freebsd-skq/sys/dev/vinum/vinumvar.h
Greg Lehey a13f3fcca5 struct plex: Add variables checkblock and rebuildblock to keep track
of parity check and rebuild operations.  This enables us
             to stop the operation and restart at a later time.

enum parityop: Trivial enum to decide what parityops() is going to do.
1999-09-28 22:58:07 +00:00

639 lines
25 KiB
C

/*-
* Copyright (c) 1997, 1998, 1999
* Nan Yang Computer Services Limited. All rights reserved.
*
* Parts copyright (c) 1997, 1998 Cybernet Corporation, NetMAX project.
*
* Written by Greg Lehey
*
* This software is distributed under the so-called ``Berkeley
* License'':
*
* 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. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Nan Yang Computer
* Services Limited.
* 4. Neither the name of the Company 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 ``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 company 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.
*
* $FreeBSD$
*/
#include <sys/time.h>
#include <dev/vinum/vinumstate.h>
/*
* Some configuration maxima. They're an enum because
* we can't define global constants. Sorry about that.
*
* These aren't as bad as they look: most of them are soft limits.
*/
enum constants {
VINUM_HEADER = 512, /* size of header on disk */
MAXCONFIGLINE = 1024, /* maximum size of a single config line */
MINVINUMSLICE = 1048576, /* minimum size of a slice */
CDEV_MAJOR = 91, /* major number for character device */
BDEV_MAJOR = 25, /* and block device */
ROUND_ROBIN_READPOL = -1, /* round robin read policy */
/* type field in minor number */
VINUM_VOLUME_TYPE = 0,
VINUM_PLEX_TYPE = 1,
VINUM_SD_TYPE = 2,
VINUM_DRIVE_TYPE = 3,
VINUM_SUPERDEV_TYPE = 4, /* super device. */
VINUM_RAWPLEX_TYPE = 5, /* anonymous plex */
VINUM_RAWSD_TYPE = 6, /* anonymous subdisk */
/* Shifts for the individual fields in the device */
VINUM_TYPE_SHIFT = 28,
VINUM_VOL_SHIFT = 0,
VINUM_PLEX_SHIFT = 16,
VINUM_SD_SHIFT = 20,
VINUM_VOL_WIDTH = 8,
VINUM_PLEX_WIDTH = 3,
VINUM_SD_WIDTH = 8,
/*
* Shifts for the second half of raw plex and
* subdisk numbers
*/
VINUM_RAWPLEX_SHIFT = 8, /* shift the second half this much */
VINUM_RAWPLEX_WIDTH = 12, /* width of second half */
MAJORDEV_SHIFT = 8,
MAXPLEX = 8, /* maximum number of plexes in a volume */
MAXSD = 256, /* maximum number of subdisks in a plex */
MAXDRIVENAME = 32, /* maximum length of a device name */
MAXSDNAME = 64, /* maximum length of a subdisk name */
MAXPLEXNAME = 64, /* maximum length of a plex name */
MAXVOLNAME = 64, /* maximum length of a volume name */
MAXNAME = 64, /* maximum length of any name */
/*
* Define a minor device number.
* This is not used directly; instead, it's
* called by the other macros.
*/
#define VINUMMINOR(v,p,s,t) ( (v << VINUM_VOL_SHIFT) \
| (p << VINUM_PLEX_SHIFT) \
| (s << VINUM_SD_SHIFT) \
| (t << VINUM_TYPE_SHIFT) )
/* Create block and character device minor numbers */
#define VINUMBDEV(v,p,s,t) makedev (BDEV_MAJOR, VINUMMINOR (v, p, s, t))
#define VINUMCDEV(v,p,s,t) makedev (CDEV_MAJOR, VINUMMINOR (v, p, s, t))
#define VINUM_BLOCK_PLEX(p) makedev (BDEV_MAJOR, \
(VINUM_RAWPLEX_TYPE << VINUM_TYPE_SHIFT) \
| (p & 0xff) \
| ((p & ~0xff) << 8) )
#define VINUM_CHAR_PLEX(p) makedev (CDEV_MAJOR, \
(VINUM_RAWPLEX_TYPE << VINUM_TYPE_SHIFT) \
| (p & 0xff) \
| ((p & ~0xff) << 8) )
#define VINUM_BLOCK_SD(s) makedev (BDEV_MAJOR, \
(VINUM_RAWSD_TYPE << VINUM_TYPE_SHIFT) \
| (s & 0xff) \
| ((s & ~0xff) << 8) )
#define VINUM_CHAR_SD(s) makedev (CDEV_MAJOR, \
(VINUM_RAWSD_TYPE << VINUM_TYPE_SHIFT) \
| (s & 0xff) \
| ((s & ~0xff) << 8) )
/* Create a bit mask for x bits */
#define MASK(x) ((1 << (x)) - 1)
/* Create a raw block device minor number */
#define VINUMRMINOR(d,t) ( ((d & MASK (VINUM_VOL_WIDTH)) << VINUM_VOL_SHIFT) \
| ((d & ~MASK (VINUM_VOL_WIDTH)) \
<< (VINUM_PLEX_SHIFT + VINUM_VOL_WIDTH)) \
| (t << VINUM_TYPE_SHIFT) )
#define VINUMRBDEV(d,t) makedev (BDEV_MAJOR, VINUMRMINOR (d, t))
/* extract device type */
#define DEVTYPE(x) ((minor (x) >> VINUM_TYPE_SHIFT) & 7)
/*
* This mess is used to catch people who compile
* a debug vinum(8) and non-debug kernel module,
* or the other way round.
*/
#ifdef VINUMDEBUG
#define VINUM_SUPERDEV VINUMMINOR (1, 0, 0, VINUM_SUPERDEV_TYPE) /* superdevice number */
#define VINUM_WRONGSUPERDEV VINUMMINOR (2, 0, 0, VINUM_SUPERDEV_TYPE) /* non-debug superdevice number */
#else
#define VINUM_SUPERDEV VINUMMINOR (2, 0, 0, VINUM_SUPERDEV_TYPE) /* superdevice number */
#define VINUM_WRONGSUPERDEV VINUMMINOR (1, 0, 0, VINUM_SUPERDEV_TYPE) /* debug superdevice number */
#endif
#define VINUM_DAEMON_DEV VINUMMINOR (0, 0, 0, VINUM_SUPERDEV_TYPE) /* daemon superdevice number */
/*
* the number of object entries to cater for initially, and also the
* value by which they are incremented. It doesn't take long
* to extend them, so theoretically we could start with 1 of each, but
* it's untidy to allocate such small areas. These values are
* probably too small.
*/
INITIAL_DRIVES = 4,
INITIAL_VOLUMES = 4,
INITIAL_PLEXES = 8,
INITIAL_SUBDISKS = 16,
INITIAL_SUBDISKS_IN_PLEX = 4, /* number of subdisks to allocate to a plex */
INITIAL_SUBDISKS_IN_DRIVE = 4, /* number of subdisks to allocate to a drive */
INITIAL_DRIVE_FREELIST = 16, /* number of entries in drive freelist */
PLEX_REGION_TABLE_SIZE = 8, /* number of entries in plex region tables */
INITIAL_LOCKS = 64, /* number of locks to allocate to a plex */
DEFAULT_REVIVE_BLOCKSIZE = 65536, /* size of block to transfer in one op */
VINUMHOSTNAMELEN = 32, /* host name field in label */
};
/* device numbers */
/*
* 31 30 28 27 20 19 18 16 15 8 7 0
* |-----------------------------------------------------------------------------------------------|
* |X | Type | Subdisk number | X| Plex | Major number | volume number |
* |-----------------------------------------------------------------------------------------------|
*
* 0x2 03 1 19 06
*
* The fields in the minor number are interpreted as follows:
*
* Volume: Only type and volume number are relevant
* Plex in volume: type, plex number in volume and volume number are relevant
* raw plex: type, plex number is made of bits 27-16 and 7-0
* raw subdisk: type, subdisk number is made of bits 27-16 and 7-0
*/
/* This doesn't get used. Consider removing it. */
struct devcode {
/*
* CARE. These fields assume a big-endian word. On a
* little-endian system, they're the wrong way around
*/
unsigned volume:8; /* up to 256 volumes */
unsigned major:8; /* this is where the major number fits */
unsigned plex:3; /* up to 8 plexes per volume */
unsigned unused:1; /* up for grabs */
unsigned sd:8; /* up to 256 subdisks per plex */
unsigned type:3; /* type of object */
/*
* type field
VINUM_VOLUME = 0,
VINUM_PLEX = 1,
VINUM_SUBDISK = 2,
VINUM_DRIVE = 3,
VINUM_SUPERDEV = 4,
VINUM_RAWPLEX = 5,
VINUM_RAWSD = 6 */
unsigned signbit:1; /* to make 32 bits */
};
#define VINUM_DIR "/dev/vinum"
#define VINUM_RDIR "/dev/rvinum"
/*
* These definitions help catch
* userland/kernel mismatches.
*/
#if VINUMDEBUG
#define VINUM_WRONGSUPERDEV_NAME VINUM_DIR"/control" /* normal super device */
#define VINUM_SUPERDEV_NAME VINUM_DIR"/Control" /* debug super device */
#else
#define VINUM_WRONGSUPERDEV_NAME VINUM_DIR"/Control" /* debug super device */
#define VINUM_SUPERDEV_NAME VINUM_DIR"/control" /* normal super device */
#endif
#define VINUM_DAEMON_DEV_NAME VINUM_DIR"/controld" /* super device for daemon only */
/*
* Flags for all objects. Most of them only apply to
* specific objects, but we have space for all in any
* 32 bit flags word.
*/
enum objflags {
VF_LOCKED = 1, /* somebody has locked access to this object */
VF_LOCKING = 2, /* we want access to this object */
VF_OPEN = 4, /* object has openers */
VF_WRITETHROUGH = 8, /* volume: write through */
VF_INITED = 0x10, /* unit has been initialized */
VF_WLABEL = 0x20, /* label area is writable */
VF_LABELLING = 0x40, /* unit is currently being labelled */
VF_WANTED = 0x80, /* someone is waiting to obtain a lock */
VF_RAW = 0x100, /* raw volume (no file system) */
VF_LOADED = 0x200, /* module is loaded */
VF_CONFIGURING = 0x400, /* somebody is changing the config */
VF_WILL_CONFIGURE = 0x800, /* somebody wants to change the config */
VF_CONFIG_INCOMPLETE = 0x1000, /* haven't finished changing the config */
VF_CONFIG_SETUPSTATE = 0x2000, /* set a volume up if all plexes are empty */
VF_READING_CONFIG = 0x4000, /* we're reading config database from disk */
VF_FORCECONFIG = 0x8000, /* configure drives even with different names */
VF_NEWBORN = 0x10000, /* for objects: we've just created it */
VF_CONFIGURED = 0x20000, /* for drives: we read the config */
VF_STOPPING = 0x40000, /* for vinum_conf: stop on last close */
VF_DAEMONOPEN = 0x80000, /* the daemon has us open (only superdev) */
VF_CREATED = 0x100000, /* for volumes: freshly created, more then new */
VF_HOTSPARE = 0x200000, /* for drives: use as hot spare */
};
/* Global configuration information for the vinum subsystem */
struct _vinum_conf {
/* Pointers to vinum structures */
struct drive *drive;
struct sd *sd;
struct plex *plex;
struct volume *volume;
/* the number allocated */
int drives_allocated;
int subdisks_allocated;
int plexes_allocated;
int volumes_allocated;
/* and the number currently in use */
int drives_used;
int subdisks_used;
int plexes_used;
int volumes_used;
int flags;
#if VINUMDEBUG
int lastrq;
struct buf *lastbuf;
#endif
};
/* Use these defines to simplify code */
#define DRIVE vinum_conf.drive
#define SD vinum_conf.sd
#define PLEX vinum_conf.plex
#define VOL vinum_conf.volume
#define VFLAGS vinum_conf.flags
/*
* Slice header
*
* Vinum drives start with this structure:
*
*\ Sector
* |--------------------------------------|
* | PDP-11 memorial boot block | 0
* |--------------------------------------|
* | Disk label, maybe | 1
* |--------------------------------------|
* | Slice definition (vinum_hdr) | 8
* |--------------------------------------|
* | |
* | Configuration info, first copy | 9
* | |
* |--------------------------------------|
* | |
* | Configuration info, second copy | 9 + size of config
* | |
* |--------------------------------------|
*/
/* Sizes and offsets of our information */
enum {
VINUM_LABEL_OFFSET = 4096, /* offset of vinum label */
VINUMHEADERLEN = 512, /* size of vinum label */
VINUM_CONFIG_OFFSET = 4608, /* offset of first config copy */
MAXCONFIG = 65536, /* and size of config copy */
DATASTART = (MAXCONFIG * 2 + VINUM_CONFIG_OFFSET) / DEV_BSIZE /* this is where the data starts */
};
/*
* hostname is 256 bytes long, but we don't need to shlep
* multiple copies in vinum. We use the host name just
* to identify this system, and 32 bytes should be ample
* for that purpose
*/
struct vinum_label {
char sysname[VINUMHOSTNAMELEN]; /* system name at time of creation */
char name[MAXDRIVENAME]; /* our name of the drive */
struct timeval date_of_birth; /* the time it was created */
struct timeval last_update; /* and the time of last update */
/*
* total size in bytes of the drive. This value
* includes the headers.
*/
off_t drive_size;
};
struct vinum_hdr {
long long magic; /* we're long on magic numbers */
#define VINUM_MAGIC 22322600044678729LL /* should be this */
#define VINUM_NOMAGIC 22322600044678990LL /* becomes this after obliteration */
/*
* Size in bytes of each copy of the
* configuration info. This must be a multiple
* of the sector size.
*/
int config_length;
struct vinum_label label; /* unique label */
};
/* Information returned from read_drive_label */
enum drive_label_info {
DL_CANT_OPEN, /* invalid partition */
DL_NOT_OURS, /* valid partition, but no vinum label */
DL_DELETED_LABEL, /* valid partition, deleted label found */
DL_WRONG_DRIVE, /* drive name doesn't match */
DL_OURS /* valid partition and label found */
};
/*** Drive definitions ***/
/*
* A drive corresponds to a disk slice. We use a different term to show
* the difference in usage: it doesn't have to be a slice, and could
* theoretically be a complete, unpartitioned disk
*/
struct drive {
enum drivestate state; /* current state */
int flags; /* flags */
int subdisks_allocated; /* number of entries in sd */
int subdisks_used; /* and the number used */
int blocksize; /* size of fs blocks */
int pid; /* of locker */
u_int64_t sectors_available; /* number of sectors still available */
int secsperblock;
int lasterror; /* last error on drive */
int driveno; /* index of drive in vinum_conf */
int opencount; /* number of up subdisks */
u_int64_t reads; /* number of reads on this drive */
u_int64_t writes; /* number of writes on this drive */
u_int64_t bytes_read; /* number of bytes read */
u_int64_t bytes_written; /* number of bytes written */
char devicename[MAXDRIVENAME]; /* name of the slice it's on */
struct vnode *vp; /* vnode pointer */
struct proc *p;
struct vinum_label label; /* and the label information */
struct partinfo partinfo; /* partition information */
int freelist_size; /* number of entries alloced in free list */
int freelist_entries; /* number of entries used in free list */
struct drive_freelist { /* sorted list of free space on drive */
u_int64_t offset; /* offset of entry */
u_int64_t sectors; /* and length in sectors */
} *freelist;
#ifdef VINUMDEBUG
char lockfilename[16]; /* name of file from which we were locked */
int lockline; /* and the line number */
#endif
};
/*** Subdisk definitions ***/
struct sd {
enum sdstate state; /* state */
int flags;
int lasterror; /* last error occurred */
/* offsets in blocks */
int64_t driveoffset; /* offset on drive */
/*
* plexoffset is the offset from the beginning of the
* plex to the very first part of the subdisk, in
* sectors. For striped and RAID-5 plexes, only
* the first stripe is located at this offset
*/
int64_t plexoffset; /* offset in plex */
u_int64_t sectors; /* and length in sectors */
int plexno; /* index of plex, if it belongs */
int driveno; /* index of the drive on which it is located */
int sdno; /* our index in vinum_conf */
int plexsdno; /* and our number in our plex */
/* (undefined if no plex) */
u_int64_t reads; /* number of reads on this subdisk */
u_int64_t writes; /* number of writes on this subdisk */
u_int64_t bytes_read; /* number of bytes read */
u_int64_t bytes_written; /* number of bytes written */
/* revive parameters */
u_int64_t revived; /* block number of current revive request */
int revive_blocksize; /* revive block size (bytes) */
int revive_interval; /* and time to wait between transfers */
struct request *waitlist; /* list of requests waiting on revive op */
char name[MAXSDNAME]; /* name of subdisk */
};
/*** Plex definitions ***/
/* kinds of plex organization */
enum plexorg {
plex_disorg, /* disorganized */
plex_concat, /* concatenated plex */
plex_striped, /* striped plex */
plex_raid5 /* RAID5 plex */
};
struct plex {
enum plexorg organization; /* Plex organization */
enum plexstate state; /* and current state */
u_int64_t length; /* total length of plex (sectors) */
int flags;
int stripesize; /* size of stripe or raid band, in sectors */
int subdisks; /* number of associated subdisks */
int subdisks_allocated; /* number of subdisks allocated space for */
int *sdnos; /* list of component subdisks */
int plexno; /* index of plex in vinum_conf */
int volno; /* index of volume */
int volplexno; /* number of plex in volume */
/* Lock information */
int alloclocks; /* number of locks allocated */
int usedlocks; /* number currently in use */
int lockwaits; /* and number of waits for locks */
struct rangelock *lock; /* ranges of locked addresses */
u_int64_t checkblock; /* block number for check parity op */
u_int64_t rebuildblock; /* block number for rebuild parity op */
/* Statistics */
u_int64_t reads; /* number of reads on this plex */
u_int64_t writes; /* number of writes on this plex */
u_int64_t bytes_read; /* number of bytes read */
u_int64_t bytes_written; /* number of bytes written */
u_int64_t recovered_reads; /* number of recovered read operations */
u_int64_t degraded_writes; /* number of degraded writes */
u_int64_t parityless_writes; /* number of parityless writes */
u_int64_t multiblock; /* requests that needed more than one block */
u_int64_t multistripe; /* requests that needed more than one stripe */
int sddowncount; /* number of subdisks down */
char name[MAXPLEXNAME]; /* name of plex */
};
/*** Volume definitions ***/
/* Address range definitions, for locking volumes */
struct rangelock {
daddr_t stripe; /* address + 1 of the range being locked */
struct buf *bp; /* user's buffer pointer */
int plexno; /* and number of plex it affects */
};
struct volume {
enum volumestate state; /* current state */
int plexes; /* number of plexes */
int preferred_plex; /* plex to read from, -1 for round-robin */
/*
* index of plex used for last read, for
* round-robin.
*/
int last_plex_read;
int volno; /* volume number */
int flags; /* status and configuration flags */
int openflags; /* flags supplied to last open(2) */
u_int64_t size; /* size of volume */
int blocksize; /* logical block size */
int active; /* number of outstanding requests active */
int subops; /* and the number of suboperations */
/* Statistics */
u_int64_t bytes_read; /* number of bytes read */
u_int64_t bytes_written; /* number of bytes written */
u_int64_t reads; /* number of reads on this volume */
u_int64_t writes; /* number of writes on this volume */
u_int64_t recovered_reads; /* reads recovered from another plex */
/*
* Unlike subdisks in the plex, space for the
* plex pointers is static.
*/
int plex[MAXPLEX]; /* index of plexes */
char name[MAXVOLNAME]; /* name of volume */
struct disklabel label; /* for DIOCGPART */
};
/*
* Table expansion. Expand table, which contains oldcount
* entries of type element, by increment entries, and change
* oldcount accordingly
*/
#define EXPAND(table, element, oldcount, increment) \
{ \
expand_table ((void **) &table, \
oldcount * sizeof (element), \
(oldcount + increment) * sizeof (element) ); \
oldcount += increment; \
}
/* Information on vinum's memory usage */
struct meminfo {
int mallocs; /* number of malloced blocks */
int total_malloced; /* total amount malloced */
int highwater; /* maximum number of mallocs */
struct mc *malloced; /* pointer to kernel table */
};
struct mc {
struct timeval time;
int seq;
int size;
short line;
caddr_t address;
char file[16];
};
/*
* These enums are used by the state transition
* routines. They're in bit map format:
*
* Bit 0: Other plexes in the volume are down
* Bit 1: Other plexes in the volume are up
* Bit 2: The current plex is up
* Maybe they should be local to
* state.c
*/
enum volplexstate {
volplex_onlyusdown = 0, /* 0: we're the only plex, and we're down */
volplex_alldown, /* 1: another plex is down, and so are we */
volplex_otherup, /* 2: another plex is up */
volplex_otherupdown, /* 3: other plexes are up and down */
volplex_onlyus, /* 4: we're up and alone */
volplex_onlyusup, /* 5: only we are up, others are down */
volplex_allup, /* 6: all plexes are up */
volplex_someup /* 7: some plexes are up, including us */
};
/* state map for plex */
enum sdstates {
sd_emptystate = 1,
sd_downstate = 2, /* SD is down */
sd_crashedstate = 4, /* SD is crashed */
sd_obsoletestate = 8, /* SD is obsolete */
sd_stalestate = 16, /* SD is stale */
sd_rebornstate = 32, /* SD is reborn */
sd_upstate = 64, /* SD is up */
sd_initstate = 128, /* SD is initializing */
sd_initializedstate = 256, /* SD is initialized */
sd_otherstate = 512, /* SD is in some other state */
};
/*
* This is really just a parameter to pass to
* set_<foo>_state, but since it needs to be known
* in the external definitions, we need to define
* it here
*/
enum setstateflags {
setstate_none = 0, /* no flags */
setstate_force = 1, /* force the state change */
setstate_configuring = 2, /* we're currently configuring, don't save */
};
/* Operations for parityops to perform. */
enum parityop {
checkparity,
rebuildparity,
};
#ifdef VINUMDEBUG
/* Debugging stuff */
enum debugflags {
DEBUG_ADDRESSES = 1, /* show buffer information during requests */
DEBUG_NUMOUTPUT = 2, /* show the value of vp->v_numoutput */
DEBUG_RESID = 4, /* go into debugger in complete_rqe */
DEBUG_LASTREQS = 8, /* keep a circular buffer of last requests */
DEBUG_REVIVECONFLICT = 16, /* print info about revive conflicts */
DEBUG_EOFINFO = 32, /* print info about EOF detection */
DEBUG_MEMFREE = 64, /* keep info about Frees */
DEBUG_BIGDRIVE = 128, /* pretend our drives are 100 times the size */
DEBUG_REMOTEGDB = 256, /* go into remote gdb */
DEBUG_WARNINGS = 512, /* log various relatively harmless warnings */
};
#ifdef KERNEL
#define longjmp LongJmp /* test our longjmps */
#endif
#endif
/* Local Variables: */
/* fill-column: 50 */
/* End: */