xref: /titanic_44/usr/src/lib/libbsm/common/adt_token.c (revision 5bbb4db2c3f208d12bf0fd11769728f9e5ba66a2)
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  * adt_token.c
23  *
24  * Copyright 2009 Sun Microsystems, Inc.  All rights reserved.
25  * Use is subject to license terms.
26  *
27  * This file does not provide any user callable functions.  See adt.c
28  */
29 
30 #include <bsm/adt.h>
31 #include <bsm/adt_event.h>
32 #include <bsm/audit.h>
33 
34 #include <adt_xlate.h>
35 #include <assert.h>
36 #include <netdb.h>
37 #include <priv.h>
38 #include <string.h>
39 #include <strings.h>
40 #include <stdlib.h>
41 #include <time.h>
42 #include <unistd.h>
43 
44 #include <sys/priv_names.h>
45 #include <sys/socket.h>
46 #include <sys/types.h>
47 #include <sys/vnode.h>
48 
49 #include <tsol/label.h>
50 
51 #ifdef	C2_DEBUG
52 #define	DPRINTF(x) {printf x; }
53 #define	DFLUSH fflush(stdout);
54 
55 /* 0x + Classification + Compartments + end of string */
56 #define	HEX_SIZE 2 + 2*2 + 2*32 + 1
57 
58 static char *
59 dprt_label(m_label_t *label)
60 {
61 	static char	hex[HEX_SIZE];
62 	char		*direct = NULL;
63 
64 	if (label_to_str(label, &direct, M_INTERNAL, DEF_NAMES) != 0) {
65 		adt_write_syslog("label_to_str(M_INTERNAL)", errno);
66 		return ("hex label failed");
67 	}
68 	(void) strlcpy(hex, direct, sizeof (hex));
69 	free(direct);
70 	return (hex);
71 }
72 #else	/* !C2_DEBUG */
73 #define	DPRINTF(x)
74 #define	DFLUSH
75 #endif	/* C2_DEBUG */
76 
77 static adt_token_func_t adt_getTokenFunction(char);
78 
79 static char	*empty = "";
80 
81 /*
82  * call adt_token_open() first and adt_token_close() last.
83  *
84  * au_open is sort of broken; it returns a -1 when out of memory that
85  * you're supposed to ignore; au_write and au_close return without
86  * doing anything when a -1 is passed.  This code sort of follows the
87  * au_open model except that it calls syslog to indicate underlying
88  * brokenness.  Other than that, -1 is ignored.
89  */
90 
91 void
92 adt_token_open(struct adt_event_state *event)
93 {
94 	static int	have_syslogged = 0;
95 
96 	event->ae_event_handle = au_open();
97 	if (event->ae_event_handle < 0) {
98 		if (!have_syslogged) {
99 			adt_write_syslog("au_open failed", ENOMEM);
100 			have_syslogged = 1;
101 		}
102 	} else {
103 		have_syslogged = 0;
104 	}
105 }
106 
107 /*
108  * call generate_token for each token in the order you want the tokens
109  * generated.
110  */
111 
112 void
113 adt_generate_token(struct entry *p_entry, void *p_data,
114     struct adt_event_state *event)
115 {
116 	adt_token_func_t	p_func;
117 
118 	assert((p_entry != NULL) && (p_data != NULL) && (event != NULL));
119 
120 	p_func = adt_getTokenFunction(p_entry->en_token_id);
121 	assert(p_func != NULL);
122 
123 	DPRINTF(("p_entry=%08X, p_data=%08X, offset=%X, msgFmt=%X\n",
124 	    p_entry, p_data, p_entry->en_offset, p_entry->en_msg_format));
125 	DFLUSH
126 
127 	(*p_func)(p_entry->en_type_def,
128 	    (char *)p_data + p_entry->en_offset, p_entry->en_required, event,
129 	    p_entry->en_msg_format);
130 }
131 
132 /* call this last */
133 
134 int
135 adt_token_close(struct adt_event_state *event)
136 {
137 	int	rc;
138 
139 	rc = au_close(event->ae_event_handle, AU_TO_WRITE,
140 	    event->ae_internal_id);
141 	if (rc < 0)
142 		adt_write_syslog("au_close failed", errno);
143 	return (rc);
144 }
145 
146 /*
147  * one function per token -- see the jump table at the end of file
148  */
149 
150 /* ARGSUSED */
151 static void
152 adt_to_return(datadef *def, void *p_data, int required,
153     struct adt_event_state *event, char *notUsed)
154 {
155 
156 #ifdef _LP64
157 	(void) au_write(event->ae_event_handle,
158 	    au_to_return64((int64_t)event->ae_rc, event->ae_type));
159 #else
160 	(void) au_write(event->ae_event_handle,
161 	    au_to_return32((int32_t)event->ae_rc, event->ae_type));
162 #endif
163 }
164 
165 /*
166  * AUT_CMD
167  *
168  * the command line is described with argc and argv and the environment
169  * with envp.  The envp list is NULL terminated and has no separate
170  * counter; envp will be a NULL list unless the AUDIT_ARGE policy is
171  * set.
172  */
173 
174 /* ARGSUSED */
175 static void
176 adt_to_cmd(datadef *def, void *p_data, int required,
177     struct adt_event_state *event, char *notUsed)
178 {
179 	struct adt_internal_state	*sp = event->ae_session;
180 	int				argc;
181 	char				**argv;
182 	char				**envp = NULL;
183 
184 	argc = ((union convert *)p_data)->tint;
185 	p_data = adt_adjust_address(p_data, sizeof (int), sizeof (char **));
186 	argv = ((union convert *)p_data)->tchar2star;
187 	p_data = adt_adjust_address(p_data, sizeof (char **), sizeof (char **));
188 
189 	if (sp->as_kernel_audit_policy & AUDIT_ARGE)
190 		envp = ((union convert *)p_data)->tchar2star;
191 
192 	(void) au_write(event->ae_event_handle,
193 	    au_to_cmd(argc, argv, envp));
194 }
195 
196 /*
197  * special case of AUT_CMD with 1 argument that is
198  * a string showing the whole command and no envp
199  */
200 /* ARGSUSED */
201 static void
202 adt_to_cmd1(datadef *def, void *p_data, int required,
203     struct adt_event_state *event, char *notUsed)
204 {
205 	char	*string;
206 
207 	string = ((union convert *)p_data)->tcharstar;
208 
209 	if (string == NULL) {
210 		if (required) {
211 			string = empty;
212 		} else {
213 			return;
214 		}
215 	}
216 	/* argc is hardcoded as 1 */
217 	(void) au_write(event->ae_event_handle, au_to_cmd(1, &string,
218 	    NULL));
219 }
220 
221 /*
222  * adt_to_tid	-- generic address (ip is only one defined at present)
223  *	input:
224  *		terminal type:  ADT_IPv4, ADT_IPv6...
225  *		case: ADT_IPv4 or ADT_IPv6...
226  *			ip type
227  *			remote port
228  *			local port
229  *			address
230  *		case: not defined...
231  */
232 /* ARGSUSED */
233 static void
234 adt_to_tid(datadef *def, void *p_data, int required,
235     struct adt_event_state *event, char *notUsed)
236 {
237 	au_generic_tid_t	tid;
238 	uint32_t		type;
239 	au_ip_t			*ip;
240 
241 	type = ((union convert *)p_data)->tuint32;
242 
243 	switch (type) {
244 	case ADT_IPv4:
245 	case ADT_IPv6:
246 		p_data = adt_adjust_address(p_data, sizeof (uint32_t),
247 		    sizeof (uint32_t));
248 
249 		tid.gt_type = AU_IPADR;
250 		ip = &(tid.gt_adr.at_ip);
251 
252 		ip->at_type = (type == ADT_IPv4) ?
253 		    AU_IPv4 : AU_IPv6;
254 
255 		ip->at_r_port = ((union convert *)p_data)->tuint16;
256 		p_data = adt_adjust_address(p_data, sizeof (uint16_t),
257 		    sizeof (uint16_t));
258 
259 		ip->at_l_port = ((union convert *)p_data)->tuint16;
260 
261 		/* arg3 is for the array element, not the array size */
262 		p_data = adt_adjust_address(p_data, sizeof (uint16_t),
263 		    sizeof (uint32_t));
264 
265 		(void) memcpy(ip->at_addr, p_data, ip->at_type);
266 		break;
267 	default:
268 		adt_write_syslog("Invalid terminal id type", EINVAL);
269 		return;
270 	}
271 	(void) au_write(event->ae_event_handle, au_to_tid(&tid));
272 }
273 
274 /*
275  * au_to_frmi takes a char * that is the fmri.
276  */
277 /* ARGSUSED */
278 static void
279 adt_to_frmi(datadef *def, void *p_data, int required,
280     struct adt_event_state *event, char *notUsed)
281 {
282 	char		*fmri;
283 
284 	DPRINTF(("  adt_to_fmri dd_datatype=%d\n", def->dd_datatype));
285 
286 	fmri = ((union convert *)p_data)->tcharstar;
287 
288 	if (fmri == NULL) {
289 		if (required) {
290 			fmri = empty;
291 		} else {
292 			return;
293 		}
294 	}
295 	DPRINTF(("  fmri=%s\n", fmri));
296 	(void) au_write(event->ae_event_handle, au_to_fmri(fmri));
297 }
298 
299 /*
300  * au_to_label takes an m_label_t * that is the label.
301  */
302 /* ARGSUSED */
303 static void
304 adt_to_label(datadef *def, void *p_data, int required,
305     struct adt_event_state *event, char *notUsed)
306 {
307 	m_label_t	*label;
308 
309 	DPRINTF(("  adt_to_label dd_datatype=%d\n", def->dd_datatype));
310 
311 	label = ((union convert *)p_data)->tm_label;
312 
313 	if (label != NULL) {
314 		DPRINTF(("  label=%s\n", dprt_label(label)));
315 		DFLUSH
316 		(void) au_write(event->ae_event_handle, au_to_label(label));
317 	} else {
318 		DPRINTF(("  Null label\n"));
319 		if (required)
320 			adt_write_syslog("adt_to_label no required label", 0);
321 	}
322 }
323 
324 /*
325  * au_to_newgroups takes a length and an array of gids
326  * as input.  The input to adt_to_newgroups is a length
327  * and a pointer to an array of gids.
328  */
329 
330 /* ARGSUSED */
331 static void
332 adt_to_newgroups(datadef *def, void *p_data, int required,
333     struct adt_event_state *event, char *notUsed)
334 {
335 	int	n;
336 	gid_t	*groups;
337 
338 	n = ((union convert *)p_data)->tint;
339 	if (n < 1) {
340 		if (required) {
341 			n = 0;  /* in case negative n was passed */
342 		} else {
343 			return;
344 		}
345 	}
346 	p_data = adt_adjust_address(p_data, sizeof (int), sizeof (int32_t *));
347 
348 	groups = ((union convert *)p_data)->tgidstar;
349 
350 	(void) au_write(event->ae_event_handle, au_to_newgroups(n, groups));
351 }
352 
353 /* ARGSUSED */
354 static void
355 adt_to_path(datadef *def, void *p_data, int required,
356     struct adt_event_state *event, char *notUsed)
357 {
358 	char	*path;
359 
360 	path = ((union convert *)p_data)->tcharstar;
361 
362 	if (path != NULL) {
363 		DPRINTF(("  path=%s\n", path));
364 		(void) au_write(event->ae_event_handle, au_to_path(path));
365 	} else {
366 		DPRINTF(("  Null path\n"));
367 		if (required) {
368 			(void) au_write(event->ae_event_handle,
369 			    au_to_path(empty));
370 		}
371 	}
372 }
373 
374 /*
375  * dummy token id:  AUT_PATHLIST
376  */
377 
378 /* ARGSUSED */
379 static void
380 adt_to_pathlist(datadef *def, void *p_data, int required,
381     struct adt_event_state *event, char *notUsed)
382 {
383 	char	*path;
384 	char	*working_buf;
385 	char	*pathlist;
386 	char	*last_str;
387 
388 	pathlist = ((union convert *)p_data)->tcharstar;
389 
390 	if (pathlist != NULL) {
391 		working_buf = strdup(pathlist);
392 		if (working_buf == NULL) {
393 			adt_write_syslog("audit failure", errno);
394 			if (required) {
395 				(void) au_write(event->ae_event_handle,
396 				    au_to_path(empty));
397 			}
398 			return;
399 		}
400 		for (path = strtok_r(working_buf, " ", &last_str);
401 		    path; path = strtok_r(NULL, " ", &last_str)) {
402 			DPRINTF(("  path=%s\n", path));
403 			(void) au_write(event->ae_event_handle,
404 			    au_to_path(path));
405 		}
406 	} else {
407 		DPRINTF(("  Null path list\n"));
408 		if (required)
409 			(void) au_write(event->ae_event_handle,
410 			    au_to_path(empty));
411 	}
412 }
413 
414 /*
415  * AUT_PRIV
416  */
417 
418 /* ARGSUSED */
419 static void
420 adt_to_priv(datadef *def, void *p_data, int required,
421     struct adt_event_state *event, const char *priv_type)
422 {
423 	priv_set_t	*privilege;
424 
425 	privilege = ((union convert *)p_data)->tprivstar;
426 
427 	if (privilege != NULL) {
428 		(void) au_write(event->ae_event_handle,
429 		    au_to_privset(priv_type, privilege));
430 	} else {
431 		if (required) {
432 			DPRINTF(("  Null privilege\n"));
433 			(void) au_write(event->ae_event_handle,
434 			    au_to_privset(empty, NULL));
435 		}
436 	}
437 }
438 
439 /*
440  * -AUT_PRIV_L	AUT_PRIV for a limit set
441  */
442 
443 /* ARGSUSED */
444 static void
445 adt_to_priv_limit(datadef *def, void *p_data, int required,
446     struct adt_event_state *event, char *notUsed)
447 {
448 	adt_to_priv(def, p_data, required, event, PRIV_LIMIT);
449 }
450 
451 /*
452  * -AUT_PRIV_I	AUT_PRIV for an inherit set
453  */
454 
455 /* ARGSUSED */
456 static void
457 adt_to_priv_inherit(datadef *def, void *p_data, int required,
458     struct adt_event_state *event, char *notUsed)
459 {
460 	adt_to_priv(def, p_data, required, event, PRIV_INHERITABLE);
461 }
462 
463 /* ARGSUSED */
464 static void
465 adt_to_priv_effective(datadef *def, void *p_data, int required,
466     struct adt_event_state *event, char *notUsed)
467 {
468 	adt_to_priv(def, p_data, required, event, PRIV_EFFECTIVE);
469 }
470 
471 static void
472 getCharacteristics(struct auditpinfo_addr *info, pid_t *pid)
473 {
474 	int	rc;
475 
476 	if (*pid == 0) {		/* getpinfo for this pid */
477 		info->ap_pid = getpid();
478 	} else {
479 		info->ap_pid = *pid;
480 	}
481 
482 	rc = auditon(A_GETPINFO_ADDR, (caddr_t)info,
483 	    sizeof (struct auditpinfo_addr));
484 	if (rc == -1) {
485 		info->ap_auid = AU_NOAUDITID;
486 		info->ap_asid = 0;
487 		(void) memset((void *)&(info->ap_termid), 0,
488 		    sizeof (au_tid_addr_t));
489 		info->ap_termid.at_type = AU_IPv4;
490 	}
491 }
492 
493 /*
494  * AUT_PROCESS
495  *
496  */
497 
498 /* ARGSUSED */
499 static void
500 adt_to_process(datadef *def, void *p_data, int required,
501     struct adt_event_state *event, char *notUsed)
502 {
503 	au_id_t			auid;
504 	uid_t			euid;
505 	gid_t			egid;
506 	uid_t			ruid;
507 	gid_t			rgid;
508 	pid_t			pid;
509 	au_asid_t		sid;
510 	au_tid_addr_t		*tid;
511 	struct auditpinfo_addr	info;
512 
513 	auid = ((union convert *)p_data)->tuid;
514 	p_data = adt_adjust_address(p_data, sizeof (uid_t), sizeof (uid_t));
515 	euid = ((union convert *)p_data)->tuid;
516 	p_data = adt_adjust_address(p_data, sizeof (uid_t), sizeof (gid_t));
517 	egid = ((union convert *)p_data)->tgid;
518 	p_data = adt_adjust_address(p_data, sizeof (gid_t), sizeof (uid_t));
519 	ruid = ((union convert *)p_data)->tuid;
520 	p_data = adt_adjust_address(p_data, sizeof (uid_t), sizeof (gid_t));
521 	rgid = ((union convert *)p_data)->tgid;
522 	p_data = adt_adjust_address(p_data, sizeof (gid_t), sizeof (pid_t));
523 	pid  = ((union convert *)p_data)->tpid;
524 	p_data = adt_adjust_address(p_data, sizeof (pid_t), sizeof (uint32_t));
525 	sid  = ((union convert *)p_data)->tuint32;
526 	p_data = adt_adjust_address(p_data, sizeof (uint32_t),
527 	    sizeof (au_tid_addr_t *));
528 	tid  = ((union convert *)p_data)->ttermid;
529 
530 	getCharacteristics(&info, &pid);
531 
532 	if (auid == AU_NOAUDITID)
533 		auid = info.ap_auid;
534 
535 	if (euid == AU_NOAUDITID)
536 		euid = geteuid();
537 
538 	if (egid == AU_NOAUDITID)
539 		egid = getegid();
540 
541 	if (ruid == AU_NOAUDITID)
542 		ruid = getuid();
543 
544 	if (rgid == AU_NOAUDITID)
545 		rgid = getgid();
546 
547 	if (tid == NULL)
548 		tid = &(info.ap_termid);
549 
550 	if (sid == 0)
551 		sid = info.ap_asid;
552 
553 	if (pid == 0)
554 		pid = info.ap_pid;
555 
556 	(void) au_write(event->ae_event_handle,
557 	    au_to_process_ex(auid, euid, egid, ruid, rgid, pid, sid, tid));
558 }
559 
560 /*
561  * Generate subject information.
562  * If labels are present, generate the subject label token.
563  * If the group audit policy is set, generate the subject group token.
564  *
565  * The required flag does not apply here.
566  *
567  * Non-attributable records are indicated by an auid of AU_NOAUDITID;
568  * no subject token or group token is generated for a non-attributable
569  * record.
570  */
571 
572 /* ARGSUSED */
573 static void
574 adt_to_subject(datadef *def, void *p_data, int required,
575     struct adt_event_state *event, char *notUsed)
576 {
577 	struct adt_internal_state	*sp = event->ae_session;
578 
579 	if (sp->as_info.ai_auid == AU_NOAUDITID)
580 		return;
581 
582 	assert(sp->as_have_user_data == ADT_HAVE_ALL);
583 
584 	(void) au_write(event->ae_event_handle,
585 	    au_to_subject_ex(sp->as_info.ai_auid,
586 	    sp->as_euid, sp->as_egid, sp->as_ruid, sp->as_rgid,
587 	    sp->as_pid, sp->as_info.ai_asid,
588 	    &(sp->as_info.ai_termid)));
589 	if (is_system_labeled()) {
590 		(void) au_write(event->ae_event_handle,
591 		    au_to_label(sp->as_label));
592 	}
593 	/*
594 	 * Add optional tokens if in the process model.
595 	 * In a session model, the groups list is undefined and label
596 	 * is in the state.
597 	 */
598 	if (sp->as_session_model == ADT_PROCESS_MODEL) {
599 		if (sp->as_kernel_audit_policy & AUDIT_GROUP) {
600 			int group_count;
601 			gid_t grouplist[NGROUPS_MAX];
602 
603 			if ((group_count = getgroups(NGROUPS_UMAX,
604 			    grouplist)) > 0) {
605 				(void) au_write(event->ae_event_handle,
606 				    au_to_newgroups(group_count, grouplist));
607 			}
608 		}
609 	}
610 }
611 
612 /*
613  * adt_to_text()
614  *
615  * The format string, normally null, is sort of a wrapper around
616  * the input.  adt_write_text() is a wrapper around au_write that
617  * handles the format string
618  *
619  */
620 #define	TEXT_LENGTH 49
621 
622 static void
623 adt_write_text(int handle, char *main_text, const char *format)
624 {
625 	char	buffer[TEXT_LENGTH * 2 + 1];
626 
627 	if (format == NULL) {
628 		(void) au_write(handle, au_to_text(main_text));
629 	} else {
630 		(void) snprintf(buffer, TEXT_LENGTH * 2, format, main_text);
631 		(void) au_write(handle, au_to_text(buffer));
632 	}
633 }
634 
635 static void
636 adt_to_text(datadef *def, void *p_data, int required,
637     struct adt_event_state *event, char *format)
638 {
639 	static int	have_syslogged = 0;
640 	char		*string;
641 	char		**string_list;
642 	char		buffer[TEXT_LENGTH + 1];
643 	time_t		date;
644 	struct tm	tm;
645 	uint32_t	*int_list;
646 	int		written, available;
647 	int		i, arrayCount;
648 	struct msg_text *list;
649 	int		list_index;
650 
651 	DPRINTF(("  adt_to_text dd_datatype=%d\n", def->dd_datatype));
652 	switch (def->dd_datatype) {
653 	case ADT_DATE:
654 		/*
655 		 * Consider creating a separate token type for dates
656 		 * -- store as longs and format them in praudit.
657 		 * For now, a date is input as a time_t and output as
658 		 * a text token.  If we do this, we need to consider
659 		 * carrying timezone info so that praudit can
660 		 * represent times in an unambiguous manner.
661 		 */
662 		date = ((union convert *)p_data)->tlong;
663 		if (strftime(buffer, sizeof (buffer), "%x",
664 		    localtime_r(&date, &tm)) > TEXT_LENGTH) {
665 			if (required) {
666 				(void) strncpy(buffer, "invalid date",
667 				    TEXT_LENGTH);
668 			} else {
669 				break;
670 			}
671 		}
672 		DPRINTF(("  text=%s\n", buffer));
673 		adt_write_text(event->ae_event_handle, buffer, format);
674 		break;
675 		/*
676 		 * The "input size" is overloaded to mean the list number
677 		 * and the msg_selector indexes the desired string in
678 		 * that list
679 		 */
680 	case ADT_MSG:
681 		list = &adt_msg_text[(enum adt_msg_list)def->dd_input_size];
682 		list_index = ((union convert *)p_data)->msg_selector;
683 
684 		if ((list_index + list->ml_offset < list->ml_min_index) ||
685 		    (list_index + list->ml_offset > list->ml_max_index)) {
686 			string = "Invalid message index";
687 		} else {
688 			string = list->ml_msg_list[list_index +
689 			    list->ml_offset];
690 		}
691 
692 		if (string == NULL) {	/* null is valid; means skip */
693 			if (required) {
694 				string = empty;
695 			} else {
696 				break;
697 			}
698 		}
699 		DPRINTF(("  text=%s\n", string));
700 		adt_write_text(event->ae_event_handle, string, format);
701 		break;
702 	case ADT_UID:
703 	case ADT_GID:
704 	case ADT_UINT:
705 	case ADT_UINT32:
706 		(void) snprintf(buffer, TEXT_LENGTH, "%u",
707 		    ((union convert *)p_data)->tuint);
708 
709 		DPRINTF(("  text=%s\n", buffer));
710 		adt_write_text(event->ae_event_handle, buffer, format);
711 		break;
712 	case ADT_INT:
713 	case ADT_INT32:
714 		(void) snprintf(buffer, TEXT_LENGTH, "%d",
715 		    ((union convert *)p_data)->tint);
716 
717 		DPRINTF(("  text=%s\n", buffer));
718 		adt_write_text(event->ae_event_handle, buffer, format);
719 		break;
720 	case ADT_LONG:
721 		(void) snprintf(buffer, TEXT_LENGTH, "%ld",
722 		    ((union convert *)p_data)->tlong);
723 
724 		DPRINTF(("  text=%s\n", buffer));
725 		adt_write_text(event->ae_event_handle, buffer, format);
726 		break;
727 	case ADT_UIDSTAR:
728 	case ADT_GIDSTAR:
729 	case ADT_UINT32STAR:
730 		int_list = ((union convert *)p_data)->tuint32star;
731 		p_data = adt_adjust_address(p_data, sizeof (int *),
732 		    sizeof (int));
733 		arrayCount = ((union convert *)p_data)->tint;
734 
735 		string = buffer;
736 		available = TEXT_LENGTH;	/* space available in buffer */
737 
738 		if (arrayCount < 0)
739 			arrayCount = 0;
740 
741 		if ((arrayCount > 0) && (int_list != NULL)) {
742 			for (; arrayCount > 0; arrayCount--) {
743 				written = snprintf(string, available,
744 				    "%d ", *int_list++);
745 				if (written < 1)
746 					break;
747 				string += written;
748 				available -= written;
749 			}
750 		} else if (required) {
751 			string = empty;
752 		} else {
753 			break;
754 		}
755 
756 		adt_write_text(event->ae_event_handle, buffer, format);
757 		break;
758 	case ADT_ULONG:
759 		(void) snprintf(buffer, TEXT_LENGTH, "%lu",
760 		    ((union convert *)p_data)->tulong);
761 
762 		DPRINTF(("  text=%s\n", buffer));
763 		adt_write_text(event->ae_event_handle, buffer, format);
764 		break;
765 	case ADT_UINT64:
766 		(void) snprintf(buffer, TEXT_LENGTH, "%llu",
767 		    ((union convert *)p_data)->tuint64);
768 
769 		DPRINTF(("  text=%s\n", buffer));
770 		adt_write_text(event->ae_event_handle, buffer, format);
771 		break;
772 	case ADT_CHARSTAR:
773 		string = ((union convert *)p_data)->tcharstar;
774 
775 		if (string == NULL) {
776 			if (required) {
777 				string = empty;
778 			} else {
779 				break;
780 			}
781 		}
782 		DPRINTF(("  text=%s\n", string));
783 		adt_write_text(event->ae_event_handle, string, format);
784 		break;
785 	case ADT_CHAR2STAR:
786 		string_list = ((union convert *)p_data)->tchar2star;
787 		p_data = adt_adjust_address(p_data, sizeof (char **),
788 		    sizeof (int));
789 		arrayCount = ((union convert *)p_data)->tint;
790 
791 		if (arrayCount < 0)
792 			arrayCount = 0;
793 
794 		if ((arrayCount > 0) && (string_list != NULL)) {
795 			for (i = 0; i < arrayCount; i++) {
796 				string = string_list[i];
797 				if (string != NULL)
798 					adt_write_text(event->ae_event_handle,
799 					    string, format);
800 			}
801 		} else if (required) {
802 			adt_write_text(event->ae_event_handle, empty, format);
803 		} else {
804 			break;
805 		}
806 		break;
807 	default:
808 		if (!have_syslogged) { /* don't flood the log */
809 			adt_write_syslog("unsupported data conversion",
810 			    ENOTSUP);
811 			have_syslogged = 1;
812 		}
813 		break;
814 	}
815 	DFLUSH
816 }
817 
818 /*
819  * AUT_UAUTH
820  */
821 
822 /* ARGSUSED */
823 static void
824 adt_to_uauth(datadef *def, void *p_data, int required,
825     struct adt_event_state *event, char *format)
826 {
827 	char		*string;
828 
829 	DPRINTF(("  adt_to_uauth dd_datatype=%d\n", def->dd_datatype));
830 
831 	string = ((union convert *)p_data)->tcharstar;
832 
833 	if (string == NULL) {
834 		if (required) {
835 			string = empty;
836 		} else {
837 			return;
838 		}
839 	}
840 	DPRINTF(("  text=%s\n", string));
841 	(void) au_write(event->ae_event_handle, au_to_uauth(string));
842 }
843 
844 /*
845  * AUT_ZONENAME
846  */
847 
848 /* ARGSUSED */
849 static void
850 adt_to_zonename(datadef *def, void *p_data, int required,
851     struct adt_event_state *event, char *notUsed)
852 {
853 	char	*name;
854 
855 	name = ((union convert *)p_data)->tcharstar;
856 
857 	if (name != NULL) {
858 		DPRINTF(("  name=%s\n", name));
859 		(void) au_write(event->ae_event_handle, au_to_zonename(name));
860 	} else {
861 		DPRINTF(("  Null name\n"));
862 		if (required) {
863 			(void) au_write(event->ae_event_handle,
864 			    au_to_zonename(empty));
865 		}
866 	}
867 }
868 
869 /*
870  * ADT_IN_PEER dummy token
871  */
872 
873 /* ARGSUSED */
874 static void
875 adt_to_in_peer(datadef *def, void *p_data, int required,
876     struct adt_event_state *event, char *notUsed)
877 {
878 	int	sock;
879 	struct sockaddr_in6 peer;
880 	int	peerlen = sizeof (peer);
881 
882 	DPRINTF(("    adt_to_in_peer dd_datatype=%d\n", def->dd_datatype));
883 
884 	sock = ((union convert *)p_data)->tfd;
885 
886 	if (sock < 0) {
887 		DPRINTF(("  Socket fd %d\n", sock));
888 		if (required) {
889 			adt_write_syslog("adt_to_in_peer no required socket",
890 			    0);
891 		}
892 		return;
893 	}
894 	if (getpeername(sock, (struct sockaddr *)&peer, (socklen_t *)&peerlen)
895 	    < 0) {
896 
897 		adt_write_syslog("adt_to_in_addr getpeername", errno);
898 		return;
899 	}
900 	if (peer.sin6_family == AF_INET6) {
901 		(void) au_write(event->ae_event_handle,
902 		    au_to_in_addr_ex(&(peer.sin6_addr)));
903 		(void) au_write(event->ae_event_handle,
904 		    au_to_iport((ushort_t)peer.sin6_port));
905 	} else {
906 		(void) au_write(event->ae_event_handle,
907 		    au_to_in_addr(&(((struct sockaddr_in *)&peer)->sin_addr)));
908 		(void) au_write(event->ae_event_handle,
909 		    au_to_iport(
910 		    (ushort_t)(((struct sockaddr_in *)&peer)->sin_port)));
911 	}
912 }
913 
914 /*
915  * ADT_IN_REMOTE dummy token
916  *
917  * Similar to ADT_IN_PEER except the input is
918  * an IP address type (ADT_IPv4 | ADT_IPv6) and an address V4/V6
919  */
920 
921 /* ARGSUSED */
922 static void
923 adt_to_in_remote(datadef *def, void *p_data, int required,
924     struct adt_event_state *event, char *notUsed)
925 {
926 	int32_t	type;
927 
928 	DPRINTF(("    adt_to_in_remote dd_datatype=%d\n", def->dd_datatype));
929 
930 	type = ((union convert *)p_data)->tuint32;
931 
932 	if (type ==  0) {
933 		if (required == 0) {
934 			return;
935 		}
936 		/* required and not specified */
937 		adt_write_syslog("adt_to_in_remote required address not "
938 		    "specified", 0);
939 		type = ADT_IPv4;
940 	}
941 	p_data = adt_adjust_address(p_data, sizeof (int32_t),
942 	    sizeof (uint32_t));
943 
944 	switch (type) {
945 	case ADT_IPv4:
946 		(void) au_write(event->ae_event_handle, au_to_in_addr(
947 		    (struct in_addr *)&(((union convert *)p_data)->tuint32)));
948 		break;
949 	case ADT_IPv6:
950 		(void) au_write(event->ae_event_handle, au_to_in_addr_ex(
951 		    (struct in6_addr *)&(((union convert *)p_data)->tuint32)));
952 		break;
953 	default:
954 		adt_write_syslog("adt_to_in_remote invalid type", EINVAL);
955 		return;
956 	}
957 }
958 
959 /*
960  * adt_to_iport takes a uint16_t IP port.
961  */
962 
963 /* ARGSUSED */
964 static void
965 adt_to_iport(datadef *def, void *p_data, int required,
966     struct adt_event_state *event, char *notUsed)
967 {
968 	ushort_t port;
969 
970 	DPRINTF(("  adt_to_iport dd_datatype=%d\n", def->dd_datatype));
971 
972 	port = ((union convert *)p_data)->tuint16;
973 
974 	if (port == 0) {
975 		if (required == 0) {
976 			return;
977 		}
978 		/* required and not specified */
979 		adt_write_syslog("adt_to_iport no required port", 0);
980 	}
981 	(void) au_write(event->ae_event_handle, au_to_iport(port));
982 
983 }
984 
985 
986 /*
987  *	This is a compact table that defines only the tokens that are
988  * actually generated in the adt.xml file.  It can't be a  pure
989  * indexed table because the adt.xml language defines internal extension
990  * tokens for some processing.  VIZ. ADT_CMD_ALT, ADT_AUT_PRIV_* (see
991  * adt_xlate.h), and the -AUT_PATH value.
992  */
993 
994 #define	MAX_TOKEN_JMP 20
995 
996 static struct token_jmp token_table[MAX_TOKEN_JMP] =
997 {
998 	{AUT_CMD, adt_to_cmd},
999 	{ADT_CMD_ALT, adt_to_cmd1},
1000 	{AUT_FMRI, adt_to_frmi},
1001 	{ADT_IN_PEER, adt_to_in_peer},
1002 	{ADT_IN_REMOTE, adt_to_in_remote},
1003 	{AUT_IPORT, adt_to_iport},
1004 	{AUT_LABEL, adt_to_label},
1005 	{AUT_NEWGROUPS, adt_to_newgroups},
1006 	{AUT_PATH, adt_to_path},
1007 	{-AUT_PATH, adt_to_pathlist},	/* private extension of token values */
1008 	{ADT_AUT_PRIV_L, adt_to_priv_limit},
1009 	{ADT_AUT_PRIV_I, adt_to_priv_inherit},
1010 	{ADT_AUT_PRIV_E, adt_to_priv_effective},
1011 	{AUT_PROCESS, adt_to_process},
1012 	{AUT_RETURN, adt_to_return},
1013 	{AUT_SUBJECT, adt_to_subject},
1014 	{AUT_TEXT, adt_to_text},
1015 	{AUT_TID, adt_to_tid},
1016 	{AUT_UAUTH, adt_to_uauth},
1017 	{AUT_ZONENAME, adt_to_zonename}
1018 };
1019 
1020 /*
1021  *	{AUT_ACL, adt_to_acl},			not used
1022  *	{AUT_ARBITRARY, adt_to_arbitrary},	AUT_ARBITRARY is undefined
1023  *	{AUT_ARG, adt_to_arg},			not used
1024  *	{AUT_ATTR, adt_to_attr},		not used in mountd
1025  *	{AUT_XATOM, adt_to_atom},		not used
1026  *	{AUT_EXEC_ARGS, adt_to_exec_args},	not used
1027  *	{AUT_EXEC_ENV, adt_to_exec_env},	not used
1028  *	{AUT_EXIT, adt_to_exit},		obsolete
1029  *	{AUT_FILE, adt_to_file},		AUT_FILE is undefined
1030  *	{AUT_XCOLORMAP, adt_to_colormap},	not used
1031  *	{AUT_XCURSOR, adt_to_cursor},		not used
1032  *	{AUT_XFONT, adt_to_font},		not used
1033  *	{AUT_XGC, adt_to_gc},			not used
1034  *	{AUT_GROUPS, adt_to_groups},		obsolete
1035  *	{AUT_HEADER, adt_to_header},		generated by au_close
1036  *	{AUT_IP, adt_to_ip},			not used
1037  *	{AUT_IPC, adt_to_ipc},			not used
1038  *	{AUT_IPC_PERM, adt_to_ipc_perm},	not used
1039  *	{AUT_OPAQUE, adt_to_opaque},		not used
1040  *	{AUT_XPIXMAP, adt_to_pixmap},		not used
1041  *	{AUT_XPROPERTY, adt_to_property},	not used
1042  *	{AUT_SEQ, adt_to_seq},			not used
1043  *	{AUT_SOCKET, adt_to_socket},		not used
1044  *	{AUT_SOCKET_INET, adt_to_socket_inet},  AUT_SOCKET_INET is undefined
1045  *	{AUT_TRAILER, adt_to_trailer},		generated by au_close
1046  *	{AUT_XCLIENT, adt_to_xclient}		not used
1047  */
1048 
1049 /* find function to generate token */
1050 
1051 static adt_token_func_t
1052 adt_getTokenFunction(char token_id)
1053 {
1054 	int	i;
1055 	struct token_jmp	*p_jmp = token_table;
1056 
1057 	for (i = 0; i < MAX_TOKEN_JMP; i++) {
1058 		if (token_id == p_jmp->jmp_id) {
1059 			return (p_jmp->jmp_to);
1060 		}
1061 		p_jmp++;
1062 	}
1063 	errno = EINVAL;
1064 	return (NULL);
1065 }
1066 
1067 /*
1068  * adjustAddress -- given the address of data, its size, and the type of
1069  * the next data field, calculate the offset to the next piece of data.
1070  * Depending on the caller, "current" and "next" mean the current pointer
1071  * and the next pointer or the last pointer and the current pointer.
1072  */
1073 void *
1074 adt_adjust_address(void *current_address, size_t current_size,
1075     size_t next_size)
1076 {
1077 	ptrdiff_t adjustment;
1078 	ptrdiff_t remainder;
1079 
1080 	adjustment = (size_t)current_address + current_size;
1081 
1082 	if (next_size) {
1083 		remainder = adjustment % next_size;
1084 		if (remainder != 0)
1085 			adjustment += next_size - remainder;
1086 	}
1087 	return ((char *)adjustment);
1088 }
1089