xref: /titanic_44/usr/src/uts/common/c2/audit.c (revision 4a16f9a6c1cc74aeed5ff36b4723c3e43bc67666)
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 (c) 1992, 2010, Oracle and/or its affiliates. All rights reserved.
23  */
24 
25 /*
26  * This file contains the audit hook support code for auditing.
27  */
28 
29 #include <sys/types.h>
30 #include <sys/proc.h>
31 #include <sys/vnode.h>
32 #include <sys/vfs.h>
33 #include <sys/file.h>
34 #include <sys/user.h>
35 #include <sys/stropts.h>
36 #include <sys/systm.h>
37 #include <sys/pathname.h>
38 #include <sys/syscall.h>
39 #include <sys/fcntl.h>
40 #include <sys/ipc_impl.h>
41 #include <sys/msg_impl.h>
42 #include <sys/sem_impl.h>
43 #include <sys/shm_impl.h>
44 #include <sys/kmem.h>		/* for KM_SLEEP */
45 #include <sys/socket.h>
46 #include <sys/cmn_err.h>	/* snprintf... */
47 #include <sys/debug.h>
48 #include <sys/thread.h>
49 #include <netinet/in.h>
50 #include <c2/audit.h>		/* needs to be included before user.h */
51 #include <c2/audit_kernel.h>	/* for M_DONTWAIT */
52 #include <c2/audit_kevents.h>
53 #include <c2/audit_record.h>
54 #include <sys/strsubr.h>
55 #include <sys/tihdr.h>
56 #include <sys/tiuser.h>
57 #include <sys/timod.h>
58 #include <sys/model.h>		/* for model_t */
59 #include <sys/disp.h>		/* for servicing_interrupt() */
60 #include <sys/devpolicy.h>
61 #include <sys/crypto/ioctladmin.h>
62 #include <sys/cred_impl.h>
63 #include <inet/kssl/kssl.h>
64 #include <net/pfpolicy.h>
65 
66 static void add_return_token(caddr_t *, unsigned int scid, int err, int rval);
67 
68 static void audit_pathbuild(struct pathname *pnp);
69 
70 
71 /*
72  * ROUTINE:	AUDIT_SAVEPATH
73  * PURPOSE:
74  * CALLBY:	LOOKUPPN
75  *
76  * NOTE:	We have reached the end of a path in fs/lookup.c.
77  *		We get two pieces of information here:
78  *		the vnode of the last component (vp) and
79  *		the status of the last access (flag).
80  * TODO:
81  * QUESTION:
82  */
83 
84 /*ARGSUSED*/
85 int
86 audit_savepath(
87 	struct pathname *pnp,		/* pathname to lookup */
88 	struct vnode *vp,		/* vnode of the last component */
89 	struct vnode *pvp,		/* vnode of the last parent component */
90 	int    flag,			/* status of the last access */
91 	cred_t *cr)			/* cred of requestor */
92 {
93 
94 	t_audit_data_t *tad;	/* current thread */
95 	au_kcontext_t	*kctx = GET_KCTX_PZ;
96 
97 	tad = U2A(u);
98 
99 	/*
100 	 * Noise elimination in audit trails - this event will be discarded if:
101 	 * - the public policy is not active AND
102 	 * - the system call is a public operation AND
103 	 * - the file was not found: VFS lookup failed with ENOENT error AND
104 	 * - the missing file would have been located in the public directory
105 	 *   owned by root if it had existed
106 	 */
107 	if (tad->tad_flag != 0 && flag == ENOENT && pvp != NULL &&
108 	    (tad->tad_ctrl & TAD_PUBLIC_EV) &&
109 	    !(kctx->auk_policy & AUDIT_PUBLIC)) {
110 		struct vattr attr;
111 
112 		attr.va_mask = AT_ALL;
113 		if (VOP_GETATTR(pvp, &attr, 0, CRED(), NULL) == 0) {
114 			if (object_is_public(&attr)) {
115 				tad->tad_ctrl |= TAD_NOAUDIT;
116 			}
117 		}
118 	}
119 
120 	/*
121 	 * this event being audited or do we need path information
122 	 * later? This might be for a chdir/chroot or open (add path
123 	 * to file pointer. If the path has already been found for an
124 	 * open/creat then we don't need to process the path.
125 	 *
126 	 * S2E_SP (TAD_SAVPATH) flag comes from audit_s2e[].au_ctrl. Used with
127 	 *	chroot, chdir, open, creat system call processing. It determines
128 	 *	if audit_savepath() will discard the path or we need it later.
129 	 * TAD_PATHFND means path already included in this audit record. It
130 	 *	is used in cases where multiple path lookups are done per
131 	 *	system call. The policy flag, AUDIT_PATH, controls if multiple
132 	 *	paths are allowed.
133 	 * S2E_NPT (TAD_NOPATH) flag comes from audit_s2e[].au_ctrl. Used with
134 	 *	exit processing to inhibit any paths that may be added due to
135 	 *	closes.
136 	 */
137 	if ((tad->tad_flag == 0 && !(tad->tad_ctrl & TAD_SAVPATH)) ||
138 	    ((tad->tad_ctrl & TAD_PATHFND) &&
139 	    !(kctx->auk_policy & AUDIT_PATH)) ||
140 	    (tad->tad_ctrl & TAD_NOPATH)) {
141 		return (0);
142 	}
143 
144 	tad->tad_ctrl |= TAD_NOPATH;		/* prevent possible reentry */
145 
146 	audit_pathbuild(pnp);
147 
148 	/*
149 	 * are we auditing only if error, or if it is not open or create
150 	 * otherwise audit_setf will do it
151 	 */
152 
153 	if (tad->tad_flag) {
154 		if (flag &&
155 		    (tad->tad_scid == SYS_open ||
156 		    tad->tad_scid == SYS_open64 ||
157 		    tad->tad_scid == SYS_openat ||
158 		    tad->tad_scid == SYS_openat64)) {
159 			tad->tad_ctrl |= TAD_TRUE_CREATE;
160 		}
161 
162 		/* add token to audit record for this name */
163 		au_uwrite(au_to_path(tad->tad_aupath));
164 
165 		/* add the attributes of the object */
166 		if (vp) {
167 			/*
168 			 * only capture attributes when there is no error
169 			 * lookup will not return the vnode of the failing
170 			 * component.
171 			 *
172 			 * if there was a lookup error, then don't add
173 			 * attribute. if lookup in vn_create(),
174 			 * then don't add attribute,
175 			 * it will be added at end of vn_create().
176 			 */
177 			if (!flag && !(tad->tad_ctrl & TAD_NOATTRB))
178 				audit_attributes(vp);
179 		}
180 	}
181 
182 	/* free up space if we're not going to save path (open, creat) */
183 	if ((tad->tad_ctrl & TAD_SAVPATH) == 0) {
184 		if (tad->tad_aupath != NULL) {
185 			au_pathrele(tad->tad_aupath);
186 			tad->tad_aupath = NULL;
187 		}
188 	}
189 	if (tad->tad_ctrl & TAD_MLD)
190 		tad->tad_ctrl |= TAD_PATHFND;
191 
192 	tad->tad_ctrl &= ~TAD_NOPATH;		/* restore */
193 	return (0);
194 }
195 
196 static void
197 audit_pathbuild(struct pathname *pnp)
198 {
199 	char *pp;	/* pointer to path */
200 	int len;	/* length of incoming segment */
201 	int newsect;	/* path requires a new section */
202 	struct audit_path	*pfxapp;	/* prefix for path */
203 	struct audit_path	*newapp;	/* new audit_path */
204 	t_audit_data_t *tad;	/* current thread */
205 	p_audit_data_t *pad;	/* current process */
206 
207 	tad = U2A(u);
208 	ASSERT(tad != NULL);
209 	pad = P2A(curproc);
210 	ASSERT(pad != NULL);
211 
212 	len = (pnp->pn_path - pnp->pn_buf) + 1;		/* +1 for terminator */
213 	ASSERT(len > 0);
214 
215 	/* adjust for path prefix: tad_aupath, ATPATH, CRD, or CWD */
216 	mutex_enter(&pad->pad_lock);
217 	if (tad->tad_aupath != NULL) {
218 		pfxapp = tad->tad_aupath;
219 	} else if ((tad->tad_ctrl & TAD_ATCALL) && pnp->pn_buf[0] != '/') {
220 		ASSERT(tad->tad_atpath != NULL);
221 		pfxapp = tad->tad_atpath;
222 	} else if (tad->tad_ctrl & TAD_ABSPATH) {
223 		pfxapp = pad->pad_root;
224 	} else {
225 		pfxapp = pad->pad_cwd;
226 	}
227 	au_pathhold(pfxapp);
228 	mutex_exit(&pad->pad_lock);
229 
230 	/* get an expanded buffer to hold the anchored path */
231 	newsect = tad->tad_ctrl & TAD_ATTPATH;
232 	newapp = au_pathdup(pfxapp, newsect, len);
233 	au_pathrele(pfxapp);
234 
235 	pp = newapp->audp_sect[newapp->audp_cnt] - len;
236 	if (!newsect) {
237 		/* overlay previous NUL terminator */
238 		*(pp - 1) = '/';
239 	}
240 
241 	/* now add string of processed path */
242 	bcopy(pnp->pn_buf, pp, len);
243 	pp[len - 1] = '\0';
244 
245 	/* perform path simplification as necessary */
246 	audit_fixpath(newapp, len);
247 
248 	if (tad->tad_aupath)
249 		au_pathrele(tad->tad_aupath);
250 	tad->tad_aupath = newapp;
251 
252 	/* for case where multiple lookups in one syscall (rename) */
253 	tad->tad_ctrl &= ~(TAD_ABSPATH | TAD_ATTPATH);
254 }
255 
256 
257 /*
258  * ROUTINE:	AUDIT_ANCHORPATH
259  * PURPOSE:
260  * CALLBY:	LOOKUPPN
261  * NOTE:
262  * anchor path at "/". We have seen a symbolic link or entering for the
263  * first time we will throw away any saved path if path is anchored.
264  *
265  * flag = 0, path is relative.
266  * flag = 1, path is absolute. Free any saved path and set flag to TAD_ABSPATH.
267  *
268  * If the (new) path is absolute, then we have to throw away whatever we have
269  * already accumulated since it is being superseded by new path which is
270  * anchored at the root.
271  *		Note that if the path is relative, this function does nothing
272  * TODO:
273  * QUESTION:
274  */
275 /*ARGSUSED*/
276 void
277 audit_anchorpath(struct pathname *pnp, int flag)
278 {
279 	au_kcontext_t	*kctx = GET_KCTX_PZ;
280 	t_audit_data_t *tad;
281 
282 	tad = U2A(u);
283 
284 	/*
285 	 * this event being audited or do we need path information
286 	 * later? This might be for a chdir/chroot or open (add path
287 	 * to file pointer. If the path has already been found for an
288 	 * open/creat then we don't need to process the path.
289 	 *
290 	 * S2E_SP (TAD_SAVPATH) flag comes from audit_s2e[].au_ctrl. Used with
291 	 *	chroot, chdir, open, creat system call processing. It determines
292 	 *	if audit_savepath() will discard the path or we need it later.
293 	 * TAD_PATHFND means path already included in this audit record. It
294 	 *	is used in cases where multiple path lookups are done per
295 	 *	system call. The policy flag, AUDIT_PATH, controls if multiple
296 	 *	paths are allowed.
297 	 * S2E_NPT (TAD_NOPATH) flag comes from audit_s2e[].au_ctrl. Used with
298 	 *	exit processing to inhibit any paths that may be added due to
299 	 *	closes.
300 	 */
301 	if ((tad->tad_flag == 0 && !(tad->tad_ctrl & TAD_SAVPATH)) ||
302 	    ((tad->tad_ctrl & TAD_PATHFND) &&
303 	    !(kctx->auk_policy & AUDIT_PATH)) ||
304 	    (tad->tad_ctrl & TAD_NOPATH)) {
305 		return;
306 	}
307 
308 	if (flag) {
309 		tad->tad_ctrl |= TAD_ABSPATH;
310 		if (tad->tad_aupath != NULL) {
311 			au_pathrele(tad->tad_aupath);
312 			tad->tad_aupath = NULL;
313 		}
314 	}
315 }
316 
317 
318 /*
319  * symbolic link. Save previous components.
320  *
321  * the path seen so far looks like this
322  *
323  *  +-----------------------+----------------+
324  *  | path processed so far | remaining path |
325  *  +-----------------------+----------------+
326  *  \-----------------------/
327  *	save this string if
328  *	symbolic link relative
329  *	(but don't include  symlink component)
330  */
331 
332 /*ARGSUSED*/
333 
334 
335 /*
336  * ROUTINE:	AUDIT_SYMLINK
337  * PURPOSE:
338  * CALLBY:	LOOKUPPN
339  * NOTE:
340  * TODO:
341  * QUESTION:
342  */
343 void
344 audit_symlink(struct pathname *pnp, struct pathname *sympath)
345 {
346 	char *sp;	/* saved initial pp */
347 	char *cp;	/* start of symlink path */
348 	uint_t len_path;	/* processed path before symlink */
349 	t_audit_data_t *tad;
350 	au_kcontext_t	*kctx = GET_KCTX_PZ;
351 
352 	tad = U2A(u);
353 
354 	/*
355 	 * this event being audited or do we need path information
356 	 * later? This might be for a chdir/chroot or open (add path
357 	 * to file pointer. If the path has already been found for an
358 	 * open/creat then we don't need to process the path.
359 	 *
360 	 * S2E_SP (TAD_SAVPATH) flag comes from audit_s2e[].au_ctrl. Used with
361 	 *	chroot, chdir, open, creat system call processing. It determines
362 	 *	if audit_savepath() will discard the path or we need it later.
363 	 * TAD_PATHFND means path already included in this audit record. It
364 	 *	is used in cases where multiple path lookups are done per
365 	 *	system call. The policy flag, AUDIT_PATH, controls if multiple
366 	 *	paths are allowed.
367 	 * S2E_NPT (TAD_NOPATH) flag comes from audit_s2e[].au_ctrl. Used with
368 	 *	exit processing to inhibit any paths that may be added due to
369 	 *	closes.
370 	 */
371 	if ((tad->tad_flag == 0 &&
372 	    !(tad->tad_ctrl & TAD_SAVPATH)) ||
373 	    ((tad->tad_ctrl & TAD_PATHFND) &&
374 	    !(kctx->auk_policy & AUDIT_PATH)) ||
375 	    (tad->tad_ctrl & TAD_NOPATH)) {
376 		return;
377 	}
378 
379 	/*
380 	 * if symbolic link is anchored at / then do nothing.
381 	 * When we cycle back to begin: in lookuppn() we will
382 	 * call audit_anchorpath() with a flag indicating if the
383 	 * path is anchored at / or is relative. We will release
384 	 * any saved path at that point.
385 	 *
386 	 * Note In the event that an error occurs in pn_combine then
387 	 * we want to remain pointing at the component that caused the
388 	 * path to overflow the pnp structure.
389 	 */
390 	if (sympath->pn_buf[0] == '/')
391 		return;
392 
393 	/* backup over last component */
394 	sp = cp = pnp->pn_path;
395 	while (*--cp != '/' && cp > pnp->pn_buf)
396 		;
397 
398 	len_path = cp - pnp->pn_buf;
399 
400 	/* is there anything to save? */
401 	if (len_path) {
402 		pnp->pn_path = pnp->pn_buf;
403 		audit_pathbuild(pnp);
404 		pnp->pn_path = sp;
405 	}
406 }
407 
408 /*
409  * object_is_public : determine whether events for the object (corresponding to
410  *			the specified file/directory attr) should be audited or
411  *			ignored.
412  *
413  * returns: 	1 - if audit policy and object attributes indicate that
414  *			file/directory is effectively public. read events for
415  *			the file should not be audited.
416  *		0 - otherwise
417  *
418  * The required attributes to be considered a public object are:
419  * - owned by root, AND
420  * - world-readable (permissions for other include read), AND
421  * - NOT world-writeable (permissions for other don't
422  *	include write)
423  *   (mode doesn't need to be checked for symlinks)
424  */
425 int
426 object_is_public(struct vattr *attr)
427 {
428 	au_kcontext_t	*kctx = GET_KCTX_PZ;
429 
430 	if (!(kctx->auk_policy & AUDIT_PUBLIC) && (attr->va_uid == 0) &&
431 	    ((attr->va_type == VLNK) ||
432 	    ((attr->va_mode & (VREAD>>6)) != 0) &&
433 	    ((attr->va_mode & (VWRITE>>6)) == 0))) {
434 		return (1);
435 	}
436 	return (0);
437 }
438 
439 
440 /*
441  * ROUTINE:	AUDIT_ATTRIBUTES
442  * PURPOSE:	Audit the attributes so we can tell why the error occurred
443  * CALLBY:	AUDIT_SAVEPATH
444  *		AUDIT_VNCREATE_FINISH
445  *		AUS_FCHOWN...audit_event.c...audit_path.c
446  * NOTE:
447  * TODO:
448  * QUESTION:
449  */
450 void
451 audit_attributes(struct vnode *vp)
452 {
453 	struct vattr attr;
454 	struct t_audit_data *tad;
455 
456 	tad = U2A(u);
457 
458 	if (vp) {
459 		attr.va_mask = AT_ALL;
460 		if (VOP_GETATTR(vp, &attr, 0, CRED(), NULL) != 0)
461 			return;
462 
463 		if (object_is_public(&attr) &&
464 		    (tad->tad_ctrl & TAD_PUBLIC_EV)) {
465 			/*
466 			 * This is a public object and a "public" event
467 			 * (i.e., read only) -- either by definition
468 			 * (e.g., stat, access...) or by virtue of write access
469 			 * not being requested (e.g. mmap).
470 			 * Flag it in the tad to prevent this audit at the end.
471 			 */
472 			tad->tad_ctrl |= TAD_NOAUDIT;
473 		} else {
474 			au_uwrite(au_to_attr(&attr));
475 			audit_sec_attributes(&(u_ad), vp);
476 		}
477 	}
478 }
479 
480 
481 /*
482  * ROUTINE:	AUDIT_EXIT
483  * PURPOSE:
484  * CALLBY:	EXIT
485  * NOTE:
486  * TODO:
487  * QUESTION:	why cmw code as offset by 2 but not here
488  */
489 /* ARGSUSED */
490 void
491 audit_exit(int code, int what)
492 {
493 	struct t_audit_data *tad;
494 	tad = U2A(u);
495 
496 	/*
497 	 * tad_scid will be set by audit_start even if we are not auditing
498 	 * the event.
499 	 */
500 	if (tad->tad_scid == SYS_exit) {
501 		/*
502 		 * if we are auditing the exit system call, then complete
503 		 * audit record generation (no return from system call).
504 		 */
505 		if (tad->tad_flag && tad->tad_event == AUE_EXIT)
506 			audit_finish(0, SYS_exit, 0, 0);
507 		return;
508 	}
509 
510 	/*
511 	 * Anyone auditing the system call that was aborted?
512 	 */
513 	if (tad->tad_flag) {
514 		au_uwrite(au_to_text("event aborted"));
515 		audit_finish(0, tad->tad_scid, 0, 0);
516 	}
517 
518 	/*
519 	 * Generate an audit record for process exit if preselected.
520 	 */
521 	(void) audit_start(0, SYS_exit, AUC_UNSET, 0, 0);
522 	audit_finish(0, SYS_exit, 0, 0);
523 }
524 
525 /*
526  * ROUTINE:	AUDIT_CORE_START
527  * PURPOSE:
528  * CALLBY: 	PSIG
529  * NOTE:
530  * TODO:
531  */
532 void
533 audit_core_start(int sig)
534 {
535 	au_event_t event;
536 	au_state_t estate;
537 	t_audit_data_t *tad;
538 	au_kcontext_t	*kctx;
539 
540 	tad = U2A(u);
541 
542 	ASSERT(tad != (t_audit_data_t *)0);
543 
544 	ASSERT(tad->tad_scid == 0);
545 	ASSERT(tad->tad_event == 0);
546 	ASSERT(tad->tad_evmod == 0);
547 	ASSERT(tad->tad_ctrl == 0);
548 	ASSERT(tad->tad_flag == 0);
549 	ASSERT(tad->tad_aupath == NULL);
550 
551 	kctx = GET_KCTX_PZ;
552 
553 	/* get basic event for system call */
554 	event = AUE_CORE;
555 	estate = kctx->auk_ets[event];
556 
557 	if ((tad->tad_flag = auditme(kctx, tad, estate)) == 0)
558 		return;
559 
560 	/* reset the flags for non-user attributable events */
561 	tad->tad_ctrl   = TAD_CORE;
562 	tad->tad_scid   = 0;
563 
564 	/* if auditing not enabled, then don't generate an audit record */
565 
566 	if (!((kctx->auk_auditstate == AUC_AUDITING ||
567 	    kctx->auk_auditstate == AUC_INIT_AUDIT) ||
568 	    kctx->auk_auditstate == AUC_NOSPACE)) {
569 		tad->tad_flag = 0;
570 		tad->tad_ctrl = 0;
571 		return;
572 	}
573 
574 	tad->tad_event  = event;
575 	tad->tad_evmod  = 0;
576 
577 	ASSERT(tad->tad_ad == NULL);
578 
579 	au_write(&(u_ad), au_to_arg32(1, "signal", (uint32_t)sig));
580 }
581 
582 /*
583  * ROUTINE:	AUDIT_CORE_FINISH
584  * PURPOSE:
585  * CALLBY:	PSIG
586  * NOTE:
587  * TODO:
588  * QUESTION:
589  */
590 
591 /*ARGSUSED*/
592 void
593 audit_core_finish(int code)
594 {
595 	int flag;
596 	t_audit_data_t *tad;
597 	au_kcontext_t	*kctx;
598 
599 	tad = U2A(u);
600 
601 	ASSERT(tad != (t_audit_data_t *)0);
602 
603 	if ((flag = tad->tad_flag) == 0) {
604 		tad->tad_event = 0;
605 		tad->tad_evmod = 0;
606 		tad->tad_ctrl  = 0;
607 		ASSERT(tad->tad_aupath == NULL);
608 		return;
609 	}
610 	tad->tad_flag = 0;
611 
612 	kctx = GET_KCTX_PZ;
613 
614 	/* kludge for error 0, should use `code==CLD_DUMPED' instead */
615 	if (flag = audit_success(kctx, tad, 0, NULL)) {
616 		cred_t *cr = CRED();
617 		const auditinfo_addr_t *ainfo = crgetauinfo(cr);
618 
619 		ASSERT(ainfo != NULL);
620 
621 		/*
622 		 * Add subject information (no locks since our private copy of
623 		 * credential
624 		 */
625 		AUDIT_SETSUBJ(&(u_ad), cr, ainfo, kctx);
626 
627 		/* Add a return token (should use f argument) */
628 		add_return_token((caddr_t *)&(u_ad), tad->tad_scid, 0, 0);
629 
630 		AS_INC(as_generated, 1, kctx);
631 		AS_INC(as_kernel, 1, kctx);
632 	}
633 
634 	/* Close up everything */
635 	au_close(kctx, &(u_ad), flag, tad->tad_event, tad->tad_evmod, NULL);
636 
637 	/* free up any space remaining with the path's */
638 	if (tad->tad_aupath != NULL) {
639 		au_pathrele(tad->tad_aupath);
640 		tad->tad_aupath = NULL;
641 	}
642 	tad->tad_event = 0;
643 	tad->tad_evmod = 0;
644 	tad->tad_ctrl  = 0;
645 }
646 
647 
648 /*ARGSUSED*/
649 void
650 audit_strgetmsg(struct vnode *vp, struct strbuf *mctl, struct strbuf *mdata,
651     unsigned char *pri, int *flag, int fmode)
652 {
653 	struct stdata *stp;
654 	t_audit_data_t *tad = U2A(u);
655 
656 	ASSERT(tad != (t_audit_data_t *)0);
657 
658 	stp = vp->v_stream;
659 
660 	/* lock stdata from audit_sock */
661 	mutex_enter(&stp->sd_lock);
662 
663 	/* proceed ONLY if user is being audited */
664 	if (!tad->tad_flag) {
665 		/*
666 		 * this is so we will not add audit data onto
667 		 * a thread that is not being audited.
668 		 */
669 		stp->sd_t_audit_data = NULL;
670 		mutex_exit(&stp->sd_lock);
671 		return;
672 	}
673 
674 	stp->sd_t_audit_data = (caddr_t)curthread;
675 	mutex_exit(&stp->sd_lock);
676 }
677 
678 /*ARGSUSED*/
679 void
680 audit_strputmsg(struct vnode *vp, struct strbuf *mctl, struct strbuf *mdata,
681     unsigned char pri, int flag, int fmode)
682 {
683 	struct stdata *stp;
684 	t_audit_data_t *tad = U2A(u);
685 
686 	ASSERT(tad != (t_audit_data_t *)0);
687 
688 	stp = vp->v_stream;
689 
690 	/* lock stdata from audit_sock */
691 	mutex_enter(&stp->sd_lock);
692 
693 	/* proceed ONLY if user is being audited */
694 	if (!tad->tad_flag) {
695 		/*
696 		 * this is so we will not add audit data onto
697 		 * a thread that is not being audited.
698 		 */
699 		stp->sd_t_audit_data = NULL;
700 		mutex_exit(&stp->sd_lock);
701 		return;
702 	}
703 
704 	stp->sd_t_audit_data = (caddr_t)curthread;
705 	mutex_exit(&stp->sd_lock);
706 }
707 
708 /*
709  * ROUTINE:	AUDIT_CLOSEF
710  * PURPOSE:
711  * CALLBY:	CLOSEF
712  * NOTE:
713  * release per file audit resources when file structure is being released.
714  *
715  * IMPORTANT NOTE: Since we generate an audit record here, we may sleep
716  *	on the audit queue if it becomes full. This means
717  *	audit_closef can not be called when f_count == 0. Since
718  *	f_count == 0 indicates the file structure is free, another
719  *	process could attempt to use the file while we were still
720  *	asleep waiting on the audit queue. This would cause the
721  *	per file audit data to be corrupted when we finally do
722  *	wakeup.
723  * TODO:
724  * QUESTION:
725  */
726 
727 void
728 audit_closef(struct file *fp)
729 {	/* AUDIT_CLOSEF */
730 	f_audit_data_t *fad;
731 	t_audit_data_t *tad;
732 	int success;
733 	au_state_t estate;
734 	struct vnode *vp;
735 	token_t *ad = NULL;
736 	struct vattr attr;
737 	au_emod_t evmod = 0;
738 	const auditinfo_addr_t *ainfo;
739 	int getattr_ret;
740 	cred_t *cr;
741 	au_kcontext_t	*kctx = GET_KCTX_PZ;
742 	uint32_t auditing;
743 
744 	fad = F2A(fp);
745 	estate = kctx->auk_ets[AUE_CLOSE];
746 	tad = U2A(u);
747 	cr = CRED();
748 
749 	/* audit record already generated by system call envelope */
750 	if (tad->tad_event == AUE_CLOSE) {
751 		/* so close audit event will have bits set */
752 		tad->tad_evmod |= (au_emod_t)fad->fad_flags;
753 		return;
754 	}
755 
756 	/* if auditing not enabled, then don't generate an audit record */
757 	auditing = (tad->tad_audit == AUC_UNSET) ?
758 	    kctx->auk_auditstate : tad->tad_audit;
759 	if (auditing & ~(AUC_AUDITING | AUC_INIT_AUDIT | AUC_NOSPACE))
760 		return;
761 
762 	ainfo = crgetauinfo(cr);
763 	if (ainfo == NULL)
764 		return;
765 
766 	success = ainfo->ai_mask.as_success & estate;
767 
768 	/* not selected for this event */
769 	if (success == 0)
770 		return;
771 
772 	/*
773 	 * can't use audit_attributes here since we use a private audit area
774 	 * to build the audit record instead of the one off the thread.
775 	 */
776 	if ((vp = fp->f_vnode) != NULL) {
777 		attr.va_mask = AT_ALL;
778 		getattr_ret = VOP_GETATTR(vp, &attr, 0, CRED(), NULL);
779 	}
780 
781 	/*
782 	 * When write was not used and the file can be considered public,
783 	 * then skip the audit.
784 	 */
785 	if ((getattr_ret == 0) && ((fp->f_flag & FWRITE) == 0)) {
786 		if (object_is_public(&attr)) {
787 			return;
788 		}
789 	}
790 
791 	evmod = (au_emod_t)fad->fad_flags;
792 	if (fad->fad_aupath != NULL) {
793 		au_write((caddr_t *)&(ad), au_to_path(fad->fad_aupath));
794 	} else {
795 #ifdef _LP64
796 		au_write((caddr_t *)&(ad), au_to_arg64(
797 			1, "no path: fp", (uint64_t)fp));
798 #else
799 		au_write((caddr_t *)&(ad), au_to_arg32(
800 			1, "no path: fp", (uint32_t)fp));
801 #endif
802 	}
803 
804 	if (getattr_ret == 0) {
805 		au_write((caddr_t *)&(ad), au_to_attr(&attr));
806 		audit_sec_attributes((caddr_t *)&(ad), vp);
807 	}
808 
809 	/* Add subject information */
810 	AUDIT_SETSUBJ((caddr_t *)&(ad), cr, ainfo, kctx);
811 
812 	/* add a return token */
813 	add_return_token((caddr_t *)&(ad), tad->tad_scid, 0, 0);
814 
815 	AS_INC(as_generated, 1, kctx);
816 	AS_INC(as_kernel, 1, kctx);
817 
818 	/*
819 	 * Close up everything
820 	 * Note: path space recovery handled by normal system
821 	 * call envelope if not at last close.
822 	 * Note there is no failure at this point since
823 	 *   this represents closes due to exit of process,
824 	 *   thus we always indicate successful closes.
825 	 */
826 	au_close(kctx, (caddr_t *)&(ad), AU_OK | AU_DEFER,
827 	    AUE_CLOSE, evmod, NULL);
828 }
829 
830 /*
831  * ROUTINE:	AUDIT_SET
832  * PURPOSE:	Audit the file path and file attributes.
833  * CALLBY:	SETF
834  * NOTE:	SETF associate a file pointer with user area's open files.
835  * TODO:
836  * call audit_finish directly ???
837  * QUESTION:
838  */
839 
840 /*ARGSUSED*/
841 void
842 audit_setf(file_t *fp, int fd)
843 {
844 	f_audit_data_t *fad;
845 	t_audit_data_t *tad;
846 
847 	if (fp == NULL)
848 		return;
849 
850 	tad = T2A(curthread);
851 	fad = F2A(fp);
852 
853 	if (!(tad->tad_scid == SYS_open ||
854 	    tad->tad_scid == SYS_open64 ||
855 	    tad->tad_scid == SYS_openat ||
856 	    tad->tad_scid == SYS_openat64))
857 		return;
858 
859 	/* no path */
860 	if (tad->tad_aupath == 0)
861 		return;
862 
863 	/*
864 	 * assign path information associated with file audit data
865 	 * use tad hold
866 	 */
867 	fad->fad_aupath = tad->tad_aupath;
868 	tad->tad_aupath = NULL;
869 
870 	if (!(tad->tad_ctrl & TAD_TRUE_CREATE)) {
871 		/* adjust event type by dropping the 'creat' part */
872 		switch (tad->tad_event) {
873 		case AUE_OPEN_RC:
874 			tad->tad_event = AUE_OPEN_R;
875 			tad->tad_ctrl |= TAD_PUBLIC_EV;
876 			break;
877 		case AUE_OPEN_RTC:
878 			tad->tad_event = AUE_OPEN_RT;
879 			break;
880 		case AUE_OPEN_WC:
881 			tad->tad_event = AUE_OPEN_W;
882 			break;
883 		case AUE_OPEN_WTC:
884 			tad->tad_event = AUE_OPEN_WT;
885 			break;
886 		case AUE_OPEN_RWC:
887 			tad->tad_event = AUE_OPEN_RW;
888 			break;
889 		case AUE_OPEN_RWTC:
890 			tad->tad_event = AUE_OPEN_RWT;
891 			break;
892 		default:
893 			break;
894 		}
895 	}
896 }
897 
898 
899 void
900 audit_ipc(int type, int id, void *vp)
901 {
902 	/* if not auditing this event, then do nothing */
903 	if (ad_flag == 0)
904 		return;
905 
906 	switch (type) {
907 	case AT_IPC_MSG:
908 		au_uwrite(au_to_ipc(AT_IPC_MSG, id));
909 		au_uwrite(au_to_ipc_perm(&(((kmsqid_t *)vp)->msg_perm)));
910 		break;
911 	case AT_IPC_SEM:
912 		au_uwrite(au_to_ipc(AT_IPC_SEM, id));
913 		au_uwrite(au_to_ipc_perm(&(((ksemid_t *)vp)->sem_perm)));
914 		break;
915 	case AT_IPC_SHM:
916 		au_uwrite(au_to_ipc(AT_IPC_SHM, id));
917 		au_uwrite(au_to_ipc_perm(&(((kshmid_t *)vp)->shm_perm)));
918 		break;
919 	}
920 }
921 
922 void
923 audit_ipcget(int type, void *vp)
924 {
925 	/* if not auditing this event, then do nothing */
926 	if (ad_flag == 0)
927 		return;
928 
929 	switch (type) {
930 	case NULL:
931 		au_uwrite(au_to_ipc_perm((struct kipc_perm *)vp));
932 		break;
933 	case AT_IPC_MSG:
934 		au_uwrite(au_to_ipc_perm(&(((kmsqid_t *)vp)->msg_perm)));
935 		break;
936 	case AT_IPC_SEM:
937 		au_uwrite(au_to_ipc_perm(&(((ksemid_t *)vp)->sem_perm)));
938 		break;
939 	case AT_IPC_SHM:
940 		au_uwrite(au_to_ipc_perm(&(((kshmid_t *)vp)->shm_perm)));
941 		break;
942 	}
943 }
944 
945 /*
946  * ROUTINE:	AUDIT_REBOOT
947  * PURPOSE:
948  * CALLBY:
949  * NOTE:
950  * At this point we know that the system call reboot will not return. We thus
951  * have to complete the audit record generation and put it onto the queue.
952  * This might be fairly useless if the auditing daemon is already dead....
953  * TODO:
954  * QUESTION:	who calls audit_reboot
955  */
956 
957 void
958 audit_reboot(void)
959 {
960 	int flag;
961 	t_audit_data_t *tad;
962 	au_kcontext_t	*kctx = GET_KCTX_PZ;
963 
964 	tad = U2A(u);
965 
966 	/* if not auditing this event, then do nothing */
967 	if (tad->tad_flag == 0)
968 		return;
969 
970 	/* do preselection on success/failure */
971 	if (flag = audit_success(kctx, tad, 0, NULL)) {
972 		/* add a process token */
973 
974 		cred_t *cr = CRED();
975 		const auditinfo_addr_t *ainfo = crgetauinfo(cr);
976 
977 		if (ainfo == NULL)
978 			return;
979 
980 		/* Add subject information */
981 		AUDIT_SETSUBJ(&(u_ad), cr, ainfo, kctx);
982 
983 		/* add a return token */
984 		add_return_token((caddr_t *)&(u_ad), tad->tad_scid, 0, 0);
985 
986 		AS_INC(as_generated, 1, kctx);
987 		AS_INC(as_kernel, 1, kctx);
988 	}
989 
990 	/*
991 	 * Flow control useless here since we're going
992 	 * to drop everything in the queue anyway. Why
993 	 * block and wait. There aint anyone left alive to
994 	 * read the records remaining anyway.
995 	 */
996 
997 	/* Close up everything */
998 	au_close(kctx, &(u_ad), flag | AU_DONTBLOCK,
999 	    tad->tad_event, tad->tad_evmod, NULL);
1000 }
1001 
1002 void
1003 audit_setfsat_path(int argnum)
1004 {
1005 	klwp_id_t clwp = ttolwp(curthread);
1006 	struct file  *fp;
1007 	uint32_t fd;
1008 	t_audit_data_t *tad;
1009 	struct f_audit_data *fad;
1010 	p_audit_data_t *pad;	/* current process */
1011 	struct a {
1012 		long arg1;
1013 		long arg2;
1014 		long arg3;
1015 		long arg4;
1016 		long arg5;
1017 	} *uap;
1018 
1019 	if (clwp == NULL)
1020 		return;
1021 	uap = (struct a *)clwp->lwp_ap;
1022 
1023 	tad = U2A(u);
1024 	ASSERT(tad != NULL);
1025 
1026 	switch (tad->tad_scid) {
1027 	case SYS_faccessat:
1028 	case SYS_fchownat:
1029 	case SYS_fstatat:
1030 	case SYS_fstatat64:
1031 	case SYS_openat:
1032 	case SYS_openat64:
1033 	case SYS_unlinkat:
1034 		fd = uap->arg1;
1035 		break;
1036 	case SYS_renameat:
1037 		if (argnum == 3)
1038 			fd = uap->arg3;
1039 		else
1040 			fd = uap->arg1;
1041 		break;
1042 	case SYS_utimesys:
1043 		fd = uap->arg2;
1044 		break;
1045 	default:
1046 		return;
1047 	}
1048 
1049 	if (tad->tad_atpath != NULL) {
1050 		au_pathrele(tad->tad_atpath);
1051 		tad->tad_atpath = NULL;
1052 	}
1053 	if (fd != AT_FDCWD) {
1054 		if ((fp = getf(fd)) == NULL) {
1055 			tad->tad_ctrl |= TAD_NOPATH;
1056 			return;
1057 		}
1058 		fad = F2A(fp);
1059 		ASSERT(fad);
1060 		if (fad->fad_aupath == NULL) {
1061 			tad->tad_ctrl |= TAD_NOPATH;
1062 			releasef(fd);
1063 			return;
1064 		}
1065 		au_pathhold(fad->fad_aupath);
1066 		tad->tad_atpath = fad->fad_aupath;
1067 		releasef(fd);
1068 	} else {
1069 		pad = P2A(curproc);
1070 		mutex_enter(&pad->pad_lock);
1071 		au_pathhold(pad->pad_cwd);
1072 		tad->tad_atpath = pad->pad_cwd;
1073 		mutex_exit(&pad->pad_lock);
1074 	}
1075 }
1076 
1077 void
1078 audit_symlink_create(vnode_t *dvp, char *sname, char *target, int error)
1079 {
1080 	t_audit_data_t *tad;
1081 	vnode_t	*vp;
1082 
1083 	tad = U2A(u);
1084 
1085 	/* if not auditing this event, then do nothing */
1086 	if (tad->tad_flag == 0)
1087 		return;
1088 
1089 	au_uwrite(au_to_text(target));
1090 
1091 	if (error)
1092 		return;
1093 
1094 	error = VOP_LOOKUP(dvp, sname, &vp, NULL, 0, NULL, CRED(),
1095 	    NULL, NULL, NULL);
1096 	if (error == 0) {
1097 		audit_attributes(vp);
1098 		VN_RELE(vp);
1099 	}
1100 }
1101 
1102 /*
1103  * ROUTINE:	AUDIT_VNCREATE_START
1104  * PURPOSE:	set flag so path name lookup in create will not add attribute
1105  * CALLBY:	VN_CREATE
1106  * NOTE:
1107  * TODO:
1108  * QUESTION:
1109  */
1110 
1111 void
1112 audit_vncreate_start()
1113 {
1114 	t_audit_data_t *tad;
1115 
1116 	tad = U2A(u);
1117 	tad->tad_ctrl |= TAD_NOATTRB;
1118 }
1119 
1120 /*
1121  * ROUTINE:	AUDIT_VNCREATE_FINISH
1122  * PURPOSE:
1123  * CALLBY:	VN_CREATE
1124  * NOTE:
1125  * TODO:
1126  * QUESTION:
1127  */
1128 void
1129 audit_vncreate_finish(struct vnode *vp, int error)
1130 {
1131 	t_audit_data_t *tad;
1132 
1133 	if (error)
1134 		return;
1135 
1136 	tad = U2A(u);
1137 
1138 	/* if not auditing this event, then do nothing */
1139 	if (tad->tad_flag == 0)
1140 		return;
1141 
1142 	if (tad->tad_ctrl & TAD_TRUE_CREATE) {
1143 		audit_attributes(vp);
1144 	}
1145 
1146 	if (tad->tad_ctrl & TAD_CORE) {
1147 		audit_attributes(vp);
1148 		tad->tad_ctrl &= ~TAD_CORE;
1149 	}
1150 
1151 	if (!error && ((tad->tad_event == AUE_MKNOD) ||
1152 	    (tad->tad_event == AUE_MKDIR))) {
1153 		audit_attributes(vp);
1154 	}
1155 
1156 	/* for case where multiple lookups in one syscall (rename) */
1157 	tad->tad_ctrl &= ~TAD_NOATTRB;
1158 }
1159 
1160 
1161 
1162 
1163 
1164 
1165 
1166 
1167 /*
1168  * ROUTINE:	AUDIT_EXEC
1169  * PURPOSE:	Records the function arguments and environment variables
1170  * CALLBY:	EXEC_ARGS
1171  * NOTE:
1172  * TODO:
1173  * QUESTION:
1174  */
1175 
1176 void
1177 audit_exec(
1178 	const char *argstr,	/* argument strings */
1179 	const char *envstr,	/* environment strings */
1180 	ssize_t argc,		/* total # arguments */
1181 	ssize_t envc,		/* total # environment variables */
1182 	cred_t *pfcred)		/* the additional privileges in a profile */
1183 {
1184 	t_audit_data_t *tad;
1185 	au_kcontext_t	*kctx = GET_KCTX_PZ;
1186 
1187 	tad = U2A(u);
1188 
1189 	/* if not auditing this event, then do nothing */
1190 	if (!tad->tad_flag)
1191 		return;
1192 
1193 	if (pfcred != NULL) {
1194 		p_audit_data_t *pad;
1195 		cred_t *cr = CRED();
1196 		priv_set_t pset = CR_IPRIV(cr);
1197 
1198 		pad = P2A(curproc);
1199 
1200 		/* It's a different event. */
1201 		tad->tad_event = AUE_PFEXEC;
1202 
1203 		/* Add the current working directory to the audit trail. */
1204 		if (pad->pad_cwd != NULL)
1205 			au_uwrite(au_to_path(pad->pad_cwd));
1206 
1207 		/*
1208 		 * The new credential is not yet in place when audit_exec
1209 		 * is called.
1210 		 * Compute the additional bits available in the new credential
1211 		 * and the limit set.
1212 		 */
1213 		priv_inverse(&pset);
1214 		priv_intersect(&CR_IPRIV(pfcred), &pset);
1215 		if (!priv_isemptyset(&pset) ||
1216 		    !priv_isequalset(&CR_LPRIV(pfcred), &CR_LPRIV(cr))) {
1217 			au_uwrite(au_to_privset(
1218 			    priv_getsetbynum(PRIV_INHERITABLE), &pset, AUT_PRIV,
1219 			    0));
1220 			au_uwrite(au_to_privset(priv_getsetbynum(PRIV_LIMIT),
1221 			    &CR_LPRIV(pfcred), AUT_PRIV, 0));
1222 		}
1223 		/*
1224 		 * Compare the uids & gids: create a process token if changed.
1225 		 */
1226 		if (crgetuid(cr) != crgetuid(pfcred) ||
1227 		    crgetruid(cr) != crgetruid(pfcred) ||
1228 		    crgetgid(cr) != crgetgid(pfcred) ||
1229 		    crgetrgid(cr) != crgetrgid(pfcred)) {
1230 			AUDIT_SETPROC(&(u_ad), cr, crgetauinfo(cr));
1231 		}
1232 	}
1233 
1234 	if (pfcred != NULL || (kctx->auk_policy & AUDIT_ARGV) != 0)
1235 		au_uwrite(au_to_exec_args(argstr, argc));
1236 
1237 	if (kctx->auk_policy & AUDIT_ARGE)
1238 		au_uwrite(au_to_exec_env(envstr, envc));
1239 }
1240 
1241 /*
1242  * ROUTINE:	AUDIT_ENTERPROM
1243  * PURPOSE:
1244  * CALLBY:	KBDINPUT
1245  *		ZSA_XSINT
1246  * NOTE:
1247  * TODO:
1248  * QUESTION:
1249  */
1250 void
1251 audit_enterprom(int flg)
1252 {
1253 	token_t *rp = NULL;
1254 	int sorf;
1255 
1256 	if (flg)
1257 		sorf = AUM_SUCC;
1258 	else
1259 		sorf = AUM_FAIL;
1260 
1261 	AUDIT_ASYNC_START(rp, AUE_ENTERPROM, sorf);
1262 
1263 	au_write((caddr_t *)&(rp), au_to_text("kmdb"));
1264 
1265 	if (flg)
1266 		au_write((caddr_t *)&(rp), au_to_return32(0, 0));
1267 	else
1268 		au_write((caddr_t *)&(rp), au_to_return32(ECANCELED, 0));
1269 
1270 	AUDIT_ASYNC_FINISH(rp, AUE_ENTERPROM, NULL, NULL);
1271 }
1272 
1273 
1274 /*
1275  * ROUTINE:	AUDIT_EXITPROM
1276  * PURPOSE:
1277  * CALLBY:	KBDINPUT
1278  *		ZSA_XSINT
1279  * NOTE:
1280  * TODO:
1281  * QUESTION:
1282  */
1283 void
1284 audit_exitprom(int flg)
1285 {
1286 	int sorf;
1287 	token_t *rp = NULL;
1288 
1289 	if (flg)
1290 		sorf = AUM_SUCC;
1291 	else
1292 		sorf = AUM_FAIL;
1293 
1294 	AUDIT_ASYNC_START(rp, AUE_EXITPROM, sorf);
1295 
1296 	au_write((caddr_t *)&(rp), au_to_text("kmdb"));
1297 
1298 	if (flg)
1299 		au_write((caddr_t *)&(rp), au_to_return32(0, 0));
1300 	else
1301 		au_write((caddr_t *)&(rp), au_to_return32(ECANCELED, 0));
1302 
1303 	AUDIT_ASYNC_FINISH(rp, AUE_EXITPROM, NULL, NULL);
1304 }
1305 
1306 struct fcntla {
1307 	int fdes;
1308 	int cmd;
1309 	intptr_t arg;
1310 };
1311 
1312 
1313 /*
1314  * ROUTINE:	AUDIT_CHDIREC
1315  * PURPOSE:
1316  * CALLBY:	CHDIREC
1317  * NOTE:	The main function of CHDIREC
1318  * TODO:	Move the audit_chdirec hook above the VN_RELE in vncalls.c
1319  * QUESTION:
1320  */
1321 
1322 /*ARGSUSED*/
1323 void
1324 audit_chdirec(vnode_t *vp, vnode_t **vpp)
1325 {
1326 	int		chdir;
1327 	int		fchdir;
1328 	struct audit_path	**appp;
1329 	struct file	*fp;
1330 	f_audit_data_t *fad;
1331 	p_audit_data_t *pad = P2A(curproc);
1332 	t_audit_data_t *tad = T2A(curthread);
1333 
1334 	struct a {
1335 		long fd;
1336 	} *uap = (struct a *)ttolwp(curthread)->lwp_ap;
1337 
1338 	if ((tad->tad_scid == SYS_chdir) || (tad->tad_scid == SYS_chroot)) {
1339 		chdir = tad->tad_scid == SYS_chdir;
1340 		if (tad->tad_aupath) {
1341 			mutex_enter(&pad->pad_lock);
1342 			if (chdir)
1343 				appp = &(pad->pad_cwd);
1344 			else
1345 				appp = &(pad->pad_root);
1346 			au_pathrele(*appp);
1347 			/* use tad hold */
1348 			*appp = tad->tad_aupath;
1349 			tad->tad_aupath = NULL;
1350 			mutex_exit(&pad->pad_lock);
1351 		}
1352 	} else if ((tad->tad_scid == SYS_fchdir) ||
1353 	    (tad->tad_scid == SYS_fchroot)) {
1354 		fchdir = tad->tad_scid == SYS_fchdir;
1355 		if ((fp = getf(uap->fd)) == NULL)
1356 			return;
1357 		fad = F2A(fp);
1358 		if (fad->fad_aupath) {
1359 			au_pathhold(fad->fad_aupath);
1360 			mutex_enter(&pad->pad_lock);
1361 			if (fchdir)
1362 				appp = &(pad->pad_cwd);
1363 			else
1364 				appp = &(pad->pad_root);
1365 			au_pathrele(*appp);
1366 			*appp = fad->fad_aupath;
1367 			mutex_exit(&pad->pad_lock);
1368 			if (tad->tad_flag) {
1369 				au_uwrite(au_to_path(fad->fad_aupath));
1370 				audit_attributes(fp->f_vnode);
1371 			}
1372 		}
1373 		releasef(uap->fd);
1374 	}
1375 }
1376 
1377 
1378 /*
1379  *	Audit hook for stream based socket and tli request.
1380  *	Note that we do not have user context while executing
1381  *	this code so we had to record them earlier during the
1382  *	putmsg/getmsg to figure out which user we are dealing with.
1383  */
1384 
1385 /*ARGSUSED*/
1386 void
1387 audit_sock(
1388 	int type,	/* type of tihdr.h header requests */
1389 	queue_t *q,	/* contains the process and thread audit data */
1390 	mblk_t *mp,	/* contains the tihdr.h header structures */
1391 	int from)	/* timod or sockmod request */
1392 {
1393 	int32_t    len;
1394 	int32_t    offset;
1395 	struct sockaddr_in *sock_data;
1396 	struct T_conn_req *conn_req;
1397 	struct T_conn_ind *conn_ind;
1398 	struct T_unitdata_req *unitdata_req;
1399 	struct T_unitdata_ind *unitdata_ind;
1400 	au_state_t estate;
1401 	t_audit_data_t *tad;
1402 	caddr_t saved_thread_ptr;
1403 	au_mask_t amask;
1404 	const auditinfo_addr_t *ainfo;
1405 	au_kcontext_t	*kctx;
1406 
1407 	if (q->q_stream == NULL)
1408 		return;
1409 	mutex_enter(&q->q_stream->sd_lock);
1410 	/* are we being audited */
1411 	saved_thread_ptr = q->q_stream->sd_t_audit_data;
1412 	/* no pointer to thread, nothing to do */
1413 	if (saved_thread_ptr == NULL) {
1414 		mutex_exit(&q->q_stream->sd_lock);
1415 		return;
1416 	}
1417 	/* only allow one addition of a record token */
1418 	q->q_stream->sd_t_audit_data = NULL;
1419 	/*
1420 	 * thread is not the one being audited, then nothing to do
1421 	 * This could be the stream thread handling the module
1422 	 * service routine. In this case, the context for the audit
1423 	 * record can no longer be assumed. Simplest to just drop
1424 	 * the operation.
1425 	 */
1426 	if (curthread != (kthread_id_t)saved_thread_ptr) {
1427 		mutex_exit(&q->q_stream->sd_lock);
1428 		return;
1429 	}
1430 	if (curthread->t_sysnum >= SYS_so_socket &&
1431 	    curthread->t_sysnum <= SYS_sockconfig) {
1432 		mutex_exit(&q->q_stream->sd_lock);
1433 		return;
1434 	}
1435 	mutex_exit(&q->q_stream->sd_lock);
1436 	/*
1437 	 * we know that the thread that did the put/getmsg is the
1438 	 * one running. Now we can get the TAD and see if we should
1439 	 * add an audit token.
1440 	 */
1441 	tad = U2A(u);
1442 
1443 	kctx = GET_KCTX_PZ;
1444 
1445 	/* proceed ONLY if user is being audited */
1446 	if (!tad->tad_flag)
1447 		return;
1448 
1449 	ainfo = crgetauinfo(CRED());
1450 	if (ainfo == NULL)
1451 		return;
1452 	amask = ainfo->ai_mask;
1453 
1454 	/*
1455 	 * Figure out the type of stream networking request here.
1456 	 * Note that getmsg and putmsg are always preselected
1457 	 * because during the beginning of the system call we have
1458 	 * not yet figure out which of the socket or tli request
1459 	 * we are looking at until we are here. So we need to check
1460 	 * against that specific request and reset the type of event.
1461 	 */
1462 	switch (type) {
1463 	case T_CONN_REQ:	/* connection request */
1464 		conn_req = (struct T_conn_req *)mp->b_rptr;
1465 		if (conn_req->DEST_offset < sizeof (struct T_conn_req))
1466 			return;
1467 		offset = conn_req->DEST_offset;
1468 		len = conn_req->DEST_length;
1469 		estate = kctx->auk_ets[AUE_SOCKCONNECT];
1470 		if (amask.as_success & estate || amask.as_failure & estate) {
1471 			tad->tad_event = AUE_SOCKCONNECT;
1472 			break;
1473 		} else {
1474 			return;
1475 		}
1476 	case T_CONN_IND:	 /* connectionless receive request */
1477 		conn_ind = (struct T_conn_ind *)mp->b_rptr;
1478 		if (conn_ind->SRC_offset < sizeof (struct T_conn_ind))
1479 			return;
1480 		offset = conn_ind->SRC_offset;
1481 		len = conn_ind->SRC_length;
1482 		estate = kctx->auk_ets[AUE_SOCKACCEPT];
1483 		if (amask.as_success & estate || amask.as_failure & estate) {
1484 			tad->tad_event = AUE_SOCKACCEPT;
1485 			break;
1486 		} else {
1487 			return;
1488 		}
1489 	case T_UNITDATA_REQ:	 /* connectionless send request */
1490 		unitdata_req = (struct T_unitdata_req *)mp->b_rptr;
1491 		if (unitdata_req->DEST_offset < sizeof (struct T_unitdata_req))
1492 			return;
1493 		offset = unitdata_req->DEST_offset;
1494 		len = unitdata_req->DEST_length;
1495 		estate = kctx->auk_ets[AUE_SOCKSEND];
1496 		if (amask.as_success & estate || amask.as_failure & estate) {
1497 			tad->tad_event = AUE_SOCKSEND;
1498 			break;
1499 		} else {
1500 			return;
1501 		}
1502 	case T_UNITDATA_IND:	 /* connectionless receive request */
1503 		unitdata_ind = (struct T_unitdata_ind *)mp->b_rptr;
1504 		if (unitdata_ind->SRC_offset < sizeof (struct T_unitdata_ind))
1505 			return;
1506 		offset = unitdata_ind->SRC_offset;
1507 		len = unitdata_ind->SRC_length;
1508 		estate = kctx->auk_ets[AUE_SOCKRECEIVE];
1509 		if (amask.as_success & estate || amask.as_failure & estate) {
1510 			tad->tad_event = AUE_SOCKRECEIVE;
1511 			break;
1512 		} else {
1513 			return;
1514 		}
1515 	default:
1516 		return;
1517 	}
1518 
1519 	/*
1520 	 * we are only interested in tcp stream connections,
1521 	 * not unix domain stuff
1522 	 */
1523 	if ((len < 0) || (len > sizeof (struct sockaddr_in))) {
1524 		tad->tad_event = AUE_GETMSG;
1525 		return;
1526 	}
1527 	/* skip over TPI header and point to the ip address */
1528 	sock_data = (struct sockaddr_in *)((char *)mp->b_rptr + offset);
1529 
1530 	switch (sock_data->sin_family) {
1531 	case AF_INET:
1532 		au_write(&(tad->tad_ad), au_to_sock_inet(sock_data));
1533 		break;
1534 	default:	/* reset to AUE_PUTMSG if not a inet request */
1535 		tad->tad_event = AUE_GETMSG;
1536 		break;
1537 	}
1538 }
1539 
1540 
1541 static void
1542 add_return_token(caddr_t *ad, unsigned int scid, int err, int rval)
1543 {
1544 	unsigned int sy_flags;
1545 
1546 #ifdef _SYSCALL32_IMPL
1547 	/*
1548 	 * Guard against t_lwp being NULL when this function is called
1549 	 * from a kernel queue instead of from a direct system call.
1550 	 * In that case, assume the running kernel data model.
1551 	 */
1552 	if ((curthread->t_lwp == NULL) || (lwp_getdatamodel(
1553 	    ttolwp(curthread)) == DATAMODEL_NATIVE))
1554 		sy_flags = sysent[scid].sy_flags & SE_RVAL_MASK;
1555 	else
1556 		sy_flags = sysent32[scid].sy_flags & SE_RVAL_MASK;
1557 #else
1558 		sy_flags = sysent[scid].sy_flags & SE_RVAL_MASK;
1559 #endif
1560 
1561 	if (sy_flags == SE_64RVAL)
1562 		au_write(ad, au_to_return64(err, rval));
1563 	else
1564 		au_write(ad, au_to_return32(err, rval));
1565 
1566 }
1567 
1568 /*ARGSUSED*/
1569 void
1570 audit_fdsend(fd, fp, error)
1571 	int fd;
1572 	struct file *fp;
1573 	int error;		/* ignore for now */
1574 {
1575 	t_audit_data_t *tad;	/* current thread */
1576 	f_audit_data_t *fad;	/* per file audit structure */
1577 	struct vnode *vp;	/* for file attributes */
1578 
1579 	/* is this system call being audited */
1580 	tad = U2A(u);
1581 	ASSERT(tad != (t_audit_data_t *)0);
1582 	if (!tad->tad_flag)
1583 		return;
1584 
1585 	fad = F2A(fp);
1586 
1587 	/* add path and file attributes */
1588 	if (fad != NULL && fad->fad_aupath != NULL) {
1589 		au_uwrite(au_to_arg32(0, "send fd", (uint32_t)fd));
1590 		au_uwrite(au_to_path(fad->fad_aupath));
1591 	} else {
1592 		au_uwrite(au_to_arg32(0, "send fd", (uint32_t)fd));
1593 #ifdef _LP64
1594 		au_uwrite(au_to_arg64(0, "no path", (uint64_t)fp));
1595 #else
1596 		au_uwrite(au_to_arg32(0, "no path", (uint32_t)fp));
1597 #endif
1598 	}
1599 	vp = fp->f_vnode;	/* include vnode attributes */
1600 	audit_attributes(vp);
1601 }
1602 
1603 /*
1604  * Record privileges successfully used and we attempted to use but
1605  * didn't have.
1606  */
1607 void
1608 audit_priv(int priv, const priv_set_t *set, int flag)
1609 {
1610 	t_audit_data_t *tad;
1611 	int sbit;
1612 	priv_set_t *target;
1613 
1614 	/* Make sure this isn't being called in an interrupt context */
1615 	ASSERT(servicing_interrupt() == 0);
1616 
1617 	tad = U2A(u);
1618 
1619 	if (tad->tad_flag == 0)
1620 		return;
1621 
1622 	target = flag ? &tad->tad_sprivs : &tad->tad_fprivs;
1623 	sbit = flag ? PAD_SPRIVUSE : PAD_FPRIVUSE;
1624 
1625 	/* Tell audit_success() and audit_finish() that we saw this case */
1626 	if (!(tad->tad_evmod & sbit)) {
1627 		/* Clear set first time around */
1628 		priv_emptyset(target);
1629 		tad->tad_evmod |= sbit;
1630 	}
1631 
1632 	/* Save the privileges in the tad */
1633 	if (priv == PRIV_ALL) {
1634 		priv_fillset(target);
1635 	} else {
1636 		ASSERT(set != NULL || priv != PRIV_NONE);
1637 		if (set != NULL)
1638 			priv_union(set, target);
1639 		if (priv != PRIV_NONE)
1640 			priv_addset(target, priv);
1641 	}
1642 }
1643 
1644 /*
1645  * Audit the setpriv() system call; the operation, the set name and
1646  * the current value as well as the set argument are put in the
1647  * audit trail.
1648  */
1649 void
1650 audit_setppriv(int op, int set, const priv_set_t *newpriv, const cred_t *ocr)
1651 {
1652 	t_audit_data_t *tad;
1653 	const priv_set_t *oldpriv;
1654 	priv_set_t report;
1655 	const char *setname;
1656 
1657 	tad = U2A(u);
1658 
1659 	if (tad->tad_flag == 0)
1660 		return;
1661 
1662 	oldpriv = priv_getset(ocr, set);
1663 
1664 	/* Generate the actual record, include the before and after */
1665 	au_uwrite(au_to_arg32(2, "op", op));
1666 	setname = priv_getsetbynum(set);
1667 
1668 	switch (op) {
1669 	case PRIV_OFF:
1670 		/* Report privileges actually switched off */
1671 		report = *oldpriv;
1672 		priv_intersect(newpriv, &report);
1673 		au_uwrite(au_to_privset(setname, &report, AUT_PRIV, 0));
1674 		break;
1675 	case PRIV_ON:
1676 		/* Report privileges actually switched on */
1677 		report = *oldpriv;
1678 		priv_inverse(&report);
1679 		priv_intersect(newpriv, &report);
1680 		au_uwrite(au_to_privset(setname, &report, AUT_PRIV, 0));
1681 		break;
1682 	case PRIV_SET:
1683 		/* Report before and after */
1684 		au_uwrite(au_to_privset(setname, oldpriv, AUT_PRIV, 0));
1685 		au_uwrite(au_to_privset(setname, newpriv, AUT_PRIV, 0));
1686 		break;
1687 	}
1688 }
1689 
1690 /*
1691  * Dump the full device policy setting in the audit trail.
1692  */
1693 void
1694 audit_devpolicy(int nitems, const devplcysys_t *items)
1695 {
1696 	t_audit_data_t *tad;
1697 	int i;
1698 
1699 	tad = U2A(u);
1700 
1701 	if (tad->tad_flag == 0)
1702 		return;
1703 
1704 	for (i = 0; i < nitems; i++) {
1705 		au_uwrite(au_to_arg32(2, "major", items[i].dps_maj));
1706 		if (items[i].dps_minornm[0] == '\0') {
1707 			au_uwrite(au_to_arg32(2, "lomin", items[i].dps_lomin));
1708 			au_uwrite(au_to_arg32(2, "himin", items[i].dps_himin));
1709 		} else
1710 			au_uwrite(au_to_text(items[i].dps_minornm));
1711 
1712 		au_uwrite(au_to_privset("read", &items[i].dps_rdp,
1713 		    AUT_PRIV, 0));
1714 		au_uwrite(au_to_privset("write", &items[i].dps_wrp,
1715 		    AUT_PRIV, 0));
1716 	}
1717 }
1718 
1719 /*ARGSUSED*/
1720 void
1721 audit_fdrecv(fd, fp)
1722 	int fd;
1723 	struct file *fp;
1724 {
1725 	t_audit_data_t *tad;	/* current thread */
1726 	f_audit_data_t *fad;	/* per file audit structure */
1727 	struct vnode *vp;	/* for file attributes */
1728 
1729 	/* is this system call being audited */
1730 	tad = U2A(u);
1731 	ASSERT(tad != (t_audit_data_t *)0);
1732 	if (!tad->tad_flag)
1733 		return;
1734 
1735 	fad = F2A(fp);
1736 
1737 	/* add path and file attributes */
1738 	if (fad != NULL && fad->fad_aupath != NULL) {
1739 		au_uwrite(au_to_arg32(0, "recv fd", (uint32_t)fd));
1740 		au_uwrite(au_to_path(fad->fad_aupath));
1741 	} else {
1742 		au_uwrite(au_to_arg32(0, "recv fd", (uint32_t)fd));
1743 #ifdef _LP64
1744 		au_uwrite(au_to_arg64(0, "no path", (uint64_t)fp));
1745 #else
1746 		au_uwrite(au_to_arg32(0, "no path", (uint32_t)fp));
1747 #endif
1748 	}
1749 	vp = fp->f_vnode;	/* include vnode attributes */
1750 	audit_attributes(vp);
1751 }
1752 
1753 /*
1754  * ROUTINE:	AUDIT_CRYPTOADM
1755  * PURPOSE:	Records arguments to administrative ioctls on /dev/cryptoadm
1756  * CALLBY:	CRYPTO_LOAD_DEV_DISABLED, CRYPTO_LOAD_SOFT_DISABLED,
1757  *		CRYPTO_UNLOAD_SOFT_MODULE, CRYPTO_LOAD_SOFT_CONFIG,
1758  *		CRYPTO_POOL_CREATE, CRYPTO_POOL_WAIT, CRYPTO_POOL_RUN,
1759  *		CRYPTO_LOAD_DOOR
1760  * NOTE:
1761  * TODO:
1762  * QUESTION:
1763  */
1764 
1765 void
1766 audit_cryptoadm(int cmd, char *module_name, crypto_mech_name_t *mech_names,
1767     uint_t mech_count, uint_t device_instance, uint32_t rv, int error)
1768 {
1769 	boolean_t		mech_list_required = B_FALSE;
1770 	cred_t			*cr = CRED();
1771 	t_audit_data_t		*tad;
1772 	token_t			*ad = NULL;
1773 	const auditinfo_addr_t	*ainfo = crgetauinfo(cr);
1774 	char			buffer[MAXNAMELEN * 2];
1775 	au_kcontext_t		*kctx = GET_KCTX_PZ;
1776 
1777 	tad = U2A(u);
1778 	if (tad == NULL)
1779 		return;
1780 
1781 	if (ainfo == NULL)
1782 		return;
1783 
1784 	tad->tad_event = AUE_CRYPTOADM;
1785 
1786 	if (audit_success(kctx, tad, error, NULL) != AU_OK)
1787 		return;
1788 
1789 	/* Add subject information */
1790 	AUDIT_SETSUBJ((caddr_t *)&(ad), cr, ainfo, kctx);
1791 
1792 	switch (cmd) {
1793 	case CRYPTO_LOAD_DEV_DISABLED:
1794 		if (error == 0 && rv == CRYPTO_SUCCESS) {
1795 			(void) snprintf(buffer, sizeof (buffer),
1796 			    "op=CRYPTO_LOAD_DEV_DISABLED, module=%s,"
1797 			    " dev_instance=%d",
1798 			    module_name, device_instance);
1799 			mech_list_required = B_TRUE;
1800 		} else {
1801 			(void) snprintf(buffer, sizeof (buffer),
1802 			    "op=CRYPTO_LOAD_DEV_DISABLED, return_val=%d", rv);
1803 		}
1804 		break;
1805 
1806 	case CRYPTO_LOAD_SOFT_DISABLED:
1807 		if (error == 0 && rv == CRYPTO_SUCCESS) {
1808 			(void) snprintf(buffer, sizeof (buffer),
1809 			    "op=CRYPTO_LOAD_SOFT_DISABLED, module=%s",
1810 			    module_name);
1811 			mech_list_required = B_TRUE;
1812 		} else {
1813 			(void) snprintf(buffer, sizeof (buffer),
1814 			    "op=CRYPTO_LOAD_SOFT_DISABLED, return_val=%d", rv);
1815 		}
1816 		break;
1817 
1818 	case CRYPTO_UNLOAD_SOFT_MODULE:
1819 		if (error == 0 && rv == CRYPTO_SUCCESS) {
1820 			(void) snprintf(buffer, sizeof (buffer),
1821 			    "op=CRYPTO_UNLOAD_SOFT_MODULE, module=%s",
1822 			    module_name);
1823 		} else {
1824 			(void) snprintf(buffer, sizeof (buffer),
1825 			    "op=CRYPTO_UNLOAD_SOFT_MODULE, return_val=%d", rv);
1826 		}
1827 		break;
1828 
1829 	case CRYPTO_LOAD_SOFT_CONFIG:
1830 		if (error == 0 && rv == CRYPTO_SUCCESS) {
1831 			(void) snprintf(buffer, sizeof (buffer),
1832 			    "op=CRYPTO_LOAD_SOFT_CONFIG, module=%s",
1833 			    module_name);
1834 			mech_list_required = B_TRUE;
1835 		} else {
1836 			(void) snprintf(buffer, sizeof (buffer),
1837 			    "op=CRYPTO_LOAD_SOFT_CONFIG, return_val=%d", rv);
1838 		}
1839 		break;
1840 
1841 	case CRYPTO_POOL_CREATE:
1842 		(void) snprintf(buffer, sizeof (buffer),
1843 		    "op=CRYPTO_POOL_CREATE");
1844 		break;
1845 
1846 	case CRYPTO_POOL_WAIT:
1847 		(void) snprintf(buffer, sizeof (buffer), "op=CRYPTO_POOL_WAIT");
1848 		break;
1849 
1850 	case CRYPTO_POOL_RUN:
1851 		(void) snprintf(buffer, sizeof (buffer), "op=CRYPTO_POOL_RUN");
1852 		break;
1853 
1854 	case CRYPTO_LOAD_DOOR:
1855 		if (error == 0 && rv == CRYPTO_SUCCESS)
1856 			(void) snprintf(buffer, sizeof (buffer),
1857 			    "op=CRYPTO_LOAD_DOOR");
1858 		else
1859 			(void) snprintf(buffer, sizeof (buffer),
1860 			    "op=CRYPTO_LOAD_DOOR, return_val=%d", rv);
1861 		break;
1862 
1863 	case CRYPTO_FIPS140_SET:
1864 		(void) snprintf(buffer, sizeof (buffer),
1865 		    "op=CRYPTO_FIPS140_SET, fips_state=%d", rv);
1866 		break;
1867 
1868 	default:
1869 		return;
1870 	}
1871 
1872 	au_write((caddr_t *)&ad, au_to_text(buffer));
1873 
1874 	if (mech_list_required) {
1875 		int i;
1876 
1877 		if (mech_count == 0) {
1878 			au_write((caddr_t *)&ad, au_to_text("mech=list empty"));
1879 		} else {
1880 			char	*pb = buffer;
1881 			size_t	l = sizeof (buffer);
1882 			size_t	n;
1883 			char	space[2] = ":";
1884 
1885 			n = snprintf(pb, l, "mech=");
1886 
1887 			for (i = 0; i < mech_count; i++) {
1888 				pb += n;
1889 				l -= n;
1890 				if (l < 0)
1891 					l = 0;
1892 
1893 				if (i == mech_count - 1)
1894 					(void) strcpy(space, "");
1895 
1896 				n = snprintf(pb, l, "%s%s", mech_names[i],
1897 				    space);
1898 			}
1899 			au_write((caddr_t *)&ad, au_to_text(buffer));
1900 		}
1901 	}
1902 
1903 	/* add a return token */
1904 	if (error || (rv != CRYPTO_SUCCESS))
1905 		add_return_token((caddr_t *)&ad, tad->tad_scid, -1, error);
1906 	else
1907 		add_return_token((caddr_t *)&ad, tad->tad_scid, 0, rv);
1908 
1909 	AS_INC(as_generated, 1, kctx);
1910 	AS_INC(as_kernel, 1, kctx);
1911 
1912 	au_close(kctx, (caddr_t *)&ad, AU_OK, AUE_CRYPTOADM, tad->tad_evmod,
1913 	    NULL);
1914 }
1915 
1916 /*
1917  * Audit the kernel SSL administration command. The address and the
1918  * port number for the SSL instance, and the proxy port are put in the
1919  * audit trail.
1920  */
1921 void
1922 audit_kssl(int cmd, void *params, int error)
1923 {
1924 	cred_t			*cr = CRED();
1925 	t_audit_data_t		*tad;
1926 	token_t			*ad = NULL;
1927 	const auditinfo_addr_t	*ainfo = crgetauinfo(cr);
1928 	au_kcontext_t		*kctx = GET_KCTX_PZ;
1929 
1930 	tad = U2A(u);
1931 
1932 	if (ainfo == NULL)
1933 		return;
1934 
1935 	tad->tad_event = AUE_CONFIGKSSL;
1936 
1937 	if (audit_success(kctx, tad, error, NULL) != AU_OK)
1938 		return;
1939 
1940 	/* Add subject information */
1941 	AUDIT_SETSUBJ((caddr_t *)&ad, cr, ainfo, kctx);
1942 
1943 	switch (cmd) {
1944 	case KSSL_ADD_ENTRY: {
1945 		char buf[32];
1946 		kssl_params_t *kp = (kssl_params_t *)params;
1947 		struct sockaddr_in6 *saddr = &kp->kssl_addr;
1948 
1949 		au_write((caddr_t *)&ad, au_to_text("op=KSSL_ADD_ENTRY"));
1950 		au_write((caddr_t *)&ad,
1951 		    au_to_in_addr_ex((int32_t *)&saddr->sin6_addr));
1952 		(void) snprintf(buf, sizeof (buf), "SSL port=%d",
1953 		    saddr->sin6_port);
1954 		au_write((caddr_t *)&ad, au_to_text(buf));
1955 
1956 		(void) snprintf(buf, sizeof (buf), "proxy port=%d",
1957 		    kp->kssl_proxy_port);
1958 		au_write((caddr_t *)&ad, au_to_text(buf));
1959 		break;
1960 	}
1961 
1962 	case KSSL_DELETE_ENTRY: {
1963 		char buf[32];
1964 		struct sockaddr_in6 *saddr = (struct sockaddr_in6 *)params;
1965 
1966 		au_write((caddr_t *)&ad, au_to_text("op=KSSL_DELETE_ENTRY"));
1967 		au_write((caddr_t *)&ad,
1968 		    au_to_in_addr_ex((int32_t *)&saddr->sin6_addr));
1969 		(void) snprintf(buf, sizeof (buf), "SSL port=%d",
1970 		    saddr->sin6_port);
1971 		au_write((caddr_t *)&ad, au_to_text(buf));
1972 		break;
1973 	}
1974 
1975 	default:
1976 		return;
1977 	}
1978 
1979 	/* add a return token */
1980 	add_return_token((caddr_t *)&ad, tad->tad_scid, error, 0);
1981 
1982 	AS_INC(as_generated, 1, kctx);
1983 	AS_INC(as_kernel, 1, kctx);
1984 
1985 	au_close(kctx, (caddr_t *)&ad, AU_OK, AUE_CONFIGKSSL, tad->tad_evmod,
1986 	    NULL);
1987 }
1988 
1989 /*
1990  * Audit the kernel PF_POLICY administration commands.  Record command,
1991  * zone, policy type (global or tunnel, active or inactive)
1992  */
1993 /*
1994  * ROUTINE:	AUDIT_PF_POLICY
1995  * PURPOSE:	Records arguments to administrative ioctls on PF_POLICY socket
1996  * CALLBY:	SPD_ADDRULE, SPD_DELETERULE, SPD_FLUSH, SPD_UPDATEALGS,
1997  *		SPD_CLONE, SPD_FLIP
1998  * NOTE:
1999  * TODO:
2000  * QUESTION:
2001  */
2002 
2003 void
2004 audit_pf_policy(int cmd, cred_t *cred, netstack_t *ns, char *tun,
2005     boolean_t active, int error, pid_t pid)
2006 {
2007 	const auditinfo_addr_t	*ainfo;
2008 	t_audit_data_t		*tad;
2009 	token_t			*ad = NULL;
2010 	au_kcontext_t		*kctx = GET_KCTX_PZ;
2011 	char			buf[80];
2012 	int			flag;
2013 
2014 	tad = U2A(u);
2015 	if (tad == NULL)
2016 		return;
2017 
2018 	ainfo = crgetauinfo((cred != NULL) ? cred : CRED());
2019 	if (ainfo == NULL)
2020 		return;
2021 
2022 	/*
2023 	 * Initialize some variables since these are only set
2024 	 * with system calls.
2025 	 */
2026 
2027 	switch (cmd) {
2028 	case SPD_ADDRULE: {
2029 		tad->tad_event = AUE_PF_POLICY_ADDRULE;
2030 		break;
2031 	}
2032 
2033 	case SPD_DELETERULE: {
2034 		tad->tad_event = AUE_PF_POLICY_DELRULE;
2035 		break;
2036 	}
2037 
2038 	case SPD_FLUSH: {
2039 		tad->tad_event = AUE_PF_POLICY_FLUSH;
2040 		break;
2041 	}
2042 
2043 	case SPD_UPDATEALGS: {
2044 		tad->tad_event = AUE_PF_POLICY_ALGS;
2045 		break;
2046 	}
2047 
2048 	case SPD_CLONE: {
2049 		tad->tad_event = AUE_PF_POLICY_CLONE;
2050 		break;
2051 	}
2052 
2053 	case SPD_FLIP: {
2054 		tad->tad_event = AUE_PF_POLICY_FLIP;
2055 		break;
2056 	}
2057 
2058 	default:
2059 		tad->tad_event = AUE_NULL;
2060 	}
2061 
2062 	tad->tad_evmod = 0;
2063 
2064 	if (flag = audit_success(kctx, tad, error, cred)) {
2065 		zone_t *nszone;
2066 
2067 		/*
2068 		 * For now, just audit that an event happened,
2069 		 * along with the error code.
2070 		 */
2071 		au_write((caddr_t *)&ad,
2072 		    au_to_arg32(1, "Policy Active?", (uint32_t)active));
2073 		au_write((caddr_t *)&ad,
2074 		    au_to_arg32(2, "Policy Global?", (uint32_t)(tun == NULL)));
2075 
2076 		/* Supplemental data */
2077 
2078 		/*
2079 		 * Generate this zone token if the target zone differs
2080 		 * from the administrative zone.  If netstacks are expanded
2081 		 * to something other than a 1-1 relationship with zones,
2082 		 * the auditing framework should create a new token type
2083 		 * and audit it as a netstack instead.
2084 		 * Turn on general zone auditing to get the administrative zone.
2085 		 */
2086 
2087 		nszone = zone_find_by_id(netstackid_to_zoneid(
2088 		    ns->netstack_stackid));
2089 		if (nszone != NULL) {
2090 			if (strncmp(crgetzone(cred)->zone_name,
2091 			    nszone->zone_name, ZONENAME_MAX) != 0) {
2092 				token_t *ztoken;
2093 
2094 				ztoken = au_to_zonename(0, nszone);
2095 				au_write((caddr_t *)&ad, ztoken);
2096 			}
2097 			zone_rele(nszone);
2098 		}
2099 
2100 		if (tun != NULL) {
2101 			/* write tunnel name - tun is bounded */
2102 			(void) snprintf(buf, sizeof (buf), "tunnel_name:%s",
2103 			    tun);
2104 			au_write((caddr_t *)&ad, au_to_text(buf));
2105 		}
2106 
2107 		/* Add subject information */
2108 		AUDIT_SETSUBJ_GENERIC((caddr_t *)&ad,
2109 		    ((cred != NULL) ? cred : CRED()), ainfo, kctx, pid);
2110 
2111 		/* add a return token */
2112 		add_return_token((caddr_t *)&ad, 0, error, 0);
2113 
2114 		AS_INC(as_generated, 1, kctx);
2115 		AS_INC(as_kernel, 1, kctx);
2116 
2117 	}
2118 	au_close(kctx, (caddr_t *)&ad, flag, tad->tad_event, tad->tad_evmod,
2119 	    NULL);
2120 
2121 	/*
2122 	 * clear the ctrl flag so that we don't have spurious collection of
2123 	 * audit information.
2124 	 */
2125 	tad->tad_scid  = 0;
2126 	tad->tad_event = 0;
2127 	tad->tad_evmod = 0;
2128 	tad->tad_ctrl  = 0;
2129 }
2130 
2131 /*
2132  * ROUTINE:	AUDIT_SEC_ATTRIBUTES
2133  * PURPOSE:	Add security attributes
2134  * CALLBY:	AUDIT_ATTRIBUTES
2135  *		AUDIT_CLOSEF
2136  *		AUS_CLOSE
2137  * NOTE:
2138  * TODO:
2139  * QUESTION:
2140  */
2141 
2142 void
2143 audit_sec_attributes(caddr_t *ad, struct vnode *vp)
2144 {
2145 	/* Dump the SL */
2146 	if (is_system_labeled()) {
2147 		ts_label_t	*tsl;
2148 		bslabel_t	*bsl;
2149 
2150 		tsl = getflabel(vp);
2151 		if (tsl == NULL)
2152 			return;			/* nothing else to do */
2153 
2154 		bsl = label2bslabel(tsl);
2155 		if (bsl == NULL)
2156 			return;			/* nothing else to do */
2157 		au_write(ad, au_to_label(bsl));
2158 		label_rele(tsl);
2159 	}
2160 
2161 }	/* AUDIT_SEC_ATTRIBUTES */
2162