mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-11-18 10:48:51 +00:00
4d3c95f5ea
U-Boot port is based on sources forked from GRUB-0.97 by Sun in 2004,
which can be found here:
http://src.opensolaris.org/source/xref/onnv/onnv-gate/usr/src/grub/grub-0.97/stage2/zfs-include/zfs.h
Released by Sun for GRUB under the license:
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
GRUB official releases include ZFS in version:
ftp://alpha.gnu.org/gnu/grub/grub-1.99~rc1.tar.gz
And patched against GRUB Bazaar repository for ashift fixes (4KB HDDs)
more conveniently found at github:
e7b6ef3ac3
Signed-off-by: Jorgen Lundman <lundman@lundman.net>
292 lines
11 KiB
C
292 lines
11 KiB
C
/*
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* GRUB -- GRand Unified Bootloader
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* Copyright (C) 1999,2000,2001,2002,2003,2004 Free Software Foundation, Inc.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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*/
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/*
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* Copyright (c) 2008, 2011, Oracle and/or its affiliates. All rights reserved.
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*/
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#ifndef ZFS_SPA_HEADER
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#define ZFS_SPA_HEADER 1
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/*
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* General-purpose 32-bit and 64-bit bitfield encodings.
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*/
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#define BF32_DECODE(x, low, len) P2PHASE((x) >> (low), 1U << (len))
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#define BF64_DECODE(x, low, len) P2PHASE((x) >> (low), 1ULL << (len))
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#define BF32_ENCODE(x, low, len) (P2PHASE((x), 1U << (len)) << (low))
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#define BF64_ENCODE(x, low, len) (P2PHASE((x), 1ULL << (len)) << (low))
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#define BF32_GET(x, low, len) BF32_DECODE(x, low, len)
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#define BF64_GET(x, low, len) BF64_DECODE(x, low, len)
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#define BF32_SET(x, low, len, val) \
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((x) ^= BF32_ENCODE((x >> low) ^ (val), low, len))
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#define BF64_SET(x, low, len, val) \
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((x) ^= BF64_ENCODE((x >> low) ^ (val), low, len))
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#define BF32_GET_SB(x, low, len, shift, bias) \
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((BF32_GET(x, low, len) + (bias)) << (shift))
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#define BF64_GET_SB(x, low, len, shift, bias) \
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((BF64_GET(x, low, len) + (bias)) << (shift))
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#define BF32_SET_SB(x, low, len, shift, bias, val) \
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BF32_SET(x, low, len, ((val) >> (shift)) - (bias))
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#define BF64_SET_SB(x, low, len, shift, bias, val) \
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BF64_SET(x, low, len, ((val) >> (shift)) - (bias))
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/*
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* We currently support nine block sizes, from 512 bytes to 128K.
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* We could go higher, but the benefits are near-zero and the cost
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* of COWing a giant block to modify one byte would become excessive.
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*/
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#define SPA_MINBLOCKSHIFT 9
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#define SPA_MAXBLOCKSHIFT 17
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#define SPA_MINBLOCKSIZE (1ULL << SPA_MINBLOCKSHIFT)
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#define SPA_MAXBLOCKSIZE (1ULL << SPA_MAXBLOCKSHIFT)
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#define SPA_BLOCKSIZES (SPA_MAXBLOCKSHIFT - SPA_MINBLOCKSHIFT + 1)
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/*
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* Size of block to hold the configuration data (a packed nvlist)
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*/
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#define SPA_CONFIG_BLOCKSIZE (1 << 14)
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/*
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* The DVA size encodings for LSIZE and PSIZE support blocks up to 32MB.
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* The ASIZE encoding should be at least 64 times larger (6 more bits)
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* to support up to 4-way RAID-Z mirror mode with worst-case gang block
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* overhead, three DVAs per bp, plus one more bit in case we do anything
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* else that expands the ASIZE.
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*/
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#define SPA_LSIZEBITS 16 /* LSIZE up to 32M (2^16 * 512) */
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#define SPA_PSIZEBITS 16 /* PSIZE up to 32M (2^16 * 512) */
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#define SPA_ASIZEBITS 24 /* ASIZE up to 64 times larger */
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/*
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* All SPA data is represented by 128-bit data virtual addresses (DVAs).
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* The members of the dva_t should be considered opaque outside the SPA.
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*/
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typedef struct dva {
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uint64_t dva_word[2];
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} dva_t;
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/*
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* Each block has a 256-bit checksum -- strong enough for cryptographic hashes.
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*/
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typedef struct zio_cksum {
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uint64_t zc_word[4];
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} zio_cksum_t;
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/*
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* Each block is described by its DVAs, time of birth, checksum, etc.
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* The word-by-word, bit-by-bit layout of the blkptr is as follows:
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*
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* 64 56 48 40 32 24 16 8 0
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* 0 | vdev1 | GRID | ASIZE |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* 1 |G| offset1 |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* 2 | vdev2 | GRID | ASIZE |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* 3 |G| offset2 |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* 4 | vdev3 | GRID | ASIZE |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* 5 |G| offset3 |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* 6 |BDX|lvl| type | cksum | comp | PSIZE | LSIZE |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* 7 | padding |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* 8 | padding |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* 9 | physical birth txg |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* a | logical birth txg |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* b | fill count |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* c | checksum[0] |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* d | checksum[1] |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* e | checksum[2] |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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* f | checksum[3] |
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* +-------+-------+-------+-------+-------+-------+-------+-------+
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*
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* Legend:
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*
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* vdev virtual device ID
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* offset offset into virtual device
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* LSIZE logical size
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* PSIZE physical size (after compression)
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* ASIZE allocated size (including RAID-Z parity and gang block headers)
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* GRID RAID-Z layout information (reserved for future use)
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* cksum checksum function
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* comp compression function
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* G gang block indicator
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* B byteorder (endianness)
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* D dedup
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* X unused
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* lvl level of indirection
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* type DMU object type
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* phys birth txg of block allocation; zero if same as logical birth txg
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* log. birth transaction group in which the block was logically born
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* fill count number of non-zero blocks under this bp
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* checksum[4] 256-bit checksum of the data this bp describes
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*/
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#define SPA_BLKPTRSHIFT 7 /* blkptr_t is 128 bytes */
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#define SPA_DVAS_PER_BP 3 /* Number of DVAs in a bp */
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typedef struct blkptr {
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dva_t blk_dva[SPA_DVAS_PER_BP]; /* Data Virtual Addresses */
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uint64_t blk_prop; /* size, compression, type, etc */
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uint64_t blk_pad[2]; /* Extra space for the future */
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uint64_t blk_phys_birth; /* txg when block was allocated */
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uint64_t blk_birth; /* transaction group at birth */
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uint64_t blk_fill; /* fill count */
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zio_cksum_t blk_cksum; /* 256-bit checksum */
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} blkptr_t;
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/*
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* Macros to get and set fields in a bp or DVA.
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*/
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#define DVA_GET_ASIZE(dva) \
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BF64_GET_SB((dva)->dva_word[0], 0, 24, SPA_MINBLOCKSHIFT, 0)
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#define DVA_SET_ASIZE(dva, x) \
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BF64_SET_SB((dva)->dva_word[0], 0, 24, SPA_MINBLOCKSHIFT, 0, x)
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#define DVA_GET_GRID(dva) BF64_GET((dva)->dva_word[0], 24, 8)
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#define DVA_SET_GRID(dva, x) BF64_SET((dva)->dva_word[0], 24, 8, x)
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#define DVA_GET_VDEV(dva) BF64_GET((dva)->dva_word[0], 32, 32)
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#define DVA_SET_VDEV(dva, x) BF64_SET((dva)->dva_word[0], 32, 32, x)
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#define DVA_GET_GANG(dva) BF64_GET((dva)->dva_word[1], 63, 1)
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#define DVA_SET_GANG(dva, x) BF64_SET((dva)->dva_word[1], 63, 1, x)
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#define BP_GET_LSIZE(bp) \
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BF64_GET_SB((bp)->blk_prop, 0, 16, SPA_MINBLOCKSHIFT, 1)
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#define BP_SET_LSIZE(bp, x) \
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BF64_SET_SB((bp)->blk_prop, 0, 16, SPA_MINBLOCKSHIFT, 1, x)
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#define BP_GET_COMPRESS(bp) BF64_GET((bp)->blk_prop, 32, 8)
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#define BP_SET_COMPRESS(bp, x) BF64_SET((bp)->blk_prop, 32, 8, x)
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#define BP_GET_CHECKSUM(bp) BF64_GET((bp)->blk_prop, 40, 8)
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#define BP_SET_CHECKSUM(bp, x) BF64_SET((bp)->blk_prop, 40, 8, x)
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#define BP_GET_TYPE(bp) BF64_GET((bp)->blk_prop, 48, 8)
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#define BP_SET_TYPE(bp, x) BF64_SET((bp)->blk_prop, 48, 8, x)
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#define BP_GET_LEVEL(bp) BF64_GET((bp)->blk_prop, 56, 5)
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#define BP_SET_LEVEL(bp, x) BF64_SET((bp)->blk_prop, 56, 5, x)
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#define BP_GET_PROP_BIT_61(bp) BF64_GET((bp)->blk_prop, 61, 1)
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#define BP_SET_PROP_BIT_61(bp, x) BF64_SET((bp)->blk_prop, 61, 1, x)
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#define BP_GET_DEDUP(bp) BF64_GET((bp)->blk_prop, 62, 1)
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#define BP_SET_DEDUP(bp, x) BF64_SET((bp)->blk_prop, 62, 1, x)
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#define BP_GET_BYTEORDER(bp) (0 - BF64_GET((bp)->blk_prop, 63, 1))
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#define BP_SET_BYTEORDER(bp, x) BF64_SET((bp)->blk_prop, 63, 1, x)
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#define BP_PHYSICAL_BIRTH(bp) \
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((bp)->blk_phys_birth ? (bp)->blk_phys_birth : (bp)->blk_birth)
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#define BP_SET_BIRTH(bp, logical, physical) \
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{ \
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(bp)->blk_birth = (logical); \
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(bp)->blk_phys_birth = ((logical) == (physical) ? 0 : (physical)); \
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}
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#define BP_GET_ASIZE(bp) \
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(DVA_GET_ASIZE(&(bp)->blk_dva[0]) + DVA_GET_ASIZE(&(bp)->blk_dva[1]) + \
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DVA_GET_ASIZE(&(bp)->blk_dva[2]))
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#define BP_GET_UCSIZE(bp) \
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((BP_GET_LEVEL(bp) > 0 || dmu_ot[BP_GET_TYPE(bp)].ot_metadata) ? \
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BP_GET_PSIZE(bp) : BP_GET_LSIZE(bp));
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#define BP_GET_NDVAS(bp) \
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(!!DVA_GET_ASIZE(&(bp)->blk_dva[0]) + \
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!!DVA_GET_ASIZE(&(bp)->blk_dva[1]) + \
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!!DVA_GET_ASIZE(&(bp)->blk_dva[2]))
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#define BP_COUNT_GANG(bp) \
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(DVA_GET_GANG(&(bp)->blk_dva[0]) + \
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DVA_GET_GANG(&(bp)->blk_dva[1]) + \
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DVA_GET_GANG(&(bp)->blk_dva[2]))
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#define DVA_EQUAL(dva1, dva2) \
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((dva1)->dva_word[1] == (dva2)->dva_word[1] && \
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(dva1)->dva_word[0] == (dva2)->dva_word[0])
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#define BP_EQUAL(bp1, bp2) \
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(BP_PHYSICAL_BIRTH(bp1) == BP_PHYSICAL_BIRTH(bp2) && \
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DVA_EQUAL(&(bp1)->blk_dva[0], &(bp2)->blk_dva[0]) && \
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DVA_EQUAL(&(bp1)->blk_dva[1], &(bp2)->blk_dva[1]) && \
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DVA_EQUAL(&(bp1)->blk_dva[2], &(bp2)->blk_dva[2]))
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#define ZIO_CHECKSUM_EQUAL(zc1, zc2) \
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(0 == (((zc1).zc_word[0] - (zc2).zc_word[0]) | \
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((zc1).zc_word[1] - (zc2).zc_word[1]) | \
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((zc1).zc_word[2] - (zc2).zc_word[2]) | \
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((zc1).zc_word[3] - (zc2).zc_word[3])))
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#define DVA_IS_VALID(dva) (DVA_GET_ASIZE(dva) != 0)
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#define ZIO_SET_CHECKSUM(zcp, w0, w1, w2, w3) \
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{ \
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(zcp)->zc_word[0] = w0; \
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(zcp)->zc_word[1] = w1; \
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(zcp)->zc_word[2] = w2; \
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(zcp)->zc_word[3] = w3; \
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}
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#define BP_IDENTITY(bp) (&(bp)->blk_dva[0])
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#define BP_IS_GANG(bp) DVA_GET_GANG(BP_IDENTITY(bp))
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#define BP_IS_HOLE(bp) ((bp)->blk_birth == 0)
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/* BP_IS_RAIDZ(bp) assumes no block compression */
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#define BP_IS_RAIDZ(bp) (DVA_GET_ASIZE(&(bp)->blk_dva[0]) > \
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BP_GET_PSIZE(bp))
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#define BP_ZERO(bp) \
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{ \
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(bp)->blk_dva[0].dva_word[0] = 0; \
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(bp)->blk_dva[0].dva_word[1] = 0; \
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(bp)->blk_dva[1].dva_word[0] = 0; \
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(bp)->blk_dva[1].dva_word[1] = 0; \
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(bp)->blk_dva[2].dva_word[0] = 0; \
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(bp)->blk_dva[2].dva_word[1] = 0; \
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(bp)->blk_prop = 0; \
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(bp)->blk_pad[0] = 0; \
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(bp)->blk_pad[1] = 0; \
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(bp)->blk_phys_birth = 0; \
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(bp)->blk_birth = 0; \
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(bp)->blk_fill = 0; \
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ZIO_SET_CHECKSUM(&(bp)->blk_cksum, 0, 0, 0, 0); \
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}
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#define BP_SPRINTF_LEN 320
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#endif /* ! ZFS_SPA_HEADER */
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