freebsd-skq/sys/dev/slice/slice.h
1998-06-07 19:40:41 +00:00

198 lines
7.9 KiB
C

/*-
* Copyright (C) 1997,1998 Julian Elischer. All rights reserved.
* julian@freebsd.org
*
* 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.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER ``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 HOLDER 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.
*
* $Id: slice.h,v 1.2 1998/05/06 22:14:33 julian Exp $
*/
typedef struct slice_handler *sh_p;
typedef struct slice *sl_p;
struct slicelimits {
u_int32_t blksize; /* IN BYTES */
u_int64_t slicesize; /* IN BYTES */
};
typedef struct slicelimits *slmt_p;
/*
* This struct is only used by the IDE geometry guessing hack in
* the MBR and disklabel code, when talked to by the IDE driver with a VERY
* OLD DISK
*/
struct ide_geom {
u_int32_t secpertrack; /* set to 0 if geom not known */
u_int16_t trackpercyl;
u_int32_t cyls;
};
/*
* The probehints are set by the lower handler, to give direction as to
* what handler is probably required above. If a slice is repartitioned,
* these may change e.g. mbr may set 165 meaning "FreeBSD slice" or 4 "DOS".
* -type: a string for the type that should be used.
* if it's a null string ("") then don't even try find a sub handler.
* defined as NO_SUBPART
* if it's a NULL pointer (NULL) then probe all known types.
* -typespecific: A pointer to SOMETHING that teh lower handler thinks
* may be of interest to the higher hamdlers. The "something" is dependent
* on the type of the lower handler so the upper handler must know of
* this in advance. The type of this should be specified in an
* include file associated with the lower type. This is probably rarely
* needed.
*/
struct probehints {
char *type; /* don't probe, just use this type */
void *typespecific; /* the lower layer specifies this */
};
#define NO_SUBPART ""
/*
* The common slice structure with data, methods and linkages.
*/
struct slice {
/* Per slice data */
char *name; /* e.g. sd0 wd0s1, wd0s1a ?? */
struct probehints probeinfo; /* how we should probe this */
u_int32_t flags; /* this device open, etc. */
u_int16_t refs; /* active references, free if 1->0 */
u_int16_t opencount; /* actual count of opens if allowed */
struct slicelimits limits; /* limits on this slice */
sh_p handler_up; /* type methods etc. */
void *private_up; /* data for the slice type */
sh_p handler_down; /* type methods etc. */
void *private_down; /* data for the slice type */
/*------- fields for the slice device driver -------*/
LIST_ENTRY(slice) hash_list; /* next slice in this bucket */
u_int32_t minor; /* the key for finding us */
void *devfs_btoken;
void *devfs_ctoken;
};
/* bit definitions for the slice flags */
#define SLF_CLOSED 0x00000000 /* slice not open */
#define SLF_OPEN_BLK_RD 0x00000001 /* blk slice readable */
#define SLF_OPEN_BLK_WR 0x00000002 /* blk slice writeable */
#define SLF_OPEN_BLK (SLF_OPEN_BLK_RD|SLF_OPEN_BLK_WR)
#define SLF_OPEN_CHR_RD 0x00000004 /* raw slice readable */
#define SLF_OPEN_CHR_WR 0x00000008 /* raw slice writeable */
#define SLF_OPEN_CHR (SLF_OPEN_CHR_RD|SLF_OPEN_CHR_WR)
#define SLF_OPEN_DEV_RD (SLF_OPEN_CHR_RD|SLF_OPEN_BLK_RD)
#define SLF_OPEN_DEV_WR (SLF_OPEN_CHR_WR|SLF_OPEN_BLK_WR)
#define SLF_OPEN_DEV (SLF_OPEN_DEV_RD|SLF_OPEN_DEV_WR)
#define SLF_OPEN_UP_RD 0x00000010 /* upper layer is readable */
#define SLF_OPEN_UP_WR 0x00000020 /* upper layer is writable */
#define SLF_OPEN_UP 0x00000030 /* upper layer is open */
#define SLF_OPEN_WR (SLF_OPEN_UP_WR|SLF_OPEN_DEV_WR)
#define SLF_OPEN_RD (SLF_OPEN_UP_RD|SLF_OPEN_DEV_RD)
#define SLF_OPEN_STATE (SLF_OPEN_WR|SLF_OPEN_RD) /* Mask open state */
#define SLF_INVALID 0x00000100 /* Everything aborts */
#define SLF_LOCKED 0x00000200 /* Hold off, It's busy */
#define SLF_WANTED 0x00000400 /* I held off, wake me up */
/*
* prototypes for slice methods
*/
typedef void sl_h_IO_req_t(void *private, struct buf * buf);
typedef int sl_h_ioctl_t(void *private, u_long cmd, caddr_t data,
int fflag, struct proc * p);
typedef int sl_h_constructor_t(sl_p slice);
typedef int sl_h_open_t(void *private, int flags, int mode, struct proc * p);
typedef void sl_h_close_t(void *private, int flags, int mode, struct proc * p);
typedef int sl_h_revoke_t(void *private);
typedef int sl_h_claim_t(struct slice * slice, struct slice * lower,
void *ID); /* eg ID=165 for BSD */
typedef int sl_h_verify_t(struct slice *slice);
typedef int sl_h_upconfig_t(struct slice *slice, int cmd, caddr_t data,
int fflag, struct proc *p);
typedef int sl_h_dump_t(void *private, int32_t blkoff, int32_t blkcnt);
struct slice_handler {
char *name;
int version;/* the version of this handler */
struct slice_handler *next; /* next registered type */
int refs; /* references to this type */
sl_h_constructor_t *constructor; /* make new instantiation */
sl_h_IO_req_t *IOreq; /* IO req downward (to device) */
sl_h_ioctl_t *ioctl; /* ioctl downward (to device) */
sl_h_open_t *open; /* downwards travelling open */
sl_h_close_t *close; /* downwards travelling close */
sl_h_revoke_t *revoke; /* revoke upwards (towards user ) */
sl_h_claim_t *claim; /* claim a new slice */
sl_h_verify_t *verify; /* verify that a slice as it was before */
sl_h_upconfig_t *upconf; /* config requests from slice below */
sl_h_dump_t *dump; /* dump the core */
};
/*
* general routines that handlers need.
*/
int sl_make_slice(sh_p handler_down, void *private_down,
struct slicelimits *limits,
sl_p *slicepp, char *type, char *name);
void sl_rmslice(sl_p slice);
int sl_newtype(sh_p tp);
sh_p sl_findtype(char *type);
sh_p slice_probeall(sl_p slice);
int lockslice(sl_p slice);
int unlockslice(sl_p slice);
int slice_readblock(struct slice *slice, int blkno, struct buf **bpp);
int slice_writeblock(struct slice *slice, int blkno, struct buf *bp);
/*
* Definitions for "SLICE" utilities. (handler or device acting on a slice).
*/
enum slc_who { SLW_ABOVE, SLW_DEVICE }; /* helps to know who's calling */
void sliceio(sl_p slice, struct buf * bp, enum slc_who who);
int sliceopen(sl_p slice, int flags, int mode,
struct proc * p, enum slc_who who);
void sliceclose(sl_p slice, int flags, int mode,
struct proc * p, enum slc_who who);
void sl_unref(sl_p slice);
void slice_add_device(sl_p slice);
void slice_remove_device(sl_p slice);
/*
* The geometry guessing HACK functions
*/
int mbr_geom_hack(struct slice * slice, struct ide_geom *geom);
int dkl_geom_hack(struct slice * slice, struct ide_geom *geom);
/*
* The routine to produce a dummy disklabel from a slice.
* Lives in disklabel.c because that's where everyhting is in scope,
* but is used in slice_device.c. XXX hack.
*/
int dkl_dummy_ioctl(struct slice *slice, u_long cmd, caddr_t addr,
int flag, struct proc * p);
/*
* debugging
*/
#if 0
#define RR printf(__FUNCTION__ " called\n")
#else
#define RR /* nothing */
#endif