619 lines
22 KiB
C
619 lines
22 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) 2012, 2018 by Delphix. 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_DNODE_H
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#define _SYS_DNODE_H
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#include <sys/zfs_context.h>
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#include <sys/avl.h>
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#include <sys/spa.h>
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#include <sys/txg.h>
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#include <sys/zio.h>
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#include <sys/refcount.h>
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#include <sys/dmu_zfetch.h>
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#include <sys/zrlock.h>
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#include <sys/multilist.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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/*
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* dnode_hold() flags.
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*/
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#define DNODE_MUST_BE_ALLOCATED 1
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#define DNODE_MUST_BE_FREE 2
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#define DNODE_DRY_RUN 4
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/*
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* dnode_next_offset() flags.
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*/
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#define DNODE_FIND_HOLE 1
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#define DNODE_FIND_BACKWARDS 2
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#define DNODE_FIND_HAVELOCK 4
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/*
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* Fixed constants.
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*/
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#define DNODE_SHIFT 9 /* 512 bytes */
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#define DN_MIN_INDBLKSHIFT 12 /* 4k */
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/*
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* If we ever increase this value beyond 20, we need to revisit all logic that
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* does x << level * ebps to handle overflow. With a 1M indirect block size,
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* 4 levels of indirect blocks would not be able to guarantee addressing an
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* entire object, so 5 levels will be used, but 5 * (20 - 7) = 65.
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*/
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#define DN_MAX_INDBLKSHIFT 17 /* 128k */
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#define DNODE_BLOCK_SHIFT 14 /* 16k */
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#define DNODE_CORE_SIZE 64 /* 64 bytes for dnode sans blkptrs */
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#define DN_MAX_OBJECT_SHIFT 48 /* 256 trillion (zfs_fid_t limit) */
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#define DN_MAX_OFFSET_SHIFT 64 /* 2^64 bytes in a dnode */
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/*
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* dnode id flags
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*
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* Note: a file will never ever have its ids moved from bonus->spill
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*/
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#define DN_ID_CHKED_BONUS 0x1
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#define DN_ID_CHKED_SPILL 0x2
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#define DN_ID_OLD_EXIST 0x4
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#define DN_ID_NEW_EXIST 0x8
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/*
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* Derived constants.
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*/
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#define DNODE_MIN_SIZE (1 << DNODE_SHIFT)
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#define DNODE_MAX_SIZE (1 << DNODE_BLOCK_SHIFT)
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#define DNODE_BLOCK_SIZE (1 << DNODE_BLOCK_SHIFT)
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#define DNODE_MIN_SLOTS (DNODE_MIN_SIZE >> DNODE_SHIFT)
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#define DNODE_MAX_SLOTS (DNODE_MAX_SIZE >> DNODE_SHIFT)
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#define DN_BONUS_SIZE(dnsize) ((dnsize) - DNODE_CORE_SIZE - \
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(1 << SPA_BLKPTRSHIFT))
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#define DN_SLOTS_TO_BONUSLEN(slots) DN_BONUS_SIZE((slots) << DNODE_SHIFT)
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#define DN_OLD_MAX_BONUSLEN (DN_BONUS_SIZE(DNODE_MIN_SIZE))
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#define DN_MAX_NBLKPTR ((DNODE_MIN_SIZE - DNODE_CORE_SIZE) >> SPA_BLKPTRSHIFT)
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#define DN_MAX_OBJECT (1ULL << DN_MAX_OBJECT_SHIFT)
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#define DN_ZERO_BONUSLEN (DN_BONUS_SIZE(DNODE_MAX_SIZE) + 1)
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#define DN_KILL_SPILLBLK (1)
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#define DN_SLOT_UNINIT ((void *)NULL) /* Uninitialized */
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#define DN_SLOT_FREE ((void *)1UL) /* Free slot */
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#define DN_SLOT_ALLOCATED ((void *)2UL) /* Allocated slot */
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#define DN_SLOT_INTERIOR ((void *)3UL) /* Interior allocated slot */
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#define DN_SLOT_IS_PTR(dn) ((void *)dn > DN_SLOT_INTERIOR)
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#define DN_SLOT_IS_VALID(dn) ((void *)dn != NULL)
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#define DNODES_PER_BLOCK_SHIFT (DNODE_BLOCK_SHIFT - DNODE_SHIFT)
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#define DNODES_PER_BLOCK (1ULL << DNODES_PER_BLOCK_SHIFT)
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/*
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* This is inaccurate if the indblkshift of the particular object is not the
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* max. But it's only used by userland to calculate the zvol reservation.
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*/
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#define DNODES_PER_LEVEL_SHIFT (DN_MAX_INDBLKSHIFT - SPA_BLKPTRSHIFT)
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#define DNODES_PER_LEVEL (1ULL << DNODES_PER_LEVEL_SHIFT)
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#define DN_MAX_LEVELS (DIV_ROUND_UP(DN_MAX_OFFSET_SHIFT - SPA_MINBLOCKSHIFT, \
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DN_MIN_INDBLKSHIFT - SPA_BLKPTRSHIFT) + 1)
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#define DN_BONUS(dnp) ((void*)((dnp)->dn_bonus + \
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(((dnp)->dn_nblkptr - 1) * sizeof (blkptr_t))))
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#define DN_MAX_BONUS_LEN(dnp) \
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((dnp->dn_flags & DNODE_FLAG_SPILL_BLKPTR) ? \
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(uint8_t *)DN_SPILL_BLKPTR(dnp) - (uint8_t *)DN_BONUS(dnp) : \
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(uint8_t *)(dnp + (dnp->dn_extra_slots + 1)) - (uint8_t *)DN_BONUS(dnp))
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#define DN_USED_BYTES(dnp) (((dnp)->dn_flags & DNODE_FLAG_USED_BYTES) ? \
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(dnp)->dn_used : (dnp)->dn_used << SPA_MINBLOCKSHIFT)
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#define EPB(blkshift, typeshift) (1 << (blkshift - typeshift))
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struct dmu_buf_impl;
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struct objset;
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struct zio;
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enum dnode_dirtycontext {
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DN_UNDIRTIED,
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DN_DIRTY_OPEN,
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DN_DIRTY_SYNC
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};
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/* Is dn_used in bytes? if not, it's in multiples of SPA_MINBLOCKSIZE */
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#define DNODE_FLAG_USED_BYTES (1 << 0)
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#define DNODE_FLAG_USERUSED_ACCOUNTED (1 << 1)
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/* Does dnode have a SA spill blkptr in bonus? */
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#define DNODE_FLAG_SPILL_BLKPTR (1 << 2)
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/* User/Group/Project dnode accounting */
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#define DNODE_FLAG_USEROBJUSED_ACCOUNTED (1 << 3)
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/*
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* This mask defines the set of flags which are "portable", meaning
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* that they can be preserved when doing a raw encrypted zfs send.
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* Flags included in this mask will be protected by AAD when the block
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* of dnodes is encrypted.
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*/
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#define DNODE_CRYPT_PORTABLE_FLAGS_MASK (DNODE_FLAG_SPILL_BLKPTR)
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/*
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* VARIABLE-LENGTH (LARGE) DNODES
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*
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* The motivation for variable-length dnodes is to eliminate the overhead
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* associated with using spill blocks. Spill blocks are used to store
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* system attribute data (i.e. file metadata) that does not fit in the
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* dnode's bonus buffer. By allowing a larger bonus buffer area the use of
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* a spill block can be avoided. Spill blocks potentially incur an
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* additional read I/O for every dnode in a dnode block. As a worst case
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* example, reading 32 dnodes from a 16k dnode block and all of the spill
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* blocks could issue 33 separate reads. Now suppose those dnodes have size
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* 1024 and therefore don't need spill blocks. Then the worst case number
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* of blocks read is reduced to from 33 to two--one per dnode block.
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*
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* ZFS-on-Linux systems that make heavy use of extended attributes benefit
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* from this feature. In particular, ZFS-on-Linux supports the xattr=sa
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* dataset property which allows file extended attribute data to be stored
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* in the dnode bonus buffer as an alternative to the traditional
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* directory-based format. Workloads such as SELinux and the Lustre
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* distributed filesystem often store enough xattr data to force spill
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* blocks when xattr=sa is in effect. Large dnodes may therefore provide a
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* performance benefit to such systems. Other use cases that benefit from
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* this feature include files with large ACLs and symbolic links with long
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* target names.
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*
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* The size of a dnode may be a multiple of 512 bytes up to the size of a
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* dnode block (currently 16384 bytes). The dn_extra_slots field of the
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* on-disk dnode_phys_t structure describes the size of the physical dnode
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* on disk. The field represents how many "extra" dnode_phys_t slots a
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* dnode consumes in its dnode block. This convention results in a value of
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* 0 for 512 byte dnodes which preserves on-disk format compatibility with
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* older software which doesn't support large dnodes.
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*
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* Similarly, the in-memory dnode_t structure has a dn_num_slots field
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* to represent the total number of dnode_phys_t slots consumed on disk.
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* Thus dn->dn_num_slots is 1 greater than the corresponding
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* dnp->dn_extra_slots. This difference in convention was adopted
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* because, unlike on-disk structures, backward compatibility is not a
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* concern for in-memory objects, so we used a more natural way to
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* represent size for a dnode_t.
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*
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* The default size for newly created dnodes is determined by the value of
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* the "dnodesize" dataset property. By default the property is set to
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* "legacy" which is compatible with older software. Setting the property
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* to "auto" will allow the filesystem to choose the most suitable dnode
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* size. Currently this just sets the default dnode size to 1k, but future
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* code improvements could dynamically choose a size based on observed
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* workload patterns. Dnodes of varying sizes can coexist within the same
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* dataset and even within the same dnode block.
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*/
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typedef struct dnode_phys {
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uint8_t dn_type; /* dmu_object_type_t */
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uint8_t dn_indblkshift; /* ln2(indirect block size) */
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uint8_t dn_nlevels; /* 1=dn_blkptr->data blocks */
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uint8_t dn_nblkptr; /* length of dn_blkptr */
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uint8_t dn_bonustype; /* type of data in bonus buffer */
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uint8_t dn_checksum; /* ZIO_CHECKSUM type */
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uint8_t dn_compress; /* ZIO_COMPRESS type */
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uint8_t dn_flags; /* DNODE_FLAG_* */
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uint16_t dn_datablkszsec; /* data block size in 512b sectors */
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uint16_t dn_bonuslen; /* length of dn_bonus */
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uint8_t dn_extra_slots; /* # of subsequent slots consumed */
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uint8_t dn_pad2[3];
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/* accounting is protected by dn_dirty_mtx */
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uint64_t dn_maxblkid; /* largest allocated block ID */
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uint64_t dn_used; /* bytes (or sectors) of disk space */
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/*
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* Both dn_pad2 and dn_pad3 are protected by the block's MAC. This
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* allows us to protect any fields that might be added here in the
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* future. In either case, developers will want to check
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* zio_crypt_init_uios_dnode() to ensure the new field is being
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* protected properly.
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*/
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uint64_t dn_pad3[4];
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/*
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* The tail region is 448 bytes for a 512 byte dnode, and
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* correspondingly larger for larger dnode sizes. The spill
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* block pointer, when present, is always at the end of the tail
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* region. There are three ways this space may be used, using
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* a 512 byte dnode for this diagram:
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*
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* 0 64 128 192 256 320 384 448 (offset)
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* +---------------+---------------+---------------+-------+
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* | dn_blkptr[0] | dn_blkptr[1] | dn_blkptr[2] | / |
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* +---------------+---------------+---------------+-------+
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* | dn_blkptr[0] | dn_bonus[0..319] |
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* +---------------+-----------------------+---------------+
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* | dn_blkptr[0] | dn_bonus[0..191] | dn_spill |
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* +---------------+-----------------------+---------------+
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*/
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union {
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blkptr_t dn_blkptr[1+DN_OLD_MAX_BONUSLEN/sizeof (blkptr_t)];
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struct {
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blkptr_t __dn_ignore1;
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uint8_t dn_bonus[DN_OLD_MAX_BONUSLEN];
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};
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struct {
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blkptr_t __dn_ignore2;
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uint8_t __dn_ignore3[DN_OLD_MAX_BONUSLEN -
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sizeof (blkptr_t)];
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blkptr_t dn_spill;
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};
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};
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} dnode_phys_t;
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#define DN_SPILL_BLKPTR(dnp) ((blkptr_t *)((char *)(dnp) + \
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(((dnp)->dn_extra_slots + 1) << DNODE_SHIFT) - (1 << SPA_BLKPTRSHIFT)))
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struct dnode {
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/*
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* Protects the structure of the dnode, including the number of levels
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* of indirection (dn_nlevels), dn_maxblkid, and dn_next_*
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*/
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krwlock_t dn_struct_rwlock;
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/* Our link on dn_objset->os_dnodes list; protected by os_lock. */
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list_node_t dn_link;
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/* immutable: */
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struct objset *dn_objset;
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uint64_t dn_object;
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struct dmu_buf_impl *dn_dbuf;
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struct dnode_handle *dn_handle;
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dnode_phys_t *dn_phys; /* pointer into dn->dn_dbuf->db.db_data */
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/*
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* Copies of stuff in dn_phys. They're valid in the open
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* context (eg. even before the dnode is first synced).
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* Where necessary, these are protected by dn_struct_rwlock.
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*/
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dmu_object_type_t dn_type; /* object type */
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uint16_t dn_bonuslen; /* bonus length */
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uint8_t dn_bonustype; /* bonus type */
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uint8_t dn_nblkptr; /* number of blkptrs (immutable) */
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uint8_t dn_checksum; /* ZIO_CHECKSUM type */
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uint8_t dn_compress; /* ZIO_COMPRESS type */
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uint8_t dn_nlevels;
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uint8_t dn_indblkshift;
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uint8_t dn_datablkshift; /* zero if blksz not power of 2! */
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uint8_t dn_moved; /* Has this dnode been moved? */
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uint16_t dn_datablkszsec; /* in 512b sectors */
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uint32_t dn_datablksz; /* in bytes */
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uint64_t dn_maxblkid;
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uint8_t dn_next_type[TXG_SIZE];
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uint8_t dn_num_slots; /* metadnode slots consumed on disk */
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uint8_t dn_next_nblkptr[TXG_SIZE];
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uint8_t dn_next_nlevels[TXG_SIZE];
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uint8_t dn_next_indblkshift[TXG_SIZE];
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uint8_t dn_next_bonustype[TXG_SIZE];
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uint8_t dn_rm_spillblk[TXG_SIZE]; /* for removing spill blk */
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uint16_t dn_next_bonuslen[TXG_SIZE];
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uint32_t dn_next_blksz[TXG_SIZE]; /* next block size in bytes */
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uint64_t dn_next_maxblkid[TXG_SIZE]; /* next maxblkid in bytes */
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/* protected by dn_dbufs_mtx; declared here to fill 32-bit hole */
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uint32_t dn_dbufs_count; /* count of dn_dbufs */
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/* protected by os_lock: */
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multilist_node_t dn_dirty_link[TXG_SIZE]; /* next on dataset's dirty */
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/* protected by dn_mtx: */
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kmutex_t dn_mtx;
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list_t dn_dirty_records[TXG_SIZE];
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struct range_tree *dn_free_ranges[TXG_SIZE];
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uint64_t dn_allocated_txg;
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uint64_t dn_free_txg;
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uint64_t dn_assigned_txg;
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uint64_t dn_dirty_txg; /* txg dnode was last dirtied */
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kcondvar_t dn_notxholds;
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enum dnode_dirtycontext dn_dirtyctx;
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uint8_t *dn_dirtyctx_firstset; /* dbg: contents meaningless */
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/* protected by own devices */
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zfs_refcount_t dn_tx_holds;
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zfs_refcount_t dn_holds;
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kmutex_t dn_dbufs_mtx;
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/*
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* Descendent dbufs, ordered by dbuf_compare. Note that dn_dbufs
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* can contain multiple dbufs of the same (level, blkid) when a
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* dbuf is marked DB_EVICTING without being removed from
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* dn_dbufs. To maintain the avl invariant that there cannot be
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* duplicate entries, we order the dbufs by an arbitrary value -
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* their address in memory. This means that dn_dbufs cannot be used to
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* directly look up a dbuf. Instead, callers must use avl_walk, have
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* a reference to the dbuf, or look up a non-existent node with
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* db_state = DB_SEARCH (see dbuf_free_range for an example).
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*/
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avl_tree_t dn_dbufs;
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/* protected by dn_struct_rwlock */
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struct dmu_buf_impl *dn_bonus; /* bonus buffer dbuf */
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boolean_t dn_have_spill; /* have spill or are spilling */
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/* parent IO for current sync write */
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zio_t *dn_zio;
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/* used in syncing context */
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uint64_t dn_oldused; /* old phys used bytes */
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uint64_t dn_oldflags; /* old phys dn_flags */
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uint64_t dn_olduid, dn_oldgid, dn_oldprojid;
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uint64_t dn_newuid, dn_newgid, dn_newprojid;
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int dn_id_flags;
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/* holds prefetch structure */
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struct zfetch dn_zfetch;
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};
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/*
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* We use this (otherwise unused) bit to indicate if the value of
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* dn_next_maxblkid[txgoff] is valid to use in dnode_sync().
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*/
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#define DMU_NEXT_MAXBLKID_SET (1ULL << 63)
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/*
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* Adds a level of indirection between the dbuf and the dnode to avoid
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* iterating descendent dbufs in dnode_move(). Handles are not allocated
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* individually, but as an array of child dnodes in dnode_hold_impl().
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*/
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typedef struct dnode_handle {
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/* Protects dnh_dnode from modification by dnode_move(). */
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zrlock_t dnh_zrlock;
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dnode_t *dnh_dnode;
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} dnode_handle_t;
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typedef struct dnode_children {
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dmu_buf_user_t dnc_dbu; /* User evict data */
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size_t dnc_count; /* number of children */
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dnode_handle_t dnc_children[]; /* sized dynamically */
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} dnode_children_t;
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typedef struct free_range {
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avl_node_t fr_node;
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uint64_t fr_blkid;
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uint64_t fr_nblks;
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} free_range_t;
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void dnode_special_open(struct objset *dd, dnode_phys_t *dnp,
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uint64_t object, dnode_handle_t *dnh);
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void dnode_special_close(dnode_handle_t *dnh);
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void dnode_setbonuslen(dnode_t *dn, int newsize, dmu_tx_t *tx);
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void dnode_setbonus_type(dnode_t *dn, dmu_object_type_t, dmu_tx_t *tx);
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void dnode_rm_spill(dnode_t *dn, dmu_tx_t *tx);
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int dnode_hold(struct objset *dd, uint64_t object,
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void *ref, dnode_t **dnp);
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int dnode_hold_impl(struct objset *dd, uint64_t object, int flag, int dn_slots,
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void *ref, dnode_t **dnp);
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boolean_t dnode_add_ref(dnode_t *dn, void *ref);
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void dnode_rele(dnode_t *dn, void *ref);
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void dnode_rele_and_unlock(dnode_t *dn, void *tag, boolean_t evicting);
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int dnode_try_claim(objset_t *os, uint64_t object, int slots);
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void dnode_setdirty(dnode_t *dn, dmu_tx_t *tx);
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void dnode_sync(dnode_t *dn, dmu_tx_t *tx);
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void dnode_allocate(dnode_t *dn, dmu_object_type_t ot, int blocksize, int ibs,
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dmu_object_type_t bonustype, int bonuslen, int dn_slots, dmu_tx_t *tx);
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void dnode_reallocate(dnode_t *dn, dmu_object_type_t ot, int blocksize,
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dmu_object_type_t bonustype, int bonuslen, int dn_slots,
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boolean_t keep_spill, dmu_tx_t *tx);
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void dnode_free(dnode_t *dn, dmu_tx_t *tx);
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void dnode_byteswap(dnode_phys_t *dnp);
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void dnode_buf_byteswap(void *buf, size_t size);
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void dnode_verify(dnode_t *dn);
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int dnode_set_nlevels(dnode_t *dn, int nlevels, dmu_tx_t *tx);
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int dnode_set_blksz(dnode_t *dn, uint64_t size, int ibs, dmu_tx_t *tx);
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void dnode_free_range(dnode_t *dn, uint64_t off, uint64_t len, dmu_tx_t *tx);
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void dnode_diduse_space(dnode_t *dn, int64_t space);
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void dnode_new_blkid(dnode_t *dn, uint64_t blkid, dmu_tx_t *tx,
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boolean_t have_read, boolean_t force);
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uint64_t dnode_block_freed(dnode_t *dn, uint64_t blkid);
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void dnode_init(void);
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void dnode_fini(void);
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int dnode_next_offset(dnode_t *dn, int flags, uint64_t *off,
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int minlvl, uint64_t blkfill, uint64_t txg);
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void dnode_evict_dbufs(dnode_t *dn);
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void dnode_evict_bonus(dnode_t *dn);
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void dnode_free_interior_slots(dnode_t *dn);
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boolean_t dnode_needs_remap(const dnode_t *dn);
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#define DNODE_IS_DIRTY(_dn) \
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((_dn)->dn_dirty_txg >= spa_syncing_txg((_dn)->dn_objset->os_spa))
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#define DNODE_IS_CACHEABLE(_dn) \
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((_dn)->dn_objset->os_primary_cache == ZFS_CACHE_ALL || \
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(DMU_OT_IS_METADATA((_dn)->dn_type) && \
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(_dn)->dn_objset->os_primary_cache == ZFS_CACHE_METADATA))
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#define DNODE_META_IS_CACHEABLE(_dn) \
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((_dn)->dn_objset->os_primary_cache == ZFS_CACHE_ALL || \
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(_dn)->dn_objset->os_primary_cache == ZFS_CACHE_METADATA)
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/*
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* Used for dnodestats kstat.
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*/
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typedef struct dnode_stats {
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/*
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* Number of failed attempts to hold a meta dnode dbuf.
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*/
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kstat_named_t dnode_hold_dbuf_hold;
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/*
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* Number of failed attempts to read a meta dnode dbuf.
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*/
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kstat_named_t dnode_hold_dbuf_read;
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/*
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* Number of times dnode_hold(..., DNODE_MUST_BE_ALLOCATED) was able
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* to hold the requested object number which was allocated. This is
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* the common case when looking up any allocated object number.
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*/
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kstat_named_t dnode_hold_alloc_hits;
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/*
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* Number of times dnode_hold(..., DNODE_MUST_BE_ALLOCATED) was not
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* able to hold the request object number because it was not allocated.
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*/
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kstat_named_t dnode_hold_alloc_misses;
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/*
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* Number of times dnode_hold(..., DNODE_MUST_BE_ALLOCATED) was not
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* able to hold the request object number because the object number
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* refers to an interior large dnode slot.
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*/
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kstat_named_t dnode_hold_alloc_interior;
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/*
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* Number of times dnode_hold(..., DNODE_MUST_BE_ALLOCATED) needed
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* to retry acquiring slot zrl locks due to contention.
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*/
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kstat_named_t dnode_hold_alloc_lock_retry;
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/*
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* Number of times dnode_hold(..., DNODE_MUST_BE_ALLOCATED) did not
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* need to create the dnode because another thread did so after
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* dropping the read lock but before acquiring the write lock.
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*/
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kstat_named_t dnode_hold_alloc_lock_misses;
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/*
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* Number of times dnode_hold(..., DNODE_MUST_BE_ALLOCATED) found
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* a free dnode instantiated by dnode_create() but not yet allocated
|
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* by dnode_allocate().
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*/
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kstat_named_t dnode_hold_alloc_type_none;
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/*
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* Number of times dnode_hold(..., DNODE_MUST_BE_FREE) was able
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* to hold the requested range of free dnode slots.
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*/
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kstat_named_t dnode_hold_free_hits;
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/*
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* Number of times dnode_hold(..., DNODE_MUST_BE_FREE) was not
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* able to hold the requested range of free dnode slots because
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* at least one slot was allocated.
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*/
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kstat_named_t dnode_hold_free_misses;
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/*
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* Number of times dnode_hold(..., DNODE_MUST_BE_FREE) was not
|
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* able to hold the requested range of free dnode slots because
|
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* after acquiring the zrl lock at least one slot was allocated.
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*/
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kstat_named_t dnode_hold_free_lock_misses;
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/*
|
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* Number of times dnode_hold(..., DNODE_MUST_BE_FREE) needed
|
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* to retry acquiring slot zrl locks due to contention.
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*/
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kstat_named_t dnode_hold_free_lock_retry;
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/*
|
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* Number of times dnode_hold(..., DNODE_MUST_BE_FREE) requested
|
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* a range of dnode slots which were held by another thread.
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*/
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kstat_named_t dnode_hold_free_refcount;
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/*
|
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* Number of times dnode_hold(..., DNODE_MUST_BE_FREE) requested
|
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* a range of dnode slots which would overflow the dnode_phys_t.
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*/
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kstat_named_t dnode_hold_free_overflow;
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/*
|
|
* Number of times dnode_free_interior_slots() needed to retry
|
|
* acquiring a slot zrl lock due to contention.
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|
*/
|
|
kstat_named_t dnode_free_interior_lock_retry;
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/*
|
|
* Number of new dnodes allocated by dnode_allocate().
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*/
|
|
kstat_named_t dnode_allocate;
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/*
|
|
* Number of dnodes re-allocated by dnode_reallocate().
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|
*/
|
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kstat_named_t dnode_reallocate;
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/*
|
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* Number of meta dnode dbufs evicted.
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|
*/
|
|
kstat_named_t dnode_buf_evict;
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/*
|
|
* Number of times dmu_object_alloc*() reached the end of the existing
|
|
* object ID chunk and advanced to a new one.
|
|
*/
|
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kstat_named_t dnode_alloc_next_chunk;
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/*
|
|
* Number of times multiple threads attempted to allocate a dnode
|
|
* from the same block of free dnodes.
|
|
*/
|
|
kstat_named_t dnode_alloc_race;
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|
/*
|
|
* Number of times dmu_object_alloc*() was forced to advance to the
|
|
* next meta dnode dbuf due to an error from dmu_object_next().
|
|
*/
|
|
kstat_named_t dnode_alloc_next_block;
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|
/*
|
|
* Statistics for tracking dnodes which have been moved.
|
|
*/
|
|
kstat_named_t dnode_move_invalid;
|
|
kstat_named_t dnode_move_recheck1;
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|
kstat_named_t dnode_move_recheck2;
|
|
kstat_named_t dnode_move_special;
|
|
kstat_named_t dnode_move_handle;
|
|
kstat_named_t dnode_move_rwlock;
|
|
kstat_named_t dnode_move_active;
|
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} dnode_stats_t;
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|
|
|
extern dnode_stats_t dnode_stats;
|
|
|
|
#define DNODE_STAT_INCR(stat, val) \
|
|
atomic_add_64(&dnode_stats.stat.value.ui64, (val));
|
|
#define DNODE_STAT_BUMP(stat) \
|
|
DNODE_STAT_INCR(stat, 1);
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|
|
#ifdef ZFS_DEBUG
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|
|
|
#define dprintf_dnode(dn, fmt, ...) do { \
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|
if (zfs_flags & ZFS_DEBUG_DPRINTF) { \
|
|
char __db_buf[32]; \
|
|
uint64_t __db_obj = (dn)->dn_object; \
|
|
if (__db_obj == DMU_META_DNODE_OBJECT) \
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|
(void) strcpy(__db_buf, "mdn"); \
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|
else \
|
|
(void) snprintf(__db_buf, sizeof (__db_buf), "%lld", \
|
|
(u_longlong_t)__db_obj);\
|
|
dprintf_ds((dn)->dn_objset->os_dsl_dataset, "obj=%s " fmt, \
|
|
__db_buf, __VA_ARGS__); \
|
|
} \
|
|
_NOTE(CONSTCOND) } while (0)
|
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|
|
#define DNODE_VERIFY(dn) dnode_verify(dn)
|
|
#define FREE_VERIFY(db, start, end, tx) free_verify(db, start, end, tx)
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|
|
#else
|
|
|
|
#define dprintf_dnode(db, fmt, ...)
|
|
#define DNODE_VERIFY(dn)
|
|
#define FREE_VERIFY(db, start, end, tx)
|
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|
|
#endif
|
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|
|
#ifdef __cplusplus
|
|
}
|
|
#endif
|
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|
|
#endif /* _SYS_DNODE_H */
|