xref: /dragonfly/sys/vfs/hammer/hammer_disk.h (revision ce0e08e2)

/*
 * 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 $
 */

#ifndef VFS_HAMMER_DISK_H_
#define VFS_HAMMER_DISK_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.  The host endian format is used - compatibility is possible
 * if the implementation detects reversed endian and adjusts data accordingly.
 *
 * 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.  Most buffer-sized headers such as those
 * used by volumes, super-clusters, clusters, and basic filesystem buffers
 * use fixed-sized A-lists which are heavily dependant on HAMMER_BUFSIZE.
 *
 * 64K X-bufs are used for blocks >= a file's 1MB mark.
 *
 * Per-volume storage limit: 52 bits		4096 TB
 * Per-Zone storage limit: 59 bits		512 KTB (due to blockmap)
 * Per-filesystem storage limit: 60 bits	1 MTB
 */
#define HAMMER_BUFSIZE		16384
#define HAMMER_XBUFSIZE		65536
#define HAMMER_XDEMARC		(1024 * 1024)
#define HAMMER_BUFMASK		(HAMMER_BUFSIZE - 1)
#define HAMMER_XBUFMASK		(HAMMER_XBUFSIZE - 1)
#define HAMMER_BUFFER_BITS	14

#if (1 << HAMMER_BUFFER_BITS) != HAMMER_BUFSIZE
#error "HAMMER_BUFFER_BITS BROKEN"
#endif

#define HAMMER_BUFSIZE64	((u_int64_t)HAMMER_BUFSIZE)
#define HAMMER_BUFMASK64	((u_int64_t)HAMMER_BUFMASK)

#define HAMMER_XBUFSIZE64	((u_int64_t)HAMMER_XBUFSIZE)
#define HAMMER_XBUFMASK64	((u_int64_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_SHORT_REC_MASK 0x000FFFFFFF000000ULL /* recovery boundary */
#define HAMMER_OFF_LONG_REC_MASK 0x0FFFFFFFFF000000ULL /* recovery boundary */
#define HAMMER_RECOVERY_BND	0x0000000001000000ULL

/*
 * Hammer transction 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 64-byte aligned.
 */
typedef u_int64_t hammer_tid_t;
typedef u_int64_t hammer_off_t;
typedef u_int32_t hammer_seq_t;
typedef u_int32_t hammer_crc_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 0:		reserved for sanity
 * 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 fifo	- actually fixed phys array in vol hdr
 * 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):	Record		- actually zone-2 address
 * zone 10 (z,v,o):	Large-data	- actually zone-2 address
 * zone 15:		reserved for sanity
 */

#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
#define HAMMER_ZONE_RESERVED06		0x6000000000000000ULL
#define HAMMER_ZONE_RESERVED07		0x7000000000000000ULL
#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
#define HAMMER_ZONE_RESERVED0D		0xD000000000000000ULL
#define HAMMER_ZONE_RESERVED0E		0xE000000000000000ULL
#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	/* unavailable */

#define HAMMER_MAX_ZONES		16

#define HAMMER_VOL_ENCODE(vol_no)			\
	((hammer_off_t)((vol_no) & 255) << 52)
#define HAMMER_VOL_DECODE(ham_off)			\
	(int32_t)(((hammer_off_t)(ham_off) >> 52) & 255)
#define HAMMER_ZONE_DECODE(ham_off)			\
	(int32_t)(((hammer_off_t)(ham_off) >> 60))
#define HAMMER_ZONE_ENCODE(zone, ham_off)		\
	(((hammer_off_t)(zone) << 60) | (ham_off))
#define HAMMER_SHORT_OFF_ENCODE(offset)			\
	((hammer_off_t)(offset) & HAMMER_OFF_SHORT_MASK)
#define HAMMER_LONG_OFF_ENCODE(offset)			\
	((hammer_off_t)(offset) & HAMMER_OFF_LONG_MASK)

#define HAMMER_ENCODE_RAW_VOLUME(vol_no, offset)	\
	(HAMMER_ZONE_RAW_VOLUME |			\
	HAMMER_VOL_ENCODE(vol_no) |			\
	HAMMER_SHORT_OFF_ENCODE(offset))

#define HAMMER_ENCODE_RAW_BUFFER(vol_no, offset)	\
	(HAMMER_ZONE_RAW_BUFFER |			\
	HAMMER_VOL_ENCODE(vol_no) |			\
	HAMMER_SHORT_OFF_ENCODE(offset))

#define HAMMER_ENCODE_FREEMAP(vol_no, offset)		\
	(HAMMER_ZONE_FREEMAP |				\
	HAMMER_VOL_ENCODE(vol_no) |			\
	HAMMER_SHORT_OFF_ENCODE(offset))

/*
 * Large-Block backing store
 *
 * A blockmap is a two-level map which translates a blockmap-backed zone
 * offset into a raw zone 2 offset.  Each layer handles 18 bits.  The 8M
 * large-block size is 23 bits so two layers gives us 23+18+18 = 59 bits
 * of address space.
 */
#define HAMMER_LARGEBLOCK_SIZE		(8192 * 1024)
#define HAMMER_LARGEBLOCK_SIZE64	((u_int64_t)HAMMER_LARGEBLOCK_SIZE)
#define HAMMER_LARGEBLOCK_MASK		(HAMMER_LARGEBLOCK_SIZE - 1)
#define HAMMER_LARGEBLOCK_MASK64	((u_int64_t)HAMMER_LARGEBLOCK_SIZE - 1)
#define HAMMER_LARGEBLOCK_BITS		23
#if (1 << HAMMER_LARGEBLOCK_BITS) != HAMMER_LARGEBLOCK_SIZE
#error "HAMMER_LARGEBLOCK_BITS BROKEN"
#endif

#define HAMMER_BUFFERS_PER_LARGEBLOCK			\
	(HAMMER_LARGEBLOCK_SIZE / HAMMER_BUFSIZE)
#define HAMMER_BUFFERS_PER_LARGEBLOCK_MASK		\
	(HAMMER_BUFFERS_PER_LARGEBLOCK - 1)
#define HAMMER_BUFFERS_PER_LARGEBLOCK_MASK64		\
	((hammer_off_t)HAMMER_BUFFERS_PER_LARGEBLOCK_MASK)

/*
 * Maximum number of mirrors operating in master mode (multi-master
 * clustering and mirroring).
 */
#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 free-map.
 *
 * zone:1	raw volume (no blockmap)
 * zone:2	raw buffer (no blockmap)
 * zone:3	undo-map   (direct layer2 array in volume header)
 * zone:4	free-map   (the only real blockmap)
 * zone:8-15	zone id used to classify big-block only, address is actually
 *		a zone-2 address.
 */
struct hammer_blockmap {
	hammer_off_t	phys_offset;    /* zone-2 physical offset */
	hammer_off_t	first_offset;	/* zone-X logical offset (zone 3) */
	hammer_off_t	next_offset;	/* zone-X logical offset */
	hammer_off_t	alloc_offset;	/* zone-X logical offset */
	u_int32_t	reserved01;
	hammer_crc_t	entry_crc;
};

typedef struct hammer_blockmap *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: [z:4][layer1:18][layer2:19][bigblock:23]
 */
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*/
};

typedef struct hammer_blockmap_layer1 *hammer_blockmap_layer1_t;

#define HAMMER_LAYER1_CRCSIZE	\
	offsetof(struct hammer_blockmap_layer1, layer1_crc)

struct hammer_blockmap_layer2 {
	u_int8_t	zone;		/* typed allocation zone */
	u_int8_t	unused01;
	u_int16_t	unused02;
	u_int32_t	append_off;	/* allocatable space index */
	u_int32_t	bytes_free;	/* bytes free within this bigblock */
	hammer_crc_t	entry_crc;
};

typedef struct hammer_blockmap_layer2 *hammer_blockmap_layer2_t;

#define HAMMER_LAYER2_CRCSIZE	\
	offsetof(struct hammer_blockmap_layer2, entry_crc)

#define HAMMER_BLOCKMAP_FREE	0ULL
#define HAMMER_BLOCKMAP_UNAVAIL	((hammer_off_t)-1LL)

#define HAMMER_BLOCKMAP_RADIX1	/* 262144 (18) */	\
	(HAMMER_LARGEBLOCK_SIZE / sizeof(struct hammer_blockmap_layer1))
#define HAMMER_BLOCKMAP_RADIX2	/* 524288 (19) */	\
	(HAMMER_LARGEBLOCK_SIZE / sizeof(struct hammer_blockmap_layer2))

#define HAMMER_BLOCKMAP_RADIX1_PERBUFFER	\
	(HAMMER_BLOCKMAP_RADIX1 / (HAMMER_LARGEBLOCK_SIZE / HAMMER_BUFSIZE))
#define HAMMER_BLOCKMAP_RADIX2_PERBUFFER	\
	(HAMMER_BLOCKMAP_RADIX2 / (HAMMER_LARGEBLOCK_SIZE / HAMMER_BUFSIZE))

#define HAMMER_BLOCKMAP_LAYER1	/* 18+19+23 */		\
	(HAMMER_BLOCKMAP_RADIX1 * HAMMER_BLOCKMAP_LAYER2)
#define HAMMER_BLOCKMAP_LAYER2	/* 19+23 - 4TB */		\
	(HAMMER_BLOCKMAP_RADIX2 * HAMMER_LARGEBLOCK_SIZE64)

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

/*
 * byte offset within layer1 or layer2 big-block for the entry representing
 * a zone-2 physical offset.
 */
#define HAMMER_BLOCKMAP_LAYER1_OFFSET(zone2_offset)	\
	(((zone2_offset) & HAMMER_BLOCKMAP_LAYER1_MASK) / 	\
	 HAMMER_BLOCKMAP_LAYER2 * sizeof(struct hammer_blockmap_layer1))

#define HAMMER_BLOCKMAP_LAYER2_OFFSET(zone2_offset)	\
	(((zone2_offset) & HAMMER_BLOCKMAP_LAYER2_MASK) /	\
	HAMMER_LARGEBLOCK_SIZE64 * sizeof(struct hammer_blockmap_layer2))

/*
 * HAMMER UNDO parameters.  The UNDO fifo is mapped directly in the volume
 * header with an array of layer2 structures.  A maximum of (128x8MB) = 1GB
 * may be reserved.  The size of the undo fifo is usually set a newfs time
 * but can be adjusted if the filesystem is taken offline.
 */

#define HAMMER_UNDO_LAYER2	128	/* max layer2 undo mapping entries */

/*
 * 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.
 */
#define HAMMER_HEAD_ONDISK_SIZE		32
#define HAMMER_HEAD_ALIGN		8
#define HAMMER_HEAD_ALIGN_MASK		(HAMMER_HEAD_ALIGN - 1)
#define HAMMER_TAIL_ONDISK_SIZE		8
#define HAMMER_HEAD_DOALIGN(bytes)	\
	(((bytes) + HAMMER_HEAD_ALIGN_MASK) & ~HAMMER_HEAD_ALIGN_MASK)

struct hammer_fifo_head {
	u_int16_t hdr_signature;
	u_int16_t hdr_type;
	u_int32_t hdr_size;	/* aligned size of the whole mess */
	u_int32_t reserved01;	/* (0) reserved for future use */
	hammer_crc_t hdr_crc;	/* XOR crc up to field w/ crc after field */
};

#define HAMMER_FIFO_HEAD_CRCOFF	offsetof(struct hammer_fifo_head, hdr_crc)

struct hammer_fifo_tail {
	u_int16_t tail_signature;
	u_int16_t tail_type;
	u_int32_t tail_size;	/* aligned size of the whole mess */
};

typedef struct hammer_fifo_head *hammer_fifo_head_t;
typedef struct hammer_fifo_tail *hammer_fifo_tail_t;

/*
 * Fifo header types.
 */
#define HAMMER_HEAD_TYPE_PAD	(0x0040U|HAMMER_HEAD_FLAG_FREE)
#define HAMMER_HEAD_TYPE_VOL	0x0041U		/* Volume (dummy header) */
#define HAMMER_HEAD_TYPE_BTREE	0x0042U		/* B-Tree node */
#define HAMMER_HEAD_TYPE_UNDO	0x0043U		/* random UNDO information */
#define HAMMER_HEAD_TYPE_DELETE	0x0044U		/* record deletion */
#define HAMMER_HEAD_TYPE_RECORD	0x0045U		/* Filesystem record */

#define HAMMER_HEAD_FLAG_FREE	0x8000U		/* Indicates object freed */

#define HAMMER_HEAD_SIGNATURE	0xC84EU
#define HAMMER_TAIL_SIGNATURE	0xC74FU

#define HAMMER_HEAD_SEQ_BEG	0x80000000U
#define HAMMER_HEAD_SEQ_END	0x40000000U
#define HAMMER_HEAD_SEQ_MASK	0x3FFFFFFFU

/*
 * Misc FIFO structures.
 */
struct hammer_fifo_undo {
	struct hammer_fifo_head	head;
	hammer_off_t		undo_offset;	/* zone-1 offset */
	int32_t			undo_data_bytes;
	int32_t			undo_reserved01;
	/* followed by data */
};

typedef struct hammer_fifo_undo *hammer_fifo_undo_t;

struct hammer_fifo_buf_commit {
	hammer_off_t		undo_offset;
};

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

/*
 * The B-Tree structures need hammer_fsbuf_head.
 */
#include "hammer_btree.h"

/*
 * HAMMER Volume header
 *
 * A HAMMER filesystem is built from any number of 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 master, the
 * rest are slaves.  It does not have to be volume #0.
 *
 * The volume header takes up an entire 16K filesystem buffer and may
 * represent up to 64KTB (65536 TB) of space.
 *
 * Special field notes:
 *
 *	vol_bot_beg - offset of boot area (mem_beg - bot_beg bytes)
 *	vol_mem_beg - offset of memory log (clu_beg - mem_beg bytes)
 *	vol_buf_beg - offset of the first buffer.
 *
 *	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.
 */

#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)

struct hammer_volume_ondisk {
	u_int64_t vol_signature;/* Signature */

	int64_t vol_bot_beg;	/* byte offset of boot area or 0 */
	int64_t vol_mem_beg;	/* byte offset of memory log or 0 */
	int64_t vol_buf_beg;	/* byte offset of first buffer in volume */
	int64_t vol_buf_end;	/* byte offset of volume EOF (on buf bndry) */
	int64_t vol_locked;	/* reserved clusters are >= this offset */

	uuid_t    vol_fsid;	/* identify filesystem */
	uuid_t    vol_fstype;	/* identify filesystem type */
	char	  vol_name[64];	/* Name of volume */

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

	u_int32_t vol_version;	/* version control information */
	hammer_crc_t vol_crc;	/* header crc */
	u_int32_t vol_flags;	/* volume flags */
	u_int32_t vol_rootvol;	/* which volume is the root volume? */

	int32_t vol_reserved04;
	int32_t vol_reserved05;
	u_int32_t vol_reserved06;
	u_int32_t vol_reserved07;

	int32_t vol_blocksize;		/* for statfs only */
	int32_t vol_reserved08;
	int64_t vol_nblocks;		/* total allocatable hammer bufs */

	/*
	 * These fields are initialized and space is reserved in every
	 * volume making up a HAMMER filesytem, but only the master volume
	 * contains valid data.
	 */
	int64_t vol0_stat_bigblocks;	/* total bigblocks when fs is empty */
	int64_t vol0_stat_freebigblocks;/* number of free bigblocks */
	int64_t	vol0_stat_bytes;	/* for statfs only */
	int64_t vol0_stat_inodes;	/* for statfs only */
	int64_t vol0_stat_records;	/* total records in filesystem */
	hammer_off_t vol0_btree_root;	/* B-Tree root */
	hammer_tid_t vol0_next_tid;	/* highest partially synchronized TID */
	hammer_off_t vol0_unused03;

	/*
	 * 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_UNDO_LAYER2];

};

typedef struct hammer_volume_ondisk *hammer_volume_ondisk_t;

#define HAMMER_VOLF_VALID		0x0001	/* valid entry */
#define HAMMER_VOLF_OPEN		0x0002	/* volume is open */
#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	1	/* newfs default version */
#define HAMMER_VOL_VERSION_WIP		2	/* version >= this is WIP */
#define HAMMER_VOL_VERSION_MAX		2	/* maximum supported version */

#define HAMMER_VOL_VERSION_ONE		1
#define HAMMER_VOL_VERSION_TWO		2
/*
 * Record types are fairly straightforward.  The B-Tree includes the record
 * type in its index sort.
 */
#define HAMMER_RECTYPE_UNKNOWN		0
#define HAMMER_RECTYPE_LOWEST		1	/* lowest record type avail */
#define HAMMER_RECTYPE_INODE		1	/* inode in obj_id space */
#define HAMMER_RECTYPE_UNUSED02		2
#define HAMMER_RECTYPE_UNUSED03		3
#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_MOVED		0x8000	/* special recovery flag */
#define HAMMER_RECTYPE_MAX		0xFFFF

#define HAMMER_RECTYPE_CLEAN_START	HAMMER_RECTYPE_EXT

#define HAMMER_FIXKEY_SYMLINK		1

#define HAMMER_OBJTYPE_UNKNOWN		0	/* (never exists on-disk) */
#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.
 *
 * NOTE: Future note on directory hardlinks.  We can implement a record type
 * which allows us to point to multiple parent directories.
 *
 * NOTE: atime is stored in the inode's B-Tree element and not in the inode
 * data.  This allows the atime to be updated without having to lay down a
 * new record.
 */
struct hammer_inode_data {
	u_int16_t version;	/* inode data version */
	u_int16_t mode;		/* basic unix permissions */
	u_int32_t uflags;	/* chflags */
	u_int32_t rmajor;	/* used by device nodes */
	u_int32_t rminor;	/* used by device nodes */
	u_int64_t ctime;
	int64_t parent_obj_id;	/* parent directory obj_id */
	uuid_t	  uid;
	uuid_t	  gid;

	u_int8_t  obj_type;
	u_int8_t  cap_flags;	/* capability support flags (extension) */
	u_int16_t reserved02;
	u_int32_t reserved03;	/* RESERVED FOR POSSIBLE FUTURE BIRTHTIME */
	u_int64_t nlinks;	/* hard links */
	u_int64_t size;		/* filesystem object size */
	union {
		struct {
			char	reserved06[16];
			u_int32_t parent_obj_localization;
			u_int32_t integrity_crc;
		} obj;
		char	symlink[24];	/* HAMMER_INODE_BASESYMLEN */
	} ext;
	u_int64_t mtime;	/* mtime must be second-to-last */
	u_int64_t atime;	/* atime must be last */
};

/*
 * Neither mtime nor atime upates are CRCd by the B-Tree element.
 * mtime updates have UNDO, atime updates do not.
 */
#define HAMMER_ITIMES_BASE(ino_data)	(&(ino_data)->mtime)
#define HAMMER_ITIMES_BYTES		(sizeof(u_int64_t) * 2)

#define HAMMER_INODE_CRCSIZE	\
	offsetof(struct hammer_inode_data, mtime)

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

/*
 * Capability & implementation flags.
 */
#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

/*
 * A HAMMER directory entry associates a HAMMER filesystem object with a
 * namespace.  It is possible to hook 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: base.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_entry_data.
 *
 * NOTE: den_name / the filename data reference is NOT terminated with \0.
 */
struct hammer_entry_data {
	int64_t obj_id;			/* object being referenced */
	u_int32_t localization;		/* identify pseudo-filesystem */
	u_int32_t reserved02;
	char	name[16];		/* name (extended) */
};

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

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

#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_FIX/HAMMER_FIXKEY_PSEUDOFS.  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.
 */
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 */
	u_int64_t	sync_beg_ts;	/* real-time of last completed sync */
	u_int64_t	sync_end_ts;	/* initiation of current sync cycle */
	uuid_t		shared_uuid;	/* shared uuid (match required) */
	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 */
	int16_t		prune_time;	/* how long to spend pruning */
	int16_t		prune_freq;	/* how often we prune */
	int16_t		reblock_time;	/* how long to spend reblocking */
	int16_t		reblock_freq;	/* how often we reblock */
	int32_t		snapshot_freq;	/* how often we create a snapshot */
	int32_t		prune_min;	/* do not prune recent history */
	int32_t		prune_max;	/* do not retain history beyond here */
	int32_t		reserved[16];
};

typedef struct hammer_pseudofs_data *hammer_pseudofs_data_t;

#define HAMMER_PFSD_SLAVE	0x00000001
#define HAMMER_PFSD_DELETED	0x80000000

/*
 * Rollup various structures embedded as record data
 */
union hammer_data_ondisk {
	struct hammer_entry_data entry;
	struct hammer_inode_data inode;
	struct hammer_symlink_data symlink;
	struct hammer_pseudofs_data pfsd;
};

typedef union hammer_data_ondisk *hammer_data_ondisk_t;

#endif