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599b864813
Commitcc63068
caused ENOSPC error when copy a large amount of files between two directories. The reason is that the patch limits zap leaf expansion to 2 retries, and return ENOSPC when failed. The intent for limiting retries is to prevent pointlessly growing table to max size when adding a block full of entries with same name in different case in mixed mode. However, it turns out we cannot use any limit on the retry. When we copy files from one directory in readdir order, we are copying in hash order, one leaf block at a time. Which means that if the leaf block in source directory has expanded 6 times, and you copy those entries in that block, by the time you need to expand the leaf in destination directory, you need to expand it 6 times in one go. So any limit on the retry will result in error where it shouldn't. Note that while we do use different salt for different directories, it seems that the salt/hash function doesn't provide enough randomization to the hash distance to prevent this from happening. Sincecc63068
has already been reverted. This patch adds it back and removes the retry limit. Also, as it turn out, failing on zap_add() has a serious side effect for mzap_upgrade(). When upgrading from micro zap to fat zap, it will call zap_add() to transfer entries one at a time. If it hit any error halfway through, the remaining entries will be lost, causing those files to become orphan. This patch add a VERIFY to catch it. Reviewed-by: Sanjeev Bagewadi <sanjeev.bagewadi@gmail.com> Reviewed-by: Richard Yao <ryao@gentoo.org> Reviewed-by: Tony Hutter <hutter2@llnl.gov> Reviewed-by: Albert Lee <trisk@forkgnu.org> Reviewed-by: Brian Behlendorf <behlendorf1@llnl.gov> Reviewed by: Matthew Ahrens <mahrens@delphix.com> Signed-off-by: Chunwei Chen <david.chen@nutanix.com> Closes #7401 Closes #7421
256 lines
7.8 KiB
C
256 lines
7.8 KiB
C
/*
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* CDDL HEADER START
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*
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* The contents of this file are subject to the terms of the
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* Common Development and Distribution License (the "License").
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* You may not use this file except in compliance with the License.
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*
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* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
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* or http://www.opensolaris.org/os/licensing.
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* See the License for the specific language governing permissions
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* and limitations under the License.
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*
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* When distributing Covered Code, include this CDDL HEADER in each
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* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
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* If applicable, add the following below this CDDL HEADER, with the
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* fields enclosed by brackets "[]" replaced with your own identifying
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* information: Portions Copyright [yyyy] [name of copyright owner]
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*
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* CDDL HEADER END
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*/
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/*
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* Copyright (c) 2005, 2010, Oracle and/or its affiliates. All rights reserved.
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* Copyright (c) 2014 Spectra Logic Corporation, All rights reserved.
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*/
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#ifndef _SYS_ZAP_LEAF_H
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#define _SYS_ZAP_LEAF_H
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#include <sys/zap.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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struct zap;
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struct zap_name;
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struct zap_stats;
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#define ZAP_LEAF_MAGIC 0x2AB1EAF
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/* chunk size = 24 bytes */
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#define ZAP_LEAF_CHUNKSIZE 24
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/*
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* The amount of space available for chunks is:
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* block size (1<<l->l_bs) - hash entry size (2) * number of hash
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* entries - header space (2*chunksize)
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*/
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#define ZAP_LEAF_NUMCHUNKS_BS(bs) \
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(((1<<(bs)) - 2*ZAP_LEAF_HASH_NUMENTRIES_BS(bs)) / \
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ZAP_LEAF_CHUNKSIZE - 2)
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#define ZAP_LEAF_NUMCHUNKS(l) (ZAP_LEAF_NUMCHUNKS_BS(((l)->l_bs)))
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#define ZAP_LEAF_NUMCHUNKS_DEF \
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(ZAP_LEAF_NUMCHUNKS_BS(fzap_default_block_shift))
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/*
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* The amount of space within the chunk available for the array is:
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* chunk size - space for type (1) - space for next pointer (2)
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*/
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#define ZAP_LEAF_ARRAY_BYTES (ZAP_LEAF_CHUNKSIZE - 3)
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#define ZAP_LEAF_ARRAY_NCHUNKS(bytes) \
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(((bytes)+ZAP_LEAF_ARRAY_BYTES-1)/ZAP_LEAF_ARRAY_BYTES)
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/*
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* Low water mark: when there are only this many chunks free, start
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* growing the ptrtbl. Ideally, this should be larger than a
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* "reasonably-sized" entry. 20 chunks is more than enough for the
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* largest directory entry (MAXNAMELEN (256) byte name, 8-byte value),
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* while still being only around 3% for 16k blocks.
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*/
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#define ZAP_LEAF_LOW_WATER (20)
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/*
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* The leaf hash table has block size / 2^5 (32) number of entries,
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* which should be more than enough for the maximum number of entries,
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* which is less than block size / CHUNKSIZE (24) / minimum number of
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* chunks per entry (3).
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*/
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#define ZAP_LEAF_HASH_SHIFT_BS(bs) ((bs) - 5)
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#define ZAP_LEAF_HASH_NUMENTRIES_BS(bs) (1 << ZAP_LEAF_HASH_SHIFT_BS(bs))
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#define ZAP_LEAF_HASH_SHIFT(l) (ZAP_LEAF_HASH_SHIFT_BS(((l)->l_bs)))
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#define ZAP_LEAF_HASH_NUMENTRIES(l) (ZAP_LEAF_HASH_NUMENTRIES_BS(((l)->l_bs)))
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/*
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* The chunks start immediately after the hash table. The end of the
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* hash table is at l_hash + HASH_NUMENTRIES, which we simply cast to a
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* chunk_t.
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*/
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#define ZAP_LEAF_CHUNK(l, idx) \
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((zap_leaf_chunk_t *) \
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(zap_leaf_phys(l)->l_hash + ZAP_LEAF_HASH_NUMENTRIES(l)))[idx]
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#define ZAP_LEAF_ENTRY(l, idx) (&ZAP_LEAF_CHUNK(l, idx).l_entry)
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typedef enum zap_chunk_type {
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ZAP_CHUNK_FREE = 253,
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ZAP_CHUNK_ENTRY = 252,
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ZAP_CHUNK_ARRAY = 251,
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ZAP_CHUNK_TYPE_MAX = 250
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} zap_chunk_type_t;
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#define ZLF_ENTRIES_CDSORTED (1<<0)
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/*
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* TAKE NOTE:
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* If zap_leaf_phys_t is modified, zap_leaf_byteswap() must be modified.
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*/
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typedef struct zap_leaf_phys {
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struct zap_leaf_header {
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/* Public to ZAP */
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uint64_t lh_block_type; /* ZBT_LEAF */
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uint64_t lh_pad1;
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uint64_t lh_prefix; /* hash prefix of this leaf */
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uint32_t lh_magic; /* ZAP_LEAF_MAGIC */
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uint16_t lh_nfree; /* number free chunks */
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uint16_t lh_nentries; /* number of entries */
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uint16_t lh_prefix_len; /* num bits used to id this */
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/* Private to zap_leaf */
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uint16_t lh_freelist; /* chunk head of free list */
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uint8_t lh_flags; /* ZLF_* flags */
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uint8_t lh_pad2[11];
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} l_hdr; /* 2 24-byte chunks */
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/*
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* The header is followed by a hash table with
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* ZAP_LEAF_HASH_NUMENTRIES(zap) entries. The hash table is
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* followed by an array of ZAP_LEAF_NUMCHUNKS(zap)
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* zap_leaf_chunk structures. These structures are accessed
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* with the ZAP_LEAF_CHUNK() macro.
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*/
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uint16_t l_hash[1];
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} zap_leaf_phys_t;
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typedef union zap_leaf_chunk {
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struct zap_leaf_entry {
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uint8_t le_type; /* always ZAP_CHUNK_ENTRY */
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uint8_t le_value_intlen; /* size of value's ints */
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uint16_t le_next; /* next entry in hash chain */
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uint16_t le_name_chunk; /* first chunk of the name */
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uint16_t le_name_numints; /* ints in name (incl null) */
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uint16_t le_value_chunk; /* first chunk of the value */
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uint16_t le_value_numints; /* value length in ints */
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uint32_t le_cd; /* collision differentiator */
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uint64_t le_hash; /* hash value of the name */
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} l_entry;
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struct zap_leaf_array {
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uint8_t la_type; /* always ZAP_CHUNK_ARRAY */
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uint8_t la_array[ZAP_LEAF_ARRAY_BYTES];
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uint16_t la_next; /* next blk or CHAIN_END */
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} l_array;
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struct zap_leaf_free {
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uint8_t lf_type; /* always ZAP_CHUNK_FREE */
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uint8_t lf_pad[ZAP_LEAF_ARRAY_BYTES];
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uint16_t lf_next; /* next in free list, or CHAIN_END */
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} l_free;
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} zap_leaf_chunk_t;
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typedef struct zap_leaf {
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dmu_buf_user_t l_dbu;
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krwlock_t l_rwlock;
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uint64_t l_blkid; /* 1<<ZAP_BLOCK_SHIFT byte block off */
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int l_bs; /* block size shift */
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dmu_buf_t *l_dbuf;
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} zap_leaf_t;
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static inline zap_leaf_phys_t *
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zap_leaf_phys(zap_leaf_t *l)
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{
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return (l->l_dbuf->db_data);
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}
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typedef struct zap_entry_handle {
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/* Set by zap_leaf and public to ZAP */
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uint64_t zeh_num_integers;
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uint64_t zeh_hash;
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uint32_t zeh_cd;
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uint8_t zeh_integer_size;
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/* Private to zap_leaf */
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uint16_t zeh_fakechunk;
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uint16_t *zeh_chunkp;
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zap_leaf_t *zeh_leaf;
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} zap_entry_handle_t;
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/*
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* Return a handle to the named entry, or ENOENT if not found. The hash
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* value must equal zap_hash(name).
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*/
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extern int zap_leaf_lookup(zap_leaf_t *l,
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struct zap_name *zn, zap_entry_handle_t *zeh);
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/*
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* Return a handle to the entry with this hash+cd, or the entry with the
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* next closest hash+cd.
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*/
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extern int zap_leaf_lookup_closest(zap_leaf_t *l,
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uint64_t hash, uint32_t cd, zap_entry_handle_t *zeh);
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/*
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* Read the first num_integers in the attribute. Integer size
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* conversion will be done without sign extension. Return EINVAL if
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* integer_size is too small. Return EOVERFLOW if there are more than
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* num_integers in the attribute.
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*/
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extern int zap_entry_read(const zap_entry_handle_t *zeh,
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uint8_t integer_size, uint64_t num_integers, void *buf);
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extern int zap_entry_read_name(struct zap *zap, const zap_entry_handle_t *zeh,
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uint16_t buflen, char *buf);
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/*
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* Replace the value of an existing entry.
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*
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* May fail if it runs out of space (ENOSPC).
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*/
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extern int zap_entry_update(zap_entry_handle_t *zeh,
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uint8_t integer_size, uint64_t num_integers, const void *buf);
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/*
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* Remove an entry.
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*/
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extern void zap_entry_remove(zap_entry_handle_t *zeh);
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/*
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* Create an entry. An equal entry must not exist, and this entry must
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* belong in this leaf (according to its hash value). Fills in the
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* entry handle on success. Returns 0 on success or ENOSPC on failure.
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*/
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extern int zap_entry_create(zap_leaf_t *l, struct zap_name *zn, uint32_t cd,
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uint8_t integer_size, uint64_t num_integers, const void *buf,
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zap_entry_handle_t *zeh);
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/* Determine whether there is another entry with the same normalized form. */
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extern boolean_t zap_entry_normalization_conflict(zap_entry_handle_t *zeh,
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struct zap_name *zn, const char *name, struct zap *zap);
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/*
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* Other stuff.
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*/
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extern void zap_leaf_init(zap_leaf_t *l, boolean_t sort);
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extern void zap_leaf_byteswap(zap_leaf_phys_t *buf, int len);
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extern void zap_leaf_split(zap_leaf_t *l, zap_leaf_t *nl, boolean_t sort);
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extern void zap_leaf_stats(struct zap *zap, zap_leaf_t *l,
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struct zap_stats *zs);
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#ifdef __cplusplus
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}
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#endif
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#endif /* _SYS_ZAP_LEAF_H */
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