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3ec3bc2167
Reviewed by: Steve Gonczi <steve.gonczi@delphix.com> Reviewed by: George Wilson <george.wilson@delphix.com> Reviewed by: Pavel Zakharov <pavel.zakharov@delphix.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> Background information: This assertion about tx_space_* verifies that we are not dirtying more stuff than we thought we would. We “need” to know how much we will dirty so that we can check if we should fail this transaction with ENOSPC/EDQUOT, in dmu_tx_assign(). While the transaction is open (i.e. between dmu_tx_assign() and dmu_tx_commit() — typically less than a millisecond), we call dbuf_dirty() on the exact blocks that will be modified. Once this happens, the temporary accounting in tx_space_* is unnecessary, because we know exactly what blocks are newly dirtied; we call dnode_willuse_space() to track this more exact accounting. The fundamental problem causing this bug is that dmu_tx_hold_*() relies on the current state in the DMU (e.g. dn_nlevels) to predict how much will be dirtied by this transaction, but this state can change before we actually perform the transaction (i.e. call dbuf_dirty()). This bug will be fixed by removing the assertion that the tx_space_* accounting is perfectly accurate (i.e. we never dirty more than was predicted by dmu_tx_hold_*()). By removing the requirement that this accounting be perfectly accurate, we can also vastly simplify it, e.g. removing most of the logic in dmu_tx_count_*(). The new tx space accounting will be very approximate, and may be more or less than what is actually dirtied. It will still be used to determine if this transaction will put us over quota. Transactions that are marked by dmu_tx_mark_netfree() will be excepted from this check. We won’t make an attempt to determine how much space will be freed by the transaction — this was rarely accurate enough to determine if a transaction should be permitted when we are over quota, which is why dmu_tx_mark_netfree() was introduced in 2014. We also won’t attempt to give “credit” when overwriting existing blocks, if those blocks may be freed. This allows us to remove the do_free_accounting logic in dbuf_dirty(), and associated routines. This logic attempted to predict what will be on disk when this txg syncs, to know if the overwritten block will be freed (i.e. exists, and has no snapshots). OpenZFS-issue: https://www.illumos.org/issues/7793 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/3704e0a Upstream bugs: DLPX-32883a Closes #5804 Porting notes: - DNODE_SIZE replaced with DNODE_MIN_SIZE in dmu_tx_count_dnode(), Using the default dnode size would be slightly better. - DEBUG_DMU_TX wrappers and configure option removed. - Resolved _by_dnode() conflicts these changes have not yet been applied to OpenZFS.
241 lines
6.8 KiB
C
241 lines
6.8 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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* Copyright (c) 2013, 2016 by Delphix. All rights reserved.
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* Copyright 2017 Nexenta Systems, Inc.
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*/
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#ifndef _SYS_ZAP_IMPL_H
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#define _SYS_ZAP_IMPL_H
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#include <sys/zap.h>
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#include <sys/zfs_context.h>
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#include <sys/avl.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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extern int fzap_default_block_shift;
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#define ZAP_MAGIC 0x2F52AB2ABULL
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#define FZAP_BLOCK_SHIFT(zap) ((zap)->zap_f.zap_block_shift)
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#define MZAP_ENT_LEN 64
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#define MZAP_NAME_LEN (MZAP_ENT_LEN - 8 - 4 - 2)
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#define MZAP_MAX_BLKSZ SPA_OLD_MAXBLOCKSIZE
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#define ZAP_NEED_CD (-1U)
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typedef struct mzap_ent_phys {
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uint64_t mze_value;
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uint32_t mze_cd;
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uint16_t mze_pad; /* in case we want to chain them someday */
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char mze_name[MZAP_NAME_LEN];
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} mzap_ent_phys_t;
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typedef struct mzap_phys {
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uint64_t mz_block_type; /* ZBT_MICRO */
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uint64_t mz_salt;
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uint64_t mz_normflags;
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uint64_t mz_pad[5];
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mzap_ent_phys_t mz_chunk[1];
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/* actually variable size depending on block size */
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} mzap_phys_t;
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typedef struct mzap_ent {
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avl_node_t mze_node;
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int mze_chunkid;
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uint64_t mze_hash;
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uint32_t mze_cd; /* copy from mze_phys->mze_cd */
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} mzap_ent_t;
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#define MZE_PHYS(zap, mze) \
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(&zap_m_phys(zap)->mz_chunk[(mze)->mze_chunkid])
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/*
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* The (fat) zap is stored in one object. It is an array of
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* 1<<FZAP_BLOCK_SHIFT byte blocks. The layout looks like one of:
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*
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* ptrtbl fits in first block:
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* [zap_phys_t zap_ptrtbl_shift < 6] [zap_leaf_t] ...
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*
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* ptrtbl too big for first block:
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* [zap_phys_t zap_ptrtbl_shift >= 6] [zap_leaf_t] [ptrtbl] ...
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*
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*/
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struct dmu_buf;
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struct zap_leaf;
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#define ZBT_LEAF ((1ULL << 63) + 0)
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#define ZBT_HEADER ((1ULL << 63) + 1)
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#define ZBT_MICRO ((1ULL << 63) + 3)
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/* any other values are ptrtbl blocks */
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/*
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* the embedded pointer table takes up half a block:
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* block size / entry size (2^3) / 2
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*/
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#define ZAP_EMBEDDED_PTRTBL_SHIFT(zap) (FZAP_BLOCK_SHIFT(zap) - 3 - 1)
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/*
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* The embedded pointer table starts half-way through the block. Since
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* the pointer table itself is half the block, it starts at (64-bit)
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* word number (1<<ZAP_EMBEDDED_PTRTBL_SHIFT(zap)).
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*/
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#define ZAP_EMBEDDED_PTRTBL_ENT(zap, idx) \
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((uint64_t *)zap_f_phys(zap)) \
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[(idx) + (1<<ZAP_EMBEDDED_PTRTBL_SHIFT(zap))]
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/*
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* TAKE NOTE:
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* If zap_phys_t is modified, zap_byteswap() must be modified.
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*/
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typedef struct zap_phys {
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uint64_t zap_block_type; /* ZBT_HEADER */
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uint64_t zap_magic; /* ZAP_MAGIC */
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struct zap_table_phys {
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uint64_t zt_blk; /* starting block number */
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uint64_t zt_numblks; /* number of blocks */
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uint64_t zt_shift; /* bits to index it */
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uint64_t zt_nextblk; /* next (larger) copy start block */
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uint64_t zt_blks_copied; /* number source blocks copied */
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} zap_ptrtbl;
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uint64_t zap_freeblk; /* the next free block */
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uint64_t zap_num_leafs; /* number of leafs */
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uint64_t zap_num_entries; /* number of entries */
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uint64_t zap_salt; /* salt to stir into hash function */
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uint64_t zap_normflags; /* flags for u8_textprep_str() */
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uint64_t zap_flags; /* zap_flags_t */
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/*
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* This structure is followed by padding, and then the embedded
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* pointer table. The embedded pointer table takes up second
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* half of the block. It is accessed using the
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* ZAP_EMBEDDED_PTRTBL_ENT() macro.
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*/
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} zap_phys_t;
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typedef struct zap_table_phys zap_table_phys_t;
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typedef struct zap {
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dmu_buf_user_t zap_dbu;
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objset_t *zap_objset;
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uint64_t zap_object;
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struct dmu_buf *zap_dbuf;
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krwlock_t zap_rwlock;
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boolean_t zap_ismicro;
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int zap_normflags;
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uint64_t zap_salt;
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union {
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struct {
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/*
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* zap_num_entries_mtx protects
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* zap_num_entries
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*/
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kmutex_t zap_num_entries_mtx;
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int zap_block_shift;
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} zap_fat;
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struct {
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int16_t zap_num_entries;
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int16_t zap_num_chunks;
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int16_t zap_alloc_next;
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avl_tree_t zap_avl;
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} zap_micro;
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} zap_u;
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} zap_t;
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static inline zap_phys_t *
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zap_f_phys(zap_t *zap)
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{
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return (zap->zap_dbuf->db_data);
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}
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static inline mzap_phys_t *
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zap_m_phys(zap_t *zap)
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{
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return (zap->zap_dbuf->db_data);
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}
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typedef struct zap_name {
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zap_t *zn_zap;
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int zn_key_intlen;
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const void *zn_key_orig;
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int zn_key_orig_numints;
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const void *zn_key_norm;
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int zn_key_norm_numints;
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uint64_t zn_hash;
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matchtype_t zn_matchtype;
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int zn_normflags;
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char zn_normbuf[ZAP_MAXNAMELEN];
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} zap_name_t;
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#define zap_f zap_u.zap_fat
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#define zap_m zap_u.zap_micro
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boolean_t zap_match(zap_name_t *zn, const char *matchname);
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int zap_lockdir(objset_t *os, uint64_t obj, dmu_tx_t *tx,
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krw_t lti, boolean_t fatreader, boolean_t adding, void *tag, zap_t **zapp);
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void zap_unlockdir(zap_t *zap, void *tag);
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void zap_evict_sync(void *dbu);
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zap_name_t *zap_name_alloc(zap_t *zap, const char *key, matchtype_t mt);
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void zap_name_free(zap_name_t *zn);
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int zap_hashbits(zap_t *zap);
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uint32_t zap_maxcd(zap_t *zap);
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uint64_t zap_getflags(zap_t *zap);
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#define ZAP_HASH_IDX(hash, n) (((n) == 0) ? 0 : ((hash) >> (64 - (n))))
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void fzap_byteswap(void *buf, size_t size);
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int fzap_count(zap_t *zap, uint64_t *count);
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int fzap_lookup(zap_name_t *zn,
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uint64_t integer_size, uint64_t num_integers, void *buf,
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char *realname, int rn_len, boolean_t *normalization_conflictp);
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void fzap_prefetch(zap_name_t *zn);
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int fzap_add(zap_name_t *zn, uint64_t integer_size, uint64_t num_integers,
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const void *val, void *tag, dmu_tx_t *tx);
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int fzap_update(zap_name_t *zn,
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int integer_size, uint64_t num_integers, const void *val,
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void *tag, dmu_tx_t *tx);
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int fzap_length(zap_name_t *zn,
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uint64_t *integer_size, uint64_t *num_integers);
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int fzap_remove(zap_name_t *zn, dmu_tx_t *tx);
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int fzap_cursor_retrieve(zap_t *zap, zap_cursor_t *zc, zap_attribute_t *za);
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void fzap_get_stats(zap_t *zap, zap_stats_t *zs);
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void zap_put_leaf(struct zap_leaf *l);
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int fzap_add_cd(zap_name_t *zn,
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uint64_t integer_size, uint64_t num_integers,
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const void *val, uint32_t cd, void *tag, dmu_tx_t *tx);
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void fzap_upgrade(zap_t *zap, dmu_tx_t *tx, zap_flags_t flags);
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#ifdef __cplusplus
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}
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#endif
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#endif /* _SYS_ZAP_IMPL_H */
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