xref: /titanic_44/usr/src/uts/common/fs/zfs/sa.c (revision 98573c1925f3692d1e8ea9eb018cb915fc0becc5)
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 (c) 2010, Oracle and/or its affiliates. All rights reserved.
24  * Portions Copyright 2011 iXsystems, Inc
25  * Copyright (c) 2013 by Delphix. All rights reserved.
26  * Copyright (c) 2014 Spectra Logic Corporation, All rights reserved.
27  */
28 
29 #include <sys/zfs_context.h>
30 #include <sys/types.h>
31 #include <sys/param.h>
32 #include <sys/systm.h>
33 #include <sys/sysmacros.h>
34 #include <sys/dmu.h>
35 #include <sys/dmu_impl.h>
36 #include <sys/dmu_objset.h>
37 #include <sys/dbuf.h>
38 #include <sys/dnode.h>
39 #include <sys/zap.h>
40 #include <sys/sa.h>
41 #include <sys/sunddi.h>
42 #include <sys/sa_impl.h>
43 #include <sys/dnode.h>
44 #include <sys/errno.h>
45 #include <sys/zfs_context.h>
46 
47 /*
48  * ZFS System attributes:
49  *
50  * A generic mechanism to allow for arbitrary attributes
51  * to be stored in a dnode.  The data will be stored in the bonus buffer of
52  * the dnode and if necessary a special "spill" block will be used to handle
53  * overflow situations.  The spill block will be sized to fit the data
54  * from 512 - 128K.  When a spill block is used the BP (blkptr_t) for the
55  * spill block is stored at the end of the current bonus buffer.  Any
56  * attributes that would be in the way of the blkptr_t will be relocated
57  * into the spill block.
58  *
59  * Attribute registration:
60  *
61  * Stored persistently on a per dataset basis
62  * a mapping between attribute "string" names and their actual attribute
63  * numeric values, length, and byteswap function.  The names are only used
64  * during registration.  All  attributes are known by their unique attribute
65  * id value.  If an attribute can have a variable size then the value
66  * 0 will be used to indicate this.
67  *
68  * Attribute Layout:
69  *
70  * Attribute layouts are a way to compactly store multiple attributes, but
71  * without taking the overhead associated with managing each attribute
72  * individually.  Since you will typically have the same set of attributes
73  * stored in the same order a single table will be used to represent that
74  * layout.  The ZPL for example will usually have only about 10 different
75  * layouts (regular files, device files, symlinks,
76  * regular files + scanstamp, files/dir with extended attributes, and then
77  * you have the possibility of all of those minus ACL, because it would
78  * be kicked out into the spill block)
79  *
80  * Layouts are simply an array of the attributes and their
81  * ordering i.e. [0, 1, 4, 5, 2]
82  *
83  * Each distinct layout is given a unique layout number and that is whats
84  * stored in the header at the beginning of the SA data buffer.
85  *
86  * A layout only covers a single dbuf (bonus or spill).  If a set of
87  * attributes is split up between the bonus buffer and a spill buffer then
88  * two different layouts will be used.  This allows us to byteswap the
89  * spill without looking at the bonus buffer and keeps the on disk format of
90  * the bonus and spill buffer the same.
91  *
92  * Adding a single attribute will cause the entire set of attributes to
93  * be rewritten and could result in a new layout number being constructed
94  * as part of the rewrite if no such layout exists for the new set of
95  * attribues.  The new attribute will be appended to the end of the already
96  * existing attributes.
97  *
98  * Both the attribute registration and attribute layout information are
99  * stored in normal ZAP attributes.  Their should be a small number of
100  * known layouts and the set of attributes is assumed to typically be quite
101  * small.
102  *
103  * The registered attributes and layout "table" information is maintained
104  * in core and a special "sa_os_t" is attached to the objset_t.
105  *
106  * A special interface is provided to allow for quickly applying
107  * a large set of attributes at once.  sa_replace_all_by_template() is
108  * used to set an array of attributes.  This is used by the ZPL when
109  * creating a brand new file.  The template that is passed into the function
110  * specifies the attribute, size for variable length attributes, location of
111  * data and special "data locator" function if the data isn't in a contiguous
112  * location.
113  *
114  * Byteswap implications:
115  *
116  * Since the SA attributes are not entirely self describing we can't do
117  * the normal byteswap processing.  The special ZAP layout attribute and
118  * attribute registration attributes define the byteswap function and the
119  * size of the attributes, unless it is variable sized.
120  * The normal ZFS byteswapping infrastructure assumes you don't need
121  * to read any objects in order to do the necessary byteswapping.  Whereas
122  * SA attributes can only be properly byteswapped if the dataset is opened
123  * and the layout/attribute ZAP attributes are available.  Because of this
124  * the SA attributes will be byteswapped when they are first accessed by
125  * the SA code that will read the SA data.
126  */
127 
128 typedef void (sa_iterfunc_t)(void *hdr, void *addr, sa_attr_type_t,
129     uint16_t length, int length_idx, boolean_t, void *userp);
130 
131 static int sa_build_index(sa_handle_t *hdl, sa_buf_type_t buftype);
132 static void sa_idx_tab_hold(objset_t *os, sa_idx_tab_t *idx_tab);
133 static void *sa_find_idx_tab(objset_t *os, dmu_object_type_t bonustype,
134     void *data);
135 static void sa_idx_tab_rele(objset_t *os, void *arg);
136 static void sa_copy_data(sa_data_locator_t *func, void *start, void *target,
137     int buflen);
138 static int sa_modify_attrs(sa_handle_t *hdl, sa_attr_type_t newattr,
139     sa_data_op_t action, sa_data_locator_t *locator, void *datastart,
140     uint16_t buflen, dmu_tx_t *tx);
141 
142 arc_byteswap_func_t *sa_bswap_table[] = {
143 	byteswap_uint64_array,
144 	byteswap_uint32_array,
145 	byteswap_uint16_array,
146 	byteswap_uint8_array,
147 	zfs_acl_byteswap,
148 };
149 
150 #define	SA_COPY_DATA(f, s, t, l) \
151 	{ \
152 		if (f == NULL) { \
153 			if (l == 8) { \
154 				*(uint64_t *)t = *(uint64_t *)s; \
155 			} else if (l == 16) { \
156 				*(uint64_t *)t = *(uint64_t *)s; \
157 				*(uint64_t *)((uintptr_t)t + 8) = \
158 				    *(uint64_t *)((uintptr_t)s + 8); \
159 			} else { \
160 				bcopy(s, t, l); \
161 			} \
162 		} else \
163 			sa_copy_data(f, s, t, l); \
164 	}
165 
166 /*
167  * This table is fixed and cannot be changed.  Its purpose is to
168  * allow the SA code to work with both old/new ZPL file systems.
169  * It contains the list of legacy attributes.  These attributes aren't
170  * stored in the "attribute" registry zap objects, since older ZPL file systems
171  * won't have the registry.  Only objsets of type ZFS_TYPE_FILESYSTEM will
172  * use this static table.
173  */
174 sa_attr_reg_t sa_legacy_attrs[] = {
175 	{"ZPL_ATIME", sizeof (uint64_t) * 2, SA_UINT64_ARRAY, 0},
176 	{"ZPL_MTIME", sizeof (uint64_t) * 2, SA_UINT64_ARRAY, 1},
177 	{"ZPL_CTIME", sizeof (uint64_t) * 2, SA_UINT64_ARRAY, 2},
178 	{"ZPL_CRTIME", sizeof (uint64_t) * 2, SA_UINT64_ARRAY, 3},
179 	{"ZPL_GEN", sizeof (uint64_t), SA_UINT64_ARRAY, 4},
180 	{"ZPL_MODE", sizeof (uint64_t), SA_UINT64_ARRAY, 5},
181 	{"ZPL_SIZE", sizeof (uint64_t), SA_UINT64_ARRAY, 6},
182 	{"ZPL_PARENT", sizeof (uint64_t), SA_UINT64_ARRAY, 7},
183 	{"ZPL_LINKS", sizeof (uint64_t), SA_UINT64_ARRAY, 8},
184 	{"ZPL_XATTR", sizeof (uint64_t), SA_UINT64_ARRAY, 9},
185 	{"ZPL_RDEV", sizeof (uint64_t), SA_UINT64_ARRAY, 10},
186 	{"ZPL_FLAGS", sizeof (uint64_t), SA_UINT64_ARRAY, 11},
187 	{"ZPL_UID", sizeof (uint64_t), SA_UINT64_ARRAY, 12},
188 	{"ZPL_GID", sizeof (uint64_t), SA_UINT64_ARRAY, 13},
189 	{"ZPL_PAD", sizeof (uint64_t) * 4, SA_UINT64_ARRAY, 14},
190 	{"ZPL_ZNODE_ACL", 88, SA_UINT8_ARRAY, 15},
191 };
192 
193 /*
194  * This is only used for objects of type DMU_OT_ZNODE
195  */
196 sa_attr_type_t sa_legacy_zpl_layout[] = {
197     0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15
198 };
199 
200 /*
201  * Special dummy layout used for buffers with no attributes.
202  */
203 sa_attr_type_t sa_dummy_zpl_layout[] = { 0 };
204 
205 static int sa_legacy_attr_count = 16;
206 static kmem_cache_t *sa_cache = NULL;
207 
208 /*ARGSUSED*/
209 static int
210 sa_cache_constructor(void *buf, void *unused, int kmflag)
211 {
212 	sa_handle_t *hdl = buf;
213 
214 	mutex_init(&hdl->sa_lock, NULL, MUTEX_DEFAULT, NULL);
215 	return (0);
216 }
217 
218 /*ARGSUSED*/
219 static void
220 sa_cache_destructor(void *buf, void *unused)
221 {
222 	sa_handle_t *hdl = buf;
223 	mutex_destroy(&hdl->sa_lock);
224 }
225 
226 void
227 sa_cache_init(void)
228 {
229 	sa_cache = kmem_cache_create("sa_cache",
230 	    sizeof (sa_handle_t), 0, sa_cache_constructor,
231 	    sa_cache_destructor, NULL, NULL, NULL, 0);
232 }
233 
234 void
235 sa_cache_fini(void)
236 {
237 	if (sa_cache)
238 		kmem_cache_destroy(sa_cache);
239 }
240 
241 static int
242 layout_num_compare(const void *arg1, const void *arg2)
243 {
244 	const sa_lot_t *node1 = arg1;
245 	const sa_lot_t *node2 = arg2;
246 
247 	if (node1->lot_num > node2->lot_num)
248 		return (1);
249 	else if (node1->lot_num < node2->lot_num)
250 		return (-1);
251 	return (0);
252 }
253 
254 static int
255 layout_hash_compare(const void *arg1, const void *arg2)
256 {
257 	const sa_lot_t *node1 = arg1;
258 	const sa_lot_t *node2 = arg2;
259 
260 	if (node1->lot_hash > node2->lot_hash)
261 		return (1);
262 	if (node1->lot_hash < node2->lot_hash)
263 		return (-1);
264 	if (node1->lot_instance > node2->lot_instance)
265 		return (1);
266 	if (node1->lot_instance < node2->lot_instance)
267 		return (-1);
268 	return (0);
269 }
270 
271 boolean_t
272 sa_layout_equal(sa_lot_t *tbf, sa_attr_type_t *attrs, int count)
273 {
274 	int i;
275 
276 	if (count != tbf->lot_attr_count)
277 		return (1);
278 
279 	for (i = 0; i != count; i++) {
280 		if (attrs[i] != tbf->lot_attrs[i])
281 			return (1);
282 	}
283 	return (0);
284 }
285 
286 #define	SA_ATTR_HASH(attr) (zfs_crc64_table[(-1ULL ^ attr) & 0xFF])
287 
288 static uint64_t
289 sa_layout_info_hash(sa_attr_type_t *attrs, int attr_count)
290 {
291 	int i;
292 	uint64_t crc = -1ULL;
293 
294 	for (i = 0; i != attr_count; i++)
295 		crc ^= SA_ATTR_HASH(attrs[i]);
296 
297 	return (crc);
298 }
299 
300 static int
301 sa_get_spill(sa_handle_t *hdl)
302 {
303 	int rc;
304 	if (hdl->sa_spill == NULL) {
305 		if ((rc = dmu_spill_hold_existing(hdl->sa_bonus, NULL,
306 		    &hdl->sa_spill)) == 0)
307 			VERIFY(0 == sa_build_index(hdl, SA_SPILL));
308 	} else {
309 		rc = 0;
310 	}
311 
312 	return (rc);
313 }
314 
315 /*
316  * Main attribute lookup/update function
317  * returns 0 for success or non zero for failures
318  *
319  * Operates on bulk array, first failure will abort further processing
320  */
321 int
322 sa_attr_op(sa_handle_t *hdl, sa_bulk_attr_t *bulk, int count,
323     sa_data_op_t data_op, dmu_tx_t *tx)
324 {
325 	sa_os_t *sa = hdl->sa_os->os_sa;
326 	int i;
327 	int error = 0;
328 	sa_buf_type_t buftypes;
329 
330 	buftypes = 0;
331 
332 	ASSERT(count > 0);
333 	for (i = 0; i != count; i++) {
334 		ASSERT(bulk[i].sa_attr <= hdl->sa_os->os_sa->sa_num_attrs);
335 
336 		bulk[i].sa_addr = NULL;
337 		/* First check the bonus buffer */
338 
339 		if (hdl->sa_bonus_tab && TOC_ATTR_PRESENT(
340 		    hdl->sa_bonus_tab->sa_idx_tab[bulk[i].sa_attr])) {
341 			SA_ATTR_INFO(sa, hdl->sa_bonus_tab,
342 			    SA_GET_HDR(hdl, SA_BONUS),
343 			    bulk[i].sa_attr, bulk[i], SA_BONUS, hdl);
344 			if (tx && !(buftypes & SA_BONUS)) {
345 				dmu_buf_will_dirty(hdl->sa_bonus, tx);
346 				buftypes |= SA_BONUS;
347 			}
348 		}
349 		if (bulk[i].sa_addr == NULL &&
350 		    ((error = sa_get_spill(hdl)) == 0)) {
351 			if (TOC_ATTR_PRESENT(
352 			    hdl->sa_spill_tab->sa_idx_tab[bulk[i].sa_attr])) {
353 				SA_ATTR_INFO(sa, hdl->sa_spill_tab,
354 				    SA_GET_HDR(hdl, SA_SPILL),
355 				    bulk[i].sa_attr, bulk[i], SA_SPILL, hdl);
356 				if (tx && !(buftypes & SA_SPILL) &&
357 				    bulk[i].sa_size == bulk[i].sa_length) {
358 					dmu_buf_will_dirty(hdl->sa_spill, tx);
359 					buftypes |= SA_SPILL;
360 				}
361 			}
362 		}
363 		if (error && error != ENOENT) {
364 			return ((error == ECKSUM) ? EIO : error);
365 		}
366 
367 		switch (data_op) {
368 		case SA_LOOKUP:
369 			if (bulk[i].sa_addr == NULL)
370 				return (SET_ERROR(ENOENT));
371 			if (bulk[i].sa_data) {
372 				SA_COPY_DATA(bulk[i].sa_data_func,
373 				    bulk[i].sa_addr, bulk[i].sa_data,
374 				    bulk[i].sa_size);
375 			}
376 			continue;
377 
378 		case SA_UPDATE:
379 			/* existing rewrite of attr */
380 			if (bulk[i].sa_addr &&
381 			    bulk[i].sa_size == bulk[i].sa_length) {
382 				SA_COPY_DATA(bulk[i].sa_data_func,
383 				    bulk[i].sa_data, bulk[i].sa_addr,
384 				    bulk[i].sa_length);
385 				continue;
386 			} else if (bulk[i].sa_addr) { /* attr size change */
387 				error = sa_modify_attrs(hdl, bulk[i].sa_attr,
388 				    SA_REPLACE, bulk[i].sa_data_func,
389 				    bulk[i].sa_data, bulk[i].sa_length, tx);
390 			} else { /* adding new attribute */
391 				error = sa_modify_attrs(hdl, bulk[i].sa_attr,
392 				    SA_ADD, bulk[i].sa_data_func,
393 				    bulk[i].sa_data, bulk[i].sa_length, tx);
394 			}
395 			if (error)
396 				return (error);
397 			break;
398 		}
399 	}
400 	return (error);
401 }
402 
403 static sa_lot_t *
404 sa_add_layout_entry(objset_t *os, sa_attr_type_t *attrs, int attr_count,
405     uint64_t lot_num, uint64_t hash, boolean_t zapadd, dmu_tx_t *tx)
406 {
407 	sa_os_t *sa = os->os_sa;
408 	sa_lot_t *tb, *findtb;
409 	int i;
410 	avl_index_t loc;
411 
412 	ASSERT(MUTEX_HELD(&sa->sa_lock));
413 	tb = kmem_zalloc(sizeof (sa_lot_t), KM_SLEEP);
414 	tb->lot_attr_count = attr_count;
415 	tb->lot_attrs = kmem_alloc(sizeof (sa_attr_type_t) * attr_count,
416 	    KM_SLEEP);
417 	bcopy(attrs, tb->lot_attrs, sizeof (sa_attr_type_t) * attr_count);
418 	tb->lot_num = lot_num;
419 	tb->lot_hash = hash;
420 	tb->lot_instance = 0;
421 
422 	if (zapadd) {
423 		char attr_name[8];
424 
425 		if (sa->sa_layout_attr_obj == 0) {
426 			sa->sa_layout_attr_obj = zap_create_link(os,
427 			    DMU_OT_SA_ATTR_LAYOUTS,
428 			    sa->sa_master_obj, SA_LAYOUTS, tx);
429 		}
430 
431 		(void) snprintf(attr_name, sizeof (attr_name),
432 		    "%d", (int)lot_num);
433 		VERIFY(0 == zap_update(os, os->os_sa->sa_layout_attr_obj,
434 		    attr_name, 2, attr_count, attrs, tx));
435 	}
436 
437 	list_create(&tb->lot_idx_tab, sizeof (sa_idx_tab_t),
438 	    offsetof(sa_idx_tab_t, sa_next));
439 
440 	for (i = 0; i != attr_count; i++) {
441 		if (sa->sa_attr_table[tb->lot_attrs[i]].sa_length == 0)
442 			tb->lot_var_sizes++;
443 	}
444 
445 	avl_add(&sa->sa_layout_num_tree, tb);
446 
447 	/* verify we don't have a hash collision */
448 	if ((findtb = avl_find(&sa->sa_layout_hash_tree, tb, &loc)) != NULL) {
449 		for (; findtb && findtb->lot_hash == hash;
450 		    findtb = AVL_NEXT(&sa->sa_layout_hash_tree, findtb)) {
451 			if (findtb->lot_instance != tb->lot_instance)
452 				break;
453 			tb->lot_instance++;
454 		}
455 	}
456 	avl_add(&sa->sa_layout_hash_tree, tb);
457 	return (tb);
458 }
459 
460 static void
461 sa_find_layout(objset_t *os, uint64_t hash, sa_attr_type_t *attrs,
462     int count, dmu_tx_t *tx, sa_lot_t **lot)
463 {
464 	sa_lot_t *tb, tbsearch;
465 	avl_index_t loc;
466 	sa_os_t *sa = os->os_sa;
467 	boolean_t found = B_FALSE;
468 
469 	mutex_enter(&sa->sa_lock);
470 	tbsearch.lot_hash = hash;
471 	tbsearch.lot_instance = 0;
472 	tb = avl_find(&sa->sa_layout_hash_tree, &tbsearch, &loc);
473 	if (tb) {
474 		for (; tb && tb->lot_hash == hash;
475 		    tb = AVL_NEXT(&sa->sa_layout_hash_tree, tb)) {
476 			if (sa_layout_equal(tb, attrs, count) == 0) {
477 				found = B_TRUE;
478 				break;
479 			}
480 		}
481 	}
482 	if (!found) {
483 		tb = sa_add_layout_entry(os, attrs, count,
484 		    avl_numnodes(&sa->sa_layout_num_tree), hash, B_TRUE, tx);
485 	}
486 	mutex_exit(&sa->sa_lock);
487 	*lot = tb;
488 }
489 
490 static int
491 sa_resize_spill(sa_handle_t *hdl, uint32_t size, dmu_tx_t *tx)
492 {
493 	int error;
494 	uint32_t blocksize;
495 
496 	if (size == 0) {
497 		blocksize = SPA_MINBLOCKSIZE;
498 	} else if (size > SPA_OLD_MAXBLOCKSIZE) {
499 		ASSERT(0);
500 		return (SET_ERROR(EFBIG));
501 	} else {
502 		blocksize = P2ROUNDUP_TYPED(size, SPA_MINBLOCKSIZE, uint32_t);
503 	}
504 
505 	error = dbuf_spill_set_blksz(hdl->sa_spill, blocksize, tx);
506 	ASSERT(error == 0);
507 	return (error);
508 }
509 
510 static void
511 sa_copy_data(sa_data_locator_t *func, void *datastart, void *target, int buflen)
512 {
513 	if (func == NULL) {
514 		bcopy(datastart, target, buflen);
515 	} else {
516 		boolean_t start;
517 		int bytes;
518 		void *dataptr;
519 		void *saptr = target;
520 		uint32_t length;
521 
522 		start = B_TRUE;
523 		bytes = 0;
524 		while (bytes < buflen) {
525 			func(&dataptr, &length, buflen, start, datastart);
526 			bcopy(dataptr, saptr, length);
527 			saptr = (void *)((caddr_t)saptr + length);
528 			bytes += length;
529 			start = B_FALSE;
530 		}
531 	}
532 }
533 
534 /*
535  * Determine several different sizes
536  * first the sa header size
537  * the number of bytes to be stored
538  * if spill would occur the index in the attribute array is returned
539  *
540  * the boolean will_spill will be set when spilling is necessary.  It
541  * is only set when the buftype is SA_BONUS
542  */
543 static int
544 sa_find_sizes(sa_os_t *sa, sa_bulk_attr_t *attr_desc, int attr_count,
545     dmu_buf_t *db, sa_buf_type_t buftype, int *index, int *total,
546     boolean_t *will_spill)
547 {
548 	int var_size = 0;
549 	int i;
550 	int j = -1;
551 	int full_space;
552 	int hdrsize;
553 	boolean_t done = B_FALSE;
554 
555 	if (buftype == SA_BONUS && sa->sa_force_spill) {
556 		*total = 0;
557 		*index = 0;
558 		*will_spill = B_TRUE;
559 		return (0);
560 	}
561 
562 	*index = -1;
563 	*total = 0;
564 
565 	if (buftype == SA_BONUS)
566 		*will_spill = B_FALSE;
567 
568 	hdrsize = (SA_BONUSTYPE_FROM_DB(db) == DMU_OT_ZNODE) ? 0 :
569 	    sizeof (sa_hdr_phys_t);
570 
571 	full_space = (buftype == SA_BONUS) ? DN_MAX_BONUSLEN : db->db_size;
572 	ASSERT(IS_P2ALIGNED(full_space, 8));
573 
574 	for (i = 0; i != attr_count; i++) {
575 		boolean_t is_var_sz;
576 
577 		*total = P2ROUNDUP(*total, 8);
578 		*total += attr_desc[i].sa_length;
579 		if (done)
580 			goto next;
581 
582 		is_var_sz = (SA_REGISTERED_LEN(sa, attr_desc[i].sa_attr) == 0);
583 		if (is_var_sz) {
584 			var_size++;
585 		}
586 
587 		if (is_var_sz && var_size > 1) {
588 			if (P2ROUNDUP(hdrsize + sizeof (uint16_t), 8) +
589 			    *total < full_space) {
590 				/*
591 				 * Account for header space used by array of
592 				 * optional sizes of variable-length attributes.
593 				 * Record the index in case this increase needs
594 				 * to be reversed due to spill-over.
595 				 */
596 				hdrsize += sizeof (uint16_t);
597 				j = i;
598 			} else {
599 				done = B_TRUE;
600 				*index = i;
601 				if (buftype == SA_BONUS)
602 					*will_spill = B_TRUE;
603 				continue;
604 			}
605 		}
606 
607 		/*
608 		 * find index of where spill *could* occur.
609 		 * Then continue to count of remainder attribute
610 		 * space.  The sum is used later for sizing bonus
611 		 * and spill buffer.
612 		 */
613 		if (buftype == SA_BONUS && *index == -1 &&
614 		    *total + P2ROUNDUP(hdrsize, 8) >
615 		    (full_space - sizeof (blkptr_t))) {
616 			*index = i;
617 			done = B_TRUE;
618 		}
619 
620 next:
621 		if (*total + P2ROUNDUP(hdrsize, 8) > full_space &&
622 		    buftype == SA_BONUS)
623 			*will_spill = B_TRUE;
624 	}
625 
626 	/*
627 	 * j holds the index of the last variable-sized attribute for
628 	 * which hdrsize was increased.  Reverse the increase if that
629 	 * attribute will be relocated to the spill block.
630 	 */
631 	if (*will_spill && j == *index)
632 		hdrsize -= sizeof (uint16_t);
633 
634 	hdrsize = P2ROUNDUP(hdrsize, 8);
635 	return (hdrsize);
636 }
637 
638 #define	BUF_SPACE_NEEDED(total, header) (total + header)
639 
640 /*
641  * Find layout that corresponds to ordering of attributes
642  * If not found a new layout number is created and added to
643  * persistent layout tables.
644  */
645 static int
646 sa_build_layouts(sa_handle_t *hdl, sa_bulk_attr_t *attr_desc, int attr_count,
647     dmu_tx_t *tx)
648 {
649 	sa_os_t *sa = hdl->sa_os->os_sa;
650 	uint64_t hash;
651 	sa_buf_type_t buftype;
652 	sa_hdr_phys_t *sahdr;
653 	void *data_start;
654 	int buf_space;
655 	sa_attr_type_t *attrs, *attrs_start;
656 	int i, lot_count;
657 	int hdrsize;
658 	int spillhdrsize = 0;
659 	int used;
660 	dmu_object_type_t bonustype;
661 	sa_lot_t *lot;
662 	int len_idx;
663 	int spill_used;
664 	boolean_t spilling;
665 
666 	dmu_buf_will_dirty(hdl->sa_bonus, tx);
667 	bonustype = SA_BONUSTYPE_FROM_DB(hdl->sa_bonus);
668 
669 	/* first determine bonus header size and sum of all attributes */
670 	hdrsize = sa_find_sizes(sa, attr_desc, attr_count, hdl->sa_bonus,
671 	    SA_BONUS, &i, &used, &spilling);
672 
673 	if (used > SPA_OLD_MAXBLOCKSIZE)
674 		return (SET_ERROR(EFBIG));
675 
676 	VERIFY(0 == dmu_set_bonus(hdl->sa_bonus, spilling ?
677 	    MIN(DN_MAX_BONUSLEN - sizeof (blkptr_t), used + hdrsize) :
678 	    used + hdrsize, tx));
679 
680 	ASSERT((bonustype == DMU_OT_ZNODE && spilling == 0) ||
681 	    bonustype == DMU_OT_SA);
682 
683 	/* setup and size spill buffer when needed */
684 	if (spilling) {
685 		boolean_t dummy;
686 
687 		if (hdl->sa_spill == NULL) {
688 			VERIFY(dmu_spill_hold_by_bonus(hdl->sa_bonus, NULL,
689 			    &hdl->sa_spill) == 0);
690 		}
691 		dmu_buf_will_dirty(hdl->sa_spill, tx);
692 
693 		spillhdrsize = sa_find_sizes(sa, &attr_desc[i],
694 		    attr_count - i, hdl->sa_spill, SA_SPILL, &i,
695 		    &spill_used, &dummy);
696 
697 		if (spill_used > SPA_OLD_MAXBLOCKSIZE)
698 			return (SET_ERROR(EFBIG));
699 
700 		buf_space = hdl->sa_spill->db_size - spillhdrsize;
701 		if (BUF_SPACE_NEEDED(spill_used, spillhdrsize) >
702 		    hdl->sa_spill->db_size)
703 			VERIFY(0 == sa_resize_spill(hdl,
704 			    BUF_SPACE_NEEDED(spill_used, spillhdrsize), tx));
705 	}
706 
707 	/* setup starting pointers to lay down data */
708 	data_start = (void *)((uintptr_t)hdl->sa_bonus->db_data + hdrsize);
709 	sahdr = (sa_hdr_phys_t *)hdl->sa_bonus->db_data;
710 	buftype = SA_BONUS;
711 
712 	if (spilling)
713 		buf_space = (sa->sa_force_spill) ?
714 		    0 : SA_BLKPTR_SPACE - hdrsize;
715 	else
716 		buf_space = hdl->sa_bonus->db_size - hdrsize;
717 
718 	attrs_start = attrs = kmem_alloc(sizeof (sa_attr_type_t) * attr_count,
719 	    KM_SLEEP);
720 	lot_count = 0;
721 
722 	for (i = 0, len_idx = 0, hash = -1ULL; i != attr_count; i++) {
723 		uint16_t length;
724 
725 		ASSERT(IS_P2ALIGNED(data_start, 8));
726 		ASSERT(IS_P2ALIGNED(buf_space, 8));
727 		attrs[i] = attr_desc[i].sa_attr;
728 		length = SA_REGISTERED_LEN(sa, attrs[i]);
729 		if (length == 0)
730 			length = attr_desc[i].sa_length;
731 
732 		if (buf_space < length) {  /* switch to spill buffer */
733 			VERIFY(spilling);
734 			VERIFY(bonustype == DMU_OT_SA);
735 			if (buftype == SA_BONUS && !sa->sa_force_spill) {
736 				sa_find_layout(hdl->sa_os, hash, attrs_start,
737 				    lot_count, tx, &lot);
738 				SA_SET_HDR(sahdr, lot->lot_num, hdrsize);
739 			}
740 
741 			buftype = SA_SPILL;
742 			hash = -1ULL;
743 			len_idx = 0;
744 
745 			sahdr = (sa_hdr_phys_t *)hdl->sa_spill->db_data;
746 			sahdr->sa_magic = SA_MAGIC;
747 			data_start = (void *)((uintptr_t)sahdr +
748 			    spillhdrsize);
749 			attrs_start = &attrs[i];
750 			buf_space = hdl->sa_spill->db_size - spillhdrsize;
751 			lot_count = 0;
752 		}
753 		hash ^= SA_ATTR_HASH(attrs[i]);
754 		attr_desc[i].sa_addr = data_start;
755 		attr_desc[i].sa_size = length;
756 		SA_COPY_DATA(attr_desc[i].sa_data_func, attr_desc[i].sa_data,
757 		    data_start, length);
758 		if (sa->sa_attr_table[attrs[i]].sa_length == 0) {
759 			sahdr->sa_lengths[len_idx++] = length;
760 		}
761 		data_start = (void *)P2ROUNDUP(((uintptr_t)data_start +
762 		    length), 8);
763 		buf_space -= P2ROUNDUP(length, 8);
764 		lot_count++;
765 	}
766 
767 	sa_find_layout(hdl->sa_os, hash, attrs_start, lot_count, tx, &lot);
768 
769 	/*
770 	 * Verify that old znodes always have layout number 0.
771 	 * Must be DMU_OT_SA for arbitrary layouts
772 	 */
773 	VERIFY((bonustype == DMU_OT_ZNODE && lot->lot_num == 0) ||
774 	    (bonustype == DMU_OT_SA && lot->lot_num > 1));
775 
776 	if (bonustype == DMU_OT_SA) {
777 		SA_SET_HDR(sahdr, lot->lot_num,
778 		    buftype == SA_BONUS ? hdrsize : spillhdrsize);
779 	}
780 
781 	kmem_free(attrs, sizeof (sa_attr_type_t) * attr_count);
782 	if (hdl->sa_bonus_tab) {
783 		sa_idx_tab_rele(hdl->sa_os, hdl->sa_bonus_tab);
784 		hdl->sa_bonus_tab = NULL;
785 	}
786 	if (!sa->sa_force_spill)
787 		VERIFY(0 == sa_build_index(hdl, SA_BONUS));
788 	if (hdl->sa_spill) {
789 		sa_idx_tab_rele(hdl->sa_os, hdl->sa_spill_tab);
790 		if (!spilling) {
791 			/*
792 			 * remove spill block that is no longer needed.
793 			 */
794 			dmu_buf_rele(hdl->sa_spill, NULL);
795 			hdl->sa_spill = NULL;
796 			hdl->sa_spill_tab = NULL;
797 			VERIFY(0 == dmu_rm_spill(hdl->sa_os,
798 			    sa_handle_object(hdl), tx));
799 		} else {
800 			VERIFY(0 == sa_build_index(hdl, SA_SPILL));
801 		}
802 	}
803 
804 	return (0);
805 }
806 
807 static void
808 sa_free_attr_table(sa_os_t *sa)
809 {
810 	int i;
811 
812 	if (sa->sa_attr_table == NULL)
813 		return;
814 
815 	for (i = 0; i != sa->sa_num_attrs; i++) {
816 		if (sa->sa_attr_table[i].sa_name)
817 			kmem_free(sa->sa_attr_table[i].sa_name,
818 			    strlen(sa->sa_attr_table[i].sa_name) + 1);
819 	}
820 
821 	kmem_free(sa->sa_attr_table,
822 	    sizeof (sa_attr_table_t) * sa->sa_num_attrs);
823 
824 	sa->sa_attr_table = NULL;
825 }
826 
827 static int
828 sa_attr_table_setup(objset_t *os, sa_attr_reg_t *reg_attrs, int count)
829 {
830 	sa_os_t *sa = os->os_sa;
831 	uint64_t sa_attr_count = 0;
832 	uint64_t sa_reg_count = 0;
833 	int error = 0;
834 	uint64_t attr_value;
835 	sa_attr_table_t *tb;
836 	zap_cursor_t zc;
837 	zap_attribute_t za;
838 	int registered_count = 0;
839 	int i;
840 	dmu_objset_type_t ostype = dmu_objset_type(os);
841 
842 	sa->sa_user_table =
843 	    kmem_zalloc(count * sizeof (sa_attr_type_t), KM_SLEEP);
844 	sa->sa_user_table_sz = count * sizeof (sa_attr_type_t);
845 
846 	if (sa->sa_reg_attr_obj != 0) {
847 		error = zap_count(os, sa->sa_reg_attr_obj,
848 		    &sa_attr_count);
849 
850 		/*
851 		 * Make sure we retrieved a count and that it isn't zero
852 		 */
853 		if (error || (error == 0 && sa_attr_count == 0)) {
854 			if (error == 0)
855 				error = SET_ERROR(EINVAL);
856 			goto bail;
857 		}
858 		sa_reg_count = sa_attr_count;
859 	}
860 
861 	if (ostype == DMU_OST_ZFS && sa_attr_count == 0)
862 		sa_attr_count += sa_legacy_attr_count;
863 
864 	/* Allocate attribute numbers for attributes that aren't registered */
865 	for (i = 0; i != count; i++) {
866 		boolean_t found = B_FALSE;
867 		int j;
868 
869 		if (ostype == DMU_OST_ZFS) {
870 			for (j = 0; j != sa_legacy_attr_count; j++) {
871 				if (strcmp(reg_attrs[i].sa_name,
872 				    sa_legacy_attrs[j].sa_name) == 0) {
873 					sa->sa_user_table[i] =
874 					    sa_legacy_attrs[j].sa_attr;
875 					found = B_TRUE;
876 				}
877 			}
878 		}
879 		if (found)
880 			continue;
881 
882 		if (sa->sa_reg_attr_obj)
883 			error = zap_lookup(os, sa->sa_reg_attr_obj,
884 			    reg_attrs[i].sa_name, 8, 1, &attr_value);
885 		else
886 			error = SET_ERROR(ENOENT);
887 		switch (error) {
888 		case ENOENT:
889 			sa->sa_user_table[i] = (sa_attr_type_t)sa_attr_count;
890 			sa_attr_count++;
891 			break;
892 		case 0:
893 			sa->sa_user_table[i] = ATTR_NUM(attr_value);
894 			break;
895 		default:
896 			goto bail;
897 		}
898 	}
899 
900 	sa->sa_num_attrs = sa_attr_count;
901 	tb = sa->sa_attr_table =
902 	    kmem_zalloc(sizeof (sa_attr_table_t) * sa_attr_count, KM_SLEEP);
903 
904 	/*
905 	 * Attribute table is constructed from requested attribute list,
906 	 * previously foreign registered attributes, and also the legacy
907 	 * ZPL set of attributes.
908 	 */
909 
910 	if (sa->sa_reg_attr_obj) {
911 		for (zap_cursor_init(&zc, os, sa->sa_reg_attr_obj);
912 		    (error = zap_cursor_retrieve(&zc, &za)) == 0;
913 		    zap_cursor_advance(&zc)) {
914 			uint64_t value;
915 			value  = za.za_first_integer;
916 
917 			registered_count++;
918 			tb[ATTR_NUM(value)].sa_attr = ATTR_NUM(value);
919 			tb[ATTR_NUM(value)].sa_length = ATTR_LENGTH(value);
920 			tb[ATTR_NUM(value)].sa_byteswap = ATTR_BSWAP(value);
921 			tb[ATTR_NUM(value)].sa_registered = B_TRUE;
922 
923 			if (tb[ATTR_NUM(value)].sa_name) {
924 				continue;
925 			}
926 			tb[ATTR_NUM(value)].sa_name =
927 			    kmem_zalloc(strlen(za.za_name) +1, KM_SLEEP);
928 			(void) strlcpy(tb[ATTR_NUM(value)].sa_name, za.za_name,
929 			    strlen(za.za_name) +1);
930 		}
931 		zap_cursor_fini(&zc);
932 		/*
933 		 * Make sure we processed the correct number of registered
934 		 * attributes
935 		 */
936 		if (registered_count != sa_reg_count) {
937 			ASSERT(error != 0);
938 			goto bail;
939 		}
940 
941 	}
942 
943 	if (ostype == DMU_OST_ZFS) {
944 		for (i = 0; i != sa_legacy_attr_count; i++) {
945 			if (tb[i].sa_name)
946 				continue;
947 			tb[i].sa_attr = sa_legacy_attrs[i].sa_attr;
948 			tb[i].sa_length = sa_legacy_attrs[i].sa_length;
949 			tb[i].sa_byteswap = sa_legacy_attrs[i].sa_byteswap;
950 			tb[i].sa_registered = B_FALSE;
951 			tb[i].sa_name =
952 			    kmem_zalloc(strlen(sa_legacy_attrs[i].sa_name) +1,
953 			    KM_SLEEP);
954 			(void) strlcpy(tb[i].sa_name,
955 			    sa_legacy_attrs[i].sa_name,
956 			    strlen(sa_legacy_attrs[i].sa_name) + 1);
957 		}
958 	}
959 
960 	for (i = 0; i != count; i++) {
961 		sa_attr_type_t attr_id;
962 
963 		attr_id = sa->sa_user_table[i];
964 		if (tb[attr_id].sa_name)
965 			continue;
966 
967 		tb[attr_id].sa_length = reg_attrs[i].sa_length;
968 		tb[attr_id].sa_byteswap = reg_attrs[i].sa_byteswap;
969 		tb[attr_id].sa_attr = attr_id;
970 		tb[attr_id].sa_name =
971 		    kmem_zalloc(strlen(reg_attrs[i].sa_name) + 1, KM_SLEEP);
972 		(void) strlcpy(tb[attr_id].sa_name, reg_attrs[i].sa_name,
973 		    strlen(reg_attrs[i].sa_name) + 1);
974 	}
975 
976 	sa->sa_need_attr_registration =
977 	    (sa_attr_count != registered_count);
978 
979 	return (0);
980 bail:
981 	kmem_free(sa->sa_user_table, count * sizeof (sa_attr_type_t));
982 	sa->sa_user_table = NULL;
983 	sa_free_attr_table(sa);
984 	return ((error != 0) ? error : EINVAL);
985 }
986 
987 int
988 sa_setup(objset_t *os, uint64_t sa_obj, sa_attr_reg_t *reg_attrs, int count,
989     sa_attr_type_t **user_table)
990 {
991 	zap_cursor_t zc;
992 	zap_attribute_t za;
993 	sa_os_t *sa;
994 	dmu_objset_type_t ostype = dmu_objset_type(os);
995 	sa_attr_type_t *tb;
996 	int error;
997 
998 	mutex_enter(&os->os_user_ptr_lock);
999 	if (os->os_sa) {
1000 		mutex_enter(&os->os_sa->sa_lock);
1001 		mutex_exit(&os->os_user_ptr_lock);
1002 		tb = os->os_sa->sa_user_table;
1003 		mutex_exit(&os->os_sa->sa_lock);
1004 		*user_table = tb;
1005 		return (0);
1006 	}
1007 
1008 	sa = kmem_zalloc(sizeof (sa_os_t), KM_SLEEP);
1009 	mutex_init(&sa->sa_lock, NULL, MUTEX_DEFAULT, NULL);
1010 	sa->sa_master_obj = sa_obj;
1011 
1012 	os->os_sa = sa;
1013 	mutex_enter(&sa->sa_lock);
1014 	mutex_exit(&os->os_user_ptr_lock);
1015 	avl_create(&sa->sa_layout_num_tree, layout_num_compare,
1016 	    sizeof (sa_lot_t), offsetof(sa_lot_t, lot_num_node));
1017 	avl_create(&sa->sa_layout_hash_tree, layout_hash_compare,
1018 	    sizeof (sa_lot_t), offsetof(sa_lot_t, lot_hash_node));
1019 
1020 	if (sa_obj) {
1021 		error = zap_lookup(os, sa_obj, SA_LAYOUTS,
1022 		    8, 1, &sa->sa_layout_attr_obj);
1023 		if (error != 0 && error != ENOENT)
1024 			goto fail;
1025 		error = zap_lookup(os, sa_obj, SA_REGISTRY,
1026 		    8, 1, &sa->sa_reg_attr_obj);
1027 		if (error != 0 && error != ENOENT)
1028 			goto fail;
1029 	}
1030 
1031 	if ((error = sa_attr_table_setup(os, reg_attrs, count)) != 0)
1032 		goto fail;
1033 
1034 	if (sa->sa_layout_attr_obj != 0) {
1035 		uint64_t layout_count;
1036 
1037 		error = zap_count(os, sa->sa_layout_attr_obj,
1038 		    &layout_count);
1039 
1040 		/*
1041 		 * Layout number count should be > 0
1042 		 */
1043 		if (error || (error == 0 && layout_count == 0)) {
1044 			if (error == 0)
1045 				error = SET_ERROR(EINVAL);
1046 			goto fail;
1047 		}
1048 
1049 		for (zap_cursor_init(&zc, os, sa->sa_layout_attr_obj);
1050 		    (error = zap_cursor_retrieve(&zc, &za)) == 0;
1051 		    zap_cursor_advance(&zc)) {
1052 			sa_attr_type_t *lot_attrs;
1053 			uint64_t lot_num;
1054 
1055 			lot_attrs = kmem_zalloc(sizeof (sa_attr_type_t) *
1056 			    za.za_num_integers, KM_SLEEP);
1057 
1058 			if ((error = (zap_lookup(os, sa->sa_layout_attr_obj,
1059 			    za.za_name, 2, za.za_num_integers,
1060 			    lot_attrs))) != 0) {
1061 				kmem_free(lot_attrs, sizeof (sa_attr_type_t) *
1062 				    za.za_num_integers);
1063 				break;
1064 			}
1065 			VERIFY(ddi_strtoull(za.za_name, NULL, 10,
1066 			    (unsigned long long *)&lot_num) == 0);
1067 
1068 			(void) sa_add_layout_entry(os, lot_attrs,
1069 			    za.za_num_integers, lot_num,
1070 			    sa_layout_info_hash(lot_attrs,
1071 			    za.za_num_integers), B_FALSE, NULL);
1072 			kmem_free(lot_attrs, sizeof (sa_attr_type_t) *
1073 			    za.za_num_integers);
1074 		}
1075 		zap_cursor_fini(&zc);
1076 
1077 		/*
1078 		 * Make sure layout count matches number of entries added
1079 		 * to AVL tree
1080 		 */
1081 		if (avl_numnodes(&sa->sa_layout_num_tree) != layout_count) {
1082 			ASSERT(error != 0);
1083 			goto fail;
1084 		}
1085 	}
1086 
1087 	/* Add special layout number for old ZNODES */
1088 	if (ostype == DMU_OST_ZFS) {
1089 		(void) sa_add_layout_entry(os, sa_legacy_zpl_layout,
1090 		    sa_legacy_attr_count, 0,
1091 		    sa_layout_info_hash(sa_legacy_zpl_layout,
1092 		    sa_legacy_attr_count), B_FALSE, NULL);
1093 
1094 		(void) sa_add_layout_entry(os, sa_dummy_zpl_layout, 0, 1,
1095 		    0, B_FALSE, NULL);
1096 	}
1097 	*user_table = os->os_sa->sa_user_table;
1098 	mutex_exit(&sa->sa_lock);
1099 	return (0);
1100 fail:
1101 	os->os_sa = NULL;
1102 	sa_free_attr_table(sa);
1103 	if (sa->sa_user_table)
1104 		kmem_free(sa->sa_user_table, sa->sa_user_table_sz);
1105 	mutex_exit(&sa->sa_lock);
1106 	avl_destroy(&sa->sa_layout_hash_tree);
1107 	avl_destroy(&sa->sa_layout_num_tree);
1108 	mutex_destroy(&sa->sa_lock);
1109 	kmem_free(sa, sizeof (sa_os_t));
1110 	return ((error == ECKSUM) ? EIO : error);
1111 }
1112 
1113 void
1114 sa_tear_down(objset_t *os)
1115 {
1116 	sa_os_t *sa = os->os_sa;
1117 	sa_lot_t *layout;
1118 	void *cookie;
1119 
1120 	kmem_free(sa->sa_user_table, sa->sa_user_table_sz);
1121 
1122 	/* Free up attr table */
1123 
1124 	sa_free_attr_table(sa);
1125 
1126 	cookie = NULL;
1127 	while (layout = avl_destroy_nodes(&sa->sa_layout_hash_tree, &cookie)) {
1128 		sa_idx_tab_t *tab;
1129 		while (tab = list_head(&layout->lot_idx_tab)) {
1130 			ASSERT(refcount_count(&tab->sa_refcount));
1131 			sa_idx_tab_rele(os, tab);
1132 		}
1133 	}
1134 
1135 	cookie = NULL;
1136 	while (layout = avl_destroy_nodes(&sa->sa_layout_num_tree, &cookie)) {
1137 		kmem_free(layout->lot_attrs,
1138 		    sizeof (sa_attr_type_t) * layout->lot_attr_count);
1139 		kmem_free(layout, sizeof (sa_lot_t));
1140 	}
1141 
1142 	avl_destroy(&sa->sa_layout_hash_tree);
1143 	avl_destroy(&sa->sa_layout_num_tree);
1144 	mutex_destroy(&sa->sa_lock);
1145 
1146 	kmem_free(sa, sizeof (sa_os_t));
1147 	os->os_sa = NULL;
1148 }
1149 
1150 void
1151 sa_build_idx_tab(void *hdr, void *attr_addr, sa_attr_type_t attr,
1152     uint16_t length, int length_idx, boolean_t var_length, void *userp)
1153 {
1154 	sa_idx_tab_t *idx_tab = userp;
1155 
1156 	if (var_length) {
1157 		ASSERT(idx_tab->sa_variable_lengths);
1158 		idx_tab->sa_variable_lengths[length_idx] = length;
1159 	}
1160 	TOC_ATTR_ENCODE(idx_tab->sa_idx_tab[attr], length_idx,
1161 	    (uint32_t)((uintptr_t)attr_addr - (uintptr_t)hdr));
1162 }
1163 
1164 static void
1165 sa_attr_iter(objset_t *os, sa_hdr_phys_t *hdr, dmu_object_type_t type,
1166     sa_iterfunc_t func, sa_lot_t *tab, void *userp)
1167 {
1168 	void *data_start;
1169 	sa_lot_t *tb = tab;
1170 	sa_lot_t search;
1171 	avl_index_t loc;
1172 	sa_os_t *sa = os->os_sa;
1173 	int i;
1174 	uint16_t *length_start = NULL;
1175 	uint8_t length_idx = 0;
1176 
1177 	if (tab == NULL) {
1178 		search.lot_num = SA_LAYOUT_NUM(hdr, type);
1179 		tb = avl_find(&sa->sa_layout_num_tree, &search, &loc);
1180 		ASSERT(tb);
1181 	}
1182 
1183 	if (IS_SA_BONUSTYPE(type)) {
1184 		data_start = (void *)P2ROUNDUP(((uintptr_t)hdr +
1185 		    offsetof(sa_hdr_phys_t, sa_lengths) +
1186 		    (sizeof (uint16_t) * tb->lot_var_sizes)), 8);
1187 		length_start = hdr->sa_lengths;
1188 	} else {
1189 		data_start = hdr;
1190 	}
1191 
1192 	for (i = 0; i != tb->lot_attr_count; i++) {
1193 		int attr_length, reg_length;
1194 		uint8_t idx_len;
1195 
1196 		reg_length = sa->sa_attr_table[tb->lot_attrs[i]].sa_length;
1197 		if (reg_length) {
1198 			attr_length = reg_length;
1199 			idx_len = 0;
1200 		} else {
1201 			attr_length = length_start[length_idx];
1202 			idx_len = length_idx++;
1203 		}
1204 
1205 		func(hdr, data_start, tb->lot_attrs[i], attr_length,
1206 		    idx_len, reg_length == 0 ? B_TRUE : B_FALSE, userp);
1207 
1208 		data_start = (void *)P2ROUNDUP(((uintptr_t)data_start +
1209 		    attr_length), 8);
1210 	}
1211 }
1212 
1213 /*ARGSUSED*/
1214 void
1215 sa_byteswap_cb(void *hdr, void *attr_addr, sa_attr_type_t attr,
1216     uint16_t length, int length_idx, boolean_t variable_length, void *userp)
1217 {
1218 	sa_handle_t *hdl = userp;
1219 	sa_os_t *sa = hdl->sa_os->os_sa;
1220 
1221 	sa_bswap_table[sa->sa_attr_table[attr].sa_byteswap](attr_addr, length);
1222 }
1223 
1224 void
1225 sa_byteswap(sa_handle_t *hdl, sa_buf_type_t buftype)
1226 {
1227 	sa_hdr_phys_t *sa_hdr_phys = SA_GET_HDR(hdl, buftype);
1228 	dmu_buf_impl_t *db;
1229 	sa_os_t *sa = hdl->sa_os->os_sa;
1230 	int num_lengths = 1;
1231 	int i;
1232 
1233 	ASSERT(MUTEX_HELD(&sa->sa_lock));
1234 	if (sa_hdr_phys->sa_magic == SA_MAGIC)
1235 		return;
1236 
1237 	db = SA_GET_DB(hdl, buftype);
1238 
1239 	if (buftype == SA_SPILL) {
1240 		arc_release(db->db_buf, NULL);
1241 		arc_buf_thaw(db->db_buf);
1242 	}
1243 
1244 	sa_hdr_phys->sa_magic = BSWAP_32(sa_hdr_phys->sa_magic);
1245 	sa_hdr_phys->sa_layout_info = BSWAP_16(sa_hdr_phys->sa_layout_info);
1246 
1247 	/*
1248 	 * Determine number of variable lenghts in header
1249 	 * The standard 8 byte header has one for free and a
1250 	 * 16 byte header would have 4 + 1;
1251 	 */
1252 	if (SA_HDR_SIZE(sa_hdr_phys) > 8)
1253 		num_lengths += (SA_HDR_SIZE(sa_hdr_phys) - 8) >> 1;
1254 	for (i = 0; i != num_lengths; i++)
1255 		sa_hdr_phys->sa_lengths[i] =
1256 		    BSWAP_16(sa_hdr_phys->sa_lengths[i]);
1257 
1258 	sa_attr_iter(hdl->sa_os, sa_hdr_phys, DMU_OT_SA,
1259 	    sa_byteswap_cb, NULL, hdl);
1260 
1261 	if (buftype == SA_SPILL)
1262 		arc_buf_freeze(((dmu_buf_impl_t *)hdl->sa_spill)->db_buf);
1263 }
1264 
1265 static int
1266 sa_build_index(sa_handle_t *hdl, sa_buf_type_t buftype)
1267 {
1268 	sa_hdr_phys_t *sa_hdr_phys;
1269 	dmu_buf_impl_t *db = SA_GET_DB(hdl, buftype);
1270 	dmu_object_type_t bonustype = SA_BONUSTYPE_FROM_DB(db);
1271 	sa_os_t *sa = hdl->sa_os->os_sa;
1272 	sa_idx_tab_t *idx_tab;
1273 
1274 	sa_hdr_phys = SA_GET_HDR(hdl, buftype);
1275 
1276 	mutex_enter(&sa->sa_lock);
1277 
1278 	/* Do we need to byteswap? */
1279 
1280 	/* only check if not old znode */
1281 	if (IS_SA_BONUSTYPE(bonustype) && sa_hdr_phys->sa_magic != SA_MAGIC &&
1282 	    sa_hdr_phys->sa_magic != 0) {
1283 		VERIFY(BSWAP_32(sa_hdr_phys->sa_magic) == SA_MAGIC);
1284 		sa_byteswap(hdl, buftype);
1285 	}
1286 
1287 	idx_tab = sa_find_idx_tab(hdl->sa_os, bonustype, sa_hdr_phys);
1288 
1289 	if (buftype == SA_BONUS)
1290 		hdl->sa_bonus_tab = idx_tab;
1291 	else
1292 		hdl->sa_spill_tab = idx_tab;
1293 
1294 	mutex_exit(&sa->sa_lock);
1295 	return (0);
1296 }
1297 
1298 /*ARGSUSED*/
1299 static void
1300 sa_evict(void *dbu)
1301 {
1302 	panic("evicting sa dbuf\n");
1303 }
1304 
1305 static void
1306 sa_idx_tab_rele(objset_t *os, void *arg)
1307 {
1308 	sa_os_t *sa = os->os_sa;
1309 	sa_idx_tab_t *idx_tab = arg;
1310 
1311 	if (idx_tab == NULL)
1312 		return;
1313 
1314 	mutex_enter(&sa->sa_lock);
1315 	if (refcount_remove(&idx_tab->sa_refcount, NULL) == 0) {
1316 		list_remove(&idx_tab->sa_layout->lot_idx_tab, idx_tab);
1317 		if (idx_tab->sa_variable_lengths)
1318 			kmem_free(idx_tab->sa_variable_lengths,
1319 			    sizeof (uint16_t) *
1320 			    idx_tab->sa_layout->lot_var_sizes);
1321 		refcount_destroy(&idx_tab->sa_refcount);
1322 		kmem_free(idx_tab->sa_idx_tab,
1323 		    sizeof (uint32_t) * sa->sa_num_attrs);
1324 		kmem_free(idx_tab, sizeof (sa_idx_tab_t));
1325 	}
1326 	mutex_exit(&sa->sa_lock);
1327 }
1328 
1329 static void
1330 sa_idx_tab_hold(objset_t *os, sa_idx_tab_t *idx_tab)
1331 {
1332 	sa_os_t *sa = os->os_sa;
1333 
1334 	ASSERT(MUTEX_HELD(&sa->sa_lock));
1335 	(void) refcount_add(&idx_tab->sa_refcount, NULL);
1336 }
1337 
1338 void
1339 sa_handle_destroy(sa_handle_t *hdl)
1340 {
1341 	dmu_buf_t *db = hdl->sa_bonus;
1342 
1343 	mutex_enter(&hdl->sa_lock);
1344 	(void) dmu_buf_remove_user(db, &hdl->sa_dbu);
1345 
1346 	if (hdl->sa_bonus_tab)
1347 		sa_idx_tab_rele(hdl->sa_os, hdl->sa_bonus_tab);
1348 
1349 	if (hdl->sa_spill_tab)
1350 		sa_idx_tab_rele(hdl->sa_os, hdl->sa_spill_tab);
1351 
1352 	dmu_buf_rele(hdl->sa_bonus, NULL);
1353 
1354 	if (hdl->sa_spill)
1355 		dmu_buf_rele((dmu_buf_t *)hdl->sa_spill, NULL);
1356 	mutex_exit(&hdl->sa_lock);
1357 
1358 	kmem_cache_free(sa_cache, hdl);
1359 }
1360 
1361 int
1362 sa_handle_get_from_db(objset_t *os, dmu_buf_t *db, void *userp,
1363     sa_handle_type_t hdl_type, sa_handle_t **handlepp)
1364 {
1365 	int error = 0;
1366 	dmu_object_info_t doi;
1367 	sa_handle_t *handle = NULL;
1368 
1369 #ifdef ZFS_DEBUG
1370 	dmu_object_info_from_db(db, &doi);
1371 	ASSERT(doi.doi_bonus_type == DMU_OT_SA ||
1372 	    doi.doi_bonus_type == DMU_OT_ZNODE);
1373 #endif
1374 	/* find handle, if it exists */
1375 	/* if one doesn't exist then create a new one, and initialize it */
1376 
1377 	if (hdl_type == SA_HDL_SHARED)
1378 		handle = dmu_buf_get_user(db);
1379 
1380 	if (handle == NULL) {
1381 		sa_handle_t *winner = NULL;
1382 
1383 		handle = kmem_cache_alloc(sa_cache, KM_SLEEP);
1384 		handle->sa_dbu.dbu_evict_func = NULL;
1385 		handle->sa_userp = userp;
1386 		handle->sa_bonus = db;
1387 		handle->sa_os = os;
1388 		handle->sa_spill = NULL;
1389 		handle->sa_bonus_tab = NULL;
1390 		handle->sa_spill_tab = NULL;
1391 
1392 		error = sa_build_index(handle, SA_BONUS);
1393 
1394 		if (hdl_type == SA_HDL_SHARED) {
1395 			dmu_buf_init_user(&handle->sa_dbu, sa_evict, NULL);
1396 			winner = dmu_buf_set_user_ie(db, &handle->sa_dbu);
1397 		}
1398 
1399 		if (winner != NULL) {
1400 			kmem_cache_free(sa_cache, handle);
1401 			handle = winner;
1402 		}
1403 	}
1404 	*handlepp = handle;
1405 
1406 	return (error);
1407 }
1408 
1409 int
1410 sa_handle_get(objset_t *objset, uint64_t objid, void *userp,
1411     sa_handle_type_t hdl_type, sa_handle_t **handlepp)
1412 {
1413 	dmu_buf_t *db;
1414 	int error;
1415 
1416 	if (error = dmu_bonus_hold(objset, objid, NULL, &db))
1417 		return (error);
1418 
1419 	return (sa_handle_get_from_db(objset, db, userp, hdl_type,
1420 	    handlepp));
1421 }
1422 
1423 int
1424 sa_buf_hold(objset_t *objset, uint64_t obj_num, void *tag, dmu_buf_t **db)
1425 {
1426 	return (dmu_bonus_hold(objset, obj_num, tag, db));
1427 }
1428 
1429 void
1430 sa_buf_rele(dmu_buf_t *db, void *tag)
1431 {
1432 	dmu_buf_rele(db, tag);
1433 }
1434 
1435 int
1436 sa_lookup_impl(sa_handle_t *hdl, sa_bulk_attr_t *bulk, int count)
1437 {
1438 	ASSERT(hdl);
1439 	ASSERT(MUTEX_HELD(&hdl->sa_lock));
1440 	return (sa_attr_op(hdl, bulk, count, SA_LOOKUP, NULL));
1441 }
1442 
1443 int
1444 sa_lookup(sa_handle_t *hdl, sa_attr_type_t attr, void *buf, uint32_t buflen)
1445 {
1446 	int error;
1447 	sa_bulk_attr_t bulk;
1448 
1449 	bulk.sa_attr = attr;
1450 	bulk.sa_data = buf;
1451 	bulk.sa_length = buflen;
1452 	bulk.sa_data_func = NULL;
1453 
1454 	ASSERT(hdl);
1455 	mutex_enter(&hdl->sa_lock);
1456 	error = sa_lookup_impl(hdl, &bulk, 1);
1457 	mutex_exit(&hdl->sa_lock);
1458 	return (error);
1459 }
1460 
1461 #ifdef _KERNEL
1462 int
1463 sa_lookup_uio(sa_handle_t *hdl, sa_attr_type_t attr, uio_t *uio)
1464 {
1465 	int error;
1466 	sa_bulk_attr_t bulk;
1467 
1468 	bulk.sa_data = NULL;
1469 	bulk.sa_attr = attr;
1470 	bulk.sa_data_func = NULL;
1471 
1472 	ASSERT(hdl);
1473 
1474 	mutex_enter(&hdl->sa_lock);
1475 	if ((error = sa_attr_op(hdl, &bulk, 1, SA_LOOKUP, NULL)) == 0) {
1476 		error = uiomove((void *)bulk.sa_addr, MIN(bulk.sa_size,
1477 		    uio->uio_resid), UIO_READ, uio);
1478 	}
1479 	mutex_exit(&hdl->sa_lock);
1480 	return (error);
1481 
1482 }
1483 #endif
1484 
1485 void *
1486 sa_find_idx_tab(objset_t *os, dmu_object_type_t bonustype, void *data)
1487 {
1488 	sa_idx_tab_t *idx_tab;
1489 	sa_hdr_phys_t *hdr = (sa_hdr_phys_t *)data;
1490 	sa_os_t *sa = os->os_sa;
1491 	sa_lot_t *tb, search;
1492 	avl_index_t loc;
1493 
1494 	/*
1495 	 * Deterimine layout number.  If SA node and header == 0 then
1496 	 * force the index table to the dummy "1" empty layout.
1497 	 *
1498 	 * The layout number would only be zero for a newly created file
1499 	 * that has not added any attributes yet, or with crypto enabled which
1500 	 * doesn't write any attributes to the bonus buffer.
1501 	 */
1502 
1503 	search.lot_num = SA_LAYOUT_NUM(hdr, bonustype);
1504 
1505 	tb = avl_find(&sa->sa_layout_num_tree, &search, &loc);
1506 
1507 	/* Verify header size is consistent with layout information */
1508 	ASSERT(tb);
1509 	ASSERT(IS_SA_BONUSTYPE(bonustype) &&
1510 	    SA_HDR_SIZE_MATCH_LAYOUT(hdr, tb) || !IS_SA_BONUSTYPE(bonustype) ||
1511 	    (IS_SA_BONUSTYPE(bonustype) && hdr->sa_layout_info == 0));
1512 
1513 	/*
1514 	 * See if any of the already existing TOC entries can be reused?
1515 	 */
1516 
1517 	for (idx_tab = list_head(&tb->lot_idx_tab); idx_tab;
1518 	    idx_tab = list_next(&tb->lot_idx_tab, idx_tab)) {
1519 		boolean_t valid_idx = B_TRUE;
1520 		int i;
1521 
1522 		if (tb->lot_var_sizes != 0 &&
1523 		    idx_tab->sa_variable_lengths != NULL) {
1524 			for (i = 0; i != tb->lot_var_sizes; i++) {
1525 				if (hdr->sa_lengths[i] !=
1526 				    idx_tab->sa_variable_lengths[i]) {
1527 					valid_idx = B_FALSE;
1528 					break;
1529 				}
1530 			}
1531 		}
1532 		if (valid_idx) {
1533 			sa_idx_tab_hold(os, idx_tab);
1534 			return (idx_tab);
1535 		}
1536 	}
1537 
1538 	/* No such luck, create a new entry */
1539 	idx_tab = kmem_zalloc(sizeof (sa_idx_tab_t), KM_SLEEP);
1540 	idx_tab->sa_idx_tab =
1541 	    kmem_zalloc(sizeof (uint32_t) * sa->sa_num_attrs, KM_SLEEP);
1542 	idx_tab->sa_layout = tb;
1543 	refcount_create(&idx_tab->sa_refcount);
1544 	if (tb->lot_var_sizes)
1545 		idx_tab->sa_variable_lengths = kmem_alloc(sizeof (uint16_t) *
1546 		    tb->lot_var_sizes, KM_SLEEP);
1547 
1548 	sa_attr_iter(os, hdr, bonustype, sa_build_idx_tab,
1549 	    tb, idx_tab);
1550 	sa_idx_tab_hold(os, idx_tab);   /* one hold for consumer */
1551 	sa_idx_tab_hold(os, idx_tab);	/* one for layout */
1552 	list_insert_tail(&tb->lot_idx_tab, idx_tab);
1553 	return (idx_tab);
1554 }
1555 
1556 void
1557 sa_default_locator(void **dataptr, uint32_t *len, uint32_t total_len,
1558     boolean_t start, void *userdata)
1559 {
1560 	ASSERT(start);
1561 
1562 	*dataptr = userdata;
1563 	*len = total_len;
1564 }
1565 
1566 static void
1567 sa_attr_register_sync(sa_handle_t *hdl, dmu_tx_t *tx)
1568 {
1569 	uint64_t attr_value = 0;
1570 	sa_os_t *sa = hdl->sa_os->os_sa;
1571 	sa_attr_table_t *tb = sa->sa_attr_table;
1572 	int i;
1573 
1574 	mutex_enter(&sa->sa_lock);
1575 
1576 	if (!sa->sa_need_attr_registration || sa->sa_master_obj == NULL) {
1577 		mutex_exit(&sa->sa_lock);
1578 		return;
1579 	}
1580 
1581 	if (sa->sa_reg_attr_obj == NULL) {
1582 		sa->sa_reg_attr_obj = zap_create_link(hdl->sa_os,
1583 		    DMU_OT_SA_ATTR_REGISTRATION,
1584 		    sa->sa_master_obj, SA_REGISTRY, tx);
1585 	}
1586 	for (i = 0; i != sa->sa_num_attrs; i++) {
1587 		if (sa->sa_attr_table[i].sa_registered)
1588 			continue;
1589 		ATTR_ENCODE(attr_value, tb[i].sa_attr, tb[i].sa_length,
1590 		    tb[i].sa_byteswap);
1591 		VERIFY(0 == zap_update(hdl->sa_os, sa->sa_reg_attr_obj,
1592 		    tb[i].sa_name, 8, 1, &attr_value, tx));
1593 		tb[i].sa_registered = B_TRUE;
1594 	}
1595 	sa->sa_need_attr_registration = B_FALSE;
1596 	mutex_exit(&sa->sa_lock);
1597 }
1598 
1599 /*
1600  * Replace all attributes with attributes specified in template.
1601  * If dnode had a spill buffer then those attributes will be
1602  * also be replaced, possibly with just an empty spill block
1603  *
1604  * This interface is intended to only be used for bulk adding of
1605  * attributes for a new file.  It will also be used by the ZPL
1606  * when converting and old formatted znode to native SA support.
1607  */
1608 int
1609 sa_replace_all_by_template_locked(sa_handle_t *hdl, sa_bulk_attr_t *attr_desc,
1610     int attr_count, dmu_tx_t *tx)
1611 {
1612 	sa_os_t *sa = hdl->sa_os->os_sa;
1613 
1614 	if (sa->sa_need_attr_registration)
1615 		sa_attr_register_sync(hdl, tx);
1616 	return (sa_build_layouts(hdl, attr_desc, attr_count, tx));
1617 }
1618 
1619 int
1620 sa_replace_all_by_template(sa_handle_t *hdl, sa_bulk_attr_t *attr_desc,
1621     int attr_count, dmu_tx_t *tx)
1622 {
1623 	int error;
1624 
1625 	mutex_enter(&hdl->sa_lock);
1626 	error = sa_replace_all_by_template_locked(hdl, attr_desc,
1627 	    attr_count, tx);
1628 	mutex_exit(&hdl->sa_lock);
1629 	return (error);
1630 }
1631 
1632 /*
1633  * add/remove/replace a single attribute and then rewrite the entire set
1634  * of attributes.
1635  */
1636 static int
1637 sa_modify_attrs(sa_handle_t *hdl, sa_attr_type_t newattr,
1638     sa_data_op_t action, sa_data_locator_t *locator, void *datastart,
1639     uint16_t buflen, dmu_tx_t *tx)
1640 {
1641 	sa_os_t *sa = hdl->sa_os->os_sa;
1642 	dmu_buf_impl_t *db = (dmu_buf_impl_t *)hdl->sa_bonus;
1643 	dnode_t *dn;
1644 	sa_bulk_attr_t *attr_desc;
1645 	void *old_data[2];
1646 	int bonus_attr_count = 0;
1647 	int bonus_data_size = 0;
1648 	int spill_data_size = 0;
1649 	int spill_attr_count = 0;
1650 	int error;
1651 	uint16_t length;
1652 	int i, j, k, length_idx;
1653 	sa_hdr_phys_t *hdr;
1654 	sa_idx_tab_t *idx_tab;
1655 	int attr_count;
1656 	int count;
1657 
1658 	ASSERT(MUTEX_HELD(&hdl->sa_lock));
1659 
1660 	/* First make of copy of the old data */
1661 
1662 	DB_DNODE_ENTER(db);
1663 	dn = DB_DNODE(db);
1664 	if (dn->dn_bonuslen != 0) {
1665 		bonus_data_size = hdl->sa_bonus->db_size;
1666 		old_data[0] = kmem_alloc(bonus_data_size, KM_SLEEP);
1667 		bcopy(hdl->sa_bonus->db_data, old_data[0],
1668 		    hdl->sa_bonus->db_size);
1669 		bonus_attr_count = hdl->sa_bonus_tab->sa_layout->lot_attr_count;
1670 	} else {
1671 		old_data[0] = NULL;
1672 	}
1673 	DB_DNODE_EXIT(db);
1674 
1675 	/* Bring spill buffer online if it isn't currently */
1676 
1677 	if ((error = sa_get_spill(hdl)) == 0) {
1678 		spill_data_size = hdl->sa_spill->db_size;
1679 		old_data[1] = kmem_alloc(spill_data_size, KM_SLEEP);
1680 		bcopy(hdl->sa_spill->db_data, old_data[1],
1681 		    hdl->sa_spill->db_size);
1682 		spill_attr_count =
1683 		    hdl->sa_spill_tab->sa_layout->lot_attr_count;
1684 	} else if (error && error != ENOENT) {
1685 		if (old_data[0])
1686 			kmem_free(old_data[0], bonus_data_size);
1687 		return (error);
1688 	} else {
1689 		old_data[1] = NULL;
1690 	}
1691 
1692 	/* build descriptor of all attributes */
1693 
1694 	attr_count = bonus_attr_count + spill_attr_count;
1695 	if (action == SA_ADD)
1696 		attr_count++;
1697 	else if (action == SA_REMOVE)
1698 		attr_count--;
1699 
1700 	attr_desc = kmem_zalloc(sizeof (sa_bulk_attr_t) * attr_count, KM_SLEEP);
1701 
1702 	/*
1703 	 * loop through bonus and spill buffer if it exists, and
1704 	 * build up new attr_descriptor to reset the attributes
1705 	 */
1706 	k = j = 0;
1707 	count = bonus_attr_count;
1708 	hdr = SA_GET_HDR(hdl, SA_BONUS);
1709 	idx_tab = SA_IDX_TAB_GET(hdl, SA_BONUS);
1710 	for (; k != 2; k++) {
1711 		/* iterate over each attribute in layout */
1712 		for (i = 0, length_idx = 0; i != count; i++) {
1713 			sa_attr_type_t attr;
1714 
1715 			attr = idx_tab->sa_layout->lot_attrs[i];
1716 			if (attr == newattr) {
1717 				if (action == SA_REMOVE) {
1718 					j++;
1719 					continue;
1720 				}
1721 				ASSERT(SA_REGISTERED_LEN(sa, attr) == 0);
1722 				ASSERT(action == SA_REPLACE);
1723 				SA_ADD_BULK_ATTR(attr_desc, j, attr,
1724 				    locator, datastart, buflen);
1725 			} else {
1726 				length = SA_REGISTERED_LEN(sa, attr);
1727 				if (length == 0) {
1728 					length = hdr->sa_lengths[length_idx++];
1729 				}
1730 
1731 				SA_ADD_BULK_ATTR(attr_desc, j, attr,
1732 				    NULL, (void *)
1733 				    (TOC_OFF(idx_tab->sa_idx_tab[attr]) +
1734 				    (uintptr_t)old_data[k]), length);
1735 			}
1736 		}
1737 		if (k == 0 && hdl->sa_spill) {
1738 			hdr = SA_GET_HDR(hdl, SA_SPILL);
1739 			idx_tab = SA_IDX_TAB_GET(hdl, SA_SPILL);
1740 			count = spill_attr_count;
1741 		} else {
1742 			break;
1743 		}
1744 	}
1745 	if (action == SA_ADD) {
1746 		length = SA_REGISTERED_LEN(sa, newattr);
1747 		if (length == 0) {
1748 			length = buflen;
1749 		}
1750 		SA_ADD_BULK_ATTR(attr_desc, j, newattr, locator,
1751 		    datastart, buflen);
1752 	}
1753 
1754 	error = sa_build_layouts(hdl, attr_desc, attr_count, tx);
1755 
1756 	if (old_data[0])
1757 		kmem_free(old_data[0], bonus_data_size);
1758 	if (old_data[1])
1759 		kmem_free(old_data[1], spill_data_size);
1760 	kmem_free(attr_desc, sizeof (sa_bulk_attr_t) * attr_count);
1761 
1762 	return (error);
1763 }
1764 
1765 static int
1766 sa_bulk_update_impl(sa_handle_t *hdl, sa_bulk_attr_t *bulk, int count,
1767     dmu_tx_t *tx)
1768 {
1769 	int error;
1770 	sa_os_t *sa = hdl->sa_os->os_sa;
1771 	dmu_object_type_t bonustype;
1772 
1773 	bonustype = SA_BONUSTYPE_FROM_DB(SA_GET_DB(hdl, SA_BONUS));
1774 
1775 	ASSERT(hdl);
1776 	ASSERT(MUTEX_HELD(&hdl->sa_lock));
1777 
1778 	/* sync out registration table if necessary */
1779 	if (sa->sa_need_attr_registration)
1780 		sa_attr_register_sync(hdl, tx);
1781 
1782 	error = sa_attr_op(hdl, bulk, count, SA_UPDATE, tx);
1783 	if (error == 0 && !IS_SA_BONUSTYPE(bonustype) && sa->sa_update_cb)
1784 		sa->sa_update_cb(hdl, tx);
1785 
1786 	return (error);
1787 }
1788 
1789 /*
1790  * update or add new attribute
1791  */
1792 int
1793 sa_update(sa_handle_t *hdl, sa_attr_type_t type,
1794     void *buf, uint32_t buflen, dmu_tx_t *tx)
1795 {
1796 	int error;
1797 	sa_bulk_attr_t bulk;
1798 
1799 	bulk.sa_attr = type;
1800 	bulk.sa_data_func = NULL;
1801 	bulk.sa_length = buflen;
1802 	bulk.sa_data = buf;
1803 
1804 	mutex_enter(&hdl->sa_lock);
1805 	error = sa_bulk_update_impl(hdl, &bulk, 1, tx);
1806 	mutex_exit(&hdl->sa_lock);
1807 	return (error);
1808 }
1809 
1810 int
1811 sa_update_from_cb(sa_handle_t *hdl, sa_attr_type_t attr,
1812     uint32_t buflen, sa_data_locator_t *locator, void *userdata, dmu_tx_t *tx)
1813 {
1814 	int error;
1815 	sa_bulk_attr_t bulk;
1816 
1817 	bulk.sa_attr = attr;
1818 	bulk.sa_data = userdata;
1819 	bulk.sa_data_func = locator;
1820 	bulk.sa_length = buflen;
1821 
1822 	mutex_enter(&hdl->sa_lock);
1823 	error = sa_bulk_update_impl(hdl, &bulk, 1, tx);
1824 	mutex_exit(&hdl->sa_lock);
1825 	return (error);
1826 }
1827 
1828 /*
1829  * Return size of an attribute
1830  */
1831 
1832 int
1833 sa_size(sa_handle_t *hdl, sa_attr_type_t attr, int *size)
1834 {
1835 	sa_bulk_attr_t bulk;
1836 	int error;
1837 
1838 	bulk.sa_data = NULL;
1839 	bulk.sa_attr = attr;
1840 	bulk.sa_data_func = NULL;
1841 
1842 	ASSERT(hdl);
1843 	mutex_enter(&hdl->sa_lock);
1844 	if ((error = sa_attr_op(hdl, &bulk, 1, SA_LOOKUP, NULL)) != 0) {
1845 		mutex_exit(&hdl->sa_lock);
1846 		return (error);
1847 	}
1848 	*size = bulk.sa_size;
1849 
1850 	mutex_exit(&hdl->sa_lock);
1851 	return (0);
1852 }
1853 
1854 int
1855 sa_bulk_lookup_locked(sa_handle_t *hdl, sa_bulk_attr_t *attrs, int count)
1856 {
1857 	ASSERT(hdl);
1858 	ASSERT(MUTEX_HELD(&hdl->sa_lock));
1859 	return (sa_lookup_impl(hdl, attrs, count));
1860 }
1861 
1862 int
1863 sa_bulk_lookup(sa_handle_t *hdl, sa_bulk_attr_t *attrs, int count)
1864 {
1865 	int error;
1866 
1867 	ASSERT(hdl);
1868 	mutex_enter(&hdl->sa_lock);
1869 	error = sa_bulk_lookup_locked(hdl, attrs, count);
1870 	mutex_exit(&hdl->sa_lock);
1871 	return (error);
1872 }
1873 
1874 int
1875 sa_bulk_update(sa_handle_t *hdl, sa_bulk_attr_t *attrs, int count, dmu_tx_t *tx)
1876 {
1877 	int error;
1878 
1879 	ASSERT(hdl);
1880 	mutex_enter(&hdl->sa_lock);
1881 	error = sa_bulk_update_impl(hdl, attrs, count, tx);
1882 	mutex_exit(&hdl->sa_lock);
1883 	return (error);
1884 }
1885 
1886 int
1887 sa_remove(sa_handle_t *hdl, sa_attr_type_t attr, dmu_tx_t *tx)
1888 {
1889 	int error;
1890 
1891 	mutex_enter(&hdl->sa_lock);
1892 	error = sa_modify_attrs(hdl, attr, SA_REMOVE, NULL,
1893 	    NULL, 0, tx);
1894 	mutex_exit(&hdl->sa_lock);
1895 	return (error);
1896 }
1897 
1898 void
1899 sa_object_info(sa_handle_t *hdl, dmu_object_info_t *doi)
1900 {
1901 	dmu_object_info_from_db((dmu_buf_t *)hdl->sa_bonus, doi);
1902 }
1903 
1904 void
1905 sa_object_size(sa_handle_t *hdl, uint32_t *blksize, u_longlong_t *nblocks)
1906 {
1907 	dmu_object_size_from_db((dmu_buf_t *)hdl->sa_bonus,
1908 	    blksize, nblocks);
1909 }
1910 
1911 void
1912 sa_set_userp(sa_handle_t *hdl, void *ptr)
1913 {
1914 	hdl->sa_userp = ptr;
1915 }
1916 
1917 dmu_buf_t *
1918 sa_get_db(sa_handle_t *hdl)
1919 {
1920 	return ((dmu_buf_t *)hdl->sa_bonus);
1921 }
1922 
1923 void *
1924 sa_get_userdata(sa_handle_t *hdl)
1925 {
1926 	return (hdl->sa_userp);
1927 }
1928 
1929 void
1930 sa_register_update_callback_locked(objset_t *os, sa_update_cb_t *func)
1931 {
1932 	ASSERT(MUTEX_HELD(&os->os_sa->sa_lock));
1933 	os->os_sa->sa_update_cb = func;
1934 }
1935 
1936 void
1937 sa_register_update_callback(objset_t *os, sa_update_cb_t *func)
1938 {
1939 
1940 	mutex_enter(&os->os_sa->sa_lock);
1941 	sa_register_update_callback_locked(os, func);
1942 	mutex_exit(&os->os_sa->sa_lock);
1943 }
1944 
1945 uint64_t
1946 sa_handle_object(sa_handle_t *hdl)
1947 {
1948 	return (hdl->sa_bonus->db_object);
1949 }
1950 
1951 boolean_t
1952 sa_enabled(objset_t *os)
1953 {
1954 	return (os->os_sa == NULL);
1955 }
1956 
1957 int
1958 sa_set_sa_object(objset_t *os, uint64_t sa_object)
1959 {
1960 	sa_os_t *sa = os->os_sa;
1961 
1962 	if (sa->sa_master_obj)
1963 		return (1);
1964 
1965 	sa->sa_master_obj = sa_object;
1966 
1967 	return (0);
1968 }
1969 
1970 int
1971 sa_hdrsize(void *arg)
1972 {
1973 	sa_hdr_phys_t *hdr = arg;
1974 
1975 	return (SA_HDR_SIZE(hdr));
1976 }
1977 
1978 void
1979 sa_handle_lock(sa_handle_t *hdl)
1980 {
1981 	ASSERT(hdl);
1982 	mutex_enter(&hdl->sa_lock);
1983 }
1984 
1985 void
1986 sa_handle_unlock(sa_handle_t *hdl)
1987 {
1988 	ASSERT(hdl);
1989 	mutex_exit(&hdl->sa_lock);
1990 }
1991