xref: /illumos-gate/usr/src/uts/common/rpc/rpc_subr.c (revision 67a4bb8f9ad4c49e9aa9e21e2114a7c093c3a73a)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 
23 /*
24  * Copyright 2015 Nexenta Systems, Inc.  All rights reserved.
25  */
26 
27 /*	Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T	*/
28 /*	  All Rights Reserved  	*/
29 
30 
31 /*
32  * Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
33  * Use is subject to license terms.
34  */
35 
36 /* SVr4.0 1.1 */
37 
38 /*
39  * Miscellaneous support routines for kernel implementation of RPC.
40  */
41 
42 #include <sys/param.h>
43 #include <sys/t_lock.h>
44 #include <sys/user.h>
45 #include <sys/vnode.h>
46 #include <sys/stream.h>
47 #include <sys/stropts.h>
48 #include <sys/strsubr.h>
49 #include <sys/socket.h>
50 #include <sys/tihdr.h>
51 #include <sys/timod.h>
52 #include <sys/tiuser.h>
53 #include <sys/systm.h>
54 #include <sys/cmn_err.h>
55 #include <sys/debug.h>
56 #include <sys/sdt.h>
57 #include <netinet/in.h>
58 #include <rpc/types.h>
59 #include <rpc/auth.h>
60 #include <rpc/clnt.h>
61 #include <rpc/rpcb_prot.h>
62 #include <rpc/pmap_prot.h>
63 
64 static int strtoi(char *, char **);
65 static void grow_netbuf(struct netbuf *, size_t);
66 static void loopb_u2t(const char *, struct netbuf *);
67 
68 #define	RPC_PMAP_TIMEOUT	15
69 /*
70  * define for max length of an ip address and port address, the value was
71  * calculated using INET6_ADDRSTRLEN (46) + max port address (12) +
72  * seperator "."'s in port address (2) + null (1) = 61.
73  * Then there is IPV6_TOKEN_LEN which is 64, so the value is 64 to be safe.
74  */
75 #define	RPC_MAX_IP_LENGTH	64
76 
77 /*
78  * Kernel level debugging aid. The global variable "rpclog" is a bit
79  * mask which allows various types of debugging messages to be printed
80  * out.
81  *
82  *	rpclog & 1 	will cause actual failures to be printed.
83  *	rpclog & 2	will cause informational messages to be
84  *			printed on the client side of rpc.
85  *	rpclog & 4	will cause informational messages to be
86  *			printed on the server side of rpc.
87  *	rpclog & 8	will cause informational messages for rare events to be
88  *			printed on the client side of rpc.
89  *	rpclog & 16	will cause informational messages for rare events to be
90  *			printed on the server side of rpc.
91  *	rpclog & 32	will cause informational messages for rare events to be
92  *			printed on the common client/server code paths of rpc.
93  *	rpclog & 64	will cause informational messages for manipulation
94  *			client-side COTS dispatch list to be printed.
95  */
96 
97 uint_t rpclog = 0;
98 
99 
100 void
101 rpc_poptimod(vnode_t *vp)
102 {
103 	int error, isfound, ret;
104 
105 	error = strioctl(vp, I_FIND, (intptr_t)"timod", 0, K_TO_K, kcred,
106 	    &isfound);
107 	if (error) {
108 		RPCLOG(1, "rpc_poptimod: I_FIND strioctl error %d\n", error);
109 		return;
110 	}
111 	if (isfound) {
112 		/*
113 		 * Pop timod module
114 		 */
115 		error = strioctl(vp, I_POP, 0, 0, K_TO_K, kcred, &ret);
116 		if (error) {
117 			RPCLOG(1, "rpc_poptimod: I_POP strioctl error %d\n",
118 			    error);
119 			return;
120 		}
121 	}
122 }
123 
124 /*
125  * Check the passed in ip address for correctness (limited) and return its
126  * type.
127  *
128  * an ipv4 looks like this:
129  * "IP.IP.IP.IP.PORT[top byte].PORT[bottom byte]"
130  *
131  * an ipv6 looks like this:
132  * fec0:A02::2:202:4FCD
133  * or
134  * ::10.9.2.1
135  */
136 int
137 rpc_iptype(
138 	char	*ipaddr,
139 	int	*typeval)
140 {
141 	char	*cp;
142 	int	chcnt = 0;
143 	int	coloncnt = 0;
144 	int	dotcnt = 0;
145 	int	numcnt = 0;
146 	int	hexnumcnt = 0;
147 	int	othercnt = 0;
148 
149 	cp = ipaddr;
150 
151 	/* search for the different type of characters in the ip address */
152 	while ((*cp != '\0') && (chcnt < RPC_MAX_IP_LENGTH)) {
153 		switch (*cp) {
154 		case ':':
155 			coloncnt++;
156 			break;
157 		case '.':
158 			dotcnt++;
159 			break;
160 		case '0':
161 		case '1':
162 		case '2':
163 		case '3':
164 		case '4':
165 		case '5':
166 		case '6':
167 		case '7':
168 		case '8':
169 		case '9':
170 			numcnt++;
171 			break;
172 		case 'a':
173 		case 'A':
174 		case 'b':
175 		case 'B':
176 		case 'c':
177 		case 'C':
178 		case 'd':
179 		case 'D':
180 		case 'e':
181 		case 'E':
182 		case 'f':
183 		case 'F':
184 			hexnumcnt++;
185 			break;
186 		default:
187 			othercnt++;
188 			break;
189 		}
190 		chcnt++;
191 		cp++;
192 	}
193 
194 	/* check for bad ip strings */
195 	if ((chcnt == RPC_MAX_IP_LENGTH) || (othercnt))
196 		return (-1);
197 
198 	/* if we have a coloncnt, it can only be an ipv6 address */
199 	if (coloncnt) {
200 		if ((coloncnt < 2) || (coloncnt > 7))
201 			return (-1);
202 
203 		*typeval = AF_INET6;
204 	} else {
205 		/* since there are no colons, make sure it is ipv4 */
206 		if ((hexnumcnt) || (dotcnt != 5))
207 			return (-1);
208 
209 		*typeval = AF_INET;
210 	}
211 	return (0);
212 }
213 
214 /*
215  * Return a port number from a sockaddr_in expressed in universal address
216  * format.  Note that this routine does not work for address families other
217  * than INET.  Eventually, we should replace this routine with one that
218  * contacts the rpcbind running locally.
219  */
220 int
221 rpc_uaddr2port(int af, char *addr)
222 {
223 	int p1;
224 	int p2;
225 	char *next, *p;
226 
227 	if (af == AF_INET) {
228 		/*
229 		 * A struct sockaddr_in expressed in universal address
230 		 * format looks like:
231 		 *
232 		 *	"IP.IP.IP.IP.PORT[top byte].PORT[bottom byte]"
233 		 *
234 		 * Where each component expresses as a character,
235 		 * the corresponding part of the IP address
236 		 * and port number.
237 		 * Thus 127.0.0.1, port 2345 looks like:
238 		 *
239 		 *	49 50 55 46 48 46 48 46 49 46 57 46 52 49
240 		 *	1  2  7  .  0  .  0  .  1  .  9  .  4  1
241 		 *
242 		 * 2345 = 929base16 = 9.32+9 = 9.41
243 		 */
244 		(void) strtoi(addr, &next);
245 		(void) strtoi(next, &next);
246 		(void) strtoi(next, &next);
247 		(void) strtoi(next, &next);
248 		p1 = strtoi(next, &next);
249 		p2 = strtoi(next, &next);
250 
251 	} else if (af == AF_INET6) {
252 		/*
253 		 * An IPv6 address is expressed in following two formats
254 		 * fec0:A02::2:202:4FCD or
255 		 * ::10.9.2.1
256 		 * An universal address will have porthi.portlo appended to
257 		 * v6 address. So always look for the last two dots when
258 		 * extracting port number.
259 		 */
260 		next = addr;
261 		while (next = strchr(next, '.')) {
262 			p = ++next;
263 			next = strchr(next, '.');
264 			next++;
265 		}
266 		p1 = strtoi(p, &p);
267 		p2 = strtoi(p, &p);
268 		RPCLOG(1, "rpc_uaddr2port: IPv6 port %d\n", ((p1 << 8) + p2));
269 	}
270 
271 	return ((p1 << 8) + p2);
272 }
273 
274 /*
275  * Modified strtol(3).  Should we be using mi_strtol() instead?
276  */
277 static int
278 strtoi(char *str, char **ptr)
279 {
280 	int c;
281 	int val;
282 
283 	for (val = 0, c = *str++; c >= '0' && c <= '9'; c = *str++) {
284 		val *= 10;
285 		val += c - '0';
286 	}
287 	*ptr = str;
288 	return (val);
289 }
290 
291 /*
292  * Utilities for manipulating netbuf's.
293  *
294  * Note that loopback addresses are not null-terminated, so these utilities
295  * typically use the strn* string routines.
296  */
297 
298 /*
299  * Utilities to patch a port number (for NC_INET protocols) or a
300  *	port name (for NC_LOOPBACK) into a network address.
301  */
302 
303 
304 /*
305  * PSARC 2003/523 Contract Private Interface
306  * put_inet_port
307  * Changes must be reviewed by Solaris File Sharing
308  * Changes must be communicated to contract-2003-523@sun.com
309  */
310 void
311 put_inet_port(struct netbuf *addr, ushort_t port)
312 {
313 	/*
314 	 * Easy - we always patch an unsigned short on top of an
315 	 * unsigned short.  No changes to addr's len or maxlen are
316 	 * necessary.
317 	 */
318 	((struct sockaddr_in *)(addr->buf))->sin_port = port;
319 }
320 
321 void
322 put_inet6_port(struct netbuf *addr, ushort_t port)
323 {
324 	((struct sockaddr_in6 *)(addr->buf))->sin6_port = port;
325 }
326 
327 void
328 put_loopback_port(struct netbuf *addr, char *port)
329 {
330 	char *dot;
331 	char *newbuf;
332 	int newlen;
333 
334 
335 	/*
336 	 * We must make sure the addr has enough space for us,
337 	 * patch in `port', and then adjust addr's len and maxlen
338 	 * to reflect the change.
339 	 */
340 	if ((dot = strnrchr(addr->buf, '.', addr->len)) == (char *)NULL)
341 		return;
342 
343 	newlen = (int)((dot - addr->buf + 1) + strlen(port));
344 	if (newlen > addr->maxlen) {
345 		newbuf = kmem_zalloc(newlen, KM_SLEEP);
346 		bcopy(addr->buf, newbuf, addr->len);
347 		kmem_free(addr->buf, addr->maxlen);
348 		addr->buf = newbuf;
349 		addr->len = addr->maxlen = newlen;
350 		dot = strnrchr(addr->buf, '.', addr->len);
351 	} else {
352 		addr->len = newlen;
353 	}
354 
355 	(void) strncpy(++dot, port, strlen(port));
356 }
357 
358 /*
359  * Convert a loopback universal address to a loopback transport address.
360  */
361 static void
362 loopb_u2t(const char *ua, struct netbuf *addr)
363 {
364 	size_t stringlen = strlen(ua) + 1;
365 	const char *univp;		/* ptr into universal addr */
366 	char *transp;			/* ptr into transport addr */
367 
368 	/* Make sure the netbuf will be big enough. */
369 	if (addr->maxlen < stringlen) {
370 		grow_netbuf(addr, stringlen);
371 	}
372 
373 	univp = ua;
374 	transp = addr->buf;
375 	while (*univp != NULL) {
376 		if (*univp == '\\' && *(univp+1) == '\\') {
377 			*transp = '\\';
378 			univp += 2;
379 		} else if (*univp == '\\') {
380 			/* octal character */
381 			*transp = (((*(univp+1) - '0') & 3) << 6) +
382 			    (((*(univp+2) - '0') & 7) << 3) +
383 			    ((*(univp+3) - '0') & 7);
384 			univp += 4;
385 		} else {
386 			*transp = *univp;
387 			univp++;
388 		}
389 		transp++;
390 	}
391 
392 	addr->len = (unsigned int)(transp - addr->buf);
393 	ASSERT(addr->len <= addr->maxlen);
394 }
395 
396 /*
397  * Make sure the given netbuf has a maxlen at least as big as the given
398  * length.
399  */
400 static void
401 grow_netbuf(struct netbuf *nb, size_t length)
402 {
403 	char *newbuf;
404 
405 	if (nb->maxlen >= length)
406 		return;
407 
408 	newbuf = kmem_zalloc(length, KM_SLEEP);
409 	bcopy(nb->buf, newbuf, nb->len);
410 	kmem_free(nb->buf, nb->maxlen);
411 	nb->buf = newbuf;
412 	nb->maxlen = (unsigned int)length;
413 }
414 
415 /*
416  * XXX: xdr_pmap is here, because it's the only XDR function
417  * of portmap protocol. If there'll be more portmap functions,
418  * it would be better to put them to a separate file.
419  */
420 bool_t
421 xdr_pmap(XDR *xdrs, PMAP *objp)
422 {
423 	if (!xdr_rpcprog(xdrs, &objp->pm_prog))
424 		return (FALSE);
425 	if (!xdr_rpcvers(xdrs, &objp->pm_vers))
426 		return (FALSE);
427 	if (!xdr_rpcprot(xdrs, &objp->pm_prot))
428 		return (FALSE);
429 	if (!xdr_u_int(xdrs, &objp->pm_port))
430 		return (FALSE);
431 
432 	return (TRUE);
433 }
434 
435 /*
436  * Get remote port via PORTMAP protocol version 2 (works for IPv4 only)
437  * according to RFC 1833, section 3.
438  */
439 static enum clnt_stat
440 portmap_getport(struct knetconfig *config, rpcprog_t prog, rpcvers_t vers,
441     struct netbuf *addr, struct timeval tmo)
442 {
443 	enum clnt_stat status;
444 	CLIENT *client = NULL;
445 	k_sigset_t oldmask;
446 	k_sigset_t newmask;
447 	ushort_t port = 0;
448 	struct pmap parms;
449 
450 	ASSERT(strcmp(config->knc_protofmly, NC_INET) == 0);
451 
452 	bzero(&parms, sizeof (parms));
453 	parms.pm_prog = prog;
454 	parms.pm_vers = vers;
455 	if (strcmp(config->knc_proto, NC_TCP) == 0) {
456 		parms.pm_prot = IPPROTO_TCP;
457 	} else { /*  NC_UDP */
458 		parms.pm_prot = IPPROTO_UDP;
459 	}
460 
461 
462 	/*
463 	 * Mask all signals before doing RPC network operations
464 	 * in the same way rpcbind_getaddr() does (see comments
465 	 * there).
466 	 */
467 	sigfillset(&newmask);
468 	sigreplace(&newmask, &oldmask);
469 
470 	if (clnt_tli_kcreate(config, addr, PMAPPROG,
471 	    PMAPVERS, 0, 0, CRED(), &client)) {
472 		sigreplace(&oldmask, (k_sigset_t *)NULL);
473 		return (RPC_TLIERROR);
474 	}
475 
476 	client->cl_nosignal = 1;
477 	status = CLNT_CALL(client, PMAPPROC_GETPORT,
478 	    xdr_pmap, (char *)&parms,
479 	    xdr_u_short, (char *)&port, tmo);
480 
481 	sigreplace(&oldmask, (k_sigset_t *)NULL);
482 	if (status != RPC_SUCCESS)
483 		goto out;
484 	if (port == 0) {
485 		status = RPC_PROGNOTREGISTERED;
486 		goto out;
487 	}
488 
489 	put_inet_port(addr, ntohs(port));
490 
491 out:
492 	auth_destroy(client->cl_auth);
493 	clnt_destroy(client);
494 
495 	return (status);
496 }
497 
498 /*
499  * Try to get the address for the desired service by using the rpcbind
500  * protocol.  Ignores signals.  If addr is a loopback address, it is
501  * expected to be initialized to "localhost.".
502  * rpcbind_getaddr() is able to work with RPCBIND protocol version 3 and 4
503  * and PORTMAP protocol version 2.
504  * It tries version 4 at first, then version 3 and finally (if both failed)
505  * it tries portmapper protocol version 2.
506  */
507 enum clnt_stat
508 rpcbind_getaddr(struct knetconfig *config, rpcprog_t prog, rpcvers_t vers,
509     struct netbuf *addr)
510 {
511 	char *ua = NULL;
512 	enum clnt_stat status;
513 	RPCB parms;
514 	struct timeval tmo;
515 	k_sigset_t oldmask;
516 	k_sigset_t newmask;
517 	ushort_t port;
518 	int iptype;
519 	rpcvers_t rpcbv;
520 
521 	/*
522 	 * Call rpcbind (local or remote) to get an address we can use
523 	 * in an RPC client handle.
524 	 */
525 	tmo.tv_sec = RPC_PMAP_TIMEOUT;
526 	tmo.tv_usec = 0;
527 	parms.r_prog = prog;
528 	parms.r_vers = vers;
529 	parms.r_addr = parms.r_owner = "";
530 
531 	if (strcmp(config->knc_protofmly, NC_INET) == 0) {
532 		put_inet_port(addr, htons(PMAPPORT));
533 
534 		if (strcmp(config->knc_proto, NC_TCP) == 0)
535 			parms.r_netid = "tcp";
536 		else
537 			parms.r_netid = "udp";
538 
539 	} else if (strcmp(config->knc_protofmly, NC_INET6) == 0) {
540 		if (strcmp(config->knc_proto, NC_TCP) == 0)
541 			parms.r_netid = "tcp6";
542 		else
543 			parms.r_netid = "udp6";
544 		put_inet6_port(addr, htons(PMAPPORT));
545 	} else if (strcmp(config->knc_protofmly, NC_LOOPBACK) == 0) {
546 		ASSERT(strnrchr(addr->buf, '.', addr->len) != NULL);
547 		if (config->knc_semantics == NC_TPI_COTS_ORD)
548 			parms.r_netid = "ticotsord";
549 		else if (config->knc_semantics == NC_TPI_COTS)
550 			parms.r_netid = "ticots";
551 		else
552 			parms.r_netid = "ticlts";
553 
554 		put_loopback_port(addr, "rpc");
555 	} else {
556 		status = RPC_UNKNOWNPROTO;
557 		goto out;
558 	}
559 
560 	/*
561 	 * Try RPCBIND versions 4 and 3 (if 4 fails).
562 	 */
563 	for (rpcbv = RPCBVERS4; rpcbv >= RPCBVERS; rpcbv--) {
564 		CLIENT *client = NULL;
565 
566 		if (ua != NULL) {
567 			xdr_free(xdr_wrapstring, (char *)&ua);
568 			ua = NULL;
569 		}
570 
571 		/*
572 		 * Mask signals for the duration of the handle creation and
573 		 * RPC calls.  This allows relatively normal operation with a
574 		 * signal already posted to our thread (e.g., when we are
575 		 * sending an NLM_CANCEL in response to catching a signal).
576 		 *
577 		 * Any further exit paths from this routine must restore
578 		 * the original signal mask.
579 		 */
580 		sigfillset(&newmask);
581 		sigreplace(&newmask, &oldmask);
582 
583 		if (clnt_tli_kcreate(config, addr, RPCBPROG,
584 		    rpcbv, 0, 0, CRED(), &client)) {
585 			status = RPC_TLIERROR;
586 			sigreplace(&oldmask, (k_sigset_t *)NULL);
587 			continue;
588 		}
589 
590 		client->cl_nosignal = 1;
591 		status = CLNT_CALL(client, RPCBPROC_GETADDR,
592 		    xdr_rpcb, (char *)&parms,
593 		    xdr_wrapstring, (char *)&ua, tmo);
594 
595 		sigreplace(&oldmask, (k_sigset_t *)NULL);
596 		auth_destroy(client->cl_auth);
597 		clnt_destroy(client);
598 
599 		if (status == RPC_SUCCESS) {
600 			if (ua == NULL || *ua == NULL) {
601 				status = RPC_PROGNOTREGISTERED;
602 				continue;
603 			}
604 
605 			break;
606 		}
607 	}
608 	if (status != RPC_SUCCESS)
609 		goto try_portmap;
610 
611 	/*
612 	 * Convert the universal address to the transport address.
613 	 * Theoretically, we should call the local rpcbind to translate
614 	 * from the universal address to the transport address, but it gets
615 	 * complicated (e.g., there's no direct way to tell rpcbind that we
616 	 * want an IP address instead of a loopback address).  Note that
617 	 * the transport address is potentially host-specific, so we can't
618 	 * just ask the remote rpcbind, because it might give us the wrong
619 	 * answer.
620 	 */
621 	if (strcmp(config->knc_protofmly, NC_INET) == 0) {
622 		/* make sure that the ip address is the correct type */
623 		if (rpc_iptype(ua, &iptype) != 0) {
624 			status = RPC_UNKNOWNADDR;
625 			goto try_portmap;
626 		}
627 		port = rpc_uaddr2port(iptype, ua);
628 		put_inet_port(addr, ntohs(port));
629 	} else if (strcmp(config->knc_protofmly, NC_INET6) == 0) {
630 		/* make sure that the ip address is the correct type */
631 		if (rpc_iptype(ua, &iptype) != 0) {
632 			status = RPC_UNKNOWNADDR;
633 			goto try_portmap;
634 		}
635 		port = rpc_uaddr2port(iptype, ua);
636 		put_inet6_port(addr, ntohs(port));
637 	} else if (strcmp(config->knc_protofmly, NC_LOOPBACK) == 0) {
638 		loopb_u2t(ua, addr);
639 	} else {
640 		/* "can't happen" - should have been checked for above */
641 		cmn_err(CE_PANIC, "rpcbind_getaddr: bad protocol family");
642 	}
643 
644 try_portmap:
645 	if (status != RPC_SUCCESS &&
646 	    strcmp(config->knc_protofmly, NC_INET) == 0) {
647 		/*
648 		 * For IPv4 try to get remote port via PORTMAP protocol.
649 		 * NOTE: if we're here, then all attempts to get remote
650 		 * port via RPCBIND protocol failed.
651 		 */
652 
653 		DTRACE_PROBE1(try__portmap, enum clnt_stat, status);
654 		status = portmap_getport(config, prog, vers, addr, tmo);
655 	}
656 
657 out:
658 	if (ua != NULL)
659 		xdr_free(xdr_wrapstring, (char *)&ua);
660 	return (status);
661 }
662 
663 static const char *tpiprims[] = {
664 	"T_CONN_REQ      0        connection request",
665 	"T_CONN_RES      1        connection response",
666 	"T_DISCON_REQ    2        disconnect request",
667 	"T_DATA_REQ      3        data request",
668 	"T_EXDATA_REQ    4        expedited data request",
669 	"T_INFO_REQ      5        information request",
670 	"T_BIND_REQ      6        bind request",
671 	"T_UNBIND_REQ    7        unbind request",
672 	"T_UNITDATA_REQ  8        unitdata request",
673 	"T_OPTMGMT_REQ   9        manage options req",
674 	"T_ORDREL_REQ    10       orderly release req",
675 	"T_CONN_IND      11       connection indication",
676 	"T_CONN_CON      12       connection confirmation",
677 	"T_DISCON_IND    13       disconnect indication",
678 	"T_DATA_IND      14       data indication",
679 	"T_EXDATA_IND    15       expeditied data indication",
680 	"T_INFO_ACK      16       information acknowledgment",
681 	"T_BIND_ACK      17       bind acknowledment",
682 	"T_ERROR_ACK     18       error acknowledgment",
683 	"T_OK_ACK        19       ok acknowledgment",
684 	"T_UNITDATA_IND  20       unitdata indication",
685 	"T_UDERROR_IND   21       unitdata error indication",
686 	"T_OPTMGMT_ACK   22       manage options ack",
687 	"T_ORDREL_IND    23       orderly release ind"
688 };
689 
690 
691 const char *
692 rpc_tpiprim2name(uint_t prim)
693 {
694 	if (prim > (sizeof (tpiprims) / sizeof (tpiprims[0]) - 1))
695 		return ("unknown primitive");
696 
697 	return (tpiprims[prim]);
698 }
699 
700 static const char *tpierrs[] = {
701 	"error zero      0",
702 	"TBADADDR        1        incorrect addr format",
703 	"TBADOPT         2        incorrect option format",
704 	"TACCES          3        incorrect permissions",
705 	"TBADF           4        illegal transport fd",
706 	"TNOADDR         5        couldn't allocate addr",
707 	"TOUTSTATE       6        out of state",
708 	"TBADSEQ         7        bad call sequnce number",
709 	"TSYSERR         8        system error",
710 	"TLOOK           9        event requires attention",
711 	"TBADDATA        10       illegal amount of data",
712 	"TBUFOVFLW       11       buffer not large enough",
713 	"TFLOW           12       flow control",
714 	"TNODATA         13       no data",
715 	"TNODIS          14       discon_ind not found on q",
716 	"TNOUDERR        15       unitdata error not found",
717 	"TBADFLAG        16       bad flags",
718 	"TNOREL          17       no ord rel found on q",
719 	"TNOTSUPPORT     18       primitive not supported",
720 	"TSTATECHNG      19       state is in process of changing"
721 };
722 
723 
724 const char *
725 rpc_tpierr2name(uint_t err)
726 {
727 	if (err > (sizeof (tpierrs) / sizeof (tpierrs[0]) - 1))
728 		return ("unknown error");
729 
730 	return (tpierrs[err]);
731 }
732 
733 /*
734  * derive  the code from user land inet_top6
735  * convert IPv6 binary address into presentation (printable) format
736  */
737 #define	INADDRSZ	4
738 #define	IN6ADDRSZ	16
739 #define	INT16SZ	2
740 const char *
741 kinet_ntop6(src, dst, size)
742 	uchar_t *src;
743 	char *dst;
744 	size_t size;
745 {
746 	/*
747 	 * Note that int32_t and int16_t need only be "at least" large enough
748 	 * to contain a value of the specified size.  On some systems, like
749 	 * Crays, there is no such thing as an integer variable with 16 bits.
750 	 * Keep this in mind if you think this function should have been coded
751 	 * to use pointer overlays.  All the world's not a VAX.
752 	 */
753 	char tmp[sizeof ("ffff:ffff:ffff:ffff:ffff:ffff:255.255.255.255")];
754 	char *tp;
755 	struct { int base, len; } best, cur;
756 	uint_t words[IN6ADDRSZ / INT16SZ];
757 	int i;
758 	size_t len; /* this is used to track the sprintf len */
759 
760 	/*
761 	 * Preprocess:
762 	 * Copy the input (bytewise) array into a wordwise array.
763 	 * Find the longest run of 0x00's in src[] for :: shorthanding.
764 	 */
765 
766 	bzero(words, sizeof (words));
767 	for (i = 0; i < IN6ADDRSZ; i++)
768 		words[i / 2] |= (src[i] << ((1 - (i % 2)) << 3));
769 	best.base = -1;
770 	cur.base = -1;
771 
772 	for (i = 0; i < (IN6ADDRSZ / INT16SZ); i++) {
773 		if (words[i] == 0) {
774 			if (cur.base == -1)
775 				cur.base = i, cur.len = 1;
776 			else
777 				cur.len++;
778 		} else {
779 			if (cur.base != -1) {
780 				if (best.base == -1 || cur.len > best.len)
781 					best = cur;
782 				cur.base = -1;
783 			}
784 		}
785 	}
786 	if (cur.base != -1) {
787 		if (best.base == -1 || cur.len > best.len)
788 			best = cur;
789 	}
790 
791 	if (best.base != -1 && best.len < 2)
792 		best.base = -1;
793 
794 	/*
795 	 * Format the result.
796 	 */
797 	tp = tmp;
798 	for (i = 0; i < (IN6ADDRSZ / INT16SZ); i++) {
799 		/* Are we inside the best run of 0x00's? */
800 		if (best.base != -1 && i >= best.base &&
801 		    i < (best.base + best.len)) {
802 			if (i == best.base)
803 				*tp++ = ':';
804 			continue;
805 		}
806 		/* Are we following an initial run of 0x00s or any real hex? */
807 		if (i != 0)
808 			*tp++ = ':';
809 		(void) sprintf(tp, "%x", words[i]);
810 		len = strlen(tp);
811 		tp += len;
812 	}
813 	/* Was it a trailing run of 0x00's? */
814 	if (best.base != -1 && (best.base + best.len) == (IN6ADDRSZ / INT16SZ))
815 		*tp++ = ':';
816 	*tp++ = '\0';
817 
818 	/*
819 	 * Check for overflow, copy, and we're done.
820 	 */
821 	if ((int)(tp - tmp) > size) {
822 		return (NULL);
823 	}
824 	(void) strcpy(dst, tmp);
825 	return (dst);
826 }
827