xref: /titanic_51/usr/src/cmd/fm/fmd/common/fmd_api.c (revision dc0093f44ee4fac928e006850f8ed53f68277af5)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 
23 /*
24  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
25  * Use is subject to license terms.
26  */
27 
28 #pragma ident	"%Z%%M%	%I%	%E% SMI"
29 
30 #include <sys/types.h>
31 #include <sys/fm/protocol.h>
32 #include <fm/libtopo.h>
33 
34 #include <unistd.h>
35 #include <signal.h>
36 #include <limits.h>
37 #include <syslog.h>
38 #include <alloca.h>
39 
40 #include <fmd_module.h>
41 #include <fmd_api.h>
42 #include <fmd_string.h>
43 #include <fmd_subr.h>
44 #include <fmd_error.h>
45 #include <fmd_event.h>
46 #include <fmd_eventq.h>
47 #include <fmd_dispq.h>
48 #include <fmd_timerq.h>
49 #include <fmd_thread.h>
50 #include <fmd_ustat.h>
51 #include <fmd_case.h>
52 #include <fmd_protocol.h>
53 #include <fmd_buf.h>
54 #include <fmd_asru.h>
55 #include <fmd_fmri.h>
56 #include <fmd_ckpt.h>
57 #include <fmd_xprt.h>
58 
59 #include <fmd.h>
60 
61 /*
62  * Table of configuration file variable types ops-vector pointers.  We use this
63  * to convert from the property description array specified by the module to an
64  * array of fmd_conf_formal_t's.  The order of this array must match the order
65  * of #define values specified in <fmd_api.h> (i.e. FMD_TYPE_BOOL must be 0).
66  * For now, the fmd_conf_list and fmd_conf_path types are not supported as we
67  * do not believe modules need them and they would require more complexity.
68  */
69 static const fmd_conf_ops_t *const _fmd_prop_ops[] = {
70 	&fmd_conf_bool,		/* FMD_TYPE_BOOL */
71 	&fmd_conf_int32,	/* FMD_TYPE_INT32 */
72 	&fmd_conf_uint32,	/* FMD_TYPE_UINT32 */
73 	&fmd_conf_int64,	/* FMD_TYPE_INT64 */
74 	&fmd_conf_uint64,	/* FMD_TYPE_UINT64 */
75 	&fmd_conf_string,	/* FMD_TYPE_STRING */
76 	&fmd_conf_time,		/* FMD_TYPE_TIME */
77 	&fmd_conf_size,		/* FMD_TYPE_SIZE */
78 };
79 
80 /*
81  * fmd_api_vxerror() provides the engine underlying the fmd_hdl_[v]error() API
82  * calls and the fmd_api_[v]error() utility routine defined below.  The routine
83  * formats the error, optionally associated with a particular errno code 'err',
84  * and logs it as an ereport associated with the calling module.  Depending on
85  * other optional properties, we also emit a message to stderr and to syslog.
86  */
87 static void
88 fmd_api_vxerror(fmd_module_t *mp, int err, const char *format, va_list ap)
89 {
90 	int raw_err = err;
91 	nvlist_t *nvl;
92 	fmd_event_t *e;
93 	char *class, *msg;
94 	size_t len1, len2;
95 	char c;
96 
97 	/*
98 	 * fmd_api_vxerror() counts as both an error of class EFMD_MODULE
99 	 * as well as an instance of 'err' w.r.t. our internal bean counters.
100 	 */
101 	(void) pthread_mutex_lock(&fmd.d_err_lock);
102 	fmd.d_errstats[EFMD_MODULE - EFMD_UNKNOWN].fmds_value.ui64++;
103 
104 	if (err > EFMD_UNKNOWN && err < EFMD_END)
105 		fmd.d_errstats[err - EFMD_UNKNOWN].fmds_value.ui64++;
106 
107 	(void) pthread_mutex_unlock(&fmd.d_err_lock);
108 
109 	/*
110 	 * Format the message using vsnprintf().  As usual, if the format has a
111 	 * newline in it, it is printed alone; otherwise strerror() is added.
112 	 */
113 	if (strchr(format, '\n') != NULL)
114 		err = 0; /* err is not relevant in the message */
115 
116 	len1 = vsnprintf(&c, 1, format, ap);
117 	len2 = err != 0 ? snprintf(&c, 1, ": %s\n", fmd_strerror(err)) : 0;
118 
119 	msg = fmd_alloc(len1 + len2 + 1, FMD_SLEEP);
120 	(void) vsnprintf(msg, len1 + 1, format, ap);
121 
122 	if (err != 0) {
123 		(void) snprintf(&msg[len1], len2 + 1,
124 		    ": %s\n", fmd_strerror(err));
125 	}
126 
127 	/*
128 	 * Create an error event corresponding to the error, insert it into the
129 	 * error log, and dispatch it to the fmd-self-diagnosis engine.
130 	 */
131 	if (mp != fmd.d_self && (raw_err != EFMD_HDL_ABORT || fmd.d_running)) {
132 		if ((c = msg[len1 + len2 - 1]) == '\n')
133 			msg[len1 + len2 - 1] = '\0'; /* strip \n for event */
134 
135 		nvl = fmd_protocol_moderror(mp, err, msg);
136 
137 		if (c == '\n')
138 			msg[len1 + len2 - 1] = c;
139 
140 		(void) nvlist_lookup_string(nvl, FM_CLASS, &class);
141 		e = fmd_event_create(FMD_EVT_PROTOCOL, FMD_HRT_NOW, nvl, class);
142 
143 		(void) pthread_rwlock_rdlock(&fmd.d_log_lock);
144 		fmd_log_append(fmd.d_errlog, e, NULL);
145 		(void) pthread_rwlock_unlock(&fmd.d_log_lock);
146 
147 		fmd_event_transition(e, FMD_EVS_ACCEPTED);
148 		fmd_event_commit(e);
149 
150 		fmd_dispq_dispatch(fmd.d_disp, e, class);
151 	}
152 
153 	/*
154 	 * Similar to fmd_vdebug(), if the debugging switches are enabled we
155 	 * echo the module name and message to stderr and/or syslog.  Unlike
156 	 * fmd_vdebug(), we also print to stderr if foreground mode is enabled.
157 	 * We also print the message if a built-in module is aborting before
158 	 * fmd has detached from its parent (e.g. default transport failure).
159 	 */
160 	if (fmd.d_fg || (fmd.d_hdl_dbout & FMD_DBOUT_STDERR) || (
161 	    raw_err == EFMD_HDL_ABORT && !fmd.d_running)) {
162 		(void) pthread_mutex_lock(&fmd.d_err_lock);
163 		(void) fprintf(stderr, "%s: %s: %s",
164 		    fmd.d_pname, mp->mod_name, msg);
165 		(void) pthread_mutex_unlock(&fmd.d_err_lock);
166 	}
167 
168 	if (fmd.d_hdl_dbout & FMD_DBOUT_SYSLOG) {
169 		syslog(LOG_ERR | LOG_DAEMON, "%s ERROR: %s: %s",
170 		    fmd.d_pname, mp->mod_name, msg);
171 	}
172 
173 	fmd_free(msg, len1 + len2 + 1);
174 }
175 
176 /*PRINTFLIKE3*/
177 static void
178 fmd_api_xerror(fmd_module_t *mp, int err, const char *format, ...)
179 {
180 	va_list ap;
181 
182 	va_start(ap, format);
183 	fmd_api_vxerror(mp, err, format, ap);
184 	va_end(ap);
185 }
186 
187 /*
188  * fmd_api_verror() is a wrapper around fmd_api_vxerror() for API subroutines.
189  * It calls fmd_module_unlock() on behalf of its caller, logs the error, and
190  * then aborts the API call and the surrounding module entry point by doing an
191  * fmd_module_abort(), which longjmps to the place where we entered the module.
192  */
193 static void
194 fmd_api_verror(fmd_module_t *mp, int err, const char *format, va_list ap)
195 {
196 	if (fmd_module_locked(mp))
197 		fmd_module_unlock(mp);
198 
199 	fmd_api_vxerror(mp, err, format, ap);
200 	fmd_module_abort(mp, err);
201 }
202 
203 /*PRINTFLIKE3*/
204 static void
205 fmd_api_error(fmd_module_t *mp, int err, const char *format, ...)
206 {
207 	va_list ap;
208 
209 	va_start(ap, format);
210 	fmd_api_verror(mp, err, format, ap);
211 	va_end(ap);
212 }
213 
214 /*
215  * Common code for fmd_api_module_lock() and fmd_api_transport_impl().  This
216  * code verifies that the handle is valid and associated with a proper thread.
217  */
218 static fmd_module_t *
219 fmd_api_module(fmd_hdl_t *hdl)
220 {
221 	fmd_thread_t *tp;
222 	fmd_module_t *mp;
223 
224 	/*
225 	 * If our TSD is not present at all, this is either a serious bug or
226 	 * someone has created a thread behind our back and is using fmd's API.
227 	 * We can't call fmd_api_error() because we can't be sure that we can
228 	 * unwind our state back to an enclosing fmd_module_dispatch(), so we
229 	 * must panic instead.  This is likely a module design or coding error.
230 	 */
231 	if ((tp = pthread_getspecific(fmd.d_key)) == NULL) {
232 		fmd_panic("fmd module api call made using "
233 		    "client handle %p from unknown thread\n", (void *)hdl);
234 	}
235 
236 	/*
237 	 * If our TSD refers to the root module and is a door server thread,
238 	 * then it was created asynchronously at the request of a module but
239 	 * is using now the module API as an auxiliary module thread.  We reset
240 	 * tp->thr_mod to the module handle so it can act as a module thread.
241 	 */
242 	if (tp->thr_mod == fmd.d_rmod && tp->thr_func == &fmd_door_server)
243 		tp->thr_mod = (fmd_module_t *)hdl;
244 
245 	if ((mp = tp->thr_mod) != (fmd_module_t *)hdl) {
246 		fmd_api_error(mp, EFMD_HDL_INVAL,
247 		    "client handle %p is not valid\n", (void *)hdl);
248 	}
249 
250 	if (mp->mod_flags & FMD_MOD_FAIL) {
251 		fmd_api_error(mp, EFMD_MOD_FAIL,
252 		    "module has experienced an unrecoverable error\n");
253 	}
254 
255 	return (mp);
256 }
257 
258 /*
259  * fmd_api_module_lock() is used as a wrapper around fmd_module_lock() and a
260  * common prologue to each fmd_api.c routine.  It verifies that the handle is
261  * valid and owned by the current server thread, locks the handle, and then
262  * verifies that the caller is performing an operation on a registered handle.
263  * If any tests fail, the entire API call is aborted by fmd_api_error().
264  */
265 static fmd_module_t *
266 fmd_api_module_lock(fmd_hdl_t *hdl)
267 {
268 	fmd_module_t *mp = fmd_api_module(hdl);
269 
270 	fmd_module_lock(mp);
271 
272 	if (mp->mod_info == NULL) {
273 		fmd_api_error(mp, EFMD_HDL_NOTREG,
274 		    "client handle %p has not been registered\n", (void *)hdl);
275 	}
276 
277 	return (mp);
278 }
279 
280 /*
281  * Utility function for API entry points that accept fmd_case_t's.  We cast cp
282  * to fmd_case_impl_t and check to make sure the case is owned by the caller.
283  */
284 static fmd_case_impl_t *
285 fmd_api_case_impl(fmd_module_t *mp, fmd_case_t *cp)
286 {
287 	fmd_case_impl_t *cip = (fmd_case_impl_t *)cp;
288 
289 	if (cip == NULL || cip->ci_mod != mp) {
290 		fmd_api_error(mp, EFMD_CASE_OWNER,
291 		    "case %p is invalid or not owned by caller\n", (void *)cip);
292 	}
293 
294 	return (cip);
295 }
296 
297 /*
298  * Utility function for API entry points that accept fmd_xprt_t's.  We cast xp
299  * to fmd_transport_t and check to make sure the case is owned by the caller.
300  * Note that we could make this check safer by actually walking mp's transport
301  * list, but that requires holding the module lock and this routine needs to be
302  * MT-hot w.r.t. auxiliary module threads.  Ultimately any loadable module can
303  * cause us to crash anyway, so we optimize for scalability over safety here.
304  */
305 static fmd_xprt_impl_t *
306 fmd_api_transport_impl(fmd_hdl_t *hdl, fmd_xprt_t *xp)
307 {
308 	fmd_module_t *mp = fmd_api_module(hdl);
309 	fmd_xprt_impl_t *xip = (fmd_xprt_impl_t *)xp;
310 
311 	if (xip == NULL || xip->xi_queue->eq_mod != mp) {
312 		fmd_api_error(mp, EFMD_XPRT_OWNER,
313 		    "xprt %p is invalid or not owned by caller\n", (void *)xp);
314 	}
315 
316 	return (xip);
317 }
318 
319 /*
320  * fmd_hdl_register() is the one function which cannot use fmd_api_error() to
321  * report errors, because that routine causes the module to abort.  Failure to
322  * register is instead handled by having fmd_hdl_register() return an error to
323  * the _fmd_init() function and then detecting no registration when it returns.
324  * So we use this routine for fmd_hdl_register() error paths instead.
325  */
326 static int
327 fmd_hdl_register_error(fmd_module_t *mp, int err)
328 {
329 	if (fmd_module_locked(mp))
330 		fmd_module_unlock(mp);
331 
332 	fmd_api_xerror(mp, err, "failed to register");
333 	return (fmd_set_errno(err));
334 }
335 
336 static void
337 fmd_hdl_nop(void)
338 {
339 	/* empty function for use with unspecified module entry points */
340 }
341 
342 int
343 fmd_hdl_register(fmd_hdl_t *hdl, int version, const fmd_hdl_info_t *mip)
344 {
345 	fmd_thread_t *tp = pthread_getspecific(fmd.d_key);
346 	fmd_module_t *mp = tp->thr_mod;
347 
348 	const fmd_prop_t *prop;
349 	const fmd_conf_path_t *pap;
350 	fmd_conf_formal_t *cfp;
351 	fmd_hdl_ops_t ops;
352 
353 	const char *conf = NULL;
354 	char buf[PATH_MAX];
355 	int i;
356 
357 	if (mp != (fmd_module_t *)hdl)
358 		return (fmd_hdl_register_error(mp, EFMD_HDL_INVAL));
359 
360 	fmd_module_lock(mp);
361 
362 	/*
363 	 * First perform some sanity checks on our input.  The API version must
364 	 * be supported by FMD and the handle can only be registered once by
365 	 * the module thread to which we assigned this client handle.  The info
366 	 * provided for the handle must be valid and have the minimal settings.
367 	 */
368 	if (version > FMD_API_VERSION_3)
369 		return (fmd_hdl_register_error(mp, EFMD_VER_NEW));
370 
371 	if (version < FMD_API_VERSION_1)
372 		return (fmd_hdl_register_error(mp, EFMD_VER_OLD));
373 
374 	if (mp->mod_conf != NULL)
375 		return (fmd_hdl_register_error(mp, EFMD_HDL_REG));
376 
377 	if (pthread_self() != mp->mod_thread->thr_tid)
378 		return (fmd_hdl_register_error(mp, EFMD_HDL_TID));
379 
380 	if (mip == NULL || mip->fmdi_desc == NULL ||
381 	    mip->fmdi_vers == NULL || mip->fmdi_ops == NULL)
382 		return (fmd_hdl_register_error(mp, EFMD_HDL_INFO));
383 
384 	/*
385 	 * Copy the module's ops vector into a local variable to account for
386 	 * changes in the module ABI.  Then if any of the optional entry points
387 	 * are NULL, set them to nop so we don't have to check before calling.
388 	 */
389 	bzero(&ops, sizeof (ops));
390 
391 	if (version < FMD_API_VERSION_3)
392 		bcopy(mip->fmdi_ops, &ops, sizeof (ops) - sizeof (void *));
393 	else
394 		bcopy(mip->fmdi_ops, &ops, sizeof (ops));
395 
396 	if (ops.fmdo_recv == NULL)
397 		ops.fmdo_recv = (void (*)())fmd_hdl_nop;
398 	if (ops.fmdo_timeout == NULL)
399 		ops.fmdo_timeout = (void (*)())fmd_hdl_nop;
400 	if (ops.fmdo_close == NULL)
401 		ops.fmdo_close = (void (*)())fmd_hdl_nop;
402 	if (ops.fmdo_stats == NULL)
403 		ops.fmdo_stats = (void (*)())fmd_hdl_nop;
404 	if (ops.fmdo_gc == NULL)
405 		ops.fmdo_gc = (void (*)())fmd_hdl_nop;
406 	if (ops.fmdo_send == NULL)
407 		ops.fmdo_send = (int (*)())fmd_hdl_nop;
408 
409 	/*
410 	 * Make two passes through the property array to initialize the formals
411 	 * to use for processing the module's .conf file.  In the first pass,
412 	 * we validate the types and count the number of properties.  In the
413 	 * second pass we copy the strings and fill in the appropriate ops.
414 	 */
415 	for (prop = mip->fmdi_props, i = 0; prop != NULL &&
416 	    prop->fmdp_name != NULL; prop++, i++) {
417 		if (prop->fmdp_type >=
418 		    sizeof (_fmd_prop_ops) / sizeof (_fmd_prop_ops[0])) {
419 			fmd_api_xerror(mp, EFMD_HDL_PROP,
420 			    "property %s uses invalid type %u\n",
421 			    prop->fmdp_name, prop->fmdp_type);
422 			return (fmd_hdl_register_error(mp, EFMD_HDL_PROP));
423 		}
424 	}
425 
426 	mp->mod_argc = i;
427 	mp->mod_argv = fmd_zalloc(sizeof (fmd_conf_formal_t) * i, FMD_SLEEP);
428 
429 	prop = mip->fmdi_props;
430 	cfp = mp->mod_argv;
431 
432 	for (i = 0; i < mp->mod_argc; i++, prop++, cfp++) {
433 		cfp->cf_name = fmd_strdup(prop->fmdp_name, FMD_SLEEP);
434 		cfp->cf_ops = _fmd_prop_ops[prop->fmdp_type];
435 		cfp->cf_default = fmd_strdup(prop->fmdp_defv, FMD_SLEEP);
436 	}
437 
438 	/*
439 	 * If this module came from an on-disk file, compute the name of the
440 	 * corresponding .conf file and parse properties from it if it exists.
441 	 */
442 	if (mp->mod_path != NULL) {
443 		(void) strlcpy(buf, mp->mod_path, sizeof (buf));
444 		(void) fmd_strdirname(buf);
445 
446 		(void) strlcat(buf, "/", sizeof (buf));
447 		(void) strlcat(buf, mp->mod_name, sizeof (buf));
448 		(void) strlcat(buf, ".conf", sizeof (buf));
449 
450 		if (access(buf, F_OK) == 0)
451 			conf = buf;
452 	}
453 
454 	if ((mp->mod_conf = fmd_conf_open(conf,
455 	    mp->mod_argc, mp->mod_argv, 0)) == NULL)
456 		return (fmd_hdl_register_error(mp, EFMD_MOD_CONF));
457 
458 	fmd_conf_propagate(fmd.d_conf, mp->mod_conf, mp->mod_name);
459 
460 	/*
461 	 * Look up the list of the libdiagcode dictionaries associated with the
462 	 * module.  If none were specified, use the value from daemon's config.
463 	 * We only fail if the module specified an explicit dictionary.
464 	 */
465 	(void) fmd_conf_getprop(mp->mod_conf, FMD_PROP_DICTIONARIES, &pap);
466 	if (pap->cpa_argc == 0 && mp->mod_ops == &fmd_bltin_ops)
467 		(void) fmd_conf_getprop(fmd.d_conf, "self.dict", &pap);
468 
469 	for (i = 0; i < pap->cpa_argc; i++) {
470 		if (fmd_module_dc_opendict(mp, pap->cpa_argv[i]) != 0) {
471 			fmd_api_xerror(mp, errno,
472 			    "failed to open dictionary %s", pap->cpa_argv[i]);
473 			return (fmd_hdl_register_error(mp, EFMD_MOD_CONF));
474 		}
475 	}
476 
477 	/*
478 	 * Make a copy of the handle information and store it in mod_info.  We
479 	 * do not need to bother copying fmdi_props since they're already read.
480 	 */
481 	mp->mod_info = fmd_alloc(sizeof (fmd_hdl_info_t), FMD_SLEEP);
482 	mp->mod_info->fmdi_desc = fmd_strdup(mip->fmdi_desc, FMD_SLEEP);
483 	mp->mod_info->fmdi_vers = fmd_strdup(mip->fmdi_vers, FMD_SLEEP);
484 	mp->mod_info->fmdi_ops = fmd_alloc(sizeof (fmd_hdl_ops_t), FMD_SLEEP);
485 	bcopy(&ops, (void *)mp->mod_info->fmdi_ops, sizeof (fmd_hdl_ops_t));
486 	mp->mod_info->fmdi_props = NULL;
487 
488 	/*
489 	 * Allocate an FMRI representing this module.  We'll use this later
490 	 * if the module decides to publish any events (e.g. list.suspects).
491 	 */
492 	mp->mod_fmri = fmd_protocol_fmri_module(mp);
493 
494 	/*
495 	 * Any subscriptions specified in the conf file are now stored in the
496 	 * corresponding property.  Add all of these to the dispatch queue.
497 	 */
498 	(void) fmd_conf_getprop(mp->mod_conf, FMD_PROP_SUBSCRIPTIONS, &pap);
499 
500 	for (i = 0; i < pap->cpa_argc; i++) {
501 		fmd_dispq_insert(fmd.d_disp, mp->mod_queue, pap->cpa_argv[i]);
502 		fmd_xprt_subscribe_all(pap->cpa_argv[i]);
503 	}
504 
505 	/*
506 	 * Unlock the module and restore any pre-existing module checkpoint.
507 	 * If the checkpoint is missing or corrupt, we just keep going.
508 	 */
509 	fmd_module_unlock(mp);
510 	fmd_ckpt_restore(mp);
511 	return (0);
512 }
513 
514 /*
515  * If an auxiliary thread exists for the specified module at unregistration
516  * time, send it an asynchronous cancellation to force it to exit and then
517  * join with it (we expect this to either succeed quickly or return ESRCH).
518  * Once this is complete we can destroy the associated fmd_thread_t data.
519  */
520 static void
521 fmd_module_thrcancel(fmd_idspace_t *ids, id_t id, fmd_module_t *mp)
522 {
523 	fmd_thread_t *tp = fmd_idspace_getspecific(ids, id);
524 
525 	fmd_dprintf(FMD_DBG_MOD, "cancelling %s auxiliary thread %u\n",
526 	    mp->mod_name, tp->thr_tid);
527 
528 	ASSERT(tp->thr_tid == id);
529 	(void) pthread_cancel(tp->thr_tid);
530 	(void) pthread_join(tp->thr_tid, NULL);
531 
532 	fmd_thread_destroy(tp, FMD_THREAD_NOJOIN);
533 }
534 
535 void
536 fmd_module_unregister(fmd_module_t *mp)
537 {
538 	fmd_conf_formal_t *cfp = mp->mod_argv;
539 	const fmd_conf_path_t *pap;
540 	fmd_case_t *cp;
541 	fmd_xprt_t *xp;
542 	int i;
543 
544 	TRACE((FMD_DBG_MOD, "unregister %p (%s)", (void *)mp, mp->mod_name));
545 	ASSERT(fmd_module_locked(mp));
546 
547 	/*
548 	 * If any transports are still open, they have send threads that are
549 	 * using the module handle: shut them down and join with these threads.
550 	 */
551 	while ((xp = fmd_list_next(&mp->mod_transports)) != NULL)
552 		fmd_xprt_destroy(xp);
553 
554 	/*
555 	 * If any auxiliary threads exist, they may be using our module handle,
556 	 * and therefore could cause a fault as soon as we start destroying it.
557 	 * Module writers should clean up any threads before unregistering: we
558 	 * forcibly cancel any remaining auxiliary threads before proceeding.
559 	 */
560 	fmd_idspace_apply(mp->mod_threads,
561 	    (void (*)())fmd_module_thrcancel, mp);
562 
563 	if (mp->mod_error == 0)
564 		fmd_ckpt_save(mp); /* take one more checkpoint if needed */
565 
566 	/*
567 	 * Delete any cases associated with the module (UNSOLVED, SOLVED, or
568 	 * CLOSE_WAIT) as if fmdo_close() has finished processing them.
569 	 */
570 	while ((cp = fmd_list_next(&mp->mod_cases)) != NULL)
571 		fmd_case_delete(cp);
572 
573 	fmd_ustat_delete_references(mp->mod_ustat);
574 	(void) fmd_conf_getprop(mp->mod_conf, FMD_PROP_SUBSCRIPTIONS, &pap);
575 
576 	for (i = 0; i < pap->cpa_argc; i++) {
577 		fmd_xprt_unsubscribe_all(pap->cpa_argv[i]);
578 		fmd_dispq_delete(fmd.d_disp, mp->mod_queue, pap->cpa_argv[i]);
579 	}
580 
581 	fmd_conf_close(mp->mod_conf);
582 	mp->mod_conf = NULL;
583 
584 	for (i = 0; i < mp->mod_argc; i++, cfp++) {
585 		fmd_strfree((char *)cfp->cf_name);
586 		fmd_strfree((char *)cfp->cf_default);
587 	}
588 
589 	fmd_free(mp->mod_argv, sizeof (fmd_conf_formal_t) * mp->mod_argc);
590 	mp->mod_argv = NULL;
591 	mp->mod_argc = 0;
592 
593 	nvlist_free(mp->mod_fmri);
594 	mp->mod_fmri = NULL;
595 
596 	fmd_strfree((char *)mp->mod_info->fmdi_desc);
597 	fmd_strfree((char *)mp->mod_info->fmdi_vers);
598 	fmd_free((void *)mp->mod_info->fmdi_ops, sizeof (fmd_hdl_ops_t));
599 	fmd_free(mp->mod_info, sizeof (fmd_hdl_info_t));
600 	mp->mod_info = NULL;
601 
602 	fmd_eventq_abort(mp->mod_queue);
603 }
604 
605 void
606 fmd_hdl_unregister(fmd_hdl_t *hdl)
607 {
608 	fmd_module_t *mp = fmd_api_module_lock(hdl);
609 	fmd_module_unregister(mp);
610 	fmd_module_unlock(mp);
611 }
612 
613 void
614 fmd_hdl_subscribe(fmd_hdl_t *hdl, const char *class)
615 {
616 	fmd_module_t *mp = fmd_api_module_lock(hdl);
617 
618 	if (fmd_conf_setprop(mp->mod_conf,
619 	    FMD_PROP_SUBSCRIPTIONS, class) == 0) {
620 		fmd_dispq_insert(fmd.d_disp, mp->mod_queue, class);
621 		fmd_xprt_subscribe_all(class);
622 	}
623 
624 	fmd_module_unlock(mp);
625 }
626 
627 
628 void
629 fmd_hdl_unsubscribe(fmd_hdl_t *hdl, const char *class)
630 {
631 	fmd_module_t *mp = fmd_api_module_lock(hdl);
632 
633 	if (fmd_conf_delprop(mp->mod_conf,
634 	    FMD_PROP_SUBSCRIPTIONS, class) == 0) {
635 		fmd_xprt_unsubscribe_all(class);
636 		fmd_dispq_delete(fmd.d_disp, mp->mod_queue, class);
637 	}
638 
639 	fmd_module_unlock(mp);
640 	fmd_eventq_cancel(mp->mod_queue, FMD_EVT_PROTOCOL, (void *)class);
641 }
642 
643 void
644 fmd_hdl_setspecific(fmd_hdl_t *hdl, void *spec)
645 {
646 	fmd_module_t *mp = fmd_api_module_lock(hdl);
647 
648 	mp->mod_spec = spec;
649 	fmd_module_unlock(mp);
650 }
651 
652 void *
653 fmd_hdl_getspecific(fmd_hdl_t *hdl)
654 {
655 	fmd_module_t *mp = fmd_api_module_lock(hdl);
656 	void *spec = mp->mod_spec;
657 
658 	fmd_module_unlock(mp);
659 	return (spec);
660 }
661 
662 void
663 fmd_hdl_opendict(fmd_hdl_t *hdl, const char *dict)
664 {
665 	fmd_module_t *mp = fmd_api_module_lock(hdl);
666 	const fmd_conf_path_t *pap;
667 	int i;
668 
669 	/*
670 	 * Update the dictionary property in order to preserve the list of
671 	 * pathnames and expand any % tokens in the path.  Then retrieve the
672 	 * new dictionary names from cpa_argv[] and open them one at a time.
673 	 */
674 	(void) fmd_conf_setprop(mp->mod_conf, FMD_PROP_DICTIONARIES, dict);
675 	(void) fmd_conf_getprop(mp->mod_conf, FMD_PROP_DICTIONARIES, &pap);
676 
677 	ASSERT(pap->cpa_argc > mp->mod_dictc);
678 
679 	for (i = mp->mod_dictc; i < pap->cpa_argc; i++) {
680 		if (fmd_module_dc_opendict(mp, pap->cpa_argv[i]) != 0) {
681 			fmd_api_error(mp, EFMD_MOD_DICT,
682 			    "failed to open dictionary %s for module %s",
683 			    pap->cpa_argv[i], mp->mod_name);
684 		}
685 	}
686 
687 	fmd_module_unlock(mp);
688 }
689 
690 topo_hdl_t *
691 fmd_hdl_topology(fmd_hdl_t *hdl, int v)
692 {
693 	fmd_module_t *mp = fmd_api_module_lock(hdl);
694 	topo_hdl_t *thp;
695 
696 	if (v != TOPO_VERSION) {
697 		fmd_api_error(mp, EFMD_MOD_TOPO, "libtopo version mismatch: "
698 		    "fmd version %d != client version %d\n", TOPO_VERSION, v);
699 	}
700 
701 	thp = fmd.d_topo;
702 	fmd_module_unlock(mp);
703 	return (thp);
704 }
705 
706 void *
707 fmd_hdl_alloc(fmd_hdl_t *hdl, size_t size, int flags)
708 {
709 	fmd_module_t *mp = fmd_api_module_lock(hdl);
710 	void *data;
711 
712 	if (mp->mod_stats->ms_memlimit.fmds_value.ui64 -
713 	    mp->mod_stats->ms_memtotal.fmds_value.ui64 < size) {
714 		fmd_api_error(mp, EFMD_HDL_NOMEM, "%s's allocation of %lu "
715 		    "bytes exceeds module memory limit (%llu)\n",
716 		    mp->mod_name, (ulong_t)size, (u_longlong_t)
717 		    mp->mod_stats->ms_memtotal.fmds_value.ui64);
718 	}
719 
720 	if ((data = fmd_alloc(size, flags)) != NULL)
721 		mp->mod_stats->ms_memtotal.fmds_value.ui64 += size;
722 
723 	fmd_module_unlock(mp);
724 	return (data);
725 }
726 
727 void *
728 fmd_hdl_zalloc(fmd_hdl_t *hdl, size_t size, int flags)
729 {
730 	void *data = fmd_hdl_alloc(hdl, size, flags);
731 
732 	if (data != NULL)
733 		bzero(data, size);
734 
735 	return (data);
736 }
737 
738 void
739 fmd_hdl_free(fmd_hdl_t *hdl, void *data, size_t size)
740 {
741 	fmd_module_t *mp = fmd_api_module_lock(hdl);
742 
743 	fmd_free(data, size);
744 	mp->mod_stats->ms_memtotal.fmds_value.ui64 -= size;
745 
746 	fmd_module_unlock(mp);
747 }
748 
749 char *
750 fmd_hdl_strdup(fmd_hdl_t *hdl, const char *s, int flags)
751 {
752 	char *p;
753 
754 	if (s != NULL)
755 		p = fmd_hdl_alloc(hdl, strlen(s) + 1, flags);
756 	else
757 		p = NULL;
758 
759 	if (p != NULL)
760 		(void) strcpy(p, s);
761 
762 	return (p);
763 }
764 
765 void
766 fmd_hdl_strfree(fmd_hdl_t *hdl, char *s)
767 {
768 	if (s != NULL)
769 		fmd_hdl_free(hdl, s, strlen(s) + 1);
770 }
771 
772 void
773 fmd_hdl_vabort(fmd_hdl_t *hdl, const char *format, va_list ap)
774 {
775 	fmd_api_verror(fmd_api_module_lock(hdl), EFMD_HDL_ABORT, format, ap);
776 }
777 
778 /*PRINTFLIKE2*/
779 void
780 fmd_hdl_abort(fmd_hdl_t *hdl, const char *format, ...)
781 {
782 	fmd_module_t *mp = fmd_api_module_lock(hdl);
783 	va_list ap;
784 
785 	va_start(ap, format);
786 	fmd_api_verror(mp, EFMD_HDL_ABORT, format, ap);
787 	va_end(ap);
788 }
789 
790 void
791 fmd_hdl_verror(fmd_hdl_t *hdl, const char *format, va_list ap)
792 {
793 	fmd_module_t *mp = fmd_api_module_lock(hdl);
794 	fmd_api_vxerror(mp, errno, format, ap);
795 	fmd_module_unlock(mp);
796 }
797 
798 /*PRINTFLIKE2*/
799 void
800 fmd_hdl_error(fmd_hdl_t *hdl, const char *format, ...)
801 {
802 	va_list ap;
803 
804 	va_start(ap, format);
805 	fmd_hdl_verror(hdl, format, ap);
806 	va_end(ap);
807 }
808 
809 void
810 fmd_hdl_vdebug(fmd_hdl_t *hdl, const char *format, va_list ap)
811 {
812 	fmd_module_t *mp = fmd_api_module_lock(hdl);
813 
814 	char *msg;
815 	size_t len;
816 	char c;
817 
818 	if (!(fmd.d_hdl_debug)) {
819 		mp->mod_stats->ms_debugdrop.fmds_value.ui64++;
820 		fmd_module_unlock(mp);
821 		return;
822 	}
823 
824 	len = vsnprintf(&c, 1, format, ap);
825 
826 	if ((msg = fmd_alloc(len + 2, FMD_NOSLEEP)) == NULL) {
827 		mp->mod_stats->ms_debugdrop.fmds_value.ui64++;
828 		fmd_module_unlock(mp);
829 		return;
830 	}
831 
832 	(void) vsnprintf(msg, len + 1, format, ap);
833 
834 	if (msg[len - 1] != '\n')
835 		(void) strcpy(&msg[len], "\n");
836 
837 	if (fmd.d_hdl_dbout & FMD_DBOUT_STDERR) {
838 		(void) pthread_mutex_lock(&fmd.d_err_lock);
839 		(void) fprintf(stderr, "%s DEBUG: %s: %s",
840 		    fmd.d_pname, mp->mod_name, msg);
841 		(void) pthread_mutex_unlock(&fmd.d_err_lock);
842 	}
843 
844 	if (fmd.d_hdl_dbout & FMD_DBOUT_SYSLOG) {
845 		syslog(LOG_DEBUG | LOG_DAEMON, "%s DEBUG: %s: %s",
846 		    fmd.d_pname, mp->mod_name, msg);
847 	}
848 
849 	fmd_free(msg, len + 2);
850 	fmd_module_unlock(mp);
851 }
852 
853 /*PRINTFLIKE2*/
854 void
855 fmd_hdl_debug(fmd_hdl_t *hdl, const char *format, ...)
856 {
857 	va_list ap;
858 
859 	va_start(ap, format);
860 	fmd_hdl_vdebug(hdl, format, ap);
861 	va_end(ap);
862 }
863 
864 int32_t
865 fmd_prop_get_int32(fmd_hdl_t *hdl, const char *name)
866 {
867 	fmd_module_t *mp = fmd_api_module_lock(hdl);
868 	const fmd_conf_ops_t *ops = fmd_conf_gettype(mp->mod_conf, name);
869 	int32_t value = 0;
870 
871 	if (ops == &fmd_conf_bool || ops == &fmd_conf_int32 ||
872 	    ops == &fmd_conf_uint32)
873 		(void) fmd_conf_getprop(mp->mod_conf, name, &value);
874 	else if (ops != NULL) {
875 		fmd_api_error(mp, EFMD_PROP_TYPE,
876 		    "property %s is not of int32 type\n", name);
877 	} else {
878 		fmd_api_error(mp, EFMD_PROP_DEFN,
879 		    "property %s is not defined\n", name);
880 	}
881 
882 	fmd_module_unlock(mp);
883 	return (value);
884 }
885 
886 int64_t
887 fmd_prop_get_int64(fmd_hdl_t *hdl, const char *name)
888 {
889 	fmd_module_t *mp = fmd_api_module_lock(hdl);
890 	const fmd_conf_ops_t *ops = fmd_conf_gettype(mp->mod_conf, name);
891 	int64_t value = 0;
892 
893 	if (ops == &fmd_conf_int64 || ops == &fmd_conf_uint64 ||
894 	    ops == &fmd_conf_time || ops == &fmd_conf_size)
895 		(void) fmd_conf_getprop(mp->mod_conf, name, &value);
896 	else if (ops != NULL) {
897 		fmd_api_error(mp, EFMD_PROP_TYPE,
898 		    "property %s is not of int64 type\n", name);
899 	} else {
900 		fmd_api_error(mp, EFMD_PROP_DEFN,
901 		    "property %s is not defined\n", name);
902 	}
903 
904 	fmd_module_unlock(mp);
905 	return (value);
906 }
907 
908 char *
909 fmd_prop_get_string(fmd_hdl_t *hdl, const char *name)
910 {
911 	fmd_module_t *mp = fmd_api_module_lock(hdl);
912 	const fmd_conf_ops_t *ops = fmd_conf_gettype(mp->mod_conf, name);
913 	char *value = NULL;
914 	const char *s;
915 
916 	if (ops == &fmd_conf_string) {
917 		(void) fmd_conf_getprop(mp->mod_conf, name, &s);
918 		value = fmd_strdup(s, FMD_SLEEP);
919 	} else if (ops != NULL) {
920 		fmd_api_error(mp, EFMD_PROP_TYPE,
921 		    "property %s is not of string type\n", name);
922 	} else {
923 		fmd_api_error(mp, EFMD_PROP_DEFN,
924 		    "property %s is not defined\n", name);
925 	}
926 
927 	fmd_module_unlock(mp);
928 	return (value);
929 }
930 
931 void
932 fmd_prop_free_string(fmd_hdl_t *hdl, char *s)
933 {
934 	fmd_module_t *mp = fmd_api_module_lock(hdl);
935 	fmd_strfree(s);
936 	fmd_module_unlock(mp);
937 }
938 
939 fmd_stat_t *
940 fmd_stat_create(fmd_hdl_t *hdl, uint_t flags, uint_t argc, fmd_stat_t *argv)
941 {
942 	fmd_module_t *mp = fmd_api_module_lock(hdl);
943 	fmd_stat_t *ep, *sp;
944 
945 	if (flags & ~FMD_STAT_ALLOC) {
946 		fmd_api_error(mp, EFMD_STAT_FLAGS,
947 		    "invalid flags 0x%x passed to fmd_stat_create\n", flags);
948 	}
949 
950 	if ((sp = fmd_ustat_insert(mp->mod_ustat,
951 	    flags | FMD_USTAT_VALIDATE, argc, argv, &ep)) == NULL) {
952 		fmd_api_error(mp, errno,
953 		    "failed to publish stat '%s'", ep->fmds_name);
954 	}
955 
956 	fmd_module_unlock(mp);
957 	return (sp);
958 }
959 
960 void
961 fmd_stat_destroy(fmd_hdl_t *hdl, uint_t argc, fmd_stat_t *argv)
962 {
963 	fmd_module_t *mp = fmd_api_module_lock(hdl);
964 	fmd_ustat_delete(mp->mod_ustat, argc, argv);
965 	fmd_module_unlock(mp);
966 }
967 
968 void
969 fmd_stat_setstr(fmd_hdl_t *hdl, fmd_stat_t *sp, const char *s)
970 {
971 	char *str = fmd_strdup(s, FMD_SLEEP);
972 	fmd_module_t *mp = fmd_api_module_lock(hdl);
973 
974 	if (sp->fmds_type != FMD_TYPE_STRING) {
975 		fmd_strfree(str);
976 		fmd_api_error(mp, EFMD_STAT_TYPE,
977 		    "stat '%s' is not a string\n", sp->fmds_name);
978 	}
979 
980 	fmd_strfree(sp->fmds_value.str);
981 	sp->fmds_value.str = str;
982 
983 	fmd_module_unlock(mp);
984 }
985 
986 fmd_case_t *
987 fmd_case_open(fmd_hdl_t *hdl, void *data)
988 {
989 	fmd_module_t *mp = fmd_api_module_lock(hdl);
990 	fmd_case_t *cp = fmd_case_create(mp, data);
991 	fmd_module_unlock(mp);
992 	return (cp);
993 }
994 
995 void
996 fmd_case_reset(fmd_hdl_t *hdl, fmd_case_t *cp)
997 {
998 	fmd_module_t *mp = fmd_api_module_lock(hdl);
999 	fmd_case_impl_t *cip = fmd_api_case_impl(mp, cp);
1000 
1001 	if (cip->ci_state >= FMD_CASE_SOLVED) {
1002 		fmd_api_error(mp, EFMD_CASE_STATE, "cannot solve %s: "
1003 		    "case is already solved or closed\n", cip->ci_uuid);
1004 	}
1005 
1006 	fmd_case_reset_suspects(cp);
1007 	fmd_module_unlock(mp);
1008 }
1009 
1010 void
1011 fmd_case_solve(fmd_hdl_t *hdl, fmd_case_t *cp)
1012 {
1013 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1014 	fmd_case_impl_t *cip = fmd_api_case_impl(mp, cp);
1015 
1016 	if (cip->ci_state >= FMD_CASE_SOLVED) {
1017 		fmd_api_error(mp, EFMD_CASE_STATE, "cannot solve %s: "
1018 		    "case is already solved or closed\n", cip->ci_uuid);
1019 	}
1020 
1021 	fmd_case_transition(cp, FMD_CASE_SOLVED, FMD_CF_SOLVED);
1022 	fmd_module_unlock(mp);
1023 }
1024 
1025 void
1026 fmd_case_close(fmd_hdl_t *hdl, fmd_case_t *cp)
1027 {
1028 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1029 
1030 	(void) fmd_api_case_impl(mp, cp); /* validate 'cp' */
1031 	fmd_case_transition(cp, FMD_CASE_CLOSE_WAIT, FMD_CF_ISOLATED);
1032 
1033 	fmd_module_unlock(mp);
1034 }
1035 
1036 const char *
1037 fmd_case_uuid(fmd_hdl_t *hdl, fmd_case_t *cp)
1038 {
1039 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1040 	fmd_case_impl_t *cip = fmd_api_case_impl(mp, cp);
1041 	const char *uuid = cip->ci_uuid;
1042 
1043 	fmd_module_unlock(mp);
1044 	return (uuid);
1045 }
1046 
1047 fmd_case_t *
1048 fmd_case_uulookup(fmd_hdl_t *hdl, const char *uuid)
1049 {
1050 	fmd_module_t *cmp, *mp = fmd_api_module_lock(hdl);
1051 	fmd_case_t *cp = fmd_case_hash_lookup(fmd.d_cases, uuid);
1052 
1053 	if (cp != NULL) {
1054 		cmp = ((fmd_case_impl_t *)cp)->ci_mod;
1055 		fmd_case_rele(cp);
1056 	} else
1057 		cmp = NULL;
1058 
1059 	fmd_module_unlock(mp);
1060 	return (cmp == mp ? cp : NULL);
1061 }
1062 
1063 void
1064 fmd_case_uuclose(fmd_hdl_t *hdl, const char *uuid)
1065 {
1066 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1067 	fmd_case_t *cp = fmd_case_hash_lookup(fmd.d_cases, uuid);
1068 
1069 	if (cp != NULL) {
1070 		fmd_case_transition(cp, FMD_CASE_CLOSE_WAIT, FMD_CF_ISOLATED);
1071 		fmd_case_rele(cp);
1072 	}
1073 
1074 	fmd_module_unlock(mp);
1075 }
1076 
1077 int
1078 fmd_case_uuclosed(fmd_hdl_t *hdl, const char *uuid)
1079 {
1080 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1081 	fmd_case_t *cp = fmd_case_hash_lookup(fmd.d_cases, uuid);
1082 	fmd_case_impl_t *cip = (fmd_case_impl_t *)cp;
1083 	int rv = FMD_B_TRUE;
1084 
1085 	if (cip != NULL) {
1086 		rv = cip->ci_state >= FMD_CASE_CLOSE_WAIT;
1087 		fmd_case_rele(cp);
1088 	}
1089 
1090 	fmd_module_unlock(mp);
1091 	return (rv);
1092 }
1093 
1094 static int
1095 fmd_case_instate(fmd_hdl_t *hdl, fmd_case_t *cp, uint_t state)
1096 {
1097 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1098 	fmd_case_impl_t *cip = fmd_api_case_impl(mp, cp);
1099 	int rv = cip->ci_state >= state;
1100 
1101 	fmd_module_unlock(mp);
1102 	return (rv);
1103 }
1104 
1105 int
1106 fmd_case_solved(fmd_hdl_t *hdl, fmd_case_t *cp)
1107 {
1108 	return (fmd_case_instate(hdl, cp, FMD_CASE_SOLVED));
1109 }
1110 
1111 int
1112 fmd_case_closed(fmd_hdl_t *hdl, fmd_case_t *cp)
1113 {
1114 	return (fmd_case_instate(hdl, cp, FMD_CASE_CLOSE_WAIT));
1115 }
1116 
1117 void
1118 fmd_case_add_ereport(fmd_hdl_t *hdl, fmd_case_t *cp, fmd_event_t *ep)
1119 {
1120 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1121 
1122 	(void) fmd_api_case_impl(mp, cp); /* validate 'cp' */
1123 
1124 	if (fmd_case_insert_event(cp, ep))
1125 		mp->mod_stats->ms_accepted.fmds_value.ui64++;
1126 
1127 	fmd_module_unlock(mp);
1128 }
1129 
1130 void
1131 fmd_case_add_serd(fmd_hdl_t *hdl, fmd_case_t *cp, const char *name)
1132 {
1133 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1134 	fmd_serd_elem_t *sep;
1135 	fmd_serd_eng_t *sgp;
1136 
1137 	if ((sgp = fmd_serd_eng_lookup(&mp->mod_serds, name)) == NULL) {
1138 		fmd_api_error(mp, EFMD_SERD_NAME,
1139 		    "failed to add events from serd engine '%s'", name);
1140 	}
1141 
1142 	(void) fmd_api_case_impl(mp, cp); /* validate 'cp' */
1143 
1144 	for (sep = fmd_list_next(&sgp->sg_list);
1145 	    sep != NULL; sep = fmd_list_next(sep)) {
1146 		if (fmd_case_insert_event(cp, sep->se_event))
1147 			mp->mod_stats->ms_accepted.fmds_value.ui64++;
1148 	}
1149 
1150 	fmd_module_unlock(mp);
1151 }
1152 
1153 void
1154 fmd_case_add_suspect(fmd_hdl_t *hdl, fmd_case_t *cp, nvlist_t *nvl)
1155 {
1156 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1157 	fmd_case_impl_t *cip = fmd_api_case_impl(mp, cp);
1158 	char *class;
1159 
1160 	if (cip->ci_state >= FMD_CASE_SOLVED) {
1161 		fmd_api_error(mp, EFMD_CASE_STATE, "cannot add suspect to "
1162 		    "%s: case is already solved or closed\n", cip->ci_uuid);
1163 	}
1164 
1165 	if (nvlist_lookup_string(nvl, FM_CLASS, &class) != 0 ||
1166 	    class == NULL || *class == '\0') {
1167 		fmd_api_error(mp, EFMD_CASE_EVENT, "cannot add suspect to "
1168 		    "%s: suspect event is missing a class\n", cip->ci_uuid);
1169 	}
1170 
1171 	fmd_case_insert_suspect(cp, nvl);
1172 	fmd_module_unlock(mp);
1173 }
1174 
1175 void
1176 fmd_case_setspecific(fmd_hdl_t *hdl, fmd_case_t *cp, void *data)
1177 {
1178 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1179 	fmd_case_impl_t *cip = fmd_api_case_impl(mp, cp);
1180 
1181 	(void) pthread_mutex_lock(&cip->ci_lock);
1182 	cip->ci_data = data;
1183 	(void) pthread_mutex_unlock(&cip->ci_lock);
1184 
1185 	fmd_module_unlock(mp);
1186 }
1187 
1188 void *
1189 fmd_case_getspecific(fmd_hdl_t *hdl, fmd_case_t *cp)
1190 {
1191 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1192 	fmd_case_impl_t *cip = fmd_api_case_impl(mp, cp);
1193 	void *data;
1194 
1195 	(void) pthread_mutex_lock(&cip->ci_lock);
1196 	data = cip->ci_data;
1197 	(void) pthread_mutex_unlock(&cip->ci_lock);
1198 
1199 	fmd_module_unlock(mp);
1200 	return (data);
1201 }
1202 
1203 void
1204 fmd_case_setprincipal(fmd_hdl_t *hdl, fmd_case_t *cp, fmd_event_t *ep)
1205 {
1206 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1207 
1208 	(void) fmd_api_case_impl(mp, cp); /* validate 'cp' */
1209 
1210 	if (fmd_case_insert_principal(cp, ep))
1211 		mp->mod_stats->ms_accepted.fmds_value.ui64++;
1212 
1213 	fmd_module_unlock(mp);
1214 }
1215 
1216 fmd_event_t *
1217 fmd_case_getprincipal(fmd_hdl_t *hdl, fmd_case_t *cp)
1218 {
1219 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1220 	fmd_case_impl_t *cip = fmd_api_case_impl(mp, cp);
1221 	fmd_event_t *ep;
1222 
1223 	(void) pthread_mutex_lock(&cip->ci_lock);
1224 	ep = cip->ci_principal;
1225 	(void) pthread_mutex_unlock(&cip->ci_lock);
1226 
1227 	fmd_module_unlock(mp);
1228 	return (ep);
1229 }
1230 
1231 fmd_case_t *
1232 fmd_case_next(fmd_hdl_t *hdl, fmd_case_t *cp)
1233 {
1234 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1235 
1236 	if (cp != NULL)
1237 		cp = fmd_list_next(fmd_api_case_impl(mp, cp));
1238 	else
1239 		cp = fmd_list_next(&mp->mod_cases);
1240 
1241 	fmd_module_unlock(mp);
1242 	return (cp);
1243 }
1244 
1245 fmd_case_t *
1246 fmd_case_prev(fmd_hdl_t *hdl, fmd_case_t *cp)
1247 {
1248 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1249 
1250 	if (cp != NULL)
1251 		cp = fmd_list_prev(fmd_api_case_impl(mp, cp));
1252 	else
1253 		cp = fmd_list_prev(&mp->mod_cases);
1254 
1255 	fmd_module_unlock(mp);
1256 	return (cp);
1257 }
1258 
1259 /*
1260  * Utility function for fmd_buf_* routines.  If a case is specified, use the
1261  * case's ci_bufs hash; otherwise use the module's global mod_bufs hash.
1262  */
1263 static fmd_buf_hash_t *
1264 fmd_buf_gethash(fmd_module_t *mp, fmd_case_t *cp)
1265 {
1266 	return (cp ? &fmd_api_case_impl(mp, cp)->ci_bufs : &mp->mod_bufs);
1267 }
1268 
1269 void
1270 fmd_buf_create(fmd_hdl_t *hdl, fmd_case_t *cp, const char *name, size_t size)
1271 {
1272 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1273 	fmd_buf_hash_t *bhp = fmd_buf_gethash(mp, cp);
1274 	fmd_buf_t *bp = fmd_buf_lookup(bhp, name);
1275 
1276 	if (bp == NULL) {
1277 		if (fmd_strbadid(name, FMD_B_TRUE) != NULL || size == 0) {
1278 			fmd_api_error(mp, EFMD_BUF_INVAL, "cannot create '%s' "
1279 			    "(size %lu): %s\n", name, (ulong_t)size,
1280 			    fmd_strerror(EFMD_BUF_INVAL));
1281 		}
1282 
1283 		if (mp->mod_stats->ms_buflimit.fmds_value.ui64 -
1284 		    mp->mod_stats->ms_buftotal.fmds_value.ui64 < size) {
1285 			fmd_api_error(mp, EFMD_BUF_LIMIT, "cannot create '%s': "
1286 			    "buf limit exceeded (%llu)\n", name, (u_longlong_t)
1287 			    mp->mod_stats->ms_buflimit.fmds_value.ui64);
1288 		}
1289 
1290 		mp->mod_stats->ms_buftotal.fmds_value.ui64 += size;
1291 		bp = fmd_buf_insert(bhp, name, size);
1292 
1293 	} else {
1294 		fmd_api_error(mp, EFMD_BUF_EXISTS,
1295 		    "cannot create '%s': buffer already exists\n", name);
1296 	}
1297 
1298 	if (cp != NULL)
1299 		fmd_case_setdirty(cp);
1300 	else
1301 		fmd_module_setdirty(mp);
1302 
1303 	fmd_module_unlock(mp);
1304 }
1305 
1306 void
1307 fmd_buf_destroy(fmd_hdl_t *hdl, fmd_case_t *cp, const char *name)
1308 {
1309 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1310 	fmd_buf_hash_t *bhp = fmd_buf_gethash(mp, cp);
1311 	fmd_buf_t *bp = fmd_buf_lookup(bhp, name);
1312 
1313 	if (bp != NULL) {
1314 		mp->mod_stats->ms_buftotal.fmds_value.ui64 -= bp->buf_size;
1315 		fmd_buf_delete(bhp, name);
1316 
1317 		if (cp != NULL)
1318 			fmd_case_setdirty(cp);
1319 		else
1320 			fmd_module_setdirty(mp);
1321 	}
1322 
1323 	fmd_module_unlock(mp);
1324 }
1325 
1326 void
1327 fmd_buf_read(fmd_hdl_t *hdl, fmd_case_t *cp,
1328     const char *name, void *buf, size_t size)
1329 {
1330 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1331 	fmd_buf_t *bp = fmd_buf_lookup(fmd_buf_gethash(mp, cp), name);
1332 
1333 	if (bp == NULL) {
1334 		fmd_api_error(mp, EFMD_BUF_NOENT, "no buf named '%s' is "
1335 		    "associated with %s\n", name, cp ? "case" : "module");
1336 	}
1337 
1338 	bcopy(bp->buf_data, buf, MIN(bp->buf_size, size));
1339 	if (size > bp->buf_size)
1340 		bzero((char *)buf + bp->buf_size, size - bp->buf_size);
1341 
1342 	fmd_module_unlock(mp);
1343 }
1344 
1345 void
1346 fmd_buf_write(fmd_hdl_t *hdl, fmd_case_t *cp,
1347     const char *name, const void *buf, size_t size)
1348 {
1349 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1350 	fmd_buf_hash_t *bhp = fmd_buf_gethash(mp, cp);
1351 	fmd_buf_t *bp = fmd_buf_lookup(bhp, name);
1352 
1353 	if (bp == NULL) {
1354 		if (fmd_strbadid(name, FMD_B_TRUE) != NULL || size == 0) {
1355 			fmd_api_error(mp, EFMD_BUF_INVAL, "cannot write '%s' "
1356 			    "(size %lu): %s\n", name, (ulong_t)size,
1357 			    fmd_strerror(EFMD_BUF_INVAL));
1358 		}
1359 
1360 		if (mp->mod_stats->ms_buflimit.fmds_value.ui64 -
1361 		    mp->mod_stats->ms_buftotal.fmds_value.ui64 < size) {
1362 			fmd_api_error(mp, EFMD_BUF_LIMIT, "cannot write '%s': "
1363 			    "buf limit exceeded (%llu)\n", name, (u_longlong_t)
1364 			    mp->mod_stats->ms_buflimit.fmds_value.ui64);
1365 		}
1366 
1367 		mp->mod_stats->ms_buftotal.fmds_value.ui64 += size;
1368 		bp = fmd_buf_insert(bhp, name, size);
1369 
1370 	} else if (size > bp->buf_size) {
1371 		fmd_api_error(mp, EFMD_BUF_OFLOW,
1372 		    "write to buf '%s' overflows buf size (%lu > %lu)\n",
1373 		    name, (ulong_t)size, (ulong_t)bp->buf_size);
1374 	}
1375 
1376 	bcopy(buf, bp->buf_data, MIN(bp->buf_size, size));
1377 	bp->buf_flags |= FMD_BUF_DIRTY;
1378 
1379 	if (cp != NULL)
1380 		fmd_case_setdirty(cp);
1381 	else
1382 		fmd_module_setdirty(mp);
1383 
1384 	fmd_module_unlock(mp);
1385 }
1386 
1387 size_t
1388 fmd_buf_size(fmd_hdl_t *hdl, fmd_case_t *cp, const char *name)
1389 {
1390 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1391 	fmd_buf_hash_t *bhp = fmd_buf_gethash(mp, cp);
1392 
1393 	fmd_buf_t *bp;
1394 	size_t size;
1395 
1396 	if ((bp = fmd_buf_lookup(bhp, name)) != NULL)
1397 		size = bp->buf_size;
1398 	else
1399 		size = 0;
1400 
1401 	fmd_module_unlock(mp);
1402 	return (size);
1403 }
1404 
1405 void
1406 fmd_serd_create(fmd_hdl_t *hdl, const char *name, uint_t n, hrtime_t t)
1407 {
1408 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1409 
1410 	if (fmd_serd_eng_lookup(&mp->mod_serds, name) != NULL) {
1411 		fmd_api_error(mp, EFMD_SERD_EXISTS,
1412 		    "failed to create serd engine '%s': %s\n",
1413 		    name, fmd_strerror(EFMD_SERD_EXISTS));
1414 	}
1415 
1416 	(void) fmd_serd_eng_insert(&mp->mod_serds, name, n, t);
1417 	fmd_module_setdirty(mp);
1418 	fmd_module_unlock(mp);
1419 }
1420 
1421 void
1422 fmd_serd_destroy(fmd_hdl_t *hdl, const char *name)
1423 {
1424 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1425 
1426 	fmd_serd_eng_delete(&mp->mod_serds, name);
1427 	fmd_module_setdirty(mp);
1428 	fmd_module_unlock(mp);
1429 }
1430 
1431 int
1432 fmd_serd_exists(fmd_hdl_t *hdl, const char *name)
1433 {
1434 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1435 	int rv = (fmd_serd_eng_lookup(&mp->mod_serds, name) != NULL);
1436 	fmd_module_unlock(mp);
1437 
1438 	return (rv);
1439 }
1440 
1441 void
1442 fmd_serd_reset(fmd_hdl_t *hdl, const char *name)
1443 {
1444 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1445 	fmd_serd_eng_t *sgp;
1446 
1447 	if ((sgp = fmd_serd_eng_lookup(&mp->mod_serds, name)) == NULL) {
1448 		fmd_api_error(mp, EFMD_SERD_NAME,
1449 		    "serd engine '%s' does not exist\n", name);
1450 	}
1451 
1452 	fmd_serd_eng_reset(sgp);
1453 	fmd_module_setdirty(mp);
1454 	fmd_module_unlock(mp);
1455 }
1456 
1457 int
1458 fmd_serd_record(fmd_hdl_t *hdl, const char *name, fmd_event_t *ep)
1459 {
1460 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1461 	fmd_serd_eng_t *sgp;
1462 	int err;
1463 
1464 	if ((sgp = fmd_serd_eng_lookup(&mp->mod_serds, name)) == NULL) {
1465 		fmd_api_error(mp, EFMD_SERD_NAME,
1466 		    "failed to add record to serd engine '%s'", name);
1467 	}
1468 
1469 	err = fmd_serd_eng_record(sgp, ep);
1470 
1471 	if (sgp->sg_flags & FMD_SERD_DIRTY)
1472 		fmd_module_setdirty(mp);
1473 
1474 	fmd_module_unlock(mp);
1475 	return (err);
1476 }
1477 
1478 int
1479 fmd_serd_fired(fmd_hdl_t *hdl, const char *name)
1480 {
1481 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1482 	fmd_serd_eng_t *sgp;
1483 	int err;
1484 
1485 	if ((sgp = fmd_serd_eng_lookup(&mp->mod_serds, name)) == NULL) {
1486 		fmd_api_error(mp, EFMD_SERD_NAME,
1487 		    "serd engine '%s' does not exist\n", name);
1488 	}
1489 
1490 	err = fmd_serd_eng_fired(sgp);
1491 	fmd_module_unlock(mp);
1492 	return (err);
1493 }
1494 
1495 int
1496 fmd_serd_empty(fmd_hdl_t *hdl, const char *name)
1497 {
1498 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1499 	fmd_serd_eng_t *sgp;
1500 	int empty;
1501 
1502 	if ((sgp = fmd_serd_eng_lookup(&mp->mod_serds, name)) == NULL) {
1503 		fmd_api_error(mp, EFMD_SERD_NAME,
1504 		    "serd engine '%s' does not exist\n", name);
1505 	}
1506 
1507 	empty = fmd_serd_eng_empty(sgp);
1508 	fmd_module_unlock(mp);
1509 	return (empty);
1510 }
1511 
1512 pthread_t
1513 fmd_thr_create(fmd_hdl_t *hdl, void (*func)(void *), void *arg)
1514 {
1515 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1516 	fmd_thread_t *tp;
1517 	pthread_t tid;
1518 
1519 	if (mp->mod_stats->ms_thrtotal.fmds_value.ui32 >=
1520 	    mp->mod_stats->ms_thrlimit.fmds_value.ui32) {
1521 		fmd_api_error(mp, EFMD_THR_LIMIT, "%s request to create an "
1522 		    "auxiliary thread exceeds module thread limit (%u)\n",
1523 		    mp->mod_name, mp->mod_stats->ms_thrlimit.fmds_value.ui32);
1524 	}
1525 
1526 	if ((tp = fmd_thread_create(mp, func, arg)) == NULL) {
1527 		fmd_api_error(mp, EFMD_THR_CREATE,
1528 		    "failed to create auxiliary thread");
1529 	}
1530 
1531 	tid = tp->thr_tid;
1532 	mp->mod_stats->ms_thrtotal.fmds_value.ui32++;
1533 	(void) fmd_idspace_xalloc(mp->mod_threads, tid, tp);
1534 
1535 	fmd_module_unlock(mp);
1536 	return (tid);
1537 }
1538 
1539 void
1540 fmd_thr_destroy(fmd_hdl_t *hdl, pthread_t tid)
1541 {
1542 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1543 	fmd_thread_t *tp;
1544 	int err;
1545 
1546 	if (pthread_self() == tid) {
1547 		fmd_api_error(mp, EFMD_THR_INVAL, "auxiliary thread tried to "
1548 		    "destroy itself (tid %u)\n", tid);
1549 	}
1550 
1551 	if ((tp = fmd_idspace_getspecific(mp->mod_threads, tid)) == NULL) {
1552 		fmd_api_error(mp, EFMD_THR_INVAL, "auxiliary thread tried to "
1553 		    "destroy an invalid thread (tid %u)\n", tid);
1554 	}
1555 
1556 	/*
1557 	 * Wait for the specified thread to exit and then join with it.  Since
1558 	 * the thread may need to make API calls in order to complete its work
1559 	 * we must sleep with the module lock unheld, and then reacquire it.
1560 	 */
1561 	fmd_module_unlock(mp);
1562 	err = pthread_join(tid, NULL);
1563 	mp = fmd_api_module_lock(hdl);
1564 
1565 	/*
1566 	 * Since pthread_join() was called without the module lock held, if
1567 	 * multiple callers attempted to destroy the same auxiliary thread
1568 	 * simultaneously, one will succeed and the others will get ESRCH.
1569 	 * Therefore we silently ignore ESRCH but only allow the caller who
1570 	 * succeessfully joined with the auxiliary thread to destroy it.
1571 	 */
1572 	if (err != 0 && err != ESRCH) {
1573 		fmd_api_error(mp, EFMD_THR_JOIN,
1574 		    "failed to join with auxiliary thread %u\n", tid);
1575 	}
1576 
1577 	if (err == 0) {
1578 		fmd_thread_destroy(tp, FMD_THREAD_NOJOIN);
1579 		mp->mod_stats->ms_thrtotal.fmds_value.ui32--;
1580 		(void) fmd_idspace_free(mp->mod_threads, tid);
1581 	}
1582 
1583 	fmd_module_unlock(mp);
1584 }
1585 
1586 void
1587 fmd_thr_signal(fmd_hdl_t *hdl, pthread_t tid)
1588 {
1589 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1590 
1591 	if (tid != mp->mod_thread->thr_tid &&
1592 	    fmd_idspace_getspecific(mp->mod_threads, tid) == NULL) {
1593 		fmd_api_error(mp, EFMD_THR_INVAL, "tid %u is not a valid "
1594 		    "thread id for module %s\n", tid, mp->mod_name);
1595 	}
1596 
1597 	(void) pthread_kill(tid, fmd.d_thr_sig);
1598 	fmd_module_unlock(mp);
1599 }
1600 
1601 id_t
1602 fmd_timer_install(fmd_hdl_t *hdl, void *arg, fmd_event_t *ep, hrtime_t delta)
1603 {
1604 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1605 	fmd_modtimer_t *t;
1606 	id_t id;
1607 
1608 	if (delta < 0) {
1609 		fmd_api_error(mp, EFMD_TIMER_INVAL,
1610 		    "timer delta %lld is not a valid interval\n", delta);
1611 	}
1612 
1613 	t = fmd_alloc(sizeof (fmd_modtimer_t), FMD_SLEEP);
1614 	t->mt_mod = mp;
1615 	t->mt_arg = arg;
1616 	t->mt_id = -1;
1617 
1618 	if ((id = fmd_timerq_install(fmd.d_timers, mp->mod_timerids,
1619 	    (fmd_timer_f *)fmd_module_timeout, t, ep, delta)) == -1) {
1620 		fmd_free(t, sizeof (fmd_modtimer_t));
1621 		fmd_api_error(mp, EFMD_TIMER_LIMIT,
1622 		    "failed to install timer +%lld", delta);
1623 	}
1624 
1625 	fmd_module_unlock(mp);
1626 	return (id);
1627 }
1628 
1629 void
1630 fmd_timer_remove(fmd_hdl_t *hdl, id_t id)
1631 {
1632 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1633 	fmd_modtimer_t *t;
1634 
1635 	if (!fmd_idspace_valid(mp->mod_timerids, id)) {
1636 		fmd_api_error(mp, EFMD_TIMER_INVAL,
1637 		    "id %ld is not a valid timer id\n", id);
1638 	}
1639 
1640 	t = fmd_timerq_remove(fmd.d_timers, mp->mod_timerids, id);
1641 	fmd_module_unlock(mp);
1642 
1643 	if (t != NULL) {
1644 		fmd_eventq_cancel(mp->mod_queue, FMD_EVT_TIMEOUT, t);
1645 		fmd_free(t, sizeof (fmd_modtimer_t));
1646 	}
1647 }
1648 
1649 nvlist_t *
1650 fmd_nvl_create_fault(fmd_hdl_t *hdl, const char *class,
1651     uint8_t certainty, nvlist_t *asru, nvlist_t *fru, nvlist_t *rsrc)
1652 {
1653 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1654 	nvlist_t *nvl;
1655 
1656 	if (class == NULL || class[0] == '\0')
1657 		fmd_api_error(mp, EFMD_NVL_INVAL, "invalid fault class\n");
1658 
1659 	nvl = fmd_protocol_fault(class, certainty, asru, fru, rsrc);
1660 	fmd_module_unlock(mp);
1661 	return (nvl);
1662 }
1663 
1664 int
1665 fmd_nvl_class_match(fmd_hdl_t *hdl, nvlist_t *nvl, const char *pattern)
1666 {
1667 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1668 	char *class;
1669 	int rv;
1670 
1671 	rv = (nvl != NULL && nvlist_lookup_string(nvl,
1672 	    FM_CLASS, &class) == 0 && fmd_strmatch(class, pattern));
1673 
1674 	fmd_module_unlock(mp);
1675 	return (rv);
1676 }
1677 
1678 int
1679 fmd_nvl_fmri_expand(fmd_hdl_t *hdl, nvlist_t *nvl)
1680 {
1681 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1682 	int rv;
1683 
1684 	if (nvl == NULL) {
1685 		fmd_api_error(mp, EFMD_NVL_INVAL,
1686 		    "invalid nvlist %p\n", (void *)nvl);
1687 	}
1688 
1689 	rv = fmd_fmri_expand(nvl);
1690 	fmd_module_unlock(mp);
1691 	return (rv);
1692 }
1693 
1694 int
1695 fmd_nvl_fmri_present(fmd_hdl_t *hdl, nvlist_t *nvl)
1696 {
1697 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1698 	int rv;
1699 
1700 	if (nvl == NULL) {
1701 		fmd_api_error(mp, EFMD_NVL_INVAL,
1702 		    "invalid nvlist %p\n", (void *)nvl);
1703 	}
1704 
1705 	rv = fmd_fmri_present(nvl);
1706 	fmd_module_unlock(mp);
1707 
1708 	if (rv < 0) {
1709 		fmd_api_error(mp, EFMD_FMRI_OP, "invalid fmri for "
1710 		    "fmd_nvl_fmri_present\n");
1711 	}
1712 
1713 	return (rv);
1714 }
1715 
1716 int
1717 fmd_nvl_fmri_unusable(fmd_hdl_t *hdl, nvlist_t *nvl)
1718 {
1719 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1720 	int rv;
1721 
1722 	if (nvl == NULL) {
1723 		fmd_api_error(mp, EFMD_NVL_INVAL,
1724 		    "invalid nvlist %p\n", (void *)nvl);
1725 	}
1726 
1727 	rv = fmd_fmri_unusable(nvl);
1728 	fmd_module_unlock(mp);
1729 
1730 	if (rv < 0) {
1731 		fmd_api_error(mp, EFMD_FMRI_OP, "invalid fmri for "
1732 		    "fmd_nvl_fmri_unusable\n");
1733 	}
1734 
1735 	return (rv);
1736 }
1737 
1738 int
1739 fmd_nvl_fmri_faulty(fmd_hdl_t *hdl, nvlist_t *nvl)
1740 {
1741 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1742 	fmd_asru_hash_t *ahp = fmd.d_asrus;
1743 	fmd_asru_t *ap;
1744 	int rv = 0;
1745 
1746 	if (nvl == NULL) {
1747 		fmd_api_error(mp, EFMD_NVL_INVAL,
1748 		    "invalid nvlist %p\n", (void *)nvl);
1749 	}
1750 
1751 	if ((ap = fmd_asru_hash_lookup_nvl(ahp, nvl, FMD_B_FALSE)) != NULL) {
1752 		rv = (ap->asru_flags & FMD_ASRU_FAULTY) != 0;
1753 		fmd_asru_hash_release(ahp, ap);
1754 	}
1755 
1756 	fmd_module_unlock(mp);
1757 	return (rv);
1758 }
1759 
1760 int
1761 fmd_nvl_fmri_contains(fmd_hdl_t *hdl, nvlist_t *n1, nvlist_t *n2)
1762 {
1763 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1764 	int rv;
1765 
1766 	if (n1 == NULL || n2 == NULL) {
1767 		fmd_api_error(mp, EFMD_NVL_INVAL,
1768 		    "invalid nvlist(s): %p, %p\n", (void *)n1, (void *)n2);
1769 	}
1770 
1771 	rv = fmd_fmri_contains(n1, n2);
1772 	fmd_module_unlock(mp);
1773 
1774 	if (rv < 0) {
1775 		fmd_api_error(mp, EFMD_FMRI_OP, "invalid fmri for "
1776 		    "fmd_nvl_fmri_contains\n");
1777 	}
1778 
1779 	return (rv);
1780 }
1781 
1782 nvlist_t *
1783 fmd_nvl_fmri_translate(fmd_hdl_t *hdl, nvlist_t *fmri, nvlist_t *auth)
1784 {
1785 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1786 	nvlist_t *xfmri;
1787 
1788 	if (fmri == NULL || auth == NULL) {
1789 		fmd_api_error(mp, EFMD_NVL_INVAL,
1790 		    "invalid nvlist(s): %p, %p\n", (void *)fmri, (void *)auth);
1791 	}
1792 
1793 	xfmri = fmd_fmri_translate(fmri, auth);
1794 	fmd_module_unlock(mp);
1795 	return (xfmri);
1796 }
1797 
1798 int
1799 fmd_event_local(fmd_hdl_t *hdl, fmd_event_t *ep)
1800 {
1801 	if (hdl == NULL || ep == NULL) {
1802 		fmd_api_error(fmd_api_module_lock(hdl), EFMD_EVENT_INVAL,
1803 		    "NULL parameter specified to fmd_event_local\n");
1804 	}
1805 
1806 	return (((fmd_event_impl_t *)ep)->ev_flags & FMD_EVF_LOCAL);
1807 }
1808 
1809 fmd_xprt_t *
1810 fmd_xprt_open(fmd_hdl_t *hdl, uint_t flags, nvlist_t *auth, void *data)
1811 {
1812 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1813 	fmd_xprt_t *xp;
1814 
1815 	if (flags & ~FMD_XPRT_CMASK) {
1816 		fmd_api_error(mp, EFMD_XPRT_INVAL,
1817 		    "invalid transport flags 0x%x\n", flags);
1818 	}
1819 
1820 	if ((flags & FMD_XPRT_RDWR) != FMD_XPRT_RDWR &&
1821 	    (flags & FMD_XPRT_RDWR) != FMD_XPRT_RDONLY) {
1822 		fmd_api_error(mp, EFMD_XPRT_INVAL,
1823 		    "cannot open write-only transport\n");
1824 	}
1825 
1826 	if (mp->mod_stats->ms_xprtopen.fmds_value.ui32 >=
1827 	    mp->mod_stats->ms_xprtlimit.fmds_value.ui32) {
1828 		fmd_api_error(mp, EFMD_XPRT_LIMIT, "%s request to create a "
1829 		    "transport exceeds module transport limit (%u)\n",
1830 		    mp->mod_name, mp->mod_stats->ms_xprtlimit.fmds_value.ui32);
1831 	}
1832 
1833 	if ((xp = fmd_xprt_create(mp, flags, auth, data)) == NULL)
1834 		fmd_api_error(mp, errno, "cannot create transport");
1835 
1836 	fmd_module_unlock(mp);
1837 	return (xp);
1838 }
1839 
1840 void
1841 fmd_xprt_close(fmd_hdl_t *hdl, fmd_xprt_t *xp)
1842 {
1843 	fmd_module_t *mp = fmd_api_module_lock(hdl);
1844 	fmd_xprt_impl_t *xip = fmd_api_transport_impl(hdl, xp);
1845 
1846 	/*
1847 	 * Although this could be supported, it doesn't seem necessary or worth
1848 	 * the trouble.  For now, just detect this and trigger a module abort.
1849 	 * If it is needed, transports should grow reference counts and a new
1850 	 * event type will need to be enqueued for the main thread to reap it.
1851 	 */
1852 	if (xip->xi_thread != NULL &&
1853 	    xip->xi_thread->thr_tid == pthread_self()) {
1854 		fmd_api_error(mp, EFMD_XPRT_INVAL,
1855 		    "fmd_xprt_close() cannot be called from fmdo_send()\n");
1856 	}
1857 
1858 	fmd_xprt_destroy(xp);
1859 	fmd_module_unlock(mp);
1860 }
1861 
1862 void
1863 fmd_xprt_post(fmd_hdl_t *hdl, fmd_xprt_t *xp, nvlist_t *nvl, hrtime_t hrt)
1864 {
1865 	fmd_xprt_impl_t *xip = fmd_api_transport_impl(hdl, xp);
1866 
1867 	/*
1868 	 * fmd_xprt_recv() must block during startup waiting for fmd to globally
1869 	 * clear FMD_XPRT_DSUSPENDED.  As such, we can't allow it to be called
1870 	 * from a module's _fmd_init() routine, because that would block
1871 	 * fmd from completing initial module loading, resulting in a deadlock.
1872 	 */
1873 	if ((xip->xi_flags & FMD_XPRT_ISUSPENDED) &&
1874 	    (pthread_self() == xip->xi_queue->eq_mod->mod_thread->thr_tid)) {
1875 		fmd_api_error(fmd_api_module_lock(hdl), EFMD_XPRT_INVAL,
1876 		    "fmd_xprt_post() cannot be called from _fmd_init()\n");
1877 	}
1878 
1879 	fmd_xprt_recv(xp, nvl, hrt);
1880 }
1881 
1882 void
1883 fmd_xprt_suspend(fmd_hdl_t *hdl, fmd_xprt_t *xp)
1884 {
1885 	(void) fmd_api_transport_impl(hdl, xp); /* validate 'xp' */
1886 	fmd_xprt_xsuspend(xp, FMD_XPRT_SUSPENDED);
1887 }
1888 
1889 void
1890 fmd_xprt_resume(fmd_hdl_t *hdl, fmd_xprt_t *xp)
1891 {
1892 	(void) fmd_api_transport_impl(hdl, xp); /* validate 'xp' */
1893 	fmd_xprt_xresume(xp, FMD_XPRT_SUSPENDED);
1894 }
1895 
1896 int
1897 fmd_xprt_error(fmd_hdl_t *hdl, fmd_xprt_t *xp)
1898 {
1899 	fmd_xprt_impl_t *xip = fmd_api_transport_impl(hdl, xp);
1900 	return (xip->xi_state == _fmd_xprt_state_err);
1901 }
1902 
1903 /*
1904  * Translate all FMRIs in the specified name-value pair list for the specified
1905  * FMRI authority, and return a new name-value pair list for the translation.
1906  * This function is the recursive engine used by fmd_xprt_translate(), below.
1907  */
1908 static nvlist_t *
1909 fmd_xprt_xtranslate(nvlist_t *nvl, nvlist_t *auth)
1910 {
1911 	uint_t i, j, n;
1912 	nvpair_t *nvp, **nvps;
1913 	uint_t nvpslen = 0;
1914 	char *name;
1915 	size_t namelen = 0;
1916 
1917 	nvlist_t **a, **b;
1918 	nvlist_t *l, *r;
1919 	data_type_t type;
1920 	char *s;
1921 	int err;
1922 
1923 	(void) nvlist_xdup(nvl, &nvl, &fmd.d_nva);
1924 
1925 	/*
1926 	 * Count up the number of name-value pairs in 'nvl' and compute the
1927 	 * maximum length of a name used in this list for use below.
1928 	 */
1929 	for (nvp = nvlist_next_nvpair(nvl, NULL);
1930 	    nvp != NULL; nvp = nvlist_next_nvpair(nvl, nvp), nvpslen++) {
1931 		size_t len = strlen(nvpair_name(nvp));
1932 		namelen = MAX(namelen, len);
1933 	}
1934 
1935 	nvps = alloca(sizeof (nvpair_t *) * nvpslen);
1936 	name = alloca(namelen + 1);
1937 
1938 	/*
1939 	 * Store a snapshot of the name-value pairs in 'nvl' into nvps[] so
1940 	 * that we can iterate over the original pairs in the loop below while
1941 	 * performing arbitrary insert and delete operations on 'nvl' itself.
1942 	 */
1943 	for (i = 0, nvp = nvlist_next_nvpair(nvl, NULL);
1944 	    nvp != NULL; nvp = nvlist_next_nvpair(nvl, nvp))
1945 		nvps[i++] = nvp;
1946 
1947 	/*
1948 	 * Now iterate over the snapshot of the name-value pairs.  If we find a
1949 	 * value that is of type NVLIST or NVLIST_ARRAY, we translate that
1950 	 * object by either calling ourself recursively on it, or calling into
1951 	 * fmd_fmri_translate() if the object is an FMRI.  We then rip out the
1952 	 * original name-value pair and replace it with the translated one.
1953 	 */
1954 	for (i = 0; i < nvpslen; i++) {
1955 		nvp = nvps[i];
1956 		type = nvpair_type(nvp);
1957 
1958 		switch (type) {
1959 		case DATA_TYPE_NVLIST_ARRAY:
1960 			if (nvpair_value_nvlist_array(nvp, &a, &n) != 0 ||
1961 			    a == NULL || n == 0)
1962 				continue; /* array is zero-sized; skip it */
1963 
1964 			b = fmd_alloc(sizeof (nvlist_t *) * n, FMD_SLEEP);
1965 
1966 			/*
1967 			 * If the first array nvlist element looks like an FMRI
1968 			 * then assume the other elements are FMRIs as well.
1969 			 * If any b[j]'s can't be translated, then EINVAL will
1970 			 * be returned from nvlist_add_nvlist_array() below.
1971 			 */
1972 			if (nvlist_lookup_string(*a, FM_FMRI_SCHEME, &s) == 0) {
1973 				for (j = 0; j < n; j++)
1974 					b[j] = fmd_fmri_translate(a[j], auth);
1975 			} else {
1976 				for (j = 0; j < n; j++)
1977 					b[j] = fmd_xprt_xtranslate(a[j], auth);
1978 			}
1979 
1980 			(void) strcpy(name, nvpair_name(nvp));
1981 			(void) nvlist_remove(nvl, name, type);
1982 			err = nvlist_add_nvlist_array(nvl, name, b, n);
1983 
1984 			for (j = 0; j < n; j++)
1985 				nvlist_free(b[j]);
1986 
1987 			fmd_free(b, sizeof (nvlist_t *) * n);
1988 
1989 			if (err != 0) {
1990 				nvlist_free(nvl);
1991 				errno = err;
1992 				return (NULL);
1993 			}
1994 			break;
1995 
1996 		case DATA_TYPE_NVLIST:
1997 			if (nvpair_value_nvlist(nvp, &l) == 0 &&
1998 			    nvlist_lookup_string(l, FM_FMRI_SCHEME, &s) == 0)
1999 				r = fmd_fmri_translate(l, auth);
2000 			else
2001 				r = fmd_xprt_xtranslate(l, auth);
2002 
2003 			if (r == NULL) {
2004 				nvlist_free(nvl);
2005 				return (NULL);
2006 			}
2007 
2008 			(void) strcpy(name, nvpair_name(nvp));
2009 			(void) nvlist_remove(nvl, name, type);
2010 			(void) nvlist_add_nvlist(nvl, name, r);
2011 
2012 			nvlist_free(r);
2013 			break;
2014 		}
2015 	}
2016 
2017 	return (nvl);
2018 }
2019 
2020 nvlist_t *
2021 fmd_xprt_translate(fmd_hdl_t *hdl, fmd_xprt_t *xp, fmd_event_t *ep)
2022 {
2023 	fmd_xprt_impl_t *xip = fmd_api_transport_impl(hdl, xp);
2024 
2025 	if (xip->xi_auth == NULL) {
2026 		fmd_api_error(fmd_api_module_lock(hdl), EFMD_XPRT_INVAL,
2027 		    "no authority defined for transport %p\n", (void *)xp);
2028 	}
2029 
2030 	return (fmd_xprt_xtranslate(FMD_EVENT_NVL(ep), xip->xi_auth));
2031 }
2032 
2033 void
2034 fmd_xprt_setspecific(fmd_hdl_t *hdl, fmd_xprt_t *xp, void *data)
2035 {
2036 	fmd_api_transport_impl(hdl, xp)->xi_data = data;
2037 }
2038 
2039 void *
2040 fmd_xprt_getspecific(fmd_hdl_t *hdl, fmd_xprt_t *xp)
2041 {
2042 	return (fmd_api_transport_impl(hdl, xp)->xi_data);
2043 }
2044