		type;
478 		uint32_t	indata[(PPP_HDRLEN+MAX_TCPIPHLEN) /
479 		    sizeof (uint32_t)];
480 		uchar_t		*dp;
481 		int		tocopy, copied;
482 		mblk_t		*fmb;
483 		void		*srcp;
484 		int		thislen;
485 
486 
487 		tocopy = copied = MIN(len, sizeof (indata));
488 		/*
489 		 * If we can alter this dblk, and there's enough data
490 		 * here to work with, and it's nicely aligned, then
491 		 * avoid the data copy.
492 		 */
493 		if (DB_REF(mp) == 1 && MBLKL(mp) >= tocopy &&
494 		    ((uintptr_t)mp->b_rptr & 3) == 0) {
495 			/* Save off the address/control */
496 			indata[0] = *(uint32_t *)mp->b_rptr;
497 			srcp = (void *)(mp->b_rptr + PPP_HDRLEN);
498 		} else {
499 			fmb = mp;
500 			dp = (uchar_t *)indata;
501 			while (tocopy > 0) {
502 				thislen = MBLKL(fmb);
503 				if (tocopy > thislen) {
504 					bcopy(fmb->b_rptr, dp, thislen);
505 					dp += thislen;
506 					tocopy -= thislen;
507 					fmb = fmb->b_cont;
508 				} else {
509 					bcopy(fmb->b_rptr, dp, tocopy);
510 					break;
511 				}
512 			}
513 			srcp = (void *)(indata + PPP_HDRLEN/sizeof (*indata));
514 		}
515 
516 		type = vj_compress_tcp((struct ip *)srcp, len - PPP_HDRLEN,
517 		    &cp->cp_vj, IS_COMP_VJCCID(cp), &vjhdr);
518 
519 		/*
520 		 * If we're going to modify this packet, then we can't modify
521 		 * someone else's data.  Copy instead.
522 		 *
523 		 * (It would be nice to be able to avoid this data copy if CCP
524 		 * is also enabled.  That would require extensive
525 		 * modifications to the compression code.  Users should be
526 		 * told to disable VJ compression when using CCP.)
527 		 */
528 		if (type != TYPE_IP && DB_REF(mp) > 1) {
529 #ifdef SPC_DEBUG
530 			mutex_enter(&cp->cp_pair_lock);
531 			cp->cp_omsg_dcopy++;
532 			mutex_exit(&cp->cp_pair_lock);
533 #endif
534 			/* Copy just altered portion. */
535 			zmp = msgpullup(mp, copied);
536 			freemsg(mp);
537 			if ((mp = zmp) == NULL)
538 				goto msg_oerror;
539 		}
540 
541 		switch (type) {
542 		case TYPE_UNCOMPRESSED_TCP:
543 			mp->b_rptr[3] = proto = PPP_VJC_UNCOMP;
544 			/* No need to update if it was done in place. */
545 			if (srcp ==
546 			    (void *)(indata + PPP_HDRLEN / sizeof (*indata))) {
547 				thislen = PPP_HDRLEN +
548 				    offsetof(struct ip, ip_p);
549 				zmp = mp;
550 				while (zmp != NULL) {
551 					if (MBLKL(zmp) > thislen) {
552 						zmp->b_rptr[thislen] =
553 						    ((struct ip *)srcp)->ip_p;
554 						break;
555 					}
556 					thislen -= MBLKL(zmp);
557 					zmp = zmp->b_cont;
558 				}
559 			}
560 			break;
561 
562 		case TYPE_COMPRESSED_TCP:
563 			/* Calculate amount to remove from front */
564 			thislen = vjhdr - (uchar_t *)srcp;
565 			ASSERT(thislen >= 0);
566 
567 			/* Try to do a cheap adjmsg by arithmetic first. */
568 			dp = mp->b_rptr + thislen;
569 			if (dp > mp->b_wptr) {
570 				if (!adjmsg(mp, thislen)) {
571 					freemsg(mp);
572 					goto msg_oerror;
573 				}
574 				dp = mp->b_rptr;
575 			}
576 
577 			/*
578 			 * Now make sure first block is big enough to
579 			 * receive modified data.  If we modified in
580 			 * place, then no need to check or copy.
581 			 */
582 			copied -= thislen;
583 			ASSERT(copied >= PPP_HDRLEN);
584 			if (srcp !=
585 			    (void *)(indata + PPP_HDRLEN / sizeof (*indata)))
586 				copied = 0;
587 			mp->b_rptr = dp;
588 			if (MBLKL(mp) < copied) {
589 				zmp = msgpullup(mp, copied);
590 				freemsg(mp);
591 				if ((mp = zmp) == NULL)
592 					goto msg_oerror;
593 				dp = mp->b_rptr;
594 			}
595 
596 			*dp++ = ((uchar_t *)indata)[0];	/* address */
597 			*dp++ = ((uchar_t *)indata)[1];	/* control  */
598 			*dp++ = 0;			/* protocol */
599 			*dp++ = proto = PPP_VJC_COMP;	/* protocol */
600 			copied -= PPP_HDRLEN;
601 			if (copied > 0) {
602 				bcopy(vjhdr, dp, copied);
603 			}
604 			break;
605 		}
606 	}
607 
608 	/*
609 	 * Do packet compression if enabled.
610 	 */
611 	if (proto == PPP_CCP) {
612 		/*
613 		 * Handle any negotiation packets by changing compressor
614 		 * state.  Doing this here rather than with an ioctl keeps
615 		 * the negotiation and the data flow in sync.
616 		 */
617 		mutex_enter(&cp->cp_pair_lock);
618 		comp_ccp(q, mp, cp, B_FALSE);
619 		mutex_exit(&cp->cp_pair_lock);
620 	} else if (proto != PPP_LCP && IS_CCP_COMP_RUN(cp) &&
621 	    cp->cp_xstate != NULL) {
622 		mblk_t	*cmp = NULL;
623 
624 		len = msgsize(mp);
625 		len = (*cp->cp_xcomp->compress)(cp->cp_xstate, &cmp, mp, len,
626 			(IS_CCP_ISUP(cp) ? cp->cp_mtu + PPP_HDRLEN : 0));
627 
628 		if (cmp != NULL) {
629 			/* Success!  Discard uncompressed version */
630 			cmp->b_band = mp->b_band;
631 			freemsg(mp);
632 			mp = cmp;
633 		}
634 		if (len < 0) {
635 			/*
636 			 * Compressor failure; must discard this
637 			 * packet because the compressor dictionary is
638 			 * now corrupt.
639 			 */
640 			freemsg(mp);
641 			mutex_enter(&cp->cp_pair_lock);
642 			cp->cp_stats.ppp_oerrors++;
643 			mutex_exit(&cp->cp_pair_lock);
644 			(void) putnextctl1(RD(q), M_CTL, PPPCTL_OERROR);
645 			return (NULL);
646 		}
647 	}
648 
649 	/*
650 	 * If either address and control field compression or protocol field
651 	 * compression is enabled, then we'll need a writable packet.  Copy if
652 	 * necessary.
653 	 */
654 	if ((cp->cp_flags & (COMP_AC|COMP_PROT)) && DB_REF(mp) > 1) {
655 #ifdef SPC_DEBUG
656 		mutex_enter(&cp->cp_pair_lock);
657 		cp->cp_omsg_dcopy++;
658 		mutex_exit(&cp->cp_pair_lock);
659 #endif
660 		zmp = copymsg(mp);
661 		freemsg(mp);
662 		if ((mp = zmp) == NULL)
663 			goto msg_oerror;
664 	}
665 
666 	/*
667 	 * Do address/control and protocol compression if enabled.
668 	 */
669 	if (IS_COMP_AC(cp) && (proto != PPP_LCP)) {
670 		mp->b_rptr += 2;	/* drop address & ctrl fields */
671 		/*
672 		 * Protocol field compression omits the first byte if
673 		 * it would be 0x00, thus the check for < 0x100.
674 		 */
675 		if (proto < 0x100 && IS_COMP_PROT(cp)) {
676 			++mp->b_rptr;	/* drop high protocol byte */
677 		}
678 	} else if ((proto < 0x100) && IS_COMP_PROT(cp)) {
679 		/*
680 		 * shuffle up the address & ctrl fields
681 		 */
682 		mp->b_rptr[2] = mp->b_rptr[1];
683 		mp->b_rptr[1] = mp->b_rptr[0];
684 		++mp->b_rptr;
685 	}
686 	mutex_enter(&cp->cp_pair_lock);
687 	cp->cp_stats.ppp_opackets++;
688 	cp->cp_stats.ppp_obytes += msgsize(mp);
689 	mutex_exit(&cp->cp_pair_lock);
690 
691 	CPDEBUG((DBGSTART "send (%ld bytes) flags=0x%b\n",
692 	    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1), msgsize(mp),
693 	    cp->cp_flags, CP_FLAGSSTR));
694 	return (mp);
695 
696 msg_oerror:
697 	mutex_enter(&cp->cp_pair_lock);
698 	cp->cp_stats.ppp_oerrors++;
699 	mutex_exit(&cp->cp_pair_lock);
700 	(void) putnextctl1(RD(q), M_CTL, PPPCTL_OERROR);
701 	return (NULL);
702 }
703 
704 /*
705  * spppcomp_inner_ioctl()
706  *
707  * MT-Perimeters:
708  *    exclusive inner; queue pair lock held.
709  *
710  * Description:
711  *	Called by spppcomp_ioctl to handle state-affecting ioctls.
712  *	Returns -1 if caller should do putnext, 0 for miocack, or >0
713  *	for miocnak.  Must *NOT* do putnext in this routine, since
714  *	lock is held here.
715  */
716 static int
717 spppcomp_inner_ioctl(queue_t *q, mblk_t *mp)
718 {
719 	sppp_comp_t	*cp;
720 	int		flags;
721 	int		mask;
722 	int		rc;
723 	int		len;
724 	int		cmd;
725 	int		nxslots;
726 	int		nrslots;
727 	int		val;
728 	uchar_t		*opt_data;
729 	uint32_t	opt_len;
730 	struct compressor **comp;
731 	struct compressor *ccomp;
732 	struct iocblk	*iop;
733 	void		*xtemp;
734 
735 	ASSERT(q != NULL);
736 	ASSERT(q->q_ptr != NULL);
737 	cp = (sppp_comp_t *)q->q_ptr;
738 	ASSERT(mp != NULL);
739 	ASSERT(mp->b_rptr != NULL);
740 
741 	iop = (struct iocblk *)mp->b_rptr;
742 	rc = EINVAL;
743 	len = 0;
744 	switch (iop->ioc_cmd) {
745 	case PPPIO_CFLAGS:
746 		if (iop->ioc_count != 2 * sizeof (uint32_t) ||
747 		    mp->b_cont == NULL)
748 			break;
749 
750 		flags = ((uint32_t *)mp->b_cont->b_rptr)[0];
751 		mask = ((uint32_t *)mp->b_cont->b_rptr)[1];
752 
753 		cp->cp_flags = (cp->cp_flags & ~mask) | (flags & mask);
754 
755 		if ((mask & CCP_ISOPEN) && (flags & CCP_ISOPEN) == 0) {
756 			if (cp->cp_xstate != NULL) {
757 				(*cp->cp_xcomp->comp_free)(cp->cp_xstate);
758 				cp->cp_xstate = NULL;
759 			}
760 			if (cp->cp_rstate != NULL) {
761 				(*cp->cp_rcomp->decomp_free)(cp->cp_rstate);
762 				cp->cp_rstate = NULL;
763 			}
764 			cp->cp_flags &= ~CCP_ISUP;
765 		}
766 
767 		CPDEBUG((DBGSTART
768 		    "PPPIO_CFLAGS xflags=0x%b xmask=0x%b flags=0x%b\n",
769 		    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1),
770 		    flags, CP_FLAGSSTR, mask,
771 		    CP_FLAGSSTR, cp->cp_flags, CP_FLAGSSTR));
772 
773 		/* If we're not the last PPP-speaker, then pass along. */
774 		if (!IS_CP_LASTMOD(cp)) {
775 			return (-1);	/* putnext */
776 		}
777 
778 		*(uint32_t *)mp->b_cont->b_rptr = cp->cp_flags;
779 		len = sizeof (uint32_t);
780 		rc = 0;
781 		break;
782 
783 	case PPPIO_VJINIT:
784 		if (iop->ioc_count != 2 || mp->b_cont == NULL)
785 			break;
786 		/*
787 		 * Even though it's not passed along, we have to
788 		 * validate nrslots so that we don't agree to
789 		 * decompress anything we cannot.
790 		 */
791 		nxslots = mp->b_cont->b_rptr[0] + 1;
792 		nrslots = mp->b_cont->b_rptr[1] + 1;
793 		if (nxslots > MAX_STATES || nrslots > MAX_STATES)
794 			break;
795 
796 		/* No need to lock here; just reading a word is atomic */
797 		/* mutex_enter(&cp->cp_pair_lock); */
798 		cp->cp_vj_last_ierrors = cp->cp_stats.ppp_ierrors;
799 		/* mutex_exit(&cp->cp_pair_lock); */
800 		vj_compress_init(&cp->cp_vj, nxslots);
801 		cp->cp_nxslots = nxslots;
802 
803 		CPDEBUG((DBGSTART
804 		    "PPPIO_VJINIT txslots=%d rxslots=%d flags=0x%b\n",
805 		    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1), nxslots,
806 		    nrslots, cp->cp_flags, CP_FLAGSSTR));
807 		rc = 0;
808 		break;
809 
810 	case PPPIO_XCOMP:
811 	case PPPIO_RCOMP:
812 		if (iop->ioc_count < 2 || mp->b_cont == NULL)
813 			break;
814 		/*
815 		 * The input data here is the raw CCP algorithm option
816 		 * from negotiation.  The format is always one byte of
817 		 * algorithm number, one byte of length, and
818 		 * (length-2) bytes of algorithm-dependent data.  The
819 		 * alloc routine is expected to parse and validate
820 		 * this.
821 		 */
822 		opt_data = mp->b_cont->b_rptr;
823 		opt_len = mp->b_cont->b_wptr - opt_data;
824 		if (opt_len > iop->ioc_count) {
825 			opt_len = iop->ioc_count;
826 		}
827 		len = mp->b_cont->b_rptr[1];
828 		if (len < 2 || len > opt_len)
829 			break;
830 		len = 0;
831 		for (comp = ppp_compressors; *comp != NULL; ++comp) {
832 
833 			if ((*comp)->compress_proto != opt_data[0]) {
834 				continue;
835 			}
836 			rc = 0;
837 			if (iop->ioc_cmd == PPPIO_XCOMP) {
838 				/*
839 				 * A previous call may have fetched
840 				 * memory for a compressor that's now
841 				 * being retired or reset.  Free it
842 				 * using its mechanism for freeing
843 				 * stuff.
844 				 */
845 				if ((xtemp = cp->cp_xstate) != NULL) {
846 					cp->cp_xstate = NULL;
847 					(*cp->cp_xcomp->comp_free)(xtemp);
848 				}
849 				cp->cp_xcomp = *comp;
850 				cp->cp_xstate = (*comp)->comp_alloc(opt_data,
851 				    opt_len);
852 
853 				if (cp->cp_xstate == NULL) {
854 					rc = ENOSR;
855 				}
856 
857 				CPDEBUG((DBGSTART "PPPIO_XCOMP opt_proto=0x%x "
858 				    "opt_len=0x%d flags=0x%b\n",
859 				    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1),
860 				    (uchar_t)opt_data[0], opt_len,
861 				    cp->cp_flags,
862 				    CP_FLAGSSTR));
863 			} else {
864 				if ((xtemp = cp->cp_rstate) != NULL) {
865 					cp->cp_rstate = NULL;
866 					(*cp->cp_rcomp->decomp_free)(xtemp);
867 				}
868 				cp->cp_rcomp = *comp;
869 				cp->cp_rstate =
870 				    (*comp)->decomp_alloc(opt_data, opt_len);
871 
872 				if (cp->cp_rstate == NULL) {
873 					rc = ENOSR;
874 				}
875 
876 				CPDEBUG((DBGSTART "PPPIO_RCOMP opt_proto=0x%x "
877 				    "opt_len=0x%d flags=0x%b\n",
878 				    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1),
879 				    (uchar_t)opt_data[0], opt_len,
880 				    cp->cp_flags,
881 				    CP_FLAGSSTR));
882 			}
883 			if (rc == 0 && (*comp)->set_effort != NULL) {
884 				rc = (*(*comp)->set_effort)(cp->
885 				    cp_xcomp == *comp ? cp->cp_xstate : NULL,
886 				    cp->cp_rcomp == *comp ? cp->cp_rstate :
887 				    NULL, cp->cp_effort);
888 				if (rc != 0) {
889 					CKDEBUG((DBGSTART
890 					    "cannot set effort %d",
891 					    cp->cp_unit, cp->cp_effort));
892 					rc = 0;
893 				}
894 			}
895 			break;
896 		}
897 		break;
898 
899 	case PPPIO_DEBUG:
900 		if (iop->ioc_count != sizeof (uint32_t) || mp->b_cont == NULL)
901 			break;
902 
903 		cmd = *(uint32_t *)mp->b_cont->b_rptr;
904 
905 		/* If it's not for us, then pass along. */
906 		if (cmd != PPPDBG_LOG + PPPDBG_COMP) {
907 			return (-1);	/* putnext */
908 		}
909 		cp->cp_flags |= CP_KDEBUG;
910 
911 		CKDEBUG((DBGSTART "PPPIO_DEBUG log enabled flags=0x%b\n",
912 		    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1),
913 		    cp->cp_flags, CP_FLAGSSTR));
914 		rc = 0;
915 		break;
916 
917 	case PPPIO_LASTMOD:
918 		cp->cp_flags |= CP_LASTMOD;
919 		CPDEBUG((DBGSTART "PPPIO_LASTMOD last module flags=0x%b\n",
920 		    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1),
921 		    cp->cp_flags, CP_FLAGSSTR));
922 		rc = 0;
923 		break;
924 
925 	case PPPIO_COMPLEV:	/* set compression effort level */
926 		if (iop->ioc_count != sizeof (uint32_t) || mp->b_cont == NULL)
927 			break;
928 		val = *(uint32_t *)mp->b_cont->b_rptr;
929 		cp->cp_effort = val;
930 		/* Silently ignore if compressor doesn't understand this. */
931 		rc = 0;
932 		if ((ccomp = cp->cp_xcomp) != NULL &&
933 		    ccomp->set_effort != NULL) {
934 			rc = (*ccomp->set_effort)(cp->cp_xstate,
935 			    ccomp == cp->cp_rcomp ? cp->cp_rstate : NULL, val);
936 			if (rc != 0)
937 				break;
938 		}
939 		if ((ccomp = cp->cp_rcomp) != NULL && ccomp != cp->cp_xcomp &&
940 		    ccomp->set_effort != NULL)
941 			rc = (*ccomp->set_effort)(NULL, cp->cp_rstate, val);
942 		break;
943 	}
944 	if (rc == 0 && mp->b_cont != NULL)
945 		mp->b_cont->b_wptr = mp->b_cont->b_rptr + len;
946 	return (rc);
947 }
948 
949 /*
950  * spppcomp_getcstat()
951  *
952  * MT-Perimeters:
953  *    exclusive inner.
954  *
955  * Description:
956  *    Called by spppcomp_ioctl as the result of receiving a PPPIO_GETCSTAT.
957  */
958 static void
959 spppcomp_getcstat(queue_t *q, mblk_t *mp, sppp_comp_t *cp)
960 {
961 	mblk_t		*mpnext;
962 	struct ppp_comp_stats	*csp;
963 
964 	ASSERT(q != NULL);
965 	ASSERT(q->q_ptr != NULL);
966 	ASSERT(mp != NULL);
967 	ASSERT(mp->b_rptr != NULL);
968 	ASSERT(cp != NULL);
969 
970 	mpnext = allocb(sizeof (struct ppp_comp_stats), BPRI_MED);
971 	if (mpnext == NULL) {
972 		miocnak(q, mp, 0, ENOSR);
973 		return;
974 	}
975 	if (mp->b_cont != NULL) {
976 		freemsg(mp->b_cont);
977 	}
978 	mp->b_cont = mpnext;
979 	csp = (struct ppp_comp_stats *)mpnext->b_wptr;
980 	mpnext->b_wptr += sizeof (struct ppp_comp_stats);
981 	bzero((caddr_t)csp, sizeof (struct ppp_comp_stats));
982 
983 	if (cp->cp_xstate != NULL) {
984 		(*cp->cp_xcomp->comp_stat)(cp->cp_xstate, &csp->c);
985 	}
986 	if (cp->cp_rstate != NULL) {
987 		(*cp->cp_rcomp->decomp_stat)(cp->cp_rstate, &csp->d);
988 	}
989 
990 	miocack(q, mp, sizeof (struct ppp_comp_stats), 0);
991 }
992 
993 /*
994  * spppcomp_ioctl()
995  *
996  * MT-Perimeters:
997  *    exclusive inner.
998  *
999  * Description:
1000  *    Called by spppcomp_wput as the result of receiving an M_IOCTL
1001  *    command.
1002  */
1003 static void
1004 spppcomp_ioctl(queue_t *q, mblk_t *mp, sppp_comp_t *cp)
1005 {
1006 	struct iocblk	*iop;
1007 	int flag;
1008 
1009 	ASSERT(q != NULL);
1010 	ASSERT(q->q_ptr != NULL);
1011 	ASSERT(mp != NULL);
1012 	ASSERT(mp->b_rptr != NULL);
1013 	ASSERT(cp != NULL);
1014 
1015 	iop = (struct iocblk *)mp->b_rptr;
1016 	switch (iop->ioc_cmd) {
1017 	case PPPIO_CFLAGS:
1018 	case PPPIO_VJINIT:
1019 	case PPPIO_XCOMP:
1020 	case PPPIO_RCOMP:
1021 	case PPPIO_DEBUG:
1022 	case PPPIO_LASTMOD:
1023 	case PPPIO_COMPLEV:
1024 		mutex_enter(&cp->cp_pair_lock);
1025 		flag = spppcomp_inner_ioctl(q, mp);
1026 		mutex_exit(&cp->cp_pair_lock);
1027 		if (flag == -1) {
1028 			putnext(q, mp);
1029 		} else if (flag == 0) {
1030 			miocack(q, mp,
1031 			    mp->b_cont == NULL ? 0 : MBLKL(mp->b_cont), 0);
1032 		} else {
1033 			miocnak(q, mp, 0, flag);
1034 		}
1035 		break;
1036 
1037 	case PPPIO_GETCSTAT:
1038 		spppcomp_getcstat(q, mp, cp);
1039 		break;
1040 
1041 	case PPPIO_GTYPE:	/* get existing driver type */
1042 		if (!IS_CP_LASTMOD(cp)) {
1043 			putnext(q, mp);
1044 			break;
1045 		}
1046 		freemsg(mp->b_next);
1047 		mp->b_next = allocb(sizeof (uint32_t), BPRI_MED);
1048 		if (mp->b_next == NULL) {
1049 			miocnak(q, mp, 0, ENOSR);
1050 		} else {
1051 			*(uint32_t *)mp->b_cont->b_wptr = PPPTYP_HC;
1052 			mp->b_cont->b_wptr += sizeof (uint32_t);
1053 			miocack(q, mp, sizeof (uint32_t), 0);
1054 		}
1055 		break;
1056 
1057 	default:
1058 		putnext(q, mp);
1059 		break;
1060 	}
1061 }
1062 
1063 /*
1064  * spppcomp_mctl()
1065  *
1066  * MT-Perimeters:
1067  *    exclusive inner; queue pair lock held.
1068  *
1069  * Description:
1070  *	Called by spppcomp_wput as the result of receiving an M_CTL
1071  *	message from another STREAMS module, and returns non-zero if
1072  *	caller should do putnext or zero for freemsg.  Must *NOT* do
1073  *	putnext in this routine, since lock is held here.
1074  */
1075 static int
1076 spppcomp_mctl(queue_t *q, mblk_t *mp)
1077 {
1078 	sppp_comp_t		*cp;
1079 	kstat_t			*ksp;
1080 	char			unit[32];
1081 	const char **cpp;
1082 	kstat_named_t *knt;
1083 
1084 	ASSERT(q != NULL);
1085 	ASSERT(q->q_ptr != NULL);
1086 	cp = (sppp_comp_t *)q->q_ptr;
1087 	ASSERT(mp != NULL);
1088 	ASSERT(mp->b_rptr != NULL);
1089 
1090 	switch (*mp->b_rptr) {
1091 	case PPPCTL_MTU:
1092 		if (MBLKL(mp) < 4) {
1093 			break;
1094 		}
1095 		cp->cp_mtu = ((ushort_t *)mp->b_rptr)[1];
1096 
1097 		CPDEBUG((DBGSTART "PPPCTL_MTU (%d) flags=0x%b\n",
1098 		    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1),
1099 		    cp->cp_mtu, cp->cp_flags, CP_FLAGSSTR));
1100 		break;
1101 	case PPPCTL_MRU:
1102 		if (MBLKL(mp) < 4) {
1103 			break;
1104 		}
1105 		cp->cp_mru = ((ushort_t *)mp->b_rptr)[1];
1106 
1107 		CPDEBUG((DBGSTART "PPPCTL_MRU (%d) flags=0x%b\n",
1108 		    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1),
1109 		    cp->cp_mru, cp->cp_flags, CP_FLAGSSTR));
1110 		break;
1111 	case PPPCTL_UNIT:
1112 		if (MBLKL(mp) < 8) {
1113 			break;
1114 		}
1115 		/* If PPPCTL_UNIT has already been issued, then ignore. */
1116 		if (IS_CP_HASUNIT(cp)) {
1117 			break;
1118 		}
1119 		ASSERT(cp->cp_kstats == NULL);
1120 		cp->cp_unit = ((uint32_t *)mp->b_rptr)[1];
1121 
1122 		/* Create kstats for this unit. */
1123 		(void) sprintf(unit, "%s%d", COMP_MOD_NAME, cp->cp_unit);
1124 		ksp = kstat_create(COMP_MOD_NAME, cp->cp_unit, unit, "net",
1125 			KSTAT_TYPE_NAMED, sizeof (spppcomp_kstats_t) /
1126 			sizeof (kstat_named_t), 0);
1127 
1128 		if (ksp != NULL) {
1129 			cp->cp_flags |= CP_HASUNIT;
1130 			cp->cp_kstats = ksp;
1131 
1132 			knt = (kstat_named_t *)ksp->ks_data;
1133 			for (cpp = kstats_names;
1134 			    cpp < kstats_names + Dim(kstats_names); cpp++) {
1135 				kstat_named_init(knt, *cpp,
1136 				    KSTAT_DATA_UINT32);
1137 				knt++;
1138 			}
1139 			for (cpp = kstats64_names;
1140 			    cpp < kstats64_names + Dim(kstats64_names); cpp++) {
1141 				kstat_named_init(knt, *cpp,
1142 				    KSTAT_DATA_UINT64);
1143 				knt++;
1144 			}
1145 			ksp->ks_update = spppcomp_kstat_update;
1146 			ksp->ks_private = (void *)cp;
1147 			kstat_install(ksp);
1148 
1149 			CPDEBUG((DBGSTART "PPPCTL_UNIT flags=0x%b\n",
1150 			    cp->cp_unit, cp->cp_flags, CP_FLAGSSTR));
1151 		}
1152 		break;
1153 
1154 	default:
1155 		/* Forward unknown M_CTL messages along */
1156 		return (1);
1157 	}
1158 
1159 	/*
1160 	 * For known PPP M_CTL messages, forward along only if we're not the
1161 	 * last PPP-aware module.
1162 	 */
1163 	if (IS_CP_LASTMOD(cp))
1164 		return (0);
1165 	return (1);
1166 }
1167 
1168 /*
1169  * spppcomp_rput()
1170  *
1171  * MT-Perimeters:
1172  *    exclusive inner.
1173  *
1174  * Description:
1175  *    Upper read-side put procedure.  Messages get here from below.
1176  *
1177  *	The data handling logic is a little more tricky here.  We
1178  *	defer to the service routine if q_first isn't NULL (to
1179  *	preserve message ordering after deferring a previous message),
1180  *	bcanputnext() is FALSE (to handle flow control), or we have
1181  *	done a lot of processing recently and we're about to do a lot
1182  *	more and we're in an interrupt context (on the theory that
1183  *	we're hogging the CPU in this case).
1184  */
1185 static int
1186 spppcomp_rput(queue_t *q, mblk_t *mp)
1187 {
1188 	sppp_comp_t		*cp;
1189 	struct iocblk		*iop;
1190 	struct ppp_stats64	*psp;
1191 	boolean_t		inter;
1192 	hrtime_t		curtime;
1193 
1194 	ASSERT(q != NULL);
1195 	ASSERT(q->q_ptr != NULL);
1196 	cp = (sppp_comp_t *)q->q_ptr;
1197 	ASSERT(mp != NULL);
1198 
1199 	switch (MTYPE(mp)) {
1200 	case M_DATA:
1201 		inter = servicing_interrupt();
1202 		if (inter) {
1203 			curtime = gethrtime();
1204 
1205 			/*
1206 			 * If little time has passed since last
1207 			 * arrival, then bump the counter.
1208 			 */
1209 			if (curtime - cp->cp_lastfinish < spppcomp_min_arrival)
1210 				cp->cp_fastin++;
1211 			else
1212 				cp->cp_fastin >>= 1;	/* a guess */
1213 		}
1214 		/*
1215 		 * If we're not decompressing, then we'll be fast, so
1216 		 * we don't have to worry about hogging here.  If we
1217 		 * are decompressing, then we have to check the
1218 		 * cp_fastin count.
1219 		 */
1220 		if ((!(cp->cp_flags & (CCP_DECOMP_RUN | DECOMP_VJC)) ||
1221 		    cp->cp_fastin < MAX_FAST_ARRIVALS) &&
1222 		    q->q_first == NULL && bcanputnext(q, mp->b_band)) {
1223 #ifdef SPC_DEBUG
1224 			cp->cp_in_handled++;
1225 #endif
1226 			if ((mp = spppcomp_inpkt(q, mp)) != NULL)
1227 				putnext(q, mp);
1228 			if (inter) {
1229 				cp->cp_lastfinish = gethrtime();
1230 			}
1231 		} else {
1232 			/* Deferring; give him a clean slate */
1233 			cp->cp_fastin = 0;
1234 #ifdef SPC_DEBUG
1235 			cp->cp_in_queued++;
1236 #endif
1237 			(void) putq(q, mp);
1238 		}
1239 		break;
1240 	case M_IOCACK:
1241 		iop = (struct iocblk *)mp->b_rptr;
1242 		ASSERT(iop != NULL);
1243 		/*
1244 		 * Bundled with pppstats; no need to handle PPPIO_GETSTAT
1245 		 * here since we'll never see it.
1246 		 */
1247 		if (iop->ioc_cmd == PPPIO_GETSTAT64 &&
1248 		    iop->ioc_count == sizeof (struct ppp_stats64) &&
1249 		    mp->b_cont != NULL) {
1250 			/*
1251 			 * This crock is to handle a badly-designed
1252 			 * but well-known ioctl for ANU PPP.  Both
1253 			 * link statistics and VJ statistics are
1254 			 * requested together.
1255 			 *
1256 			 * Catch this on the way back from the
1257 			 * spppasyn module so we can fill in the VJ
1258 			 * stats.  This happens only when we have
1259 			 * PPP-aware modules beneath us.
1260 			 */
1261 			psp = (struct ppp_stats64 *)mp->b_cont->b_rptr;
1262 			psp->vj = cp->cp_vj.stats;
1263 			CPDEBUG((DBGSTART
1264 			    "PPPIO_GETSTAT64 (VJ filled) flags=0x%b\n",
1265 			    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1),
1266 			    cp->cp_flags, CP_FLAGSSTR));
1267 		}
1268 		putnext(q, mp);
1269 		break;
1270 	case M_CTL:
1271 		/* Increase our statistics and forward it upstream. */
1272 		mutex_enter(&cp->cp_pair_lock);
1273 		if (*mp->b_rptr == PPPCTL_IERROR) {
1274 			cp->cp_stats.ppp_ierrors++;
1275 			cp->cp_ierr_low++;
1276 		} else if (*mp->b_rptr == PPPCTL_OERROR) {
1277 			cp->cp_stats.ppp_oerrors++;
1278 			cp->cp_oerr_low++;
1279 		}
1280 		mutex_exit(&cp->cp_pair_lock);
1281 		putnext(q, mp);
1282 		break;
1283 
1284 	case M_FLUSH:
1285 		CPDEBUG((DBGSTART "rput M_FLUSH (0x%x) flags=0x%b\n",
1286 		    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1),
1287 		    *mp->b_rptr, cp->cp_flags,	CP_FLAGSSTR));
1288 		/*
1289 		 * Just discard pending data.  For CCP, any
1290 		 * decompressor dictionary sequencing problems caused
1291 		 * by this will have to be handled by the compression
1292 		 * protocol in use.  For VJ, we need to give the
1293 		 * decompressor a heads-up.
1294 		 */
1295 		if (*mp->b_rptr & FLUSHR) {
1296 			mutex_enter(&cp->cp_pair_lock);
1297 			flushq(q, FLUSHDATA);
1298 			cp->cp_vj_last_ierrors = cp->cp_stats.ppp_ierrors;
1299 			vj_uncompress_err(&cp->cp_vj);
1300 			mutex_exit(&cp->cp_pair_lock);
1301 		}
1302 		putnext(q, mp);
1303 		break;
1304 
1305 	default:
1306 		putnext(q, mp);
1307 		break;
1308 	}
1309 	return (0);
1310 }
1311 
1312 /*
1313  * spppcomp_rsrv()
1314  *
1315  * MT-Perimeters:
1316  *    exclusive inner.
1317  *
1318  * Description:
1319  *    Upper read-side service procedure.  We handle data deferred from
1320  *    spppcomp_rput here.
1321  *
1322  *	The data on the queue are always compressed (unprocessed).
1323  *	The rput procedure tries to do decompression, but if it can't,
1324  *	it will put the unprocessed data on the queue for later
1325  *	handling.
1326  */
1327 static int
1328 spppcomp_rsrv(queue_t *q)
1329 {
1330 	mblk_t		*mp;
1331 
1332 	ASSERT(q != NULL);
1333 	ASSERT(q->q_ptr != NULL);
1334 
1335 	while ((mp = getq(q)) != NULL) {
1336 		/* We should only place M_DATA on the service queue. */
1337 		ASSERT(MTYPE(mp) == M_DATA);
1338 		/*
1339 		 * If the module above us is flow-controlled, then put
1340 		 * this message back on the queue again.
1341 		 */
1342 		if (!bcanputnext(q, mp->b_band)) {
1343 			(void) putbq(q, mp);
1344 			break;
1345 		}
1346 		if ((mp = spppcomp_inpkt(q, mp)) != NULL)
1347 			putnext(q, mp);
1348 	}
1349 	return (0);
1350 }
1351 
1352 /*
1353  * spppcomp_inpkt()
1354  *
1355  * MT-Perimeters:
1356  *    exclusive inner
1357  *
1358  * Description:
1359  *    Process incoming packet.
1360  */
1361 static mblk_t *
1362 spppcomp_inpkt(queue_t *q, mblk_t *mp)
1363 {
1364 	ushort_t	proto;
1365 	int		i;
1366 	mblk_t		*zmp;
1367 	mblk_t		*np;
1368 	uchar_t		*dp;
1369 	int		len;
1370 	int		hlen;
1371 	sppp_comp_t	*cp;
1372 
1373 	ASSERT(q != NULL);
1374 	ASSERT(mp != NULL);
1375 	cp = (sppp_comp_t *)q->q_ptr;
1376 	ASSERT(cp != NULL);
1377 
1378 	len = msgsize(mp);
1379 
1380 	mutex_enter(&cp->cp_pair_lock);
1381 	cp->cp_stats.ppp_ibytes += len;
1382 	cp->cp_stats.ppp_ipackets++;
1383 	mutex_exit(&cp->cp_pair_lock);
1384 	/*
1385 	 * First work out the protocol and where the PPP header ends.
1386 	 */
1387 	i = 0;
1388 	proto = MSG_BYTE(mp, 0);
1389 	if (proto == PPP_ALLSTATIONS) {
1390 		i = 2;
1391 		proto = MSG_BYTE(mp, 2);
1392 	}
1393 	if ((proto & 1) == 0) {
1394 		++i;
1395 		proto = (proto << 8) + MSG_BYTE(mp, i);
1396 	}
1397 	hlen = i + 1;
1398 	/*
1399 	 * Now reconstruct a complete, contiguous PPP header at the
1400 	 * start of the packet.
1401 	 */
1402 	if (hlen < (IS_DECOMP_AC(cp) ? 0 : 2) + (IS_DECOMP_PROT(cp) ? 1 : 2)) {
1403 		/* count these? */
1404 		goto bad;
1405 	}
1406 	if (mp->b_rptr + hlen > mp->b_wptr) {
1407 		/*
1408 		 * Header is known to be intact here; so adjmsg will do the
1409 		 * right thing here.
1410 		 */
1411 		if (!adjmsg(mp, hlen)) {
1412 			goto bad;
1413 		}
1414 		hlen = 0;
1415 	}
1416 	if (hlen != PPP_HDRLEN) {
1417 		/*
1418 		 * We need to put some bytes on the front of the packet
1419 		 * to make a full-length PPP header. If we can put them
1420 		 * in mp, we do, otherwise we tack another mblk on the
1421 		 * front.
1422 		 *
1423 		 * XXX we really shouldn't need to carry around the address
1424 		 * and control at this stage.  ACFC and PFC need to be
1425 		 * reworked.
1426 		 */
1427 		dp = mp->b_rptr + hlen - PPP_HDRLEN;
1428 		if ((dp < mp->b_datap->db_base) || (DB_REF(mp) > 1)) {
1429 
1430 			np = allocb(PPP_HDRLEN, BPRI_MED);
1431 			if (np == 0) {
1432 				goto bad;
1433 			}
1434 			np->b_cont = mp;
1435 			mp->b_rptr += hlen;
1436 			mp = np;
1437 			dp = mp->b_wptr;
1438 			mp->b_wptr += PPP_HDRLEN;
1439 		} else {
1440 			mp->b_rptr = dp;
1441 		}
1442 		dp[0] = PPP_ALLSTATIONS;
1443 		dp[1] = PPP_UI;
1444 		dp[2] = (proto >> 8) & 0xff;
1445 		dp[3] = proto & 0xff;
1446 	}
1447 	/*
1448 	 * Now see if we have a compressed packet to decompress, or a
1449 	 * CCP negotiation packet to take notice of.  It's guaranteed
1450 	 * that at least PPP_HDRLEN bytes are contiguous in the first
1451 	 * block now.
1452 	 */
1453 	proto = PPP_PROTOCOL(mp->b_rptr);
1454 	if (proto == PPP_CCP) {
1455 		len = msgsize(mp);
1456 		if (mp->b_wptr < mp->b_rptr + len) {
1457 #ifdef SPC_DEBUG
1458 			mutex_enter(&cp->cp_pair_lock);
1459 			cp->cp_imsg_ccp_pull++;
1460 			mutex_exit(&cp->cp_pair_lock);
1461 #endif
1462 			zmp = msgpullup(mp, len);
1463 			freemsg(mp);
1464 			mp = zmp;
1465 			if (mp == 0) {
1466 				goto bad;
1467 			}
1468 		}
1469 		mutex_enter(&cp->cp_pair_lock);
1470 		comp_ccp(q, mp, cp, B_TRUE);
1471 		mutex_exit(&cp->cp_pair_lock);
1472 	} else if ((cp->cp_flags & (CCP_ISUP | CCP_DECOMP_RUN | CCP_ERR)) ==
1473 	    (CCP_ISUP | CCP_DECOMP_RUN) && cp->cp_rstate != NULL) {
1474 		int	rv;
1475 
1476 		if ((proto == PPP_COMP) || (proto == PPP_COMPFRAG)) {
1477 			rv = (*cp->cp_rcomp->decompress)(cp->cp_rstate, &mp);
1478 			switch (rv) {
1479 			case DECOMP_OK:
1480 				break;
1481 			case DECOMP_ERROR:
1482 				cp->cp_flags |= CCP_ERROR;
1483 				mutex_enter(&cp->cp_pair_lock);
1484 				++cp->cp_stats.ppp_ierrors;
1485 				mutex_exit(&cp->cp_pair_lock);
1486 				(void) putnextctl1(q, M_CTL, PPPCTL_IERROR);
1487 				break;
1488 			case DECOMP_FATALERROR:
1489 				cp->cp_flags |= CCP_FATALERROR;
1490 				mutex_enter(&cp->cp_pair_lock);
1491 				++cp->cp_stats.ppp_ierrors;
1492 				mutex_exit(&cp->cp_pair_lock);
1493 				(void) putnextctl1(q, M_CTL, PPPCTL_IERROR);
1494 				break;
1495 			}
1496 			if (mp == NULL) {
1497 				/* Decompress failed; data are gone. */
1498 				return (NULL);
1499 			}
1500 		} else {
1501 			/*
1502 			 * For RFCs 1977 and 1979 (BSD Compress and Deflate),
1503 			 * the compressor should send incompressible data
1504 			 * without encapsulation and the receiver must update
1505 			 * its decompression dictionary as though this data
1506 			 * were received and decompressed.  This keeps the
1507 			 * dictionaries in sync.
1508 			 */
1509 			rv = (*cp->cp_rcomp->incomp)(cp->cp_rstate, mp);
1510 			if (rv < 0) {
1511 				cp->cp_flags |= CCP_FATALERROR;
1512 				mutex_enter(&cp->cp_pair_lock);
1513 				++cp->cp_stats.ppp_ierrors;
1514 				mutex_exit(&cp->cp_pair_lock);
1515 				(void) putnextctl1(q, M_CTL, PPPCTL_IERROR);
1516 			}
1517 		}
1518 	}
1519 	/*
1520 	 * Now do VJ decompression.
1521 	 */
1522 	proto = PPP_PROTOCOL(mp->b_rptr);
1523 	if ((proto == PPP_VJC_COMP) || (proto == PPP_VJC_UNCOMP)) {
1524 
1525 		len = msgsize(mp) - PPP_HDRLEN;
1526 
1527 		if (!IS_DECOMP_VJC(cp) || (len <= 0)) {
1528 			goto bad;
1529 		}
1530 		/*
1531 		 * Advance past the ppp header.  Here we assume that the whole
1532 		 * PPP header is in the first mblk.  (This should be true
1533 		 * because the above code does pull-ups as necessary on raw
1534 		 * data, and the decompressor engines all produce large blocks
1535 		 * on output.)
1536 		 */
1537 		np = mp;
1538 		dp = np->b_rptr + PPP_HDRLEN;
1539 		if (dp >= mp->b_wptr) {
1540 			np = np->b_cont;
1541 			dp = np->b_rptr;
1542 		}
1543 		/*
1544 		 * Make sure we have sufficient contiguous data at this point,
1545 		 * which in most cases we will always do.
1546 		 */
1547 		hlen = (proto == PPP_VJC_COMP) ? MAX_VJHDR : MAX_TCPIPHLEN;
1548 		if (hlen > len) {
1549 			hlen = len;
1550 		}
1551 		if ((np->b_wptr < dp + hlen) || DB_REF(np) > 1) {
1552 #ifdef SPC_DEBUG
1553 			mutex_enter(&cp->cp_pair_lock);
1554 			cp->cp_imsg_vj_pull++;
1555 			mutex_exit(&cp->cp_pair_lock);
1556 #endif
1557 			zmp = msgpullup(mp, hlen + PPP_HDRLEN);
1558 			freemsg(mp);
1559 			mp = zmp;
1560 			if (mp == NULL) {
1561 				goto bad;
1562 			}
1563 			np = mp;
1564 			dp = np->b_rptr + PPP_HDRLEN;
1565 		}
1566 
1567 		if (proto == PPP_VJC_COMP) {
1568 			uchar_t		*iphdr;
1569 			int		vjlen;
1570 			uint_t		iphlen;
1571 			int		errcnt;
1572 
1573 			/*
1574 			 * Decompress VJ-compressed packet.  First
1575 			 * reset compressor if an input error has
1576 			 * occurred.  (No need to lock statistics
1577 			 * structure for read of a single word.)
1578 			 */
1579 			errcnt = cp->cp_stats.ppp_ierrors;
1580 			if (errcnt != cp->cp_vj_last_ierrors) {
1581 				cp->cp_vj_last_ierrors = errcnt;
1582 				vj_uncompress_err(&cp->cp_vj);
1583 			}
1584 
1585 			vjlen = vj_uncompress_tcp(dp, np->b_wptr - dp, len,
1586 					&cp->cp_vj, &iphdr, &iphlen);
1587 
1588 			if (vjlen < 0 || iphlen == 0) {
1589 				/*
1590 				 * so we don't reset next time
1591 				 */
1592 				mutex_enter(&cp->cp_pair_lock);
1593 				++cp->cp_vj_last_ierrors;
1594 				mutex_exit(&cp->cp_pair_lock);
1595 				goto bad;
1596 			}
1597 			/*
1598 			 * drop ppp and vj headers off
1599 			 */
1600 			if (mp != np) {
1601 				freeb(mp);
1602 				mp = np;
1603 			}
1604 			mp->b_rptr = dp + vjlen;
1605 			/*
1606 			 * allocate a new mblk for the ppp and
1607 			 * ip headers
1608 			 */
1609 			np = allocb(iphlen + PPP_HDRLEN, BPRI_MED);
1610 			if (np == NULL)
1611 				goto bad;
1612 			dp = np->b_rptr;
1613 			/*
1614 			 * reconstruct PPP header
1615 			 */
1616 			dp[0] = PPP_ALLSTATIONS;
1617 			dp[1] = PPP_UI;
1618 			dp[2] = PPP_IP >> 8;
1619 			dp[3] = PPP_IP;
1620 			/*
1621 			 * prepend mblk with reconstructed TCP/IP header.
1622 			 */
1623 			bcopy((caddr_t)iphdr, (caddr_t)dp + PPP_HDRLEN, iphlen);
1624 			np->b_wptr = dp + iphlen + PPP_HDRLEN;
1625 			np->b_cont = mp;
1626 			mp = np;
1627 		} else {
1628 			/*
1629 			 * "Decompress" a VJ-uncompressed packet.
1630 			 */
1631 			mutex_enter(&cp->cp_pair_lock);
1632 			cp->cp_vj_last_ierrors = cp->cp_stats.ppp_ierrors;
1633 			mutex_exit(&cp->cp_pair_lock);
1634 			if (!vj_uncompress_uncomp(dp, hlen, &cp->cp_vj)) {
1635 				/*
1636 				 * don't need to reset next time
1637 				 */
1638 				mutex_enter(&cp->cp_pair_lock);
1639 				++cp->cp_vj_last_ierrors;
1640 				mutex_exit(&cp->cp_pair_lock);
1641 				goto bad;
1642 			}
1643 			/*
1644 			 * fix up the PPP protocol field
1645 			 */
1646 			mp->b_rptr[3] = PPP_IP;
1647 		}
1648 	}
1649 	CPDEBUG((DBGSTART "recv (%ld bytes) flags=0x%b\n",
1650 	    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1), msgsize(mp),
1651 	    cp->cp_flags, CP_FLAGSSTR));
1652 	return (mp);
1653 
1654 bad:
1655 	if (mp != 0) {
1656 		freemsg(mp);
1657 	}
1658 	mutex_enter(&cp->cp_pair_lock);
1659 	cp->cp_stats.ppp_ierrors++;
1660 	mutex_exit(&cp->cp_pair_lock);
1661 	(void) putnextctl1(q, M_CTL, PPPCTL_IERROR);
1662 	return (NULL);
1663 }
1664 
1665 /*
1666  * comp_ccp()
1667  *
1668  * Description:
1669  *    Called by spppcomp_outpkt and spppcomp_inpkt to handle a CCP
1670  *    negotiation packet being sent or received.  Here all the data in
1671  *    the packet is in a single mbuf.
1672  *
1673  *	Global state is updated.  Must be called with mutex held.
1674  */
1675 /* ARGSUSED */
1676 static void
1677 comp_ccp(queue_t *q, mblk_t *mp, sppp_comp_t *cp, boolean_t rcvd)
1678 {
1679 	int	len;
1680 	int	clen;
1681 	uchar_t	*dp;
1682 
1683 	ASSERT(q != NULL);
1684 	ASSERT(q->q_ptr != NULL);
1685 	ASSERT(mp != NULL);
1686 	ASSERT(cp != NULL);
1687 
1688 	len = msgsize(mp);
1689 	if (len < PPP_HDRLEN + CCP_HDRLEN) {
1690 		return;
1691 	}
1692 	dp = mp->b_rptr + PPP_HDRLEN;
1693 
1694 	len -= PPP_HDRLEN;
1695 	clen = CCP_LENGTH(dp);
1696 	if (clen > len) {
1697 		return;
1698 	}
1699 
1700 	CPDEBUG((DBGSTART "CCP code=%d flags=0x%b\n",
1701 	    (IS_CP_HASUNIT(cp) ? cp->cp_unit : -1), CCP_CODE(dp),
1702 	    cp->cp_flags, CP_FLAGSSTR));
1703 	switch (CCP_CODE(dp)) {
1704 	case CCP_CONFREQ:
1705 	case CCP_TERMREQ:
1706 	case CCP_TERMACK:
1707 		cp->cp_flags &= ~CCP_ISUP;
1708 		break;
1709 	case CCP_CONFACK:
1710 		if ((cp->cp_flags & (CCP_ISOPEN | CCP_ISUP)) == CCP_ISOPEN &&
1711 			clen >= CCP_HDRLEN + CCP_OPT_MINLEN &&
1712 			clen >= CCP_HDRLEN + CCP_OPT_LENGTH(dp + CCP_HDRLEN)) {
1713 
1714 			int	rc;
1715 
1716 			if (!rcvd) {
1717 				rc = (*cp->cp_xcomp->comp_init)(cp->cp_xstate,
1718 				    dp + CCP_HDRLEN, clen - CCP_HDRLEN,
1719 				    cp->cp_unit, 0,
1720 				    IS_CP_KDEBUG(cp) | ALG_DEBUG);
1721 
1722 				if (cp->cp_xstate != NULL && rc != 0) {
1723 					cp->cp_flags |= CCP_COMP_RUN;
1724 				}
1725 			} else {
1726 				rc = (*cp->cp_rcomp->decomp_init)(cp->
1727 				    cp_rstate, dp + CCP_HDRLEN,
1728 				    clen - CCP_HDRLEN, cp->cp_unit, 0,
1729 				    cp->cp_mru,
1730 				    IS_CP_KDEBUG(cp) | ALG_DEBUG);
1731 
1732 				if (cp->cp_rstate != NULL && rc != 0) {
1733 					cp->cp_flags &= ~CCP_ERR;
1734 					cp->cp_flags |= CCP_DECOMP_RUN;
1735 				}
1736 			}
1737 		}
1738 		break;
1739 	case CCP_RESETACK:
1740 		if (IS_CCP_ISUP(cp)) {
1741 			if (!rcvd) {
1742 				if (cp->cp_xstate != NULL &&
1743 				    IS_CCP_COMP_RUN(cp)) {
1744 					(*cp->cp_xcomp->comp_reset)(cp->
1745 					    cp_xstate);
1746 				}
1747 			} else {
1748 				if (cp->cp_rstate != NULL &&
1749 				    IS_CCP_DECOMP_RUN(cp)) {
1750 					(*cp->cp_rcomp->decomp_reset)(cp->
1751 					    cp_rstate);
1752 					cp->cp_flags &= ~CCP_ERROR;
1753 				}
1754 			}
1755 		}
1756 		break;
1757 	}
1758 }
1759 
1760 /*
1761  * spppcomp_kstat_update()
1762  *
1763  * Description:
1764  *    Update per-unit kstat statistics.
1765  */
1766 static int
1767 spppcomp_kstat_update(kstat_t *ksp, int rw)
1768 {
1769 	register sppp_comp_t		*cp;
1770 	register spppcomp_kstats_t	*cpkp;
1771 	register struct vjstat		*sp;
1772 	register struct pppstat64	*psp;
1773 	struct ppp_comp_stats		csp;
1774 
1775 	if (rw == KSTAT_WRITE) {
1776 		return (EACCES);
1777 	}
1778 
1779 	cp = (sppp_comp_t *)ksp->ks_private;
1780 	ASSERT(cp != NULL);
1781 
1782 	cpkp = (spppcomp_kstats_t *)ksp->ks_data;
1783 	bzero((caddr_t)&csp, sizeof (struct ppp_comp_stats));
1784 
1785 	mutex_enter(&cp->cp_pair_lock);
1786 
1787 	if (cp->cp_xstate != NULL) {
1788 		(*cp->cp_xcomp->comp_stat)(cp->cp_xstate, &csp.c);
1789 	}
1790 	if (cp->cp_rstate != NULL) {
1791 		(*cp->cp_rcomp->decomp_stat)(cp->cp_rstate, &csp.d);
1792 	}
1793 
1794 	sp = &cp->cp_vj.stats;
1795 
1796 	cpkp->vj_out_pkts.value.ui32		= sp->vjs_packets;
1797 	cpkp->vj_out_pkts_comp.value.ui32	= sp->vjs_compressed;
1798 	cpkp->vj_cs_searches.value.ui32		= sp->vjs_searches;
1799 	cpkp->vj_cs_misses.value.ui32		= sp->vjs_misses;
1800 	cpkp->vj_in_pkts_uncomp.value.ui32	= sp->vjs_uncompressedin;
1801 	cpkp->vj_in_pkts_comp.value.ui32	= sp->vjs_compressedin;
1802 	cpkp->vj_in_error.value.ui32		= sp->vjs_errorin;
1803 	cpkp->vj_in_tossed.value.ui32		= sp->vjs_tossed;
1804 
1805 	psp = &cp->cp_stats;
1806 
1807 	cpkp->out_bytes.value.ui64		= psp->ppp_obytes;
1808 	cpkp->out_pkts.value.ui64		= psp->ppp_opackets;
1809 	cpkp->out_errors.value.ui64		= psp->ppp_oerrors;
1810 	cpkp->out_errors_low.value.ui32		= cp->cp_oerr_low;
1811 	cpkp->out_uncomp_bytes.value.ui32	= csp.c.unc_bytes;
1812 	cpkp->out_uncomp_pkts.value.ui32	= csp.c.unc_packets;
1813 	cpkp->out_comp_bytes.value.ui32		= csp.c.comp_bytes;
1814 	cpkp->out_comp_pkts.value.ui32		= csp.c.comp_packets;
1815 	cpkp->out_incomp_bytes.value.ui32	= csp.c.inc_bytes;
1816 	cpkp->out_incomp_pkts.value.ui32	= csp.c.inc_packets;
1817 
1818 	cpkp->in_bytes.value.ui64		= psp->ppp_ibytes;
1819 	cpkp->in_pkts.value.ui64		= psp->ppp_ipackets;
1820 	cpkp->in_errors.value.ui64		= psp->ppp_ierrors;
1821 	cpkp->in_errors_low.value.ui32		= cp->cp_ierr_low;
1822 	cpkp->in_uncomp_bytes.value.ui32	= csp.d.unc_bytes;
1823 	cpkp->in_uncomp_pkts.value.ui32		= csp.d.unc_packets;
1824 	cpkp->in_comp_bytes.value.ui32		= csp.d.comp_bytes;
1825 	cpkp->in_comp_pkts.value.ui32		= csp.d.comp_packets;
1826 	cpkp->in_incomp_bytes.value.ui32	= csp.d.inc_bytes;
1827 	cpkp->in_incomp_pkts.value.ui32		= csp.d.inc_packets;
1828 #ifdef SPC_DEBUG
1829 	cpkp->in_msg_ccp_pulledup.value.ui32	= cp->cp_imsg_ccp_pull;
1830 	cpkp->in_msg_vj_pulledup.value.ui32	= cp->cp_imsg_vj_pull;
1831 	cpkp->out_msg_pulledup.value.ui32	= cp->cp_omsg_pull;
1832 	cpkp->out_msg_copied.value.ui32		= cp->cp_omsg_dcopy;
1833 	cpkp->out_queued.value.ui32		= cp->cp_out_queued;
1834 	cpkp->out_handled.value.ui32		= cp->cp_out_handled;
1835 	cpkp->in_queued.value.ui32		= cp->cp_in_queued;
1836 	cpkp->in_handled.value.ui32		= cp->cp_in_handled;
1837 #endif
1838 	mutex_exit(&cp->cp_pair_lock);
1839 	return (0);
1840 }
1841