xref: /titanic_52/usr/src/cmd/fm/modules/sun4v/etm/etm.c (revision c2580b931007758eab8cb5ae8726ebe1588e259b)
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 /*
23  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 /*
28  * etm.c	FMA Event Transport Module implementation, a plugin of FMD
29  *		for sun4v/Ontario
30  *
31  * plugin for sending/receiving FMA events to/from service processor
32  */
33 
34 #pragma ident	"%Z%%M%	%I%	%E% SMI"
35 
36 /*
37  * --------------------------------- includes --------------------------------
38  */
39 
40 #include <sys/fm/protocol.h>
41 #include <sys/fm/util.h>
42 #include <netinet/in.h>
43 #include <fm/fmd_api.h>
44 #include <sys/fm/ldom.h>
45 #include <sys/strlog.h>
46 #include <sys/syslog.h>
47 
48 #include "etm_xport_api.h"
49 #include "etm_etm_proto.h"
50 #include "etm_impl.h"
51 
52 #include <pthread.h>
53 #include <signal.h>
54 #include <stropts.h>
55 #include <locale.h>
56 #include <strings.h>
57 #include <stdlib.h>
58 #include <unistd.h>
59 #include <limits.h>
60 #include <values.h>
61 #include <alloca.h>
62 #include <errno.h>
63 #include <fcntl.h>
64 #include <time.h>
65 
66 
67 /*
68  * ----------------------------- forward decls -------------------------------
69  */
70 
71 static void
72 etm_recv(fmd_hdl_t *hdl, fmd_event_t *ep, nvlist_t *nvl, const char *class);
73 
74 /*
75  * ------------------------- data structs for FMD ----------------------------
76  */
77 
78 static const fmd_hdl_ops_t fmd_ops = {
79 	etm_recv,	/* fmdo_recv */
80 	NULL,		/* fmdo_timeout */
81 	NULL,		/* fmdo_close */
82 	NULL,		/* fmdo_stats */
83 	NULL,		/* fmdo_gc */
84 	NULL,		/* fmdo_send */
85 };
86 
87 static const fmd_prop_t fmd_props[] = {
88 	{ ETM_PROP_NM_XPORT_ADDRS,	FMD_TYPE_STRING, "" },
89 	{ ETM_PROP_NM_DEBUG_LVL,	FMD_TYPE_INT32, "0" },
90 	{ ETM_PROP_NM_DEBUG_MAX_EV_CNT,	FMD_TYPE_INT32, "-1" },
91 	{ ETM_PROP_NM_CONSOLE,		FMD_TYPE_BOOL, "false" },
92 	{ ETM_PROP_NM_SYSLOGD,		FMD_TYPE_BOOL, "true" },
93 	{ ETM_PROP_NM_FACILITY,		FMD_TYPE_STRING, "LOG_DAEMON" },
94 	{ NULL, 0, NULL }
95 };
96 
97 
98 static const fmd_hdl_info_t fmd_info = {
99 	"FMA Event Transport Module", "1.1", &fmd_ops, fmd_props
100 };
101 
102 /*
103  * ----------------------- private consts and defns --------------------------
104  */
105 
106 /* misc buffer for variable sized protocol header fields */
107 
108 #define	ETM_MISC_BUF_SZ	(4 * 1024)
109 
110 /* try limit for IO operations w/ capped exp backoff sleep on retry */
111 
112 /*
113  * Design_Note:	ETM will potentially retry forever IO operations that the
114  *		transport fails with EAGAIN (aka EWOULDBLOCK) rather than
115  *		giving up after some number of seconds. This avoids
116  *		dropping FMA events while the service processor is down,
117  *		but at the risk of pending fmdo_recv() forever and
118  *		overflowing FMD's event queue for ETM.
119  *		A future TBD enhancement would be to always recv
120  *		and send each ETM msg in a single read/write() to reduce
121  *		the risk of failure between ETM msg hdr and body,
122  *		assuming the MTU_SZ is large enough.
123  */
124 
125 #define	ETM_TRY_MAX_CNT		(MAXINT - 1)
126 #define	ETM_TRY_BACKOFF_RATE	(4)
127 #define	ETM_TRY_BACKOFF_CAP	(60)
128 
129 /* amount to increment protocol transaction id on each new send */
130 
131 #define	ETM_XID_INC	(2)
132 
133 /*
134  * ---------------------------- global data ----------------------------------
135  */
136 
137 static fmd_hdl_t
138 *init_hdl = NULL;	/* used in mem allocator at init time */
139 
140 static int
141 etm_debug_lvl = 0;	/* debug level: 0 is off, 1 is on, 2 is more, etc */
142 
143 static int
144 etm_debug_max_ev_cnt = -1; /* max allowed event count for debugging */
145 
146 static fmd_xprt_t
147 *etm_fmd_xprt = NULL;	/* FMD transport layer handle */
148 
149 static pthread_t
150 etm_svr_tid = NULL;	/* thread id of connection acceptance server */
151 
152 static volatile int
153 etm_is_dying = 0;	/* bool for dying (killing self) */
154 
155 static uint32_t
156 etm_xid_cur = 0;	/* current transaction id for sends */
157 
158 static uint32_t
159 etm_xid_ping = 0;	/* xid of last CONTROL msg sent requesting ping */
160 
161 static uint32_t
162 etm_xid_ver_negot = 0;	/* xid of last CONTROL msg sent requesting ver negot */
163 
164 static uint32_t
165 etm_xid_posted_ev = 0;	/* xid of last FMA_EVENT msg/event posted OK to FMD */
166 
167 static uint8_t
168 etm_resp_ver = ETM_PROTO_V1; /* proto ver [negotiated] for msg sends */
169 
170 static log_ctl_t syslog_ctl;	/* log(7D) meta-data for each msg */
171 static int syslog_facility;	/* log(7D) facility (part of priority) */
172 static int syslog_logfd = -1;	/* log(7D) file descriptor */
173 static int syslog_msgfd = -1;	/* sysmsg(7D) file descriptor */
174 static int syslog_file = 0;	/* log to syslog_logfd */
175 static int syslog_cons = 0;	/* log to syslog_msgfd */
176 
177 static const struct facility {
178 	const char *fac_name;
179 	int fac_value;
180 } syslog_facs[] = {
181 	{ "LOG_DAEMON", LOG_DAEMON },
182 	{ "LOG_LOCAL0", LOG_LOCAL0 },
183 	{ "LOG_LOCAL1", LOG_LOCAL1 },
184 	{ "LOG_LOCAL2", LOG_LOCAL2 },
185 	{ "LOG_LOCAL3", LOG_LOCAL3 },
186 	{ "LOG_LOCAL4", LOG_LOCAL4 },
187 	{ "LOG_LOCAL5", LOG_LOCAL5 },
188 	{ "LOG_LOCAL6", LOG_LOCAL6 },
189 	{ "LOG_LOCAL7", LOG_LOCAL7 },
190 	{ NULL, 0 }
191 };
192 
193 static struct stats {
194 
195 	/* ETM msg counters */
196 
197 	fmd_stat_t etm_rd_hdr_fmaevent;
198 	fmd_stat_t etm_rd_hdr_control;
199 	fmd_stat_t etm_rd_hdr_alert;
200 	fmd_stat_t etm_rd_hdr_response;
201 	fmd_stat_t etm_rd_body_fmaevent;
202 	fmd_stat_t etm_rd_body_control;
203 	fmd_stat_t etm_rd_body_alert;
204 	fmd_stat_t etm_rd_body_response;
205 	fmd_stat_t etm_wr_hdr_fmaevent;
206 	fmd_stat_t etm_wr_hdr_control;
207 	fmd_stat_t etm_wr_hdr_response;
208 	fmd_stat_t etm_wr_body_fmaevent;
209 	fmd_stat_t etm_wr_body_control;
210 	fmd_stat_t etm_wr_body_response;
211 
212 	/* ETM byte counters */
213 
214 	fmd_stat_t etm_wr_fmd_bytes;
215 	fmd_stat_t etm_rd_fmd_bytes;
216 	fmd_stat_t etm_wr_xport_bytes;
217 	fmd_stat_t etm_rd_xport_bytes;
218 
219 	fmd_stat_t etm_magic_drop_bytes;
220 
221 	/* ETM [dropped] FMA event counters */
222 
223 	fmd_stat_t etm_rd_fmd_fmaevent;
224 	fmd_stat_t etm_wr_fmd_fmaevent;
225 
226 	fmd_stat_t etm_rd_drop_fmaevent;
227 	fmd_stat_t etm_wr_drop_fmaevent;
228 
229 	fmd_stat_t etm_rd_dup_fmaevent;
230 	fmd_stat_t etm_wr_dup_fmaevent;
231 
232 	/* ETM protocol failures */
233 
234 	fmd_stat_t etm_magic_bad;
235 	fmd_stat_t etm_ver_bad;
236 	fmd_stat_t etm_msgtype_bad;
237 	fmd_stat_t etm_subtype_bad;
238 	fmd_stat_t etm_xid_bad;
239 	fmd_stat_t etm_fmaeventlen_bad;
240 	fmd_stat_t etm_respcode_bad;
241 	fmd_stat_t etm_timeout_bad;
242 	fmd_stat_t etm_evlens_bad;
243 
244 	/* IO operation failures */
245 
246 	fmd_stat_t etm_xport_wr_fail;
247 	fmd_stat_t etm_xport_rd_fail;
248 	fmd_stat_t etm_xport_pk_fail;
249 
250 	/* IO operation retries */
251 
252 	fmd_stat_t etm_xport_wr_retry;
253 	fmd_stat_t etm_xport_rd_retry;
254 	fmd_stat_t etm_xport_pk_retry;
255 
256 	/* system and library failures */
257 
258 	fmd_stat_t etm_os_nvlist_pack_fail;
259 	fmd_stat_t etm_os_nvlist_unpack_fail;
260 	fmd_stat_t etm_os_nvlist_size_fail;
261 	fmd_stat_t etm_os_pthread_create_fail;
262 
263 	/* xport API failures */
264 
265 	fmd_stat_t etm_xport_get_ev_addrv_fail;
266 	fmd_stat_t etm_xport_open_fail;
267 	fmd_stat_t etm_xport_close_fail;
268 	fmd_stat_t etm_xport_accept_fail;
269 	fmd_stat_t etm_xport_open_retry;
270 
271 	/* FMD entry point bad arguments */
272 
273 	fmd_stat_t etm_fmd_recv_badargs;
274 	fmd_stat_t etm_fmd_init_badargs;
275 	fmd_stat_t etm_fmd_fini_badargs;
276 
277 	/* Alert logging errors */
278 	fmd_stat_t etm_log_err;
279 	fmd_stat_t etm_msg_err;
280 
281 } etm_stats = {
282 
283 	/* ETM msg counters */
284 
285 	{ "etm_rd_hdr_fmaevent", FMD_TYPE_UINT64,
286 		"ETM fmaevent msg headers rcvd from xport" },
287 	{ "etm_rd_hdr_control", FMD_TYPE_UINT64,
288 		"ETM control msg headers rcvd from xport" },
289 	{ "etm_rd_hdr_alert", FMD_TYPE_UINT64,
290 		"ETM alert msg headers rcvd from xport" },
291 	{ "etm_rd_hdr_response", FMD_TYPE_UINT64,
292 		"ETM response msg headers rcvd from xport" },
293 	{ "etm_rd_body_fmaevent", FMD_TYPE_UINT64,
294 		"ETM fmaevent msg bodies rcvd from xport" },
295 	{ "etm_rd_body_control", FMD_TYPE_UINT64,
296 		"ETM control msg bodies rcvd from xport" },
297 	{ "etm_rd_body_alert", FMD_TYPE_UINT64,
298 		"ETM alert msg bodies rcvd from xport" },
299 	{ "etm_rd_body_response", FMD_TYPE_UINT64,
300 		"ETM response msg bodies rcvd from xport" },
301 	{ "etm_wr_hdr_fmaevent", FMD_TYPE_UINT64,
302 		"ETM fmaevent msg headers sent to xport" },
303 	{ "etm_wr_hdr_control", FMD_TYPE_UINT64,
304 		"ETM control msg headers sent to xport" },
305 	{ "etm_wr_hdr_response", FMD_TYPE_UINT64,
306 		"ETM response msg headers sent to xport" },
307 	{ "etm_wr_body_fmaevent", FMD_TYPE_UINT64,
308 		"ETM fmaevent msg bodies sent to xport" },
309 	{ "etm_wr_body_control", FMD_TYPE_UINT64,
310 		"ETM control msg bodies sent to xport" },
311 	{ "etm_wr_body_response", FMD_TYPE_UINT64,
312 		"ETM response msg bodies sent to xport" },
313 
314 	/* ETM byte counters */
315 
316 	{ "etm_wr_fmd_bytes", FMD_TYPE_UINT64,
317 		"bytes of FMA events sent to FMD" },
318 	{ "etm_rd_fmd_bytes", FMD_TYPE_UINT64,
319 		"bytes of FMA events rcvd from FMD" },
320 	{ "etm_wr_xport_bytes", FMD_TYPE_UINT64,
321 		"bytes of FMA events sent to xport" },
322 	{ "etm_rd_xport_bytes", FMD_TYPE_UINT64,
323 		"bytes of FMA events rcvd from xport" },
324 
325 	{ "etm_magic_drop_bytes", FMD_TYPE_UINT64,
326 		"bytes dropped from xport pre magic num" },
327 
328 	/* ETM [dropped] FMA event counters */
329 
330 	{ "etm_rd_fmd_fmaevent", FMD_TYPE_UINT64,
331 		"FMA events rcvd from FMD" },
332 	{ "etm_wr_fmd_fmaevent", FMD_TYPE_UINT64,
333 		"FMA events sent to FMD" },
334 
335 	{ "etm_rd_drop_fmaevent", FMD_TYPE_UINT64,
336 		"dropped FMA events from xport" },
337 	{ "etm_wr_drop_fmaevent", FMD_TYPE_UINT64,
338 		"dropped FMA events to xport" },
339 
340 	{ "etm_rd_dup_fmaevent", FMD_TYPE_UINT64,
341 	    "duplicate FMA events from xport" },
342 	{ "etm_wr_dup_fmaevent", FMD_TYPE_UINT64,
343 	    "duplicate FMA events to xport" },
344 
345 	/* ETM protocol failures */
346 
347 	{ "etm_magic_bad", FMD_TYPE_UINT64,
348 		"ETM msgs w/ invalid magic num" },
349 	{ "etm_ver_bad", FMD_TYPE_UINT64,
350 		"ETM msgs w/ invalid protocol version" },
351 	{ "etm_msgtype_bad", FMD_TYPE_UINT64,
352 		"ETM msgs w/ invalid message type" },
353 	{ "etm_subtype_bad", FMD_TYPE_UINT64,
354 		"ETM msgs w/ invalid sub type" },
355 	{ "etm_xid_bad", FMD_TYPE_UINT64,
356 		"ETM msgs w/ unmatched xid" },
357 	{ "etm_fmaeventlen_bad", FMD_TYPE_UINT64,
358 		"ETM msgs w/ invalid FMA event length" },
359 	{ "etm_respcode_bad", FMD_TYPE_UINT64,
360 		"ETM msgs w/ invalid response code" },
361 	{ "etm_timeout_bad", FMD_TYPE_UINT64,
362 		"ETM msgs w/ invalid timeout value" },
363 	{ "etm_evlens_bad", FMD_TYPE_UINT64,
364 		"ETM msgs w/ too many event lengths" },
365 
366 	/* IO operation failures */
367 
368 	{ "etm_xport_wr_fail", FMD_TYPE_UINT64,
369 		"xport write failures" },
370 	{ "etm_xport_rd_fail", FMD_TYPE_UINT64,
371 		"xport read failures" },
372 	{ "etm_xport_pk_fail", FMD_TYPE_UINT64,
373 		"xport peek failures" },
374 
375 	/* IO operation retries */
376 
377 	{ "etm_xport_wr_retry", FMD_TYPE_UINT64,
378 		"xport write retries" },
379 	{ "etm_xport_rd_retry", FMD_TYPE_UINT64,
380 		"xport read retries" },
381 	{ "etm_xport_pk_retry", FMD_TYPE_UINT64,
382 		"xport peek retries" },
383 
384 	/* system and library failures */
385 
386 	{ "etm_os_nvlist_pack_fail", FMD_TYPE_UINT64,
387 		"nvlist_pack failures" },
388 	{ "etm_os_nvlist_unpack_fail", FMD_TYPE_UINT64,
389 		"nvlist_unpack failures" },
390 	{ "etm_os_nvlist_size_fail", FMD_TYPE_UINT64,
391 		"nvlist_size failures" },
392 	{ "etm_os_pthread_create_fail", FMD_TYPE_UINT64,
393 		"pthread_create failures" },
394 
395 	/* transport API failures */
396 
397 	{ "etm_xport_get_ev_addrv_fail", FMD_TYPE_UINT64,
398 		"xport get event addrv API failures" },
399 	{ "etm_xport_open_fail", FMD_TYPE_UINT64,
400 		"xport open API failures" },
401 	{ "etm_xport_close_fail", FMD_TYPE_UINT64,
402 		"xport close API failures" },
403 	{ "etm_xport_accept_fail", FMD_TYPE_UINT64,
404 		"xport accept API failures" },
405 	{ "etm_xport_open_retry", FMD_TYPE_UINT64,
406 		"xport open API retries" },
407 
408 	/* FMD entry point bad arguments */
409 
410 	{ "etm_fmd_recv_badargs", FMD_TYPE_UINT64,
411 		"bad arguments from fmd_recv entry point" },
412 	{ "etm_fmd_init_badargs", FMD_TYPE_UINT64,
413 		"bad arguments from fmd_init entry point" },
414 	{ "etm_fmd_fini_badargs", FMD_TYPE_UINT64,
415 		"bad arguments from fmd_fini entry point" },
416 
417 	/* Alert logging errors */
418 	{ "etm_log_err", FMD_TYPE_UINT64,
419 		"failed to log message to log(7D)" },
420 	{ "etm_msg_err", FMD_TYPE_UINT64,
421 		"failed to log message to sysmsg(7D)" }
422 };
423 
424 /*
425  * -------------------------- support functions ------------------------------
426  */
427 
428 /*
429  * Design_Note:	Each failure worth reporting to FMD should be done using
430  *		a single call to fmd_hdl_error() as it logs an FMA event
431  *		for each call. Also be aware that all the fmd_hdl_*()
432  *		format strings currently use platform specific *printf()
433  *		routines; so "%p" under Solaris does not prepend "0x" to
434  *		the outputted hex digits, while Linux and VxWorks do.
435  */
436 
437 /*
438  * etm_show_time - display the current time of day (for debugging) using
439  *		the given FMD module handle and annotation string
440  */
441 
442 static void
443 etm_show_time(fmd_hdl_t *hdl, char *note_str)
444 {
445 	struct timeval		tmv;		/* timeval */
446 
447 	(void) gettimeofday(&tmv, NULL);
448 	fmd_hdl_debug(hdl, "info: %s: cur Unix Epoch time %d.%06d\n",
449 	    note_str, tmv.tv_sec, tmv.tv_usec);
450 
451 } /* etm_show_time() */
452 
453 /*
454  * etm_hexdump - hexdump the given buffer (for debugging) using
455  *		the given FMD module handle
456  */
457 
458 static void
459 etm_hexdump(fmd_hdl_t *hdl, void *buf, size_t byte_cnt)
460 {
461 	uint8_t		*bp;		/* byte ptr */
462 	int		i, j;		/* index */
463 	char		cb[80];		/* char buf */
464 	unsigned int	n;		/* a byte of data for sprintf() */
465 
466 	bp = buf;
467 	j = 0;
468 
469 	/*
470 	 * Design_Note:	fmd_hdl_debug() auto adds a newline if missing;
471 	 *		hence cb exists to accumulate a longer string.
472 	 */
473 
474 	for (i = 1; i <= byte_cnt; i++) {
475 		n = *bp++;
476 		(void) sprintf(&cb[j], "%2.2x ", n);
477 		j += 3;
478 		/* add a newline every 16 bytes or at the buffer's end */
479 		if (((i % 16) == 0) || (i >= byte_cnt)) {
480 			cb[j-1] = '\0';
481 			fmd_hdl_debug(hdl, "%s\n", cb);
482 			j = 0;
483 		}
484 	} /* for each byte in the buffer */
485 
486 } /* etm_hexdump() */
487 
488 /*
489  * etm_sleep - sleep the caller for the given number of seconds,
490  *		return 0 or -errno value
491  *
492  * Design_Note:	To avoid interfering with FMD's signal mask (SIGALRM)
493  *		do not use [Solaris] sleep(3C) and instead use
494  *		pthread_cond_wait() or nanosleep(), both of which
495  *		are POSIX spec-ed to leave signal masks alone.
496  *		This is needed for Solaris and Linux (domain and SP).
497  */
498 
499 static int
500 etm_sleep(unsigned sleep_sec)
501 {
502 	struct timespec	tms;	/* for nanosleep() */
503 
504 	tms.tv_sec = sleep_sec;
505 	tms.tv_nsec = 0;
506 
507 	if (nanosleep(&tms, NULL) < 0) {
508 		/* errno assumed set by above call */
509 		return (-errno);
510 	}
511 	return (0);
512 
513 } /* etm_sleep() */
514 
515 /*
516  * etm_conn_open - open a connection to the given transport address,
517  *		return 0 and the opened connection handle
518  *		or -errno value
519  *
520  * caveats:	the err_substr is used in failure cases for calling
521  *		fmd_hdl_error()
522  */
523 
524 static int
525 etm_conn_open(fmd_hdl_t *hdl, char *err_substr,
526 		etm_xport_addr_t addr, etm_xport_conn_t *connp)
527 {
528 	etm_xport_conn_t	conn;	/* connection to return */
529 	int			nev;	/* -errno value */
530 
531 	if ((conn = etm_xport_open(hdl, addr)) == NULL) {
532 		nev = (-errno);
533 		fmd_hdl_error(hdl, "error: %s: errno %d\n",
534 					err_substr, errno);
535 		etm_stats.etm_xport_open_fail.fmds_value.ui64++;
536 		return (nev);
537 	} else {
538 		*connp = conn;
539 		return (0);
540 	}
541 } /* etm_conn_open() */
542 
543 /*
544  * etm_conn_close - close the given connection,
545  *		return 0 or -errno value
546  *
547  * caveats:	the err_substr is used in failure cases for calling
548  *		fmd_hdl_error()
549  */
550 
551 static int
552 etm_conn_close(fmd_hdl_t *hdl, char *err_substr, etm_xport_conn_t conn)
553 {
554 	int	nev;	/* -errno value */
555 
556 	if (etm_xport_close(hdl, conn) == NULL) {
557 		nev = (-errno);
558 		fmd_hdl_error(hdl, "warning: %s: errno %d\n",
559 					err_substr, errno);
560 		etm_stats.etm_xport_close_fail.fmds_value.ui64++;
561 		return (nev);
562 	} else {
563 		return (0);
564 	}
565 } /* etm_conn_close() */
566 
567 /*
568  * etm_io_op - perform an IO operation on the given connection
569  *		with the given buffer,
570  *		accommodating MTU size and retrying op if needed,
571  *		return how many bytes actually done by the op
572  *		or -errno value
573  *
574  * caveats:	the err_substr is used in failure cases for calling
575  *		fmd_hdl_error()
576  */
577 
578 static ssize_t
579 etm_io_op(fmd_hdl_t *hdl, char *err_substr, etm_xport_conn_t conn,
580 				void *buf, size_t byte_cnt, int io_op)
581 {
582 	ssize_t		rv;		/* ret val / byte count */
583 	ssize_t		n;		/* gen use */
584 	uint8_t		*datap;		/* ptr to data */
585 	size_t		mtu_sz;		/* MTU size in bytes */
586 	int		(*io_func_ptr)(fmd_hdl_t *, etm_xport_conn_t,
587 							void *, size_t);
588 	size_t		io_sz;		/* byte count for io_func_ptr */
589 	int		try_cnt;	/* number of tries done */
590 	int		sleep_sec;	/* exp backoff sleep period in sec */
591 	int		sleep_rv;	/* ret val from sleeping */
592 	fmd_stat_t	io_retry_stat;	/* IO retry stat to update */
593 	fmd_stat_t	io_fail_stat;	/* IO failure stat to update */
594 
595 	if ((conn == NULL) || (buf == NULL)) {
596 		return (-EINVAL);
597 	}
598 	switch (io_op) {
599 		case ETM_IO_OP_RD:
600 			io_func_ptr = etm_xport_read;
601 			io_retry_stat = etm_stats.etm_xport_rd_retry;
602 			io_fail_stat = etm_stats.etm_xport_rd_fail;
603 			break;
604 		case ETM_IO_OP_WR:
605 			io_func_ptr = etm_xport_write;
606 			io_retry_stat = etm_stats.etm_xport_wr_retry;
607 			io_fail_stat = etm_stats.etm_xport_wr_fail;
608 			break;
609 		default:
610 			return (-EINVAL);
611 	}
612 	if (byte_cnt == 0) {
613 		return (byte_cnt);	/* nop */
614 	}
615 
616 	/* obtain [current] MTU size */
617 
618 	if ((n = etm_xport_get_opt(hdl, conn, ETM_XPORT_OPT_MTU_SZ)) < 0) {
619 		mtu_sz = ETM_XPORT_MTU_SZ_DEF;
620 	} else {
621 		mtu_sz = n;
622 	}
623 
624 	/* loop until all IO done, try limit exceeded, or real failure */
625 
626 	rv = 0;
627 	datap = buf;
628 	while (rv < byte_cnt) {
629 		io_sz = MIN((byte_cnt - rv), mtu_sz);
630 		try_cnt = 0;
631 		sleep_sec = 0;
632 
633 		/* when give up, return -errno value even if partly done */
634 
635 		while ((n = (*io_func_ptr)(hdl, conn, datap, io_sz)) ==
636 								(-EAGAIN)) {
637 			try_cnt++;
638 			if (try_cnt > ETM_TRY_MAX_CNT) {
639 				rv = n;
640 				goto func_ret;
641 			}
642 			if (etm_is_dying) {
643 				rv = (-EINTR);
644 				goto func_ret;
645 			}
646 			if ((sleep_rv = etm_sleep(sleep_sec)) < 0) {
647 				rv = sleep_rv;
648 				goto func_ret;
649 			}
650 			sleep_sec = ((sleep_sec == 0) ? 1 :
651 					(sleep_sec * ETM_TRY_BACKOFF_RATE));
652 			sleep_sec = MIN(sleep_sec, ETM_TRY_BACKOFF_CAP);
653 			io_retry_stat.fmds_value.ui64++;
654 			if (etm_debug_lvl >= 1) {
655 				fmd_hdl_debug(hdl, "info: retrying io op %d "
656 						"due to EAGAIN\n", io_op);
657 			}
658 		} /* while trying the io operation */
659 
660 		if (etm_is_dying) {
661 			rv = (-EINTR);
662 			goto func_ret;
663 		}
664 		if (n < 0) {
665 			rv = n;
666 			goto func_ret;
667 		}
668 		/* avoid spinning CPU when given 0 bytes but no error */
669 		if (n == 0) {
670 			if ((sleep_rv = etm_sleep(ETM_SLEEP_QUIK)) < 0) {
671 				rv = sleep_rv;
672 				goto func_ret;
673 			}
674 		}
675 		rv += n;
676 		datap += n;
677 	} /* while still have more data */
678 
679 func_ret:
680 
681 	if (rv < 0) {
682 		io_fail_stat.fmds_value.ui64++;
683 		fmd_hdl_error(hdl, "error: %s: errno %d\n",
684 					err_substr, (int)(-rv));
685 	}
686 	if (etm_debug_lvl >= 3) {
687 		fmd_hdl_debug(hdl, "info: io op %d ret %d of %d\n",
688 					io_op, (int)rv, (int)byte_cnt);
689 	}
690 	return (rv);
691 
692 } /* etm_io_op() */
693 
694 /*
695  * etm_magic_read - read the magic number of an ETM message header
696  *		from the given connection into the given buffer,
697  *		return 0 or -errno value
698  *
699  * Design_Note:	This routine is intended to help protect ETM from protocol
700  *		framing errors as might be caused by an SP reset / crash in
701  *		the middle of an ETM message send; the connection will be
702  *		read from for as many bytes as needed until the magic number
703  *		is found using a sliding buffer for comparisons.
704  */
705 
706 static int
707 etm_magic_read(fmd_hdl_t *hdl, etm_xport_conn_t conn, uint32_t *magic_ptr)
708 {
709 	int		rv;		/* ret val */
710 	uint32_t	magic_num;	/* magic number */
711 	int		byte_cnt;	/* count of bytes read */
712 	uint8_t		buf5[4+1];	/* sliding input buffer */
713 	int		i, j;		/* indices into buf5 */
714 	ssize_t		n;		/* gen use */
715 	uint8_t		drop_buf[1024];	/* dropped bytes buffer */
716 
717 	rv = 0;		/* assume success */
718 	magic_num = 0;
719 	byte_cnt = 0;
720 	j = 0;
721 
722 	/* magic number bytes are sent in network (big endian) order */
723 
724 	while (magic_num != ETM_PROTO_MAGIC_NUM) {
725 		if ((n = etm_io_op(hdl, "bad io read on magic",
726 				conn, &buf5[j], 1, ETM_IO_OP_RD)) < 0) {
727 			rv = n;
728 			goto func_ret;
729 		}
730 		byte_cnt++;
731 		j = MIN((j + 1), sizeof (magic_num));
732 		if (byte_cnt < sizeof (magic_num)) {
733 			continue;
734 		}
735 
736 		if (byte_cnt > sizeof (magic_num)) {
737 			etm_stats.etm_magic_drop_bytes.fmds_value.ui64++;
738 			i = MIN(byte_cnt - j - 1, sizeof (drop_buf) - 1);
739 			drop_buf[i] = buf5[0];
740 			for (i = 0; i < j; i++) {
741 				buf5[i] = buf5[i+1];
742 			} /* for sliding the buffer contents */
743 		}
744 		(void) memcpy(&magic_num, &buf5[0], sizeof (magic_num));
745 		magic_num = ntohl(magic_num);
746 	} /* for reading bytes until find magic number */
747 
748 func_ret:
749 
750 	if (byte_cnt != sizeof (magic_num)) {
751 		fmd_hdl_error(hdl, "warning: bad proto frame "
752 				"implies corrupt/lost msg(s)\n");
753 	}
754 	if ((byte_cnt > sizeof (magic_num)) && (etm_debug_lvl >= 2)) {
755 		i = MIN(byte_cnt - sizeof (magic_num), sizeof (drop_buf));
756 		fmd_hdl_debug(hdl, "info: magic drop hexdump "
757 				"first %d of %d bytes:\n",
758 				i, byte_cnt - sizeof (magic_num));
759 		etm_hexdump(hdl, drop_buf, i);
760 	}
761 
762 	if (rv == 0) {
763 		*magic_ptr = magic_num;
764 	}
765 	return (rv);
766 
767 } /* etm_magic_read() */
768 
769 /*
770  * etm_hdr_read - allocate, read, and validate a [variable sized]
771  *		ETM message header from the given connection,
772  *		return the allocated ETM message header
773  *		(which is guaranteed to be large enough to reuse as a
774  *		RESPONSE msg hdr) and its size
775  *		or NULL and set errno on failure
776  */
777 
778 static void *
779 etm_hdr_read(fmd_hdl_t *hdl, etm_xport_conn_t conn, size_t *szp)
780 {
781 	uint8_t			*hdrp;		/* ptr to header to return */
782 	size_t			hdr_sz;		/* sizeof *hdrp */
783 	etm_proto_v1_pp_t	pp; 		/* protocol preamble */
784 	etm_proto_v1_ev_hdr_t	*ev_hdrp;	/* for FMA_EVENT msg */
785 	etm_proto_v1_ctl_hdr_t	*ctl_hdrp;	/* for CONTROL msg */
786 	etm_proto_v1_resp_hdr_t *resp_hdrp;	/* for RESPONSE msg */
787 	etm_proto_v3_sa_hdr_t	*sa_hdrp;	/* for ALERT msg */
788 	uint32_t		*lenp;		/* ptr to FMA event length */
789 	ssize_t			i, n;		/* gen use */
790 	uint8_t	misc_buf[ETM_MISC_BUF_SZ];	/* for var sized hdrs */
791 	int			dummy_int;	/* dummy var to appease lint */
792 
793 	hdrp = NULL; hdr_sz = 0;
794 
795 	/* read the magic number which starts the protocol preamble */
796 
797 	if ((n = etm_magic_read(hdl, conn, &pp.pp_magic_num)) < 0) {
798 		errno = (-n);
799 		etm_stats.etm_magic_bad.fmds_value.ui64++;
800 		return (NULL);
801 	}
802 
803 	/* read the rest of the protocol preamble all at once */
804 
805 	if ((n = etm_io_op(hdl, "bad io read on preamble",
806 				conn, &pp.pp_proto_ver,
807 				sizeof (pp) - sizeof (pp.pp_magic_num),
808 				ETM_IO_OP_RD)) < 0) {
809 		errno = (-n);
810 		return (NULL);
811 	}
812 
813 	/*
814 	 * Design_Note:	The magic number was already network decoded; but
815 	 *		some other preamble fields also need to be decoded,
816 	 *		specifically pp_xid and pp_timeout. The rest of the
817 	 *		preamble fields are byte sized and hence need no
818 	 *		decoding.
819 	 */
820 
821 	pp.pp_xid = ntohl(pp.pp_xid);
822 	pp.pp_timeout = ntohl(pp.pp_timeout);
823 
824 	/* sanity check the header as best we can */
825 
826 	if ((pp.pp_proto_ver < ETM_PROTO_V1) ||
827 	    (pp.pp_proto_ver > ETM_PROTO_V3)) {
828 		fmd_hdl_error(hdl, "error: bad proto ver %d\n",
829 					(int)pp.pp_proto_ver);
830 		errno = EPROTO;
831 		etm_stats.etm_ver_bad.fmds_value.ui64++;
832 		return (NULL);
833 	}
834 
835 	dummy_int = pp.pp_msg_type;
836 	if ((dummy_int <= ETM_MSG_TYPE_TOO_LOW) ||
837 	    (dummy_int >= ETM_MSG_TYPE_TOO_BIG)) {
838 		fmd_hdl_error(hdl, "error: bad msg type %d", dummy_int);
839 		errno = EBADMSG;
840 		etm_stats.etm_msgtype_bad.fmds_value.ui64++;
841 		return (NULL);
842 	}
843 
844 	/* handle [var sized] hdrs for FMA_EVENT, CONTROL, RESPONSE msgs */
845 
846 	if (pp.pp_msg_type == ETM_MSG_TYPE_FMA_EVENT) {
847 
848 		ev_hdrp = (void*)&misc_buf[0];
849 		hdr_sz = sizeof (*ev_hdrp);
850 		(void) memcpy(&ev_hdrp->ev_pp, &pp, sizeof (pp));
851 
852 		/* sanity check the header's timeout */
853 
854 		if ((ev_hdrp->ev_pp.pp_proto_ver == ETM_PROTO_V1) &&
855 		    (ev_hdrp->ev_pp.pp_timeout != ETM_PROTO_V1_TIMEOUT_NONE)) {
856 			errno = ETIME;
857 			etm_stats.etm_timeout_bad.fmds_value.ui64++;
858 			return (NULL);
859 		}
860 
861 		/* get all FMA event lengths from the header */
862 
863 		lenp = (uint32_t *)&ev_hdrp->ev_lens[0]; lenp--;
864 		i = -1;	/* cnt of length entries preceding 0 */
865 		do {
866 			i++; lenp++;
867 			if ((sizeof (*ev_hdrp) + (i * sizeof (*lenp))) >=
868 							ETM_MISC_BUF_SZ) {
869 				errno = E2BIG;	/* ridiculous size */
870 				etm_stats.etm_evlens_bad.fmds_value.ui64++;
871 				return (NULL);
872 			}
873 			if ((n = etm_io_op(hdl, "bad io read on event len",
874 						conn, lenp, sizeof (*lenp),
875 						ETM_IO_OP_RD)) < 0) {
876 				errno = (-n);
877 				return (NULL);
878 			}
879 			*lenp = ntohl(*lenp);
880 
881 		} while (*lenp != 0);
882 		i += 0; /* first len already counted by sizeof(ev_hdr) */
883 		hdr_sz += (i * sizeof (*lenp));
884 
885 		etm_stats.etm_rd_hdr_fmaevent.fmds_value.ui64++;
886 
887 	} else if (pp.pp_msg_type == ETM_MSG_TYPE_CONTROL) {
888 
889 		ctl_hdrp = (void*)&misc_buf[0];
890 		hdr_sz = sizeof (*ctl_hdrp);
891 		(void) memcpy(&ctl_hdrp->ctl_pp, &pp, sizeof (pp));
892 
893 		/* sanity check the header's sub type (control selector) */
894 
895 		if ((ctl_hdrp->ctl_pp.pp_sub_type <= ETM_CTL_SEL_TOO_LOW) ||
896 		    (ctl_hdrp->ctl_pp.pp_sub_type >= ETM_CTL_SEL_TOO_BIG)) {
897 			fmd_hdl_error(hdl, "error: bad ctl sub type %d\n",
898 					(int)ctl_hdrp->ctl_pp.pp_sub_type);
899 			errno = EBADMSG;
900 			etm_stats.etm_subtype_bad.fmds_value.ui64++;
901 			return (NULL);
902 		}
903 
904 		/* get the control length */
905 
906 		if ((n = etm_io_op(hdl, "bad io read on ctl len",
907 					conn, &ctl_hdrp->ctl_len,
908 					sizeof (ctl_hdrp->ctl_len),
909 					ETM_IO_OP_RD)) < 0) {
910 			errno = (-n);
911 			return (NULL);
912 		}
913 
914 		ctl_hdrp->ctl_len = ntohl(ctl_hdrp->ctl_len);
915 
916 		etm_stats.etm_rd_hdr_control.fmds_value.ui64++;
917 
918 	} else if (pp.pp_msg_type == ETM_MSG_TYPE_RESPONSE) {
919 
920 		resp_hdrp = (void*)&misc_buf[0];
921 		hdr_sz = sizeof (*resp_hdrp);
922 		(void) memcpy(&resp_hdrp->resp_pp, &pp, sizeof (pp));
923 
924 		/* sanity check the header's timeout */
925 
926 		if (resp_hdrp->resp_pp.pp_timeout !=
927 						ETM_PROTO_V1_TIMEOUT_NONE) {
928 			errno = ETIME;
929 			etm_stats.etm_timeout_bad.fmds_value.ui64++;
930 			return (NULL);
931 		}
932 
933 		/* get the response code and length */
934 
935 		if ((n = etm_io_op(hdl, "bad io read on resp code+len",
936 					conn, &resp_hdrp->resp_code,
937 					sizeof (resp_hdrp->resp_code) +
938 					sizeof (resp_hdrp->resp_len),
939 					ETM_IO_OP_RD)) < 0) {
940 			errno = (-n);
941 			return (NULL);
942 		}
943 
944 		resp_hdrp->resp_code = ntohl(resp_hdrp->resp_code);
945 		resp_hdrp->resp_len = ntohl(resp_hdrp->resp_len);
946 
947 		etm_stats.etm_rd_hdr_response.fmds_value.ui64++;
948 
949 	} else if (pp.pp_msg_type == ETM_MSG_TYPE_ALERT) {
950 
951 		sa_hdrp = (void*)&misc_buf[0];
952 		hdr_sz = sizeof (*sa_hdrp);
953 		(void) memcpy(&sa_hdrp->sa_pp, &pp, sizeof (pp));
954 
955 		/* sanity check the header's protocol version */
956 
957 		if (sa_hdrp->sa_pp.pp_proto_ver != ETM_PROTO_V3) {
958 			errno = EPROTO;
959 			etm_stats.etm_ver_bad.fmds_value.ui64++;
960 			return (NULL);
961 		}
962 
963 		/* get the priority and length */
964 
965 		if ((n = etm_io_op(hdl, "bad io read on sa priority+len",
966 					conn, &sa_hdrp->sa_priority,
967 					sizeof (sa_hdrp->sa_priority) +
968 					sizeof (sa_hdrp->sa_len),
969 					ETM_IO_OP_RD)) < 0) {
970 			errno = (-n);
971 			return (NULL);
972 		}
973 
974 		sa_hdrp->sa_priority = ntohl(sa_hdrp->sa_priority);
975 		sa_hdrp->sa_len = ntohl(sa_hdrp->sa_len);
976 
977 		etm_stats.etm_rd_hdr_alert.fmds_value.ui64++;
978 
979 	} /* whether we have FMA_EVENT, ALERT, CONTROL, or RESPONSE msg */
980 
981 	/*
982 	 * choose a header size that allows hdr reuse for RESPONSE msgs,
983 	 * allocate and populate the message header, and
984 	 * return alloc size to caller for later free of hdrp
985 	 */
986 
987 	hdr_sz = MAX(hdr_sz, sizeof (*resp_hdrp));
988 	hdrp = fmd_hdl_zalloc(hdl, hdr_sz, FMD_SLEEP);
989 	(void) memcpy(hdrp, misc_buf, hdr_sz);
990 
991 	if (etm_debug_lvl >= 3) {
992 		fmd_hdl_debug(hdl, "info: msg hdr hexdump %d bytes:\n",
993 								hdr_sz);
994 		etm_hexdump(hdl, hdrp, hdr_sz);
995 	}
996 	*szp = hdr_sz;
997 	return (hdrp);
998 
999 } /* etm_hdr_read() */
1000 
1001 /*
1002  * etm_hdr_write - create and write a [variable sized] ETM message header
1003  *		to the given connection appropriate for the given FMA event
1004  *		and type of nvlist encoding,
1005  *		return the allocated ETM message header and its size
1006  *		or NULL and set errno on failure
1007  */
1008 
1009 static void*
1010 etm_hdr_write(fmd_hdl_t *hdl, etm_xport_conn_t conn, nvlist_t *evp,
1011 						int encoding, size_t *szp)
1012 {
1013 	etm_proto_v1_ev_hdr_t	*hdrp;		/* for FMA_EVENT msg */
1014 	size_t			hdr_sz;		/* sizeof *hdrp */
1015 	uint32_t		*lenp;		/* ptr to FMA event length */
1016 	size_t			evsz;		/* packed FMA event size */
1017 	ssize_t			n;		/* gen use */
1018 
1019 	/* allocate and populate the message header for 1 FMA event */
1020 
1021 	hdr_sz = sizeof (*hdrp) + (1 * sizeof (hdrp->ev_lens[0]));
1022 
1023 	hdrp = fmd_hdl_zalloc(hdl, hdr_sz, FMD_SLEEP);
1024 
1025 	/*
1026 	 * Design_Note: Although the ETM protocol supports it, we do not (yet)
1027 	 *		want responses/ACKs on FMA events that we send. All
1028 	 *		such messages are sent with ETM_PROTO_V1_TIMEOUT_NONE.
1029 	 */
1030 
1031 	hdrp->ev_pp.pp_magic_num = ETM_PROTO_MAGIC_NUM;
1032 	hdrp->ev_pp.pp_magic_num = htonl(hdrp->ev_pp.pp_magic_num);
1033 	hdrp->ev_pp.pp_proto_ver = ETM_PROTO_V1;
1034 	hdrp->ev_pp.pp_msg_type = ETM_MSG_TYPE_FMA_EVENT;
1035 	hdrp->ev_pp.pp_sub_type = 0;
1036 	hdrp->ev_pp.pp_rsvd_pad = 0;
1037 	hdrp->ev_pp.pp_xid = etm_xid_cur;
1038 	hdrp->ev_pp.pp_xid = htonl(hdrp->ev_pp.pp_xid);
1039 	etm_xid_cur += ETM_XID_INC;
1040 	hdrp->ev_pp.pp_timeout = ETM_PROTO_V1_TIMEOUT_NONE;
1041 	hdrp->ev_pp.pp_timeout = htonl(hdrp->ev_pp.pp_timeout);
1042 
1043 	lenp = &hdrp->ev_lens[0];
1044 
1045 	if ((n = nvlist_size(evp, &evsz, encoding)) != 0) {
1046 		errno = n;
1047 		fmd_hdl_free(hdl, hdrp, hdr_sz);
1048 		etm_stats.etm_os_nvlist_size_fail.fmds_value.ui64++;
1049 		return (NULL);
1050 	}
1051 
1052 	/* indicate 1 FMA event, network encode its length, and 0-terminate */
1053 
1054 	*lenp = evsz; *lenp = htonl(*lenp); lenp++;
1055 	*lenp = 0; *lenp = htonl(*lenp); lenp++;
1056 
1057 	/*
1058 	 * write the network encoded header to the transport, and
1059 	 * return alloc size to caller for later free
1060 	 */
1061 
1062 	if ((n = etm_io_op(hdl, "bad io write on event hdr",
1063 				conn, hdrp, hdr_sz, ETM_IO_OP_WR)) < 0) {
1064 		errno = (-n);
1065 		fmd_hdl_free(hdl, hdrp, hdr_sz);
1066 		return (NULL);
1067 	}
1068 
1069 	*szp = hdr_sz;
1070 	return (hdrp);
1071 
1072 } /* etm_hdr_write() */
1073 
1074 /*
1075  * etm_post_to_fmd - post the given FMA event to FMD
1076  *			via a FMD transport API call,
1077  *			return 0 or -errno value
1078  *
1079  * caveats:	the FMA event (evp) is freed by FMD,
1080  *		thus callers of this function should
1081  *		immediately discard any ptr they have to the
1082  *		nvlist without freeing or dereferencing it
1083  */
1084 
1085 static int
1086 etm_post_to_fmd(fmd_hdl_t *hdl, nvlist_t *evp)
1087 {
1088 	ssize_t			ev_sz;		/* sizeof *evp */
1089 
1090 	(void) nvlist_size(evp, (size_t *)&ev_sz, NV_ENCODE_XDR);
1091 
1092 	if (etm_debug_lvl >= 2) {
1093 		etm_show_time(hdl, "ante ev post");
1094 	}
1095 	fmd_xprt_post(hdl, etm_fmd_xprt, evp, 0);
1096 	etm_stats.etm_wr_fmd_fmaevent.fmds_value.ui64++;
1097 	etm_stats.etm_wr_fmd_bytes.fmds_value.ui64 += ev_sz;
1098 	if (etm_debug_lvl >= 1) {
1099 		fmd_hdl_debug(hdl, "info: event %p post ok to FMD\n", evp);
1100 	}
1101 	if (etm_debug_lvl >= 2) {
1102 		etm_show_time(hdl, "post ev post");
1103 	}
1104 	return (0);
1105 
1106 } /* etm_post_to_fmd() */
1107 
1108 /*
1109  * Ideally we would just use syslog(3C) for outputting our messages.
1110  * Unfortunately, as this module is running within the FMA daemon context,
1111  * that would create the situation where this module's openlog() would
1112  * have the monopoly on syslog(3C) for the daemon and all its modules.
1113  * To avoid that situation, this module uses the same logic as the
1114  * syslog-msgs FM module to directly call into the log(7D) and sysmsg(7D)
1115  * devices for syslog and console.
1116  */
1117 
1118 static int
1119 etm_post_to_syslog(fmd_hdl_t *hdl, uint32_t priority, uint32_t body_sz,
1120 							uint8_t *body_buf)
1121 {
1122 	char		*sysmessage;	/* Formatted message */
1123 	size_t		formatlen;	/* maximum length of sysmessage */
1124 	struct strbuf	ctl, dat;	/* structs pushed to the logfd */
1125 	uint32_t	msgid;		/* syslog message ID number */
1126 
1127 	if ((syslog_file == 0) && (syslog_cons == 0)) {
1128 		return (0);
1129 	}
1130 
1131 	if (etm_debug_lvl >= 2) {
1132 		etm_show_time(hdl, "ante syslog post");
1133 	}
1134 
1135 	formatlen = body_sz + 64; /* +64 for prefix strings added below */
1136 	sysmessage = fmd_hdl_zalloc(hdl, formatlen, FMD_SLEEP);
1137 
1138 	if (syslog_file) {
1139 		STRLOG_MAKE_MSGID(body_buf, msgid);
1140 		(void) snprintf(sysmessage, formatlen,
1141 		    "SC Alert: [ID %u FACILITY_AND_PRIORITY] %s", msgid,
1142 		    body_buf);
1143 
1144 		syslog_ctl.pri = syslog_facility | priority;
1145 
1146 		ctl.buf = (void *)&syslog_ctl;
1147 		ctl.len = sizeof (syslog_ctl);
1148 
1149 		dat.buf = sysmessage;
1150 		dat.len = strlen(sysmessage) + 1;
1151 
1152 		if (putmsg(syslog_logfd, &ctl, &dat, 0) != 0) {
1153 			fmd_hdl_debug(hdl, "putmsg failed: %s\n",
1154 			    strerror(errno));
1155 			etm_stats.etm_log_err.fmds_value.ui64++;
1156 		}
1157 	}
1158 
1159 	if (syslog_cons) {
1160 		(void) snprintf(sysmessage, formatlen,
1161 		    "SC Alert: %s\r\n", body_buf);
1162 
1163 		dat.buf = sysmessage;
1164 		dat.len = strlen(sysmessage) + 1;
1165 
1166 		if (write(syslog_msgfd, dat.buf, dat.len) != dat.len) {
1167 			fmd_hdl_debug(hdl, "write failed: %s\n",
1168 			    strerror(errno));
1169 			etm_stats.etm_msg_err.fmds_value.ui64++;
1170 		}
1171 	}
1172 
1173 	fmd_hdl_free(hdl, sysmessage, formatlen);
1174 
1175 	if (etm_debug_lvl >= 2) {
1176 		etm_show_time(hdl, "post syslog post");
1177 	}
1178 
1179 	return (0);
1180 }
1181 
1182 
1183 /*
1184  * etm_req_ver_negot - send an ETM control message to the other end requesting
1185  *			that the ETM protocol version be negotiated/set
1186  */
1187 
1188 static void
1189 etm_req_ver_negot(fmd_hdl_t *hdl)
1190 {
1191 	etm_xport_addr_t	*addrv;		/* default dst addr(s) */
1192 	etm_xport_conn_t	conn;		/* connection to other end */
1193 	etm_proto_v1_ctl_hdr_t	*ctl_hdrp;	/* for CONTROL msg */
1194 	size_t			hdr_sz;		/* sizeof header */
1195 	uint8_t			*body_buf;	/* msg body buffer */
1196 	uint32_t		body_sz;	/* sizeof *body_buf */
1197 	ssize_t			i;		/* gen use */
1198 
1199 	/* populate an ETM control msg to send */
1200 
1201 	hdr_sz = sizeof (*ctl_hdrp);
1202 	body_sz = (3 + 1);		/* version bytes plus null byte */
1203 
1204 	ctl_hdrp = fmd_hdl_zalloc(hdl, hdr_sz + body_sz, FMD_SLEEP);
1205 
1206 	ctl_hdrp->ctl_pp.pp_magic_num = htonl(ETM_PROTO_MAGIC_NUM);
1207 	ctl_hdrp->ctl_pp.pp_proto_ver = ETM_PROTO_V1;
1208 	ctl_hdrp->ctl_pp.pp_msg_type = ETM_MSG_TYPE_CONTROL;
1209 	ctl_hdrp->ctl_pp.pp_sub_type = ETM_CTL_SEL_VER_NEGOT_REQ;
1210 	ctl_hdrp->ctl_pp.pp_rsvd_pad = 0;
1211 	etm_xid_ver_negot = etm_xid_cur;
1212 	etm_xid_cur += ETM_XID_INC;
1213 	ctl_hdrp->ctl_pp.pp_xid = htonl(etm_xid_ver_negot);
1214 	ctl_hdrp->ctl_pp.pp_timeout = htonl(ETM_PROTO_V1_TIMEOUT_FOREVER);
1215 	ctl_hdrp->ctl_len = htonl(body_sz);
1216 
1217 	body_buf = (void*)&ctl_hdrp->ctl_len;
1218 	body_buf += sizeof (ctl_hdrp->ctl_len);
1219 	*body_buf++ = ETM_PROTO_V3;
1220 	*body_buf++ = ETM_PROTO_V2;
1221 	*body_buf++ = ETM_PROTO_V1;
1222 	*body_buf++ = '\0';
1223 
1224 	/*
1225 	 * open and close a connection to send the ETM control msg
1226 	 * to any/all of the default dst addrs
1227 	 */
1228 
1229 	if ((addrv = etm_xport_get_ev_addrv(hdl, NULL)) == NULL) {
1230 		fmd_hdl_error(hdl,
1231 			"error: bad ctl dst addrs errno %d\n", errno);
1232 		etm_stats.etm_xport_get_ev_addrv_fail.fmds_value.ui64++;
1233 		goto func_ret;
1234 	}
1235 
1236 	for (i = 0; addrv[i] != NULL; i++) {
1237 
1238 		etm_stats.etm_xport_open_fail.fmds_value.ui64++;
1239 		if (etm_conn_open(hdl, "bad conn open during ver negot",
1240 					addrv[i], &conn) < 0) {
1241 			continue;
1242 		}
1243 		if (etm_io_op(hdl, "bad io write on ctl hdr+body",
1244 					conn, ctl_hdrp, hdr_sz + body_sz,
1245 					ETM_IO_OP_WR) >= 0) {
1246 			etm_stats.etm_wr_hdr_control.fmds_value.ui64++;
1247 			etm_stats.etm_wr_body_control.fmds_value.ui64++;
1248 		}
1249 		(void) etm_conn_close(hdl, "bad conn close during ver negot",
1250 									conn);
1251 
1252 	} /* foreach dst addr */
1253 
1254 func_ret:
1255 
1256 	if (addrv != NULL) {
1257 		etm_xport_free_addrv(hdl, addrv);
1258 	}
1259 	fmd_hdl_free(hdl, ctl_hdrp, hdr_sz + body_sz);
1260 
1261 } /* etm_req_ver_negot() */
1262 
1263 /*
1264  * Design_Note:	We rely on the fact that all message types have
1265  *		a common protocol preamble; if this fact should
1266  *		ever change it may break the code below. We also
1267  *		rely on the fact that FMA_EVENT and CONTROL headers
1268  *		returned will be sized large enough to reuse them
1269  *		as RESPONSE headers if the remote endpt asked
1270  *		for a response via the pp_timeout field.
1271  */
1272 
1273 /*
1274  * etm_maybe_send_response - check the given message header to see
1275  *				whether a response has been requested,
1276  *				if so then send an appropriate response
1277  *				back on the given connection using the
1278  *				given response code,
1279  *				return 0 or -errno value
1280  */
1281 
1282 static ssize_t
1283 etm_maybe_send_response(fmd_hdl_t *hdl, etm_xport_conn_t conn,
1284     void *hdrp, int32_t resp_code)
1285 {
1286 	ssize_t			rv;		/* ret val */
1287 	etm_proto_v1_pp_t	*ppp;		/* protocol preamble ptr */
1288 	etm_proto_v1_resp_hdr_t *resp_hdrp;	/* for RESPONSE msg */
1289 	uint8_t			resp_body[4];	/* response body if needed */
1290 	uint8_t			*resp_msg;	/* response hdr+body */
1291 	size_t			hdr_sz;		/* sizeof response hdr */
1292 	uint8_t			orig_msg_type;	/* orig hdr's message type */
1293 	uint32_t		orig_timeout;	/* orig hdr's timeout */
1294 	ssize_t			n;		/* gen use */
1295 
1296 	rv = 0;		/* default is success */
1297 	ppp = hdrp;
1298 	orig_msg_type = ppp->pp_msg_type;
1299 	orig_timeout = ppp->pp_timeout;
1300 
1301 	/* bail out now if no response is to be sent */
1302 
1303 	if (orig_timeout == ETM_PROTO_V1_TIMEOUT_NONE) {
1304 		return (0);
1305 	} /* if a nop */
1306 
1307 	if ((orig_msg_type != ETM_MSG_TYPE_FMA_EVENT) &&
1308 	    (orig_msg_type != ETM_MSG_TYPE_ALERT) &&
1309 	    (orig_msg_type != ETM_MSG_TYPE_CONTROL)) {
1310 		return (-EINVAL);
1311 	} /* if inappropriate hdr for a response msg */
1312 
1313 	/* reuse the given header as a response header */
1314 
1315 	if (etm_debug_lvl >= 2) {
1316 		etm_show_time(hdl, "ante resp send");
1317 	}
1318 
1319 	resp_hdrp = hdrp;
1320 	resp_hdrp->resp_code = resp_code;
1321 	resp_hdrp->resp_len = 0;		/* default is empty body */
1322 
1323 	if ((orig_msg_type == ETM_MSG_TYPE_CONTROL) &&
1324 	    (ppp->pp_sub_type == ETM_CTL_SEL_VER_NEGOT_REQ)) {
1325 		resp_body[0] = ETM_PROTO_V2;
1326 		resp_body[1] = ETM_PROTO_V3;
1327 		resp_body[2] = 0;
1328 		resp_hdrp->resp_len = 3;
1329 	} /* if should send our/negotiated proto ver in resp body */
1330 
1331 	/* respond with the proto ver that was negotiated */
1332 
1333 	resp_hdrp->resp_pp.pp_proto_ver = etm_resp_ver;
1334 	resp_hdrp->resp_pp.pp_msg_type = ETM_MSG_TYPE_RESPONSE;
1335 	resp_hdrp->resp_pp.pp_timeout = ETM_PROTO_V1_TIMEOUT_NONE;
1336 
1337 	/*
1338 	 * send the whole response msg in one write, header and body;
1339 	 * avoid the alloc-and-copy if we can reuse the hdr as the msg,
1340 	 * ie, if the body is empty
1341 	 *
1342 	 * update stats and note the xid associated with last ACKed FMA_EVENT
1343 	 * known to be successfully posted to FMD to aid duplicate filtering
1344 	 */
1345 
1346 	hdr_sz = sizeof (etm_proto_v1_resp_hdr_t);
1347 
1348 	resp_msg = hdrp;
1349 	if (resp_hdrp->resp_len > 0) {
1350 		resp_msg = fmd_hdl_zalloc(hdl, hdr_sz + resp_hdrp->resp_len,
1351 		    FMD_SLEEP);
1352 		(void) memcpy(resp_msg, resp_hdrp, hdr_sz);
1353 		(void) memcpy(resp_msg + hdr_sz, resp_body,
1354 		    resp_hdrp->resp_len);
1355 	}
1356 
1357 	if ((n = etm_io_op(hdl, "bad io write on resp msg", conn,
1358 	    resp_msg, hdr_sz + resp_hdrp->resp_len, ETM_IO_OP_WR)) < 0) {
1359 		rv = n;
1360 		goto func_ret;
1361 	}
1362 
1363 	etm_stats.etm_wr_hdr_response.fmds_value.ui64++;
1364 	etm_stats.etm_wr_body_response.fmds_value.ui64++;
1365 
1366 	if ((orig_msg_type == ETM_MSG_TYPE_FMA_EVENT) &&
1367 	    (resp_code >= 0)) {
1368 		etm_xid_posted_ev = resp_hdrp->resp_pp.pp_xid;
1369 	}
1370 
1371 	fmd_hdl_debug(hdl, "info: sent V%u RESPONSE msg to xport "
1372 	    "xid 0x%x code %d len %u\n",
1373 	    (unsigned int)resp_hdrp->resp_pp.pp_proto_ver,
1374 	    resp_hdrp->resp_pp.pp_xid, resp_hdrp->resp_code,
1375 	    resp_hdrp->resp_len);
1376 func_ret:
1377 
1378 	if (resp_hdrp->resp_len > 0) {
1379 		fmd_hdl_free(hdl, resp_msg, hdr_sz + resp_hdrp->resp_len);
1380 	}
1381 	if (etm_debug_lvl >= 2) {
1382 		etm_show_time(hdl, "post resp send");
1383 	}
1384 	return (rv);
1385 
1386 } /* etm_maybe_send_response() */
1387 
1388 /*
1389  * etm_handle_new_conn - receive an ETM message sent from the other end via
1390  *			the given open connection, pull out any FMA events
1391  *			and post them to the local FMD (or handle any ETM
1392  *			control or response msg); when done, close the
1393  *			connection
1394  */
1395 
1396 static void
1397 etm_handle_new_conn(fmd_hdl_t *hdl, etm_xport_conn_t conn)
1398 {
1399 	etm_proto_v1_ev_hdr_t	*ev_hdrp;	/* for FMA_EVENT msg */
1400 	etm_proto_v1_ctl_hdr_t	*ctl_hdrp;	/* for CONTROL msg */
1401 	etm_proto_v1_resp_hdr_t *resp_hdrp;	/* for RESPONSE msg */
1402 	etm_proto_v3_sa_hdr_t	*sa_hdrp;	/* for ALERT msg */
1403 	int32_t			resp_code;	/* response code */
1404 	size_t			hdr_sz;		/* sizeof header */
1405 	uint8_t			*body_buf;	/* msg body buffer */
1406 	uint32_t		body_sz;	/* sizeof body_buf */
1407 	uint32_t		ev_cnt;		/* count of FMA events */
1408 	uint8_t			*bp;		/* byte ptr within body_buf */
1409 	nvlist_t		*evp;		/* ptr to unpacked FMA event */
1410 	char			*class;		/* FMA event class */
1411 	ssize_t			i, n;		/* gen use */
1412 
1413 	if (etm_debug_lvl >= 2) {
1414 		etm_show_time(hdl, "ante conn handle");
1415 	}
1416 	fmd_hdl_debug(hdl, "info: handling new conn %p\n", conn);
1417 
1418 	ev_hdrp = NULL;
1419 	ctl_hdrp = NULL;
1420 	resp_hdrp = NULL;
1421 	sa_hdrp = NULL;
1422 	body_buf = NULL;
1423 	class = NULL;
1424 	evp = NULL;
1425 	resp_code = 0;	/* default is success */
1426 
1427 	/* read a network decoded message header from the connection */
1428 
1429 	if ((ev_hdrp = etm_hdr_read(hdl, conn, &hdr_sz)) == NULL) {
1430 		/* errno assumed set by above call */
1431 		fmd_hdl_error(hdl, "error: FMA event dropped: "
1432 					"bad hdr read errno %d\n", errno);
1433 		etm_stats.etm_rd_drop_fmaevent.fmds_value.ui64++;
1434 		goto func_ret;
1435 	}
1436 
1437 	/*
1438 	 * handle the message based on its preamble pp_msg_type
1439 	 * which is known to be valid from etm_hdr_read() checks
1440 	 */
1441 
1442 	if (ev_hdrp->ev_pp.pp_msg_type == ETM_MSG_TYPE_FMA_EVENT) {
1443 
1444 		fmd_hdl_debug(hdl, "info: rcvd FMA_EVENT msg from xport\n");
1445 
1446 		/* allocate buf large enough for whole body / all FMA events */
1447 
1448 		body_sz = 0;
1449 		for (i = 0; ev_hdrp->ev_lens[i] != 0; i++) {
1450 			body_sz += ev_hdrp->ev_lens[i];
1451 		} /* for summing sizes of all FMA events */
1452 		ev_cnt = i;
1453 
1454 		if (etm_debug_lvl >= 1) {
1455 			fmd_hdl_debug(hdl, "info: event lengths %u sum %u\n",
1456 			    ev_cnt, body_sz);
1457 		}
1458 
1459 		body_buf = fmd_hdl_zalloc(hdl, body_sz, FMD_SLEEP);
1460 
1461 		/* read all the FMA events at once */
1462 
1463 		if ((n = etm_io_op(hdl, "FMA event dropped: "
1464 					"bad io read on event bodies",
1465 					conn, body_buf, body_sz,
1466 					ETM_IO_OP_RD)) < 0) {
1467 			etm_stats.etm_rd_drop_fmaevent.fmds_value.ui64++;
1468 			goto func_ret;
1469 		}
1470 
1471 		etm_stats.etm_rd_xport_bytes.fmds_value.ui64 += body_sz;
1472 		etm_stats.etm_rd_body_fmaevent.fmds_value.ui64 += ev_cnt;
1473 
1474 		/*
1475 		 * check for dup msg/xid against last good response sent,
1476 		 * if a dup then resend response but skip repost to FMD
1477 		 */
1478 
1479 		if (ev_hdrp->ev_pp.pp_xid == etm_xid_posted_ev) {
1480 			(void) etm_maybe_send_response(hdl, conn, ev_hdrp, 0);
1481 			fmd_hdl_debug(hdl, "info: skipping dup FMA event post "
1482 			    "xid 0x%x\n", etm_xid_posted_ev);
1483 			etm_stats.etm_rd_dup_fmaevent.fmds_value.ui64++;
1484 			goto func_ret;
1485 		}
1486 
1487 		/* unpack each FMA event and post it to FMD */
1488 
1489 		bp = body_buf;
1490 		for (i = 0; ev_hdrp->ev_lens[i] != 0; i++) {
1491 			if ((n = nvlist_unpack((char *)bp,
1492 					ev_hdrp->ev_lens[i], &evp, 0)) != 0) {
1493 				resp_code = (-n);
1494 				(void) etm_maybe_send_response(hdl, conn,
1495 				    ev_hdrp, resp_code);
1496 				fmd_hdl_error(hdl, "error: FMA event dropped: "
1497 						"bad event body unpack "
1498 						"errno %d\n", n);
1499 				if (etm_debug_lvl >= 2) {
1500 					fmd_hdl_debug(hdl, "info: FMA event "
1501 						"hexdump %d bytes:\n",
1502 						ev_hdrp->ev_lens[i]);
1503 					etm_hexdump(hdl, bp,
1504 						ev_hdrp->ev_lens[i]);
1505 				}
1506 				etm_stats.etm_os_nvlist_unpack_fail.fmds_value.
1507 					ui64++;
1508 				etm_stats.etm_rd_drop_fmaevent.fmds_value.
1509 					ui64++;
1510 				bp += ev_hdrp->ev_lens[i];
1511 				continue;
1512 			}
1513 			if (etm_debug_lvl >= 1) {
1514 				(void) nvlist_lookup_string(evp, FM_CLASS,
1515 								&class);
1516 				if (class == NULL) {
1517 					class = "NULL";
1518 				}
1519 				fmd_hdl_debug(hdl, "info: FMA event %p "
1520 						"class %s\n", evp, class);
1521 			}
1522 			resp_code = etm_post_to_fmd(hdl, evp);
1523 			evp = NULL;
1524 			(void) etm_maybe_send_response(hdl, conn,
1525 							ev_hdrp, resp_code);
1526 			bp += ev_hdrp->ev_lens[i];
1527 		} /* foreach FMA event in the body buffer */
1528 
1529 	} else if (ev_hdrp->ev_pp.pp_msg_type == ETM_MSG_TYPE_CONTROL) {
1530 
1531 		ctl_hdrp = (void*)ev_hdrp;
1532 
1533 		fmd_hdl_debug(hdl, "info: rcvd CONTROL msg from xport\n");
1534 		if (etm_debug_lvl >= 1) {
1535 			fmd_hdl_debug(hdl, "info: ctl sel %d xid 0x%x\n",
1536 					(int)ctl_hdrp->ctl_pp.pp_sub_type,
1537 					ctl_hdrp->ctl_pp.pp_xid);
1538 		}
1539 
1540 		/*
1541 		 * if we have a VER_NEGOT_REQ read the body and validate
1542 		 * the protocol version set contained therein,
1543 		 * otherwise we have a PING_REQ (which has no body)
1544 		 * and we [also] fall thru to the code which sends a
1545 		 * response msg if the pp_timeout field requested one
1546 		 */
1547 
1548 		if (ctl_hdrp->ctl_pp.pp_sub_type == ETM_CTL_SEL_VER_NEGOT_REQ) {
1549 
1550 			body_sz = ctl_hdrp->ctl_len;
1551 			body_buf = fmd_hdl_zalloc(hdl, body_sz, FMD_SLEEP);
1552 
1553 			if ((n = etm_io_op(hdl, "bad io read on ctl body",
1554 						conn, body_buf, body_sz,
1555 						ETM_IO_OP_RD)) < 0) {
1556 				goto func_ret;
1557 			}
1558 
1559 			/* complain if version set completely incompatible */
1560 
1561 			for (i = 0; i < body_sz; i++) {
1562 				if ((body_buf[i] == ETM_PROTO_V1) ||
1563 				    (body_buf[i] == ETM_PROTO_V2) ||
1564 				    (body_buf[i] == ETM_PROTO_V3)) {
1565 					break;
1566 				}
1567 			}
1568 			if (i >= body_sz) {
1569 				etm_stats.etm_ver_bad.fmds_value.ui64++;
1570 				resp_code = (-EPROTO);
1571 			}
1572 
1573 		} /* if got version set request */
1574 
1575 		etm_stats.etm_rd_body_control.fmds_value.ui64++;
1576 
1577 		(void) etm_maybe_send_response(hdl, conn, ctl_hdrp, resp_code);
1578 
1579 	} else if (ev_hdrp->ev_pp.pp_msg_type == ETM_MSG_TYPE_RESPONSE) {
1580 
1581 		resp_hdrp = (void*)ev_hdrp;
1582 
1583 		fmd_hdl_debug(hdl, "info: rcvd RESPONSE msg from xport\n");
1584 		if (etm_debug_lvl >= 1) {
1585 			fmd_hdl_debug(hdl, "info: resp xid 0x%x\n",
1586 					(int)resp_hdrp->resp_pp.pp_xid);
1587 		}
1588 
1589 		body_sz = resp_hdrp->resp_len;
1590 		body_buf = fmd_hdl_zalloc(hdl, body_sz, FMD_SLEEP);
1591 
1592 		if ((n = etm_io_op(hdl, "bad io read on resp len",
1593 				conn, body_buf, body_sz, ETM_IO_OP_RD)) < 0) {
1594 			goto func_ret;
1595 		}
1596 
1597 		etm_stats.etm_rd_body_response.fmds_value.ui64++;
1598 
1599 		/*
1600 		 * look up the xid to interpret the response body
1601 		 *
1602 		 * ping is a nop; for ver negot confirm that a supported
1603 		 * protocol version was negotiated and remember which one
1604 		 */
1605 
1606 		if ((resp_hdrp->resp_pp.pp_xid != etm_xid_ping) &&
1607 		    (resp_hdrp->resp_pp.pp_xid != etm_xid_ver_negot)) {
1608 			etm_stats.etm_xid_bad.fmds_value.ui64++;
1609 			goto func_ret;
1610 		}
1611 
1612 		if (resp_hdrp->resp_pp.pp_xid == etm_xid_ver_negot) {
1613 			if ((body_buf[0] < ETM_PROTO_V1) ||
1614 			    (body_buf[0] > ETM_PROTO_V3)) {
1615 				etm_stats.etm_ver_bad.fmds_value.ui64++;
1616 				goto func_ret;
1617 			}
1618 			etm_resp_ver = body_buf[0];
1619 		} /* if have resp to last req to negotiate proto ver */
1620 
1621 	} else if (ev_hdrp->ev_pp.pp_msg_type == ETM_MSG_TYPE_ALERT) {
1622 
1623 		sa_hdrp = (void*)ev_hdrp;
1624 
1625 		fmd_hdl_debug(hdl, "info: rcvd ALERT msg from xport\n");
1626 		if (etm_debug_lvl >= 1) {
1627 			fmd_hdl_debug(hdl, "info: sa sel %d xid 0x%x\n",
1628 					(int)sa_hdrp->sa_pp.pp_sub_type,
1629 					sa_hdrp->sa_pp.pp_xid);
1630 		}
1631 
1632 		body_sz = sa_hdrp->sa_len;
1633 		body_buf = fmd_hdl_zalloc(hdl, body_sz, FMD_SLEEP);
1634 
1635 		if ((n = etm_io_op(hdl, "bad io read on sa body",
1636 					conn, body_buf, body_sz,
1637 					ETM_IO_OP_RD)) < 0) {
1638 			goto func_ret;
1639 		}
1640 
1641 		etm_stats.etm_rd_body_alert.fmds_value.ui64++;
1642 
1643 		resp_code = etm_post_to_syslog(hdl, sa_hdrp->sa_priority,
1644 		    body_sz, body_buf);
1645 		(void) etm_maybe_send_response(hdl, conn, sa_hdrp, resp_code);
1646 	} /* whether we have a FMA_EVENT, CONTROL, RESPONSE or ALERT msg */
1647 
1648 func_ret:
1649 
1650 	(void) etm_conn_close(hdl, "bad conn close after msg recv", conn);
1651 
1652 	if (etm_debug_lvl >= 2) {
1653 		etm_show_time(hdl, "post conn handle");
1654 	}
1655 	if (ev_hdrp != NULL) {
1656 		fmd_hdl_free(hdl, ev_hdrp, hdr_sz);
1657 	}
1658 	if (body_buf != NULL) {
1659 		fmd_hdl_free(hdl, body_buf, body_sz);
1660 	}
1661 } /* etm_handle_new_conn() */
1662 
1663 /*
1664  * etm_server - loop forever accepting new connections
1665  *		using the given FMD handle,
1666  *		handling any ETM msgs sent from the other side
1667  *		via each such connection
1668  */
1669 
1670 static void
1671 etm_server(void *arg)
1672 {
1673 	etm_xport_conn_t	conn;		/* connection handle */
1674 	ssize_t			n;		/* gen use */
1675 	fmd_hdl_t		*hdl;		/* FMD handle */
1676 
1677 	hdl = arg;
1678 
1679 	fmd_hdl_debug(hdl, "info: connection server starting\n");
1680 
1681 	while (!etm_is_dying) {
1682 
1683 		if ((conn = etm_xport_accept(hdl, NULL)) == NULL) {
1684 			/* errno assumed set by above call */
1685 			n = errno;
1686 			if (etm_is_dying) {
1687 				break;
1688 			}
1689 			fmd_hdl_debug(hdl,
1690 				"error: bad conn accept errno %d\n", n);
1691 			etm_stats.etm_xport_accept_fail.fmds_value.ui64++;
1692 			/* avoid spinning CPU */
1693 			(void) etm_sleep(ETM_SLEEP_SLOW);
1694 			continue;
1695 		}
1696 
1697 		/*
1698 		 * Design_Note: etm_handle_new_conn() will close the
1699 		 *		accepted connection when done. In early designs
1700 		 *		etm_handle_new_conn() was spawned as a
1701 		 *		separate thread via pthread_create();
1702 		 *		however fmd_thr_create() constrains thread
1703 		 *		creation to prevent spawned threads from
1704 		 *		spawning others (ie, no grandchildren).
1705 		 *		Hence etm_handle_new_conn() is now called
1706 		 *		as a simple function [w/ multiple args].
1707 		 */
1708 
1709 		etm_handle_new_conn(hdl, conn);
1710 
1711 	} /* while accepting new connections until ETM dies */
1712 
1713 	/* ETM is dying (probably due to "fmadm unload etm") */
1714 
1715 	if (etm_debug_lvl >= 1) {
1716 		fmd_hdl_debug(hdl, "info: connection server is dying\n");
1717 	}
1718 } /* etm_server() */
1719 
1720 static void *
1721 etm_init_alloc(size_t size)
1722 {
1723 	return (fmd_hdl_alloc(init_hdl, size, FMD_SLEEP));
1724 }
1725 
1726 static void
1727 etm_init_free(void *addr, size_t size)
1728 {
1729 	fmd_hdl_free(init_hdl, addr, size);
1730 }
1731 
1732 /*
1733  * -------------------------- FMD entry points -------------------------------
1734  */
1735 
1736 /*
1737  * _fmd_init - initialize the transport for use by ETM and start the
1738  *		server daemon to accept new connections to us
1739  *
1740  *		FMD will read our *.conf and subscribe us to FMA events
1741  */
1742 
1743 void
1744 _fmd_init(fmd_hdl_t *hdl)
1745 {
1746 	struct timeval		tmv;		/* timeval */
1747 	ssize_t			n;		/* gen use */
1748 	ldom_hdl_t		*lhp;		/* ldom pointer */
1749 	const struct facility	*fp;		/* syslog facility matching */
1750 	char			*facname;	/* syslog facility property */
1751 
1752 	if (fmd_hdl_register(hdl, FMD_API_VERSION, &fmd_info) != 0) {
1753 		return; /* invalid data in configuration file */
1754 	}
1755 
1756 	fmd_hdl_debug(hdl, "info: module initializing\n");
1757 
1758 	init_hdl = hdl;
1759 	lhp = ldom_init(etm_init_alloc, etm_init_free);
1760 
1761 	/*
1762 	 * Do not load this module if it is runing on a guest ldom.
1763 	 */
1764 	if (ldom_major_version(lhp) == 1 && ldom_on_service(lhp) == 0) {
1765 		fmd_hdl_debug(hdl, "info: module unregistering\n");
1766 		ldom_fini(lhp);
1767 		fmd_hdl_unregister(hdl);
1768 		return;
1769 	} else {
1770 		ldom_fini(lhp);
1771 	}
1772 
1773 	/* setup statistics and properties from FMD */
1774 
1775 	(void) fmd_stat_create(hdl, FMD_STAT_NOALLOC,
1776 				sizeof (etm_stats) / sizeof (fmd_stat_t),
1777 				(fmd_stat_t *)&etm_stats);
1778 
1779 	etm_debug_lvl = fmd_prop_get_int32(hdl, ETM_PROP_NM_DEBUG_LVL);
1780 	etm_debug_max_ev_cnt = fmd_prop_get_int32(hdl,
1781 						ETM_PROP_NM_DEBUG_MAX_EV_CNT);
1782 	fmd_hdl_debug(hdl, "info: etm_debug_lvl %d "
1783 			"etm_debug_max_ev_cnt %d\n",
1784 			etm_debug_lvl, etm_debug_max_ev_cnt);
1785 
1786 	/* obtain an FMD transport handle so we can post FMA events later */
1787 
1788 	etm_fmd_xprt = fmd_xprt_open(hdl, FMD_XPRT_RDONLY, NULL, NULL);
1789 
1790 	/* encourage protocol transaction id to be unique per module load */
1791 
1792 	(void) gettimeofday(&tmv, NULL);
1793 	etm_xid_cur = (uint32_t)((tmv.tv_sec << 10) |
1794 	    ((unsigned long)tmv.tv_usec >> 10));
1795 
1796 	/*
1797 	 * init the transport,
1798 	 * start the connection acceptance server, and
1799 	 * request protocol version be negotiated
1800 	 */
1801 
1802 	if ((n = etm_xport_init(hdl)) != 0) {
1803 		fmd_hdl_error(hdl, "error: bad xport init errno %d\n", (-n));
1804 		fmd_hdl_unregister(hdl);
1805 		return;
1806 	}
1807 
1808 	/*
1809 	 * Cache any properties we use every time we receive an alert.
1810 	 */
1811 	syslog_file = fmd_prop_get_int32(hdl, ETM_PROP_NM_SYSLOGD);
1812 	syslog_cons = fmd_prop_get_int32(hdl, ETM_PROP_NM_CONSOLE);
1813 
1814 	if (syslog_file && (syslog_logfd = open("/dev/conslog",
1815 	    O_WRONLY | O_NOCTTY)) == -1) {
1816 		fmd_hdl_error(hdl, "error: failed to open /dev/conslog");
1817 		syslog_file = 0;
1818 	}
1819 
1820 	if (syslog_cons && (syslog_msgfd = open("/dev/sysmsg",
1821 	    O_WRONLY | O_NOCTTY)) == -1) {
1822 		fmd_hdl_error(hdl, "error: failed to open /dev/sysmsg");
1823 		syslog_cons = 0;
1824 	}
1825 
1826 	if (syslog_file) {
1827 		/*
1828 		 * Look up the value of the "facility" property and use it to
1829 		 * determine * what syslog LOG_* facility value we use to
1830 		 * fill in our log_ctl_t.
1831 		 */
1832 		facname = fmd_prop_get_string(hdl, ETM_PROP_NM_FACILITY);
1833 
1834 		for (fp = syslog_facs; fp->fac_name != NULL; fp++) {
1835 			if (strcmp(fp->fac_name, facname) == 0)
1836 				break;
1837 		}
1838 
1839 		if (fp->fac_name == NULL) {
1840 			fmd_hdl_error(hdl, "error: invalid 'facility'"
1841 			    " setting: %s\n", facname);
1842 			syslog_file = 0;
1843 		} else {
1844 			syslog_facility = fp->fac_value;
1845 			syslog_ctl.flags = SL_CONSOLE | SL_LOGONLY;
1846 		}
1847 
1848 		fmd_prop_free_string(hdl, facname);
1849 	}
1850 
1851 	etm_svr_tid = fmd_thr_create(hdl, etm_server, hdl);
1852 
1853 	/*
1854 	 * Wait a second for the receiver to be ready before start handshaking
1855 	 * with the SP.
1856 	 */
1857 	(void) etm_sleep(ETM_SLEEP_QUIK);
1858 
1859 	etm_req_ver_negot(hdl);
1860 
1861 	fmd_hdl_debug(hdl, "info: module initialized ok\n");
1862 
1863 } /* _fmd_init() */
1864 
1865 /*
1866  * etm_recv - receive an FMA event from FMD and transport it
1867  *		to the remote endpoint
1868  */
1869 
1870 /*ARGSUSED*/
1871 void
1872 etm_recv(fmd_hdl_t *hdl, fmd_event_t *ep, nvlist_t *evp, const char *class)
1873 {
1874 	etm_xport_addr_t	*addrv;	/* vector of transport addresses */
1875 	etm_xport_conn_t	conn;	/* connection handle */
1876 	etm_proto_v1_ev_hdr_t	*hdrp;	/* for FMA_EVENT msg */
1877 	ssize_t			i, n;	/* gen use */
1878 	size_t			sz;	/* header size */
1879 	size_t			buflen;	/* size of packed FMA event */
1880 	uint8_t			*buf;	/* tmp buffer for packed FMA event */
1881 
1882 	buflen = 0;
1883 	(void) nvlist_size(evp, &buflen, NV_ENCODE_XDR);
1884 	etm_stats.etm_rd_fmd_bytes.fmds_value.ui64 += buflen;
1885 	etm_stats.etm_rd_fmd_fmaevent.fmds_value.ui64++;
1886 
1887 	fmd_hdl_debug(hdl, "info: rcvd event %p from FMD\n", evp);
1888 	fmd_hdl_debug(hdl, "info: cnt %llu class %s\n",
1889 		etm_stats.etm_rd_fmd_fmaevent.fmds_value.ui64, class);
1890 
1891 	/*
1892 	 * if the debug limit has been set, avoid excessive traffic,
1893 	 * for example, an infinite cycle using loopback nodes
1894 	 */
1895 
1896 	if ((etm_debug_max_ev_cnt >= 0) &&
1897 		(etm_stats.etm_rd_fmd_fmaevent.fmds_value.ui64 >
1898 						etm_debug_max_ev_cnt)) {
1899 		fmd_hdl_debug(hdl, "warning: FMA event dropped: "
1900 			"event %p cnt %llu > debug max %d\n", evp,
1901 			etm_stats.etm_rd_fmd_fmaevent.fmds_value.ui64,
1902 			etm_debug_max_ev_cnt);
1903 		etm_stats.etm_wr_drop_fmaevent.fmds_value.ui64++;
1904 		return;
1905 	}
1906 
1907 	/* allocate a buffer for the FMA event and nvlist pack it */
1908 
1909 	buf = fmd_hdl_zalloc(hdl, buflen, FMD_SLEEP);
1910 
1911 	if ((n = nvlist_pack(evp, (char **)&buf, &buflen,
1912 					NV_ENCODE_XDR, 0)) != 0) {
1913 		fmd_hdl_error(hdl, "error: FMA event dropped: "
1914 				"event pack errno %d\n", n);
1915 		etm_stats.etm_os_nvlist_pack_fail.fmds_value.ui64++;
1916 		etm_stats.etm_wr_drop_fmaevent.fmds_value.ui64++;
1917 		fmd_hdl_free(hdl, buf, buflen);
1918 		return;
1919 	}
1920 
1921 	/* get vector of dst addrs and send the FMA event to each one */
1922 
1923 	if ((addrv = etm_xport_get_ev_addrv(hdl, evp)) == NULL) {
1924 		fmd_hdl_error(hdl, "error: FMA event dropped: "
1925 				"bad event dst addrs errno %d\n", errno);
1926 		etm_stats.etm_xport_get_ev_addrv_fail.fmds_value.ui64++;
1927 		etm_stats.etm_wr_drop_fmaevent.fmds_value.ui64++;
1928 		fmd_hdl_free(hdl, buf, buflen);
1929 		return;
1930 	}
1931 
1932 	for (i = 0; addrv[i] != NULL; i++) {
1933 
1934 		/* open a new connection to this dst addr */
1935 
1936 		if ((n = etm_conn_open(hdl, "FMA event dropped: "
1937 				"bad conn open on new ev",
1938 				addrv[i], &conn)) < 0) {
1939 			etm_stats.etm_wr_drop_fmaevent.fmds_value.ui64++;
1940 			continue;
1941 		}
1942 
1943 		/* write the ETM message header */
1944 
1945 		if ((hdrp = etm_hdr_write(hdl, conn, evp, NV_ENCODE_XDR,
1946 							&sz)) == NULL) {
1947 			fmd_hdl_error(hdl, "error: FMA event dropped: "
1948 					"bad hdr write errno %d\n", errno);
1949 			(void) etm_conn_close(hdl,
1950 				"bad conn close per bad hdr wr", conn);
1951 			etm_stats.etm_wr_drop_fmaevent.fmds_value.ui64++;
1952 			continue;
1953 		}
1954 
1955 		fmd_hdl_free(hdl, hdrp, sz);	/* header not needed */
1956 		etm_stats.etm_wr_hdr_fmaevent.fmds_value.ui64++;
1957 		fmd_hdl_debug(hdl, "info: hdr xport write ok for event %p\n",
1958 								evp);
1959 
1960 		/* write the ETM message body, ie, the packed nvlist */
1961 
1962 		if ((n = etm_io_op(hdl, "FMA event dropped: "
1963 					"bad io write on event", conn,
1964 					buf, buflen, ETM_IO_OP_WR)) < 0) {
1965 			(void) etm_conn_close(hdl,
1966 				"bad conn close per bad body wr", conn);
1967 			etm_stats.etm_wr_drop_fmaevent.fmds_value.ui64++;
1968 			continue;
1969 		}
1970 
1971 		etm_stats.etm_wr_body_fmaevent.fmds_value.ui64++;
1972 		etm_stats.etm_wr_xport_bytes.fmds_value.ui64 += buflen;
1973 		fmd_hdl_debug(hdl, "info: body xport write ok for event %p\n",
1974 								evp);
1975 
1976 		/* close the connection */
1977 
1978 		(void) etm_conn_close(hdl, "bad conn close after event send",
1979 									conn);
1980 	} /* foreach dst addr in the vector */
1981 
1982 	etm_xport_free_addrv(hdl, addrv);
1983 	fmd_hdl_free(hdl, buf, buflen);
1984 
1985 } /* etm_recv() */
1986 
1987 /*
1988  * _fmd_fini - stop the server daemon and teardown the transport
1989  */
1990 
1991 void
1992 _fmd_fini(fmd_hdl_t *hdl)
1993 {
1994 	ssize_t	n;	/* gen use */
1995 
1996 	fmd_hdl_debug(hdl, "info: module finializing\n");
1997 
1998 	/* kill the connection server ; wait for it to die */
1999 
2000 	etm_is_dying = 1;
2001 
2002 	if (etm_svr_tid != NULL) {
2003 		fmd_thr_signal(hdl, etm_svr_tid);
2004 		fmd_thr_destroy(hdl, etm_svr_tid);
2005 		etm_svr_tid = NULL;
2006 	} /* if server thread was successfully created */
2007 
2008 	/* teardown the transport */
2009 
2010 	if ((n = etm_xport_fini(hdl)) != 0) {
2011 		fmd_hdl_error(hdl, "warning: xport fini errno %d\n", (-n));
2012 	}
2013 	if (etm_fmd_xprt != NULL) {
2014 		fmd_xprt_close(hdl, etm_fmd_xprt);
2015 	}
2016 
2017 	if (syslog_logfd != -1) {
2018 		(void) close(syslog_logfd);
2019 	}
2020 	if (syslog_msgfd != -1) {
2021 		(void) close(syslog_msgfd);
2022 	}
2023 
2024 	fmd_hdl_debug(hdl, "info: module finalized ok\n");
2025 
2026 } /* _fmd_fini() */
2027