rtld-elf: link udivmoddi4 from compiler_rt

[FreeBSD/FreeBSD.git] / usr.sbin / fstyp / hammer_disk.h

/*-
 * Copyright (c) 2007 The DragonFly Project.  All rights reserved.
 *
 * This code is derived from software contributed to The DragonFly Project
 * by Matthew Dillon <dillon@backplane.com>
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in
 *    the documentation and/or other materials provided with the
 *    distribution.
 * 3. Neither the name of The DragonFly Project nor the names of its
 *    contributors may be used to endorse or promote products derived
 *    from this software without specific, prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE
 * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
 * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING,
 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 *
 * $DragonFly: src/sys/vfs/hammer/hammer_disk.h,v 1.55 2008/11/13 02:18:43 dillon Exp $
 * $FreeBSD$
 */

#ifndef VFS_HAMMER_DISK_H_
#define VFS_HAMMER_DISK_H_

#include <sys/endian.h>

#ifndef _SYS_UUID_H_
#include <sys/uuid.h>
#endif

/*
 * The structures below represent the on-disk format for a HAMMER
 * filesystem.  Note that all fields for on-disk structures are naturally
 * aligned.  HAMMER uses little endian for fields in on-disk structures.
 * HAMMER doesn't support big endian arch, but is planned.
 *
 * Most of HAMMER revolves around the concept of an object identifier.  An
 * obj_id is a 64 bit quantity which uniquely identifies a filesystem object
 * FOR THE ENTIRE LIFE OF THE FILESYSTEM.  This uniqueness allows backups
 * and mirrors to retain varying amounts of filesystem history by removing
 * any possibility of conflict through identifier reuse.
 *
 * A HAMMER filesystem may span multiple volumes.
 *
 * A HAMMER filesystem uses a 16K filesystem buffer size.  All filesystem
 * I/O is done in multiples of 16K.
 *
 * 64K X-bufs are used for blocks >= a file's 1MB mark.
 *
 * Per-volume storage limit: 52 bits            4096 TB
 * Per-Zone storage limit: 60 bits              1 MTB
 * Per-filesystem storage limit: 60 bits        1 MTB
 */
#define HAMMER_BUFSIZE          16384
#define HAMMER_XBUFSIZE         65536
#define HAMMER_HBUFSIZE         (HAMMER_BUFSIZE / 2)
#define HAMMER_XDEMARC          (1024 * 1024)
#define HAMMER_BUFMASK          (HAMMER_BUFSIZE - 1)
#define HAMMER_XBUFMASK         (HAMMER_XBUFSIZE - 1)

#define HAMMER_BUFSIZE64        ((uint64_t)HAMMER_BUFSIZE)
#define HAMMER_BUFMASK64        ((uint64_t)HAMMER_BUFMASK)

#define HAMMER_XBUFSIZE64       ((uint64_t)HAMMER_XBUFSIZE)
#define HAMMER_XBUFMASK64       ((uint64_t)HAMMER_XBUFMASK)

#define HAMMER_OFF_ZONE_MASK    0xF000000000000000ULL /* zone portion */
#define HAMMER_OFF_VOL_MASK     0x0FF0000000000000ULL /* volume portion */
#define HAMMER_OFF_SHORT_MASK   0x000FFFFFFFFFFFFFULL /* offset portion */
#define HAMMER_OFF_LONG_MASK    0x0FFFFFFFFFFFFFFFULL /* offset portion */

#define HAMMER_OFF_BAD          ((hammer_off_t)-1)

#define HAMMER_BUFSIZE_DOALIGN(offset)                          \
        (((offset) + HAMMER_BUFMASK) & ~HAMMER_BUFMASK)
#define HAMMER_BUFSIZE64_DOALIGN(offset)                        \
        (((offset) + HAMMER_BUFMASK64) & ~HAMMER_BUFMASK64)

#define HAMMER_XBUFSIZE_DOALIGN(offset)                         \
        (((offset) + HAMMER_XBUFMASK) & ~HAMMER_XBUFMASK)
#define HAMMER_XBUFSIZE64_DOALIGN(offset)                       \
        (((offset) + HAMMER_XBUFMASK64) & ~HAMMER_XBUFMASK64)

/*
 * The current limit of volumes that can make up a HAMMER FS
 */
#define HAMMER_MAX_VOLUMES      256

/*
 * Reserved space for (future) header junk after the volume header.
 */
#define HAMMER_MIN_VOL_JUNK     (HAMMER_BUFSIZE * 16)   /* 256 KB */
#define HAMMER_MAX_VOL_JUNK     HAMMER_MIN_VOL_JUNK
#define HAMMER_VOL_JUNK_SIZE    HAMMER_MIN_VOL_JUNK

/*
 * Hammer transaction ids are 64 bit unsigned integers and are usually
 * synchronized with the time of day in nanoseconds.
 *
 * Hammer offsets are used for FIFO indexing and embed a cycle counter
 * and volume number in addition to the offset.  Most offsets are required
 * to be 16 KB aligned.
 */
typedef uint64_t hammer_tid_t;
typedef uint64_t hammer_off_t;
typedef uint32_t hammer_crc_t;
typedef uuid_t hammer_uuid_t;

#define HAMMER_MIN_TID          0ULL                    /* unsigned */
#define HAMMER_MAX_TID          0xFFFFFFFFFFFFFFFFULL   /* unsigned */
#define HAMMER_MIN_KEY          -0x8000000000000000LL   /* signed */
#define HAMMER_MAX_KEY          0x7FFFFFFFFFFFFFFFLL    /* signed */
#define HAMMER_MIN_OBJID        HAMMER_MIN_KEY          /* signed */
#define HAMMER_MAX_OBJID        HAMMER_MAX_KEY          /* signed */
#define HAMMER_MIN_RECTYPE      0x0U                    /* unsigned */
#define HAMMER_MAX_RECTYPE      0xFFFFU                 /* unsigned */
#define HAMMER_MIN_OFFSET       0ULL                    /* unsigned */
#define HAMMER_MAX_OFFSET       0xFFFFFFFFFFFFFFFFULL   /* unsigned */

/*
 * hammer_off_t has several different encodings.  Note that not all zones
 * encode a vol_no.  Zone bits are not a part of filesystem capacity as
 * the zone bits aren't directly or indirectly mapped to physical volumes.
 *
 * In other words, HAMMER's logical filesystem offset consists of 64 bits,
 * but the filesystem is considered 60 bits filesystem, not 64 bits.
 * The maximum filesystem capacity is 1EB, not 16EB.
 *
 * zone 0:              available, a big-block that contains the offset is unused
 * zone 1 (z,v,o):      raw volume relative (offset 0 is the volume header)
 * zone 2 (z,v,o):      raw buffer relative (offset 0 is the first buffer)
 * zone 3 (z,o):        undo/redo fifo  - fixed zone-2 offset array in volume header
 * zone 4 (z,v,o):      freemap         - only real blockmap
 * zone 8 (z,v,o):      B-Tree          - actually zone-2 address
 * zone 9 (z,v,o):      meta            - actually zone-2 address
 * zone 10 (z,v,o):     large-data      - actually zone-2 address
 * zone 11 (z,v,o):     small-data      - actually zone-2 address
 * zone 15:             unavailable, usually the offset is beyond volume size
 *
 * layer1/layer2 direct map:
 *           Maximum HAMMER filesystem capacity from volume aspect
 *           2^8(max volumes) * 2^52(max volume size) = 2^60 = 1EB (long offset)
 *          <------------------------------------------------------------->
 *           8bits   52bits (short offset)
 *          <------><----------------------------------------------------->
 *      zzzzvvvvvvvvoooo oooooooooooooooo oooooooooooooooo oooooooooooooooo
 *      ----111111111111 1111112222222222 222222222ooooooo oooooooooooooooo
 *          <-----------------><------------------><---------------------->
 *           18bits             19bits              23bits
 *          <------------------------------------------------------------->
 *           2^18(layer1) * 2^19(layer2) * 2^23(big-block) = 2^60 = 1EB
 *           Maximum HAMMER filesystem capacity from blockmap aspect
 *
 * volume#0 layout
 *      +-------------------------> offset 0 of a device/partition
 *      | volume header (1928 bytes)
 *      | the rest of header junk space (HAMMER_BUFSIZE aligned)
 *      +-------------------------> vol_bot_beg
 *      | boot area (HAMMER_BUFSIZE aligned)
 *      +-------------------------> vol_mem_beg
 *      | memory log (HAMMER_BUFSIZE aligned)
 *      +-------------------------> vol_buf_beg (physical offset of zone-2)
 *      | zone-4 big-block for layer1
 *      +-------------------------> vol_buf_beg + HAMMER_BIGBLOCK_SIZE
 *      | zone-4 big-blocks for layer2
 *      | ... (1 big-block per 4TB space)
 *      +-------------------------> vol_buf_beg + HAMMER_BIGBLOCK_SIZE * ...
 *      | zone-3 big-blocks for UNDO/REDO FIFO
 *      | ... (max 128 big-blocks)
 *      +-------------------------> vol_buf_beg + HAMMER_BIGBLOCK_SIZE * ...
 *      | zone-8 big-block for root B-Tree node/etc
 *      +-------------------------> vol_buf_beg + HAMMER_BIGBLOCK_SIZE * ...
 *      | zone-9 big-block for root inode/PFS/etc
 *      +-------------------------> vol_buf_beg + HAMMER_BIGBLOCK_SIZE * ...
 *      | zone-X big-blocks
 *      | ... (big-blocks for new zones after newfs_hammer)
 *      | ...
 *      | ...
 *      | ...
 *      | ...
 *      +-------------------------> vol_buf_end (HAMMER_BUFSIZE aligned)
 *      +-------------------------> end of a device/partition
 *
 * volume#N layout (0<N<256)
 *      +-------------------------> offset 0 of a device/partition
 *      | volume header (1928 bytes)
 *      | the rest of header junk space (HAMMER_BUFSIZE aligned)
 *      +-------------------------> vol_bot_beg
 *      | boot area (HAMMER_BUFSIZE aligned)
 *      +-------------------------> vol_mem_beg
 *      | memory log (HAMMER_BUFSIZE aligned)
 *      +-------------------------> vol_buf_beg (physical offset of zone-2)
 *      | zone-4 big-blocks for layer2
 *      | ... (1 big-block per 4TB space)
 *      +-------------------------> vol_buf_beg + HAMMER_BIGBLOCK_SIZE * ...
 *      | zone-X big-blocks
 *      | ... (unused until volume#(N-1) runs out of space)
 *      | ...
 *      | ...
 *      | ...
 *      | ...
 *      +-------------------------> vol_buf_end (HAMMER_BUFSIZE aligned)
 *      +-------------------------> end of a device/partition
 */

#define HAMMER_ZONE_RAW_VOLUME          0x1000000000000000ULL
#define HAMMER_ZONE_RAW_BUFFER          0x2000000000000000ULL
#define HAMMER_ZONE_UNDO                0x3000000000000000ULL
#define HAMMER_ZONE_FREEMAP             0x4000000000000000ULL
#define HAMMER_ZONE_RESERVED05          0x5000000000000000ULL  /* not used */
#define HAMMER_ZONE_RESERVED06          0x6000000000000000ULL  /* not used */
#define HAMMER_ZONE_RESERVED07          0x7000000000000000ULL  /* not used */
#define HAMMER_ZONE_BTREE               0x8000000000000000ULL
#define HAMMER_ZONE_META                0x9000000000000000ULL
#define HAMMER_ZONE_LARGE_DATA          0xA000000000000000ULL
#define HAMMER_ZONE_SMALL_DATA          0xB000000000000000ULL
#define HAMMER_ZONE_RESERVED0C          0xC000000000000000ULL  /* not used */
#define HAMMER_ZONE_RESERVED0D          0xD000000000000000ULL  /* not used */
#define HAMMER_ZONE_RESERVED0E          0xE000000000000000ULL  /* not used */
#define HAMMER_ZONE_UNAVAIL             0xF000000000000000ULL

#define HAMMER_ZONE_RAW_VOLUME_INDEX    1
#define HAMMER_ZONE_RAW_BUFFER_INDEX    2
#define HAMMER_ZONE_UNDO_INDEX          3
#define HAMMER_ZONE_FREEMAP_INDEX       4
#define HAMMER_ZONE_BTREE_INDEX         8
#define HAMMER_ZONE_META_INDEX          9
#define HAMMER_ZONE_LARGE_DATA_INDEX    10
#define HAMMER_ZONE_SMALL_DATA_INDEX    11
#define HAMMER_ZONE_UNAVAIL_INDEX       15

#define HAMMER_MAX_ZONES                16

#define HAMMER_ZONE(offset)             ((offset) & HAMMER_OFF_ZONE_MASK)

#define hammer_is_zone_raw_volume(offset)               \
        (HAMMER_ZONE(offset) == HAMMER_ZONE_RAW_VOLUME)
#define hammer_is_zone_raw_buffer(offset)               \
        (HAMMER_ZONE(offset) == HAMMER_ZONE_RAW_BUFFER)
#define hammer_is_zone_undo(offset)                     \
        (HAMMER_ZONE(offset) == HAMMER_ZONE_UNDO)
#define hammer_is_zone_freemap(offset)                  \
        (HAMMER_ZONE(offset) == HAMMER_ZONE_FREEMAP)
#define hammer_is_zone_btree(offset)                    \
        (HAMMER_ZONE(offset) == HAMMER_ZONE_BTREE)
#define hammer_is_zone_meta(offset)                     \
        (HAMMER_ZONE(offset) == HAMMER_ZONE_META)
#define hammer_is_zone_large_data(offset)               \
        (HAMMER_ZONE(offset) == HAMMER_ZONE_LARGE_DATA)
#define hammer_is_zone_small_data(offset)               \
        (HAMMER_ZONE(offset) == HAMMER_ZONE_SMALL_DATA)
#define hammer_is_zone_unavail(offset)                  \
        (HAMMER_ZONE(offset) == HAMMER_ZONE_UNAVAIL)
#define hammer_is_zone_data(offset)                     \
        (hammer_is_zone_large_data(offset) || hammer_is_zone_small_data(offset))

#define hammer_is_index_record(zone)                    \
        ((zone) >= HAMMER_ZONE_BTREE_INDEX &&           \
         (zone) < HAMMER_MAX_ZONES)

#define hammer_is_zone_record(offset)                   \
        hammer_is_index_record(HAMMER_ZONE_DECODE(offset))

#define hammer_is_index_direct_xlated(zone)             \
        (((zone) == HAMMER_ZONE_RAW_BUFFER_INDEX) ||    \
         ((zone) == HAMMER_ZONE_FREEMAP_INDEX) ||       \
         hammer_is_index_record(zone))

#define hammer_is_zone_direct_xlated(offset)            \
        hammer_is_index_direct_xlated(HAMMER_ZONE_DECODE(offset))

#define HAMMER_ZONE_ENCODE(zone, ham_off)               \
        (((hammer_off_t)(zone) << 60) | (ham_off))
#define HAMMER_ZONE_DECODE(ham_off)                     \
        ((int)(((hammer_off_t)(ham_off) >> 60)))

#define HAMMER_VOL_ENCODE(vol_no)                       \
        ((hammer_off_t)((vol_no) & 255) << 52)
#define HAMMER_VOL_DECODE(ham_off)                      \
        ((int)(((hammer_off_t)(ham_off) >> 52) & 255))

#define HAMMER_OFF_SHORT_ENCODE(offset)                 \
        ((hammer_off_t)(offset) & HAMMER_OFF_SHORT_MASK)
#define HAMMER_OFF_LONG_ENCODE(offset)                  \
        ((hammer_off_t)(offset) & HAMMER_OFF_LONG_MASK)

#define HAMMER_ENCODE(zone, vol_no, offset)             \
        (((hammer_off_t)(zone) << 60) |                 \
        HAMMER_VOL_ENCODE(vol_no) |                     \
        HAMMER_OFF_SHORT_ENCODE(offset))
#define HAMMER_ENCODE_RAW_VOLUME(vol_no, offset)        \
        HAMMER_ENCODE(HAMMER_ZONE_RAW_VOLUME_INDEX, vol_no, offset)
#define HAMMER_ENCODE_RAW_BUFFER(vol_no, offset)        \
        HAMMER_ENCODE(HAMMER_ZONE_RAW_BUFFER_INDEX, vol_no, offset)
#define HAMMER_ENCODE_UNDO(offset)                      \
        HAMMER_ENCODE(HAMMER_ZONE_UNDO_INDEX, HAMMER_ROOT_VOLNO, offset)
#define HAMMER_ENCODE_FREEMAP(vol_no, offset)           \
        HAMMER_ENCODE(HAMMER_ZONE_FREEMAP_INDEX, vol_no, offset)

/*
 * Translate a zone address to zone-X address.
 */
#define hammer_xlate_to_zoneX(zone, offset)             \
        HAMMER_ZONE_ENCODE((zone), (offset) & ~HAMMER_OFF_ZONE_MASK)
#define hammer_xlate_to_zone2(offset)                   \
        hammer_xlate_to_zoneX(HAMMER_ZONE_RAW_BUFFER_INDEX, (offset))

#define hammer_data_zone(data_len)                      \
        (((data_len) >= HAMMER_BUFSIZE) ?               \
         HAMMER_ZONE_LARGE_DATA :                       \
         HAMMER_ZONE_SMALL_DATA)
#define hammer_data_zone_index(data_len)                \
        (((data_len) >= HAMMER_BUFSIZE) ?               \
         HAMMER_ZONE_LARGE_DATA_INDEX :                 \
         HAMMER_ZONE_SMALL_DATA_INDEX)

/*
 * Big-Block backing store
 *
 * A blockmap is a two-level map which translates a blockmap-backed zone
 * offset into a raw zone 2 offset.  The layer 1 handles 18 bits and the
 * layer 2 handles 19 bits.  The 8M big-block size is 23 bits so two
 * layers gives us 18+19+23 = 60 bits of address space.
 *
 * When using hinting for a blockmap lookup, the hint is lost when the
 * scan leaves the HINTBLOCK, which is typically several BIGBLOCK's.
 * HINTBLOCK is a heuristic.
 */
#define HAMMER_HINTBLOCK_SIZE           (HAMMER_BIGBLOCK_SIZE * 4)
#define HAMMER_HINTBLOCK_MASK64         ((uint64_t)HAMMER_HINTBLOCK_SIZE - 1)
#define HAMMER_BIGBLOCK_SIZE            (8192 * 1024)
#define HAMMER_BIGBLOCK_SIZE64          ((uint64_t)HAMMER_BIGBLOCK_SIZE)
#define HAMMER_BIGBLOCK_MASK            (HAMMER_BIGBLOCK_SIZE - 1)
#define HAMMER_BIGBLOCK_MASK64          ((uint64_t)HAMMER_BIGBLOCK_SIZE - 1)
#define HAMMER_BIGBLOCK_BITS            23
#if 0
#define HAMMER_BIGBLOCK_OVERFILL        (6144 * 1024)
#endif
#if (1 << HAMMER_BIGBLOCK_BITS) != HAMMER_BIGBLOCK_SIZE
#error "HAMMER_BIGBLOCK_BITS BROKEN"
#endif

#define HAMMER_BUFFERS_PER_BIGBLOCK                     \
        (HAMMER_BIGBLOCK_SIZE / HAMMER_BUFSIZE)
#define HAMMER_BUFFERS_PER_BIGBLOCK_MASK                \
        (HAMMER_BUFFERS_PER_BIGBLOCK - 1)
#define HAMMER_BUFFERS_PER_BIGBLOCK_MASK64              \
        ((hammer_off_t)HAMMER_BUFFERS_PER_BIGBLOCK_MASK)

#define HAMMER_BIGBLOCK_DOALIGN(offset)                         \
        (((offset) + HAMMER_BIGBLOCK_MASK64) & ~HAMMER_BIGBLOCK_MASK64)

/*
 * Maximum number of mirrors operating in master mode (multi-master
 * clustering and mirroring). Note that HAMMER1 does not support
 * multi-master clustering as of 2015.
 */
#define HAMMER_MAX_MASTERS              16

/*
 * The blockmap is somewhat of a degenerate structure.  HAMMER only actually
 * uses it in its original incarnation to implement the freemap.
 *
 * zone:1       raw volume (no blockmap)
 * zone:2       raw buffer (no blockmap)
 * zone:3       undomap    (direct layer2 array in volume header)
 * zone:4       freemap    (the only real blockmap)
 * zone:8-15    zone id used to classify big-block only, address is actually
 *              a zone-2 address.
 */
typedef struct hammer_blockmap {
        hammer_off_t    phys_offset;  /* zone-2 offset only used by zone-4 */
        hammer_off_t    first_offset; /* zone-X offset only used by zone-3 */
        hammer_off_t    next_offset;  /* zone-X offset for allocation */
        hammer_off_t    alloc_offset; /* zone-X offset only used by zone-3 */
        uint32_t        reserved01;
        hammer_crc_t    entry_crc;
} *hammer_blockmap_t;

#define HAMMER_BLOCKMAP_CRCSIZE \
        offsetof(struct hammer_blockmap, entry_crc)

/*
 * The blockmap is a 2-layer entity made up of big-blocks.  The first layer
 * contains 262144 32-byte entries (18 bits), the second layer contains
 * 524288 16-byte entries (19 bits), representing 8MB (23 bit) blockmaps.
 * 18+19+23 = 60 bits.  The top four bits are the zone id.
 *
 * Currently only the freemap utilizes both layers in all their glory.
 * All primary data/meta-data zones actually encode a zone-2 address
 * requiring no real blockmap translation.
 *
 * The freemap uses the upper 8 bits of layer-1 to identify the volume,
 * thus any space allocated via the freemap can be directly translated
 * to a zone:2 (or zone:8-15) address.
 *
 * zone-X blockmap offset: [zone:4][layer1:18][layer2:19][big-block:23]
 */

/*
 * 32 bytes layer1 entry for 8MB big-block.
 * A big-block can hold 2^23 / 2^5 = 2^18 layer1 entries,
 * which equals bits assigned for layer1 in zone-2 address.
 */
typedef struct hammer_blockmap_layer1 {
        hammer_off_t    blocks_free;    /* big-blocks free */
        hammer_off_t    phys_offset;    /* UNAVAIL or zone-2 */
        hammer_off_t    reserved01;
        hammer_crc_t    layer2_crc;     /* xor'd crc's of HAMMER_BLOCKSIZE */
                                        /* (not yet used) */
        hammer_crc_t    layer1_crc;     /* MUST BE LAST FIELD OF STRUCTURE*/
} *hammer_blockmap_layer1_t;

#define HAMMER_LAYER1_CRCSIZE   \
        offsetof(struct hammer_blockmap_layer1, layer1_crc)

/*
 * 16 bytes layer2 entry for 8MB big-blocks.
 * A big-block can hold 2^23 / 2^4 = 2^19 layer2 entries,
 * which equals bits assigned for layer2 in zone-2 address.
 *
 * NOTE: bytes_free is signed and can legally go negative if/when data
 *       de-dup occurs.  This field will never go higher than
 *       HAMMER_BIGBLOCK_SIZE.  If exactly HAMMER_BIGBLOCK_SIZE
 *       the big-block is completely free.
 */
typedef struct hammer_blockmap_layer2 {
        uint8_t         zone;           /* typed allocation zone */
        uint8_t         reserved01;
        uint16_t        reserved02;
        uint32_t        append_off;     /* allocatable space index */
        int32_t         bytes_free;     /* bytes free within this big-block */
        hammer_crc_t    entry_crc;
} *hammer_blockmap_layer2_t;

#define HAMMER_LAYER2_CRCSIZE   \
        offsetof(struct hammer_blockmap_layer2, entry_crc)

#define HAMMER_BLOCKMAP_UNAVAIL ((hammer_off_t)-1LL)

#define HAMMER_BLOCKMAP_RADIX1  /* 2^18 = 262144 */     \
        ((int)(HAMMER_BIGBLOCK_SIZE / sizeof(struct hammer_blockmap_layer1)))
#define HAMMER_BLOCKMAP_RADIX2  /* 2^19 = 524288 */     \
        ((int)(HAMMER_BIGBLOCK_SIZE / sizeof(struct hammer_blockmap_layer2)))

#define HAMMER_BLOCKMAP_LAYER1  /* 2^(18+19+23) = 1EB */        \
        (HAMMER_BLOCKMAP_RADIX1 * HAMMER_BLOCKMAP_LAYER2)
#define HAMMER_BLOCKMAP_LAYER2  /* 2^(19+23) = 4TB */           \
        (HAMMER_BLOCKMAP_RADIX2 * HAMMER_BIGBLOCK_SIZE64)

#define HAMMER_BLOCKMAP_LAYER1_MASK     (HAMMER_BLOCKMAP_LAYER1 - 1)
#define HAMMER_BLOCKMAP_LAYER2_MASK     (HAMMER_BLOCKMAP_LAYER2 - 1)

#define HAMMER_BLOCKMAP_LAYER2_DOALIGN(offset)                  \
        (((offset) + HAMMER_BLOCKMAP_LAYER2_MASK) &             \
         ~HAMMER_BLOCKMAP_LAYER2_MASK)

/*
 * Index within layer1 or layer2 big-block for the entry representing
 * a zone-2 physical offset.
 */
#define HAMMER_BLOCKMAP_LAYER1_INDEX(zone2_offset)              \
        ((int)(((zone2_offset) & HAMMER_BLOCKMAP_LAYER1_MASK) / \
         HAMMER_BLOCKMAP_LAYER2))

#define HAMMER_BLOCKMAP_LAYER2_INDEX(zone2_offset)              \
        ((int)(((zone2_offset) & HAMMER_BLOCKMAP_LAYER2_MASK) / \
        HAMMER_BIGBLOCK_SIZE64))

/*
 * Byte offset within layer1 or layer2 big-block for the entry representing
 * a zone-2 physical offset.  Multiply the index by sizeof(blockmap_layer).
 */
#define HAMMER_BLOCKMAP_LAYER1_OFFSET(zone2_offset)             \
        (HAMMER_BLOCKMAP_LAYER1_INDEX(zone2_offset) *           \
         sizeof(struct hammer_blockmap_layer1))

#define HAMMER_BLOCKMAP_LAYER2_OFFSET(zone2_offset)             \
        (HAMMER_BLOCKMAP_LAYER2_INDEX(zone2_offset) *           \
         sizeof(struct hammer_blockmap_layer2))

/*
 * Move on to offset 0 of the next layer1 or layer2.
 */
#define HAMMER_ZONE_LAYER1_NEXT_OFFSET(offset)                  \
        (((offset) + HAMMER_BLOCKMAP_LAYER2) & ~HAMMER_BLOCKMAP_LAYER2_MASK)

#define HAMMER_ZONE_LAYER2_NEXT_OFFSET(offset)                  \
        (((offset) + HAMMER_BIGBLOCK_SIZE) & ~HAMMER_BIGBLOCK_MASK64)

/*
 * HAMMER UNDO parameters.  The UNDO fifo is mapped directly in the volume
 * header with an array of zone-2 offsets.  A maximum of (128x8MB) = 1GB,
 * and minimum of (64x8MB) = 512MB may be reserved.  The size of the undo
 * fifo is usually set a newfs time.
 */
#define HAMMER_MIN_UNDO_BIGBLOCKS               64
#define HAMMER_MAX_UNDO_BIGBLOCKS               128

/*
 * All on-disk HAMMER structures which make up elements of the UNDO FIFO
 * contain a hammer_fifo_head and hammer_fifo_tail structure.  This structure
 * contains all the information required to validate the fifo element
 * and to scan the fifo in either direction.  The head is typically embedded
 * in higher level hammer on-disk structures while the tail is typically
 * out-of-band.  hdr_size is the size of the whole mess, including the tail.
 *
 * All undo structures are guaranteed to not cross a 16K filesystem
 * buffer boundary.  Most undo structures are fairly small.  Data spaces
 * are not immediately reused by HAMMER so file data is not usually recorded
 * as part of an UNDO.
 *
 * PAD elements are allowed to take up only 8 bytes of space as a special
 * case, containing only hdr_signature, hdr_type, and hdr_size fields,
 * and with the tail overloaded onto the head structure for 8 bytes total.
 *
 * Every undo record has a sequence number.  This number is unrelated to
 * transaction ids and instead collects the undo transactions associated
 * with a single atomic operation.  A larger transactional operation, such
 * as a remove(), may consist of several smaller atomic operations
 * representing raw meta-data operations.
 *
 *                              HAMMER VERSION 4 CHANGES
 *
 * In HAMMER version 4 the undo structure alignment is reduced from 16384
 * to 512 bytes in order to ensure that each 512 byte sector begins with
 * a header.  The hdr_seq field in the header is a 32 bit sequence number
 * which allows the recovery code to detect missing sectors
 * without relying on the 32-bit crc and to definitively identify the current
 * undo sequence space without having to rely on information from the volume
 * header.  In addition, new REDO entries in the undo space are used to
 * record write, write/extend, and transaction id updates.
 *
 * The grand result is:
 *
 * (1) The volume header no longer needs to be synchronized for most
 *     flush and fsync operations.
 *
 * (2) Most fsync operations need only lay down REDO records
 *
 * (3) Data overwrite for nohistory operations covered by REDO records
 *     can be supported (instead of rolling a new block allocation),
 *     by rolling UNDO for the prior contents of the data.
 *
 *                              HAMMER VERSION 5 CHANGES
 *
 * Hammer version 5 contains a minor adjustment making layer2's bytes_free
 * field signed, allowing dedup to push it into the negative domain.
 */
#define HAMMER_HEAD_ALIGN               8
#define HAMMER_HEAD_ALIGN_MASK          (HAMMER_HEAD_ALIGN - 1)
#define HAMMER_HEAD_DOALIGN(bytes)      \
        (((bytes) + HAMMER_HEAD_ALIGN_MASK) & ~HAMMER_HEAD_ALIGN_MASK)

#define HAMMER_UNDO_ALIGN               512
#define HAMMER_UNDO_ALIGN64             ((uint64_t)512)
#define HAMMER_UNDO_MASK                (HAMMER_UNDO_ALIGN - 1)
#define HAMMER_UNDO_MASK64              (HAMMER_UNDO_ALIGN64 - 1)
#define HAMMER_UNDO_DOALIGN(offset)     \
        (((offset) + HAMMER_UNDO_MASK) & ~HAMMER_UNDO_MASK64)

typedef struct hammer_fifo_head {
        uint16_t hdr_signature;
        uint16_t hdr_type;
        uint32_t hdr_size;      /* Aligned size of the whole mess */
        uint32_t hdr_seq;       /* Sequence number */
        hammer_crc_t hdr_crc;   /* XOR crc up to field w/ crc after field */
} *hammer_fifo_head_t;

#define HAMMER_FIFO_HEAD_CRCOFF offsetof(struct hammer_fifo_head, hdr_crc)

typedef struct hammer_fifo_tail {
        uint16_t tail_signature;
        uint16_t tail_type;
        uint32_t tail_size;     /* aligned size of the whole mess */
} *hammer_fifo_tail_t;

/*
 * Fifo header types.
 *
 * NOTE: 0x8000U part of HAMMER_HEAD_TYPE_PAD can be removed if the HAMMER
 * version ever gets bumped again. It exists only to keep compatibility with
 * older versions.
 */
#define HAMMER_HEAD_TYPE_PAD    (0x0040U | 0x8000U)
#define HAMMER_HEAD_TYPE_DUMMY  0x0041U         /* dummy entry w/seqno */
#define HAMMER_HEAD_TYPE_UNDO   0x0043U         /* random UNDO information */
#define HAMMER_HEAD_TYPE_REDO   0x0044U         /* data REDO / fast fsync */

#define HAMMER_HEAD_SIGNATURE   0xC84EU
#define HAMMER_TAIL_SIGNATURE   0xC74FU

/*
 * Misc FIFO structures.
 *
 * UNDO - Raw meta-data media updates.
 */
typedef struct hammer_fifo_undo {
        struct hammer_fifo_head head;
        hammer_off_t            undo_offset;    /* zone-1,2 offset */
        int32_t                 undo_data_bytes;
        int32_t                 undo_reserved01;
        /* followed by data */
} *hammer_fifo_undo_t;

/*
 * REDO (HAMMER version 4+) - Logical file writes/truncates.
 *
 * REDOs contain information which will be duplicated in a later meta-data
 * update, allowing fast write()+fsync() operations.  REDOs can be ignored
 * without harming filesystem integrity but must be processed if fsync()
 * semantics are desired.
 *
 * Unlike UNDOs which are processed backwards within the recovery span,
 * REDOs must be processed forwards starting further back (starting outside
 * the recovery span).
 *
 *      WRITE   - Write logical file (with payload).  Executed both
 *                out-of-span and in-span.  Out-of-span WRITEs may be
 *                filtered out by TERMs.
 *
 *      TRUNC   - Truncate logical file (no payload).  Executed both
 *                out-of-span and in-span.  Out-of-span WRITEs may be
 *                filtered out by TERMs.
 *
 *      TERM_*  - Indicates meta-data was committed (if out-of-span) or
 *                will be rolled-back (in-span).  Any out-of-span TERMs
 *                matching earlier WRITEs remove those WRITEs from
 *                consideration as they might conflict with a later data
 *                commit (which is not being rolled-back).
 *
 *      SYNC    - The earliest in-span SYNC (the last one when scanning
 *                backwards) tells the recovery code how far out-of-span
 *                it must go to run REDOs.
 *
 * NOTE: WRITEs do not always have matching TERMs even under
 *       perfect conditions because truncations might remove the
 *       buffers from consideration.  I/O problems can also remove
 *       buffers from consideration.
 *
 *       TRUNCSs do not always have matching TERMs because several
 *       truncations may be aggregated together into a single TERM.
 */
typedef struct hammer_fifo_redo {
        struct hammer_fifo_head head;
        int64_t                 redo_objid;     /* file being written */
        hammer_off_t            redo_offset;    /* logical offset in file */
        int32_t                 redo_data_bytes;
        uint32_t                redo_flags;
        uint32_t                redo_localization;
        uint32_t                redo_reserved01;
        uint64_t                redo_reserved02;
        /* followed by data */
} *hammer_fifo_redo_t;

#define HAMMER_REDO_WRITE       0x00000001
#define HAMMER_REDO_TRUNC       0x00000002
#define HAMMER_REDO_TERM_WRITE  0x00000004
#define HAMMER_REDO_TERM_TRUNC  0x00000008
#define HAMMER_REDO_SYNC        0x00000010

typedef union hammer_fifo_any {
        struct hammer_fifo_head head;
        struct hammer_fifo_undo undo;
        struct hammer_fifo_redo redo;
} *hammer_fifo_any_t;

/*
 * Volume header types
 */
#define HAMMER_FSBUF_VOLUME     0xC8414D4DC5523031ULL   /* HAMMER01 */
#define HAMMER_FSBUF_VOLUME_REV 0x313052C54D4D41C8ULL   /* (reverse endian) */

/*
 * HAMMER Volume header
 *
 * A HAMMER filesystem can be built from 1-256 block devices, each block
 * device contains a volume header followed by however many buffers fit
 * into the volume.
 *
 * One of the volumes making up a HAMMER filesystem is the root volume.
 * The root volume is always volume #0 which is the first block device path
 * specified by newfs_hammer(8).  All HAMMER volumes have a volume header,
 * however the root volume may be the only volume that has valid values for
 * some fields in the header.
 *
 * Special field notes:
 *
 *      vol_bot_beg - offset of boot area (mem_beg - bot_beg bytes)
 *      vol_mem_beg - offset of memory log (buf_beg - mem_beg bytes)
 *      vol_buf_beg - offset of the first buffer in volume
 *      vol_buf_end - offset of volume EOF (on buffer boundary)
 *
 *      The memory log area allows a kernel to cache new records and data
 *      in memory without allocating space in the actual filesystem to hold
 *      the records and data.  In the event that a filesystem becomes full,
 *      any records remaining in memory can be flushed to the memory log
 *      area.  This allows the kernel to immediately return success.
 *
 *      The buffer offset is a physical offset of zone-2 offset. The lower
 *      52 bits of the zone-2 offset is added to the buffer offset of each
 *      volume to generate an actual I/O offset within the block device.
 *
 *      NOTE: boot area and memory log are currently not used.
 */

/*
 * Filesystem type string
 */
#define HAMMER_FSTYPE_STRING            "DragonFly HAMMER"

/*
 * These macros are only used by userspace when userspace commands either
 * initialize or add a new HAMMER volume.
 */
#define HAMMER_BOOT_MINBYTES            (32*1024)
#define HAMMER_BOOT_NOMBYTES            (64LL*1024*1024)
#define HAMMER_BOOT_MAXBYTES            (256LL*1024*1024)

#define HAMMER_MEM_MINBYTES             (256*1024)
#define HAMMER_MEM_NOMBYTES             (1LL*1024*1024*1024)
#define HAMMER_MEM_MAXBYTES             (64LL*1024*1024*1024)

typedef struct hammer_volume_ondisk {
        uint64_t vol_signature; /* HAMMER_FSBUF_VOLUME for a valid header */

        /*
         * These are relative to block device offset, not zone offsets.
         */
        int64_t vol_bot_beg;    /* offset of boot area */
        int64_t vol_mem_beg;    /* offset of memory log */
        int64_t vol_buf_beg;    /* offset of the first buffer in volume */
        int64_t vol_buf_end;    /* offset of volume EOF (on buffer boundary) */
        int64_t vol_reserved01;

        hammer_uuid_t vol_fsid; /* identify filesystem */
        hammer_uuid_t vol_fstype; /* identify filesystem type */
        char vol_label[64];     /* filesystem label */

        int32_t vol_no;         /* volume number within filesystem */
        int32_t vol_count;      /* number of volumes making up filesystem */

        uint32_t vol_version;   /* version control information */
        hammer_crc_t vol_crc;   /* header crc */
        uint32_t vol_flags;     /* volume flags */
        uint32_t vol_rootvol;   /* the root volume number (must be 0) */

        uint32_t vol_reserved[8];

        /*
         * These fields are initialized and space is reserved in every
         * volume making up a HAMMER filesytem, but only the root volume
         * contains valid data.  Note that vol0_stat_bigblocks does not
         * include big-blocks for freemap and undomap initially allocated
         * by newfs_hammer(8).
         */
        int64_t vol0_stat_bigblocks;    /* total big-blocks when fs is empty */
        int64_t vol0_stat_freebigblocks;/* number of free big-blocks */
        int64_t vol0_reserved01;
        int64_t vol0_stat_inodes;       /* for statfs only */
        int64_t vol0_reserved02;
        hammer_off_t vol0_btree_root;   /* B-Tree root offset in zone-8 */
        hammer_tid_t vol0_next_tid;     /* highest partially synchronized TID */
        hammer_off_t vol0_reserved03;

        /*
         * Blockmaps for zones.  Not all zones use a blockmap.  Note that
         * the entire root blockmap is cached in the hammer_mount structure.
         */
        struct hammer_blockmap  vol0_blockmap[HAMMER_MAX_ZONES];

        /*
         * Array of zone-2 addresses for undo FIFO.
         */
        hammer_off_t            vol0_undo_array[HAMMER_MAX_UNDO_BIGBLOCKS];
} *hammer_volume_ondisk_t;

#define HAMMER_ROOT_VOLNO               0

#define HAMMER_VOLF_NEEDFLUSH           0x0004  /* volume needs flush */

#define HAMMER_VOL_CRCSIZE1     \
        offsetof(struct hammer_volume_ondisk, vol_crc)
#define HAMMER_VOL_CRCSIZE2     \
        (sizeof(struct hammer_volume_ondisk) - HAMMER_VOL_CRCSIZE1 -    \
         sizeof(hammer_crc_t))

#define HAMMER_VOL_VERSION_MIN          1       /* minimum supported version */
#define HAMMER_VOL_VERSION_DEFAULT      7       /* newfs default version */
#define HAMMER_VOL_VERSION_WIP          8       /* version >= this is WIP */
#define HAMMER_VOL_VERSION_MAX          7       /* maximum supported version */

#define HAMMER_VOL_VERSION_ONE          1
#define HAMMER_VOL_VERSION_TWO          2       /* new dirent layout (2.3+) */
#define HAMMER_VOL_VERSION_THREE        3       /* new snapshot layout (2.5+) */
#define HAMMER_VOL_VERSION_FOUR         4       /* new undo/flush (2.5+) */
#define HAMMER_VOL_VERSION_FIVE         5       /* dedup (2.9+) */
#define HAMMER_VOL_VERSION_SIX          6       /* DIRHASH_ALG1 */
#define HAMMER_VOL_VERSION_SEVEN        7       /* use the faster iscsi_crc */

/*
 * Translate a zone-2 address to physical address
 */
#define hammer_xlate_to_phys(volume, zone2_offset)      \
        ((volume)->vol_buf_beg + HAMMER_OFF_SHORT_ENCODE(zone2_offset))

/*
 * Translate a zone-3 address to zone-2 address
 */
#define HAMMER_UNDO_INDEX(zone3_offset)                 \
        (HAMMER_OFF_SHORT_ENCODE(zone3_offset) / HAMMER_BIGBLOCK_SIZE)

#define hammer_xlate_to_undo(volume, zone3_offset)                      \
        ((volume)->vol0_undo_array[HAMMER_UNDO_INDEX(zone3_offset)] +   \
         (zone3_offset & HAMMER_BIGBLOCK_MASK64))

/*
 * Effective per-volume filesystem capacity including big-blocks for layer1/2
 */
#define HAMMER_VOL_BUF_SIZE(volume)                     \
        ((volume)->vol_buf_end - (volume)->vol_buf_beg)

/*
 * Record types are fairly straightforward.  The B-Tree includes the record
 * type in its index sort.
 */
#define HAMMER_RECTYPE_UNKNOWN          0x0000
#define HAMMER_RECTYPE_INODE            0x0001  /* inode in obj_id space */
#define HAMMER_RECTYPE_DATA             0x0010
#define HAMMER_RECTYPE_DIRENTRY         0x0011
#define HAMMER_RECTYPE_DB               0x0012
#define HAMMER_RECTYPE_EXT              0x0013  /* ext attributes */
#define HAMMER_RECTYPE_FIX              0x0014  /* fixed attribute */
#define HAMMER_RECTYPE_PFS              0x0015  /* PFS management */
#define HAMMER_RECTYPE_SNAPSHOT         0x0016  /* Snapshot management */
#define HAMMER_RECTYPE_CONFIG           0x0017  /* hammer cleanup config */
#define HAMMER_RECTYPE_MAX              0xFFFF

#define HAMMER_RECTYPE_ENTRY_START      (HAMMER_RECTYPE_INODE + 1)
#define HAMMER_RECTYPE_CLEAN_START      HAMMER_RECTYPE_EXT

#define HAMMER_FIXKEY_SYMLINK           1

#define HAMMER_OBJTYPE_UNKNOWN          0       /* never exists on-disk as unknown */
#define HAMMER_OBJTYPE_DIRECTORY        1
#define HAMMER_OBJTYPE_REGFILE          2
#define HAMMER_OBJTYPE_DBFILE           3
#define HAMMER_OBJTYPE_FIFO             4
#define HAMMER_OBJTYPE_CDEV             5
#define HAMMER_OBJTYPE_BDEV             6
#define HAMMER_OBJTYPE_SOFTLINK         7
#define HAMMER_OBJTYPE_PSEUDOFS         8       /* pseudo filesystem obj */
#define HAMMER_OBJTYPE_SOCKET           9

/*
 * HAMMER inode attribute data
 *
 * The data reference for a HAMMER inode points to this structure.  Any
 * modifications to the contents of this structure will result in a
 * replacement operation.
 *
 * parent_obj_id is only valid for directories (which cannot be hard-linked),
 * and specifies the parent directory obj_id.  This field will also be set
 * for non-directory inodes as a recovery aid, but can wind up holding
 * stale information.  However, since object id's are not reused, the worse
 * that happens is that the recovery code is unable to use it.
 * A parent_obj_id of 0 means it's a root inode of root or non-root PFS.
 *
 * NOTE: Future note on directory hardlinks.  We can implement a record type
 * which allows us to point to multiple parent directories.
 */
typedef struct hammer_inode_data {
        uint16_t version;       /* inode data version */
        uint16_t mode;          /* basic unix permissions */
        uint32_t uflags;        /* chflags */
        uint32_t rmajor;        /* used by device nodes */
        uint32_t rminor;        /* used by device nodes */
        uint64_t ctime;
        int64_t parent_obj_id;  /* parent directory obj_id */
        hammer_uuid_t uid;
        hammer_uuid_t gid;

        uint8_t obj_type;
        uint8_t cap_flags;      /* capability support flags (extension) */
        uint16_t reserved01;
        uint32_t reserved02;
        uint64_t nlinks;        /* hard links */
        uint64_t size;          /* filesystem object size */
        union {
                char    symlink[24];    /* HAMMER_INODE_BASESYMLEN */
        } ext;
        uint64_t mtime; /* mtime must be second-to-last */
        uint64_t atime; /* atime must be last */
} *hammer_inode_data_t;

/*
 * Neither mtime nor atime upates are CRCd by the B-Tree element.
 * mtime updates have UNDO, atime updates do not.
 */
#define HAMMER_INODE_CRCSIZE    \
        offsetof(struct hammer_inode_data, mtime)

#define HAMMER_INODE_DATA_VERSION       1
#define HAMMER_OBJID_ROOT               1       /* root inodes # */
#define HAMMER_INODE_BASESYMLEN         24      /* see ext.symlink */

/*
 * Capability & implementation flags.
 *
 * HAMMER_INODE_CAP_DIR_LOCAL_INO - Use inode B-Tree localization
 * for directory entries.  Also see HAMMER_DIR_INODE_LOCALIZATION().
 */
#define HAMMER_INODE_CAP_DIRHASH_MASK   0x03    /* directory: hash algorithm */
#define HAMMER_INODE_CAP_DIRHASH_ALG0   0x00
#define HAMMER_INODE_CAP_DIRHASH_ALG1   0x01
#define HAMMER_INODE_CAP_DIRHASH_ALG2   0x02
#define HAMMER_INODE_CAP_DIRHASH_ALG3   0x03
#define HAMMER_INODE_CAP_DIR_LOCAL_INO  0x04    /* use inode localization */

#define HAMMER_DATA_DOALIGN(offset)                             \
        (((offset) + 15) & ~15)
#define HAMMER_DATA_DOALIGN_WITH(type, offset)                  \
        (((type)(offset) + 15) & (~(type)15))

/*
 * A HAMMER directory entry associates a HAMMER filesystem object with a
 * namespace.  It is hooked into a pseudo-filesystem (with its own inode
 * numbering space) in the filesystem by setting the high 16 bits of the
 * localization field.  The low 16 bits must be 0 and are reserved for
 * future use.
 *
 * Directory entries are indexed with a 128 bit namekey rather then an
 * offset.  A portion of the namekey is an iterator/randomizer to deal
 * with collisions.
 *
 * NOTE: leaf.base.obj_type from the related B-Tree leaf entry holds
 * the filesystem object type of obj_id, e.g. a den_type equivalent.
 * It is not stored in hammer_direntry_data.
 *
 * NOTE: name field / the filename data reference is NOT terminated with \0.
 */
typedef struct hammer_direntry_data {
        int64_t obj_id;                 /* object being referenced */
        uint32_t localization;          /* identify pseudo-filesystem */
        uint32_t reserved01;
        char    name[16];               /* name (extended) */
} *hammer_direntry_data_t;

#define HAMMER_ENTRY_NAME_OFF   offsetof(struct hammer_direntry_data, name[0])
#define HAMMER_ENTRY_SIZE(nlen) offsetof(struct hammer_direntry_data, name[nlen])

/*
 * Symlink data which does not fit in the inode is stored in a separate
 * FIX type record.
 */
typedef struct hammer_symlink_data {
        char    name[16];               /* name (extended) */
} *hammer_symlink_data_t;

#define HAMMER_SYMLINK_NAME_OFF offsetof(struct hammer_symlink_data, name[0])

/*
 * The root inode for the primary filesystem and root inode for any
 * pseudo-fs may be tagged with an optional data structure using
 * HAMMER_RECTYPE_PFS and localization id.  This structure allows
 * the node to be used as a mirroring master or slave.
 *
 * When operating as a slave CD's into the node automatically become read-only
 * and as-of sync_end_tid.
 *
 * When operating as a master the read PFSD info sets sync_end_tid to
 * the most recently flushed TID.
 *
 * sync_low_tid is not yet used but will represent the highest pruning
 * end-point, after which full history is available.
 *
 * We need to pack this structure making it equally sized on both 32-bit and
 * 64-bit machines as it is part of struct hammer_ioc_mrecord_pfs which is
 * send over the wire in hammer mirror operations. Only on 64-bit machines
 * the size of this struct differ when packed or not. This leads us to the
 * situation where old 64-bit systems (using the non-packed structure),
 * which were never able to mirror to/from 32-bit systems, are now no longer
 * able to mirror to/from newer 64-bit systems (using the packed structure).
 */
struct hammer_pseudofs_data {
        hammer_tid_t    sync_low_tid;   /* full history beyond this point */
        hammer_tid_t    sync_beg_tid;   /* earliest tid w/ full history avail */
        hammer_tid_t    sync_end_tid;   /* current synchronizatoin point */
        uint64_t        sync_beg_ts;    /* real-time of last completed sync */
        uint64_t        sync_end_ts;    /* initiation of current sync cycle */
        hammer_uuid_t   shared_uuid;    /* shared uuid (match required) */
        hammer_uuid_t   unique_uuid;    /* unique uuid of this master/slave */
        int32_t         reserved01;     /* reserved for future master_id */
        int32_t         mirror_flags;   /* misc flags */
        char            label[64];      /* filesystem space label */
        char            snapshots[64];  /* softlink dir for pruning */
        int32_t         reserved02;     /* was prune_{time,freq} */
        int32_t         reserved03;     /* was reblock_{time,freq} */
        int32_t         reserved04;     /* was snapshot_freq */
        int32_t         prune_min;      /* do not prune recent history */
        int32_t         prune_max;      /* do not retain history beyond here */
        int32_t         reserved[16];
} __packed;

typedef struct hammer_pseudofs_data *hammer_pseudofs_data_t;

#define HAMMER_PFSD_SLAVE       0x00000001
#define HAMMER_PFSD_DELETED     0x80000000

#define hammer_is_pfs_slave(pfsd)                       \
        (((pfsd)->mirror_flags & HAMMER_PFSD_SLAVE) != 0)
#define hammer_is_pfs_master(pfsd)                      \
        (!hammer_is_pfs_slave(pfsd))
#define hammer_is_pfs_deleted(pfsd)                     \
        (((pfsd)->mirror_flags & HAMMER_PFSD_DELETED) != 0)

#define HAMMER_MAX_PFS          65536
#define HAMMER_MAX_PFSID        (HAMMER_MAX_PFS - 1)
#define HAMMER_ROOT_PFSID       0

/*
 * Snapshot meta-data { Objid = HAMMER_OBJID_ROOT, Key = tid, rectype = SNAPSHOT }.
 *
 * Snapshot records replace the old <fs>/snapshots/<softlink> methodology.  Snapshot
 * records are mirrored but may be independantly managed once they are laid down on
 * a slave.
 *
 * NOTE: The b-tree key is signed, the tid is not, so callers must still sort the
 *       results.
 *
 * NOTE: Reserved fields must be zero (as usual)
 */
typedef struct hammer_snapshot_data {
        hammer_tid_t    tid;            /* the snapshot TID itself (== key) */
        uint64_t        ts;             /* real-time when snapshot was made */
        uint64_t        reserved01;
        uint64_t        reserved02;
        char            label[64];      /* user-supplied description */
        uint64_t        reserved03[4];
} *hammer_snapshot_data_t;

/*
 * Config meta-data { ObjId = HAMMER_OBJID_ROOT, Key = 0, rectype = CONFIG }.
 *
 * Used to store the hammer cleanup config.  This data is not mirrored.
 */
typedef struct hammer_config_data {
        char            text[1024];
} *hammer_config_data_t;

/*
 * Rollup various structures embedded as record data
 */
typedef union hammer_data_ondisk {
        struct hammer_direntry_data entry;
        struct hammer_inode_data inode;
        struct hammer_symlink_data symlink;
        struct hammer_pseudofs_data pfsd;
        struct hammer_snapshot_data snap;
        struct hammer_config_data config;
} *hammer_data_ondisk_t;

/*
 * Ondisk layout of B-Tree related structures
 */
#if 0    /* Not needed for fstype(8) */
#include "hammer_btree.h"
#endif

#define HAMMER_DIR_INODE_LOCALIZATION(ino_data)                         \
        (((ino_data)->cap_flags & HAMMER_INODE_CAP_DIR_LOCAL_INO) ?     \
         HAMMER_LOCALIZE_INODE :                                        \
         HAMMER_LOCALIZE_MISC)

#endif /* !VFS_HAMMER_DISK_H_ */