xref: /titanic_51/usr/src/cmd/cmd-inet/usr.sbin/ipsecutils/ipseckey.c (revision 46b2e54fef23f79962caefa489542a11b53acd45)
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 (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2010 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 /*
27  * NOTE:I'm trying to use "struct sadb_foo" instead of "sadb_foo_t"
28  *	as a maximal PF_KEY portability test.
29  *
30  *	Also, this is a deliberately single-threaded app, also for portability
31  *	to systems without POSIX threads.
32  */
33 
34 #include <sys/types.h>
35 #include <sys/stat.h>
36 #include <sys/socket.h>
37 #include <sys/sysmacros.h>
38 #include <sys/fcntl.h>
39 #include <net/pfkeyv2.h>
40 #include <arpa/inet.h>
41 #include <netinet/in.h>
42 #include <sys/uio.h>
43 
44 #include <syslog.h>
45 #include <signal.h>
46 #include <unistd.h>
47 #include <limits.h>
48 #include <stdlib.h>
49 #include <stdio.h>
50 #include <stdarg.h>
51 #include <netdb.h>
52 #include <pwd.h>
53 #include <errno.h>
54 #include <libintl.h>
55 #include <locale.h>
56 #include <fcntl.h>
57 #include <strings.h>
58 #include <ctype.h>
59 #include <sys/cladm.h>
60 
61 #include <ipsec_util.h>
62 
63 static int keysock;
64 static int cluster_socket;
65 static uint32_t seq;
66 static pid_t mypid;
67 static boolean_t vflag = B_FALSE;	/* Verbose? */
68 static boolean_t cflag = B_FALSE;	/* Check Only */
69 
70 char *my_fmri = NULL;
71 FILE *debugfile = stdout;
72 static struct sockaddr_in cli_addr;
73 static boolean_t in_cluster_mode = B_FALSE;
74 
75 #define	MAX_GET_SIZE	1024
76 /*
77  * WARN() and ERROR() do the same thing really, with ERROR() the function
78  * that prints the error buffer needs to be called at the end of a code block
79  * This will print out all accumulated errors before bailing. The WARN()
80  * macro calls handle_errors() in such a way that it prints the message
81  * then continues.
82  * If the FATAL() macro used call handle_errors() immediately.
83  */
84 #define	ERROR(x, y, z)  x = record_error(x, y, z)
85 #define	ERROR1(w, x, y, z)  w = record_error(w, x, y, z)
86 #define	ERROR2(v, w, x, y, z)  v = record_error(v, w, x, y, z)
87 #define	WARN(x, y, z) ERROR(x, y, z);\
88 	handle_errors(x, NULL, B_FALSE, B_FALSE); x = NULL
89 #define	WARN1(w, x, y, z) ERROR1(w, x, y, z);\
90 	handle_errors(w, NULL, B_FALSE, B_FALSE); w = NULL
91 #define	WARN2(v, w, x, y, z) ERROR2(v, w, x, y, z);\
92 	handle_errors(v, NULL, B_FALSE, B_FALSE); v = NULL
93 #define	FATAL(x, y, z) ERROR(x, y, z);\
94 	handle_errors(x, y, B_TRUE, B_TRUE)
95 #define	FATAL1(w, x, y, z) ERROR1(w, x, y, z);\
96 	handle_errors(w, x, B_TRUE, B_TRUE)
97 
98 /* Defined as a uint64_t array for alignment purposes. */
99 static uint64_t get_buffer[MAX_GET_SIZE];
100 
101 /*
102  * Disable default TAB completion for now (until some brave soul tackles it).
103  */
104 /* ARGSUSED */
105 static
106 CPL_MATCH_FN(no_match)
107 {
108 	return (0);
109 }
110 
111 /*
112  * Create/Grow a buffer large enough to hold error messages. If *ebuf
113  * is not NULL then it will contain a copy of the command line that
114  * triggered the error/warning, copy this into a new buffer or
115  * append new messages to the existing buffer.
116  */
117 /*PRINTFLIKE1*/
118 char *
119 record_error(char *ep, char *ebuf, char *fmt, ...)
120 {
121 	char *err_ptr;
122 	char tmp_buff[1024];
123 	va_list ap;
124 	int length = 0;
125 	err_ptr = ep;
126 
127 	va_start(ap, fmt);
128 	length = vsnprintf(tmp_buff, sizeof (tmp_buff), fmt, ap);
129 	va_end(ap);
130 
131 	/* There is a new line character */
132 	length++;
133 
134 	if (ep == NULL) {
135 		if (ebuf != NULL)
136 			length += strlen(ebuf);
137 	} else  {
138 		length += strlen(ep);
139 	}
140 
141 	if (err_ptr == NULL)
142 		err_ptr = calloc(length, sizeof (char));
143 	else
144 		err_ptr = realloc(err_ptr, length);
145 
146 	if (err_ptr == NULL)
147 		Bail("realloc() failure");
148 
149 	/*
150 	 * If (ep == NULL) then this is the first error to record,
151 	 * copy in the command line that triggered this error/warning.
152 	 */
153 	if (ep == NULL && ebuf != NULL)
154 		(void) strlcpy(err_ptr, ebuf, length);
155 
156 	/*
157 	 * Now the actual error.
158 	 */
159 	(void) strlcat(err_ptr, tmp_buff, length);
160 	return (err_ptr);
161 }
162 
163 /*
164  * If not in interactive mode print usage message and exit.
165  */
166 static void
167 usage(void)
168 {
169 	if (!interactive) {
170 		(void) fprintf(stderr, gettext("Usage:\t"
171 		    "ipseckey [ -nvp ] | cmd [sa_type] [extfield value]*\n"));
172 		(void) fprintf(stderr,
173 		    gettext("\tipseckey [ -nvp ] -f infile\n"));
174 		(void) fprintf(stderr,
175 		    gettext("\tipseckey [ -nvp ] -s outfile\n"));
176 		EXIT_FATAL(NULL);
177 	} else {
178 		(void) fprintf(stderr,
179 		    gettext("Type help or ? for usage info\n"));
180 	}
181 }
182 
183 
184 /*
185  * Print out any errors, tidy up as required.
186  * error pointer ep will be free()'d
187  */
188 void
189 handle_errors(char *ep, char *ebuf, boolean_t fatal, boolean_t done)
190 {
191 	if (ep != NULL) {
192 		if (my_fmri == NULL) {
193 			/*
194 			 * For now suppress the errors when run from smf(5)
195 			 * because potentially sensitive information could
196 			 * end up in a publicly readable logfile.
197 			 */
198 			(void) fprintf(stdout, "%s\n", ep);
199 			(void) fflush(stdout);
200 		}
201 		free(ep);
202 		if (fatal) {
203 			if (ebuf != NULL) {
204 				free(ebuf);
205 			}
206 			/* reset command buffer */
207 			if (interactive)
208 				longjmp(env, 1);
209 		} else {
210 			return;
211 		}
212 	} else {
213 		/*
214 		 * No errors, if this is the last time that this function
215 		 * is called, free(ebuf) and reset command buffer.
216 		 */
217 		if (done) {
218 			if (ebuf != NULL) {
219 				free(ebuf);
220 			}
221 			/* reset command buffer */
222 			if (interactive)
223 				longjmp(env, 1);
224 		}
225 		return;
226 	}
227 	EXIT_FATAL(NULL);
228 }
229 
230 /*
231  * Initialize a PF_KEY base message.
232  */
233 static void
234 msg_init(struct sadb_msg *msg, uint8_t type, uint8_t satype)
235 {
236 	msg->sadb_msg_version = PF_KEY_V2;
237 	msg->sadb_msg_type = type;
238 	msg->sadb_msg_errno = 0;
239 	msg->sadb_msg_satype = satype;
240 	/* For starters... */
241 	msg->sadb_msg_len = SADB_8TO64(sizeof (*msg));
242 	msg->sadb_msg_reserved = 0;
243 	msg->sadb_msg_seq = ++seq;
244 	msg->sadb_msg_pid = mypid;
245 }
246 
247 /*
248  * parseXXX and rparseXXX commands parse input and convert them to PF_KEY
249  * field values, or do the reverse for the purposes of saving the SA tables.
250  * (See the save_XXX functions.)
251  */
252 
253 #define	CMD_NONE	0
254 #define	CMD_UPDATE	2
255 #define	CMD_UPDATE_PAIR	3
256 #define	CMD_ADD		4
257 #define	CMD_DELETE	5
258 #define	CMD_DELETE_PAIR	6
259 #define	CMD_GET		7
260 #define	CMD_FLUSH	9
261 #define	CMD_DUMP	10
262 #define	CMD_MONITOR	11
263 #define	CMD_PMONITOR	12
264 #define	CMD_QUIT	13
265 #define	CMD_SAVE	14
266 #define	CMD_HELP	15
267 
268 /*
269  * Parse the command.
270  */
271 static int
272 parsecmd(char *cmdstr)
273 {
274 	static struct cmdtable {
275 		char *cmd;
276 		int token;
277 	} table[] = {
278 		/*
279 		 * Q: Do we want to do GETSPI?
280 		 * A: No, it's for automated key mgmt. only.  Either that,
281 		 *    or it isn't relevant until we support non IPsec SA types.
282 		 */
283 		{"update",		CMD_UPDATE},
284 		{"update-pair",		CMD_UPDATE_PAIR},
285 		{"add",			CMD_ADD},
286 		{"delete", 		CMD_DELETE},
287 		{"delete-pair",		CMD_DELETE_PAIR},
288 		{"get", 		CMD_GET},
289 		/*
290 		 * Q: And ACQUIRE and REGISTER and EXPIRE?
291 		 * A: not until we support non IPsec SA types.
292 		 */
293 		{"flush",		CMD_FLUSH},
294 		{"dump",		CMD_DUMP},
295 		{"monitor",		CMD_MONITOR},
296 		{"passive_monitor",	CMD_PMONITOR},
297 		{"pmonitor",		CMD_PMONITOR},
298 		{"quit",		CMD_QUIT},
299 		{"exit",		CMD_QUIT},
300 		{"save",		CMD_SAVE},
301 		{"help",		CMD_HELP},
302 		{"?",			CMD_HELP},
303 		{NULL,			CMD_NONE}
304 	};
305 	struct cmdtable *ct = table;
306 
307 	while (ct->cmd != NULL && strcmp(ct->cmd, cmdstr) != 0)
308 		ct++;
309 	return (ct->token);
310 }
311 
312 /*
313  * Convert a number from a command line.  I picked "u_longlong_t" for the
314  * number because we need the largest number available.  Also, the strto<num>
315  * calls don't deal in units of uintNN_t.
316  */
317 static u_longlong_t
318 parsenum(char *num, boolean_t bail, char *ebuf)
319 {
320 	u_longlong_t rc = 0;
321 	char *end = NULL;
322 	char *ep = NULL;
323 
324 	if (num == NULL) {
325 		FATAL(ep, ebuf, gettext("Unexpected end of command line,"
326 		    " was expecting a number.\n"));
327 		/* NOTREACHED */
328 	}
329 
330 	errno = 0;
331 	rc = strtoull(num, &end, 0);
332 	if (errno != 0 || end == num || *end != '\0') {
333 		if (bail) {
334 			FATAL1(ep, ebuf, gettext(
335 			"Expecting a number, not \"%s\"!\n"), num);
336 		} else {
337 			/*
338 			 * -1, while not optimal, is sufficiently out of range
339 			 * for most of this function's applications when
340 			 * we don't just bail.
341 			 */
342 			return ((u_longlong_t)-1);
343 		}
344 	}
345 	handle_errors(ep, NULL, B_FALSE, B_FALSE);
346 	return (rc);
347 }
348 
349 /*
350  * Parse and reverse parse a specific SA type (AH, ESP, etc.).
351  */
352 static struct typetable {
353 	char *type;
354 	int token;
355 } type_table[] = {
356 	{"all",	SADB_SATYPE_UNSPEC},
357 	{"ah",	SADB_SATYPE_AH},
358 	{"esp",	SADB_SATYPE_ESP},
359 	/* PF_KEY NOTE:  More to come if net/pfkeyv2.h gets updated. */
360 	{NULL,	0}	/* Token value is irrelevant for this entry. */
361 };
362 
363 
364 static int
365 parsesatype(char *type, char *ebuf)
366 {
367 	struct typetable *tt = type_table;
368 	char *ep = NULL;
369 
370 	if (type == NULL)
371 		return (SADB_SATYPE_UNSPEC);
372 
373 	while (tt->type != NULL && strcasecmp(tt->type, type) != 0)
374 		tt++;
375 
376 	/*
377 	 * New SA types (including ones keysock maintains for user-land
378 	 * protocols) may be added, so parse a numeric value if possible.
379 	 */
380 	if (tt->type == NULL) {
381 		tt->token = (int)parsenum(type, B_FALSE, ebuf);
382 		if (tt->token == -1) {
383 			ERROR1(ep, ebuf, gettext(
384 			    "Unknown SA type (%s).\n"), type);
385 			tt->token = SADB_SATYPE_UNSPEC;
386 		}
387 	}
388 	handle_errors(ep, NULL, interactive ? B_TRUE : B_FALSE, B_FALSE);
389 	return (tt->token);
390 }
391 
392 #define	NEXTEOF		0
393 #define	NEXTNONE	1
394 #define	NEXTNUM		2
395 #define	NEXTSTR		3
396 #define	NEXTNUMSTR	4
397 #define	NEXTADDR	5
398 #define	NEXTHEX		6
399 #define	NEXTIDENT	7
400 #define	NEXTADDR4	8
401 #define	NEXTADDR6	9
402 #define	NEXTLABEL	10
403 
404 #define	TOK_EOF			0
405 #define	TOK_UNKNOWN		1
406 #define	TOK_SPI			2
407 #define	TOK_REPLAY		3
408 #define	TOK_STATE		4
409 #define	TOK_AUTHALG		5
410 #define	TOK_ENCRALG		6
411 #define	TOK_FLAGS		7
412 #define	TOK_SOFT_ALLOC		8
413 #define	TOK_SOFT_BYTES		9
414 #define	TOK_SOFT_ADDTIME	10
415 #define	TOK_SOFT_USETIME	11
416 #define	TOK_HARD_ALLOC		12
417 #define	TOK_HARD_BYTES		13
418 #define	TOK_HARD_ADDTIME	14
419 #define	TOK_HARD_USETIME	15
420 #define	TOK_CURRENT_ALLOC	16
421 #define	TOK_CURRENT_BYTES	17
422 #define	TOK_CURRENT_ADDTIME	18
423 #define	TOK_CURRENT_USETIME	19
424 #define	TOK_SRCADDR		20
425 #define	TOK_DSTADDR		21
426 #define	TOK_PROXYADDR		22
427 #define	TOK_AUTHKEY		23
428 #define	TOK_ENCRKEY		24
429 #define	TOK_SRCIDTYPE		25
430 #define	TOK_DSTIDTYPE		26
431 #define	TOK_DPD			27
432 #define	TOK_SENS_LEVEL		28
433 #define	TOK_SENS_MAP		29
434 #define	TOK_INTEG_LEVEL		30
435 #define	TOK_INTEG_MAP		31
436 #define	TOK_SRCADDR6		32
437 #define	TOK_DSTADDR6		33
438 #define	TOK_PROXYADDR6		34
439 #define	TOK_SRCPORT		35
440 #define	TOK_DSTPORT		36
441 #define	TOK_PROTO		37
442 #define	TOK_ENCAP		38
443 #define	TOK_NATLOC		39
444 #define	TOK_NATREM		40
445 #define	TOK_NATLPORT		41
446 #define	TOK_NATRPORT		42
447 #define	TOK_IPROTO		43
448 #define	TOK_IDSTADDR		44
449 #define	TOK_IDSTADDR6		45
450 #define	TOK_ISRCPORT		46
451 #define	TOK_IDSTPORT		47
452 #define	TOK_PAIR_SPI		48
453 #define	TOK_FLAG_INBOUND	49
454 #define	TOK_FLAG_OUTBOUND	50
455 #define	TOK_REPLAY_VALUE	51
456 #define	TOK_IDLE_ADDTIME	52
457 #define	TOK_IDLE_USETIME	53
458 #define	TOK_RESERVED		54
459 #define	TOK_LABEL		55
460 #define	TOK_OLABEL		56
461 #define	TOK_IMPLABEL		57
462 
463 
464 static struct toktable {
465 	char *string;
466 	int token;
467 	int next;
468 } tokens[] = {
469 	/* "String",		token value,		next arg is */
470 	{"spi",			TOK_SPI,		NEXTNUM},
471 	{"pair-spi",		TOK_PAIR_SPI,		NEXTNUM},
472 	{"replay",		TOK_REPLAY,		NEXTNUM},
473 	{"state",		TOK_STATE,		NEXTNUMSTR},
474 	{"auth_alg",		TOK_AUTHALG,		NEXTNUMSTR},
475 	{"authalg",		TOK_AUTHALG,		NEXTNUMSTR},
476 	{"encr_alg",		TOK_ENCRALG,		NEXTNUMSTR},
477 	{"encralg",		TOK_ENCRALG,		NEXTNUMSTR},
478 	{"flags",		TOK_FLAGS,		NEXTNUM},
479 	{"soft_alloc",		TOK_SOFT_ALLOC,		NEXTNUM},
480 	{"soft_bytes",		TOK_SOFT_BYTES,		NEXTNUM},
481 	{"soft_addtime",	TOK_SOFT_ADDTIME,	NEXTNUM},
482 	{"soft_usetime",	TOK_SOFT_USETIME,	NEXTNUM},
483 	{"hard_alloc",		TOK_HARD_ALLOC,		NEXTNUM},
484 	{"hard_bytes",		TOK_HARD_BYTES,		NEXTNUM},
485 	{"hard_addtime",	TOK_HARD_ADDTIME,	NEXTNUM},
486 	{"hard_usetime",	TOK_HARD_USETIME,	NEXTNUM},
487 	{"current_alloc",	TOK_CURRENT_ALLOC,	NEXTNUM},
488 	{"current_bytes",	TOK_CURRENT_BYTES,	NEXTNUM},
489 	{"current_addtime",	TOK_CURRENT_ADDTIME,	NEXTNUM},
490 	{"current_usetime",	TOK_CURRENT_USETIME,	NEXTNUM},
491 
492 	{"saddr",		TOK_SRCADDR,		NEXTADDR},
493 	{"srcaddr",		TOK_SRCADDR,		NEXTADDR},
494 	{"src",			TOK_SRCADDR,		NEXTADDR},
495 	{"daddr",		TOK_DSTADDR,		NEXTADDR},
496 	{"dstaddr",		TOK_DSTADDR,		NEXTADDR},
497 	{"dst",			TOK_DSTADDR,		NEXTADDR},
498 	{"proxyaddr",		TOK_PROXYADDR,		NEXTADDR},
499 	{"proxy",		TOK_PROXYADDR,		NEXTADDR},
500 	{"innersrc",		TOK_PROXYADDR,		NEXTADDR},
501 	{"isrc",		TOK_PROXYADDR,		NEXTADDR},
502 	{"innerdst",		TOK_IDSTADDR,		NEXTADDR},
503 	{"idst",		TOK_IDSTADDR,		NEXTADDR},
504 
505 	{"sport",		TOK_SRCPORT,		NEXTNUM},
506 	{"dport",		TOK_DSTPORT,		NEXTNUM},
507 	{"innersport",		TOK_ISRCPORT,		NEXTNUM},
508 	{"isport",		TOK_ISRCPORT,		NEXTNUM},
509 	{"innerdport",		TOK_IDSTPORT,		NEXTNUM},
510 	{"idport",		TOK_IDSTPORT,		NEXTNUM},
511 	{"proto",		TOK_PROTO,		NEXTNUM},
512 	{"ulp",			TOK_PROTO,		NEXTNUM},
513 	{"iproto",		TOK_IPROTO,		NEXTNUM},
514 	{"iulp",		TOK_IPROTO,		NEXTNUM},
515 
516 	{"saddr6",		TOK_SRCADDR6,		NEXTADDR},
517 	{"srcaddr6",		TOK_SRCADDR6,		NEXTADDR},
518 	{"src6",		TOK_SRCADDR6,		NEXTADDR},
519 	{"daddr6",		TOK_DSTADDR6,		NEXTADDR},
520 	{"dstaddr6",		TOK_DSTADDR6,		NEXTADDR},
521 	{"dst6",		TOK_DSTADDR6,		NEXTADDR},
522 	{"proxyaddr6",		TOK_PROXYADDR6,		NEXTADDR},
523 	{"proxy6",		TOK_PROXYADDR6,		NEXTADDR},
524 	{"innersrc6",		TOK_PROXYADDR6,		NEXTADDR},
525 	{"isrc6",		TOK_PROXYADDR6,		NEXTADDR},
526 	{"innerdst6",		TOK_IDSTADDR6,		NEXTADDR},
527 	{"idst6",		TOK_IDSTADDR6,		NEXTADDR},
528 
529 	{"authkey",		TOK_AUTHKEY,		NEXTHEX},
530 	{"encrkey",		TOK_ENCRKEY,		NEXTHEX},
531 	{"srcidtype",		TOK_SRCIDTYPE,		NEXTIDENT},
532 	{"dstidtype",		TOK_DSTIDTYPE,		NEXTIDENT},
533 	{"dpd",			TOK_DPD,		NEXTNUM},
534 	{"sens_level",		TOK_SENS_LEVEL,		NEXTNUM},
535 	{"sens_map",		TOK_SENS_MAP,		NEXTHEX},
536 	{"integ_level",		TOK_INTEG_LEVEL,	NEXTNUM},
537 	{"integ_map",		TOK_INTEG_MAP,		NEXTHEX},
538 	{"nat_loc",		TOK_NATLOC,		NEXTADDR},
539 	{"nat_rem",		TOK_NATREM,		NEXTADDR},
540 	{"nat_lport",		TOK_NATLPORT,		NEXTNUM},
541 	{"nat_rport",		TOK_NATRPORT,		NEXTNUM},
542 	{"encap",		TOK_ENCAP,		NEXTNUMSTR},
543 
544 	{"outbound",		TOK_FLAG_OUTBOUND,	NULL},
545 	{"inbound",		TOK_FLAG_INBOUND,	NULL},
546 
547 	{"reserved_bits",	TOK_RESERVED,		NEXTNUM},
548 	{"replay_value",	TOK_REPLAY_VALUE,	NEXTNUM},
549 	{"idle_addtime",	TOK_IDLE_ADDTIME,	NEXTNUM},
550 	{"idle_usetime",	TOK_IDLE_USETIME,	NEXTNUM},
551 
552 	{"label",		TOK_LABEL,		NEXTLABEL},
553 	{"outer-label",		TOK_OLABEL,		NEXTLABEL},
554 	{"implicit-label",	TOK_IMPLABEL,		NEXTLABEL},
555 
556 	{NULL,			TOK_UNKNOWN,		NEXTEOF}
557 };
558 
559 /*
560  * Q:	Do I need stuff for proposals, combinations, supported algorithms,
561  *	or SPI ranges?
562  *
563  * A:	Probably not, but you never know.
564  *
565  * Parse out extension header type values.
566  */
567 static int
568 parseextval(char *value, int *next)
569 {
570 	struct toktable *tp;
571 
572 	if (value == NULL)
573 		return (TOK_EOF);
574 
575 	for (tp = tokens; tp->string != NULL; tp++)
576 		if (strcmp(value, tp->string) == 0)
577 			break;
578 
579 	/*
580 	 * Since the OS controls what extensions are available, we don't have
581 	 * to parse numeric values here.
582 	 */
583 
584 	*next = tp->next;
585 	return (tp->token);
586 }
587 
588 /*
589  * Parse possible state values.
590  */
591 static uint8_t
592 parsestate(char *state, char *ebuf)
593 {
594 	struct states {
595 		char *state;
596 		uint8_t retval;
597 	} states[] = {
598 		{"larval",	SADB_SASTATE_LARVAL},
599 		{"mature",	SADB_SASTATE_MATURE},
600 		{"dying",	SADB_SASTATE_DYING},
601 		{"dead",	SADB_SASTATE_DEAD},
602 		{NULL,		0}
603 	};
604 	struct states *sp;
605 	char *ep = NULL;
606 
607 	if (state == NULL) {
608 		FATAL(ep, ebuf, "Unexpected end of command line "
609 		    "was expecting a state.\n");
610 	}
611 
612 	for (sp = states; sp->state != NULL; sp++) {
613 		if (strcmp(sp->state, state) == 0)
614 			return (sp->retval);
615 	}
616 	ERROR1(ep, ebuf, gettext("Unknown state type \"%s\"\n"), state);
617 	handle_errors(ep, NULL, B_FALSE, B_FALSE);
618 	return (0);
619 }
620 
621 /*
622  * Return the numerical algorithm identifier corresponding to the specified
623  * algorithm name.
624  */
625 static uint8_t
626 parsealg(char *alg, int proto_num, char *ebuf)
627 {
628 	u_longlong_t invalue;
629 	struct ipsecalgent *algent;
630 	char *ep = NULL;
631 
632 	if (alg == NULL) {
633 		FATAL(ep, ebuf, gettext("Unexpected end of command line, "
634 		    "was expecting an algorithm name.\n"));
635 	}
636 
637 	algent = getipsecalgbyname(alg, proto_num, NULL);
638 	if (algent != NULL) {
639 		uint8_t alg_num;
640 
641 		alg_num = algent->a_alg_num;
642 		if (ALG_FLAG_COUNTERMODE & algent->a_alg_flags)
643 			WARN1(ep, ebuf, gettext(
644 			    "Using manual keying with a Counter mode algorithm "
645 			    "such as \"%s\" may be insecure!\n"),
646 			    algent->a_names[0]);
647 		freeipsecalgent(algent);
648 
649 		return (alg_num);
650 	}
651 
652 	/*
653 	 * Since algorithms can be loaded during kernel run-time, check for
654 	 * numeric algorithm values too.  PF_KEY can catch bad ones with EINVAL.
655 	 */
656 	invalue = parsenum(alg, B_FALSE, ebuf);
657 	if (invalue != (u_longlong_t)-1 &&
658 	    (u_longlong_t)(invalue & (u_longlong_t)0xff) == invalue)
659 		return ((uint8_t)invalue);
660 
661 	if (proto_num == IPSEC_PROTO_ESP) {
662 		ERROR1(ep, ebuf, gettext(
663 		    "Unknown encryption algorithm type \"%s\"\n"), alg);
664 	} else {
665 		ERROR1(ep, ebuf, gettext(
666 		    "Unknown authentication algorithm type \"%s\"\n"), alg);
667 	}
668 	handle_errors(ep, NULL, B_FALSE, B_FALSE);
669 	return (0);
670 }
671 
672 /*
673  * Parse and reverse parse out a source/destination ID type.
674  */
675 static struct idtypes {
676 	char *idtype;
677 	uint8_t retval;
678 } idtypes[] = {
679 	{"prefix",	SADB_IDENTTYPE_PREFIX},
680 	{"fqdn",	SADB_IDENTTYPE_FQDN},
681 	{"domain",	SADB_IDENTTYPE_FQDN},
682 	{"domainname",	SADB_IDENTTYPE_FQDN},
683 	{"user_fqdn",	SADB_IDENTTYPE_USER_FQDN},
684 	{"mailbox",	SADB_IDENTTYPE_USER_FQDN},
685 	{"der_dn",	SADB_X_IDENTTYPE_DN},
686 	{"der_gn",	SADB_X_IDENTTYPE_GN},
687 	{NULL,		0}
688 };
689 
690 static uint16_t
691 parseidtype(char *type, char *ebuf)
692 {
693 	struct idtypes *idp;
694 	u_longlong_t invalue;
695 	char *ep = NULL;
696 
697 	if (type == NULL) {
698 		/* Shouldn't reach here, see callers for why. */
699 		FATAL(ep, ebuf, gettext("Unexpected end of command line, "
700 		    "was expecting a type.\n"));
701 	}
702 
703 	for (idp = idtypes; idp->idtype != NULL; idp++) {
704 		if (strcasecmp(idp->idtype, type) == 0)
705 			return (idp->retval);
706 	}
707 	/*
708 	 * Since identity types are almost arbitrary, check for numeric
709 	 * algorithm values too.  PF_KEY can catch bad ones with EINVAL.
710 	 */
711 	invalue = parsenum(type, B_FALSE, ebuf);
712 	if (invalue != (u_longlong_t)-1 &&
713 	    (u_longlong_t)(invalue & (u_longlong_t)0xffff) == invalue)
714 		return ((uint16_t)invalue);
715 
716 
717 	ERROR1(ep, ebuf, gettext("Unknown identity type \"%s\"\n"), type);
718 
719 	handle_errors(ep, NULL, B_FALSE, B_FALSE);
720 	return (0);
721 }
722 
723 /*
724  * Parse an address off the command line.  Return length of sockaddr,
725  * and either return a hostent pointer (caller frees).  The new
726  * getipnodebyname() call does the Right Thing (TM), even with
727  * raw addresses (colon-separated IPv6 or dotted decimal IPv4).
728  */
729 
730 static struct {
731 	struct hostent he;
732 	char *addtl[2];
733 	} dummy;
734 static union {
735 	struct in6_addr ipv6;
736 	struct in_addr ipv4;
737 	uint64_t aligner;
738 } addr1;
739 
740 static int
741 parseaddr(char *addr, struct hostent **hpp, boolean_t v6only, char *ebuf)
742 {
743 	int hp_errno;
744 	struct hostent *hp = NULL;
745 	char *ep = NULL;
746 
747 	if (addr == NULL) {
748 		FATAL(ep, ebuf, gettext("Unexpected end of command line, "
749 		    "was expecting an address.\n"));
750 	}
751 
752 	if (!nflag) {
753 		/*
754 		 * Try name->address first.  Assume AF_INET6, and
755 		 * get IPv4's, plus IPv6's if and only if IPv6 is configured.
756 		 * This means to add IPv6 SAs, you must have IPv6
757 		 * up-and-running.  (AI_DEFAULT works here.)
758 		 */
759 		hp = getipnodebyname(addr, AF_INET6,
760 		    (v6only ? AI_ADDRCONFIG : (AI_DEFAULT | AI_ALL)),
761 		    &hp_errno);
762 	} else {
763 		/*
764 		 * Try a normal address conversion only.  Use "dummy"
765 		 * to construct a fake hostent.  Caller will know not
766 		 * to free this one.
767 		 */
768 		if (inet_pton(AF_INET6, addr, &addr1) == 1) {
769 			dummy.he.h_addr_list = dummy.addtl;
770 			dummy.addtl[0] = (char *)&addr1;
771 			dummy.addtl[1] = NULL;
772 			hp = &dummy.he;
773 			dummy.he.h_addrtype = AF_INET6;
774 			dummy.he.h_length = sizeof (struct in6_addr);
775 		} else if (inet_pton(AF_INET, addr, &addr1) == 1) {
776 			/*
777 			 * Remap to AF_INET6 anyway.
778 			 */
779 			dummy.he.h_addr_list = dummy.addtl;
780 			dummy.addtl[0] = (char *)&addr1;
781 			dummy.addtl[1] = NULL;
782 			hp = &dummy.he;
783 			dummy.he.h_addrtype = AF_INET6;
784 			dummy.he.h_length = sizeof (struct in6_addr);
785 			/*
786 			 * NOTE:  If macro changes to disallow in-place
787 			 * conversion, rewhack this.
788 			 */
789 			IN6_INADDR_TO_V4MAPPED(&addr1.ipv4, &addr1.ipv6);
790 		} else {
791 			hp = NULL;
792 		}
793 	}
794 
795 	if (hp == NULL)
796 		WARN1(ep, ebuf, gettext("Unknown address %s."), addr);
797 
798 	*hpp = hp;
799 	/* Always return sockaddr_in6 for now. */
800 	handle_errors(ep, NULL, B_FALSE, B_FALSE);
801 	return (sizeof (struct sockaddr_in6));
802 }
803 
804 /*
805  * Parse a hex character for a key.  A string will take the form:
806  *	xxxxxxxxx/nn
807  * where
808  *	xxxxxxxxx == a string of hex characters ([0-9][a-f][A-F])
809  *	nn == an optional decimal "mask".  If it is not present, it
810  *	is assumed that the hex string will be rounded to the nearest
811  *	byte, where odd nibbles, like 123 will become 0x0123.
812  *
813  * NOTE:Unlike the expression of IP addresses, I will not allow an
814  *	excessive "mask".  For example 2112/50 is very illegal.
815  * NOTE2:	This key should be in canonical order.  Consult your man
816  *		pages per algorithm about said order.
817  */
818 
819 #define	hd2num(hd) (((hd) >= '0' && (hd) <= '9') ? ((hd) - '0') : \
820 	(((hd) >= 'a' && (hd) <= 'f') ? ((hd) - 'a' + 10) : ((hd) - 'A' + 10)))
821 
822 static struct sadb_key *
823 parsekey(char *input, char *ebuf, uint_t reserved_bits)
824 {
825 	struct sadb_key *retval;
826 	uint_t i, hexlen = 0, bits, alloclen;
827 	uint8_t *key;
828 	char *ep = NULL;
829 
830 	if (input == NULL) {
831 		FATAL(ep, ebuf, gettext("Unexpected end of command line, "
832 		    "was expecting a key.\n"));
833 	}
834 	/* Allow hex values prepended with 0x convention */
835 	if ((strnlen(input, sizeof (hexlen)) > 2) &&
836 	    (strncasecmp(input, "0x", 2) == 0))
837 		input += 2;
838 
839 	for (i = 0; input[i] != '\0' && input[i] != '/'; i++)
840 		hexlen++;
841 
842 	if (input[i] == '\0') {
843 		bits = 0;
844 	} else {
845 		/* Have /nn. */
846 		input[i] = '\0';
847 		if (sscanf((input + i + 1), "%u", &bits) != 1) {
848 			FATAL1(ep, ebuf, gettext(
849 			    "\"%s\" is not a bit specifier.\n"),
850 			    (input + i + 1));
851 		}
852 		/* hexlen in nibbles */
853 		if (((bits + 3) >> 2) > hexlen) {
854 			ERROR2(ep, ebuf, gettext(
855 			    "bit length %d is too big for %s.\n"), bits, input);
856 		}
857 		/*
858 		 * Adjust hexlen down if user gave us too small of a bit
859 		 * count.
860 		 */
861 		if ((hexlen << 2) > bits + 3) {
862 			WARN2(ep, ebuf, gettext(
863 			    "WARNING: Lower bits will be truncated "
864 			    "for:\n\t%s/%d.\n"), input, bits);
865 			hexlen = (bits + 3) >> 2;
866 			input[hexlen] = '\0';
867 		}
868 	}
869 
870 	/*
871 	 * Allocate.  Remember, hexlen is in nibbles.
872 	 */
873 
874 	alloclen = sizeof (*retval) + roundup((hexlen/2 + (hexlen & 0x1)), 8);
875 	retval = malloc(alloclen);
876 
877 	if (retval == NULL)
878 		Bail("malloc(parsekey)");
879 	retval->sadb_key_len = SADB_8TO64(alloclen);
880 
881 	retval->sadb_key_reserved = reserved_bits;
882 
883 	if (bits == 0)
884 		retval->sadb_key_bits = (hexlen + (hexlen & 0x1)) << 2;
885 	else
886 		retval->sadb_key_bits = bits;
887 
888 	/*
889 	 * Read in nibbles.  Read in odd-numbered as shifted high.
890 	 * (e.g. 123 becomes 0x1230).
891 	 */
892 
893 	key = (uint8_t *)(retval + 1);
894 	for (i = 0; input[i] != '\0'; i += 2) {
895 		boolean_t second = (input[i + 1] != '\0');
896 
897 		if (!isxdigit(input[i]) ||
898 		    (!isxdigit(input[i + 1]) && second)) {
899 			ERROR1(ep, ebuf, gettext(
900 			    "string '%s' not a hex value.\n"), input);
901 			free(retval);
902 			retval = NULL;
903 			break;
904 		}
905 		*key = (hd2num(input[i]) << 4);
906 		if (second)
907 			*key |= hd2num(input[i + 1]);
908 		else
909 			break;	/* out of for loop. */
910 		key++;
911 	}
912 
913 	/* bzero the remaining bits if we're a non-octet amount. */
914 	if (bits & 0x7)
915 		*((input[i] == '\0') ? key - 1 : key) &=
916 		    0xff << (8 - (bits & 0x7));
917 
918 	handle_errors(ep, NULL, B_FALSE, B_FALSE);
919 	return (retval);
920 }
921 
922 #include <tsol/label.h>
923 
924 #define	PARSELABEL_BAD_TOKEN ((struct sadb_sens *)-1)
925 
926 static struct sadb_sens *
927 parselabel(int token, char *label)
928 {
929 	bslabel_t *sl = NULL;
930 	int err, len;
931 	sadb_sens_t *sens;
932 	int doi = 1;  /* XXX XXX DEFAULT_DOI XXX XXX */
933 
934 	err = str_to_label(label, &sl, MAC_LABEL, L_DEFAULT, NULL);
935 	if (err < 0)
936 		return (NULL);
937 
938 	len = ipsec_convert_sl_to_sens(doi, sl, NULL);
939 
940 	sens = malloc(len);
941 	if (sens == NULL) {
942 		Bail("malloc parsed label");
943 		/* Should exit before reaching here... */
944 		return (NULL);
945 	}
946 
947 	(void) ipsec_convert_sl_to_sens(doi, sl, sens);
948 
949 	switch (token) {
950 	case TOK_LABEL:
951 		break;
952 
953 	case TOK_OLABEL:
954 		sens->sadb_sens_exttype = SADB_X_EXT_OUTER_SENS;
955 		break;
956 
957 	case TOK_IMPLABEL:
958 		sens->sadb_sens_exttype = SADB_X_EXT_OUTER_SENS;
959 		sens->sadb_x_sens_flags = SADB_X_SENS_IMPLICIT;
960 		break;
961 
962 	default:
963 		free(sens);
964 		/*
965 		 * Return a different return code for a bad label, but really,
966 		 * this would be a caller error.
967 		 */
968 		return (PARSELABEL_BAD_TOKEN);
969 	}
970 
971 	return (sens);
972 }
973 
974 /*
975  * Write a message to the PF_KEY socket.  If verbose, print the message
976  * heading into the kernel.
977  */
978 static int
979 key_write(int fd, void *msg, size_t len)
980 {
981 	if (vflag) {
982 		(void) printf(
983 		    gettext("VERBOSE ON:  Message to kernel looks like:\n"));
984 		(void) printf("==========================================\n");
985 		print_samsg(stdout, msg, B_FALSE, vflag, nflag);
986 		(void) printf("==========================================\n");
987 	}
988 
989 	return (write(fd, msg, len));
990 }
991 
992 /*
993  * SIGALRM handler for time_critical_enter.
994  */
995 static void
996 time_critical_catch(int signal)
997 {
998 	if (signal == SIGALRM) {
999 		errx(1, gettext("Reply message from PF_KEY timed out."));
1000 	} else {
1001 		errx(1, gettext("Caught signal %d while trying to receive"
1002 		    "PF_KEY reply message"), signal);
1003 	}
1004 	/* errx() calls exit. */
1005 }
1006 
1007 #define	TIME_CRITICAL_TIME 10	/* In seconds */
1008 
1009 /*
1010  * Enter a "time critical" section where key is waiting for a return message.
1011  */
1012 static void
1013 time_critical_enter(void)
1014 {
1015 	(void) signal(SIGALRM, time_critical_catch);
1016 	(void) alarm(TIME_CRITICAL_TIME);
1017 }
1018 
1019 /*
1020  * Exit the "time critical" section after getting an appropriate return
1021  * message.
1022  */
1023 static void
1024 time_critical_exit(void)
1025 {
1026 	(void) alarm(0);
1027 	(void) signal(SIGALRM, SIG_DFL);
1028 }
1029 
1030 /*
1031  * Construct a PF_KEY FLUSH message for the SA type specified.
1032  */
1033 static void
1034 doflush(int satype)
1035 {
1036 	struct sadb_msg msg;
1037 	int rc;
1038 
1039 	msg_init(&msg, SADB_FLUSH, (uint8_t)satype);
1040 	rc = key_write(keysock, &msg, sizeof (msg));
1041 	if (rc == -1)
1042 		Bail("write() to PF_KEY socket failed (in doflush)");
1043 
1044 	time_critical_enter();
1045 	do {
1046 		rc = read(keysock, &msg, sizeof (msg));
1047 		if (rc == -1)
1048 			Bail("read (in doflush)");
1049 	} while (msg.sadb_msg_seq != seq || msg.sadb_msg_pid != mypid);
1050 	time_critical_exit();
1051 
1052 	/*
1053 	 * I should _never_ hit the following unless:
1054 	 *
1055 	 * 1. There is a kernel bug.
1056 	 * 2. There is another process filling in its pid with mine, and
1057 	 *    issuing a different message that would cause a different result.
1058 	 */
1059 	if (msg.sadb_msg_type != SADB_FLUSH ||
1060 	    msg.sadb_msg_satype != (uint8_t)satype) {
1061 		syslog((LOG_NOTICE|LOG_AUTH),
1062 		    gettext("doflush: Return message not of type SADB_FLUSH!"));
1063 		Bail("doflush: Return message not of type SADB_FLUSH!");
1064 	}
1065 
1066 	if (msg.sadb_msg_errno != 0) {
1067 		errno = msg.sadb_msg_errno;
1068 		if (errno == EINVAL) {
1069 			print_diagnostic(stderr, msg.sadb_x_msg_diagnostic);
1070 			warnx(gettext("Cannot flush SA type %d."), satype);
1071 		}
1072 		Bail("return message (in doflush)");
1073 	}
1074 }
1075 
1076 /*
1077  * save_XXX functions are used when "saving" the SA tables to either a
1078  * file or standard output.  They use the dump_XXX functions where needed,
1079  * but mostly they use the rparseXXX functions.
1080  */
1081 
1082 /*
1083  * Because "save" and "dump" both use the SADB_DUMP message, fold both
1084  * into the same function.
1085  */
1086 static void
1087 dodump(int satype, FILE *ofile)
1088 {
1089 	struct sadb_msg *msg = (struct sadb_msg *)get_buffer;
1090 	int rc;
1091 
1092 	if (ofile != NULL) {
1093 		(void) fprintf(ofile,
1094 		    gettext("# This key file was generated by the"));
1095 		(void) fprintf(ofile,
1096 		    gettext(" ipseckey(1m) command's 'save' feature.\n\n"));
1097 	}
1098 	msg_init(msg, SADB_DUMP, (uint8_t)satype);
1099 	rc = key_write(keysock, msg, sizeof (*msg));
1100 	if (rc == -1)
1101 		Bail("write to PF_KEY socket failed (in dodump)");
1102 
1103 	do {
1104 		/*
1105 		 * For DUMP, do only the read as a time critical section.
1106 		 */
1107 		time_critical_enter();
1108 		rc = read(keysock, get_buffer, sizeof (get_buffer));
1109 		time_critical_exit();
1110 		if (rc == -1)
1111 			Bail("read (in dodump)");
1112 		if (msg->sadb_msg_pid == mypid &&
1113 		    msg->sadb_msg_type == SADB_DUMP &&
1114 		    msg->sadb_msg_seq != 0 &&
1115 		    msg->sadb_msg_errno == 0) {
1116 			if (ofile == NULL) {
1117 				print_samsg(stdout, get_buffer, B_FALSE, vflag,
1118 				    nflag);
1119 				(void) putchar('\n');
1120 			} else {
1121 				save_assoc(get_buffer, ofile);
1122 			}
1123 		}
1124 	} while (msg->sadb_msg_pid != mypid ||
1125 	    (msg->sadb_msg_errno == 0 && msg->sadb_msg_seq != 0));
1126 
1127 	if (ofile != NULL && ofile != stdout)
1128 		(void) fclose(ofile);
1129 
1130 	if (msg->sadb_msg_errno == 0) {
1131 		if (ofile == NULL)
1132 			(void) printf(
1133 			    gettext("Dump succeeded for SA type %d.\n"),
1134 			    satype);
1135 	} else {
1136 		print_diagnostic(stderr, msg->sadb_x_msg_diagnostic);
1137 		errno = msg->sadb_msg_errno;
1138 		Bail("Dump failed");
1139 	}
1140 }
1141 
1142 #define	SCOPE_UNSPEC 0
1143 #define	SCOPE_LINKLOCAL 1
1144 #define	SCOPE_SITELOCAL 2
1145 #define	SCOPE_GLOBAL 3
1146 #define	SCOPE_V4COMPAT 4
1147 #define	SCOPE_LOOPBACK 5	/* Pedantic, yes, but necessary. */
1148 
1149 static int
1150 ipv6_addr_scope(struct in6_addr *addr)
1151 {
1152 	/* Don't return anything regarding multicast for now... */
1153 
1154 	if (IN6_IS_ADDR_UNSPECIFIED(addr))
1155 		return (SCOPE_UNSPEC);
1156 
1157 	if (IN6_IS_ADDR_LINKLOCAL(addr))
1158 		return (SCOPE_LINKLOCAL);
1159 
1160 	if (IN6_IS_ADDR_SITELOCAL(addr))
1161 		return (SCOPE_SITELOCAL);
1162 
1163 	if (IN6_IS_ADDR_V4COMPAT(addr))
1164 		return (SCOPE_V4COMPAT);
1165 
1166 	if (IN6_IS_ADDR_LOOPBACK(addr))
1167 		return (SCOPE_LOOPBACK);
1168 
1169 	/* For now, return global by default. */
1170 	return (SCOPE_GLOBAL);
1171 }
1172 
1173 /*
1174  * doaddresses():
1175  *
1176  * Used by doaddup() and dodelget() to create new SA's based on the
1177  * provided source and destination addresses hostent.
1178  *
1179  * sadb_msg_type: expected PF_KEY reply message type
1180  * sadb_msg_satype: expected PF_KEY reply satype
1181  * cmd: user command
1182  * srchp: hostent for the source address(es)
1183  * dsthp: hostent for the destination address(es)
1184  * src: points to the SADB source address extension
1185  * dst: points to the SADB destination address extension
1186  * unspec_src: indicates an unspecified source address.
1187  * buffer: pointer to the SADB buffer to use with PF_KEY
1188  * buffer_size: size of buffer
1189  * spi: spi for this message (set by caller)
1190  * srcport: source port if specified
1191  * dstport: destination port if specified
1192  * proto: IP protocol number if specified
1193  * iproto: Inner (tunnel mode) IP protocol number if specified
1194  * NATT note: we are going to assume a semi-sane world where NAT
1195  * boxen don't explode to multiple addresses.
1196  */
1197 static void
1198 doaddresses(uint8_t sadb_msg_type, uint8_t sadb_msg_satype, int cmd,
1199     struct hostent *srchp, struct hostent *dsthp,
1200     struct sadb_address *src, struct sadb_address *dst,
1201     boolean_t unspec_src, uint64_t *buffer, int buffer_size, uint32_t spi,
1202     char *ebuf)
1203 {
1204 	boolean_t single_dst;
1205 	struct sockaddr_in6 *sin6;
1206 	struct sadb_msg *msgp;
1207 	int i, rc;
1208 	char **walker;	/* For the SRC and PROXY walking functions. */
1209 	char *first_match;
1210 	uint64_t savebuf[MAX_GET_SIZE];
1211 	uint16_t srcport = 0, dstport = 0;
1212 	char *ep = NULL;
1213 
1214 	/*
1215 	 * Okay, now we have "src", "dst", and maybe "proxy" reassigned
1216 	 * to point into the buffer to be written to PF_KEY, we can do
1217 	 * potentially several writes based on destination address.
1218 	 *
1219 	 * First, obtain port numbers from passed-in extensions.
1220 	 */
1221 
1222 	if (src != NULL) {
1223 		sin6 = (struct sockaddr_in6 *)(src + 1);
1224 		srcport = ntohs(sin6->sin6_port);
1225 	}
1226 	if (dst != NULL) {
1227 		sin6 = (struct sockaddr_in6 *)(dst + 1);
1228 		dstport = ntohs(sin6->sin6_port);
1229 	}
1230 
1231 	/*
1232 	 * The rules for ADD, GET, and UPDATE: (NOTE:  This assumes IPsec.
1233 	 * If other consumers of PF_KEY happen, this will have to be
1234 	 * rewhacked.):
1235 	 *
1236 	 *	Do a message for every possible DST address.
1237 	 *
1238 	 *	If a source or proxy address explodes, keep unspecified
1239 	 *	(and mention unspecified).
1240 	 *
1241 	 * If dsthp is == dummy.he, then go through the loop once.
1242 	 * If any other hp is == dummy.he, then you don't have to apply any
1243 	 * silly rules.
1244 	 *
1245 	 * DELETE is different, because you can leave either "src" or "dst"
1246 	 * blank!  You need to explode if one of them is full, and not assume
1247 	 * that the other is set.
1248 	 */
1249 
1250 	if (dsthp == NULL) {
1251 		/*
1252 		 * No destination address specified.
1253 		 * With extended diagnostics, we don't have to bail the
1254 		 * non-DELETE cases here.  The EINVAL diagnostics will be
1255 		 * enough to inform the user(s) what happened.
1256 		 */
1257 		i = 0;
1258 		do {
1259 			if (srchp == &dummy.he) {
1260 				/* Just to be sure... */
1261 				srchp->h_addr_list[1] = NULL;
1262 			} else if (srchp != NULL) {
1263 				/* Degenerate case, h_addr_list[0] == NULL. */
1264 				if (srchp->h_addr_list[i] == NULL)
1265 					Bail("Empty source address list");
1266 
1267 				/*
1268 				 * Fill in the src sockaddr.
1269 				 */
1270 				sin6 = (struct sockaddr_in6 *)(src + 1);
1271 				bzero(sin6, sizeof (*sin6));
1272 				bcopy(srchp->h_addr_list[i], &sin6->sin6_addr,
1273 				    sizeof (struct in6_addr));
1274 				sin6->sin6_family = AF_INET6;
1275 				sin6->sin6_port = htons(srcport);
1276 			}
1277 
1278 			/* Save off a copy for later writing... */
1279 			msgp = (struct sadb_msg *)buffer;
1280 			bcopy(buffer, savebuf, SADB_64TO8(msgp->sadb_msg_len));
1281 
1282 			rc = key_write(keysock, buffer,
1283 			    SADB_64TO8(msgp->sadb_msg_len));
1284 			if (rc == -1)
1285 				Bail("write() to PF_KEY socket "
1286 				    "(in doaddresses)");
1287 			/*
1288 			 * Sends the message to the Solaris Cluster daemon
1289 			 */
1290 
1291 			if (in_cluster_mode) {
1292 				(void) sendto(cluster_socket, buffer,
1293 				    SADB_64TO8(msgp->sadb_msg_len), 0,
1294 				    (struct sockaddr *)&cli_addr,
1295 				    sizeof (cli_addr));
1296 			}
1297 
1298 			time_critical_enter();
1299 			do {
1300 				rc = read(keysock, buffer, buffer_size);
1301 				if (rc == -1)
1302 					Bail("read (in doaddresses)");
1303 			} while (msgp->sadb_msg_seq != seq ||
1304 			    msgp->sadb_msg_pid != mypid);
1305 			time_critical_exit();
1306 
1307 			if (msgp->sadb_msg_type != sadb_msg_type ||
1308 			    msgp->sadb_msg_satype != sadb_msg_satype) {
1309 				syslog((LOG_NOTICE|LOG_AUTH), gettext(
1310 				    "doaddresses: Unexpected returned message "
1311 				    "(%d exp %d)\n"), msgp->sadb_msg_type,
1312 				    sadb_msg_type);
1313 				Bail("doaddresses: Unexpected returned "
1314 				    "message");
1315 			}
1316 
1317 			errno = msgp->sadb_msg_errno;
1318 			if (errno != 0) {
1319 				if (errno == EINVAL) {
1320 					WARN(ep, ebuf, gettext(
1321 					    "One of the entered "
1322 					    "values is incorrect."));
1323 					print_diagnostic(stderr,
1324 					    msgp->sadb_x_msg_diagnostic);
1325 				} else {
1326 					Bail("return message (in doaddresses)");
1327 				}
1328 			}
1329 
1330 			/* ...and then restore the saved buffer. */
1331 			msgp = (struct sadb_msg *)savebuf;
1332 			bcopy(savebuf, buffer, SADB_64TO8(msgp->sadb_msg_len));
1333 		} while (srchp != NULL && srchp->h_addr_list[++i] != NULL);
1334 		return;
1335 	}
1336 
1337 	single_dst = (dsthp == &dummy.he || dsthp->h_addr_list[1] == NULL);
1338 
1339 	for (i = 0; dsthp->h_addr_list[i] != NULL; i++) {
1340 		if (dsthp == &dummy.he) {
1341 			/* Just to be sure... */
1342 			dsthp->h_addr_list[1] = NULL;
1343 		} else {
1344 			/*
1345 			 * Fill in the dst sockaddr.
1346 			 */
1347 			sin6 = (struct sockaddr_in6 *)(dst + 1);
1348 			bzero(sin6, sizeof (*sin6));
1349 			bcopy(dsthp->h_addr_list[i], &sin6->sin6_addr,
1350 			    sizeof (struct in6_addr));
1351 			sin6->sin6_family = AF_INET6;
1352 			sin6->sin6_port = htons(dstport);
1353 		}
1354 
1355 		/*
1356 		 * Try and assign src, if there's any ambiguity.
1357 		 */
1358 		if (!unspec_src && srchp != &dummy.he) {
1359 			if (IN6_IS_ADDR_V4MAPPED(&sin6->sin6_addr)) {
1360 				/*
1361 				 * IPv4 address.  Find an IPv4 address, then
1362 				 * keep looking for a second one.  If a second
1363 				 * exists, print a message, and fill in the
1364 				 * unspecified address.
1365 				 */
1366 				first_match = NULL;
1367 
1368 				for (walker = srchp->h_addr_list;
1369 				    *walker != NULL; walker++) {
1370 					/* LINTED E_BAD_PTR_CAST_ALIGN */
1371 					if (IN6_IS_ADDR_V4MAPPED(
1372 					    (struct in6_addr *)*walker)) {
1373 						if (first_match != NULL)
1374 							break;
1375 						else
1376 							first_match = *walker;
1377 					}
1378 				}
1379 				sin6 = (struct sockaddr_in6 *)(src + 1);
1380 				bzero(sin6, sizeof (*sin6));
1381 
1382 				if (first_match == NULL) {
1383 					/*
1384 					 * No IPv4 hits.  Is this a single
1385 					 * dest?
1386 					 */
1387 					WARN1(ep, ebuf, gettext(
1388 					    "No IPv4 source address "
1389 					    "for name %s.\n"), srchp->h_name);
1390 					if (single_dst) {
1391 						ERROR(ep, ebuf, gettext(
1392 						    "Only single destination "
1393 						    "IP address.\n"));
1394 					} else {
1395 						/* Continue, but do I print? */
1396 						continue;  /* for loop */
1397 					}
1398 
1399 					/* I should never reach here. */
1400 				}
1401 
1402 				sin6->sin6_family = AF_INET6;
1403 				sin6->sin6_port = htons(srcport);
1404 				if (*walker != NULL) {
1405 					/*
1406 					 * Early loop exit.  It must've been
1407 					 * multiple hits...
1408 					 *
1409 					 * Issue a null-source warning?
1410 					 */
1411 					WARN1(ep, ebuf, gettext(
1412 					    "Multiple IPv4 source addresses "
1413 					    "for %s, using unspecified source "
1414 					    "instead."), srchp->h_name);
1415 				} else {
1416 					/*
1417 					 * If I reach here w/o hitting the
1418 					 * previous if statements, I have a
1419 					 * single source address for this
1420 					 * destination.
1421 					 */
1422 					bcopy(first_match, &sin6->sin6_addr,
1423 					    sizeof (struct in6_addr));
1424 				}
1425 			} else {
1426 				/*
1427 				 * IPv6 address.  Find an IPv6 address.
1428 				 * Unlike IPv4 addresses, things can get a
1429 				 * little more sticky with scopes, etc.
1430 				 */
1431 				int dst_scope, src_scope;
1432 
1433 				dst_scope = ipv6_addr_scope(&sin6->sin6_addr);
1434 
1435 				first_match = NULL;
1436 				for (walker = srchp->h_addr_list;
1437 				    *walker != NULL; walker++) {
1438 					/* LINTED E_BAD_PTR_CAST_ALIGN */
1439 					if (!IN6_IS_ADDR_V4MAPPED(
1440 					    (struct in6_addr *)*walker)) {
1441 						/*
1442 						 * Set first-match, etc.
1443 						 * Take into account scopes,
1444 						 * and other IPv6 thingies.
1445 						 */
1446 						src_scope = ipv6_addr_scope(
1447 						    /* LINTED E_BAD_PTR_CAST */
1448 						    (struct in6_addr *)*walker);
1449 						if (src_scope == SCOPE_UNSPEC ||
1450 						    src_scope == dst_scope) {
1451 							if (first_match !=
1452 							    NULL)
1453 								break;
1454 							else
1455 								first_match =
1456 								    *walker;
1457 						}
1458 					}
1459 				}
1460 
1461 				sin6 = (struct sockaddr_in6 *)(src + 1);
1462 				bzero(sin6, sizeof (*sin6));
1463 				sin6->sin6_port = htons(srcport);
1464 				if (first_match == NULL) {
1465 					/*
1466 					 * No IPv6 hits.  Is this a single
1467 					 * dest?
1468 					 */
1469 					WARN1(ep, ebuf, gettext(
1470 					    "No IPv6 source address of "
1471 					    "matching scope for name %s.\n"),
1472 					    srchp->h_name);
1473 					if (single_dst) {
1474 						ERROR(ep, ebuf, gettext(
1475 						    "Only a single IPV6 "
1476 						    "destination "
1477 						    "address.\n"));
1478 					} else {
1479 						/* Continue, but do I print? */
1480 						continue;  /* for loop */
1481 					}
1482 
1483 					/* I should never reach here. */
1484 				}
1485 				sin6->sin6_family = AF_INET6;
1486 				if (*walker != NULL) {
1487 					/*
1488 					 * Early loop exit.  Issue a
1489 					 * null-source warning?
1490 					 */
1491 					WARN1(ep, ebuf, gettext(
1492 					    "Multiple IPv6 source addresses "
1493 					    "for %s of the same scope, using "
1494 					    "unspecified source instead.\n"),
1495 					    srchp->h_name);
1496 				} else {
1497 					/*
1498 					 * If I reach here w/o hitting the
1499 					 * previous if statements, I have a
1500 					 * single source address for this
1501 					 * destination.
1502 					 */
1503 					bcopy(first_match, &sin6->sin6_addr,
1504 					    sizeof (struct in6_addr));
1505 				}
1506 			}
1507 		}
1508 
1509 		/*
1510 		 * If there are errors at this point there is no
1511 		 * point sending anything to PF_KEY.
1512 		 */
1513 		handle_errors(ep, ebuf, B_TRUE, B_FALSE);
1514 
1515 		/* Save off a copy for later writing... */
1516 		msgp = (struct sadb_msg *)buffer;
1517 		bcopy(buffer, savebuf, SADB_64TO8(msgp->sadb_msg_len));
1518 
1519 		rc = key_write(keysock, buffer, SADB_64TO8(msgp->sadb_msg_len));
1520 		if (rc == -1)
1521 			Bail("write() to PF_KEY socket (in doaddresses)");
1522 
1523 		if (in_cluster_mode) {
1524 			(void) sendto(cluster_socket, buffer,
1525 			    SADB_64TO8(msgp->sadb_msg_len), 0,
1526 			    (struct sockaddr *)&cli_addr,
1527 			    sizeof (cli_addr));
1528 		}
1529 		/* Blank the key for paranoia's sake. */
1530 		bzero(buffer, buffer_size);
1531 		time_critical_enter();
1532 		do {
1533 			rc = read(keysock, buffer, buffer_size);
1534 			if (rc == -1)
1535 				Bail("read (in doaddresses)");
1536 		} while (msgp->sadb_msg_seq != seq ||
1537 		    msgp->sadb_msg_pid != mypid);
1538 		time_critical_exit();
1539 
1540 		/*
1541 		 * I should _never_ hit the following unless:
1542 		 *
1543 		 * 1. There is a kernel bug.
1544 		 * 2. Another process is mistakenly using my pid in a PF_KEY
1545 		 *    message.
1546 		 */
1547 		if (msgp->sadb_msg_type != sadb_msg_type ||
1548 		    msgp->sadb_msg_satype != sadb_msg_satype) {
1549 			syslog((LOG_NOTICE|LOG_AUTH), gettext(
1550 			    "doaddresses: Unexpected returned message "
1551 			    "(%d exp %d)\n"), msgp->sadb_msg_type,
1552 			    sadb_msg_type);
1553 			Bail("doaddresses: Unexpected returned message");
1554 		}
1555 
1556 		if (msgp->sadb_msg_errno != 0) {
1557 			char addrprint[INET6_ADDRSTRLEN];
1558 			int on_errno = 0;
1559 			char *on_errno_msg;
1560 
1561 			/*
1562 			 * Print different error messages depending
1563 			 * on the SADB message type being processed.
1564 			 * If we get a ESRCH error for a GET/DELETE
1565 			 * messages, we report that the SA does not
1566 			 * exist. If we get a EEXIST error for a
1567 			 * ADD/UPDATE message, we report that the
1568 			 * SA already exists.
1569 			 */
1570 			if (sadb_msg_type == SADB_GET ||
1571 			    sadb_msg_type == SADB_DELETE) {
1572 				on_errno = ESRCH;
1573 				on_errno_msg = "does not exist";
1574 			} else if (sadb_msg_type == SADB_ADD ||
1575 			    sadb_msg_type == SADB_UPDATE) {
1576 				on_errno = EEXIST;
1577 				on_errno_msg = "already exists";
1578 			}
1579 
1580 			errno = msgp->sadb_msg_errno;
1581 			if (errno == on_errno) {
1582 				ERROR2(ep, ebuf, gettext(
1583 				    "Association (type = %s) "
1584 				    "with spi 0x%x and addr\n"),
1585 				    rparsesatype(msgp->sadb_msg_satype),
1586 				    ntohl(spi));
1587 				ERROR2(ep, ebuf, "%s %s.\n",
1588 				    do_inet_ntop(dsthp->h_addr_list[i],
1589 				    addrprint, sizeof (addrprint)),
1590 				    on_errno_msg);
1591 				msgp = (struct sadb_msg *)savebuf;
1592 				bcopy(savebuf, buffer,
1593 				    SADB_64TO8(msgp->sadb_msg_len));
1594 				continue;
1595 			} else {
1596 				if (errno == EINVAL || errno == ESRCH) {
1597 					ERROR2(ep, ebuf, gettext(
1598 					    "PF_KEY Diagnostic code %u: %s.\n"),
1599 					    msgp->sadb_x_msg_diagnostic,
1600 					    keysock_diag(
1601 					    msgp->sadb_x_msg_diagnostic));
1602 				} else {
1603 					Bail("return message (in doaddresses)");
1604 				}
1605 			}
1606 		}
1607 
1608 		if (cmd == CMD_GET) {
1609 			if (msgp->sadb_msg_len > MAX_GET_SIZE) {
1610 				WARN1(ep, ebuf, gettext("WARNING:  "
1611 				    "SA information bigger than %d bytes.\n"),
1612 				    SADB_64TO8(MAX_GET_SIZE));
1613 			}
1614 			print_samsg(stdout, buffer, B_FALSE, vflag, nflag);
1615 		}
1616 
1617 		handle_errors(ep, ebuf, B_TRUE, B_FALSE);
1618 
1619 		/* ...and then restore the saved buffer. */
1620 		msgp = (struct sadb_msg *)savebuf;
1621 		bcopy(savebuf, buffer, SADB_64TO8(msgp->sadb_msg_len));
1622 		lines_added++;
1623 	}
1624 
1625 	/* Degenerate case, h_addr_list[0] == NULL. */
1626 	if (i == 0)
1627 		Bail("Empty destination address list");
1628 
1629 	/*
1630 	 * free(ebuf) even if there are no errors.
1631 	 * handle_errors() won't return here.
1632 	 */
1633 	handle_errors(ep, ebuf, B_TRUE, B_TRUE);
1634 }
1635 
1636 /*
1637  * Perform an add or an update.  ADD and UPDATE are similar in the extensions
1638  * they need.
1639  */
1640 static void
1641 doaddup(int cmd, int satype, char *argv[], char *ebuf)
1642 {
1643 	uint64_t *buffer, *nexthdr;
1644 	struct sadb_msg msg;
1645 	struct sadb_sa *assoc = NULL;
1646 	struct sadb_x_pair *sadb_pair = NULL;
1647 	struct sadb_address *src = NULL, *dst = NULL;
1648 	struct sadb_address *isrc = NULL, *idst = NULL;
1649 	struct sadb_address *natt_local = NULL, *natt_remote = NULL;
1650 	struct sadb_key *encrypt = NULL, *auth = NULL;
1651 	struct sadb_ident *srcid = NULL, *dstid = NULL;
1652 	struct sadb_lifetime *hard = NULL, *soft = NULL;  /* Current? */
1653 	struct sadb_lifetime *idle = NULL;
1654 	struct sadb_x_replay_ctr *replay_ctr = NULL;
1655 	struct sadb_sens *label = NULL, *olabel = NULL;
1656 	struct sockaddr_in6 *sin6;
1657 	/* MLS TODO:  Need sensitivity eventually. */
1658 	int next, token, sa_len, alloclen, totallen = sizeof (msg), prefix;
1659 	uint32_t spi = 0;
1660 	uint_t reserved_bits = 0;
1661 	uint8_t	sadb_msg_type;
1662 	char *thiscmd, *pstr;
1663 	boolean_t readstate = B_FALSE, unspec_src = B_FALSE;
1664 	boolean_t alloc_inner = B_FALSE, use_natt = B_FALSE;
1665 	struct hostent *srchp = NULL, *dsthp = NULL, *isrchp = NULL,
1666 	    *idsthp = NULL;
1667 	struct hostent *natt_lhp = NULL, *natt_rhp = NULL;
1668 	uint16_t srcport = 0, dstport = 0, natt_lport = 0, natt_rport = 0,
1669 	    isrcport = 0, idstport = 0;
1670 	uint8_t proto = 0, iproto = 0;
1671 	char *ep = NULL;
1672 
1673 	switch (cmd) {
1674 	case CMD_ADD:
1675 		thiscmd = "add";
1676 		sadb_msg_type = SADB_ADD;
1677 		break;
1678 	case CMD_UPDATE:
1679 		thiscmd = "update";
1680 		sadb_msg_type = SADB_UPDATE;
1681 		break;
1682 	case CMD_UPDATE_PAIR:
1683 		thiscmd = "update-pair";
1684 		sadb_msg_type = SADB_X_UPDATEPAIR;
1685 		break;
1686 	}
1687 
1688 	msg_init(&msg, sadb_msg_type, (uint8_t)satype);
1689 	/* Assume last element in argv is set to NULL. */
1690 	do {
1691 		token = parseextval(*argv, &next);
1692 		argv++;
1693 		switch (token) {
1694 		case TOK_EOF:
1695 			/* Do nothing, I'm done. */
1696 			break;
1697 		case TOK_UNKNOWN:
1698 			ERROR1(ep, ebuf, gettext(
1699 			    "Unknown extension field \"%s\" \n"), *(argv - 1));
1700 			break;
1701 		case TOK_SPI:
1702 		case TOK_PAIR_SPI:
1703 		case TOK_REPLAY:
1704 		case TOK_STATE:
1705 		case TOK_AUTHALG:
1706 		case TOK_ENCRALG:
1707 		case TOK_ENCAP:
1708 			/*
1709 			 * May want to place this chunk of code in a function.
1710 			 *
1711 			 * This code checks for duplicate entries on a command
1712 			 * line.
1713 			 */
1714 
1715 			/* Allocate the SADB_EXT_SA extension. */
1716 			if (assoc == NULL) {
1717 				assoc = malloc(sizeof (*assoc));
1718 				if (assoc == NULL)
1719 					Bail("malloc(assoc)");
1720 				bzero(assoc, sizeof (*assoc));
1721 				assoc->sadb_sa_exttype = SADB_EXT_SA;
1722 				assoc->sadb_sa_len =
1723 				    SADB_8TO64(sizeof (*assoc));
1724 				totallen += sizeof (*assoc);
1725 			}
1726 			switch (token) {
1727 			case TOK_SPI:
1728 				/*
1729 				 * If some cretin types in "spi 0" then he/she
1730 				 * can type in another SPI.
1731 				 */
1732 				if (assoc->sadb_sa_spi != 0) {
1733 					ERROR(ep, ebuf, gettext(
1734 					    "Can only specify "
1735 					    "single SPI value.\n"));
1736 					break;
1737 				}
1738 				/* Must convert SPI to network order! */
1739 				assoc->sadb_sa_spi =
1740 				    htonl((uint32_t)parsenum(*argv, B_TRUE,
1741 				    ebuf));
1742 				if (assoc->sadb_sa_spi == 0) {
1743 					ERROR(ep, ebuf, gettext(
1744 					    "Invalid SPI value \"0\" .\n"));
1745 				}
1746 				break;
1747 			case TOK_PAIR_SPI:
1748 				if (cmd == CMD_UPDATE_PAIR) {
1749 					ERROR(ep, ebuf, gettext(
1750 					    "pair-spi can not be used with the "
1751 					    "\"update-pair\" command.\n"));
1752 				}
1753 				if (sadb_pair == NULL) {
1754 					sadb_pair = malloc(sizeof (*sadb_pair));
1755 					if (assoc == NULL)
1756 						Bail("malloc(assoc)");
1757 					bzero(sadb_pair, sizeof (*sadb_pair));
1758 					totallen += sizeof (*sadb_pair);
1759 				}
1760 				if (sadb_pair->sadb_x_pair_spi != 0) {
1761 					ERROR(ep, ebuf, gettext(
1762 					    "Can only specify "
1763 					    "single pair SPI value.\n"));
1764 					break;
1765 				}
1766 				/* Must convert SPI to network order! */
1767 				sadb_pair->sadb_x_pair_len =
1768 				    SADB_8TO64(sizeof (*sadb_pair));
1769 				sadb_pair->sadb_x_pair_exttype =
1770 				    SADB_X_EXT_PAIR;
1771 				sadb_pair->sadb_x_pair_spi =
1772 				    htonl((uint32_t)parsenum(*argv, B_TRUE,
1773 				    ebuf));
1774 				if (sadb_pair->sadb_x_pair_spi == 0) {
1775 					ERROR(ep, ebuf, gettext(
1776 					    "Invalid SPI value \"0\" .\n"));
1777 				}
1778 				assoc->sadb_sa_flags |=
1779 				    SADB_X_SAFLAGS_PAIRED;
1780 				break;
1781 			case TOK_REPLAY:
1782 				/*
1783 				 * That same cretin can do the same with
1784 				 * replay.
1785 				 */
1786 				if (assoc->sadb_sa_replay != 0) {
1787 					ERROR(ep, ebuf, gettext(
1788 					    "Can only specify "
1789 					    "single replay window size.\n"));
1790 					break;
1791 				}
1792 				assoc->sadb_sa_replay =
1793 				    (uint8_t)parsenum(*argv, B_TRUE, ebuf);
1794 				if (assoc->sadb_sa_replay != 0) {
1795 					WARN(ep, ebuf, gettext(
1796 					    "WARNING:  Replay with manual"
1797 					    " keying considered harmful.\n"));
1798 				}
1799 				break;
1800 			case TOK_STATE:
1801 				/*
1802 				 * 0 is an actual state value, LARVAL.  This
1803 				 * means that one can type in the larval state
1804 				 * and then type in another state on the same
1805 				 * command line.
1806 				 */
1807 				if (assoc->sadb_sa_state != 0) {
1808 					ERROR(ep, ebuf, gettext(
1809 					    "Can only specify "
1810 					    "single SA state.\n"));
1811 					break;
1812 				}
1813 				assoc->sadb_sa_state = parsestate(*argv,
1814 				    ebuf);
1815 				readstate = B_TRUE;
1816 				break;
1817 			case TOK_AUTHALG:
1818 				if (assoc->sadb_sa_auth != 0) {
1819 					ERROR(ep, ebuf, gettext(
1820 					    "Can only specify "
1821 					    "single auth algorithm.\n"));
1822 					break;
1823 				}
1824 				assoc->sadb_sa_auth = parsealg(*argv,
1825 				    IPSEC_PROTO_AH, ebuf);
1826 				break;
1827 			case TOK_ENCRALG:
1828 				if (satype == SADB_SATYPE_AH) {
1829 					ERROR(ep, ebuf, gettext("Cannot specify"
1830 					    " encryption with SA type ah.\n"));
1831 					break;
1832 				}
1833 				if (assoc->sadb_sa_encrypt != 0) {
1834 					ERROR(ep, ebuf, gettext(
1835 					    "Can only specify "
1836 					    "single encryption algorithm.\n"));
1837 					break;
1838 				}
1839 				assoc->sadb_sa_encrypt = parsealg(*argv,
1840 				    IPSEC_PROTO_ESP, ebuf);
1841 				break;
1842 			case TOK_ENCAP:
1843 				if (use_natt) {
1844 					ERROR(ep, ebuf, gettext(
1845 					    "Can only specify single"
1846 					    " encapsulation.\n"));
1847 					break;
1848 				}
1849 				if (strncmp(*argv, "udp", 3)) {
1850 					ERROR(ep, ebuf, gettext(
1851 					    "Can only specify udp"
1852 					    " encapsulation.\n"));
1853 					break;
1854 				}
1855 				use_natt = B_TRUE;
1856 				/* set assoc flags later */
1857 				break;
1858 			}
1859 			argv++;
1860 			break;
1861 		case TOK_SRCPORT:
1862 			if (srcport != 0) {
1863 				ERROR(ep, ebuf,  gettext("Can only specify "
1864 				    "single source port.\n"));
1865 				break;
1866 			}
1867 			srcport = parsenum(*argv, B_TRUE, ebuf);
1868 			argv++;
1869 			break;
1870 		case TOK_DSTPORT:
1871 			if (dstport != 0) {
1872 				ERROR(ep, ebuf, gettext("Can only specify "
1873 				    "single destination port.\n"));
1874 				break;
1875 			}
1876 			dstport = parsenum(*argv, B_TRUE, ebuf);
1877 			argv++;
1878 			break;
1879 		case TOK_ISRCPORT:
1880 			alloc_inner = B_TRUE;
1881 			if (isrcport != 0) {
1882 				ERROR(ep, ebuf, gettext(
1883 				    "Can only specify "
1884 				    "single inner-source port.\n"));
1885 				break;
1886 			}
1887 			isrcport = parsenum(*argv, B_TRUE, ebuf);
1888 			argv++;
1889 			break;
1890 		case TOK_IDSTPORT:
1891 			alloc_inner = B_TRUE;
1892 			if (idstport != 0) {
1893 				ERROR(ep, ebuf, gettext(
1894 				    "Can only specify "
1895 				    "single inner-destination port.\n"));
1896 				break;
1897 			}
1898 			idstport = parsenum(*argv, B_TRUE, ebuf);
1899 			argv++;
1900 			break;
1901 		case TOK_NATLPORT:
1902 			if (natt_lport != 0) {
1903 				ERROR(ep, ebuf, gettext(
1904 				    "Can only specify "
1905 				    "single NAT-T local port.\n"));
1906 				break;
1907 			}
1908 			natt_lport = parsenum(*argv, B_TRUE, ebuf);
1909 			argv++;
1910 			break;
1911 		case TOK_NATRPORT:
1912 			if (natt_rport != 0) {
1913 				ERROR(ep, ebuf, gettext(
1914 				    "Can only specify "
1915 				    "single NAT-T remote port.\n"));
1916 				break;
1917 			}
1918 			natt_rport = parsenum(*argv, B_TRUE, ebuf);
1919 			argv++;
1920 			break;
1921 
1922 		case TOK_PROTO:
1923 			if (proto != 0) {
1924 				ERROR(ep, ebuf, gettext(
1925 				    "Can only specify "
1926 				    "single protocol.\n"));
1927 				break;
1928 			}
1929 			proto = parsenum(*argv, B_TRUE, ebuf);
1930 			argv++;
1931 			break;
1932 		case TOK_IPROTO:
1933 			alloc_inner = B_TRUE;
1934 			if (iproto != 0) {
1935 				ERROR(ep, ebuf, gettext(
1936 				    "Can only specify "
1937 				    "single inner protocol.\n"));
1938 				break;
1939 			}
1940 			iproto = parsenum(*argv, B_TRUE, ebuf);
1941 			argv++;
1942 			break;
1943 		case TOK_SRCADDR:
1944 		case TOK_SRCADDR6:
1945 			if (src != NULL) {
1946 				ERROR(ep, ebuf, gettext(
1947 				    "Can only specify "
1948 				    "single source address.\n"));
1949 				break;
1950 			}
1951 			sa_len = parseaddr(*argv, &srchp,
1952 			    (token == TOK_SRCADDR6), ebuf);
1953 			if (srchp == NULL) {
1954 				ERROR1(ep, ebuf, gettext(
1955 				    "Unknown src address \"%s\"\n"), *argv);
1956 				break;
1957 			}
1958 			argv++;
1959 			/*
1960 			 * Round of the sockaddr length to an 8 byte
1961 			 * boundary to make PF_KEY happy.
1962 			 */
1963 			alloclen = sizeof (*src) + roundup(sa_len, 8);
1964 			src = malloc(alloclen);
1965 			if (src == NULL)
1966 				Bail("malloc(src)");
1967 			totallen += alloclen;
1968 			src->sadb_address_len = SADB_8TO64(alloclen);
1969 			src->sadb_address_exttype = SADB_EXT_ADDRESS_SRC;
1970 			src->sadb_address_reserved = 0;
1971 			src->sadb_address_prefixlen = 0;
1972 			src->sadb_address_proto = 0;
1973 			if (srchp == &dummy.he) {
1974 				/*
1975 				 * Single address with -n flag.
1976 				 */
1977 				sin6 = (struct sockaddr_in6 *)(src + 1);
1978 				bzero(sin6, sizeof (*sin6));
1979 				sin6->sin6_family = AF_INET6;
1980 				bcopy(srchp->h_addr_list[0], &sin6->sin6_addr,
1981 				    sizeof (struct in6_addr));
1982 			}
1983 			break;
1984 		case TOK_DSTADDR:
1985 		case TOK_DSTADDR6:
1986 			if (dst != NULL) {
1987 				ERROR(ep, ebuf, gettext(
1988 				    "Can only specify single "
1989 				    "destination address.\n"));
1990 				break;
1991 			}
1992 			sa_len = parseaddr(*argv, &dsthp,
1993 			    (token == TOK_DSTADDR6), ebuf);
1994 			if (dsthp == NULL) {
1995 				ERROR1(ep, ebuf, gettext(
1996 				    "Unknown dst address \"%s\"\n"), *argv);
1997 				break;
1998 			}
1999 			argv++;
2000 			alloclen = sizeof (*dst) + roundup(sa_len, 8);
2001 			dst = malloc(alloclen);
2002 			if (dst == NULL)
2003 				Bail("malloc(dst)");
2004 			totallen += alloclen;
2005 			dst->sadb_address_len = SADB_8TO64(alloclen);
2006 			dst->sadb_address_exttype = SADB_EXT_ADDRESS_DST;
2007 			dst->sadb_address_reserved = 0;
2008 			dst->sadb_address_prefixlen = 0;
2009 			dst->sadb_address_proto = 0;
2010 			if (dsthp == &dummy.he) {
2011 				/*
2012 				 * Single address with -n flag.
2013 				 */
2014 				sin6 = (struct sockaddr_in6 *)(dst + 1);
2015 				bzero(sin6, sizeof (*sin6));
2016 				sin6->sin6_family = AF_INET6;
2017 				bcopy(dsthp->h_addr_list[0], &sin6->sin6_addr,
2018 				    sizeof (struct in6_addr));
2019 			}
2020 			break;
2021 		case TOK_PROXYADDR:
2022 		case TOK_PROXYADDR6:
2023 			if (isrc != NULL) {
2024 				ERROR(ep, ebuf, gettext(
2025 				    "Can only specify single "
2026 				    "proxy/inner-source address.\n"));
2027 				break;
2028 			}
2029 			if ((pstr = strchr(*argv, '/')) != NULL) {
2030 				/* Parse out the prefix. */
2031 				errno = 0;
2032 				prefix = strtol(pstr + 1, NULL, 10);
2033 				if (errno != 0) {
2034 					ERROR1(ep, ebuf, gettext(
2035 					    "Invalid prefix %s."), pstr);
2036 					break;
2037 				}
2038 				/* Recycle pstr */
2039 				alloclen = (int)(pstr - *argv);
2040 				pstr = malloc(alloclen + 1);
2041 				if (pstr == NULL) {
2042 					Bail("malloc(pstr)");
2043 				}
2044 				(void) strlcpy(pstr, *argv, alloclen + 1);
2045 			} else {
2046 				pstr = *argv;
2047 				/*
2048 				 * Assume mapping to AF_INET6, and we're a host.
2049 				 * XXX some miscreants may still make classful
2050 				 * assumptions.  If this is a problem, fix it
2051 				 * here.
2052 				 */
2053 				prefix = 128;
2054 			}
2055 			sa_len = parseaddr(pstr, &isrchp,
2056 			    (token == TOK_PROXYADDR6), ebuf);
2057 			if (isrchp == NULL) {
2058 				ERROR1(ep, ebuf, gettext(
2059 				    "Unknown proxy/inner-source address "
2060 				    "\"%s\"\n"), *argv);
2061 				break;
2062 			}
2063 			if (pstr != *argv)
2064 				free(pstr);
2065 			argv++;
2066 			alloclen = sizeof (*isrc) + roundup(sa_len, 8);
2067 			isrc = malloc(alloclen);
2068 			if (isrc == NULL)
2069 				Bail("malloc(isrc)");
2070 			totallen += alloclen;
2071 			isrc->sadb_address_len = SADB_8TO64(alloclen);
2072 			isrc->sadb_address_exttype = SADB_EXT_ADDRESS_PROXY;
2073 			isrc->sadb_address_reserved = 0;
2074 			isrc->sadb_address_prefixlen = prefix;
2075 			isrc->sadb_address_proto = 0;
2076 			if (isrchp == &dummy.he ||
2077 			    isrchp->h_addr_list[1] == NULL) {
2078 				/*
2079 				 * Single address with -n flag or single name.
2080 				 */
2081 				sin6 = (struct sockaddr_in6 *)(isrc + 1);
2082 				bzero(sin6, sizeof (*sin6));
2083 				sin6->sin6_family = AF_INET6;
2084 				bcopy(isrchp->h_addr_list[0], &sin6->sin6_addr,
2085 				    sizeof (struct in6_addr));
2086 				/*
2087 				 * normalize prefixlen for IPv4-mapped
2088 				 * addresses.
2089 				 */
2090 				if (prefix <= 32 &&
2091 				    IN6_IS_ADDR_V4MAPPED(&sin6->sin6_addr))
2092 					isrc->sadb_address_prefixlen += 96;
2093 				alloc_inner = B_TRUE;
2094 			} else {
2095 				/*
2096 				 * If the proxy/isrc address is vague, don't
2097 				 * bother.
2098 				 */
2099 				totallen -= alloclen;
2100 				free(isrc);
2101 				isrc = NULL;
2102 				WARN1(ep, ebuf, gettext(
2103 				    "Proxy/inner-source address %s "
2104 				    "is vague, not using.\n"), isrchp->h_name);
2105 				freehostent(isrchp);
2106 				isrchp = NULL;
2107 				break;
2108 			}
2109 			break;
2110 		case TOK_IDSTADDR:
2111 		case TOK_IDSTADDR6:
2112 			if (idst != NULL) {
2113 				ERROR(ep, ebuf, gettext(
2114 				    "Can only specify single "
2115 				    "inner-destination address.\n"));
2116 				break;
2117 			}
2118 			if ((pstr = strchr(*argv, '/')) != NULL) {
2119 				/* Parse out the prefix. */
2120 				errno = 0;
2121 				prefix = strtol(pstr + 1, NULL, 10);
2122 				if (errno != 0) {
2123 					ERROR1(ep, ebuf, gettext(
2124 					    "Invalid prefix %s.\n"), pstr);
2125 					break;
2126 				}
2127 				/* Recycle pstr */
2128 				alloclen = (int)(pstr - *argv);
2129 				pstr = malloc(alloclen + 1);
2130 				if (pstr == NULL) {
2131 					Bail("malloc(pstr)");
2132 				}
2133 				(void) strlcpy(pstr, *argv, alloclen + 1);
2134 			} else {
2135 				pstr = *argv;
2136 				/*
2137 				 * Assume mapping to AF_INET6, and we're a host.
2138 				 * XXX some miscreants may still make classful
2139 				 * assumptions.  If this is a problem, fix it
2140 				 * here.
2141 				 */
2142 				prefix = 128;
2143 			}
2144 			sa_len = parseaddr(pstr, &idsthp,
2145 			    (token == TOK_IDSTADDR6), ebuf);
2146 			if (idsthp == NULL) {
2147 				ERROR1(ep, ebuf, gettext(
2148 				    "Unknown Inner Src address "
2149 				    " \"%s\"\n"), *argv);
2150 				break;
2151 			}
2152 			if (pstr != *argv)
2153 				free(pstr);
2154 			argv++;
2155 			alloclen = sizeof (*idst) + roundup(sa_len, 8);
2156 			idst = malloc(alloclen);
2157 			if (idst == NULL)
2158 				Bail("malloc(idst)");
2159 			totallen += alloclen;
2160 			idst->sadb_address_len = SADB_8TO64(alloclen);
2161 			idst->sadb_address_exttype =
2162 			    SADB_X_EXT_ADDRESS_INNER_DST;
2163 			idst->sadb_address_reserved = 0;
2164 			idst->sadb_address_prefixlen = prefix;
2165 			idst->sadb_address_proto = 0;
2166 			if (idsthp == &dummy.he ||
2167 			    idsthp->h_addr_list[1] == NULL) {
2168 				/*
2169 				 * Single address with -n flag or single name.
2170 				 */
2171 				sin6 = (struct sockaddr_in6 *)(idst + 1);
2172 				bzero(sin6, sizeof (*sin6));
2173 				sin6->sin6_family = AF_INET6;
2174 				bcopy(idsthp->h_addr_list[0], &sin6->sin6_addr,
2175 				    sizeof (struct in6_addr));
2176 				/*
2177 				 * normalize prefixlen for IPv4-mapped
2178 				 * addresses.
2179 				 */
2180 				if (prefix <= 32 &&
2181 				    IN6_IS_ADDR_V4MAPPED(&sin6->sin6_addr))
2182 					idst->sadb_address_prefixlen += 96;
2183 				alloc_inner = B_TRUE;
2184 			} else {
2185 				/*
2186 				 * If the idst address is vague, don't bother.
2187 				 */
2188 				totallen -= alloclen;
2189 				free(idst);
2190 				idst = NULL;
2191 				WARN1(ep, ebuf, gettext(
2192 				    "Inner destination address %s "
2193 				    "is vague, not using.\n"), idsthp->h_name);
2194 				freehostent(idsthp);
2195 				idsthp = NULL;
2196 				break;
2197 			}
2198 			break;
2199 		case TOK_NATLOC:
2200 			if (natt_local != NULL) {
2201 				ERROR(ep, ebuf, gettext(
2202 				    "Can only specify "
2203 				    "single NAT-T local address.\n"));
2204 				break;
2205 			}
2206 			sa_len = parseaddr(*argv, &natt_lhp, 0, ebuf);
2207 			if (natt_lhp == NULL) {
2208 				ERROR1(ep, ebuf, gettext(
2209 				    "Unknown NAT-T local address \"%s\"\n"),
2210 				    *argv);
2211 				break;
2212 			}
2213 			argv++;
2214 			/*
2215 			 * Round of the sockaddr length to an 8 byte
2216 			 * boundary to make PF_KEY happy.
2217 			 */
2218 			alloclen = sizeof (*natt_local) + roundup(sa_len, 8);
2219 			natt_local = malloc(alloclen);
2220 			if (natt_local == NULL)
2221 				Bail("malloc(natt_local)");
2222 			totallen += alloclen;
2223 			natt_local->sadb_address_len = SADB_8TO64(alloclen);
2224 			natt_local->sadb_address_exttype =
2225 			    SADB_X_EXT_ADDRESS_NATT_LOC;
2226 			natt_local->sadb_address_reserved = 0;
2227 			natt_local->sadb_address_prefixlen = 0;
2228 			natt_local->sadb_address_proto = 0;
2229 			if (natt_lhp == &dummy.he ||
2230 			    natt_lhp->h_addr_list[1] == NULL) {
2231 				/*
2232 				 * Single address with -n flag or single name.
2233 				 */
2234 				sin6 = (struct sockaddr_in6 *)(natt_local + 1);
2235 				bzero(sin6, sizeof (*sin6));
2236 				sin6->sin6_family = AF_INET6;
2237 				bcopy(natt_lhp->h_addr_list[0],
2238 				    &sin6->sin6_addr, sizeof (struct in6_addr));
2239 			} else {
2240 				/*
2241 				 * If the nat-local address is vague, don't
2242 				 * bother.
2243 				 */
2244 				totallen -= alloclen;
2245 				free(natt_local);
2246 				natt_local = NULL;
2247 				WARN1(ep, ebuf, gettext(
2248 				    "NAT-T local address %s "
2249 				    "is vague, not using.\n"),
2250 				    natt_lhp->h_name);
2251 				freehostent(natt_lhp);
2252 				natt_lhp = NULL;
2253 				break;
2254 			}
2255 			break;
2256 		case TOK_NATREM:
2257 			if (natt_remote != NULL) {
2258 				ERROR(ep, ebuf, gettext(
2259 				    "Can only specify "
2260 				    "single NAT-T remote address.\n"));
2261 				break;
2262 			}
2263 			sa_len = parseaddr(*argv, &natt_rhp, 0, ebuf);
2264 			if (natt_rhp == NULL) {
2265 				ERROR1(ep, ebuf, gettext(
2266 				    "Unknown NAT-T remote address \"%s\"\n"),
2267 				    *argv);
2268 				break;
2269 			}
2270 			argv++;
2271 			/*
2272 			 * Round of the sockaddr length to an 8 byte
2273 			 * boundary to make PF_KEY happy.
2274 			 */
2275 			alloclen = sizeof (*natt_remote) + roundup(sa_len, 8);
2276 			natt_remote = malloc(alloclen);
2277 			if (natt_remote == NULL)
2278 				Bail("malloc(natt_remote)");
2279 			totallen += alloclen;
2280 			natt_remote->sadb_address_len = SADB_8TO64(alloclen);
2281 			natt_remote->sadb_address_exttype =
2282 			    SADB_X_EXT_ADDRESS_NATT_REM;
2283 			natt_remote->sadb_address_reserved = 0;
2284 			natt_remote->sadb_address_prefixlen = 0;
2285 			natt_remote->sadb_address_proto = 0;
2286 			if (natt_rhp == &dummy.he ||
2287 			    natt_rhp->h_addr_list[1] == NULL) {
2288 				/*
2289 				 * Single address with -n flag or single name.
2290 				 */
2291 				sin6 = (struct sockaddr_in6 *)(natt_remote + 1);
2292 				bzero(sin6, sizeof (*sin6));
2293 				sin6->sin6_family = AF_INET6;
2294 				bcopy(natt_rhp->h_addr_list[0],
2295 				    &sin6->sin6_addr, sizeof (struct in6_addr));
2296 			} else {
2297 				/*
2298 				 * If the nat-renote address is vague, don't
2299 				 * bother.
2300 				 */
2301 				totallen -= alloclen;
2302 				free(natt_remote);
2303 				natt_remote = NULL;
2304 				WARN1(ep, ebuf, gettext(
2305 				    "NAT-T remote address %s "
2306 				    "is vague, not using.\n"),
2307 				    natt_rhp->h_name);
2308 				freehostent(natt_rhp);
2309 				natt_rhp = NULL;
2310 				break;
2311 			}
2312 			break;
2313 		case TOK_ENCRKEY:
2314 			if (encrypt != NULL) {
2315 				ERROR(ep, ebuf, gettext(
2316 				    "Can only specify "
2317 				    "single encryption key.\n"));
2318 				break;
2319 			}
2320 			if (assoc != NULL &&
2321 			    assoc->sadb_sa_encrypt == SADB_EALG_NULL) {
2322 				FATAL(ep, ebuf, gettext(
2323 				    "Cannot specify a key with NULL "
2324 				    "encryption algorithm.\n"));
2325 				break;
2326 			}
2327 			encrypt = parsekey(*argv, ebuf, reserved_bits);
2328 			argv++;
2329 			if (encrypt == NULL) {
2330 				ERROR(ep, ebuf, gettext(
2331 				    "Invalid encryption key.\n"));
2332 				break;
2333 			}
2334 			totallen += SADB_64TO8(encrypt->sadb_key_len);
2335 			encrypt->sadb_key_exttype = SADB_EXT_KEY_ENCRYPT;
2336 			break;
2337 		case TOK_AUTHKEY:
2338 			if (auth != NULL) {
2339 				ERROR(ep, ebuf, gettext(
2340 				    "Can only specify single"
2341 				    " authentication key.\n"));
2342 				break;
2343 			}
2344 			auth = parsekey(*argv, ebuf, 0);
2345 			argv++;
2346 			if (auth == NULL) {
2347 				ERROR(ep, ebuf, gettext(
2348 				    "Invalid authentication key.\n"));
2349 				break;
2350 			}
2351 			totallen += SADB_64TO8(auth->sadb_key_len);
2352 			auth->sadb_key_exttype = SADB_EXT_KEY_AUTH;
2353 			break;
2354 		case TOK_SRCIDTYPE:
2355 			if (*argv == NULL || *(argv + 1) == NULL) {
2356 				FATAL(ep, ebuf, gettext(
2357 				    "Unexpected end of command "
2358 				    "line - Expecting Src Type.\n"));
2359 				/* NOTREACHED */
2360 				break;
2361 			}
2362 			if (srcid != NULL) {
2363 				ERROR(ep, ebuf, gettext(
2364 				    "Can only specify single"
2365 				    " source certificate identity.\n"));
2366 				break;
2367 			}
2368 			alloclen = sizeof (*srcid) +
2369 			    roundup(strlen(*(argv + 1)) + 1, 8);
2370 			srcid = malloc(alloclen);
2371 			if (srcid == NULL)
2372 				Bail("malloc(srcid)");
2373 			totallen += alloclen;
2374 			srcid->sadb_ident_type = parseidtype(*argv, ebuf);
2375 			argv++;
2376 			srcid->sadb_ident_len = SADB_8TO64(alloclen);
2377 			srcid->sadb_ident_exttype = SADB_EXT_IDENTITY_SRC;
2378 			srcid->sadb_ident_reserved = 0;
2379 			srcid->sadb_ident_id = 0;  /* Not useful here. */
2380 			(void) strlcpy((char *)(srcid + 1), *argv, alloclen);
2381 			argv++;
2382 			break;
2383 		case TOK_DSTIDTYPE:
2384 			if (*argv == NULL || *(argv + 1) == NULL) {
2385 				ERROR(ep, ebuf, gettext(
2386 				    "Unexpected end of command"
2387 				    " line - expecting dst type.\n"));
2388 				break;
2389 			}
2390 			if (dstid != NULL) {
2391 				ERROR(ep, ebuf, gettext(
2392 				    "Can only specify single destination "
2393 				    "certificate identity.\n"));
2394 				break;
2395 			}
2396 			alloclen = sizeof (*dstid) +
2397 			    roundup(strlen(*(argv + 1)) + 1, 8);
2398 			dstid = malloc(alloclen);
2399 			if (dstid == NULL)
2400 				Bail("malloc(dstid)");
2401 			totallen += alloclen;
2402 			dstid->sadb_ident_type = parseidtype(*argv, ebuf);
2403 			argv++;
2404 			dstid->sadb_ident_len = SADB_8TO64(alloclen);
2405 			dstid->sadb_ident_exttype = SADB_EXT_IDENTITY_DST;
2406 			dstid->sadb_ident_reserved = 0;
2407 			dstid->sadb_ident_id = 0;  /* Not useful here. */
2408 			(void) strlcpy((char *)(dstid + 1), *argv, alloclen);
2409 			argv++;
2410 			break;
2411 		case TOK_HARD_ALLOC:
2412 		case TOK_HARD_BYTES:
2413 		case TOK_HARD_ADDTIME:
2414 		case TOK_HARD_USETIME:
2415 			if (hard == NULL) {
2416 				hard = malloc(sizeof (*hard));
2417 				if (hard == NULL)
2418 					Bail("malloc(hard_lifetime)");
2419 				bzero(hard, sizeof (*hard));
2420 				hard->sadb_lifetime_exttype =
2421 				    SADB_EXT_LIFETIME_HARD;
2422 				hard->sadb_lifetime_len =
2423 				    SADB_8TO64(sizeof (*hard));
2424 				totallen += sizeof (*hard);
2425 			}
2426 			switch (token) {
2427 			case TOK_HARD_ALLOC:
2428 				if (hard->sadb_lifetime_allocations != 0) {
2429 					ERROR(ep, ebuf, gettext(
2430 					    "Can only specify single"
2431 					    " hard allocation limit.\n"));
2432 					break;
2433 				}
2434 				hard->sadb_lifetime_allocations =
2435 				    (uint32_t)parsenum(*argv, B_TRUE, ebuf);
2436 				break;
2437 			case TOK_HARD_BYTES:
2438 				if (hard->sadb_lifetime_bytes != 0) {
2439 					ERROR(ep, ebuf, gettext(
2440 					    "Can only specify "
2441 					    "single hard byte limit.\n"));
2442 					break;
2443 				}
2444 				hard->sadb_lifetime_bytes = parsenum(*argv,
2445 				    B_TRUE, ebuf);
2446 				break;
2447 			case TOK_HARD_ADDTIME:
2448 				if (hard->sadb_lifetime_addtime != 0) {
2449 					ERROR(ep, ebuf, gettext(
2450 					    "Can only specify "
2451 					    "single past-add lifetime.\n"));
2452 					break;
2453 				}
2454 				hard->sadb_lifetime_addtime = parsenum(*argv,
2455 				    B_TRUE, ebuf);
2456 				break;
2457 			case TOK_HARD_USETIME:
2458 				if (hard->sadb_lifetime_usetime != 0) {
2459 					ERROR(ep, ebuf, gettext(
2460 					    "Can only specify "
2461 					    "single past-use lifetime.\n"));
2462 					break;
2463 				}
2464 				hard->sadb_lifetime_usetime = parsenum(*argv,
2465 				    B_TRUE, ebuf);
2466 				break;
2467 			}
2468 			argv++;
2469 			break;
2470 		case TOK_SOFT_ALLOC:
2471 		case TOK_SOFT_BYTES:
2472 		case TOK_SOFT_ADDTIME:
2473 		case TOK_SOFT_USETIME:
2474 			if (soft == NULL) {
2475 				soft = malloc(sizeof (*soft));
2476 				if (soft == NULL)
2477 					Bail("malloc(soft_lifetime)");
2478 				bzero(soft, sizeof (*soft));
2479 				soft->sadb_lifetime_exttype =
2480 				    SADB_EXT_LIFETIME_SOFT;
2481 				soft->sadb_lifetime_len =
2482 				    SADB_8TO64(sizeof (*soft));
2483 				totallen += sizeof (*soft);
2484 			}
2485 			switch (token) {
2486 			case TOK_SOFT_ALLOC:
2487 				if (soft->sadb_lifetime_allocations != 0) {
2488 					ERROR(ep, ebuf, gettext(
2489 					    "Can only specify single"
2490 					    " soft allocation limit.\n"));
2491 					break;
2492 				}
2493 				soft->sadb_lifetime_allocations =
2494 				    (uint32_t)parsenum(*argv, B_TRUE, ebuf);
2495 				break;
2496 			case TOK_SOFT_BYTES:
2497 				if (soft->sadb_lifetime_bytes != 0) {
2498 					ERROR(ep, ebuf, gettext(
2499 					    "Can only specify single"
2500 					    " soft byte limit.\n"));
2501 					break;
2502 				}
2503 				soft->sadb_lifetime_bytes = parsenum(*argv,
2504 				    B_TRUE, ebuf);
2505 				break;
2506 			case TOK_SOFT_ADDTIME:
2507 				if (soft->sadb_lifetime_addtime != 0) {
2508 					ERROR(ep, ebuf, gettext(
2509 					    "Can only specify single"
2510 					    " past-add lifetime.\n"));
2511 					break;
2512 				}
2513 				soft->sadb_lifetime_addtime = parsenum(*argv,
2514 				    B_TRUE, ebuf);
2515 				break;
2516 			case TOK_SOFT_USETIME:
2517 				if (soft->sadb_lifetime_usetime != 0) {
2518 					ERROR(ep, ebuf, gettext(
2519 					    "Can only specify single"
2520 					    " past-use lifetime.\n"));
2521 					break;
2522 				}
2523 				soft->sadb_lifetime_usetime = parsenum(*argv,
2524 				    B_TRUE, ebuf);
2525 				break;
2526 			}
2527 			argv++;
2528 			break;
2529 		case TOK_FLAG_INBOUND:
2530 			assoc->sadb_sa_flags |= SADB_X_SAFLAGS_INBOUND;
2531 			break;
2532 		case TOK_FLAG_OUTBOUND:
2533 			assoc->sadb_sa_flags |= SADB_X_SAFLAGS_OUTBOUND;
2534 			break;
2535 		case TOK_REPLAY_VALUE:
2536 			if (replay_ctr != NULL) {
2537 				ERROR(ep, ebuf, gettext(
2538 				    "Can only specify single "
2539 				    "replay value."));
2540 				break;
2541 			}
2542 			replay_ctr = calloc(1, sizeof (*replay_ctr));
2543 			if (replay_ctr == NULL) {
2544 				Bail("malloc(replay value)");
2545 			}
2546 			/*
2547 			 * We currently do not support a 64-bit
2548 			 * replay value.  RFC 4301 will require one,
2549 			 * however, and we have a field in place when
2550 			 * 4301 is built.
2551 			 */
2552 			replay_ctr->sadb_x_rc_exttype = SADB_X_EXT_REPLAY_VALUE;
2553 			replay_ctr->sadb_x_rc_len =
2554 			    SADB_8TO64(sizeof (*replay_ctr));
2555 			totallen += sizeof (*replay_ctr);
2556 			replay_ctr->sadb_x_rc_replay32 = (uint32_t)parsenum(
2557 			    *argv, B_TRUE, ebuf);
2558 			argv++;
2559 			break;
2560 		case TOK_IDLE_ADDTIME:
2561 		case TOK_IDLE_USETIME:
2562 			if (idle == NULL) {
2563 				idle = calloc(1, sizeof (*idle));
2564 				if (idle == NULL) {
2565 					Bail("malloc idle lifetime");
2566 				}
2567 				idle->sadb_lifetime_exttype =
2568 				    SADB_X_EXT_LIFETIME_IDLE;
2569 				idle->sadb_lifetime_len =
2570 				    SADB_8TO64(sizeof (*idle));
2571 				totallen += sizeof (*idle);
2572 			}
2573 			switch (token) {
2574 			case TOK_IDLE_ADDTIME:
2575 				idle->sadb_lifetime_addtime =
2576 				    (uint32_t)parsenum(*argv,
2577 				    B_TRUE, ebuf);
2578 				break;
2579 			case TOK_IDLE_USETIME:
2580 				idle->sadb_lifetime_usetime =
2581 				    (uint32_t)parsenum(*argv,
2582 				    B_TRUE, ebuf);
2583 				break;
2584 			}
2585 			argv++;
2586 			break;
2587 		case TOK_RESERVED:
2588 			if (encrypt != NULL)
2589 				ERROR(ep, ebuf, gettext(
2590 				    "Reserved bits need to be "
2591 				    "specified before key.\n"));
2592 			reserved_bits = (uint_t)parsenum(*argv,
2593 			    B_TRUE, ebuf);
2594 			argv++;
2595 			break;
2596 		case TOK_LABEL:
2597 			label = parselabel(token, *argv);
2598 			argv++;
2599 			if (label == NULL) {
2600 				ERROR(ep, ebuf,
2601 				    gettext("Malformed security label\n"));
2602 				break;
2603 			} else if (label == PARSELABEL_BAD_TOKEN) {
2604 				Bail("Internal token value error");
2605 			}
2606 			totallen += SADB_64TO8(label->sadb_sens_len);
2607 			break;
2608 
2609 		case TOK_OLABEL:
2610 		case TOK_IMPLABEL:
2611 			olabel = parselabel(token, *argv);
2612 			argv++;
2613 			if (label == NULL) {
2614 				ERROR(ep, ebuf,
2615 				    gettext("Malformed security label\n"));
2616 				break;
2617 			} else if (label == PARSELABEL_BAD_TOKEN) {
2618 				Bail("Internal token value error");
2619 			}
2620 			totallen += SADB_64TO8(olabel->sadb_sens_len);
2621 			break;
2622 		default:
2623 			ERROR1(ep, ebuf, gettext(
2624 			    "Don't use extension %s for add/update.\n"),
2625 			    *(argv - 1));
2626 			break;
2627 		}
2628 	} while (token != TOK_EOF);
2629 
2630 	handle_errors(ep, ebuf, B_TRUE, B_FALSE);
2631 
2632 #define	PORT_ONLY_ALLOCATE(af, socktype, exttype, extvar, port) {  \
2633 	alloclen = sizeof (sadb_address_t) + roundup(sizeof (socktype), 8); \
2634 	(extvar) = calloc(1, alloclen); \
2635 	if ((extvar) == NULL) { \
2636 		Bail("malloc(implicit port)"); \
2637 	} \
2638 	totallen += alloclen; \
2639 	(extvar)->sadb_address_len = SADB_8TO64(alloclen); \
2640 	(extvar)->sadb_address_exttype = (exttype); \
2641 	/* sin/sin6 has equivalent offsets for ports! */ \
2642 	sin6 = (struct sockaddr_in6 *)((extvar) + 1); \
2643 	sin6->sin6_family = (af); \
2644 	sin6->sin6_port = (port); \
2645 	}
2646 
2647 	/*
2648 	 * If we specify inner ports or NAT ports w/o addresses, we still need
2649 	 * to allocate.  Also, if we have one inner address, we need the
2650 	 * other, even if we don't specify anything.
2651 	 */
2652 	if (use_natt) {
2653 		if (natt_lport != 0 && natt_local == NULL) {
2654 			PORT_ONLY_ALLOCATE(AF_INET, struct sockaddr_in,
2655 			    SADB_X_EXT_ADDRESS_NATT_LOC, natt_local,
2656 			    natt_lport);
2657 		}
2658 
2659 		if (natt_rport != 0 && natt_remote == NULL) {
2660 			PORT_ONLY_ALLOCATE(AF_INET, struct sockaddr_in,
2661 			    SADB_X_EXT_ADDRESS_NATT_REM, natt_remote,
2662 			    natt_rport);
2663 		}
2664 	} else {
2665 		if (natt_lport != 0 || natt_rport != 0) {
2666 			ERROR(ep, ebuf, gettext("Must specify 'encap udp' "
2667 			    "with any NAT-T port.\n"));
2668 		} else if (natt_local != NULL || natt_remote != NULL) {
2669 			ERROR(ep, ebuf, gettext("Must specify 'encap udp' "
2670 			    "with any NAT-T address.\n"));
2671 		}
2672 	}
2673 
2674 	if (alloc_inner && idst == NULL) {
2675 		PORT_ONLY_ALLOCATE(AF_INET6, struct sockaddr_in6,
2676 		    SADB_X_EXT_ADDRESS_INNER_DST, idst, 0);
2677 	}
2678 
2679 	if (alloc_inner && isrc == NULL) {
2680 		PORT_ONLY_ALLOCATE(AF_INET6, struct sockaddr_in6,
2681 		    SADB_X_EXT_ADDRESS_INNER_SRC, isrc, 0);
2682 	}
2683 #undef PORT_ONLY_ALLOCATE
2684 
2685 	/*
2686 	 * Okay, so now I have all of the potential extensions!
2687 	 * Allocate a single contiguous buffer.  Keep in mind that it'll
2688 	 * be enough because the key itself will be yanked.
2689 	 */
2690 
2691 	if (src == NULL && dst != NULL) {
2692 		/*
2693 		 * Set explicit unspecified source address.
2694 		 */
2695 		size_t lenbytes = SADB_64TO8(dst->sadb_address_len);
2696 
2697 		unspec_src = B_TRUE;
2698 		totallen += lenbytes;
2699 		src = malloc(lenbytes);
2700 		if (src == NULL)
2701 			Bail("malloc(implicit src)");
2702 		/* Confusing, but we're copying from DST to SRC.  :) */
2703 		bcopy(dst, src, lenbytes);
2704 		src->sadb_address_exttype = SADB_EXT_ADDRESS_SRC;
2705 		sin6 = (struct sockaddr_in6 *)(src + 1);
2706 		bzero(sin6, sizeof (*sin6));
2707 		sin6->sin6_family = AF_INET6;
2708 	}
2709 
2710 	msg.sadb_msg_len = SADB_8TO64(totallen);
2711 
2712 	buffer = malloc(totallen);
2713 	nexthdr = buffer;
2714 	bcopy(&msg, nexthdr, sizeof (msg));
2715 	nexthdr += SADB_8TO64(sizeof (msg));
2716 	if (assoc != NULL) {
2717 		if (assoc->sadb_sa_spi == 0) {
2718 			ERROR1(ep, ebuf, gettext(
2719 			    "The SPI value is missing for "
2720 			    "the association you wish to %s.\n"), thiscmd);
2721 		}
2722 		if (assoc->sadb_sa_auth == 0 && assoc->sadb_sa_encrypt == 0 &&
2723 		    cmd == CMD_ADD) {
2724 			free(assoc);
2725 			FATAL(ep, ebuf, gettext(
2726 			    "Select at least one algorithm "
2727 			    "for this add.\n"));
2728 		}
2729 
2730 		/* Hack to let user specify NULL ESP implicitly. */
2731 		if (msg.sadb_msg_satype == SADB_SATYPE_ESP &&
2732 		    assoc->sadb_sa_encrypt == 0)
2733 			assoc->sadb_sa_encrypt = SADB_EALG_NULL;
2734 
2735 		/* 0 is an actual value.  Print a warning if it was entered. */
2736 		if (assoc->sadb_sa_state == 0) {
2737 			if (readstate) {
2738 				ERROR(ep, ebuf, gettext(
2739 				    "WARNING: Cannot set LARVAL SA state.\n"));
2740 			}
2741 			assoc->sadb_sa_state = SADB_SASTATE_MATURE;
2742 		}
2743 
2744 		if (use_natt) {
2745 			if (natt_remote != NULL)
2746 				assoc->sadb_sa_flags |= SADB_X_SAFLAGS_NATT_REM;
2747 			if (natt_local != NULL)
2748 				assoc->sadb_sa_flags |= SADB_X_SAFLAGS_NATT_LOC;
2749 		}
2750 
2751 		if (alloc_inner) {
2752 			/*
2753 			 * For now, assume RFC 3884's dream of transport-mode
2754 			 * SAs with inner IP address selectors will not
2755 			 * happen.
2756 			 */
2757 			assoc->sadb_sa_flags |= SADB_X_SAFLAGS_TUNNEL;
2758 			if (proto != 0 && proto != IPPROTO_ENCAP &&
2759 			    proto != IPPROTO_IPV6) {
2760 				ERROR1(ep, ebuf, gettext(
2761 				    "WARNING: Protocol type %d not "
2762 				    "for use with Tunnel-Mode SA.\n"), proto);
2763 				/* Continue and let PF_KEY scream... */
2764 			}
2765 		}
2766 
2767 		bcopy(assoc, nexthdr, SADB_64TO8(assoc->sadb_sa_len));
2768 		nexthdr += assoc->sadb_sa_len;
2769 		/* Save the SPI for the case of an error. */
2770 		spi = assoc->sadb_sa_spi;
2771 		free(assoc);
2772 	} else {
2773 		if (spi == 0)
2774 			ERROR1(ep, ebuf, gettext(
2775 			    "Need to define SPI for %s.\n"), thiscmd);
2776 		ERROR1(ep, ebuf, gettext(
2777 		    "Need SA parameters for %s.\n"), thiscmd);
2778 	}
2779 
2780 	if (sadb_pair != NULL) {
2781 		if (sadb_pair->sadb_x_pair_spi == 0) {
2782 			ERROR1(ep, ebuf, gettext(
2783 			    "The SPI value is missing for the "
2784 			    "association you wish to %s.\n"), thiscmd);
2785 		}
2786 		bcopy(sadb_pair, nexthdr,
2787 		    SADB_64TO8(sadb_pair->sadb_x_pair_len));
2788 		nexthdr += sadb_pair->sadb_x_pair_len;
2789 		free(sadb_pair);
2790 	}
2791 
2792 	if (hard != NULL) {
2793 		bcopy(hard, nexthdr, SADB_64TO8(hard->sadb_lifetime_len));
2794 		nexthdr += hard->sadb_lifetime_len;
2795 		free(hard);
2796 	}
2797 
2798 	if (soft != NULL) {
2799 		bcopy(soft, nexthdr, SADB_64TO8(soft->sadb_lifetime_len));
2800 		nexthdr += soft->sadb_lifetime_len;
2801 		free(soft);
2802 	}
2803 
2804 	if (idle != NULL) {
2805 		bcopy(idle, nexthdr, SADB_64TO8(idle->sadb_lifetime_len));
2806 		nexthdr += idle->sadb_lifetime_len;
2807 		free(idle);
2808 	}
2809 
2810 	if (encrypt == NULL && auth == NULL && cmd == CMD_ADD) {
2811 		ERROR(ep, ebuf, gettext(
2812 		    "Must have at least one key for an add.\n"));
2813 	}
2814 
2815 	if (encrypt != NULL) {
2816 		bcopy(encrypt, nexthdr, SADB_64TO8(encrypt->sadb_key_len));
2817 		nexthdr += encrypt->sadb_key_len;
2818 		bzero(encrypt, SADB_64TO8(encrypt->sadb_key_len));
2819 		free(encrypt);
2820 	}
2821 
2822 	if (auth != NULL) {
2823 		bcopy(auth, nexthdr, SADB_64TO8(auth->sadb_key_len));
2824 		nexthdr += auth->sadb_key_len;
2825 		bzero(auth, SADB_64TO8(auth->sadb_key_len));
2826 		free(auth);
2827 	}
2828 
2829 	if (srcid != NULL) {
2830 		bcopy(srcid, nexthdr, SADB_64TO8(srcid->sadb_ident_len));
2831 		nexthdr += srcid->sadb_ident_len;
2832 		free(srcid);
2833 	}
2834 
2835 	if (dstid != NULL) {
2836 		bcopy(dstid, nexthdr, SADB_64TO8(dstid->sadb_ident_len));
2837 		nexthdr += dstid->sadb_ident_len;
2838 		free(dstid);
2839 	}
2840 
2841 	if (dst != NULL) {
2842 		bcopy(dst, nexthdr, SADB_64TO8(dst->sadb_address_len));
2843 		free(dst);
2844 		dst = (struct sadb_address *)nexthdr;
2845 		dst->sadb_address_proto = proto;
2846 		((struct sockaddr_in6 *)(dst + 1))->sin6_port = htons(dstport);
2847 		nexthdr += dst->sadb_address_len;
2848 	} else {
2849 		FATAL1(ep, ebuf, gettext(
2850 		    "Need destination address for %s.\n"), thiscmd);
2851 	}
2852 
2853 	if (use_natt) {
2854 		if (natt_remote == NULL && natt_local == NULL) {
2855 			ERROR(ep, ebuf, gettext(
2856 			    "Must specify NAT-T remote or local address "
2857 			    "for UDP encapsulation.\n"));
2858 		}
2859 
2860 		if (natt_remote != NULL) {
2861 			bcopy(natt_remote, nexthdr,
2862 			    SADB_64TO8(natt_remote->sadb_address_len));
2863 			free(natt_remote);
2864 			natt_remote = (struct sadb_address *)nexthdr;
2865 			nexthdr += natt_remote->sadb_address_len;
2866 			((struct sockaddr_in6 *)(natt_remote + 1))->sin6_port =
2867 			    htons(natt_rport);
2868 		}
2869 
2870 		if (natt_local != NULL) {
2871 			bcopy(natt_local, nexthdr,
2872 			    SADB_64TO8(natt_local->sadb_address_len));
2873 			free(natt_local);
2874 			natt_local = (struct sadb_address *)nexthdr;
2875 			nexthdr += natt_local->sadb_address_len;
2876 			((struct sockaddr_in6 *)(natt_local + 1))->sin6_port =
2877 			    htons(natt_lport);
2878 		}
2879 	}
2880 
2881 	handle_errors(ep, ebuf, B_TRUE, B_FALSE);
2882 
2883 	/*
2884 	 * PF_KEY requires a source address extension, even if the source
2885 	 * address itself is unspecified. (See "Set explicit unspecified..."
2886 	 * code fragment above. Destination reality check was above.)
2887 	 */
2888 	bcopy(src, nexthdr, SADB_64TO8(src->sadb_address_len));
2889 	free(src);
2890 	src = (struct sadb_address *)nexthdr;
2891 	src->sadb_address_proto = proto;
2892 	((struct sockaddr_in6 *)(src + 1))->sin6_port = htons(srcport);
2893 	nexthdr += src->sadb_address_len;
2894 
2895 	if (isrc != NULL) {
2896 		bcopy(isrc, nexthdr, SADB_64TO8(isrc->sadb_address_len));
2897 		free(isrc);
2898 		isrc = (struct sadb_address *)nexthdr;
2899 		isrc->sadb_address_proto = iproto;
2900 		((struct sockaddr_in6 *)(isrc + 1))->sin6_port =
2901 		    htons(isrcport);
2902 		nexthdr += isrc->sadb_address_len;
2903 	}
2904 
2905 	if (idst != NULL) {
2906 		bcopy(idst, nexthdr, SADB_64TO8(idst->sadb_address_len));
2907 		free(idst);
2908 		idst = (struct sadb_address *)nexthdr;
2909 		idst->sadb_address_proto = iproto;
2910 		((struct sockaddr_in6 *)(idst + 1))->sin6_port =
2911 		    htons(idstport);
2912 		nexthdr += idst->sadb_address_len;
2913 	}
2914 
2915 	if (replay_ctr != NULL) {
2916 		bcopy(replay_ctr, nexthdr,
2917 		    SADB_64TO8(replay_ctr->sadb_x_rc_len));
2918 		nexthdr += replay_ctr->sadb_x_rc_len;
2919 		free(replay_ctr);
2920 	}
2921 
2922 	if (label != NULL) {
2923 		bcopy(label, nexthdr, SADB_64TO8(label->sadb_sens_len));
2924 		nexthdr += label->sadb_sens_len;
2925 		free(label);
2926 		label = NULL;
2927 	}
2928 
2929 	if (olabel != NULL) {
2930 		bcopy(olabel, nexthdr, SADB_64TO8(olabel->sadb_sens_len));
2931 		nexthdr += olabel->sadb_sens_len;
2932 		free(olabel);
2933 		olabel = NULL;
2934 	}
2935 
2936 	if (cflag) {
2937 		/*
2938 		 * Assume the checked cmd would have worked if it was actually
2939 		 * used. doaddresses() will increment lines_added if it
2940 		 * succeeds.
2941 		 */
2942 		lines_added++;
2943 	} else {
2944 		doaddresses(sadb_msg_type, satype,
2945 		    cmd, srchp, dsthp, src, dst, unspec_src, buffer, totallen,
2946 		    spi, ebuf);
2947 	}
2948 
2949 	if (isrchp != NULL && isrchp != &dummy.he)
2950 		freehostent(isrchp);
2951 	if (idsthp != NULL && idsthp != &dummy.he)
2952 		freehostent(idsthp);
2953 	if (srchp != NULL && srchp != &dummy.he)
2954 		freehostent(srchp);
2955 	if (dsthp != NULL && dsthp != &dummy.he)
2956 		freehostent(dsthp);
2957 	if (natt_lhp != NULL && natt_lhp != &dummy.he)
2958 		freehostent(natt_lhp);
2959 	if (natt_rhp != NULL && natt_rhp != &dummy.he)
2960 		freehostent(natt_rhp);
2961 	free(ebuf);
2962 	free(buffer);
2963 }
2964 
2965 /*
2966  * DELETE and GET are similar, in that they only need the extensions
2967  * required to _find_ an SA, and then either delete it or obtain its
2968  * information.
2969  */
2970 static void
2971 dodelget(int cmd, int satype, char *argv[], char *ebuf)
2972 {
2973 	struct sadb_msg *msg = (struct sadb_msg *)get_buffer;
2974 	uint64_t *nextext;
2975 	struct sadb_sa *assoc = NULL;
2976 	struct sadb_address *src = NULL, *dst = NULL;
2977 	int next, token, sa_len;
2978 	char *thiscmd;
2979 	uint32_t spi;
2980 	uint8_t	sadb_msg_type;
2981 	struct hostent *srchp = NULL, *dsthp = NULL;
2982 	struct sockaddr_in6 *sin6;
2983 	boolean_t unspec_src = B_TRUE;
2984 	uint16_t srcport = 0, dstport = 0;
2985 	uint8_t proto = 0;
2986 	char *ep = NULL;
2987 	uint32_t sa_flags = 0;
2988 
2989 	/* Set the first extension header to right past the base message. */
2990 	nextext = (uint64_t *)(msg + 1);
2991 	bzero(nextext, sizeof (get_buffer) - sizeof (*msg));
2992 
2993 	switch (cmd) {
2994 	case CMD_GET:
2995 		thiscmd = "get";
2996 		sadb_msg_type = SADB_GET;
2997 		break;
2998 	case CMD_DELETE:
2999 		thiscmd = "delete";
3000 		sadb_msg_type = SADB_DELETE;
3001 		break;
3002 	case CMD_DELETE_PAIR:
3003 		thiscmd = "delete-pair";
3004 		sadb_msg_type = SADB_X_DELPAIR;
3005 		break;
3006 	}
3007 
3008 	msg_init(msg, sadb_msg_type, (uint8_t)satype);
3009 
3010 #define	ALLOC_ADDR_EXT(ext, exttype)			\
3011 	(ext) = (struct sadb_address *)nextext;		\
3012 	nextext = (uint64_t *)((ext) + 1);		\
3013 	nextext += SADB_8TO64(roundup(sa_len, 8));	\
3014 	(ext)->sadb_address_exttype = exttype;		\
3015 	(ext)->sadb_address_len = nextext - ((uint64_t *)ext);
3016 
3017 	/* Assume last element in argv is set to NULL. */
3018 	do {
3019 		token = parseextval(*argv, &next);
3020 		argv++;
3021 		switch (token) {
3022 		case TOK_EOF:
3023 			/* Do nothing, I'm done. */
3024 			break;
3025 		case TOK_UNKNOWN:
3026 			ERROR1(ep, ebuf, gettext(
3027 			    "Unknown extension field \"%s\"\n"), *(argv - 1));
3028 			break;
3029 		case TOK_SPI:
3030 			if (assoc != NULL) {
3031 				ERROR(ep, ebuf, gettext(
3032 				    "Can only specify single SPI value.\n"));
3033 				break;
3034 			}
3035 			assoc = (struct sadb_sa *)nextext;
3036 			nextext = (uint64_t *)(assoc + 1);
3037 			assoc->sadb_sa_len = SADB_8TO64(sizeof (*assoc));
3038 			assoc->sadb_sa_exttype = SADB_EXT_SA;
3039 			assoc->sadb_sa_spi = htonl((uint32_t)parsenum(*argv,
3040 			    B_TRUE, ebuf));
3041 			spi = assoc->sadb_sa_spi;
3042 			argv++;
3043 			break;
3044 		case TOK_SRCPORT:
3045 			if (srcport != 0) {
3046 				ERROR(ep, ebuf, gettext(
3047 				    "Can only specify single source port.\n"));
3048 				break;
3049 			}
3050 			srcport = parsenum(*argv, B_TRUE, ebuf);
3051 			argv++;
3052 			break;
3053 		case TOK_DSTPORT:
3054 			if (dstport != 0) {
3055 				ERROR(ep, ebuf, gettext(
3056 				    "Can only "
3057 				    "specify single destination port.\n"));
3058 				break;
3059 			}
3060 			dstport = parsenum(*argv, B_TRUE, ebuf);
3061 			argv++;
3062 			break;
3063 		case TOK_PROTO:
3064 			if (proto != 0) {
3065 				ERROR(ep, ebuf, gettext(
3066 				    "Can only specify single protocol.\n"));
3067 				break;
3068 			}
3069 			proto = parsenum(*argv, B_TRUE, ebuf);
3070 			argv++;
3071 			break;
3072 		case TOK_SRCADDR:
3073 		case TOK_SRCADDR6:
3074 			if (src != NULL) {
3075 				ERROR(ep, ebuf, gettext(
3076 				    "Can only specify single source addr.\n"));
3077 				break;
3078 			}
3079 			sa_len = parseaddr(*argv, &srchp,
3080 			    (token == TOK_SRCADDR6), ebuf);
3081 			if (srchp == NULL) {
3082 				ERROR1(ep, ebuf, gettext(
3083 				    "Unknown source address \"%s\"\n"), *argv);
3084 				break;
3085 			}
3086 			argv++;
3087 
3088 			unspec_src = B_FALSE;
3089 
3090 			ALLOC_ADDR_EXT(src, SADB_EXT_ADDRESS_SRC);
3091 
3092 			if (srchp == &dummy.he) {
3093 				/*
3094 				 * Single address with -n flag.
3095 				 */
3096 				sin6 = (struct sockaddr_in6 *)(src + 1);
3097 				bzero(sin6, sizeof (*sin6));
3098 				sin6->sin6_family = AF_INET6;
3099 				bcopy(srchp->h_addr_list[0], &sin6->sin6_addr,
3100 				    sizeof (struct in6_addr));
3101 			}
3102 			/* The rest is pre-bzeroed for us. */
3103 			break;
3104 		case TOK_DSTADDR:
3105 		case TOK_DSTADDR6:
3106 			if (dst != NULL) {
3107 				ERROR(ep, ebuf, gettext(
3108 				    "Can only specify single destination "
3109 				    "address.\n"));
3110 				break;
3111 			}
3112 			sa_len = parseaddr(*argv, &dsthp,
3113 			    (token == TOK_SRCADDR6), ebuf);
3114 			if (dsthp == NULL) {
3115 				ERROR1(ep, ebuf, gettext(
3116 				    "Unknown destination address \"%s\"\n"),
3117 				    *argv);
3118 				break;
3119 			}
3120 			argv++;
3121 
3122 			ALLOC_ADDR_EXT(dst, SADB_EXT_ADDRESS_DST);
3123 
3124 			if (dsthp == &dummy.he) {
3125 				/*
3126 				 * Single address with -n flag.
3127 				 */
3128 				sin6 = (struct sockaddr_in6 *)(dst + 1);
3129 				bzero(sin6, sizeof (*sin6));
3130 				sin6->sin6_family = AF_INET6;
3131 				bcopy(dsthp->h_addr_list[0], &sin6->sin6_addr,
3132 				    sizeof (struct in6_addr));
3133 			}
3134 			/* The rest is pre-bzeroed for us. */
3135 			break;
3136 		case TOK_FLAG_INBOUND:
3137 			sa_flags |= SADB_X_SAFLAGS_INBOUND;
3138 			break;
3139 		case TOK_FLAG_OUTBOUND:
3140 			sa_flags |= SADB_X_SAFLAGS_OUTBOUND;
3141 			break;
3142 		default:
3143 			ERROR2(ep, ebuf, gettext(
3144 			    "Don't use extension %s for '%s' command.\n"),
3145 			    *(argv - 1), thiscmd);
3146 			break;
3147 		}
3148 	} while (token != TOK_EOF);
3149 
3150 	handle_errors(ep, ebuf, B_TRUE, B_FALSE);
3151 
3152 	if (assoc == NULL) {
3153 		FATAL1(ep, ebuf, gettext(
3154 		    "Need SA parameters for %s.\n"), thiscmd);
3155 	}
3156 
3157 	/* We can set the flags now with valid assoc in hand. */
3158 	assoc->sadb_sa_flags |= sa_flags;
3159 
3160 	if ((srcport != 0) && (src == NULL)) {
3161 		ALLOC_ADDR_EXT(src, SADB_EXT_ADDRESS_SRC);
3162 		sin6 = (struct sockaddr_in6 *)(src + 1);
3163 		src->sadb_address_proto = proto;
3164 		bzero(sin6, sizeof (*sin6));
3165 		sin6->sin6_family = AF_INET6;
3166 		sin6->sin6_port = htons(srcport);
3167 	}
3168 
3169 	if ((dstport != 0) && (dst == NULL)) {
3170 		ALLOC_ADDR_EXT(dst, SADB_EXT_ADDRESS_DST);
3171 		sin6 = (struct sockaddr_in6 *)(dst + 1);
3172 		src->sadb_address_proto = proto;
3173 		bzero(sin6, sizeof (*sin6));
3174 		sin6->sin6_family = AF_INET6;
3175 		sin6->sin6_port = htons(dstport);
3176 	}
3177 
3178 	/* So I have enough of the message to send it down! */
3179 	msg->sadb_msg_len = nextext - get_buffer;
3180 
3181 	if (cflag) {
3182 		/*
3183 		 * Assume the checked cmd would have worked if it was actually
3184 		 * used. doaddresses() will increment lines_added if it
3185 		 * succeeds.
3186 		 */
3187 		lines_added++;
3188 	} else {
3189 		doaddresses(sadb_msg_type, satype,
3190 		    cmd, srchp, dsthp, src, dst, unspec_src, get_buffer,
3191 		    sizeof (get_buffer), spi, NULL);
3192 	}
3193 
3194 	if (srchp != NULL && srchp != &dummy.he)
3195 		freehostent(srchp);
3196 	if (dsthp != NULL && dsthp != &dummy.he)
3197 		freehostent(dsthp);
3198 }
3199 
3200 /*
3201  * "ipseckey monitor" should exit very gracefully if ^C is tapped provided
3202  * it is not running in interactive mode.
3203  */
3204 static void
3205 monitor_catch(int signal)
3206 {
3207 	if (!interactive)
3208 		errx(signal, gettext("Bailing on signal %d."), signal);
3209 }
3210 
3211 /*
3212  * Loop forever, listening on PF_KEY messages.
3213  */
3214 static void
3215 domonitor(boolean_t passive)
3216 {
3217 	struct sadb_msg *samsg;
3218 	struct sigaction newsig, oldsig;
3219 	int rc;
3220 
3221 	/* Catch ^C. */
3222 	newsig.sa_handler = monitor_catch;
3223 	newsig.sa_flags = 0;
3224 	(void) sigemptyset(&newsig.sa_mask);
3225 	(void) sigaddset(&newsig.sa_mask, SIGINT);
3226 	(void) sigaction(SIGINT, &newsig, &oldsig);
3227 
3228 	samsg = (struct sadb_msg *)get_buffer;
3229 	if (!passive) {
3230 		(void) printf(gettext("Actively"));
3231 		msg_init(samsg, SADB_X_PROMISC, 1);	/* Turn ON promisc. */
3232 		rc = key_write(keysock, samsg, sizeof (*samsg));
3233 		if (rc == -1)
3234 			Bail("write (SADB_X_PROMISC)");
3235 	} else {
3236 		(void) printf(gettext("Passively"));
3237 	}
3238 	(void) printf(gettext(" monitoring the PF_KEY socket.\n"));
3239 
3240 	for (; ; ) {
3241 		/*
3242 		 * I assume that read() is non-blocking, and will never
3243 		 * return 0.
3244 		 */
3245 		rc = read(keysock, samsg, sizeof (get_buffer));
3246 		if (rc == -1) {
3247 			if (errno == EINTR && interactive)
3248 				goto out;
3249 			else
3250 				Bail("read (in domonitor)");
3251 		}
3252 		(void) printf(gettext("Read %d bytes.\n"), rc);
3253 		/*
3254 		 * Q:  Should I use the same method of printing as GET does?
3255 		 * A:  For now, yes.
3256 		 */
3257 		print_samsg(stdout, get_buffer, B_TRUE, vflag, nflag);
3258 		(void) putchar('\n');
3259 	}
3260 
3261 out:
3262 	if (interactive)
3263 		/* restore SIGINT behavior */
3264 		(void) sigaction(SIGINT, &oldsig, NULL);
3265 }
3266 
3267 /*
3268  * Either mask or unmask all relevant signals.
3269  */
3270 static void
3271 mask_signals(boolean_t unmask)
3272 {
3273 	sigset_t set;
3274 	static sigset_t oset;
3275 
3276 	if (unmask) {
3277 		(void) sigprocmask(SIG_SETMASK, &oset, NULL);
3278 	} else {
3279 		(void) sigfillset(&set);
3280 		(void) sigprocmask(SIG_SETMASK, &set, &oset);
3281 	}
3282 }
3283 
3284 /*
3285  * Assorted functions to print help text.
3286  */
3287 #define	puts_tr(s) (void) puts(gettext(s))
3288 
3289 static void
3290 doattrhelp()
3291 {
3292 	int i;
3293 
3294 	puts_tr("\nSA attributes:");
3295 
3296 	for (i = 0; tokens[i].string != NULL; i++) {
3297 		if (i%3 == 0)
3298 			(void) printf("\n");
3299 		(void) printf("    %-15.15s", tokens[i].string);
3300 	}
3301 	(void) printf("\n");
3302 }
3303 
3304 static void
3305 dohelpcmd(char *cmds)
3306 {
3307 	int cmd;
3308 
3309 	if (strcmp(cmds, "attr") == 0) {
3310 		doattrhelp();
3311 		return;
3312 	}
3313 
3314 	cmd = parsecmd(cmds);
3315 	switch (cmd) {
3316 	case CMD_UPDATE:
3317 		puts_tr("update	 - Update an existing SA");
3318 		break;
3319 	case CMD_UPDATE_PAIR:
3320 		puts_tr("update-pair - Update an existing pair of SA's");
3321 		break;
3322 	case CMD_ADD:
3323 		puts_tr("add	 - Add a new security association (SA)");
3324 		break;
3325 	case CMD_DELETE:
3326 		puts_tr("delete - Delete an SA");
3327 		break;
3328 	case CMD_DELETE_PAIR:
3329 		puts_tr("delete-pair - Delete a pair of SA's");
3330 		break;
3331 	case CMD_GET:
3332 		puts_tr("get - Display an SA");
3333 		break;
3334 	case CMD_FLUSH:
3335 		puts_tr("flush - Delete all SAs");
3336 		puts_tr("");
3337 		puts_tr("Optional arguments:");
3338 		puts_tr("all        delete all SAs");
3339 		puts_tr("esp        delete just ESP SAs");
3340 		puts_tr("ah         delete just AH SAs");
3341 		puts_tr("<number>   delete just SAs with type given by number");
3342 		puts_tr("");
3343 		break;
3344 	case CMD_DUMP:
3345 		puts_tr("dump - Display all SAs");
3346 		puts_tr("");
3347 		puts_tr("Optional arguments:");
3348 		puts_tr("all        display all SAs");
3349 		puts_tr("esp        display just ESP SAs");
3350 		puts_tr("ah         display just AH SAs");
3351 		puts_tr("<number>   display just SAs with type "
3352 		    "given by number");
3353 		puts_tr("");
3354 		break;
3355 	case CMD_MONITOR:
3356 		puts_tr("monitor - Monitor all PF_KEY reply messages.");
3357 		break;
3358 	case CMD_PMONITOR:
3359 		puts_tr(
3360 "pmonitor, passive_monitor - Monitor PF_KEY messages that");
3361 		puts_tr(
3362 "                            reply to all PF_KEY sockets.");
3363 		break;
3364 
3365 	case CMD_QUIT:
3366 		puts_tr("quit, exit - Exit the program");
3367 		break;
3368 	case CMD_SAVE:
3369 		puts_tr("save	    - Saves all SAs to a file");
3370 		break;
3371 	case CMD_HELP:
3372 		puts_tr("help	    - Display list of commands");
3373 		puts_tr("help <cmd> - Display help for command");
3374 		puts_tr("help attr  - Display possible SA attributes");
3375 		break;
3376 	default:
3377 		(void) printf(gettext("%s: Unknown command\n"), cmds);
3378 		break;
3379 	}
3380 }
3381 
3382 
3383 static void
3384 dohelp(char *cmds)
3385 {
3386 	if (cmds != NULL) {
3387 		dohelpcmd(cmds);
3388 		return;
3389 	}
3390 	puts_tr("Commands");
3391 	puts_tr("--------");
3392 	puts_tr("?, help  - Display this list");
3393 	puts_tr("help <cmd> - Display help for command");
3394 	puts_tr("help attr  - Display possible SA attributes");
3395 	puts_tr("quit, exit - Exit the program");
3396 	puts_tr("monitor - Monitor all PF_KEY reply messages.");
3397 	puts_tr("pmonitor, passive_monitor - Monitor PF_KEY messages that");
3398 	puts_tr("                            reply to all PF_KEY sockets.");
3399 	puts_tr("");
3400 	puts_tr("The following commands are of the form:");
3401 	puts_tr("    <command> {SA type} {attribute value}*");
3402 	puts_tr("");
3403 	puts_tr("add (interactive only) - Add a new security association (SA)");
3404 	puts_tr("update (interactive only) - Update an existing SA");
3405 	puts_tr("update-pair (interactive only) - Update an existing SA pair");
3406 	puts_tr("delete - Delete an SA");
3407 	puts_tr("delete-pair - Delete an SA pair");
3408 	puts_tr("get - Display an SA");
3409 	puts_tr("flush - Delete all SAs");
3410 	puts_tr("dump - Display all SAs");
3411 	puts_tr("save - Saves all SAs to a file");
3412 }
3413 
3414 /*
3415  * "Parse" a command line from argv.
3416  */
3417 static void
3418 parseit(int argc, char *argv[], char *ebuf, boolean_t read_cmdfile)
3419 {
3420 	int cmd, satype;
3421 	char *ep = NULL;
3422 
3423 	if (argc == 0)
3424 		return;
3425 	cmd = parsecmd(*argv++);
3426 
3427 	/*
3428 	 * Some commands loop forever and should only be run from the command
3429 	 * line, they should never be run from a command file as this may
3430 	 * be used at boot time.
3431 	 */
3432 	switch (cmd) {
3433 	case CMD_HELP:
3434 		if (read_cmdfile)
3435 			ERROR(ep, ebuf, gettext("Help not appropriate in "
3436 			    "config file."));
3437 		else
3438 			dohelp(*argv);
3439 		return;
3440 	case CMD_MONITOR:
3441 		if (read_cmdfile)
3442 			ERROR(ep, ebuf, gettext("Monitor not appropriate in "
3443 			    "config file."));
3444 		else {
3445 			domonitor(B_FALSE);
3446 			/*
3447 			 * Return from the function in interactive mode to
3448 			 * avoid error message in the next switch statement.
3449 			 * Also print newline to prevent prompt clobbering.
3450 			 * The same is done for CMD_PMONITOR.
3451 			 */
3452 			if (interactive) {
3453 				(void) printf("\n");
3454 				return;
3455 			}
3456 		}
3457 		break;
3458 	case CMD_PMONITOR:
3459 		if (read_cmdfile)
3460 			ERROR(ep, ebuf, gettext("Monitor not appropriate in "
3461 			    "config file."));
3462 		else {
3463 			domonitor(B_TRUE);
3464 			if (interactive) {
3465 				(void) printf("\n");
3466 				return;
3467 			}
3468 		}
3469 		break;
3470 	case CMD_QUIT:
3471 		EXIT_OK(NULL);
3472 	}
3473 
3474 	handle_errors(ep, ebuf, B_FALSE, B_FALSE);
3475 
3476 	satype = parsesatype(*argv, ebuf);
3477 
3478 	if (satype != SADB_SATYPE_UNSPEC) {
3479 		argv++;
3480 	} else {
3481 		/*
3482 		 * You must specify either "all" or a specific SA type
3483 		 * for the "save" command.
3484 		 */
3485 		if (cmd == CMD_SAVE)
3486 			if (*argv == NULL) {
3487 				FATAL(ep, ebuf, gettext(
3488 				    "Must specify a specific "
3489 				    "SA type for save.\n"));
3490 			} else {
3491 				argv++;
3492 			}
3493 	}
3494 
3495 	switch (cmd) {
3496 	case CMD_FLUSH:
3497 		if (argc > 2) {
3498 			ERROR(ep, ebuf, gettext("Too many arguments for "
3499 			    "flush command"));
3500 			handle_errors(ep, ebuf,
3501 			    interactive ? B_TRUE : B_FALSE, B_FALSE);
3502 		}
3503 		if (!cflag)
3504 			doflush(satype);
3505 		/*
3506 		 * If this was called because of an entry in a cmd file
3507 		 * then this action needs to be counted to prevent
3508 		 * do_interactive() treating this as an error.
3509 		 */
3510 		lines_added++;
3511 		break;
3512 	case CMD_ADD:
3513 	case CMD_UPDATE:
3514 	case CMD_UPDATE_PAIR:
3515 		/*
3516 		 * NOTE: Shouldn't allow ADDs or UPDATEs with keying material
3517 		 * from the command line.
3518 		 */
3519 		if (!interactive) {
3520 			errx(1, gettext(
3521 			    "can't do ADD or UPDATE from the command line.\n"));
3522 		}
3523 		if (satype == SADB_SATYPE_UNSPEC) {
3524 			FATAL(ep, ebuf, gettext(
3525 			    "Must specify a specific SA type."));
3526 			/* NOTREACHED */
3527 		}
3528 		/* Parse for extensions, including keying material. */
3529 		doaddup(cmd, satype, argv, ebuf);
3530 		break;
3531 	case CMD_DELETE:
3532 	case CMD_DELETE_PAIR:
3533 	case CMD_GET:
3534 		if (satype == SADB_SATYPE_UNSPEC) {
3535 			FATAL(ep, ebuf, gettext(
3536 			    "Must specify a single SA type."));
3537 			/* NOTREACHED */
3538 		}
3539 		/* Parse for bare minimum to locate an SA. */
3540 		dodelget(cmd, satype, argv, ebuf);
3541 		break;
3542 	case CMD_DUMP:
3543 		if (read_cmdfile)
3544 			ERROR(ep, ebuf, gettext("Dump not appropriate in "
3545 			    "config file."));
3546 		else {
3547 			if (argc > 2) {
3548 				ERROR(ep, ebuf, gettext("Too many arguments "
3549 				    "for dump command"));
3550 				handle_errors(ep, ebuf,
3551 				    interactive ? B_TRUE : B_FALSE, B_FALSE);
3552 			}
3553 			dodump(satype, NULL);
3554 		}
3555 		break;
3556 	case CMD_SAVE:
3557 		if (read_cmdfile) {
3558 			ERROR(ep, ebuf, gettext("Save not appropriate in "
3559 			    "config file."));
3560 		} else {
3561 			mask_signals(B_FALSE);	/* Mask signals */
3562 			dodump(satype, opensavefile(argv[0]));
3563 			mask_signals(B_TRUE);	/* Unmask signals */
3564 		}
3565 		break;
3566 	default:
3567 		warnx(gettext("Unknown command (%s).\n"),
3568 		    *(argv - ((satype == SADB_SATYPE_UNSPEC) ? 1 : 2)));
3569 		usage();
3570 	}
3571 	handle_errors(ep, ebuf, B_FALSE, B_FALSE);
3572 }
3573 
3574 int
3575 main(int argc, char *argv[])
3576 {
3577 	int ch;
3578 	FILE *infile = stdin, *savefile;
3579 	boolean_t dosave = B_FALSE, readfile = B_FALSE;
3580 	char *configfile = NULL;
3581 	struct stat sbuf;
3582 	int bootflags;
3583 
3584 	(void) setlocale(LC_ALL, "");
3585 #if !defined(TEXT_DOMAIN)
3586 #define	TEXT_DOMAIN "SYS_TEST"
3587 #endif
3588 	(void) textdomain(TEXT_DOMAIN);
3589 
3590 	/*
3591 	 * Check to see if the command is being run from smf(5).
3592 	 */
3593 	my_fmri = getenv("SMF_FMRI");
3594 
3595 	openlog("ipseckey", LOG_CONS, LOG_AUTH);
3596 	if (getuid() != 0) {
3597 		errx(1, "Insufficient privileges to run ipseckey.");
3598 	}
3599 
3600 	/* umask me to paranoid, I only want to create files read-only */
3601 	(void) umask((mode_t)00377);
3602 
3603 	while ((ch = getopt(argc, argv, "pnvf:s:c:")) != EOF)
3604 		switch (ch) {
3605 		case 'p':
3606 			pflag = B_TRUE;
3607 			break;
3608 		case 'n':
3609 			nflag = B_TRUE;
3610 			break;
3611 		case 'v':
3612 			vflag = B_TRUE;
3613 			break;
3614 		case 'c':
3615 			cflag = B_TRUE;
3616 			/* FALLTHRU */
3617 		case 'f':
3618 			if (dosave)
3619 				usage();
3620 
3621 			/*
3622 			 * Use stat() to check and see if the user inadvertently
3623 			 * passed in a bad pathname, or the name of a directory.
3624 			 * We should also check to see if the filename is a
3625 			 * pipe. We use stat() here because fopen() will block
3626 			 * unless the other end of the pipe is open. This would
3627 			 * be undesirable, especially if this is called at boot
3628 			 * time. If we ever need to support reading from a pipe
3629 			 * or special file, this should be revisited.
3630 			 */
3631 			if (stat(optarg, &sbuf) == -1) {
3632 				EXIT_BADCONFIG2("Invalid pathname: %s\n",
3633 				    optarg);
3634 			}
3635 			if (!(sbuf.st_mode & S_IFREG)) {
3636 				EXIT_BADCONFIG2("%s - Not a regular file\n",
3637 				    optarg);
3638 			}
3639 			infile = fopen(optarg, "r");
3640 			if (infile == NULL) {
3641 				EXIT_BADCONFIG2("Unable to open configuration "
3642 				    "file: %s\n", optarg);
3643 			}
3644 			/*
3645 			 * The input file contains keying information, because
3646 			 * this is sensative, we should only accept data from
3647 			 * this file if the file is root owned and only readable
3648 			 * by privileged users. If the command is being run by
3649 			 * the administrator, issue a warning, if this is run by
3650 			 * smf(5) (IE: boot time) and the permissions are too
3651 			 * open, we will fail, the SMF service will end up in
3652 			 * maintenace mode. The check is made with fstat() to
3653 			 * eliminate any possible TOT to TOU window.
3654 			 */
3655 			if (fstat(fileno(infile), &sbuf) == -1) {
3656 				(void) fclose(infile);
3657 				EXIT_BADCONFIG2("Unable to stat configuration "
3658 				    "file: %s\n", optarg);
3659 			}
3660 			if (INSECURE_PERMS(sbuf)) {
3661 				if (my_fmri != NULL) {
3662 					(void) fclose(infile);
3663 					EXIT_BADCONFIG2("Config file "
3664 					    "%s has insecure permissions.",
3665 					    optarg);
3666 				} else 	{
3667 					(void) fprintf(stderr, gettext(
3668 					    "Config file %s has insecure "
3669 					    "permissions, will be rejected in "
3670 					    "permanent config.\n"), optarg);
3671 				}
3672 			}
3673 			configfile = strdup(optarg);
3674 			readfile = B_TRUE;
3675 			break;
3676 		case 's':
3677 			if (readfile)
3678 				usage();
3679 			dosave = B_TRUE;
3680 			savefile = opensavefile(optarg);
3681 			break;
3682 		default:
3683 			usage();
3684 		}
3685 
3686 	argc -= optind;
3687 	argv += optind;
3688 
3689 	mypid = getpid();
3690 
3691 	keysock = socket(PF_KEY, SOCK_RAW, PF_KEY_V2);
3692 
3693 	if (keysock == -1) {
3694 		if (errno == EPERM) {
3695 			EXIT_BADPERM("Insufficient privileges to open "
3696 			    "PF_KEY socket.\n");
3697 		} else {
3698 			/* some other reason */
3699 			EXIT_FATAL("Opening PF_KEY socket");
3700 		}
3701 	}
3702 
3703 	if ((_cladm(CL_INITIALIZE, CL_GET_BOOTFLAG, &bootflags) != 0) ||
3704 	    (bootflags & CLUSTER_BOOTED)) {
3705 		in_cluster_mode = B_TRUE;
3706 		cluster_socket = socket(AF_INET, SOCK_DGRAM, 0);
3707 		cli_addr.sin_family = AF_INET;
3708 		cli_addr.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
3709 		cli_addr.sin_port = htons(CLUSTER_UDP_PORT);
3710 	}
3711 
3712 	if (dosave) {
3713 		mask_signals(B_FALSE);	/* Mask signals */
3714 		dodump(SADB_SATYPE_UNSPEC, savefile);
3715 		mask_signals(B_TRUE);	/* Unmask signals */
3716 		EXIT_OK(NULL);
3717 	}
3718 
3719 	/*
3720 	 * When run from smf(5) flush any existing SA's first
3721 	 * otherwise you will end up in maintenance mode.
3722 	 */
3723 	if ((my_fmri != NULL) && readfile) {
3724 		(void) fprintf(stdout, gettext(
3725 		    "Flushing existing SA's before adding new SA's\n"));
3726 		(void) fflush(stdout);
3727 		doflush(SADB_SATYPE_UNSPEC);
3728 	}
3729 	if (infile != stdin || argc == 0) {
3730 		/* Go into interactive mode here. */
3731 		do_interactive(infile, configfile, "ipseckey> ", my_fmri,
3732 		    parseit, no_match);
3733 	}
3734 	parseit(argc, argv, NULL, B_FALSE);
3735 
3736 	return (0);
3737 }
3738