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b525630342
This change incorporates three major pieces: The first change is a keystore that manages wrapping and encryption keys for encrypted datasets. These commands mostly involve manipulating the new DSL Crypto Key ZAP Objects that live in the MOS. Each encrypted dataset has its own DSL Crypto Key that is protected with a user's key. This level of indirection allows users to change their keys without re-encrypting their entire datasets. The change implements the new subcommands "zfs load-key", "zfs unload-key" and "zfs change-key" which allow the user to manage their encryption keys and settings. In addition, several new flags and properties have been added to allow dataset creation and to make mounting and unmounting more convenient. The second piece of this patch provides the ability to encrypt, decyrpt, and authenticate protected datasets. Each object set maintains a Merkel tree of Message Authentication Codes that protect the lower layers, similarly to how checksums are maintained. This part impacts the zio layer, which handles the actual encryption and generation of MACs, as well as the ARC and DMU, which need to be able to handle encrypted buffers and protected data. The last addition is the ability to do raw, encrypted sends and receives. The idea here is to send raw encrypted and compressed data and receive it exactly as is on a backup system. This means that the dataset on the receiving system is protected using the same user key that is in use on the sending side. By doing so, datasets can be efficiently backed up to an untrusted system without fear of data being compromised. Reviewed by: Matthew Ahrens <mahrens@delphix.com> Reviewed-by: Brian Behlendorf <behlendorf1@llnl.gov> Reviewed-by: Jorgen Lundman <lundman@lundman.net> Signed-off-by: Tom Caputi <tcaputi@datto.com> Closes #494 Closes #5769
258 lines
8.0 KiB
C
258 lines
8.0 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) 2009, 2010, Oracle and/or its affiliates. All rights reserved.
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* Copyright (c) 2016 by Delphix. All rights reserved.
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*/
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#ifndef _SYS_DDT_H
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#define _SYS_DDT_H
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#include <sys/sysmacros.h>
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#include <sys/types.h>
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#include <sys/fs/zfs.h>
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#include <sys/zio.h>
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#include <sys/dmu.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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struct abd;
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/*
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* On-disk DDT formats, in the desired search order (newest version first).
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*/
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enum ddt_type {
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DDT_TYPE_ZAP = 0,
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DDT_TYPES
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};
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/*
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* DDT classes, in the desired search order (highest replication level first).
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*/
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enum ddt_class {
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DDT_CLASS_DITTO = 0,
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DDT_CLASS_DUPLICATE,
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DDT_CLASS_UNIQUE,
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DDT_CLASSES
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};
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#define DDT_TYPE_CURRENT 0
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#define DDT_COMPRESS_BYTEORDER_MASK 0x80
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#define DDT_COMPRESS_FUNCTION_MASK 0x7f
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/*
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* On-disk ddt entry: key (name) and physical storage (value).
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*/
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typedef struct ddt_key {
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zio_cksum_t ddk_cksum; /* 256-bit block checksum */
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/*
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* Encoded with logical & physical size, encryption, and compression,
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* as follows:
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* | 0 | 0 | 0 |X| comp| PSIZE | LSIZE |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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*/
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uint64_t ddk_prop;
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} ddt_key_t;
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#define DDK_GET_LSIZE(ddk) \
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BF64_GET_SB((ddk)->ddk_prop, 0, 16, SPA_MINBLOCKSHIFT, 1)
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#define DDK_SET_LSIZE(ddk, x) \
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BF64_SET_SB((ddk)->ddk_prop, 0, 16, SPA_MINBLOCKSHIFT, 1, x)
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#define DDK_GET_PSIZE(ddk) \
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BF64_GET_SB((ddk)->ddk_prop, 16, 16, SPA_MINBLOCKSHIFT, 1)
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#define DDK_SET_PSIZE(ddk, x) \
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BF64_SET_SB((ddk)->ddk_prop, 16, 16, SPA_MINBLOCKSHIFT, 1, x)
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#define DDK_GET_COMPRESS(ddk) BF64_GET((ddk)->ddk_prop, 32, 7)
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#define DDK_SET_COMPRESS(ddk, x) BF64_SET((ddk)->ddk_prop, 32, 7, x)
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#define DDK_GET_CRYPT(ddk) BF64_GET((ddk)->ddk_prop, 39, 1)
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#define DDK_SET_CRYPT(ddk, x) BF64_SET((ddk)->ddk_prop, 39, 1, x)
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#define DDT_KEY_WORDS (sizeof (ddt_key_t) / sizeof (uint64_t))
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#define DDE_GET_NDVAS(dde) (DDK_GET_CRYPT(&dde->dde_key) \
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? SPA_DVAS_PER_BP : SPA_DVAS_PER_BP - 1)
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typedef struct ddt_phys {
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dva_t ddp_dva[SPA_DVAS_PER_BP];
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uint64_t ddp_refcnt;
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uint64_t ddp_phys_birth;
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} ddt_phys_t;
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enum ddt_phys_type {
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DDT_PHYS_DITTO = 0,
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DDT_PHYS_SINGLE = 1,
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DDT_PHYS_DOUBLE = 2,
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DDT_PHYS_TRIPLE = 3,
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DDT_PHYS_TYPES
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};
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/*
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* In-core ddt entry
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*/
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struct ddt_entry {
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ddt_key_t dde_key;
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ddt_phys_t dde_phys[DDT_PHYS_TYPES];
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zio_t *dde_lead_zio[DDT_PHYS_TYPES];
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struct abd *dde_repair_abd;
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enum ddt_type dde_type;
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enum ddt_class dde_class;
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uint8_t dde_loading;
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uint8_t dde_loaded;
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kcondvar_t dde_cv;
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avl_node_t dde_node;
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};
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/*
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* In-core ddt
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*/
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struct ddt {
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kmutex_t ddt_lock;
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avl_tree_t ddt_tree;
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avl_tree_t ddt_repair_tree;
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enum zio_checksum ddt_checksum;
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spa_t *ddt_spa;
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objset_t *ddt_os;
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uint64_t ddt_stat_object;
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uint64_t ddt_object[DDT_TYPES][DDT_CLASSES];
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ddt_histogram_t ddt_histogram[DDT_TYPES][DDT_CLASSES];
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ddt_histogram_t ddt_histogram_cache[DDT_TYPES][DDT_CLASSES];
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ddt_object_t ddt_object_stats[DDT_TYPES][DDT_CLASSES];
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avl_node_t ddt_node;
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};
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/*
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* In-core and on-disk bookmark for DDT walks
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*/
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typedef struct ddt_bookmark {
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uint64_t ddb_class;
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uint64_t ddb_type;
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uint64_t ddb_checksum;
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uint64_t ddb_cursor;
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} ddt_bookmark_t;
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/*
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* Ops vector to access a specific DDT object type.
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*/
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typedef struct ddt_ops {
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char ddt_op_name[32];
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int (*ddt_op_create)(objset_t *os, uint64_t *object, dmu_tx_t *tx,
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boolean_t prehash);
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int (*ddt_op_destroy)(objset_t *os, uint64_t object, dmu_tx_t *tx);
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int (*ddt_op_lookup)(objset_t *os, uint64_t object, ddt_entry_t *dde);
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void (*ddt_op_prefetch)(objset_t *os, uint64_t object,
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ddt_entry_t *dde);
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int (*ddt_op_update)(objset_t *os, uint64_t object, ddt_entry_t *dde,
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dmu_tx_t *tx);
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int (*ddt_op_remove)(objset_t *os, uint64_t object, ddt_entry_t *dde,
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dmu_tx_t *tx);
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int (*ddt_op_walk)(objset_t *os, uint64_t object, ddt_entry_t *dde,
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uint64_t *walk);
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int (*ddt_op_count)(objset_t *os, uint64_t object, uint64_t *count);
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} ddt_ops_t;
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#define DDT_NAMELEN 80
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extern void ddt_object_name(ddt_t *ddt, enum ddt_type type,
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enum ddt_class class, char *name);
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extern int ddt_object_walk(ddt_t *ddt, enum ddt_type type,
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enum ddt_class class, uint64_t *walk, ddt_entry_t *dde);
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extern int ddt_object_count(ddt_t *ddt, enum ddt_type type,
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enum ddt_class class, uint64_t *count);
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extern int ddt_object_info(ddt_t *ddt, enum ddt_type type,
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enum ddt_class class, dmu_object_info_t *);
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extern boolean_t ddt_object_exists(ddt_t *ddt, enum ddt_type type,
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enum ddt_class class);
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extern void ddt_bp_fill(const ddt_phys_t *ddp, blkptr_t *bp,
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uint64_t txg);
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extern void ddt_bp_create(enum zio_checksum checksum, const ddt_key_t *ddk,
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const ddt_phys_t *ddp, blkptr_t *bp);
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extern void ddt_key_fill(ddt_key_t *ddk, const blkptr_t *bp);
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extern void ddt_phys_fill(ddt_phys_t *ddp, const blkptr_t *bp);
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extern void ddt_phys_clear(ddt_phys_t *ddp);
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extern void ddt_phys_addref(ddt_phys_t *ddp);
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extern void ddt_phys_decref(ddt_phys_t *ddp);
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extern void ddt_phys_free(ddt_t *ddt, ddt_key_t *ddk, ddt_phys_t *ddp,
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uint64_t txg);
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extern ddt_phys_t *ddt_phys_select(const ddt_entry_t *dde, const blkptr_t *bp);
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extern uint64_t ddt_phys_total_refcnt(const ddt_entry_t *dde);
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extern void ddt_stat_add(ddt_stat_t *dst, const ddt_stat_t *src, uint64_t neg);
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extern void ddt_histogram_add(ddt_histogram_t *dst, const ddt_histogram_t *src);
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extern void ddt_histogram_stat(ddt_stat_t *dds, const ddt_histogram_t *ddh);
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extern boolean_t ddt_histogram_empty(const ddt_histogram_t *ddh);
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extern void ddt_get_dedup_object_stats(spa_t *spa, ddt_object_t *ddo);
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extern void ddt_get_dedup_histogram(spa_t *spa, ddt_histogram_t *ddh);
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extern void ddt_get_dedup_stats(spa_t *spa, ddt_stat_t *dds_total);
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extern uint64_t ddt_get_dedup_dspace(spa_t *spa);
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extern uint64_t ddt_get_pool_dedup_ratio(spa_t *spa);
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extern int ddt_ditto_copies_needed(ddt_t *ddt, ddt_entry_t *dde,
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ddt_phys_t *ddp_willref);
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extern int ddt_ditto_copies_present(ddt_entry_t *dde);
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extern size_t ddt_compress(void *src, uchar_t *dst, size_t s_len, size_t d_len);
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extern void ddt_decompress(uchar_t *src, void *dst, size_t s_len, size_t d_len);
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extern ddt_t *ddt_select(spa_t *spa, const blkptr_t *bp);
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extern void ddt_enter(ddt_t *ddt);
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extern void ddt_exit(ddt_t *ddt);
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extern void ddt_init(void);
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extern void ddt_fini(void);
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extern ddt_entry_t *ddt_lookup(ddt_t *ddt, const blkptr_t *bp, boolean_t add);
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extern void ddt_prefetch(spa_t *spa, const blkptr_t *bp);
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extern void ddt_remove(ddt_t *ddt, ddt_entry_t *dde);
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extern boolean_t ddt_class_contains(spa_t *spa, enum ddt_class max_class,
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const blkptr_t *bp);
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extern ddt_entry_t *ddt_repair_start(ddt_t *ddt, const blkptr_t *bp);
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extern void ddt_repair_done(ddt_t *ddt, ddt_entry_t *dde);
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extern int ddt_entry_compare(const void *x1, const void *x2);
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extern void ddt_create(spa_t *spa);
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extern int ddt_load(spa_t *spa);
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extern void ddt_unload(spa_t *spa);
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extern void ddt_sync(spa_t *spa, uint64_t txg);
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extern int ddt_walk(spa_t *spa, ddt_bookmark_t *ddb, ddt_entry_t *dde);
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extern int ddt_object_update(ddt_t *ddt, enum ddt_type type,
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enum ddt_class class, ddt_entry_t *dde, dmu_tx_t *tx);
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extern const ddt_ops_t ddt_zap_ops;
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#ifdef __cplusplus
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}
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#endif
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#endif /* _SYS_DDT_H */
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