1789Sahrens /*
2789Sahrens * CDDL HEADER START
3789Sahrens *
4789Sahrens * The contents of this file are subject to the terms of the
51491Sahrens * Common Development and Distribution License (the "License").
61491Sahrens * You may not use this file except in compliance with the License.
7789Sahrens *
8789Sahrens * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9789Sahrens * or http://www.opensolaris.org/os/licensing.
10789Sahrens * See the License for the specific language governing permissions
11789Sahrens * and limitations under the License.
12789Sahrens *
13789Sahrens * When distributing Covered Code, include this CDDL HEADER in each
14789Sahrens * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15789Sahrens * If applicable, add the following below this CDDL HEADER, with the
16789Sahrens * fields enclosed by brackets "[]" replaced with your own identifying
17789Sahrens * information: Portions Copyright [yyyy] [name of copyright owner]
18789Sahrens *
19789Sahrens * CDDL HEADER END
20789Sahrens */
21789Sahrens /*
22*12296SLin.Ling@Sun.COM * Copyright (c) 2005, 2010, Oracle and/or its affiliates. All rights reserved.
23789Sahrens */
24789Sahrens
25789Sahrens /*
26789Sahrens * The 512-byte leaf is broken into 32 16-byte chunks.
27789Sahrens * chunk number n means l_chunk[n], even though the header precedes it.
28789Sahrens * the names are stored null-terminated.
29789Sahrens */
30789Sahrens
3110922SJeff.Bonwick@Sun.COM #include <sys/zio.h>
329643SEric.Taylor@Sun.COM #include <sys/spa.h>
339643SEric.Taylor@Sun.COM #include <sys/dmu.h>
34789Sahrens #include <sys/zfs_context.h>
359643SEric.Taylor@Sun.COM #include <sys/fs/zfs.h>
36789Sahrens #include <sys/zap.h>
37789Sahrens #include <sys/zap_impl.h>
38789Sahrens #include <sys/zap_leaf.h>
39*12296SLin.Ling@Sun.COM #include <sys/arc.h>
40789Sahrens
415331Samw static uint16_t *zap_leaf_rehash_entry(zap_leaf_t *l, uint16_t entry);
425331Samw
43789Sahrens #define CHAIN_END 0xffff /* end of the chunk chain */
44789Sahrens
451491Sahrens /* half the (current) minimum block size */
46789Sahrens #define MAX_ARRAY_BYTES (8<<10)
47789Sahrens
48789Sahrens #define LEAF_HASH(l, h) \
491491Sahrens ((ZAP_LEAF_HASH_NUMENTRIES(l)-1) & \
501578Sahrens ((h) >> (64 - ZAP_LEAF_HASH_SHIFT(l)-(l)->l_phys->l_hdr.lh_prefix_len)))
51789Sahrens
52789Sahrens #define LEAF_HASH_ENTPTR(l, h) (&(l)->l_phys->l_hash[LEAF_HASH(l, h)])
53789Sahrens
54789Sahrens
55789Sahrens static void
zap_memset(void * a,int c,size_t n)56789Sahrens zap_memset(void *a, int c, size_t n)
57789Sahrens {
58789Sahrens char *cp = a;
59789Sahrens char *cpend = cp + n;
60789Sahrens
61789Sahrens while (cp < cpend)
62789Sahrens *cp++ = c;
63789Sahrens }
64789Sahrens
65789Sahrens static void
stv(int len,void * addr,uint64_t value)66789Sahrens stv(int len, void *addr, uint64_t value)
67789Sahrens {
68789Sahrens switch (len) {
69789Sahrens case 1:
70789Sahrens *(uint8_t *)addr = value;
71789Sahrens return;
72789Sahrens case 2:
73789Sahrens *(uint16_t *)addr = value;
74789Sahrens return;
75789Sahrens case 4:
76789Sahrens *(uint32_t *)addr = value;
77789Sahrens return;
78789Sahrens case 8:
79789Sahrens *(uint64_t *)addr = value;
80789Sahrens return;
81789Sahrens }
82789Sahrens ASSERT(!"bad int len");
83789Sahrens }
84789Sahrens
85789Sahrens static uint64_t
ldv(int len,const void * addr)86789Sahrens ldv(int len, const void *addr)
87789Sahrens {
88789Sahrens switch (len) {
89789Sahrens case 1:
90789Sahrens return (*(uint8_t *)addr);
91789Sahrens case 2:
92789Sahrens return (*(uint16_t *)addr);
93789Sahrens case 4:
94789Sahrens return (*(uint32_t *)addr);
95789Sahrens case 8:
96789Sahrens return (*(uint64_t *)addr);
97789Sahrens }
98789Sahrens ASSERT(!"bad int len");
992856Snd150628 return (0xFEEDFACEDEADBEEFULL);
100789Sahrens }
101789Sahrens
102789Sahrens void
zap_leaf_byteswap(zap_leaf_phys_t * buf,int size)1031491Sahrens zap_leaf_byteswap(zap_leaf_phys_t *buf, int size)
104789Sahrens {
105789Sahrens int i;
1061491Sahrens zap_leaf_t l;
1071491Sahrens l.l_bs = highbit(size)-1;
1081491Sahrens l.l_phys = buf;
109789Sahrens
1101578Sahrens buf->l_hdr.lh_block_type = BSWAP_64(buf->l_hdr.lh_block_type);
1111578Sahrens buf->l_hdr.lh_prefix = BSWAP_64(buf->l_hdr.lh_prefix);
1121578Sahrens buf->l_hdr.lh_magic = BSWAP_32(buf->l_hdr.lh_magic);
1131578Sahrens buf->l_hdr.lh_nfree = BSWAP_16(buf->l_hdr.lh_nfree);
1141578Sahrens buf->l_hdr.lh_nentries = BSWAP_16(buf->l_hdr.lh_nentries);
1151578Sahrens buf->l_hdr.lh_prefix_len = BSWAP_16(buf->l_hdr.lh_prefix_len);
116789Sahrens buf->l_hdr.lh_freelist = BSWAP_16(buf->l_hdr.lh_freelist);
117789Sahrens
1181491Sahrens for (i = 0; i < ZAP_LEAF_HASH_NUMENTRIES(&l); i++)
119789Sahrens buf->l_hash[i] = BSWAP_16(buf->l_hash[i]);
120789Sahrens
1211491Sahrens for (i = 0; i < ZAP_LEAF_NUMCHUNKS(&l); i++) {
1221491Sahrens zap_leaf_chunk_t *lc = &ZAP_LEAF_CHUNK(&l, i);
123789Sahrens struct zap_leaf_entry *le;
124789Sahrens
1251491Sahrens switch (lc->l_free.lf_type) {
1261491Sahrens case ZAP_CHUNK_ENTRY:
1271491Sahrens le = &lc->l_entry;
128789Sahrens
1291578Sahrens le->le_type = BSWAP_8(le->le_type);
13011165SMatthew.Ahrens@Sun.COM le->le_value_intlen = BSWAP_8(le->le_value_intlen);
1311578Sahrens le->le_next = BSWAP_16(le->le_next);
1321578Sahrens le->le_name_chunk = BSWAP_16(le->le_name_chunk);
13311165SMatthew.Ahrens@Sun.COM le->le_name_numints = BSWAP_16(le->le_name_numints);
1341578Sahrens le->le_value_chunk = BSWAP_16(le->le_value_chunk);
13511165SMatthew.Ahrens@Sun.COM le->le_value_numints = BSWAP_16(le->le_value_numints);
1361578Sahrens le->le_cd = BSWAP_32(le->le_cd);
1371578Sahrens le->le_hash = BSWAP_64(le->le_hash);
138789Sahrens break;
1391491Sahrens case ZAP_CHUNK_FREE:
1401578Sahrens lc->l_free.lf_type = BSWAP_8(lc->l_free.lf_type);
1411578Sahrens lc->l_free.lf_next = BSWAP_16(lc->l_free.lf_next);
142789Sahrens break;
1431491Sahrens case ZAP_CHUNK_ARRAY:
1441578Sahrens lc->l_array.la_type = BSWAP_8(lc->l_array.la_type);
1451578Sahrens lc->l_array.la_next = BSWAP_16(lc->l_array.la_next);
146789Sahrens /* la_array doesn't need swapping */
147789Sahrens break;
148789Sahrens default:
149789Sahrens ASSERT(!"bad leaf type");
150789Sahrens }
151789Sahrens }
152789Sahrens }
153789Sahrens
154789Sahrens void
zap_leaf_init(zap_leaf_t * l,boolean_t sort)1555498Stimh zap_leaf_init(zap_leaf_t *l, boolean_t sort)
156789Sahrens {
157789Sahrens int i;
158789Sahrens
1591491Sahrens l->l_bs = highbit(l->l_dbuf->db_size)-1;
160789Sahrens zap_memset(&l->l_phys->l_hdr, 0, sizeof (struct zap_leaf_header));
1611491Sahrens zap_memset(l->l_phys->l_hash, CHAIN_END, 2*ZAP_LEAF_HASH_NUMENTRIES(l));
1621491Sahrens for (i = 0; i < ZAP_LEAF_NUMCHUNKS(l); i++) {
1631491Sahrens ZAP_LEAF_CHUNK(l, i).l_free.lf_type = ZAP_CHUNK_FREE;
1641491Sahrens ZAP_LEAF_CHUNK(l, i).l_free.lf_next = i+1;
165789Sahrens }
1661491Sahrens ZAP_LEAF_CHUNK(l, ZAP_LEAF_NUMCHUNKS(l)-1).l_free.lf_next = CHAIN_END;
1671578Sahrens l->l_phys->l_hdr.lh_block_type = ZBT_LEAF;
1681578Sahrens l->l_phys->l_hdr.lh_magic = ZAP_LEAF_MAGIC;
1691578Sahrens l->l_phys->l_hdr.lh_nfree = ZAP_LEAF_NUMCHUNKS(l);
1705498Stimh if (sort)
1715331Samw l->l_phys->l_hdr.lh_flags |= ZLF_ENTRIES_CDSORTED;
172789Sahrens }
173789Sahrens
174789Sahrens /*
175789Sahrens * Routines which manipulate leaf chunks (l_chunk[]).
176789Sahrens */
177789Sahrens
178789Sahrens static uint16_t
zap_leaf_chunk_alloc(zap_leaf_t * l)179789Sahrens zap_leaf_chunk_alloc(zap_leaf_t *l)
180789Sahrens {
181789Sahrens int chunk;
182789Sahrens
1831578Sahrens ASSERT(l->l_phys->l_hdr.lh_nfree > 0);
184789Sahrens
185789Sahrens chunk = l->l_phys->l_hdr.lh_freelist;
1861491Sahrens ASSERT3U(chunk, <, ZAP_LEAF_NUMCHUNKS(l));
1871491Sahrens ASSERT3U(ZAP_LEAF_CHUNK(l, chunk).l_free.lf_type, ==, ZAP_CHUNK_FREE);
188789Sahrens
1891491Sahrens l->l_phys->l_hdr.lh_freelist = ZAP_LEAF_CHUNK(l, chunk).l_free.lf_next;
190789Sahrens
1911578Sahrens l->l_phys->l_hdr.lh_nfree--;
192789Sahrens
193789Sahrens return (chunk);
194789Sahrens }
195789Sahrens
196789Sahrens static void
zap_leaf_chunk_free(zap_leaf_t * l,uint16_t chunk)197789Sahrens zap_leaf_chunk_free(zap_leaf_t *l, uint16_t chunk)
198789Sahrens {
1991491Sahrens struct zap_leaf_free *zlf = &ZAP_LEAF_CHUNK(l, chunk).l_free;
2001578Sahrens ASSERT3U(l->l_phys->l_hdr.lh_nfree, <, ZAP_LEAF_NUMCHUNKS(l));
2011491Sahrens ASSERT3U(chunk, <, ZAP_LEAF_NUMCHUNKS(l));
2021491Sahrens ASSERT(zlf->lf_type != ZAP_CHUNK_FREE);
203789Sahrens
2041491Sahrens zlf->lf_type = ZAP_CHUNK_FREE;
205789Sahrens zlf->lf_next = l->l_phys->l_hdr.lh_freelist;
206789Sahrens bzero(zlf->lf_pad, sizeof (zlf->lf_pad)); /* help it to compress */
207789Sahrens l->l_phys->l_hdr.lh_freelist = chunk;
208789Sahrens
2091578Sahrens l->l_phys->l_hdr.lh_nfree++;
210789Sahrens }
211789Sahrens
212789Sahrens /*
213789Sahrens * Routines which manipulate leaf arrays (zap_leaf_array type chunks).
214789Sahrens */
215789Sahrens
216789Sahrens static uint16_t
zap_leaf_array_create(zap_leaf_t * l,const char * buf,int integer_size,int num_integers)2171578Sahrens zap_leaf_array_create(zap_leaf_t *l, const char *buf,
21811165SMatthew.Ahrens@Sun.COM int integer_size, int num_integers)
219789Sahrens {
220789Sahrens uint16_t chunk_head;
221789Sahrens uint16_t *chunkp = &chunk_head;
222789Sahrens int byten = 0;
223789Sahrens uint64_t value;
224789Sahrens int shift = (integer_size-1)*8;
225789Sahrens int len = num_integers;
226789Sahrens
227789Sahrens ASSERT3U(num_integers * integer_size, <, MAX_ARRAY_BYTES);
228789Sahrens
229789Sahrens while (len > 0) {
230789Sahrens uint16_t chunk = zap_leaf_chunk_alloc(l);
2311491Sahrens struct zap_leaf_array *la = &ZAP_LEAF_CHUNK(l, chunk).l_array;
232789Sahrens int i;
233789Sahrens
2341491Sahrens la->la_type = ZAP_CHUNK_ARRAY;
235789Sahrens for (i = 0; i < ZAP_LEAF_ARRAY_BYTES; i++) {
236789Sahrens if (byten == 0)
237789Sahrens value = ldv(integer_size, buf);
2383052Sahrens la->la_array[i] = value >> shift;
239789Sahrens value <<= 8;
240789Sahrens if (++byten == integer_size) {
241789Sahrens byten = 0;
242789Sahrens buf += integer_size;
243789Sahrens if (--len == 0)
244789Sahrens break;
245789Sahrens }
246789Sahrens }
247789Sahrens
248789Sahrens *chunkp = chunk;
249789Sahrens chunkp = &la->la_next;
250789Sahrens }
251789Sahrens *chunkp = CHAIN_END;
252789Sahrens
253789Sahrens return (chunk_head);
254789Sahrens }
255789Sahrens
256789Sahrens static void
zap_leaf_array_free(zap_leaf_t * l,uint16_t * chunkp)2571578Sahrens zap_leaf_array_free(zap_leaf_t *l, uint16_t *chunkp)
258789Sahrens {
259789Sahrens uint16_t chunk = *chunkp;
260789Sahrens
261789Sahrens *chunkp = CHAIN_END;
262789Sahrens
263789Sahrens while (chunk != CHAIN_END) {
2641491Sahrens int nextchunk = ZAP_LEAF_CHUNK(l, chunk).l_array.la_next;
2651491Sahrens ASSERT3U(ZAP_LEAF_CHUNK(l, chunk).l_array.la_type, ==,
2661491Sahrens ZAP_CHUNK_ARRAY);
267789Sahrens zap_leaf_chunk_free(l, chunk);
268789Sahrens chunk = nextchunk;
269789Sahrens }
270789Sahrens }
271789Sahrens
272789Sahrens /* array_len and buf_len are in integers, not bytes */
273789Sahrens static void
zap_leaf_array_read(zap_leaf_t * l,uint16_t chunk,int array_int_len,int array_len,int buf_int_len,uint64_t buf_len,void * buf)2741578Sahrens zap_leaf_array_read(zap_leaf_t *l, uint16_t chunk,
275789Sahrens int array_int_len, int array_len, int buf_int_len, uint64_t buf_len,
27610922SJeff.Bonwick@Sun.COM void *buf)
277789Sahrens {
278789Sahrens int len = MIN(array_len, buf_len);
279789Sahrens int byten = 0;
280789Sahrens uint64_t value = 0;
28110922SJeff.Bonwick@Sun.COM char *p = buf;
282789Sahrens
283789Sahrens ASSERT3U(array_int_len, <=, buf_int_len);
284789Sahrens
285885Sahrens /* Fast path for one 8-byte integer */
286885Sahrens if (array_int_len == 8 && buf_int_len == 8 && len == 1) {
2871491Sahrens struct zap_leaf_array *la = &ZAP_LEAF_CHUNK(l, chunk).l_array;
288899Sbonwick uint8_t *ip = la->la_array;
28910922SJeff.Bonwick@Sun.COM uint64_t *buf64 = buf;
290899Sbonwick
291899Sbonwick *buf64 = (uint64_t)ip[0] << 56 | (uint64_t)ip[1] << 48 |
292899Sbonwick (uint64_t)ip[2] << 40 | (uint64_t)ip[3] << 32 |
293899Sbonwick (uint64_t)ip[4] << 24 | (uint64_t)ip[5] << 16 |
294899Sbonwick (uint64_t)ip[6] << 8 | (uint64_t)ip[7];
295885Sahrens return;
296885Sahrens }
297885Sahrens
298885Sahrens /* Fast path for an array of 1-byte integers (eg. the entry name) */
299885Sahrens if (array_int_len == 1 && buf_int_len == 1 &&
300885Sahrens buf_len > array_len + ZAP_LEAF_ARRAY_BYTES) {
301885Sahrens while (chunk != CHAIN_END) {
302885Sahrens struct zap_leaf_array *la =
3031491Sahrens &ZAP_LEAF_CHUNK(l, chunk).l_array;
30410922SJeff.Bonwick@Sun.COM bcopy(la->la_array, p, ZAP_LEAF_ARRAY_BYTES);
30510922SJeff.Bonwick@Sun.COM p += ZAP_LEAF_ARRAY_BYTES;
306885Sahrens chunk = la->la_next;
307885Sahrens }
308885Sahrens return;
309885Sahrens }
310885Sahrens
311789Sahrens while (len > 0) {
3121491Sahrens struct zap_leaf_array *la = &ZAP_LEAF_CHUNK(l, chunk).l_array;
313789Sahrens int i;
314789Sahrens
3151491Sahrens ASSERT3U(chunk, <, ZAP_LEAF_NUMCHUNKS(l));
316789Sahrens for (i = 0; i < ZAP_LEAF_ARRAY_BYTES && len > 0; i++) {
317789Sahrens value = (value << 8) | la->la_array[i];
318789Sahrens byten++;
319789Sahrens if (byten == array_int_len) {
32010922SJeff.Bonwick@Sun.COM stv(buf_int_len, p, value);
321789Sahrens byten = 0;
322789Sahrens len--;
323789Sahrens if (len == 0)
324789Sahrens return;
32510922SJeff.Bonwick@Sun.COM p += buf_int_len;
326789Sahrens }
327789Sahrens }
328789Sahrens chunk = la->la_next;
329789Sahrens }
330789Sahrens }
331789Sahrens
3325331Samw static boolean_t
zap_leaf_array_match(zap_leaf_t * l,zap_name_t * zn,int chunk,int array_numints)33311165SMatthew.Ahrens@Sun.COM zap_leaf_array_match(zap_leaf_t *l, zap_name_t *zn,
33411165SMatthew.Ahrens@Sun.COM int chunk, int array_numints)
335789Sahrens {
336789Sahrens int bseen = 0;
337789Sahrens
33810922SJeff.Bonwick@Sun.COM if (zap_getflags(zn->zn_zap) & ZAP_FLAG_UINT64_KEY) {
33910922SJeff.Bonwick@Sun.COM uint64_t *thiskey;
34010922SJeff.Bonwick@Sun.COM boolean_t match;
34110922SJeff.Bonwick@Sun.COM
34210922SJeff.Bonwick@Sun.COM ASSERT(zn->zn_key_intlen == sizeof (*thiskey));
34311165SMatthew.Ahrens@Sun.COM thiskey = kmem_alloc(array_numints * sizeof (*thiskey),
34411165SMatthew.Ahrens@Sun.COM KM_SLEEP);
34510922SJeff.Bonwick@Sun.COM
34611165SMatthew.Ahrens@Sun.COM zap_leaf_array_read(l, chunk, sizeof (*thiskey), array_numints,
34711165SMatthew.Ahrens@Sun.COM sizeof (*thiskey), array_numints, thiskey);
34810922SJeff.Bonwick@Sun.COM match = bcmp(thiskey, zn->zn_key_orig,
34911165SMatthew.Ahrens@Sun.COM array_numints * sizeof (*thiskey)) == 0;
35011165SMatthew.Ahrens@Sun.COM kmem_free(thiskey, array_numints * sizeof (*thiskey));
35110922SJeff.Bonwick@Sun.COM return (match);
35210922SJeff.Bonwick@Sun.COM }
35310922SJeff.Bonwick@Sun.COM
35411165SMatthew.Ahrens@Sun.COM ASSERT(zn->zn_key_intlen == 1);
3555331Samw if (zn->zn_matchtype == MT_FIRST) {
35611165SMatthew.Ahrens@Sun.COM char *thisname = kmem_alloc(array_numints, KM_SLEEP);
3575331Samw boolean_t match;
3585331Samw
35911165SMatthew.Ahrens@Sun.COM zap_leaf_array_read(l, chunk, sizeof (char), array_numints,
36011165SMatthew.Ahrens@Sun.COM sizeof (char), array_numints, thisname);
3615331Samw match = zap_match(zn, thisname);
36211165SMatthew.Ahrens@Sun.COM kmem_free(thisname, array_numints);
3635331Samw return (match);
3645331Samw }
3655331Samw
36610922SJeff.Bonwick@Sun.COM /*
36710922SJeff.Bonwick@Sun.COM * Fast path for exact matching.
36810922SJeff.Bonwick@Sun.COM * First check that the lengths match, so that we don't read
36910922SJeff.Bonwick@Sun.COM * past the end of the zn_key_orig array.
37010922SJeff.Bonwick@Sun.COM */
37111165SMatthew.Ahrens@Sun.COM if (array_numints != zn->zn_key_orig_numints)
37210922SJeff.Bonwick@Sun.COM return (B_FALSE);
37311165SMatthew.Ahrens@Sun.COM while (bseen < array_numints) {
3741491Sahrens struct zap_leaf_array *la = &ZAP_LEAF_CHUNK(l, chunk).l_array;
37511165SMatthew.Ahrens@Sun.COM int toread = MIN(array_numints - bseen, ZAP_LEAF_ARRAY_BYTES);
3761491Sahrens ASSERT3U(chunk, <, ZAP_LEAF_NUMCHUNKS(l));
37710922SJeff.Bonwick@Sun.COM if (bcmp(la->la_array, (char *)zn->zn_key_orig + bseen, toread))
378789Sahrens break;
379789Sahrens chunk = la->la_next;
380789Sahrens bseen += toread;
381789Sahrens }
38211165SMatthew.Ahrens@Sun.COM return (bseen == array_numints);
383789Sahrens }
384789Sahrens
385789Sahrens /*
386789Sahrens * Routines which manipulate leaf entries.
387789Sahrens */
388789Sahrens
389789Sahrens int
zap_leaf_lookup(zap_leaf_t * l,zap_name_t * zn,zap_entry_handle_t * zeh)3905331Samw zap_leaf_lookup(zap_leaf_t *l, zap_name_t *zn, zap_entry_handle_t *zeh)
391789Sahrens {
392789Sahrens uint16_t *chunkp;
393789Sahrens struct zap_leaf_entry *le;
394789Sahrens
3951578Sahrens ASSERT3U(l->l_phys->l_hdr.lh_magic, ==, ZAP_LEAF_MAGIC);
396789Sahrens
3975331Samw again:
3985331Samw for (chunkp = LEAF_HASH_ENTPTR(l, zn->zn_hash);
399789Sahrens *chunkp != CHAIN_END; chunkp = &le->le_next) {
400789Sahrens uint16_t chunk = *chunkp;
4011491Sahrens le = ZAP_LEAF_ENTRY(l, chunk);
402789Sahrens
4031491Sahrens ASSERT3U(chunk, <, ZAP_LEAF_NUMCHUNKS(l));
4041491Sahrens ASSERT3U(le->le_type, ==, ZAP_CHUNK_ENTRY);
405789Sahrens
4065331Samw if (le->le_hash != zn->zn_hash)
407789Sahrens continue;
408789Sahrens
4095331Samw /*
4105331Samw * NB: the entry chain is always sorted by cd on
4115331Samw * normalized zap objects, so this will find the
4125331Samw * lowest-cd match for MT_FIRST.
4135331Samw */
4145331Samw ASSERT(zn->zn_matchtype == MT_EXACT ||
4155331Samw (l->l_phys->l_hdr.lh_flags & ZLF_ENTRIES_CDSORTED));
4165331Samw if (zap_leaf_array_match(l, zn, le->le_name_chunk,
41711165SMatthew.Ahrens@Sun.COM le->le_name_numints)) {
41811165SMatthew.Ahrens@Sun.COM zeh->zeh_num_integers = le->le_value_numints;
41911165SMatthew.Ahrens@Sun.COM zeh->zeh_integer_size = le->le_value_intlen;
420789Sahrens zeh->zeh_cd = le->le_cd;
421789Sahrens zeh->zeh_hash = le->le_hash;
422789Sahrens zeh->zeh_chunkp = chunkp;
4231578Sahrens zeh->zeh_leaf = l;
424789Sahrens return (0);
425789Sahrens }
426789Sahrens }
427789Sahrens
4285331Samw /*
4295331Samw * NB: we could of course do this in one pass, but that would be
4305331Samw * a pain. We'll see if MT_BEST is even used much.
4315331Samw */
4325331Samw if (zn->zn_matchtype == MT_BEST) {
4335331Samw zn->zn_matchtype = MT_FIRST;
4345331Samw goto again;
4355331Samw }
4365331Samw
437789Sahrens return (ENOENT);
438789Sahrens }
439789Sahrens
440789Sahrens /* Return (h1,cd1 >= h2,cd2) */
441885Sahrens #define HCD_GTEQ(h1, cd1, h2, cd2) \
442885Sahrens ((h1 > h2) ? TRUE : ((h1 == h2 && cd1 >= cd2) ? TRUE : FALSE))
443789Sahrens
444789Sahrens int
zap_leaf_lookup_closest(zap_leaf_t * l,uint64_t h,uint32_t cd,zap_entry_handle_t * zeh)445789Sahrens zap_leaf_lookup_closest(zap_leaf_t *l,
446789Sahrens uint64_t h, uint32_t cd, zap_entry_handle_t *zeh)
447789Sahrens {
448789Sahrens uint16_t chunk;
449789Sahrens uint64_t besth = -1ULL;
45010922SJeff.Bonwick@Sun.COM uint32_t bestcd = -1U;
4511491Sahrens uint16_t bestlh = ZAP_LEAF_HASH_NUMENTRIES(l)-1;
452789Sahrens uint16_t lh;
453789Sahrens struct zap_leaf_entry *le;
454789Sahrens
4551578Sahrens ASSERT3U(l->l_phys->l_hdr.lh_magic, ==, ZAP_LEAF_MAGIC);
456789Sahrens
457789Sahrens for (lh = LEAF_HASH(l, h); lh <= bestlh; lh++) {
458789Sahrens for (chunk = l->l_phys->l_hash[lh];
459789Sahrens chunk != CHAIN_END; chunk = le->le_next) {
4601491Sahrens le = ZAP_LEAF_ENTRY(l, chunk);
461789Sahrens
4621491Sahrens ASSERT3U(chunk, <, ZAP_LEAF_NUMCHUNKS(l));
4631491Sahrens ASSERT3U(le->le_type, ==, ZAP_CHUNK_ENTRY);
464789Sahrens
465885Sahrens if (HCD_GTEQ(le->le_hash, le->le_cd, h, cd) &&
466885Sahrens HCD_GTEQ(besth, bestcd, le->le_hash, le->le_cd)) {
467789Sahrens ASSERT3U(bestlh, >=, lh);
468789Sahrens bestlh = lh;
469789Sahrens besth = le->le_hash;
470789Sahrens bestcd = le->le_cd;
471789Sahrens
47211165SMatthew.Ahrens@Sun.COM zeh->zeh_num_integers = le->le_value_numints;
47311165SMatthew.Ahrens@Sun.COM zeh->zeh_integer_size = le->le_value_intlen;
474789Sahrens zeh->zeh_cd = le->le_cd;
475789Sahrens zeh->zeh_hash = le->le_hash;
476789Sahrens zeh->zeh_fakechunk = chunk;
477789Sahrens zeh->zeh_chunkp = &zeh->zeh_fakechunk;
4781578Sahrens zeh->zeh_leaf = l;
479789Sahrens }
480789Sahrens }
481789Sahrens }
482789Sahrens
48310922SJeff.Bonwick@Sun.COM return (bestcd == -1U ? ENOENT : 0);
484789Sahrens }
485789Sahrens
486789Sahrens int
zap_entry_read(const zap_entry_handle_t * zeh,uint8_t integer_size,uint64_t num_integers,void * buf)487789Sahrens zap_entry_read(const zap_entry_handle_t *zeh,
488789Sahrens uint8_t integer_size, uint64_t num_integers, void *buf)
489789Sahrens {
4901491Sahrens struct zap_leaf_entry *le =
4911578Sahrens ZAP_LEAF_ENTRY(zeh->zeh_leaf, *zeh->zeh_chunkp);
4921491Sahrens ASSERT3U(le->le_type, ==, ZAP_CHUNK_ENTRY);
493789Sahrens
49411165SMatthew.Ahrens@Sun.COM if (le->le_value_intlen > integer_size)
495789Sahrens return (EINVAL);
496789Sahrens
49711165SMatthew.Ahrens@Sun.COM zap_leaf_array_read(zeh->zeh_leaf, le->le_value_chunk,
49811165SMatthew.Ahrens@Sun.COM le->le_value_intlen, le->le_value_numints,
49911165SMatthew.Ahrens@Sun.COM integer_size, num_integers, buf);
500789Sahrens
501789Sahrens if (zeh->zeh_num_integers > num_integers)
502789Sahrens return (EOVERFLOW);
503789Sahrens return (0);
504789Sahrens
505789Sahrens }
506789Sahrens
507789Sahrens int
zap_entry_read_name(zap_t * zap,const zap_entry_handle_t * zeh,uint16_t buflen,char * buf)50810922SJeff.Bonwick@Sun.COM zap_entry_read_name(zap_t *zap, const zap_entry_handle_t *zeh, uint16_t buflen,
50910922SJeff.Bonwick@Sun.COM char *buf)
510789Sahrens {
5111491Sahrens struct zap_leaf_entry *le =
5121578Sahrens ZAP_LEAF_ENTRY(zeh->zeh_leaf, *zeh->zeh_chunkp);
5131491Sahrens ASSERT3U(le->le_type, ==, ZAP_CHUNK_ENTRY);
514789Sahrens
51510922SJeff.Bonwick@Sun.COM if (zap_getflags(zap) & ZAP_FLAG_UINT64_KEY) {
51610922SJeff.Bonwick@Sun.COM zap_leaf_array_read(zeh->zeh_leaf, le->le_name_chunk, 8,
51711165SMatthew.Ahrens@Sun.COM le->le_name_numints, 8, buflen / 8, buf);
51810922SJeff.Bonwick@Sun.COM } else {
51910922SJeff.Bonwick@Sun.COM zap_leaf_array_read(zeh->zeh_leaf, le->le_name_chunk, 1,
52011165SMatthew.Ahrens@Sun.COM le->le_name_numints, 1, buflen, buf);
52110922SJeff.Bonwick@Sun.COM }
52211165SMatthew.Ahrens@Sun.COM if (le->le_name_numints > buflen)
523789Sahrens return (EOVERFLOW);
524789Sahrens return (0);
525789Sahrens }
526789Sahrens
527789Sahrens int
zap_entry_update(zap_entry_handle_t * zeh,uint8_t integer_size,uint64_t num_integers,const void * buf)528789Sahrens zap_entry_update(zap_entry_handle_t *zeh,
529789Sahrens uint8_t integer_size, uint64_t num_integers, const void *buf)
530789Sahrens {
531789Sahrens int delta_chunks;
5321578Sahrens zap_leaf_t *l = zeh->zeh_leaf;
5331578Sahrens struct zap_leaf_entry *le = ZAP_LEAF_ENTRY(l, *zeh->zeh_chunkp);
534789Sahrens
5351578Sahrens delta_chunks = ZAP_LEAF_ARRAY_NCHUNKS(num_integers * integer_size) -
53611165SMatthew.Ahrens@Sun.COM ZAP_LEAF_ARRAY_NCHUNKS(le->le_value_numints * le->le_value_intlen);
537789Sahrens
5381578Sahrens if ((int)l->l_phys->l_hdr.lh_nfree < delta_chunks)
539789Sahrens return (EAGAIN);
540789Sahrens
5411578Sahrens zap_leaf_array_free(l, &le->le_value_chunk);
542789Sahrens le->le_value_chunk =
5431578Sahrens zap_leaf_array_create(l, buf, integer_size, num_integers);
54411165SMatthew.Ahrens@Sun.COM le->le_value_numints = num_integers;
54511165SMatthew.Ahrens@Sun.COM le->le_value_intlen = integer_size;
546789Sahrens return (0);
547789Sahrens }
548789Sahrens
549789Sahrens void
zap_entry_remove(zap_entry_handle_t * zeh)550789Sahrens zap_entry_remove(zap_entry_handle_t *zeh)
551789Sahrens {
552789Sahrens uint16_t entry_chunk;
553789Sahrens struct zap_leaf_entry *le;
5541578Sahrens zap_leaf_t *l = zeh->zeh_leaf;
555789Sahrens
556789Sahrens ASSERT3P(zeh->zeh_chunkp, !=, &zeh->zeh_fakechunk);
557789Sahrens
558789Sahrens entry_chunk = *zeh->zeh_chunkp;
5591491Sahrens le = ZAP_LEAF_ENTRY(l, entry_chunk);
5601491Sahrens ASSERT3U(le->le_type, ==, ZAP_CHUNK_ENTRY);
561789Sahrens
5621578Sahrens zap_leaf_array_free(l, &le->le_name_chunk);
5631578Sahrens zap_leaf_array_free(l, &le->le_value_chunk);
564789Sahrens
565789Sahrens *zeh->zeh_chunkp = le->le_next;
566789Sahrens zap_leaf_chunk_free(l, entry_chunk);
567789Sahrens
5681578Sahrens l->l_phys->l_hdr.lh_nentries--;
569789Sahrens }
570789Sahrens
571789Sahrens int
zap_entry_create(zap_leaf_t * l,zap_name_t * zn,uint32_t cd,uint8_t integer_size,uint64_t num_integers,const void * buf,zap_entry_handle_t * zeh)57210922SJeff.Bonwick@Sun.COM zap_entry_create(zap_leaf_t *l, zap_name_t *zn, uint32_t cd,
573789Sahrens uint8_t integer_size, uint64_t num_integers, const void *buf,
574789Sahrens zap_entry_handle_t *zeh)
575789Sahrens {
576789Sahrens uint16_t chunk;
577789Sahrens uint16_t *chunkp;
578789Sahrens struct zap_leaf_entry *le;
57910922SJeff.Bonwick@Sun.COM uint64_t valuelen;
580789Sahrens int numchunks;
58110922SJeff.Bonwick@Sun.COM uint64_t h = zn->zn_hash;
582789Sahrens
583789Sahrens valuelen = integer_size * num_integers;
584789Sahrens
58511165SMatthew.Ahrens@Sun.COM numchunks = 1 + ZAP_LEAF_ARRAY_NCHUNKS(zn->zn_key_orig_numints *
58611165SMatthew.Ahrens@Sun.COM zn->zn_key_intlen) + ZAP_LEAF_ARRAY_NCHUNKS(valuelen);
5871491Sahrens if (numchunks > ZAP_LEAF_NUMCHUNKS(l))
588789Sahrens return (E2BIG);
589789Sahrens
59010922SJeff.Bonwick@Sun.COM if (cd == ZAP_NEED_CD) {
5915331Samw /* find the lowest unused cd */
5925331Samw if (l->l_phys->l_hdr.lh_flags & ZLF_ENTRIES_CDSORTED) {
5935331Samw cd = 0;
5945331Samw
5951578Sahrens for (chunk = *LEAF_HASH_ENTPTR(l, h);
5961578Sahrens chunk != CHAIN_END; chunk = le->le_next) {
5971578Sahrens le = ZAP_LEAF_ENTRY(l, chunk);
5985331Samw if (le->le_cd > cd)
5991578Sahrens break;
6005331Samw if (le->le_hash == h) {
6015331Samw ASSERT3U(cd, ==, le->le_cd);
6025331Samw cd++;
603789Sahrens }
604789Sahrens }
6055331Samw } else {
6065331Samw /* old unsorted format; do it the O(n^2) way */
60710922SJeff.Bonwick@Sun.COM for (cd = 0; ; cd++) {
6085331Samw for (chunk = *LEAF_HASH_ENTPTR(l, h);
6095331Samw chunk != CHAIN_END; chunk = le->le_next) {
6105331Samw le = ZAP_LEAF_ENTRY(l, chunk);
6115331Samw if (le->le_hash == h &&
6125331Samw le->le_cd == cd) {
6135331Samw break;
6145331Samw }
6155331Samw }
6165331Samw /* If this cd is not in use, we are good. */
6175331Samw if (chunk == CHAIN_END)
6185331Samw break;
6195331Samw }
620789Sahrens }
6215331Samw /*
62210922SJeff.Bonwick@Sun.COM * We would run out of space in a block before we could
62310922SJeff.Bonwick@Sun.COM * store enough entries to run out of CD values.
6245331Samw */
62510922SJeff.Bonwick@Sun.COM ASSERT3U(cd, <, zap_maxcd(zn->zn_zap));
626789Sahrens }
627789Sahrens
6281578Sahrens if (l->l_phys->l_hdr.lh_nfree < numchunks)
629789Sahrens return (EAGAIN);
630789Sahrens
631789Sahrens /* make the entry */
632789Sahrens chunk = zap_leaf_chunk_alloc(l);
6331491Sahrens le = ZAP_LEAF_ENTRY(l, chunk);
6341491Sahrens le->le_type = ZAP_CHUNK_ENTRY;
63510922SJeff.Bonwick@Sun.COM le->le_name_chunk = zap_leaf_array_create(l, zn->zn_key_orig,
63611165SMatthew.Ahrens@Sun.COM zn->zn_key_intlen, zn->zn_key_orig_numints);
63711165SMatthew.Ahrens@Sun.COM le->le_name_numints = zn->zn_key_orig_numints;
638789Sahrens le->le_value_chunk =
6391578Sahrens zap_leaf_array_create(l, buf, integer_size, num_integers);
64011165SMatthew.Ahrens@Sun.COM le->le_value_numints = num_integers;
64111165SMatthew.Ahrens@Sun.COM le->le_value_intlen = integer_size;
642789Sahrens le->le_hash = h;
643789Sahrens le->le_cd = cd;
644789Sahrens
645789Sahrens /* link it into the hash chain */
6465331Samw /* XXX if we did the search above, we could just use that */
6475331Samw chunkp = zap_leaf_rehash_entry(l, chunk);
648789Sahrens
6491578Sahrens l->l_phys->l_hdr.lh_nentries++;
650789Sahrens
6511578Sahrens zeh->zeh_leaf = l;
652789Sahrens zeh->zeh_num_integers = num_integers;
65311165SMatthew.Ahrens@Sun.COM zeh->zeh_integer_size = le->le_value_intlen;
654789Sahrens zeh->zeh_cd = le->le_cd;
655789Sahrens zeh->zeh_hash = le->le_hash;
656789Sahrens zeh->zeh_chunkp = chunkp;
657789Sahrens
658789Sahrens return (0);
659789Sahrens }
660789Sahrens
661789Sahrens /*
6625331Samw * Determine if there is another entry with the same normalized form.
6635331Samw * For performance purposes, either zn or name must be provided (the
6645331Samw * other can be NULL). Note, there usually won't be any hash
6655331Samw * conflicts, in which case we don't need the concatenated/normalized
6665331Samw * form of the name. But all callers have one of these on hand anyway,
6675331Samw * so might as well take advantage. A cleaner but slower interface
6685331Samw * would accept neither argument, and compute the normalized name as
6695331Samw * needed (using zap_name_alloc(zap_entry_read_name(zeh))).
6705331Samw */
6715331Samw boolean_t
zap_entry_normalization_conflict(zap_entry_handle_t * zeh,zap_name_t * zn,const char * name,zap_t * zap)6725331Samw zap_entry_normalization_conflict(zap_entry_handle_t *zeh, zap_name_t *zn,
6735331Samw const char *name, zap_t *zap)
6745331Samw {
6755331Samw uint64_t chunk;
6765331Samw struct zap_leaf_entry *le;
6775331Samw boolean_t allocdzn = B_FALSE;
6785331Samw
6795331Samw if (zap->zap_normflags == 0)
6805331Samw return (B_FALSE);
6815331Samw
6825331Samw for (chunk = *LEAF_HASH_ENTPTR(zeh->zeh_leaf, zeh->zeh_hash);
6835331Samw chunk != CHAIN_END; chunk = le->le_next) {
6845331Samw le = ZAP_LEAF_ENTRY(zeh->zeh_leaf, chunk);
6855331Samw if (le->le_hash != zeh->zeh_hash)
6865331Samw continue;
6875331Samw if (le->le_cd == zeh->zeh_cd)
6885331Samw continue;
6895331Samw
6905331Samw if (zn == NULL) {
6915331Samw zn = zap_name_alloc(zap, name, MT_FIRST);
6925331Samw allocdzn = B_TRUE;
6935331Samw }
6945331Samw if (zap_leaf_array_match(zeh->zeh_leaf, zn,
69511165SMatthew.Ahrens@Sun.COM le->le_name_chunk, le->le_name_numints)) {
6965331Samw if (allocdzn)
6975331Samw zap_name_free(zn);
6985331Samw return (B_TRUE);
6995331Samw }
7005331Samw }
7015331Samw if (allocdzn)
7025331Samw zap_name_free(zn);
7035331Samw return (B_FALSE);
7045331Samw }
7055331Samw
7065331Samw /*
707789Sahrens * Routines for transferring entries between leafs.
708789Sahrens */
709789Sahrens
7105331Samw static uint16_t *
zap_leaf_rehash_entry(zap_leaf_t * l,uint16_t entry)711789Sahrens zap_leaf_rehash_entry(zap_leaf_t *l, uint16_t entry)
712789Sahrens {
7131491Sahrens struct zap_leaf_entry *le = ZAP_LEAF_ENTRY(l, entry);
7145331Samw struct zap_leaf_entry *le2;
7155331Samw uint16_t *chunkp;
7165331Samw
7175331Samw /*
7185331Samw * keep the entry chain sorted by cd
7195331Samw * NB: this will not cause problems for unsorted leafs, though
7205331Samw * it is unnecessary there.
7215331Samw */
7225331Samw for (chunkp = LEAF_HASH_ENTPTR(l, le->le_hash);
7235331Samw *chunkp != CHAIN_END; chunkp = &le2->le_next) {
7245331Samw le2 = ZAP_LEAF_ENTRY(l, *chunkp);
7255331Samw if (le2->le_cd > le->le_cd)
7265331Samw break;
7275331Samw }
7285331Samw
7295331Samw le->le_next = *chunkp;
7305331Samw *chunkp = entry;
7315331Samw return (chunkp);
732789Sahrens }
733789Sahrens
734789Sahrens static uint16_t
zap_leaf_transfer_array(zap_leaf_t * l,uint16_t chunk,zap_leaf_t * nl)735789Sahrens zap_leaf_transfer_array(zap_leaf_t *l, uint16_t chunk, zap_leaf_t *nl)
736789Sahrens {
737789Sahrens uint16_t new_chunk;
738789Sahrens uint16_t *nchunkp = &new_chunk;
739789Sahrens
740789Sahrens while (chunk != CHAIN_END) {
741789Sahrens uint16_t nchunk = zap_leaf_chunk_alloc(nl);
742789Sahrens struct zap_leaf_array *nla =
7431491Sahrens &ZAP_LEAF_CHUNK(nl, nchunk).l_array;
744789Sahrens struct zap_leaf_array *la =
7451491Sahrens &ZAP_LEAF_CHUNK(l, chunk).l_array;
746789Sahrens int nextchunk = la->la_next;
747789Sahrens
7481491Sahrens ASSERT3U(chunk, <, ZAP_LEAF_NUMCHUNKS(l));
7491491Sahrens ASSERT3U(nchunk, <, ZAP_LEAF_NUMCHUNKS(l));
750789Sahrens
7511578Sahrens *nla = *la; /* structure assignment */
752789Sahrens
753789Sahrens zap_leaf_chunk_free(l, chunk);
754789Sahrens chunk = nextchunk;
755789Sahrens *nchunkp = nchunk;
756789Sahrens nchunkp = &nla->la_next;
757789Sahrens }
758789Sahrens *nchunkp = CHAIN_END;
759789Sahrens return (new_chunk);
760789Sahrens }
761789Sahrens
762789Sahrens static void
zap_leaf_transfer_entry(zap_leaf_t * l,int entry,zap_leaf_t * nl)7631578Sahrens zap_leaf_transfer_entry(zap_leaf_t *l, int entry, zap_leaf_t *nl)
764789Sahrens {
765789Sahrens struct zap_leaf_entry *le, *nle;
7661578Sahrens uint16_t chunk;
767789Sahrens
7681491Sahrens le = ZAP_LEAF_ENTRY(l, entry);
7691491Sahrens ASSERT3U(le->le_type, ==, ZAP_CHUNK_ENTRY);
770789Sahrens
771789Sahrens chunk = zap_leaf_chunk_alloc(nl);
7721491Sahrens nle = ZAP_LEAF_ENTRY(nl, chunk);
7731578Sahrens *nle = *le; /* structure assignment */
774789Sahrens
7755331Samw (void) zap_leaf_rehash_entry(nl, chunk);
776789Sahrens
777789Sahrens nle->le_name_chunk = zap_leaf_transfer_array(l, le->le_name_chunk, nl);
778789Sahrens nle->le_value_chunk =
779789Sahrens zap_leaf_transfer_array(l, le->le_value_chunk, nl);
780789Sahrens
781789Sahrens zap_leaf_chunk_free(l, entry);
782789Sahrens
7831578Sahrens l->l_phys->l_hdr.lh_nentries--;
7841578Sahrens nl->l_phys->l_hdr.lh_nentries++;
785789Sahrens }
786789Sahrens
787789Sahrens /*
7881578Sahrens * Transfer the entries whose hash prefix ends in 1 to the new leaf.
789789Sahrens */
7901578Sahrens void
zap_leaf_split(zap_leaf_t * l,zap_leaf_t * nl,boolean_t sort)7915498Stimh zap_leaf_split(zap_leaf_t *l, zap_leaf_t *nl, boolean_t sort)
792789Sahrens {
793789Sahrens int i;
7941578Sahrens int bit = 64 - 1 - l->l_phys->l_hdr.lh_prefix_len;
795789Sahrens
7961578Sahrens /* set new prefix and prefix_len */
7971578Sahrens l->l_phys->l_hdr.lh_prefix <<= 1;
7981578Sahrens l->l_phys->l_hdr.lh_prefix_len++;
7991578Sahrens nl->l_phys->l_hdr.lh_prefix = l->l_phys->l_hdr.lh_prefix | 1;
8001578Sahrens nl->l_phys->l_hdr.lh_prefix_len = l->l_phys->l_hdr.lh_prefix_len;
8011578Sahrens
802789Sahrens /* break existing hash chains */
8031491Sahrens zap_memset(l->l_phys->l_hash, CHAIN_END, 2*ZAP_LEAF_HASH_NUMENTRIES(l));
804789Sahrens
8055498Stimh if (sort)
8065331Samw l->l_phys->l_hdr.lh_flags |= ZLF_ENTRIES_CDSORTED;
8075331Samw
8081578Sahrens /*
8091578Sahrens * Transfer entries whose hash bit 'bit' is set to nl; rehash
8101578Sahrens * the remaining entries
8111578Sahrens *
8121578Sahrens * NB: We could find entries via the hashtable instead. That
8131578Sahrens * would be O(hashents+numents) rather than O(numblks+numents),
8141578Sahrens * but this accesses memory more sequentially, and when we're
8151578Sahrens * called, the block is usually pretty full.
8161578Sahrens */
8171491Sahrens for (i = 0; i < ZAP_LEAF_NUMCHUNKS(l); i++) {
8181491Sahrens struct zap_leaf_entry *le = ZAP_LEAF_ENTRY(l, i);
8191491Sahrens if (le->le_type != ZAP_CHUNK_ENTRY)
820789Sahrens continue;
821789Sahrens
8221578Sahrens if (le->le_hash & (1ULL << bit))
8231578Sahrens zap_leaf_transfer_entry(l, i, nl);
8241578Sahrens else
8255331Samw (void) zap_leaf_rehash_entry(l, i);
826789Sahrens }
827789Sahrens }
828789Sahrens
829789Sahrens void
zap_leaf_stats(zap_t * zap,zap_leaf_t * l,zap_stats_t * zs)8301578Sahrens zap_leaf_stats(zap_t *zap, zap_leaf_t *l, zap_stats_t *zs)
831789Sahrens {
8321578Sahrens int i, n;
833789Sahrens
8341578Sahrens n = zap->zap_f.zap_phys->zap_ptrtbl.zt_shift -
8351578Sahrens l->l_phys->l_hdr.lh_prefix_len;
836789Sahrens n = MIN(n, ZAP_HISTOGRAM_SIZE-1);
837789Sahrens zs->zs_leafs_with_2n_pointers[n]++;
838789Sahrens
839789Sahrens
8401578Sahrens n = l->l_phys->l_hdr.lh_nentries/5;
8411578Sahrens n = MIN(n, ZAP_HISTOGRAM_SIZE-1);
8421578Sahrens zs->zs_blocks_with_n5_entries[n]++;
843789Sahrens
8441578Sahrens n = ((1<<FZAP_BLOCK_SHIFT(zap)) -
8451578Sahrens l->l_phys->l_hdr.lh_nfree * (ZAP_LEAF_ARRAY_BYTES+1))*10 /
8461578Sahrens (1<<FZAP_BLOCK_SHIFT(zap));
8471578Sahrens n = MIN(n, ZAP_HISTOGRAM_SIZE-1);
8481578Sahrens zs->zs_blocks_n_tenths_full[n]++;
849789Sahrens
8501578Sahrens for (i = 0; i < ZAP_LEAF_HASH_NUMENTRIES(l); i++) {
8511578Sahrens int nentries = 0;
8521578Sahrens int chunk = l->l_phys->l_hash[i];
8531578Sahrens
8541578Sahrens while (chunk != CHAIN_END) {
8551578Sahrens struct zap_leaf_entry *le =
8561578Sahrens ZAP_LEAF_ENTRY(l, chunk);
857789Sahrens
85811165SMatthew.Ahrens@Sun.COM n = 1 + ZAP_LEAF_ARRAY_NCHUNKS(le->le_name_numints) +
85911165SMatthew.Ahrens@Sun.COM ZAP_LEAF_ARRAY_NCHUNKS(le->le_value_numints *
86011165SMatthew.Ahrens@Sun.COM le->le_value_intlen);
8611578Sahrens n = MIN(n, ZAP_HISTOGRAM_SIZE-1);
8621578Sahrens zs->zs_entries_using_n_chunks[n]++;
863789Sahrens
8641578Sahrens chunk = le->le_next;
8651578Sahrens nentries++;
866789Sahrens }
867789Sahrens
8681578Sahrens n = nentries;
8691578Sahrens n = MIN(n, ZAP_HISTOGRAM_SIZE-1);
8701578Sahrens zs->zs_buckets_with_n_entries[n]++;
8711578Sahrens }
872789Sahrens }
873