xref: /titanic_41/usr/src/uts/common/io/lvm/trans/mdtrans.c (revision 8c74a1f9477c04aa8539a84a49aa2bf629c7a14d)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #pragma ident	"%Z%%M%	%I%	%E% SMI"
27 
28 #include <sys/param.h>
29 #include <sys/systm.h>
30 #include <sys/conf.h>
31 #include <sys/debug.h>
32 #include <sys/file.h>
33 #include <sys/user.h>
34 #include <sys/uio.h>
35 #include <sys/dkio.h>
36 #include <sys/vtoc.h>
37 #include <sys/kmem.h>
38 #include <vm/page.h>
39 #include <sys/cmn_err.h>
40 #include <sys/sysmacros.h>
41 #include <sys/types.h>
42 #include <sys/mkdev.h>
43 #include <sys/stat.h>
44 #include <sys/open.h>
45 #include <sys/modctl.h>
46 #include <sys/ddi.h>
47 #include <sys/sunddi.h>
48 #include <sys/disp.h>
49 #include <sys/buf.h>
50 
51 #include <sys/lvm/mdvar.h>
52 #include <sys/lvm/md_trans.h>
53 #include <sys/lvm/md_notify.h>
54 #include <sys/lvm/md_convert.h>
55 
56 #include <sys/sysevent/eventdefs.h>
57 #include <sys/sysevent/svm.h>
58 
59 md_ops_t		trans_md_ops;
60 #ifndef	lint
61 char			_depends_on[] = "drv/md fs/ufs";
62 md_ops_t		*md_interface_ops = &trans_md_ops;
63 #endif	/* lint */
64 
65 extern unit_t		md_nunits;
66 extern set_t		md_nsets;
67 extern md_set_t		md_set[];
68 extern int		md_status;
69 extern major_t		md_major;
70 
71 extern int		md_trans_ioctl();
72 extern md_krwlock_t	md_unit_array_rw;
73 
74 extern mdq_anchor_t	md_done_daemon;
75 
76 extern	int		md_in_upgrade;
77 
78 static kmem_cache_t	*trans_parent_cache = NULL;
79 kmem_cache_t		*trans_child_cache = NULL;
80 
81 #ifdef	DEBUG
82 /*
83  * ROUTINES FOR TESTING:
84  */
85 static int
86 _init_debug()
87 {
88 	extern int	_init_ioctl();
89 
90 	return (_init_ioctl());
91 }
92 static int
93 _fini_debug()
94 {
95 	extern int	_fini_ioctl();
96 	int	err = 0;
97 
98 	err = _fini_ioctl();
99 	return (err);
100 }
101 
102 #endif	/* DEBUG */
103 
104 /*
105  * BEGIN RELEASE DEBUG
106  *	The following routines remain in the released product for testability
107  */
108 int
109 trans_done_shadow(buf_t *bp)
110 {
111 	buf_t		*pb;
112 	md_tps_t	*ps = (md_tps_t *)bp->b_chain;
113 	int		rv = 0;
114 
115 	pb = ps->ps_bp;
116 	mutex_enter(&ps->ps_mx);
117 	ps->ps_count--;
118 	if (ps->ps_count > 0) {
119 		if ((bp->b_flags & B_ERROR) != 0) {
120 			pb->b_flags |= B_ERROR;
121 			pb->b_error = bp->b_error;
122 		}
123 		mutex_exit(&ps->ps_mx);
124 		kmem_cache_free(trans_child_cache, bp);
125 	} else {
126 		mutex_exit(&ps->ps_mx);
127 		mutex_destroy(&ps->ps_mx);
128 		rv = trans_done(bp);
129 	}
130 	return (rv);
131 }
132 
133 static void
134 shadow_debug(mt_unit_t	*un,		/* trans unit info */
135 		buf_t	*pb,		/* primary buffer */
136 		md_tps_t	*ps,		/* trans parent save */
137 		buf_t	*cb,		/* buffer for writing to master */
138 		int	flag,
139 		void	*private)
140 {
141 	buf_t		*sb;		/* Shadow buffer */
142 
143 	mutex_init(&ps->ps_mx, NULL, MUTEX_DEFAULT, NULL);
144 	ps->ps_count = 2;		/* Write child buffer & shadow */
145 	cb->b_iodone = trans_done_shadow;
146 	sb = kmem_cache_alloc(trans_child_cache, MD_ALLOCFLAGS);
147 	trans_child_init(sb);
148 	sb = bioclone(pb, 0, pb->b_bcount, md_dev64_to_dev(un->un_s_dev),
149 		pb->b_blkno, trans_done_shadow, sb, KM_NOSLEEP);
150 
151 	sb->b_flags |= B_ASYNC;
152 	sb->b_chain = (void *)ps;
153 	md_call_strategy(sb, flag | MD_STR_MAPPED, private);
154 }
155 /*
156  * END RELEASE DEBUG
157  */
158 
159 /*
160  * COMMON MEMORY ALLOCATION ROUTINES (so that we can discover leaks)
161  */
162 void *
163 md_trans_zalloc(size_t nb)
164 {
165 	TRANSSTATS(ts_trans_zalloc);
166 	TRANSSTATSADD(ts_trans_alloced, nb);
167 	return (kmem_zalloc(nb, KM_SLEEP));
168 }
169 void *
170 md_trans_alloc(size_t nb)
171 {
172 	TRANSSTATS(ts_trans_alloc);
173 	TRANSSTATSADD(ts_trans_alloced, nb);
174 	return (kmem_alloc(nb, KM_SLEEP));
175 }
176 void
177 md_trans_free(void *va, size_t nb)
178 {
179 	TRANSSTATS(ts_trans_free);
180 	TRANSSTATSADD(ts_trans_freed, nb);
181 	if (nb)
182 		kmem_free(va, nb);
183 }
184 
185 static void
186 trans_parent_init(md_tps_t *ps)
187 {
188 	bzero(ps, sizeof (md_tps_t));
189 }
190 
191 /*ARGSUSED1*/
192 int
193 trans_child_constructor(void *p, void *d1, int d2)
194 {
195 	bioinit(p);
196 	return (0);
197 }
198 
199 void
200 trans_child_init(struct buf *bp)
201 {
202 	md_bioreset(bp);
203 }
204 
205 /*ARGSUSED1*/
206 void
207 trans_child_destructor(void *p, void *d)
208 {
209 	biofini(p);
210 }
211 
212 void
213 trans_commit(mt_unit_t *un, int domstr)
214 {
215 	mddb_recid_t	recids[4];
216 	md_unit_t	*su;
217 	int		ri = 0;
218 
219 	if (md_get_setstatus(MD_UN2SET(un)) & MD_SET_STALE)
220 		return;
221 
222 	recids[ri++] = un->c.un_record_id;
223 
224 	if (domstr)
225 		if (md_getmajor(un->un_m_dev) == md_major) {
226 			su = MD_UNIT(md_getminor(un->un_m_dev));
227 			recids[ri++] = su->c.un_record_id;
228 		}
229 
230 	if (ri == 0)
231 		return;
232 	recids[ri] = 0;
233 
234 	uniqtime32(&un->un_timestamp);
235 	mddb_commitrecs_wrapper(recids);
236 }
237 
238 void
239 trans_close_all_devs(mt_unit_t *un)
240 {
241 	if ((un->un_flags & TRANS_NEED_OPEN) == 0) {
242 		md_layered_close(un->un_m_dev, MD_OFLG_NULL);
243 		if (un->un_l_unit)
244 			ldl_close_dev(un->un_l_unit);
245 		un->un_flags |= TRANS_NEED_OPEN;
246 	}
247 }
248 
249 int
250 trans_open_all_devs(mt_unit_t *un)
251 {
252 	int		err;
253 	minor_t		mnum = MD_SID(un);
254 	md_dev64_t	tmpdev = un->un_m_dev;
255 	set_t		setno = MD_MIN2SET(MD_SID(un));
256 	side_t		side = mddb_getsidenum(setno);
257 
258 	/*
259 	 * Do the open by device id if it is regular device
260 	 */
261 	if ((md_getmajor(tmpdev) != md_major) &&
262 		md_devid_found(setno, side, un->un_m_key) == 1) {
263 		tmpdev = md_resolve_bydevid(mnum, tmpdev, un->un_m_key);
264 	}
265 	err = md_layered_open(mnum, &tmpdev, MD_OFLG_NULL);
266 	un->un_m_dev = tmpdev;
267 
268 	if (err)
269 		return (ENXIO);
270 
271 	if (un->un_l_unit) {
272 		err = ldl_open_dev(un, un->un_l_unit);
273 		if (err) {
274 			md_layered_close(tmpdev, MD_OFLG_NULL);
275 			return (ENXIO);
276 		}
277 	}
278 	return (0);
279 }
280 
281 uint_t	mt_debug	= 0;
282 
283 int
284 trans_build_incore(void *p, int snarfing)
285 {
286 	mt_unit_t	*un = (mt_unit_t *)p;
287 	minor_t		mnum;
288 	set_t		setno;
289 
290 	/*
291 	 * initialize debug mode and always start with no shadowing.
292 	 */
293 	if (!snarfing)
294 		un->un_debug = mt_debug;
295 	un->un_s_dev = NODEV64;
296 
297 	mnum = MD_SID(un);
298 
299 	if (MD_UNIT(mnum) != NULL)
300 		return (0);
301 
302 	setno = MD_MIN2SET(mnum);
303 
304 	/*
305 	 * If snarfing the metatrans device,
306 	 *	then remake the device number
307 	 */
308 	if (snarfing) {
309 		un->un_m_dev =  md_getdevnum(setno, mddb_getsidenum(setno),
310 						un->un_m_key, MD_NOTRUST_DEVT);
311 	}
312 
313 	/*
314 	 * db rec is partially deleted; finish the db delete later
315 	 */
316 	if (MD_STATUS(un) & MD_UN_BEING_RESET) {
317 		mddb_setrecprivate(un->c.un_record_id, MD_PRV_PENDCLEAN);
318 		return (1);
319 	}
320 
321 	/*
322 	 * With the current device id implementation there is possibility
323 	 * that we may have NODEV if the underlying can't be resolved at
324 	 * snarf time.  If this is the case we want to be consistent with
325 	 * the normal behavior and continue to allow the snarf of unit
326 	 * and resolve the devt at the open time
327 	 */
328 	if ((md_getmajor(un->un_m_dev) == md_major) &&
329 		(md_dev_exists(un->un_m_dev) == 0)) {
330 		return (1);
331 	}
332 
333 	/*
334 	 * retain the detach status; reset open status
335 	 */
336 	un->un_flags &= (TRANS_DETACHING | TRANS_DETACHED);
337 	un->un_flags |= TRANS_NEED_OPEN;
338 	if ((un->un_flags & TRANS_DETACHED) == 0)
339 		un->un_flags |= TRANS_ATTACHING;
340 
341 	/*
342 	 * log device not set up yet; try again later
343 	 */
344 	if ((un->un_flags & TRANS_DETACHED) == 0)
345 		if (ldl_findlog(un->un_l_recid) == NULL)
346 			return (1);
347 
348 	/*
349 	 * initialize incore fields
350 	 */
351 	un->un_next = NULL;
352 	un->un_l_unit = NULL;
353 	un->un_deltamap = NULL;
354 	un->un_udmap = NULL;
355 	un->un_logmap = NULL;
356 	un->un_matamap = NULL;
357 	un->un_shadowmap = NULL;
358 	un->un_ut = NULL;
359 	un->un_logreset = 0;
360 	un->un_dev = md_makedevice(md_major, mnum);
361 	MD_STATUS(un) = 0;
362 
363 	/* necessary because capability didn't exist pre-4.1 */
364 	MD_CAPAB(un) = (MD_CAN_META_CHILD & ~MD_CAN_PARENT);
365 
366 	/*
367 	 * attach the log
368 	 */
369 	trans_attach(un, 0);
370 
371 	/*
372 	 * check for master dev dynconcat
373 	 */
374 	if (md_getmajor(un->un_m_dev) == md_major) {
375 		struct mdc_unit	*c;
376 
377 		c = MD_UNIT(md_getminor(un->un_m_dev));
378 		un->c.un_total_blocks = c->un_total_blocks;
379 	}
380 
381 	MD_UNIT(mnum) = un;
382 
383 	return (0);
384 }
385 
386 int
387 trans_detach(mt_unit_t *un, int force)
388 {
389 	mdi_unit_t	*ui = MDI_UNIT(MD_SID(un));
390 	int		error	= 0;
391 
392 	/*
393 	 * The caller is responsible for single-threading this routine.
394 	 */
395 
396 	if (ui == NULL)
397 		return (0);
398 
399 	/*
400 	 * already detached or the log isn't attached yet; do nothing
401 	 */
402 	if (un->un_flags & (TRANS_DETACHED | TRANS_ATTACHING))
403 		return (0);
404 
405 	/*
406 	 * set state to detaching
407 	 */
408 	if (force || !md_unit_isopen(ui)) {
409 		un->un_flags |= TRANS_DETACHING;
410 		if (!MD_UPGRADE) {
411 			trans_commit(un, 0);
412 		}
413 		SE_NOTIFY(EC_SVM_CONFIG, ESC_SVM_DETACHING, TAG_METADEVICE,
414 		    MD_UN2SET(un), MD_SID(un));
415 	}
416 
417 	/*
418 	 * device is busy
419 	 */
420 	if (md_unit_isopen(ui))
421 		return (EBUSY);
422 
423 	/*
424 	 * detach the log
425 	 *	if successful
426 	 *		flags committed to TRANS_DETACHED in database
427 	 *		un->un_l_unit set to NULL
428 	 *		no error returned
429 	 */
430 	error = ldl_reset(un, 1, force);
431 	if (error)
432 		return (error);
433 
434 	/*
435 	 * commit to database
436 	 */
437 	if (!MD_UPGRADE) {
438 		trans_commit(un, 0);
439 	}
440 	SE_NOTIFY(EC_SVM_CONFIG, ESC_SVM_DETACH, TAG_METADEVICE, MD_UN2SET(un),
441 	    MD_SID(un));
442 
443 	return (0);
444 }
445 
446 void
447 trans_attach(mt_unit_t *un, int attaching)
448 {
449 	mdi_unit_t	*ui = MDI_UNIT(MD_SID(un));
450 	ml_unit_t	*ul;
451 
452 	/*
453 	 * called from snarf, set, and attach.  Hence, the attaching param
454 	 * The caller is responsible for single-threading this routine.
455 	 */
456 
457 	/*
458 	 * not attaching; do nothing
459 	 */
460 	if ((un->un_flags & TRANS_ATTACHING) == 0)
461 		return;
462 
463 	/*
464 	 * find log unit struct
465 	 */
466 	ul = ldl_findlog(un->un_l_recid);
467 	if (ul == NULL)
468 		return;
469 	un->un_l_dev = ul->un_dev;
470 
471 	/*
472 	 * device is busy; do nothing
473 	 */
474 	if (attaching && md_unit_isopen(ui))
475 		return;
476 	/*
477 	 * other functions use non-NULL un_l_unit as detach/attach flag
478 	 */
479 	un->un_l_unit = ul;
480 
481 	/*
482 	 *   add metatrans device to the log's list of mt devices
483 	 */
484 	ldl_utadd(un);
485 
486 	/*
487 	 * attached
488 	 */
489 	un->un_flags &= ~TRANS_ATTACHING;
490 
491 }
492 
493 int
494 trans_reset(mt_unit_t *un, minor_t mnum, int removing, int force)
495 {
496 	sv_dev_t	sv;
497 	mddb_recid_t	vtoc_id;
498 	int		error	= 0;
499 
500 	/*
501 	 * reset log, maps, and ufs interface
502 	 */
503 	error = ldl_reset(un, removing, force);
504 	if (error)
505 		return (error);
506 
507 	/*
508 	 * done with underyling devices
509 	 */
510 	trans_close_all_devs(un);
511 
512 	md_destroy_unit_incore(mnum, &trans_md_ops);
513 
514 	MD_UNIT(mnum) = NULL;
515 
516 	if (!removing)
517 		return (0);
518 
519 	md_reset_parent(un->un_m_dev);
520 	MD_STATUS(un) |= MD_UN_BEING_RESET;
521 	trans_commit(un, 1);
522 	SE_NOTIFY(EC_SVM_CONFIG, ESC_SVM_DELETE, TAG_METADEVICE, MD_UN2SET(un),
523 	    MD_SID(un));
524 
525 	/* Save the mstr key */
526 	sv.setno = MD_MIN2SET(mnum);
527 	sv.key = un->un_m_key;
528 
529 	vtoc_id = un->c.un_vtoc_id;
530 
531 	mddb_deleterec_wrapper(un->c.un_record_id);
532 
533 	/* Remove the vtoc, if present */
534 	if (vtoc_id)
535 		mddb_deleterec_wrapper(vtoc_id);
536 	md_rem_names(&sv, 1);
537 	return (0);
538 }
539 
540 static void
541 trans_wait_panic(struct buf *cb)
542 {
543 	while ((cb->b_flags & B_DONE) == 0) {
544 		md_daemon(1, &md_done_daemon);
545 		drv_usecwait(10);
546 	}
547 }
548 
549 static void
550 trans_error(md_tps_t *ps)
551 {
552 	md_dev64_t	md_dev;
553 	md_dev64_t	m_dev;
554 	char		*str;
555 	struct buf	*pb;
556 	mdi_unit_t	*ui;
557 
558 	pb = ps->ps_bp;
559 	ui = ps->ps_ui;
560 
561 	/*
562 	 * gather up params for cmn_err
563 	 */
564 	if (pb->b_flags & B_READ)
565 		str = "read";
566 	else
567 		str = "write";
568 	md_dev = md_expldev(pb->b_edev);
569 	m_dev = ps->ps_un->un_m_dev;
570 
571 	/*
572 	 * free up the resources for this request and done the errored buf
573 	 */
574 	md_kstat_done(ui, pb, 0);
575 	kmem_cache_free(trans_parent_cache, ps);
576 	md_unit_readerexit(ui);
577 	md_biodone(pb);
578 
579 	/*
580 	 * print pretty error message
581 	 */
582 	cmn_err(CE_WARN, "md: %s: %s error on %s",
583 	    md_shortname(md_getminor(md_dev)), str,
584 	    md_devname(MD_DEV2SET(md_dev), m_dev, NULL, 0));
585 }
586 
587 int
588 trans_done(struct buf *cb)
589 {
590 	struct buf	*pb;
591 	mdi_unit_t	*ui;
592 	md_tps_t	*ps;
593 
594 	ps = (md_tps_t *)cb->b_chain;
595 	pb = ps->ps_bp;
596 	ui = ps->ps_ui;
597 
598 	if (cb->b_flags & B_ERROR) {
599 		pb->b_flags |= B_ERROR;
600 		pb->b_error = cb->b_error;
601 		/*
602 		 * device not in hard error state; report error
603 		 */
604 		if (!ldl_isherror(ps->ps_un->un_l_unit)) {
605 			daemon_request(&md_done_daemon, trans_error,
606 				(daemon_queue_t *)ps, REQ_OLD);
607 
608 			if (cb->b_flags & B_REMAPPED)
609 				bp_mapout(cb);
610 			if (panicstr)
611 				cb->b_flags |= B_DONE;
612 			else
613 				kmem_cache_free(trans_child_cache, cb);
614 
615 			return (1);
616 		}
617 	}
618 
619 	if (cb->b_flags & B_REMAPPED)
620 		bp_mapout(cb);
621 
622 	if (panicstr)
623 		cb->b_flags |= B_DONE;
624 	else
625 		kmem_cache_free(trans_child_cache, cb);
626 	kmem_cache_free(trans_parent_cache, ps);
627 	md_kstat_done(ui, pb, 0);
628 	md_unit_readerexit(ui);
629 	md_biodone(pb);
630 
631 	return (0);
632 }
633 
634 static void
635 md_trans_strategy(buf_t *pb, int flag, void *private)
636 {
637 	md_tps_t	*ps;
638 	buf_t		*cb;		/* child buf pointer */
639 	mt_unit_t	*un;
640 	mdi_unit_t	*ui;
641 
642 	ui = MDI_UNIT(getminor(pb->b_edev));
643 
644 	md_kstat_waitq_enter(ui);
645 
646 	un = (mt_unit_t *)md_unit_readerlock(ui);
647 
648 	if (md_inc_iocount(MD_MIN2SET(getminor(pb->b_edev))) != 0) {
649 		pb->b_flags |= B_ERROR;
650 		pb->b_error = ENXIO;
651 		pb->b_resid = pb->b_bcount;
652 		md_kstat_waitq_exit(ui);
653 		md_unit_readerexit(ui);
654 		biodone(pb);
655 		return;
656 	}
657 
658 	ASSERT(!(flag & MD_STR_NOTTOP));
659 
660 	/* check and map */
661 	if (md_checkbuf(ui, (md_unit_t *)un, pb) != 0) {
662 		md_kstat_waitq_exit(ui);
663 		return;
664 	}
665 
666 	bp_mapin(pb);
667 
668 	ps = kmem_cache_alloc(trans_parent_cache, MD_ALLOCFLAGS);
669 	trans_parent_init(ps);
670 
671 	/*
672 	 * Save essential information from the original buffhdr
673 	 * in the md_save structure.
674 	 */
675 	ps->ps_un = un;
676 	ps->ps_ui = ui;
677 	ps->ps_bp = pb;
678 
679 	cb = kmem_cache_alloc(trans_child_cache, MD_ALLOCFLAGS);
680 	trans_child_init(cb);
681 
682 	cb = bioclone(pb, 0, pb->b_bcount, md_dev64_to_dev(un->un_m_dev),
683 		pb->b_blkno, trans_done, cb, KM_NOSLEEP);
684 
685 	cb->b_chain = (void *)ps;
686 
687 	/*
688 	 * RELEASE DEBUG
689 	 * The following calls shadow debug for testing purposes if we are
690 	 * writing and if shadowing is turned on.
691 	 */
692 	if ((un->un_s_dev != NODEV64) &&
693 	    ((pb->b_flags & B_READ) == 0))
694 		shadow_debug(un, pb, ps, cb, flag, private);
695 
696 	md_kstat_waitq_to_runq(ui);
697 
698 	(void) md_call_strategy(cb, flag | MD_STR_MAPPED | MD_NOBLOCK, private);
699 
700 	/*
701 	 * panic in progress; process daemon queues
702 	 */
703 	if (panicstr) {
704 		trans_wait_panic(cb);
705 		kmem_cache_free(trans_child_cache, cb);
706 	}
707 }
708 
709 /* ARGSUSED */
710 static int
711 md_trans_read(dev_t dev, struct uio *uio, cred_t *credp)
712 {
713 	int			error;
714 
715 	if ((error = md_chk_uio(uio)) != 0)
716 		return (error);
717 
718 	return (physio(mdstrategy, NULL, dev, B_READ, minphys, uio));
719 }
720 
721 /* ARGSUSED */
722 static int
723 md_trans_aread(dev_t dev, struct aio_req *aio, cred_t *credp)
724 {
725 	int			error;
726 
727 	if ((error = md_chk_uio(aio->aio_uio)) != 0)
728 		return (error);
729 
730 	return (aphysio(mdstrategy, anocancel, dev, B_READ, minphys, aio));
731 }
732 
733 /* ARGSUSED */
734 static int
735 md_trans_write(dev_t dev, struct uio *uio, cred_t *credp)
736 {
737 	int	error;
738 
739 	if ((error = md_chk_uio(uio)) != 0)
740 		return (error);
741 
742 	return (physio(mdstrategy, NULL, dev, B_WRITE, minphys, uio));
743 }
744 
745 /* ARGSUSED */
746 static int
747 md_trans_awrite(dev_t dev, struct aio_req *aio, cred_t *credp)
748 {
749 	int	error;
750 
751 	if ((error = md_chk_uio(aio->aio_uio)) != 0)
752 		return (error);
753 
754 	return (aphysio(mdstrategy, anocancel, dev, B_WRITE, minphys, aio));
755 }
756 
757 static void
758 trans_cleanup(mt_unit_t *un)
759 {
760 	sv_dev_t	sv;
761 
762 	MD_STATUS(un) |= MD_UN_LOG_DELETED;
763 	trans_commit(un, 0);
764 
765 	/* Save the mstr key */
766 	sv.setno = MD_UN2SET(un);
767 	sv.key = un->un_m_key;
768 
769 	mddb_deleterec_wrapper(un->c.un_record_id);
770 
771 	md_rem_names(&sv, 1);
772 }
773 
774 static int
775 trans_snarf(md_snarfcmd_t cmd, set_t setno)
776 {
777 	mt_unit_t	*un;
778 	ml_unit_t	*ul;
779 	mddb_recid_t	recid;
780 	int		gotsomething;
781 	mddb_type_t	typ1;
782 	int		all_trans_gotten;
783 	mddb_de_ic_t    *dep;
784 	mddb_rb32_t	*rbp;
785 	size_t		newreqsize;
786 	static int	trans_found = 0;
787 
788 
789 
790 	if (cmd == MD_SNARF_CLEANUP) {
791 
792 		if (md_get_setstatus(setno) & MD_SET_STALE)
793 			return (0);
794 
795 		/*
796 		 * clean up partially cleared trans devices
797 		 */
798 		typ1 = (mddb_type_t)md_getshared_key(setno,
799 		    trans_md_ops.md_driver.md_drivername);
800 		recid = mddb_makerecid(setno, 0);
801 		while ((recid = mddb_getnextrec(recid, typ1, TRANS_REC)) > 0) {
802 			un = (mt_unit_t *)mddb_getrecaddr(recid);
803 			(void) trans_detach(un, 1);
804 			if (mddb_getrecprivate(recid) & MD_PRV_CLEANUP) {
805 				trans_cleanup(un);
806 				recid = mddb_makerecid(setno, 0);
807 			}
808 		}
809 		/*
810 		 * clean up partially cleared log devices
811 		 */
812 		recid = mddb_makerecid(setno, 0);
813 		while ((recid = mddb_getnextrec(recid, typ1, LOG_REC)) > 0) {
814 			if (mddb_getrecprivate(recid) & MD_PRV_CLEANUP) {
815 				ul = (ml_unit_t *)mddb_getrecaddr(recid);
816 				ldl_cleanup(ul);
817 				recid = mddb_makerecid(setno, 0);
818 			}
819 		}
820 
821 		return (0);
822 	}
823 
824 	/*
825 	 * must snarf up the log devices first
826 	 */
827 	gotsomething = 0;
828 	all_trans_gotten = 1;
829 	typ1 = (mddb_type_t)md_getshared_key(setno,
830 	    trans_md_ops.md_driver.md_drivername);
831 	recid = mddb_makerecid(setno, 0);
832 	while ((recid = mddb_getnextrec(recid, typ1, LOG_REC)) > 0) {
833 		ml_unit_t	*big_ul;
834 		ml_unit32_od_t	*small_ul;
835 
836 		if (mddb_getrecprivate(recid) & MD_PRV_GOTIT)
837 			continue;
838 
839 		small_ul = (ml_unit32_od_t *)mddb_getrecaddr(recid);
840 		dep = mddb_getrecdep(recid);
841 		dep->de_flags = MDDB_F_TRANS_LOG;
842 		rbp = dep->de_rb;
843 		/*
844 		 * As trans records are always old records,
845 		 * we have to check if this record already has been converted.
846 		 * We don't want to do that work twice.
847 		 */
848 		if ((rbp->rb_private & MD_PRV_CONVD) == 0) {
849 			newreqsize = sizeof (ml_unit_t);
850 			big_ul = (ml_unit_t *)kmem_zalloc(newreqsize, KM_SLEEP);
851 			trans_log_convert((caddr_t)small_ul, (caddr_t)big_ul,
852 								SMALL_2_BIG);
853 			kmem_free(small_ul, dep->de_reqsize);
854 			/*
855 			 * Update userdata and incore userdata
856 			 * incores are at the end of ul
857 			 */
858 			dep->de_rb_userdata_ic = big_ul;
859 			dep->de_rb_userdata = big_ul;
860 			dep->de_icreqsize = newreqsize;
861 			rbp->rb_private |= MD_PRV_CONVD;
862 			ul = big_ul;
863 		} else {
864 			/* already converted, just set the pointer */
865 			ul = dep->de_rb_userdata;
866 		}
867 		all_trans_gotten = 0;
868 		if (ldl_build_incore(ul, 1) == 0) {
869 			mddb_setrecprivate(recid, MD_PRV_GOTIT);
870 			gotsomething = 1;
871 		}
872 	}
873 
874 	/*
875 	 * now snarf up metatrans devices
876 	 */
877 	gotsomething = 0;
878 	recid = mddb_makerecid(setno, 0);
879 	while ((recid = mddb_getnextrec(recid, typ1, TRANS_REC)) > 0) {
880 		mt_unit_t	*big_un;
881 		mt_unit32_od_t	*small_un;
882 
883 		if (mddb_getrecprivate(recid) & MD_PRV_GOTIT)
884 			continue;
885 
886 		if ((trans_found == 0) && (!MD_UPGRADE)) {
887 			cmn_err(CE_WARN, MD_EOF_TRANS_MSG MD_EOF_TRANS_WARNING);
888 			trans_found = 1;
889 		}
890 
891 		small_un = (mt_unit32_od_t *)mddb_getrecaddr(recid);
892 
893 		dep = mddb_getrecdep(recid);
894 		dep->de_flags = MDDB_F_TRANS_MASTER;
895 		rbp = dep->de_rb;
896 		/*
897 		 * As trans records are always old records,
898 		 * we have to check if this record already has been converted.
899 		 * We don't want to do that work twice.
900 		 */
901 		if ((rbp->rb_private & MD_PRV_CONVD) == 0) {
902 			newreqsize = sizeof (mt_unit_t);
903 			big_un = (mt_unit_t *)kmem_zalloc(newreqsize, KM_SLEEP);
904 			trans_master_convert((caddr_t)small_un, (caddr_t)big_un,
905 								SMALL_2_BIG);
906 			kmem_free(small_un, dep->de_reqsize);
907 			/*
908 			 * Update userdata and incore userdata
909 			 * incores are at the end of ul
910 			 */
911 			dep->de_rb_userdata_ic = big_un;
912 			dep->de_rb_userdata = big_un;
913 			dep->de_icreqsize = newreqsize;
914 			rbp->rb_private |= MD_PRV_CONVD;
915 			un = big_un;
916 			un->c.un_revision &= ~MD_64BIT_META_DEV;
917 		} else {
918 			/* already converted, just set the pointer */
919 			un = dep->de_rb_userdata;
920 		}
921 
922 		/*
923 		 * Create minor node for snarfed entry.
924 		 */
925 		(void) md_create_minor_node(MD_MIN2SET(MD_SID(un)), MD_SID(un));
926 
927 		if (MD_UNIT(MD_SID(un)) != NULL) {
928 			mddb_setrecprivate(recid, MD_PRV_PENDDEL);
929 			continue;
930 		}
931 
932 		all_trans_gotten = 0;
933 		if (trans_build_incore(un, 1) == 0) {
934 			mddb_setrecprivate(recid, MD_PRV_GOTIT);
935 			md_create_unit_incore(MD_SID(un), &trans_md_ops, 0);
936 			gotsomething = 1;
937 		}
938 	}
939 
940 	if (!all_trans_gotten)
941 		return (gotsomething);
942 
943 	recid = mddb_makerecid(setno, 0);
944 	while ((recid = mddb_getnextrec(recid, typ1, 0)) > 0)
945 		if (!(mddb_getrecprivate(recid) & MD_PRV_GOTIT))
946 			mddb_setrecprivate(recid, MD_PRV_PENDDEL);
947 	return (0);
948 }
949 
950 static int
951 trans_halt(md_haltcmd_t cmd, set_t setno)
952 {
953 	unit_t		i;
954 	mdi_unit_t	*ui;
955 	minor_t		mnum;
956 	mt_unit_t	*un;
957 
958 	if (cmd == MD_HALT_CLOSE) {
959 		for (i = 0; i < md_nunits; i++) {
960 			mnum = MD_MKMIN(setno, i);
961 			if ((ui = MDI_UNIT(mnum)) == NULL)
962 				continue;
963 			if (ui->ui_opsindex != trans_md_ops.md_selfindex)
964 				continue;
965 			if (md_unit_isopen(ui)) {
966 				return (1);
967 			}
968 		}
969 		for (i = 0; i < md_nunits; i++) {
970 			mnum = MD_MKMIN(setno, i);
971 			if ((ui = MDI_UNIT(mnum)) == NULL)
972 				continue;
973 			if (ui->ui_opsindex != trans_md_ops.md_selfindex)
974 				continue;
975 			un = (mt_unit_t *)MD_UNIT(mnum);
976 			if ((un->un_flags & TRANS_NEED_OPEN) == 0) {
977 				trans_close_all_devs(un);
978 			}
979 		}
980 		return (0);
981 	}
982 
983 	if (cmd == MD_HALT_OPEN) {
984 		for (i = 0; i < md_nunits; i++) {
985 			mnum = MD_MKMIN(setno, i);
986 			if ((ui = MDI_UNIT(mnum)) == NULL)
987 				continue;
988 			if (ui->ui_opsindex != trans_md_ops.md_selfindex)
989 				continue;
990 			ldl_open_underlying((mt_unit_t *)MD_UNIT(mnum));
991 		}
992 		return (0);
993 	}
994 
995 	if (cmd == MD_HALT_CHECK) {
996 		for (i = 0; i < md_nunits; i++) {
997 			mnum = MD_MKMIN(setno, i);
998 			if ((ui = MDI_UNIT(mnum)) == NULL)
999 				continue;
1000 			if (ui->ui_opsindex != trans_md_ops.md_selfindex)
1001 				continue;
1002 			if (md_unit_isopen(ui)) {
1003 				return (1);
1004 			}
1005 		}
1006 		return (0);
1007 	}
1008 	if (cmd == MD_HALT_DOIT) {
1009 		for (i = 0; i < md_nunits; i++) {
1010 			mnum = MD_MKMIN(setno, i);
1011 			if ((ui = MDI_UNIT(mnum)) == NULL)
1012 				continue;
1013 			if (ui->ui_opsindex != trans_md_ops.md_selfindex)
1014 				continue;
1015 			(void) trans_reset((mt_unit_t *)MD_UNIT(mnum), mnum,
1016 			    0, 1);
1017 		}
1018 		return (0);
1019 	}
1020 	if (cmd == MD_HALT_UNLOAD)
1021 		return (0);
1022 
1023 	return (1);
1024 }
1025 
1026 /*ARGSUSED3*/
1027 static int
1028 trans_open(
1029 	dev_t		*dev,
1030 	int		flag,
1031 	int		otyp,
1032 	cred_t		*cred_p,
1033 	int		md_oflags
1034 )
1035 {
1036 	minor_t		mnum = getminor(*dev);
1037 	mdi_unit_t	*ui = MDI_UNIT(mnum);
1038 	mt_unit_t	*un;
1039 	int		err;
1040 
1041 	/* disallow layered opens (e.g., PrestoServe) */
1042 	if (otyp == OTYP_LYR)
1043 		return (EINVAL);
1044 
1045 	/* single thread */
1046 	un = (mt_unit_t *)md_unit_openclose_enter(ui);
1047 
1048 	/* if already open, count open, return success */
1049 	if (md_unit_isopen(ui)) {
1050 		err = md_unit_incopen(mnum, flag, otyp);
1051 		md_unit_openclose_exit(ui);
1052 		if (err != 0)
1053 			return (err);
1054 		return (0);
1055 	}
1056 
1057 	/*
1058 	 * For some reason, not all of the metatrans devices attached to
1059 	 * this log were openable at snarf;  try again now.  All of the
1060 	 * underlying devices have to be openable for the roll thread to work.
1061 	 */
1062 	if (un->un_flags & TRANS_NEED_OPEN) {
1063 		md_unit_openclose_exit(ui);
1064 		ldl_open_underlying(un);
1065 		if (un->un_flags & TRANS_NEED_OPEN)
1066 			return (EINVAL);
1067 		un = (mt_unit_t *)md_unit_openclose_enter(ui);
1068 	}
1069 
1070 	/* count open */
1071 	err = md_unit_incopen(mnum, flag, otyp);
1072 	md_unit_openclose_exit(ui);
1073 	if (err != 0)
1074 		return (err);
1075 
1076 	/* return success */
1077 	return (0);
1078 }
1079 
1080 /*ARGSUSED1*/
1081 static int
1082 trans_close(
1083 	dev_t		dev,
1084 	int		flag,
1085 	int		otyp,
1086 	cred_t		*cred_p,
1087 	int		md_oflags
1088 )
1089 {
1090 	minor_t		mnum = getminor(dev);
1091 	mdi_unit_t	*ui = MDI_UNIT(mnum);
1092 	mt_unit_t	*un;
1093 	int		err = 0;
1094 
1095 	/* single thread */
1096 	un = (mt_unit_t *)md_unit_openclose_enter(ui);
1097 
1098 	/* count closed */
1099 	if ((err = md_unit_decopen(mnum, otyp)) != 0) {
1100 		md_unit_openclose_exit(ui);
1101 		return (err);
1102 	}
1103 
1104 	/* if still open */
1105 	if (md_unit_isopen(ui)) {
1106 		md_unit_openclose_exit(ui);
1107 		return (0);
1108 	}
1109 	md_unit_openclose_exit(ui);
1110 
1111 	if (un->un_flags & TRANS_DETACHING) {
1112 		/*
1113 		 * prevent new opens and try to detach the log
1114 		 */
1115 		rw_enter(&md_unit_array_rw.lock, RW_WRITER);
1116 		(void) trans_detach(un, 0);
1117 		rw_exit(&md_unit_array_rw.lock);
1118 	}
1119 	if (un->un_flags & TRANS_ATTACHING) {
1120 		/*
1121 		 * prevent new opens and try to attach the log
1122 		 */
1123 		rw_enter(&md_unit_array_rw.lock, RW_WRITER);
1124 		trans_attach(un, 1);
1125 		rw_exit(&md_unit_array_rw.lock);
1126 	}
1127 
1128 	return (0);
1129 }
1130 
1131 static int
1132 trans_imp_set(
1133 	set_t	setno
1134 )
1135 {
1136 	mt_unit32_od_t	*un32;
1137 	ml_unit32_od_t	*ul32;
1138 	mddb_recid_t	recid;
1139 	int		gotsomething = 0;
1140 	mddb_type_t	typ1;
1141 	minor_t		*self_id;	/* minor needs to be updated */
1142 	mddb_recid_t	*record_id;	/* record id needs to be updated */
1143 
1144 	/*
1145 	 * Do log first if there is any
1146 	 * Note that trans record is always 32 bit
1147 	 */
1148 	typ1 = (mddb_type_t)md_getshared_key(setno,
1149 	    trans_md_ops.md_driver.md_drivername);
1150 	recid = mddb_makerecid(setno, 0);
1151 
1152 	while ((recid = mddb_getnextrec(recid, typ1, LOG_REC)) > 0) {
1153 		if (mddb_getrecprivate(recid) & MD_PRV_GOTIT)
1154 			continue;
1155 
1156 		ul32 = (ml_unit32_od_t *)mddb_getrecaddr(recid);
1157 
1158 		/*
1159 		 * Trans log record always is old format
1160 		 * Go ahead update the record with the new set info
1161 		 */
1162 		record_id = &(ul32->un_recid);
1163 
1164 		/*
1165 		 * Mark the record and update it
1166 		 */
1167 		*record_id = MAKERECID(setno, DBID(*record_id));
1168 		if (!md_update_minor(setno, mddb_getsidenum
1169 			(setno), ul32->un_key))
1170 			goto out;
1171 		mddb_setrecprivate(recid, MD_PRV_GOTIT);
1172 	}
1173 
1174 
1175 	/*
1176 	 * Now do the master
1177 	 */
1178 	recid = mddb_makerecid(setno, 0);
1179 	while ((recid = mddb_getnextrec(recid, typ1, TRANS_REC)) > 0) {
1180 		if (mddb_getrecprivate(recid) & MD_PRV_GOTIT)
1181 			continue;
1182 
1183 		un32 = (mt_unit32_od_t *)mddb_getrecaddr(recid);
1184 
1185 		/*
1186 		 * Trans master record always is old format
1187 		 */
1188 		self_id = &(un32->c.un_self_id);
1189 		record_id = &(un32->c.un_record_id);
1190 
1191 		/*
1192 		 * Mark the record and update it
1193 		 */
1194 		*record_id = MAKERECID(setno, DBID(*record_id));
1195 		*self_id = MD_MKMIN(setno, MD_MIN2UNIT(*self_id));
1196 		if (!md_update_minor(setno, mddb_getsidenum
1197 			(setno), un32->un_m_key))
1198 			goto out;
1199 		mddb_setrecprivate(recid, MD_PRV_GOTIT);
1200 
1201 		gotsomething = 1;
1202 	}
1203 
1204 out:
1205 	return (gotsomething);
1206 }
1207 
1208 static md_named_services_t	trans_named_services[] = {
1209 	{(intptr_t (*)()) trans_rename_listkids,	MDRNM_LIST_URKIDS   },
1210 	{(intptr_t (*)()) trans_rename_check,		MDRNM_CHECK	    },
1211 	{(intptr_t (*)()) trans_renexch_update_kids,	MDRNM_UPDATE_KIDS   },
1212 	{(intptr_t (*)()) trans_rename_update_self,	MDRNM_UPDATE_SELF   },
1213 	{(intptr_t (*)()) trans_exchange_self_update_from_down,
1214 						MDRNM_SELF_UPDATE_FROM_DOWN },
1215 	{(intptr_t (*)()) trans_exchange_parent_update_to,
1216 						MDRNM_PARENT_UPDATE_TO	    },
1217 	{NULL,						0		    }
1218 };
1219 
1220 md_ops_t trans_md_ops = {
1221 	trans_open,		/* open */
1222 	trans_close,		/* close */
1223 	md_trans_strategy,	/* strategy */
1224 	NULL,			/* print */
1225 	NULL,			/* dump */
1226 	md_trans_read,		/* read */
1227 	md_trans_write,		/* write */
1228 	md_trans_ioctl,		/* trans ioctl */
1229 	trans_snarf,		/* trans_snarf */
1230 	trans_halt,		/* halt */
1231 	md_trans_aread,		/* aread */
1232 	md_trans_awrite,	/* awrite */
1233 	trans_imp_set,		/* import set */
1234 	trans_named_services
1235 };
1236 
1237 static void
1238 init_init(void)
1239 {
1240 	_init_ldl();
1241 	ASSERT(_init_debug());
1242 	trans_parent_cache = kmem_cache_create("md_trans_parent",
1243 	    sizeof (md_tps_t), 0, NULL, NULL, NULL, NULL, NULL, 0);
1244 	trans_child_cache = kmem_cache_create("md_trans_child", biosize(), 0,
1245 	    trans_child_constructor, trans_child_destructor,
1246 	    NULL, NULL, NULL, 0);
1247 }
1248 
1249 static void
1250 fini_uninit(void)
1251 {
1252 	ASSERT(_fini_debug());
1253 	_fini_ldl();
1254 	kmem_cache_destroy(trans_parent_cache);
1255 	kmem_cache_destroy(trans_child_cache);
1256 	trans_parent_cache = trans_child_cache = NULL;
1257 }
1258 
1259 /* define the module linkage */
1260 MD_PLUGIN_MISC_MODULE("trans module %I%", init_init(), fini_uninit())
1261