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#error Broken until maintainers will sanitize kdev_t handling
/*
 * kernel/lvm.c
 *
 * Copyright (C) 1997 - 2000  Heinz Mauelshagen, Sistina Software
 *
 * February-November 1997
 * April-May,July-August,November 1998
 * January-March,May,July,September,October 1999
 * January,February,July,September-November 2000
 * January 2001
 *
 *
 * LVM driver is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2, or (at your option)
 * any later version.
 *
 * LVM driver is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with GNU CC; see the file COPYING.  If not, write to
 * the Free Software Foundation, 59 Temple Place - Suite 330,
 * Boston, MA 02111-1307, USA.
 *
 */

/*
 * Changelog
 *
 *    09/11/1997 - added chr ioctls VG_STATUS_GET_COUNT
 *                 and VG_STATUS_GET_NAMELIST
 *    18/01/1998 - change lvm_chr_open/close lock handling
 *    30/04/1998 - changed LV_STATUS ioctl to LV_STATUS_BYNAME and
 *               - added   LV_STATUS_BYINDEX ioctl
 *               - used lvm_status_byname_req_t and
 *                      lvm_status_byindex_req_t vars
 *    04/05/1998 - added multiple device support
 *    08/05/1998 - added support to set/clear extendable flag in volume group
 *    09/05/1998 - changed output of lvm_proc_get_global_info() because of
 *                 support for free (eg. longer) logical volume names
 *    12/05/1998 - added spin_locks (thanks to Pascal van Dam
 *                 <pascal@ramoth.xs4all.nl>)
 *    25/05/1998 - fixed handling of locked PEs in lvm_map() and lvm_chr_ioctl()
 *    26/05/1998 - reactivated verify_area by access_ok
 *    07/06/1998 - used vmalloc/vfree instead of kmalloc/kfree to go
 *                 beyond 128/256 KB max allocation limit per call
 *               - #ifdef blocked spin_lock calls to avoid compile errors
 *                 with 2.0.x
 *    11/06/1998 - another enhancement to spinlock code in lvm_chr_open()
 *                 and use of LVM_VERSION_CODE instead of my own macros
 *                 (thanks to  Michael Marxmeier <mike@msede.com>)
 *    07/07/1998 - added statistics in lvm_map()
 *    08/07/1998 - saved statistics in lvm_do_lv_extend_reduce()
 *    25/07/1998 - used __initfunc macro
 *    02/08/1998 - changes for official char/block major numbers
 *    07/08/1998 - avoided init_module() and cleanup_module() to be static
 *    30/08/1998 - changed VG lv_open counter from sum of LV lv_open counters
 *                 to sum of LVs open (no matter how often each is)
 *    01/09/1998 - fixed lvm_gendisk.part[] index error
 *    07/09/1998 - added copying of lv_current_pe-array
 *                 in LV_STATUS_BYINDEX ioctl
 *    17/11/1998 - added KERN_* levels to printk
 *    13/01/1999 - fixed LV index bug in lvm_do_lv_create() which hit lvrename
 *    07/02/1999 - fixed spinlock handling bug in case of LVM_RESET
 *                 by moving spinlock code from lvm_chr_open()
 *                 to lvm_chr_ioctl()
 *               - added LVM_LOCK_LVM ioctl to lvm_chr_ioctl()
 *               - allowed LVM_RESET and retrieval commands to go ahead;
 *                 only other update ioctls are blocked now
 *               - fixed pv->pe to NULL for pv_status
 *               - using lv_req structure in lvm_chr_ioctl() now
 *               - fixed NULL ptr reference bug in lvm_do_lv_extend_reduce()
 *                 caused by uncontiguous PV array in lvm_chr_ioctl(VG_REDUCE)
 *    09/02/1999 - changed BLKRASET and BLKRAGET in lvm_chr_ioctl() to
 *                 handle lgoical volume private read ahead sector
 *               - implemented LV read_ahead handling with lvm_blk_read()
 *                 and lvm_blk_write()
 *    10/02/1999 - implemented 2.[12].* support function lvm_hd_name()
 *                 to be used in drivers/block/genhd.c by disk_name()
 *    12/02/1999 - fixed index bug in lvm_blk_ioctl(), HDIO_GETGEO
 *               - enhanced gendisk insert/remove handling
 *    16/02/1999 - changed to dynamic block minor number allocation to
 *                 have as much as 99 volume groups with 256 logical volumes
 *                 as the grand total; this allows having 1 volume group with
 *                 up to 256 logical volumes in it
 *    21/02/1999 - added LV open count information to proc filesystem
 *               - substituted redundant LVM_RESET code by calls
 *                 to lvm_do_vg_remove()
 *    22/02/1999 - used schedule_timeout() to be more responsive
 *                 in case of lvm_do_vg_remove() with lots of logical volumes
 *    19/03/1999 - fixed NULL pointer bug in module_init/lvm_init
 *    17/05/1999 - used DECLARE_WAIT_QUEUE_HEAD macro (>2.3.0)
 *               - enhanced lvm_hd_name support
 *    03/07/1999 - avoided use of KERNEL_VERSION macro based ifdefs and
 *                 memcpy_tofs/memcpy_fromfs macro redefinitions
 *    06/07/1999 - corrected reads/writes statistic counter copy in case
 *                 of striped logical volume
 *    28/07/1999 - implemented snapshot logical volumes
 *                 - lvm_chr_ioctl
 *                   - LV_STATUS_BYINDEX
 *                   - LV_STATUS_BYNAME
 *                 - lvm_do_lv_create
 *                 - lvm_do_lv_remove
 *                 - lvm_map
 *                 - new lvm_snapshot_remap_block
 *                 - new lvm_snapshot_remap_new_block
 *    08/10/1999 - implemented support for multiple snapshots per
 *                 original logical volume
 *    12/10/1999 - support for 2.3.19
 *    11/11/1999 - support for 2.3.28
 *    21/11/1999 - changed lvm_map() interface to buffer_head based
 *    19/12/1999 - support for 2.3.33
 *    01/01/2000 - changed locking concept in lvm_map(),
 *                 lvm_do_vg_create() and lvm_do_lv_remove()
 *    15/01/2000 - fixed PV_FLUSH bug in lvm_chr_ioctl()
 *    24/01/2000 - ported to 2.3.40 including Alan Cox's pointer changes etc.
 *    29/01/2000 - used kmalloc/kfree again for all small structures
 *    20/01/2000 - cleaned up lvm_chr_ioctl by moving code
 *                 to seperated functions
 *               - avoided "/dev/" in proc filesystem output
 *               - avoided inline strings functions lvm_strlen etc.
 *    14/02/2000 - support for 2.3.43
 *               - integrated Andrea Arcagneli's snapshot code
 *    25/06/2000 - james (chip) , IKKHAYD! roffl
 *    26/06/2000 - enhanced lv_extend_reduce for snapshot logical volume support
 *    06/09/2000 - added devfs support
 *    07/09/2000 - changed IOP version to 9
 *               - started to add new char ioctl LV_STATUS_BYDEV_T to support
 *                 getting an lv_t based on the dev_t of the Logical Volume
 *    14/09/2000 - enhanced lvm_do_lv_create to upcall VFS functions
 *                 to sync and lock, activate snapshot and unlock the FS
 *                 (to support journaled filesystems)
 *    18/09/2000 - hardsector size support
 *    27/09/2000 - implemented lvm_do_lv_rename() and lvm_do_vg_rename()
 *    30/10/2000 - added Andi Kleen's LV_BMAP ioctl to support LILO
 *    01/11/2000 - added memory information on hash tables to
 *                 lvm_proc_get_global_info()
 *    02/11/2000 - implemented /proc/lvm/ hierarchy
 *    22/11/2000 - changed lvm_do_create_proc_entry_of_pv () to work
 *                 with devfs
 *    26/11/2000 - corrected #ifdef locations for PROC_FS
 *    28/11/2000 - fixed lvm_do_vg_extend() NULL pointer BUG
 *               - fixed lvm_do_create_proc_entry_of_pv() buffer tampering BUG
 *    08/01/2001 - Removed conditional compiles related to PROC_FS,
 *                 procfs is always supported now. (JT)
 *    12/01/2001 - avoided flushing logical volume in case of shrinking
 *                 because of unnecessary overhead in case of heavy updates
 *    25/01/2001 - Allow RO open of an inactive LV so it can be reactivated.
 *    31/01/2001 - If you try and BMAP a snapshot you now get an -EPERM
 *    01/02/2001 - factored __remap_snapshot out of lvm_map
 *    12/02/2001 - move devfs code to create VG before LVs
 *    14/02/2001 - tidied device defines for blk.h
 *               - tidied debug statements
 *               - more lvm_map tidying
 *    14/02/2001 - bug: vg[] member not set back to NULL if activation fails
 *    28/02/2001 - introduced the P_DEV macro and changed some internel
 *                 functions to be static [AD]
 *    28/02/2001 - factored lvm_get_snapshot_use_rate out of blk_ioctl [AD]
 *               - fixed user address accessing bug in lvm_do_lv_create()
 *                 where the check for an existing LV takes place right at
 *                 the beginning
 *    01/03/2001 - Add VG_CREATE_OLD for IOP 10 compatibility
 *    02/03/2001 - Don't destroy usermode pointers in lv_t structures duing LV_
 *                 STATUS_BYxxx and remove redundant lv_t variables from same.
 *    05/03/2001 - restore copying pe_t array in lvm_do_lv_status_byname. For
 *                 lvdisplay -v (PC)
 *               - restore copying pe_t array in lvm_do_lv_status_byindex (HM)
 *               - added copying pe_t array in lvm_do_lv_status_bydev (HM)
 *               - enhanced lvm_do_lv_status_by{name,index,dev} to be capable
 *                 to copy the lv_block_exception_t array to userspace (HM)
 *    08/03/2001 - factored lvm_do_pv_flush out of lvm_chr_ioctl [HM]
 *    09/03/2001 - Added _lock_open_count to ensure we only drop the lock
 *                 when the locking process closes.
 *    05/04/2001 - lvm_map bugs: don't use b_blocknr/b_dev in lvm_map, it
 *		   destroys stacking devices. call b_end_io on failed maps.
 *		   (Jens Axboe)
 *               - Defer writes to an extent that is being moved [JT + AD]
 *    28/05/2001 - implemented missing BLKSSZGET ioctl [AD]
 *    28/12/2001 - buffer_head -> bio
 *                 removed huge allocation of a lv_t on stack
 *                 (Anders Gustafsson)
 *    07/01/2002 - fixed sizeof(lv_t) differences in user/kernel-space
 *                 removed another huge allocation of a lv_t on stack
 *                 (Anders Gustafsson)
 *
 */


#define MAJOR_NR LVM_BLK_MAJOR
#define DEVICE_OFF(device)
#define LOCAL_END_REQUEST

/* lvm_do_lv_create calls fsync_dev_lockfs()/unlockfs() */
/* #define	LVM_VFS_ENHANCEMENT */

#include <linux/config.h>

#include <linux/module.h>

#include <linux/kernel.h>
#include <linux/vmalloc.h>
#include <linux/slab.h>
#include <linux/init.h>

#include <linux/hdreg.h>
#include <linux/stat.h>
#include <linux/fs.h>
#include <linux/bio.h>
#include <linux/proc_fs.h>
#include <linux/blkdev.h>
#include <linux/genhd.h>
#include <linux/smp_lock.h>
#include <asm/ioctl.h>
#include <asm/uaccess.h>

#ifdef CONFIG_KERNELD
#include <linux/kerneld.h>
#endif

#include <linux/blk.h>
#include <linux/blkpg.h>

#include <linux/errno.h>
#include <linux/lvm.h>

#include "lvm-internal.h"

#ifndef WRITEA
#  define WRITEA WRITE
#endif


/*
 * External function prototypes
 */
static int lvm_make_request_fn(request_queue_t*, struct bio *);

static int lvm_blk_ioctl(struct inode *, struct file *, uint, ulong);
static int lvm_blk_open(struct inode *, struct file *);

static int lvm_blk_close(struct inode *, struct file *);
static int lvm_get_snapshot_use_rate(lv_t *lv_ptr, void *arg);
static int lvm_user_bmap(struct inode *, struct lv_bmap *);

static int lvm_chr_open(struct inode *, struct file *);
static int lvm_chr_close(struct inode *, struct file *);
static int lvm_chr_ioctl(struct inode *, struct file *, uint, ulong);


/* End external function prototypes */


/*
 * Internal function prototypes
 */
static void lvm_cleanup(void);
static void lvm_init_vars(void);

#ifdef LVM_HD_NAME
extern void (*lvm_hd_name_ptr) (char *, int);
#endif
static int lvm_map(struct bio *);
static int lvm_do_lock_lvm(void);
static int lvm_do_le_remap(vg_t *, void *);

static int lvm_do_pv_create(pv_t *, vg_t *, ulong);
static int lvm_do_pv_remove(vg_t *, ulong);
static int lvm_do_lv_create(int, char *, userlv_t *);
static int lvm_do_lv_extend_reduce(int, char *, userlv_t *);
static int lvm_do_lv_remove(int, char *, int);
static int lvm_do_lv_rename(vg_t *, lv_req_t *, userlv_t *);
static int lvm_do_lv_status_byname(vg_t *r, void *);
static int lvm_do_lv_status_byindex(vg_t *, void *);
static int lvm_do_lv_status_bydev(vg_t *, void *);

static int lvm_do_pe_lock_unlock(vg_t *r, void *);

static int lvm_do_pv_change(vg_t*, void*);
static int lvm_do_pv_status(vg_t *, void *);
static int lvm_do_pv_flush(void *);

static int lvm_do_vg_create(void *, int minor);
static int lvm_do_vg_extend(vg_t *, void *);
static int lvm_do_vg_reduce(vg_t *, void *);
static int lvm_do_vg_rename(vg_t *, void *);
static int lvm_do_vg_remove(int);
static void lvm_geninit(struct gendisk *);
static void __update_hardsectsize(lv_t *lv);


static void _queue_io(struct bio *bh, int rw);
static struct bio *_dequeue_io(void);
static void _flush_io(struct bio *bh);

static int _open_pv(pv_t *pv);
static void _close_pv(pv_t *pv);

static unsigned long _sectors_to_k(unsigned long sect);

#ifdef LVM_HD_NAME
void lvm_hd_name(char *, int);
#endif
/* END Internal function prototypes */


/* variables */
char *lvm_version = "LVM version "LVM_RELEASE_NAME"("LVM_RELEASE_DATE")";
ushort lvm_iop_version = LVM_DRIVER_IOP_VERSION;
int loadtime = 0;
const char *const lvm_name = LVM_NAME;


/* volume group descriptor area pointers */
vg_t *vg[ABS_MAX_VG];

/* map from block minor number to VG and LV numbers */
typedef struct {
	int vg_number;
	int lv_number;
} vg_lv_map_t;
static vg_lv_map_t vg_lv_map[ABS_MAX_LV];


/* Request structures (lvm_chr_ioctl()) */
static pv_change_req_t pv_change_req;
static pv_status_req_t pv_status_req;
volatile static pe_lock_req_t pe_lock_req;
static le_remap_req_t le_remap_req;
static lv_req_t lv_req;

#ifdef LVM_TOTAL_RESET
static int lvm_reset_spindown = 0;
#endif

static char pv_name[NAME_LEN];
/* static char rootvg[NAME_LEN] = { 0, }; */
static int lock = 0;
static int _lock_open_count = 0;
static uint vg_count = 0;
static long lvm_chr_open_count = 0;
static DECLARE_WAIT_QUEUE_HEAD(lvm_wait);

static spinlock_t lvm_lock = SPIN_LOCK_UNLOCKED;
static spinlock_t lvm_snapshot_lock = SPIN_LOCK_UNLOCKED;

static struct bio *_pe_requests;
static DECLARE_RWSEM(_pe_lock);


struct file_operations lvm_chr_fops = {
	open:		lvm_chr_open,
	release:	lvm_chr_close,
	ioctl:		lvm_chr_ioctl,
};

/* block device operations structure needed for 2.3.38? and above */
struct block_device_operations lvm_blk_dops =
{
	owner:		THIS_MODULE,
	open: 		lvm_blk_open,
	release:	lvm_blk_close,
	ioctl:		lvm_blk_ioctl,
};


/* gendisk structures */
static struct hd_struct lvm_hd_struct[MAX_LV];
static int lvm_blocksizes[MAX_LV];
static int lvm_size[MAX_LV];

static struct gendisk lvm_gendisk =
{
	major:		MAJOR_NR,
	major_name:	LVM_NAME,
	minor_shift:	0,
	part:		lvm_hd_struct,
	sizes:		lvm_size,
	nr_real:	MAX_LV,
};

/*
 * Driver initialization...
 */
int lvm_init(void)
{
	if (register_chrdev(LVM_CHAR_MAJOR,
				  lvm_name, &lvm_chr_fops) < 0) {
		printk(KERN_ERR "%s -- register_chrdev failed\n",
		       lvm_name);
		return -EIO;
	}

	if (register_blkdev(MAJOR_NR, lvm_name, &lvm_blk_dops) < 0) {
		printk("%s -- register_blkdev failed\n", lvm_name);
		if (unregister_chrdev(LVM_CHAR_MAJOR, lvm_name) < 0)
			printk(KERN_ERR
			       "%s -- unregister_chrdev failed\n",
			       lvm_name);
		return -EIO;
	}

	lvm_init_fs();
	lvm_init_vars();
	lvm_geninit(&lvm_gendisk);

	add_gendisk(&lvm_gendisk);

#ifdef LVM_HD_NAME
	/* reference from drivers/block/genhd.c */
	lvm_hd_name_ptr = lvm_hd_name;
#endif

	blk_queue_make_request(BLK_DEFAULT_QUEUE(MAJOR_NR), lvm_make_request_fn);


	/* initialise the pe lock */
	pe_lock_req.lock = UNLOCK_PE;

	/* optional read root VGDA */
/*
   if ( *rootvg != 0) vg_read_with_pv_and_lv ( rootvg, &vg);
*/

#ifdef MODULE
	printk(KERN_INFO "%s module loaded\n", lvm_version);
#else
	printk(KERN_INFO "%s\n", lvm_version);
#endif

	return 0;
} /* lvm_init() */


/*
 * cleanup...
 */
static void lvm_cleanup(void)
{
	if (unregister_chrdev(LVM_CHAR_MAJOR, lvm_name) < 0)
		printk(KERN_ERR "%s -- unregister_chrdev failed\n",
		       lvm_name);
	if (unregister_blkdev(MAJOR_NR, lvm_name) < 0)
		printk(KERN_ERR "%s -- unregister_blkdev failed\n",
		       lvm_name);

	del_gendisk(&lvm_gendisk);

	blk_clear(MAJOR_NR);

#ifdef LVM_HD_NAME
	/* reference from linux/drivers/block/genhd.c */
	lvm_hd_name_ptr = NULL;
#endif

	/* unregister with procfs and devfs */
	lvm_fin_fs();

#ifdef MODULE
	printk(KERN_INFO "%s -- Module successfully deactivated\n", lvm_name);
#endif

	return;
}	/* lvm_cleanup() */

/*
 * support function to initialize lvm variables
 */
static void __init lvm_init_vars(void)
{
	int v;

	loadtime = CURRENT_TIME;

	lvm_lock = lvm_snapshot_lock = SPIN_LOCK_UNLOCKED;

	pe_lock_req.lock = UNLOCK_PE;
	pe_lock_req.data.lv_dev = NODEV;
	pe_lock_req.data.pv_dev = NODEV;
	pe_lock_req.data.pv_offset = 0;

	/* Initialize VG pointers */
	for (v = 0; v < ABS_MAX_VG; v++) vg[v] = NULL;

	/* Initialize LV -> VG association */
	for (v = 0; v < ABS_MAX_LV; v++) {
		/* index ABS_MAX_VG never used for real VG */
		vg_lv_map[v].vg_number = ABS_MAX_VG;
		vg_lv_map[v].lv_number = -1;
	}

	return;
} /* lvm_init_vars() */


/********************************************************************
 *
 * Character device functions
 *
 ********************************************************************/

#define MODE_TO_STR(mode) (mode) & FMODE_READ ? "READ" : "", \
			  (mode) & FMODE_WRITE ? "WRITE" : ""

/*
 * character device open routine
 */
static int lvm_chr_open(struct inode *inode, struct file *file)
{
	unsigned int minor = minor(inode->i_rdev);

	P_DEV("chr_open MINOR: %d  VG#: %d  mode: %s%s  lock: %d\n",
	      minor, VG_CHR(minor), MODE_TO_STR(file->f_mode), lock);

	/* super user validation */
	if (!capable(CAP_SYS_ADMIN)) return -EACCES;

	/* Group special file open */
	if (VG_CHR(minor) > MAX_VG) return -ENXIO;

       spin_lock(&lvm_lock);
       if(lock == current->pid)
               _lock_open_count++;
       spin_unlock(&lvm_lock);

	lvm_chr_open_count++;

	MOD_INC_USE_COUNT;

	return 0;
} /* lvm_chr_open() */


/*
 * character device i/o-control routine
 *
 * Only one changing process can do changing ioctl at one time,
 * others will block.
 *
 */
static int lvm_chr_ioctl(struct inode *inode, struct file *file,
		  uint command, ulong a)
{
	int minor = minor(inode->i_rdev);
	uint extendable, l, v;
	void *arg = (void *) a;
	userlv_t ulv;
	vg_t* vg_ptr = vg[VG_CHR(minor)];

	/* otherwise cc will complain about unused variables */
	(void) lvm_lock;

	P_IOCTL("chr MINOR: %d  command: 0x%X  arg: %p  VG#: %d  mode: %s%s\n",
		minor, command, arg, VG_CHR(minor), MODE_TO_STR(file->f_mode));

#ifdef LVM_TOTAL_RESET
	if (lvm_reset_spindown > 0) return -EACCES;
#endif

	/* Main command switch */
	switch (command) {
	case LVM_LOCK_LVM:
		/* lock the LVM */
		return lvm_do_lock_lvm();

	case LVM_GET_IOP_VERSION:
		/* check lvm version to ensure driver/tools+lib
		   interoperability */
		if (copy_to_user(arg, &lvm_iop_version, sizeof(ushort)) != 0)
			return -EFAULT;
		return 0;

#ifdef LVM_TOTAL_RESET
	case LVM_RESET:
		/* lock reset function */
		lvm_reset_spindown = 1;
		for (v = 0; v < ABS_MAX_VG; v++) {
			if (vg[v] != NULL) lvm_do_vg_remove(v);
		}

#ifdef MODULE
		while (GET_USE_COUNT(&__this_module) < 1)
			MOD_INC_USE_COUNT;
		while (GET_USE_COUNT(&__this_module) > 1)
			MOD_DEC_USE_COUNT;
#endif /* MODULE */
		lock = 0;	/* release lock */
		wake_up_interruptible(&lvm_wait);
		return 0;
#endif /* LVM_TOTAL_RESET */


	case LE_REMAP:
		/* remap a logical extent (after moving the physical extent) */
		return lvm_do_le_remap(vg_ptr,arg);

	case PE_LOCK_UNLOCK:
		/* lock/unlock i/o to a physical extent to move it to another
		   physical volume (move's done in user space's pvmove) */
		return lvm_do_pe_lock_unlock(vg_ptr,arg);

	case VG_CREATE_OLD:
		/* create a VGDA */
		return lvm_do_vg_create(arg, minor);

       case VG_CREATE:
               /* create a VGDA, assume VG number is filled in */
		return lvm_do_vg_create(arg, -1);

	case VG_EXTEND:
		/* extend a volume group */
		return lvm_do_vg_extend(vg_ptr, arg);

	case VG_REDUCE:
		/* reduce a volume group */
		return lvm_do_vg_reduce(vg_ptr, arg);

	case VG_RENAME:
		/* rename a volume group */
		return lvm_do_vg_rename(vg_ptr, arg);

	case VG_REMOVE:
		/* remove an inactive VGDA */
		return lvm_do_vg_remove(minor);


	case VG_SET_EXTENDABLE:
		/* set/clear extendability flag of volume group */
		if (vg_ptr == NULL) return -ENXIO;
		if (copy_from_user(&extendable, arg, sizeof(extendable)) != 0)
			return -EFAULT;

		if (extendable == VG_EXTENDABLE ||
		    extendable == ~VG_EXTENDABLE) {
			if (extendable == VG_EXTENDABLE)
				vg_ptr->vg_status |= VG_EXTENDABLE;
			else
				vg_ptr->vg_status &= ~VG_EXTENDABLE;
		} else return -EINVAL;
		return 0;


	case VG_STATUS:
		/* get volume group data (only the vg_t struct) */
		if (vg_ptr == NULL) return -ENXIO;
		if (copy_to_user(arg, vg_ptr, sizeof(vg_t)) != 0)
			return -EFAULT;
		return 0;


	case VG_STATUS_GET_COUNT:
		/* get volume group count */
		if (copy_to_user(arg, &vg_count, sizeof(vg_count)) != 0)
			return -EFAULT;
		return 0;


	case VG_STATUS_GET_NAMELIST:
		/* get volume group names */
		for (l = v = 0; v < ABS_MAX_VG; v++) {
			if (vg[v] != NULL) {
				if (copy_to_user(arg + l * NAME_LEN,
						 vg[v]->vg_name,
						 NAME_LEN) != 0)
					return -EFAULT;
				l++;
			}
		}
		return 0;


	case LV_CREATE:
	case LV_EXTEND:
	case LV_REDUCE:
	case LV_REMOVE:
	case LV_RENAME:
		/* create, extend, reduce, remove or rename a logical volume */
		if (vg_ptr == NULL) return -ENXIO;
		if (copy_from_user(&lv_req, arg, sizeof(lv_req)) != 0)
			return -EFAULT;

		if (command != LV_REMOVE) {
			if (copy_from_user(&ulv, lv_req.lv, sizeof(userlv_t)) != 0)
				return -EFAULT;
		}
		switch (command) {
		case LV_CREATE:
			return lvm_do_lv_create(minor, lv_req.lv_name, &ulv);

		case LV_EXTEND:
		case LV_REDUCE:
			return lvm_do_lv_extend_reduce(minor, lv_req.lv_name, &ulv);
		case LV_REMOVE:
			return lvm_do_lv_remove(minor, lv_req.lv_name, -1);

		case LV_RENAME:
			return lvm_do_lv_rename(vg_ptr, &lv_req, &ulv);
		}




	case LV_STATUS_BYNAME:
		/* get status of a logical volume by name */
		return lvm_do_lv_status_byname(vg_ptr, arg);


	case LV_STATUS_BYINDEX:
		/* get status of a logical volume by index */
		return lvm_do_lv_status_byindex(vg_ptr, arg);


	case LV_STATUS_BYDEV:
		/* get status of a logical volume by device */
		return lvm_do_lv_status_bydev(vg_ptr, arg);


	case PV_CHANGE:
		/* change a physical volume */
		return lvm_do_pv_change(vg_ptr,arg);


	case PV_STATUS:
		/* get physical volume data (pv_t structure only) */
		return lvm_do_pv_status(vg_ptr,arg);


	case PV_FLUSH:
		/* physical volume buffer flush/invalidate */
               return lvm_do_pv_flush(arg);


	default:
		printk(KERN_WARNING
		       "%s -- lvm_chr_ioctl: unknown command 0x%x\n",
		       lvm_name, command);
		return -EINVAL;
	}

	return 0;
} /* lvm_chr_ioctl */


/*
 * character device close routine
 */
static int lvm_chr_close(struct inode *inode, struct file *file)
{
	P_DEV("chr_close MINOR: %d  VG#: %d\n",
	      minor(inode->i_rdev), VG_CHR(minor(inode->i_rdev)));

#ifdef LVM_TOTAL_RESET
	if (lvm_reset_spindown > 0) {
		lvm_reset_spindown = 0;
		lvm_chr_open_count = 0;
	}
#endif

	if (lvm_chr_open_count > 0) lvm_chr_open_count--;

       spin_lock(&lvm_lock);
       if(lock == current->pid) {
               if(!_lock_open_count) {
			P_DEV("chr_close: unlocking LVM for pid %d\n", lock);
                       lock = 0;
                       wake_up_interruptible(&lvm_wait);
               } else
                       _lock_open_count--;
	}
       spin_unlock(&lvm_lock);

	MOD_DEC_USE_COUNT;

	return 0;
} /* lvm_chr_close() */



/********************************************************************
 *
 * Block device functions
 *
 ********************************************************************/

/*
 * block device open routine
 */
static int lvm_blk_open(struct inode *inode, struct file *file)
{
	int minor = minor(inode->i_rdev);
	lv_t *lv_ptr;
	vg_t *vg_ptr = vg[VG_BLK(minor)];

	P_DEV("blk_open MINOR: %d  VG#: %d  LV#: %d  mode: %s%s\n",
	      minor, VG_BLK(minor), LV_BLK(minor), MODE_TO_STR(file->f_mode));

#ifdef LVM_TOTAL_RESET
	if (lvm_reset_spindown > 0)
		return -EPERM;
#endif

	if (vg_ptr != NULL &&
	    (vg_ptr->vg_status & VG_ACTIVE) &&
	    (lv_ptr = vg_ptr->lv[LV_BLK(minor)]) != NULL &&
	    LV_BLK(minor) >= 0 &&
	    LV_BLK(minor) < vg_ptr->lv_max) {

		/* Check parallel LV spindown (LV remove) */
		if (lv_ptr->u.lv_status & LV_SPINDOWN) return -EPERM;

		/* Check inactive LV and open for read/write */
		/* We need to be able to "read" an inactive LV
		   to re-activate it again */
		if ((file->f_mode & FMODE_WRITE) &&
		    (!(lv_ptr->u.lv_status & LV_ACTIVE)))
		    return -EPERM;

		if (!(lv_ptr->u.lv_access & LV_WRITE) &&
		    (file->f_mode & FMODE_WRITE))
			return -EACCES;


                /* be sure to increment VG counter */
		if (lv_ptr->u.lv_open == 0) vg_ptr->lv_open++;
		lv_ptr->u.lv_open++;

		MOD_INC_USE_COUNT;

		P_DEV("blk_open OK, LV size %d\n", lv_ptr->u.lv_size);

		return 0;
	}
	return -ENXIO;
} /* lvm_blk_open() */


/*
 * block device i/o-control routine
 */
static int lvm_blk_ioctl(struct inode *inode, struct file *file,
			 uint command, ulong a)
{
	int minor = minor(inode->i_rdev);
	vg_t *vg_ptr = vg[VG_BLK(minor)];
	lv_t *lv_ptr = vg_ptr->lv[LV_BLK(minor)];
	void *arg = (void *) a;
	struct hd_geometry *hd = (struct hd_geometry *) a;

	P_IOCTL("blk MINOR: %d  command: 0x%X  arg: %p  VG#: %d  LV#: %d  "
		"mode: %s%s\n", minor, command, arg, VG_BLK(minor),
		LV_BLK(minor), MODE_TO_STR(file->f_mode));

	switch (command) {
	case BLKSSZGET:
		/* get block device sector size as needed e.g. by fdisk */
		return put_user(bdev_hardsect_size(inode->i_bdev), (int *) arg);

	case BLKGETSIZE:
		/* return device size */
		P_IOCTL("BLKGETSIZE: %u\n", lv_ptr->u.lv_size);
		if (put_user(lv_ptr->u.lv_size, (unsigned long *)arg))
			return -EFAULT;
		break;

	case BLKGETSIZE64:
		if (put_user((u64)lv_ptr->u.lv_size << 9, (u64 *)arg))
			return -EFAULT;
		break;

	case HDIO_GETGEO:
		/* get disk geometry */
		P_IOCTL("%s -- lvm_blk_ioctl -- HDIO_GETGEO\n", lvm_name);
		if (hd == NULL)
			return -EINVAL;
		{
			unsigned char heads = 64;
			unsigned char sectors = 32;
			long start = 0;
			short cylinders = lv_ptr->u.lv_size / heads / sectors;

			if (copy_to_user((char *) &hd->heads, &heads,
					 sizeof(heads)) != 0 ||
			    copy_to_user((char *) &hd->sectors, &sectors,
					 sizeof(sectors)) != 0 ||
			    copy_to_user((short *) &hd->cylinders,
				   &cylinders, sizeof(cylinders)) != 0 ||
			    copy_to_user((long *) &hd->start, &start,
					 sizeof(start)) != 0)
				return -EFAULT;

			P_IOCTL("%s -- lvm_blk_ioctl -- cylinders: %d\n",
				lvm_name, cylinders);
		}
		break;


	case LV_SET_ACCESS:
		/* set access flags of a logical volume */
		if (!capable(CAP_SYS_ADMIN)) return -EACCES;
		lv_ptr->u.lv_access = (ulong) arg;
		if ( lv_ptr->u.lv_access & LV_WRITE)
			set_device_ro(lv_ptr->u.lv_dev, 0);
		else
			set_device_ro(lv_ptr->u.lv_dev, 1);
		break;


	case LV_SET_STATUS:
		/* set status flags of a logical volume */
		if (!capable(CAP_SYS_ADMIN)) return -EACCES;
		if (!((ulong) arg & LV_ACTIVE) && lv_ptr->u.lv_open > 1)
			return -EPERM;
		lv_ptr->u.lv_status = (ulong) arg;
		break;

	case LV_BMAP:
                /* turn logical block into (dev_t, block).  non privileged. */
                /* don't bmap a snapshot, since the mapping can change */
		if(lv_ptr->u.lv_access & LV_SNAPSHOT)
			return -EPERM;

		return lvm_user_bmap(inode, (struct lv_bmap *) arg);

	case LV_SET_ALLOCATION:
		/* set allocation flags of a logical volume */
		if (!capable(CAP_SYS_ADMIN)) return -EACCES;
		lv_ptr->u.lv_allocation = (ulong) arg;
		break;

	case LV_SNAPSHOT_USE_RATE:
		return lvm_get_snapshot_use_rate(lv_ptr, arg);

	default:
		printk(KERN_WARNING
		       "%s -- lvm_blk_ioctl: unknown command 0x%x\n",
		       lvm_name, command);
		return -EINVAL;
	}

	return 0;
} /* lvm_blk_ioctl() */


/*
 * block device close routine
 */
static int lvm_blk_close(struct inode *inode, struct file *file)
{
	int minor = minor(inode->i_rdev);
	vg_t *vg_ptr = vg[VG_BLK(minor)];
	lv_t *lv_ptr = vg_ptr->lv[LV_BLK(minor)];

	P_DEV("blk_close MINOR: %d  VG#: %d  LV#: %d\n",
	      minor, VG_BLK(minor), LV_BLK(minor));

	if (lv_ptr->u.lv_open == 1) vg_ptr->lv_open--;
	lv_ptr->u.lv_open--;

	MOD_DEC_USE_COUNT;

	return 0;
} /* lvm_blk_close() */

static int lvm_get_snapshot_use_rate(lv_t *lv, void *arg)
{
	lv_snapshot_use_rate_req_t lv_rate_req;

	if (!(lv->u.lv_access & LV_SNAPSHOT))
		return -EPERM;

	if (copy_from_user(&lv_rate_req, arg, sizeof(lv_rate_req)))
		return -EFAULT;

	if (lv_rate_req.rate < 0 || lv_rate_req.rate > 100)
		return -EINVAL;

	switch (lv_rate_req.block) {
	case 0:
		lv->lv_snapshot_use_rate = lv_rate_req.rate;
		if (lv->u.lv_remap_ptr * 100 / lv->u.lv_remap_end <
		    lv->lv_snapshot_use_rate)
			interruptible_sleep_on(&lv->lv_snapshot_wait);
		break;

	case O_NONBLOCK:
		break;

	default:
		return -EINVAL;
	}
	lv_rate_req.rate = lv->u.lv_remap_ptr * 100 / lv->u.lv_remap_end;

	return copy_to_user(arg, &lv_rate_req,
			    sizeof(lv_rate_req)) ? -EFAULT : 0;
}

static int lvm_user_bmap(struct inode *inode, struct lv_bmap *user_result)
{
	struct bio bio;
	unsigned long block;
	int err;

	if (get_user(block, &user_result->lv_block))
		return -EFAULT;

	memset(&bio,0,sizeof(bio));
	bio.bi_dev = inode->i_rdev;
	bio.bi_size = block_size(bio.bi_dev); /* NEEDED by bio_sectors */
 	bio.bi_sector = block * bio_sectors(&bio);
	bio.bi_rw = READ;
	if ((err=lvm_map(&bio)) < 0)  {
		printk("lvm map failed: %d\n", err);
		return -EINVAL;
	}

	return put_user(kdev_t_to_nr(bio.bi_dev), &user_result->lv_dev) ||
	       put_user(bio.bi_sector/bio_sectors(&bio), &user_result->lv_block) ?
	       -EFAULT : 0;
}


/*
 * block device support function for /usr/src/linux/drivers/block/ll_rw_blk.c
 * (see init_module/lvm_init)
 */
static void __remap_snapshot(kdev_t rdev, ulong rsector,
			     ulong pe_start, lv_t *lv, vg_t *vg) {

	/* copy a chunk from the origin to a snapshot device */
	down_write(&lv->lv_lock);

	/* we must redo lvm_snapshot_remap_block in order to avoid a
	   race condition in the gap where no lock was held */
	if (!lvm_snapshot_remap_block(&rdev, &rsector, pe_start, lv) &&
	    !lvm_snapshot_COW(rdev, rsector, pe_start, rsector, vg, lv))
		lvm_write_COW_table_block(vg, lv);

	up_write(&lv->lv_lock);
}

static inline void _remap_snapshot(kdev_t rdev, ulong rsector,
				   ulong pe_start, lv_t *lv, vg_t *vg) {
	int r;

	/* check to see if this chunk is already in the snapshot */
	down_read(&lv->lv_lock);
	r = lvm_snapshot_remap_block(&rdev, &rsector, pe_start, lv);
	up_read(&lv->lv_lock);

	if (!r)
		/* we haven't yet copied this block to the snapshot */
		__remap_snapshot(rdev, rsector, pe_start, lv, vg);
}


/*
 * extents destined for a pe that is on the move should be deferred
 */
static inline int _should_defer(kdev_t pv, ulong sector, uint32_t pe_size) {
	return ((pe_lock_req.lock == LOCK_PE) &&
		kdev_same(pv, pe_lock_req.data.pv_dev) &&
		(sector >= pe_lock_req.data.pv_offset) &&
		(sector < (pe_lock_req.data.pv_offset + pe_size)));
}

static inline int _defer_extent(struct bio *bh, int rw,
				kdev_t pv, ulong sector, uint32_t pe_size)
{
	if (pe_lock_req.lock == LOCK_PE) {
		down_read(&_pe_lock);
		if (_should_defer(pv, sector, pe_size)) {
			up_read(&_pe_lock);
			down_write(&_pe_lock);
			if (_should_defer(pv, sector, pe_size))
				_queue_io(bh, rw);
			up_write(&_pe_lock);
			return 1;
		}
		up_read(&_pe_lock);
	}
	return 0;
}

static int lvm_map(struct bio *bi)
{
	int minor = minor(bi->bi_dev);
	ulong index;
	ulong pe_start;
	ulong size = bio_sectors(bi);
	ulong rsector_org = bi->bi_sector;
	ulong rsector_map;
	kdev_t rdev_map;
	vg_t *vg_this = vg[VG_BLK(minor)];
	lv_t *lv = vg_this->lv[LV_BLK(minor)];
	int rw = bio_rw(bi);

	down_read(&lv->lv_lock);
	if (!(lv->u.lv_status & LV_ACTIVE)) {
		printk(KERN_ALERT
		       "%s - lvm_map: ll_rw_blk for inactive LV %s\n",
		       lvm_name, lv->u.lv_name);
		goto bad;
	}

	if ((rw == WRITE || rw == WRITEA) &&
	    !(lv->u.lv_access & LV_WRITE)) {
		printk(KERN_CRIT
		       "%s - lvm_map: ll_rw_blk write for readonly LV %s\n",
		       lvm_name, lv->u.lv_name);
		goto bad;
	}

	P_MAP("%s - lvm_map minor: %d  *rdev: %s  *rsector: %lu  size:%lu\n",
	      lvm_name, minor,
	      kdevname(bi->bi_dev),
	      rsector_org, size);

	if (rsector_org + size > lv->u.lv_size) {
		printk(KERN_ALERT
		       "%s - lvm_map access beyond end of device; *rsector: "
                       "%lu or size: %lu wrong for minor: %2d\n",
                       lvm_name, rsector_org, size, minor);
		goto bad;
	}


	if (lv->u.lv_stripes < 2) { /* linear mapping */
		/* get the index */
		index = rsector_org / vg_this->pe_size;
		pe_start = lv->u.lv_current_pe[index].pe;
		rsector_map = lv->u.lv_current_pe[index].pe +
			(rsector_org % vg_this->pe_size);
		rdev_map = lv->u.lv_current_pe[index].dev;

		P_MAP("u.lv_current_pe[%ld].pe: %d  rdev: %s  rsector:%ld\n",
		      index, lv->u.lv_current_pe[index].pe,
		      kdevname(rdev_map), rsector_map);

	} else {		/* striped mapping */
		ulong stripe_index;
		ulong stripe_length;

		stripe_length = vg_this->pe_size * lv->u.lv_stripes;
		stripe_index = (rsector_org % stripe_length) /
			lv->u.lv_stripesize;
		index = rsector_org / stripe_length +
			(stripe_index % lv->u.lv_stripes) *
			(lv->u.lv_allocated_le / lv->u.lv_stripes);
		pe_start = lv->u.lv_current_pe[index].pe;
		rsector_map = lv->u.lv_current_pe[index].pe +
			(rsector_org % stripe_length) -
			(stripe_index % lv->u.lv_stripes) * lv->u.lv_stripesize -
			stripe_index / lv->u.lv_stripes *
			(lv->u.lv_stripes - 1) * lv->u.lv_stripesize;
		rdev_map = lv->u.lv_current_pe[index].dev;

		P_MAP("u.lv_current_pe[%ld].pe: %d  rdev: %s  rsector:%ld\n"
		      "stripe_length: %ld  stripe_index: %ld\n",
		      index, lv->u.lv_current_pe[index].pe, kdevname(rdev_map),
		      rsector_map, stripe_length, stripe_index);
	}

	/*
	 * Queue writes to physical extents on the move until move completes.
	 * Don't get _pe_lock until there is a reasonable expectation that
	 * we need to queue this request, because this is in the fast path.
	 */
	if (rw == WRITE || rw == WRITEA) {
		if(_defer_extent(bi, rw, rdev_map,
				 rsector_map, vg_this->pe_size)) {

			up_read(&lv->lv_lock);
			return 0;
		}

		lv->u.lv_current_pe[index].writes++;	/* statistic */
	} else
		lv->u.lv_current_pe[index].reads++;	/* statistic */

	/* snapshot volume exception handling on physical device address base */
	if (!(lv->u.lv_access & (LV_SNAPSHOT|LV_SNAPSHOT_ORG)))
		goto out;

	if (lv->u.lv_access & LV_SNAPSHOT) { /* remap snapshot */
		if (lv->u.lv_block_exception)
			lvm_snapshot_remap_block(&rdev_map, &rsector_map,
						 pe_start, lv);
		else
			goto bad;

	} else if (rw == WRITE || rw == WRITEA) { /* snapshot origin */
		lv_t *snap;

		/* start with first snapshot and loop through all of
		   them */
		for (snap = lv->u.lv_snapshot_next; snap;
		     snap = snap->u.lv_snapshot_next) {
			/* Check for inactive snapshot */
			if (!(snap->u.lv_status & LV_ACTIVE))
				continue;

			/* Serializes the COW with the accesses to the
			   snapshot device */
			_remap_snapshot(rdev_map, rsector_map,
					 pe_start, snap, vg_this);
		}
 	}

 out:
	bi->bi_dev = rdev_map;
	bi->bi_sector = rsector_map;
	up_read(&lv->lv_lock);
	return 1;

 bad:
	bio_io_error(bi);
	up_read(&lv->lv_lock);
	return -1;
} /* lvm_map() */


/*
 * internal support functions
 */

#ifdef LVM_HD_NAME
/*
 * generate "hard disk" name
 */
void lvm_hd_name(char *buf, int minor)
{
	int len = 0;
	lv_t *lv_ptr;

	if (vg[VG_BLK(minor)] == NULL ||
	    (lv_ptr = vg[VG_BLK(minor)]->lv[LV_BLK(minor)]) == NULL)
		return;
	len = strlen(lv_ptr->u.lv_name) - 5;
	memcpy(buf, &lv_ptr->u.lv_name[5], len);
	buf[len] = 0;
	return;
}
#endif


/*
 * make request function
 */
static int lvm_make_request_fn(request_queue_t *q, struct bio *bio)
{
	return (lvm_map(bio) <= 0) ? 0 : 1;
}


/********************************************************************
 *
 * Character device support functions
 *
 ********************************************************************/
/*
 * character device support function logical volume manager lock
 */
static int lvm_do_lock_lvm(void)
{
lock_try_again:
	spin_lock(&lvm_lock);
	if (lock != 0 && lock != current->pid) {
		P_DEV("lvm_do_lock_lvm: locked by pid %d ...\n", lock);
		spin_unlock(&lvm_lock);
		interruptible_sleep_on(&lvm_wait);
		if (signal_pending(current))
			return -EINTR;
#ifdef LVM_TOTAL_RESET
		if (lvm_reset_spindown > 0)
			return -EACCES;
#endif
		goto lock_try_again;
	}
	lock = current->pid;
	P_DEV("lvm_do_lock_lvm: locking LVM for pid %d\n", lock);
	spin_unlock(&lvm_lock);
	return 0;
} /* lvm_do_lock_lvm */


/*
 * character device support function lock/unlock physical extend
 */
static int lvm_do_pe_lock_unlock(vg_t *vg_ptr, void *arg)
{
	pe_lock_req_t new_lock;
	struct bio *bh;
	uint p;

	if (vg_ptr == NULL) return -ENXIO;
	if (copy_from_user(&new_lock, arg, sizeof(new_lock)) != 0)
		return -EFAULT;

	switch (new_lock.lock) {
	case LOCK_PE:
		for (p = 0; p < vg_ptr->pv_max; p++) {
			if (vg_ptr->pv[p] != NULL &&
			    kdev_same(new_lock.data.pv_dev,
				      vg_ptr->pv[p]->pv_dev))
				break;
		}
		if (p == vg_ptr->pv_max) return -ENXIO;

		/*
		 * this sync releaves memory pressure to lessen the
		 * likelyhood of pvmove being paged out - resulting in
		 * deadlock.
		 *
		 * This method of doing a pvmove is broken
		 */
		fsync_dev(pe_lock_req.data.lv_dev);

		down_write(&_pe_lock);
		if (pe_lock_req.lock == LOCK_PE) {
			up_write(&_pe_lock);
			return -EBUSY;
		}

		/* Should we do to_kdev_t() on the pv_dev and u.lv_dev??? */
		pe_lock_req.lock = LOCK_PE;
		pe_lock_req.data.lv_dev = new_lock.data.lv_dev;
		pe_lock_req.data.pv_dev = new_lock.data.pv_dev;
		pe_lock_req.data.pv_offset = new_lock.data.pv_offset;
		up_write(&_pe_lock);

		/* some requests may have got through since the fsync */
		fsync_dev(pe_lock_req.data.pv_dev);
		break;

	case UNLOCK_PE:
		down_write(&_pe_lock);
		pe_lock_req.lock = UNLOCK_PE;
		pe_lock_req.data.lv_dev = NODEV;
		pe_lock_req.data.pv_dev = NODEV;
		pe_lock_req.data.pv_offset = 0;
		bh = _dequeue_io();
		up_write(&_pe_lock);

		/* handle all deferred io for this PE */
		_flush_io(bh);
		break;

	default:
		return -EINVAL;
	}
	return 0;
}


/*
 * character device support function logical extend remap
 */
static int lvm_do_le_remap(vg_t *vg_ptr, void *arg)
{
	uint l, le;
	lv_t *lv_ptr;

	if (vg_ptr == NULL) return -ENXIO;
	if (copy_from_user(&le_remap_req, arg,
			   sizeof(le_remap_req_t)) != 0)
		return -EFAULT;

	for (l = 0; l < vg_ptr->lv_max; l++) {
		lv_ptr = vg_ptr->lv[l];
		if (lv_ptr != NULL &&
		    strcmp(lv_ptr->u.lv_name,
			       le_remap_req.lv_name) == 0) {
			for (le = 0; le < lv_ptr->u.lv_allocated_le; le++) {
			  if (kdev_same(lv_ptr->u.lv_current_pe[le].dev,
					le_remap_req.old_dev) &&
				    lv_ptr->u.lv_current_pe[le].pe ==
				    le_remap_req.old_pe) {
					lv_ptr->u.lv_current_pe[le].dev =
					    le_remap_req.new_dev;
					lv_ptr->u.lv_current_pe[le].pe =
					    le_remap_req.new_pe;

					__update_hardsectsize(lv_ptr);
					return 0;
				}
			}
			return -EINVAL;
		}
	}
	return -ENXIO;
} /* lvm_do_le_remap() */


/*
 * character device support function VGDA create
 */
static int lvm_do_vg_create(void *arg, int minor)
{
	int ret = 0;
	ulong l, ls = 0, p, size;
	vg_t *vg_ptr;
	lv_t **snap_lv_ptr;
	lv_t *tmplv;

	if ((vg_ptr = kmalloc(sizeof(vg_t),GFP_KERNEL)) == NULL) {
		printk(KERN_CRIT
		       "%s -- VG_CREATE: kmalloc error VG at line %d\n",
		       lvm_name, __LINE__);
		return -ENOMEM;
	}

	/* get the volume group structure */
	if (copy_from_user(vg_ptr, arg, sizeof(vg_t)) != 0) {
		P_IOCTL("lvm_do_vg_create ERROR: copy VG ptr %p (%d bytes)\n",
			arg, sizeof(vg_t));
		kfree(vg_ptr);
		return -EFAULT;
	}



        /* VG_CREATE now uses minor number in VG structure */
        if (minor == -1) minor = vg_ptr->vg_number;

	/* Validate it */
        if (vg[VG_CHR(minor)] != NULL) {
		P_IOCTL("lvm_do_vg_create ERROR: VG %d in use\n", minor);
		kfree(vg_ptr);
  	     	return -EPERM;
	}

	/* we are not that active so far... */
	vg_ptr->vg_status &= ~VG_ACTIVE;
	vg_ptr->pe_allocated = 0;

	if (vg_ptr->pv_max > ABS_MAX_PV) {
		printk(KERN_WARNING
		       "%s -- Can't activate VG: ABS_MAX_PV too small\n",
		       lvm_name);
		kfree(vg_ptr);
		return -EPERM;
	}

	if (vg_ptr->lv_max > ABS_MAX_LV) {
		printk(KERN_WARNING
		"%s -- Can't activate VG: ABS_MAX_LV too small for %u\n",
		       lvm_name, vg_ptr->lv_max);
		kfree(vg_ptr);
		return -EPERM;
	}

	/* create devfs and procfs entries */
	lvm_fs_create_vg(vg_ptr);

	vg[VG_CHR(minor)] = vg_ptr;

	/* get the physical volume structures */
	vg_ptr->pv_act = vg_ptr->pv_cur = 0;
	for (p = 0; p < vg_ptr->pv_max; p++) {
		pv_t *pvp;
		/* user space address */
		if ((pvp = vg_ptr->pv[p]) != NULL) {
			ret = lvm_do_pv_create(pvp, vg_ptr, p);
			if ( ret != 0) {
				lvm_do_vg_remove(minor);
				return ret;
			}
		}
	}

	size = vg_ptr->lv_max * sizeof(lv_t *);
	if ((snap_lv_ptr = vmalloc ( size)) == NULL) {
		printk(KERN_CRIT
		       "%s -- VG_CREATE: vmalloc error snapshot LVs at line %d\n",
		       lvm_name, __LINE__);
		lvm_do_vg_remove(minor);
		return -EFAULT;
	}
	memset(snap_lv_ptr, 0, size);

	if ((tmplv = kmalloc(sizeof(lv_t),GFP_KERNEL)) == NULL) {
		printk(KERN_CRIT
		       "%s -- VG_CREATE: kmalloc error LV at line %d\n",
		       lvm_name, __LINE__);
		vfree(snap_lv_ptr);
		return -ENOMEM;
	}

	/* get the logical volume structures */
	vg_ptr->lv_cur = 0;
	for (l = 0; l < vg_ptr->lv_max; l++) {
		lv_t *lvp;
		
		/* user space address */
		if ((lvp = vg_ptr->lv[l]) != NULL) {
			if (copy_from_user(tmplv, lvp, sizeof(userlv_t)) != 0) {
				P_IOCTL("ERROR: copying LV ptr %p (%d bytes)\n",
					lvp, sizeof(lv_t));
				lvm_do_vg_remove(minor);
				vfree(snap_lv_ptr);
				kfree(tmplv);
				return -EFAULT;
			}
			if ( tmplv->u.lv_access & LV_SNAPSHOT) {
				snap_lv_ptr[ls] = lvp;
				vg_ptr->lv[l] = NULL;
				ls++;
				continue;
			}
			vg_ptr->lv[l] = NULL;
			/* only create original logical volumes for now */
			if (lvm_do_lv_create(minor, tmplv->u.lv_name, &tmplv->u) != 0) {
				lvm_do_vg_remove(minor);
				vfree(snap_lv_ptr);
				kfree(tmplv);
				return -EFAULT;
			}
		}
	}

	/* Second path to correct snapshot logical volumes which are not
	   in place during first path above */
	for (l = 0; l < ls; l++) {
		lv_t *lvp = snap_lv_ptr[l];
		if (copy_from_user(tmplv, lvp, sizeof(userlv_t)) != 0) {
			lvm_do_vg_remove(minor);
			vfree(snap_lv_ptr);
			kfree(tmplv);
			return -EFAULT;
		}
		if (lvm_do_lv_create(minor, tmplv->u.lv_name, &tmplv->u) != 0) {
			lvm_do_vg_remove(minor);
			vfree(snap_lv_ptr);
			kfree(tmplv);
			return -EFAULT;
		}
	}

	vfree(snap_lv_ptr);
	kfree(tmplv);
	vg_count++;


	MOD_INC_USE_COUNT;

	/* let's go active */
	vg_ptr->vg_status |= VG_ACTIVE;

	return 0;
} /* lvm_do_vg_create() */


/*
 * character device support function VGDA extend
 */
static int lvm_do_vg_extend(vg_t *vg_ptr, void *arg)
{
	int ret = 0;
	uint p;
	pv_t *pv_ptr;

	if (vg_ptr == NULL) return -ENXIO;
	if (vg_ptr->pv_cur < vg_ptr->pv_max) {
		for (p = 0; p < vg_ptr->pv_max; p++) {
			if ( ( pv_ptr = vg_ptr->pv[p]) == NULL) {
				ret = lvm_do_pv_create(arg, vg_ptr, p);
				if ( ret != 0) return ret;
				pv_ptr = vg_ptr->pv[p];
				vg_ptr->pe_total += pv_ptr->pe_total;
				return 0;
			}
		}
	}
	return -EPERM;
} /* lvm_do_vg_extend() */


/*
 * character device support function VGDA reduce
 */
static int lvm_do_vg_reduce(vg_t *vg_ptr, void *arg) {
	uint p;
	pv_t *pv_ptr;

	if (vg_ptr == NULL) return -ENXIO;
	if (copy_from_user(pv_name, arg, sizeof(pv_name)) != 0)
		return -EFAULT;

	for (p = 0; p < vg_ptr->pv_max; p++) {
		pv_ptr = vg_ptr->pv[p];
		if (pv_ptr != NULL &&
		    strcmp(pv_ptr->pv_name,
			       pv_name) == 0) {
			if (pv_ptr->lv_cur > 0) return -EPERM;
			lvm_do_pv_remove(vg_ptr, p);
			/* Make PV pointer array contiguous */
			for (; p < vg_ptr->pv_max - 1; p++)
				vg_ptr->pv[p] = vg_ptr->pv[p + 1];
			vg_ptr->pv[p + 1] = NULL;
			return 0;
		}
	}
	return -ENXIO;
} /* lvm_do_vg_reduce */


/*
 * character device support function VG rename
 */
static int lvm_do_vg_rename(vg_t *vg_ptr, void *arg)
{
	int l = 0, p = 0, len = 0;
	char vg_name[NAME_LEN] = { 0,};
	char lv_name[NAME_LEN] = { 0,};
	char *ptr = NULL;
	lv_t *lv_ptr = NULL;
	pv_t *pv_ptr = NULL;

	if (vg_ptr == NULL) return -ENXIO;

	if (copy_from_user(vg_name, arg, sizeof(vg_name)) != 0)
		return -EFAULT;

	lvm_fs_remove_vg(vg_ptr);

	strncpy ( vg_ptr->vg_name, vg_name, sizeof ( vg_name)-1);
	for ( l = 0; l < vg_ptr->lv_max; l++)
	{
		if ((lv_ptr = vg_ptr->lv[l]) == NULL) continue;
		strncpy(lv_ptr->u.vg_name, vg_name, sizeof ( vg_name));
		ptr = strrchr(lv_ptr->u.lv_name, '/');
		if (ptr == NULL) ptr = lv_ptr->u.lv_name;
		strncpy(lv_name, ptr, sizeof ( lv_name));
		len = sizeof(LVM_DIR_PREFIX);
		strcpy(lv_ptr->u.lv_name, LVM_DIR_PREFIX);
		strncat(lv_ptr->u.lv_name, vg_name, NAME_LEN - len);
		len += strlen ( vg_name);
		strncat(lv_ptr->u.lv_name, lv_name, NAME_LEN - len);
	}
	for ( p = 0; p < vg_ptr->pv_max; p++)
	{
		if ( (pv_ptr = vg_ptr->pv[p]) == NULL) continue;
		strncpy(pv_ptr->vg_name, vg_name, NAME_LEN);
	}

	lvm_fs_create_vg(vg_ptr);

	return 0;
} /* lvm_do_vg_rename */


/*
 * character device support function VGDA remove
 */
static int lvm_do_vg_remove(int minor)
{
	int i;
	vg_t *vg_ptr = vg[VG_CHR(minor)];
	pv_t *pv_ptr;

	if (vg_ptr == NULL) return -ENXIO;

#ifdef LVM_TOTAL_RESET
	if (vg_ptr->lv_open > 0 && lvm_reset_spindown == 0)
#else
	if (vg_ptr->lv_open > 0)
#endif
		return -EPERM;

	/* let's go inactive */
	vg_ptr->vg_status &= ~VG_ACTIVE;

	/* remove from procfs and devfs */
	lvm_fs_remove_vg(vg_ptr);

	/* free LVs */
	/* first free snapshot logical volumes */
	for (i = 0; i < vg_ptr->lv_max; i++) {
		if (vg_ptr->lv[i] != NULL &&
		    vg_ptr->lv[i]->u.lv_access & LV_SNAPSHOT) {
			lvm_do_lv_remove(minor, NULL, i);
			current->state = TASK_UNINTERRUPTIBLE;
			schedule_timeout(1);
		}
	}
	/* then free the rest of the LVs */
	for (i = 0; i < vg_ptr->lv_max; i++) {
		if (vg_ptr->lv[i] != NULL) {
			lvm_do_lv_remove(minor, NULL, i);
			current->state = TASK_UNINTERRUPTIBLE;
			schedule_timeout(1);
		}
	}

	/* free PVs */
	for (i = 0; i < vg_ptr->pv_max; i++) {
		if ((pv_ptr = vg_ptr->pv[i]) != NULL) {
			P_KFREE("%s -- kfree %d\n", lvm_name, __LINE__);
			lvm_do_pv_remove(vg_ptr, i);
		}
	}

	P_KFREE("%s -- kfree %d\n", lvm_name, __LINE__);
	kfree(vg_ptr);
	vg[VG_CHR(minor)] = NULL;

	vg_count--;

	MOD_DEC_USE_COUNT;

	return 0;
} /* lvm_do_vg_remove() */


/*
 * character device support function physical volume create
 */
static int lvm_do_pv_create(pv_t *pvp, vg_t *vg_ptr, ulong p) {
	pv_t *pv;
	int err;

	pv = kmalloc(sizeof(pv_t),GFP_KERNEL);
	if (pv == NULL) {
		printk(KERN_CRIT
		       "%s -- PV_CREATE: kmalloc error PV at line %d\n",
		       lvm_name, __LINE__);
		return -ENOMEM;
	}

	memset(pv, 0, sizeof(*pv));

	if (copy_from_user(pv, pvp, sizeof(pv_t)) != 0) {
		P_IOCTL("lvm_do_pv_create ERROR: copy PV ptr %p (%d bytes)\n",
			pvp, sizeof(pv_t));
		kfree(pv);
		return -EFAULT;
	}

	if ((err = _open_pv(pv))) {
		kfree(pv);
		return err;
	}

	/* We don't need the PE list
	   in kernel space as with LVs pe_t list (see below) */
	pv->pe = NULL;
	pv->pe_allocated = 0;
	pv->pv_status = PV_ACTIVE;
	vg_ptr->pv_act++;
	vg_ptr->pv_cur++;
	lvm_fs_create_pv(vg_ptr, pv);

	vg_ptr->pv[p] = pv;
	return 0;
} /* lvm_do_pv_create() */


/*
 * character device support function physical volume remove
 */
static int lvm_do_pv_remove(vg_t *vg_ptr, ulong p) {
	pv_t *pv = vg_ptr->pv[p];

	lvm_fs_remove_pv(vg_ptr, pv);

	vg_ptr->pe_total -= pv->pe_total;
	vg_ptr->pv_cur--;
	vg_ptr->pv_act--;

	_close_pv(pv);
	kfree(pv);

	vg_ptr->pv[p] = NULL;

	return 0;
}


static void __update_hardsectsize(lv_t *lv) {
	int le, e;
	int max_hardsectsize = 0, hardsectsize;

	for (le = 0; le < lv->u.lv_allocated_le; le++) {
		hardsectsize = get_hardsect_size(lv->u.lv_current_pe[le].dev);
		if (hardsectsize == 0)
			hardsectsize = 512;
		if (hardsectsize > max_hardsectsize)
			max_hardsectsize = hardsectsize;
	}

	/* only perform this operation on active snapshots */
	if ((lv->u.lv_access & LV_SNAPSHOT) &&
	    (lv->u.lv_status & LV_ACTIVE)) {
		for (e = 0; e < lv->u.lv_remap_end; e++) {
			hardsectsize = get_hardsect_size( lv->u.lv_block_exception[e].rdev_new);
			if (hardsectsize == 0)
				hardsectsize = 512;
			if (hardsectsize > max_hardsectsize)
				max_hardsectsize = hardsectsize;
		}
	}
}

/*
 * character device support function logical volume create
 */
static int lvm_do_lv_create(int minor, char *lv_name, userlv_t *ulv)
{
	int e, ret, l, le, l_new, p, size, activate = 1;
	ulong lv_status_save;
	lv_block_exception_t *lvbe = ulv->lv_block_exception;
	vg_t *vg_ptr = vg[VG_CHR(minor)];
	lv_t *lv_ptr = NULL;
	pe_t *pep;

	if (!(pep = ulv->lv_current_pe))
		return -EINVAL;

	if (_sectors_to_k(ulv->lv_chunk_size) > LVM_SNAPSHOT_MAX_CHUNK)
		return -EINVAL;

	for (l = 0; l < vg_ptr->lv_cur; l++) {
		if (vg_ptr->lv[l] != NULL &&
		    strcmp(vg_ptr->lv[l]->u.lv_name, lv_name) == 0)
			return -EEXIST;
	}

	/* in case of lv_remove(), lv_create() pair */
	l_new = -1;
	if (vg_ptr->lv[ulv->lv_number] == NULL)
		l_new = ulv->lv_number;
	else {
		for (l = 0; l < vg_ptr->lv_max; l++) {
			if (vg_ptr->lv[l] == NULL)
				if (l_new == -1) l_new = l;
		}
	}
	if (l_new == -1) return -EPERM;
	else             l = l_new;

	if ((lv_ptr = kmalloc(sizeof(lv_t),GFP_KERNEL)) == NULL) {;
		printk(KERN_CRIT "%s -- LV_CREATE: kmalloc error LV at line %d\n",
		       lvm_name, __LINE__);
		return -ENOMEM;
	}
	/* copy preloaded LV */
	memcpy((char *) lv_ptr, (char *) ulv, sizeof(userlv_t));

	lv_status_save = lv_ptr->u.lv_status;
	lv_ptr->u.lv_status &= ~LV_ACTIVE;
	lv_ptr->u.lv_snapshot_org = NULL;
	lv_ptr->u.lv_snapshot_prev = NULL;
	lv_ptr->u.lv_snapshot_next = NULL;
	lv_ptr->u.lv_block_exception = NULL;
	lv_ptr->lv_iobuf = NULL;
	lv_ptr->lv_COW_table_iobuf = NULL;
	lv_ptr->lv_snapshot_hash_table = NULL;
	lv_ptr->lv_snapshot_hash_table_size = 0;
	lv_ptr->lv_snapshot_hash_mask = 0;
	init_rwsem(&lv_ptr->lv_lock);

	lv_ptr->lv_snapshot_use_rate = 0;

	vg_ptr->lv[l] = lv_ptr;

	/* get the PE structures from user space if this
	   is not a snapshot logical volume */
	if (!(lv_ptr->u.lv_access & LV_SNAPSHOT)) {
		size = lv_ptr->u.lv_allocated_le * sizeof(pe_t);

		if ((lv_ptr->u.lv_current_pe = vmalloc(size)) == NULL) {
			printk(KERN_CRIT
			       "%s -- LV_CREATE: vmalloc error LV_CURRENT_PE of %d Byte "
			       "at line %d\n",
			       lvm_name, size, __LINE__);
			P_KFREE("%s -- kfree %d\n", lvm_name, __LINE__);
			kfree(lv_ptr);
			vg_ptr->lv[l] = NULL;
			return -ENOMEM;
		}
		if (copy_from_user(lv_ptr->u.lv_current_pe, pep, size)) {
			P_IOCTL("ERROR: copying PE ptr %p (%d bytes)\n",
				pep, sizeof(size));
			vfree(lv_ptr->u.lv_current_pe);
			kfree(lv_ptr);
			vg_ptr->lv[l] = NULL;
			return -EFAULT;
		}
		/* correct the PE count in PVs */
		for (le = 0; le < lv_ptr->u.lv_allocated_le; le++) {
			vg_ptr->pe_allocated++;
			for (p = 0; p < vg_ptr->pv_cur; p++) {
				if (kdev_same(vg_ptr->pv[p]->pv_dev,
					      lv_ptr->u.lv_current_pe[le].dev))
					vg_ptr->pv[p]->pe_allocated++;
			}
		}
	} else {
		/* Get snapshot exception data and block list */
		if (lvbe != NULL) {
			lv_ptr->u.lv_snapshot_org =
			    vg_ptr->lv[LV_BLK(lv_ptr->u.lv_snapshot_minor)];
			if (lv_ptr->u.lv_snapshot_org != NULL) {
				size = lv_ptr->u.lv_remap_end * sizeof(lv_block_exception_t);

				if(!size) {
					printk(KERN_WARNING
					       "%s -- zero length exception table requested\n",
					       lvm_name);
					kfree(lv_ptr);
					return -EINVAL;
				}

				if ((lv_ptr->u.lv_block_exception = vmalloc(size)) == NULL) {
					printk(KERN_CRIT
					       "%s -- lvm_do_lv_create: vmalloc error LV_BLOCK_EXCEPTION "
					       "of %d byte at line %d\n",
					       lvm_name, size, __LINE__);
					P_KFREE("%s -- kfree %d\n", lvm_name,
						__LINE__);
					kfree(lv_ptr);
					vg_ptr->lv[l] = NULL;
					return -ENOMEM;
				}
				if (copy_from_user(lv_ptr->u.lv_block_exception, lvbe, size)) {
					vfree(lv_ptr->u.lv_block_exception);
					kfree(lv_ptr);
					vg_ptr->lv[l] = NULL;
					return -EFAULT;
				}

				if(lv_ptr->u.lv_block_exception[0].rsector_org ==
				   LVM_SNAPSHOT_DROPPED_SECTOR)
				{
					printk(KERN_WARNING
    "%s -- lvm_do_lv_create: snapshot has been dropped and will not be activated\n",
					       lvm_name);
					activate = 0;
				}


				/* point to the original logical volume */
				lv_ptr = lv_ptr->u.lv_snapshot_org;

				lv_ptr->u.lv_snapshot_minor = 0;
				lv_ptr->u.lv_snapshot_org = lv_ptr;
				/* our new one now back points to the previous last in the chain
				   which can be the original logical volume */
				lv_ptr = vg_ptr->lv[l];
				/* now lv_ptr points to our new last snapshot logical volume */
				lv_ptr->u.lv_current_pe = lv_ptr->u.lv_snapshot_org->u.lv_current_pe;
				lv_ptr->lv_allocated_snapshot_le = lv_ptr->u.lv_allocated_le;
				lv_ptr->u.lv_allocated_le = lv_ptr->u.lv_snapshot_org->u.lv_allocated_le;
				lv_ptr->u.lv_current_le = lv_ptr->u.lv_snapshot_org->u.lv_current_le;
				lv_ptr->u.lv_size = lv_ptr->u.lv_snapshot_org->u.lv_size;
				lv_ptr->u.lv_stripes = lv_ptr->u.lv_snapshot_org->u.lv_stripes;
				lv_ptr->u.lv_stripesize = lv_ptr->u.lv_snapshot_org->u.lv_stripesize;

				/* Update the VG PE(s) used by snapshot reserve space. */
				vg_ptr->pe_allocated += lv_ptr->lv_allocated_snapshot_le;

				if ((ret = lvm_snapshot_alloc(lv_ptr)) != 0)
				{
					vfree(lv_ptr->u.lv_block_exception);
					kfree(lv_ptr);
					vg_ptr->lv[l] = NULL;
					return ret;
				}
				for ( e = 0; e < lv_ptr->u.lv_remap_ptr; e++)
					lvm_hash_link (lv_ptr->u.lv_block_exception + e,
						       lv_ptr->u.lv_block_exception[e].rdev_org,
						       lv_ptr->u.lv_block_exception[e].rsector_org, lv_ptr);
				/* need to fill the COW exception table data
				   into the page for disk i/o */
                               if(lvm_snapshot_fill_COW_page(vg_ptr, lv_ptr)) {
                                       kfree(lv_ptr);
                                       vg_ptr->lv[l] = NULL;
                                       return -EINVAL;
                               }
				init_waitqueue_head(&lv_ptr->lv_snapshot_wait);
			} else {
				kfree(lv_ptr);
				vg_ptr->lv[l] = NULL;
				return -EFAULT;
			}
		} else {
			kfree(vg_ptr->lv[l]);
			vg_ptr->lv[l] = NULL;
			return -EINVAL;
		}
	} /* if ( vg[VG_CHR(minor)]->lv[l]->u.lv_access & LV_SNAPSHOT) */

	lv_ptr = vg_ptr->lv[l];
	lvm_gendisk.part[minor(lv_ptr->u.lv_dev)].start_sect = 0;
	lvm_gendisk.part[minor(lv_ptr->u.lv_dev)].nr_sects = lv_ptr->u.lv_size;
	lvm_size[minor(lv_ptr->u.lv_dev)] = lv_ptr->u.lv_size >> 1;
	vg_lv_map[minor(lv_ptr->u.lv_dev)].vg_number = vg_ptr->vg_number;
	vg_lv_map[minor(lv_ptr->u.lv_dev)].lv_number = lv_ptr->u.lv_number;
	vg_ptr->lv_cur++;
	lv_ptr->u.lv_status = lv_status_save;

	__update_hardsectsize(lv_ptr);

	/* optionally add our new snapshot LV */
	if (lv_ptr->u.lv_access & LV_SNAPSHOT) {
		lv_t *org = lv_ptr->u.lv_snapshot_org, *last;

		/* sync the original logical volume */
		fsync_dev(org->u.lv_dev);
#ifdef	LVM_VFS_ENHANCEMENT
		/* VFS function call to sync and lock the filesystem */
		fsync_dev_lockfs(org->u.lv_dev);
#endif

		down_write(&org->lv_lock);
		org->u.lv_access |= LV_SNAPSHOT_ORG;
		lv_ptr->u.lv_access &= ~LV_SNAPSHOT_ORG; /* this can only hide an userspace bug */

		/* Link in the list of snapshot volumes */
		for (last = org; last->u.lv_snapshot_next; last = last->u.lv_snapshot_next);
		lv_ptr->u.lv_snapshot_prev = last;
		last->u.lv_snapshot_next = lv_ptr;
		up_write(&org->lv_lock);
	}

	/* activate the logical volume */
	if(activate)
		lv_ptr->u.lv_status |= LV_ACTIVE;
	else
		lv_ptr->u.lv_status &= ~LV_ACTIVE;

	if ( lv_ptr->u.lv_access & LV_WRITE)
		set_device_ro(lv_ptr->u.lv_dev, 0);
	else
		set_device_ro(lv_ptr->u.lv_dev, 1);

#ifdef	LVM_VFS_ENHANCEMENT
/* VFS function call to unlock the filesystem */
	if (lv_ptr->u.lv_access & LV_SNAPSHOT)
		unlockfs(lv_ptr->u.lv_snapshot_org->u.lv_dev);
#endif

	lv_ptr->vg = vg_ptr;

	lvm_gendisk.part[minor(lv_ptr->u.lv_dev)].de =
		lvm_fs_create_lv(vg_ptr, lv_ptr);

	return 0;
} /* lvm_do_lv_create() */


/*
 * character device support function logical volume remove
 */
static int lvm_do_lv_remove(int minor, char *lv_name, int l)
{
	uint le, p;
	vg_t *vg_ptr = vg[VG_CHR(minor)];
	lv_t *lv_ptr;

	if (l == -1) {
		for (l = 0; l < vg_ptr->lv_max; l++) {
			if (vg_ptr->lv[l] != NULL &&
			    strcmp(vg_ptr->lv[l]->u.lv_name, lv_name) == 0) {
				break;
			}
		}
	}
	if (l == vg_ptr->lv_max) return -ENXIO;

	lv_ptr = vg_ptr->lv[l];
#ifdef LVM_TOTAL_RESET
	if (lv_ptr->u.lv_open > 0 && lvm_reset_spindown == 0)
#else
	if (lv_ptr->u.lv_open > 0)
#endif
		return -EBUSY;

	/* check for deletion of snapshot source while
	   snapshot volume still exists */
	if ((lv_ptr->u.lv_access & LV_SNAPSHOT_ORG) &&
	    lv_ptr->u.lv_snapshot_next != NULL)
		return -EPERM;

	lvm_fs_remove_lv(vg_ptr, lv_ptr);

	if (lv_ptr->u.lv_access & LV_SNAPSHOT) {
		/*
		 * Atomically make the the snapshot invisible
		 * to the original lv before playing with it.
		 */
		lv_t * org = lv_ptr->u.lv_snapshot_org;
		down_write(&org->lv_lock);

		/* remove this snapshot logical volume from the chain */
		lv_ptr->u.lv_snapshot_prev->u.lv_snapshot_next = lv_ptr->u.lv_snapshot_next;
		if (lv_ptr->u.lv_snapshot_next != NULL) {
			lv_ptr->u.lv_snapshot_next->u.lv_snapshot_prev =
			    lv_ptr->u.lv_snapshot_prev;
		}

		/* no more snapshots? */
		if (!org->u.lv_snapshot_next) {
			org->u.lv_access &= ~LV_SNAPSHOT_ORG;
		}
		up_write(&org->lv_lock);

		lvm_snapshot_release(lv_ptr);

		/* Update the VG PE(s) used by snapshot reserve space. */
		vg_ptr->pe_allocated -= lv_ptr->lv_allocated_snapshot_le;
	}

	lv_ptr->u.lv_status |= LV_SPINDOWN;

	/* sync the buffers */
	fsync_dev(lv_ptr->u.lv_dev);

	lv_ptr->u.lv_status &= ~LV_ACTIVE;

	/* invalidate the buffers */
	invalidate_buffers(lv_ptr->u.lv_dev);

	/* reset generic hd */
	lvm_gendisk.part[minor(lv_ptr->u.lv_dev)].start_sect = -1;
	lvm_gendisk.part[minor(lv_ptr->u.lv_dev)].nr_sects = 0;
	lvm_gendisk.part[minor(lv_ptr->u.lv_dev)].de = 0;
	lvm_size[minor(lv_ptr->u.lv_dev)] = 0;

	/* reset VG/LV mapping */
	vg_lv_map[minor(lv_ptr->u.lv_dev)].vg_number = ABS_MAX_VG;
	vg_lv_map[minor(lv_ptr->u.lv_dev)].lv_number = -1;

	/* correct the PE count in PVs if this is not a snapshot
           logical volume */
	if (!(lv_ptr->u.lv_access & LV_SNAPSHOT)) {
		/* only if this is no snapshot logical volume because
		   we share the u.lv_current_pe[] structs with the
		   original logical volume */
		for (le = 0; le < lv_ptr->u.lv_allocated_le; le++) {
			vg_ptr->pe_allocated--;
			for (p = 0; p < vg_ptr->pv_cur; p++) {
				if (kdev_same(vg_ptr->pv[p]->pv_dev,
					      lv_ptr->u.lv_current_pe[le].dev))
					vg_ptr->pv[p]->pe_allocated--;
			}
		}
		vfree(lv_ptr->u.lv_current_pe);
	}

	P_KFREE("%s -- kfree %d\n", lvm_name, __LINE__);
	kfree(lv_ptr);
	vg_ptr->lv[l] = NULL;
	vg_ptr->lv_cur--;
	return 0;
} /* lvm_do_lv_remove() */


/*
 * logical volume extend / reduce
 */
static int __extend_reduce_snapshot(vg_t *vg_ptr, lv_t *old_lv, lv_t *new_lv) {
        ulong size;
        lv_block_exception_t *lvbe;

        if (!new_lv->u.lv_block_exception)
                return -ENXIO;

        size = new_lv->u.lv_remap_end * sizeof(lv_block_exception_t);
        if ((lvbe = vmalloc(size)) == NULL) {
                printk(KERN_CRIT
                       "%s -- lvm_do_lv_extend_reduce: vmalloc "
                       "error LV_BLOCK_EXCEPTION of %lu Byte at line %d\n",
                       lvm_name, size, __LINE__);
                return -ENOMEM;
        }

        if ((new_lv->u.lv_remap_end > old_lv->u.lv_remap_end) &&
            (copy_from_user(lvbe, new_lv->u.lv_block_exception, size))) {
                vfree(lvbe);
                return -EFAULT;
        }
        new_lv->u.lv_block_exception = lvbe;

        if (lvm_snapshot_alloc_hash_table(new_lv)) {
                vfree(new_lv->u.lv_block_exception);
                return -ENOMEM;
        }

        return 0;
}

static int __extend_reduce(vg_t *vg_ptr, lv_t *old_lv, lv_t *new_lv) {
        ulong size, l, p, end;
        pe_t *pe;

        /* allocate space for new pe structures */
        size = new_lv->u.lv_current_le * sizeof(pe_t);
        if ((pe = vmalloc(size)) == NULL) {
                printk(KERN_CRIT
                       "%s -- lvm_do_lv_extend_reduce: "
                       "vmalloc error LV_CURRENT_PE of %lu Byte at line %d\n",
                       lvm_name, size, __LINE__);
                return -ENOMEM;
        }

        /* get the PE structures from user space */
        if (copy_from_user(pe, new_lv->u.lv_current_pe, size)) {
                if(old_lv->u.lv_access & LV_SNAPSHOT)
                        vfree(new_lv->lv_snapshot_hash_table);
                vfree(pe);
                return -EFAULT;
        }

        new_lv->u.lv_current_pe = pe;

        /* reduce allocation counters on PV(s) */
        for (l = 0; l < old_lv->u.lv_allocated_le; l++) {
                vg_ptr->pe_allocated--;
                for (p = 0; p < vg_ptr->pv_cur; p++) {
			if (kdev_same(vg_ptr->pv[p]->pv_dev,
				      old_lv->u.lv_current_pe[l].dev)) {
                                vg_ptr->pv[p]->pe_allocated--;
                                break;
                        }
                }
        }

        /* extend the PE count in PVs */
        for (l = 0; l < new_lv->u.lv_allocated_le; l++) {
                vg_ptr->pe_allocated++;
                for (p = 0; p < vg_ptr->pv_cur; p++) {
			if (kdev_same(vg_ptr->pv[p]->pv_dev,
				      new_lv->u.lv_current_pe[l].dev)) {
                                vg_ptr->pv[p]->pe_allocated++;
                                break;
                        }
                }
        }

        /* save availiable i/o statistic data */
        if (old_lv->u.lv_stripes < 2) {   /* linear logical volume */
                end = min(old_lv->u.lv_current_le, new_lv->u.lv_current_le);
                for (l = 0; l < end; l++) {
                        new_lv->u.lv_current_pe[l].reads +=
                                old_lv->u.lv_current_pe[l].reads;

                        new_lv->u.lv_current_pe[l].writes +=
                                old_lv->u.lv_current_pe[l].writes;
                }

        } else {                /* striped logical volume */
                uint i, j, source, dest, end, old_stripe_size, new_stripe_size;

                old_stripe_size = old_lv->u.lv_allocated_le / old_lv->u.lv_stripes;
                new_stripe_size = new_lv->u.lv_allocated_le / new_lv->u.lv_stripes;
                end = min(old_stripe_size, new_stripe_size);

                for (i = source = dest = 0;
                     i < new_lv->u.lv_stripes; i++) {
                        for (j = 0; j < end; j++) {
                                new_lv->u.lv_current_pe[dest + j].reads +=
                                    old_lv->u.lv_current_pe[source + j].reads;
                                new_lv->u.lv_current_pe[dest + j].writes +=
                                    old_lv->u.lv_current_pe[source + j].writes;
                        }
                        source += old_stripe_size;
                        dest += new_stripe_size;
                }
        }

        return 0;
}

static int lvm_do_lv_extend_reduce(int minor, char *lv_name, userlv_t *ulv)
{
        int r;
        ulong l, e, size;
        vg_t *vg_ptr = vg[VG_CHR(minor)];
        lv_t *old_lv;
	lv_t *new_lv;
        pe_t *pe;

	if((new_lv = kmalloc(sizeof(lv_t),GFP_KERNEL)) == NULL){
		printk(KERN_CRIT 
		       "%s -- LV_EXTEND/REDUCE: kmallor error LV at line %d\n",
		       lvm_name,__LINE__);
		return -ENOMEM;
	}
	memset(new_lv,0,sizeof(lv_t));
	memcpy(&new_lv->u,ulv,sizeof(userlv_t));

        if ((pe = new_lv->u.lv_current_pe) == NULL)
                return -EINVAL;

        for (l = 0; l < vg_ptr->lv_max; l++)
                if (vg_ptr->lv[l] && !strcmp(vg_ptr->lv[l]->u.lv_name, lv_name))
                        break;

        if (l == vg_ptr->lv_max)
                return -ENXIO;

        old_lv = vg_ptr->lv[l];

	if (old_lv->u.lv_access & LV_SNAPSHOT) {
		/* only perform this operation on active snapshots */
		if (old_lv->u.lv_status & LV_ACTIVE)
                r = __extend_reduce_snapshot(vg_ptr, old_lv, new_lv);
        else
			r = -EPERM;

	} else
                r = __extend_reduce(vg_ptr, old_lv, new_lv);

        if(r)
                return r;

        /* copy relevent fields */
	down_write(&old_lv->lv_lock);

        if(new_lv->u.lv_access & LV_SNAPSHOT) {
                size = (new_lv->u.lv_remap_end > old_lv->u.lv_remap_end) ?
                        old_lv->u.lv_remap_ptr : new_lv->u.lv_remap_end;
                size *= sizeof(lv_block_exception_t);
                memcpy(new_lv->u.lv_block_exception,
                       old_lv->u.lv_block_exception, size);

                old_lv->u.lv_remap_end = new_lv->u.lv_remap_end;
                old_lv->u.lv_block_exception = new_lv->u.lv_block_exception;
                old_lv->lv_snapshot_hash_table =
                        new_lv->lv_snapshot_hash_table;
                old_lv->lv_snapshot_hash_table_size =
                        new_lv->lv_snapshot_hash_table_size;
                old_lv->lv_snapshot_hash_mask =
                        new_lv->lv_snapshot_hash_mask;

                for (e = 0; e < new_lv->u.lv_remap_ptr; e++)
                        lvm_hash_link(new_lv->u.lv_block_exception + e,
                                      new_lv->u.lv_block_exception[e].rdev_org,
                                    new_lv->u.lv_block_exception[e].rsector_org,
                                      new_lv);

        } else {

                vfree(old_lv->u.lv_current_pe);
                vfree(old_lv->lv_snapshot_hash_table);

                old_lv->u.lv_size = new_lv->u.lv_size;
                old_lv->u.lv_allocated_le = new_lv->u.lv_allocated_le;
                old_lv->u.lv_current_le = new_lv->u.lv_current_le;
                old_lv->u.lv_current_pe = new_lv->u.lv_current_pe;
                lvm_gendisk.part[minor(old_lv->u.lv_dev)].nr_sects =
                        old_lv->u.lv_size;
                lvm_size[minor(old_lv->u.lv_dev)] = old_lv->u.lv_size >> 1;

                if (old_lv->u.lv_access & LV_SNAPSHOT_ORG) {
                        lv_t *snap;
                        for(snap = old_lv->u.lv_snapshot_next; snap;
                            snap = snap->u.lv_snapshot_next) {
				down_write(&snap->lv_lock);
                                snap->u.lv_current_pe = old_lv->u.lv_current_pe;
                                snap->u.lv_allocated_le =
                                        old_lv->u.lv_allocated_le;
                                snap->u.lv_current_le = old_lv->u.lv_current_le;
                                snap->u.lv_size = old_lv->u.lv_size;

                                lvm_gendisk.part[minor(snap->u.lv_dev)].nr_sects
                                        = old_lv->u.lv_size;
                                lvm_size[minor(snap->u.lv_dev)] =
                                        old_lv->u.lv_size >> 1;
                                __update_hardsectsize(snap);
				up_write(&snap->lv_lock);
                        }
                }
        }

        __update_hardsectsize(old_lv);
	up_write(&old_lv->lv_lock);

        return 0;
} /* lvm_do_lv_extend_reduce() */


/*
 * character device support function logical volume status by name
 */
static int lvm_do_lv_status_byname(vg_t *vg_ptr, void *arg)
{
	uint l;
	lv_status_byname_req_t lv_status_byname_req;
	void *saved_ptr1;
	void *saved_ptr2;
	lv_t *lv_ptr;

	if (vg_ptr == NULL) return -ENXIO;
	if (copy_from_user(&lv_status_byname_req, arg,
			   sizeof(lv_status_byname_req_t)) != 0)
		return -EFAULT;

	if (lv_status_byname_req.lv == NULL) return -EINVAL;

	for (l = 0; l < vg_ptr->lv_max; l++) {
		if ((lv_ptr = vg_ptr->lv[l]) != NULL &&
		    strcmp(lv_ptr->u.lv_name,
			   lv_status_byname_req.lv_name) == 0) {
		        /* Save usermode pointers */
		        if (copy_from_user(&saved_ptr1, &lv_status_byname_req.lv->u.lv_current_pe, sizeof(void*)) != 0)
				return -EFAULT;
			if (copy_from_user(&saved_ptr2, &lv_status_byname_req.lv->u.lv_block_exception, sizeof(void*)) != 0)
			        return -EFAULT;
		        if (copy_to_user(lv_status_byname_req.lv,
					 lv_ptr,
					 sizeof(userlv_t)) != 0)
				return -EFAULT;

			if (saved_ptr1 != NULL) {
				if (copy_to_user(saved_ptr1,
						 lv_ptr->u.lv_current_pe,
						 lv_ptr->u.lv_allocated_le *
				       		 sizeof(pe_t)) != 0)
					return -EFAULT;
			}
			/* Restore usermode pointers */
			if (copy_to_user(&lv_status_byname_req.lv->u.lv_current_pe, &saved_ptr1, sizeof(void*)) != 0)
			        return -EFAULT;
			return 0;
		}
	}
	return -ENXIO;
} /* lvm_do_lv_status_byname() */


/*
 * character device support function logical volume status by index
 */
static int lvm_do_lv_status_byindex(vg_t *vg_ptr,void *arg)
{
	lv_status_byindex_req_t lv_status_byindex_req;
	void *saved_ptr1;
	void *saved_ptr2;
	lv_t *lv_ptr;

	if (vg_ptr == NULL) return -ENXIO;
	if (copy_from_user(&lv_status_byindex_req, arg,
			   sizeof(lv_status_byindex_req)) != 0)
		return -EFAULT;

	if (lv_status_byindex_req.lv == NULL)
		return -EINVAL;
	if (lv_status_byindex_req.lv_index <0 ||
		lv_status_byindex_req.lv_index >= MAX_LV)
		return -EINVAL;
	if ( ( lv_ptr = vg_ptr->lv[lv_status_byindex_req.lv_index]) == NULL)
		return -ENXIO;

	/* Save usermode pointers */
	if (copy_from_user(&saved_ptr1, &lv_status_byindex_req.lv->u.lv_current_pe, sizeof(void*)) != 0)
	        return -EFAULT;
	if (copy_from_user(&saved_ptr2, &lv_status_byindex_req.lv->u.lv_block_exception, sizeof(void*)) != 0)
	        return -EFAULT;

	if (copy_to_user(lv_status_byindex_req.lv, lv_ptr, sizeof(userlv_t)) != 0)
		return -EFAULT;
	if (saved_ptr1 != NULL) {
		if (copy_to_user(saved_ptr1,
				 lv_ptr->u.lv_current_pe,
				 lv_ptr->u.lv_allocated_le *
		       		 sizeof(pe_t)) != 0)
			return -EFAULT;
	}

	/* Restore usermode pointers */
	if (copy_to_user(&lv_status_byindex_req.lv->u.lv_current_pe, &saved_ptr1, sizeof(void *)) != 0)
	        return -EFAULT;

	return 0;
} /* lvm_do_lv_status_byindex() */


/*
 * character device support function logical volume status by device number
 */
static int lvm_do_lv_status_bydev(vg_t * vg_ptr, void * arg) {
	int l;
	lv_status_bydev_req_t lv_status_bydev_req;
	void *saved_ptr1;
	void *saved_ptr2;
	lv_t *lv_ptr;

	if (vg_ptr == NULL) return -ENXIO;
	if (copy_from_user(&lv_status_bydev_req, arg,
			   sizeof(lv_status_bydev_req)) != 0)
		return -EFAULT;

	for ( l = 0; l < vg_ptr->lv_max; l++) {
		if ( vg_ptr->lv[l] == NULL) continue;
		if ( kdev_same(vg_ptr->lv[l]->u.lv_dev,
			       to_kdev_t(lv_status_bydev_req.dev)))
			break;
	}

	if ( l == vg_ptr->lv_max) return -ENXIO;
	lv_ptr = vg_ptr->lv[l];

	/* Save usermode pointers */
	if (copy_from_user(&saved_ptr1, &lv_status_bydev_req.lv->u.lv_current_pe, sizeof(void*)) != 0)
	        return -EFAULT;
	if (copy_from_user(&saved_ptr2, &lv_status_bydev_req.lv->u.lv_block_exception, sizeof(void*)) != 0)
	        return -EFAULT;

	if (copy_to_user(lv_status_bydev_req.lv, lv_ptr, sizeof(lv_t)) != 0)
		return -EFAULT;
	if (saved_ptr1 != NULL) {
		if (copy_to_user(saved_ptr1,
				 lv_ptr->u.lv_current_pe,
				 lv_ptr->u.lv_allocated_le *
		       		 sizeof(pe_t)) != 0)
			return -EFAULT;
	}
	/* Restore usermode pointers */
	if (copy_to_user(&lv_status_bydev_req.lv->u.lv_current_pe, &saved_ptr1, sizeof(void *)) != 0)
	        return -EFAULT;

	return 0;
} /* lvm_do_lv_status_bydev() */


/*
 * character device support function rename a logical volume
 */
static int lvm_do_lv_rename(vg_t *vg_ptr, lv_req_t *lv_req, userlv_t *ulv)
{
	int l = 0;
	int ret = 0;
	lv_t *lv_ptr = NULL;

	for (l = 0; l < vg_ptr->lv_max; l++)
	{
		if ( (lv_ptr = vg_ptr->lv[l]) == NULL) continue;
		if (kdev_same(lv_ptr->u.lv_dev, ulv->lv_dev))
		{
			lvm_fs_remove_lv(vg_ptr, lv_ptr);
			strncpy(lv_ptr->u.lv_name,
				lv_req->lv_name,
				NAME_LEN);
			lvm_fs_create_lv(vg_ptr, lv_ptr);
			break;
		}
	}
	if (l == vg_ptr->lv_max) ret = -ENODEV;

	return ret;
} /* lvm_do_lv_rename */


/*
 * character device support function physical volume change
 */
static int lvm_do_pv_change(vg_t *vg_ptr, void *arg)
{
	uint p;
	pv_t *pv_ptr;
	struct block_device *bd;

	if (vg_ptr == NULL) return -ENXIO;
	if (copy_from_user(&pv_change_req, arg,
			   sizeof(pv_change_req)) != 0)
		return -EFAULT;

	for (p = 0; p < vg_ptr->pv_max; p++) {
		pv_ptr = vg_ptr->pv[p];
		if (pv_ptr != NULL &&
		    strcmp(pv_ptr->pv_name,
			       pv_change_req.pv_name) == 0) {

			bd = pv_ptr->bd;
			if (copy_from_user(pv_ptr,
					   pv_change_req.pv,
					   sizeof(pv_t)) != 0)
				return -EFAULT;
			pv_ptr->bd = bd;

			/* We don't need the PE list
			   in kernel space as with LVs pe_t list */
			pv_ptr->pe = NULL;
			return 0;
		}
	}
	return -ENXIO;
} /* lvm_do_pv_change() */

/*
 * character device support function get physical volume status
 */
static int lvm_do_pv_status(vg_t *vg_ptr, void *arg)
{
	uint p;
	pv_t *pv_ptr;

	if (vg_ptr == NULL) return -ENXIO;
	if (copy_from_user(&pv_status_req, arg,
			   sizeof(pv_status_req)) != 0)
		return -EFAULT;

	for (p = 0; p < vg_ptr->pv_max; p++) {
		pv_ptr = vg_ptr->pv[p];
		if (pv_ptr != NULL &&
		    strcmp(pv_ptr->pv_name,
			       pv_status_req.pv_name) == 0) {
			if (copy_to_user(pv_status_req.pv,
					 pv_ptr,
				         sizeof(pv_t)) != 0)
				return -EFAULT;
			return 0;
		}
	}
	return -ENXIO;
} /* lvm_do_pv_status() */

/*
 * character device support function flush and invalidate all buffers of a PV
 */
static int lvm_do_pv_flush(void *arg)
{
       pv_flush_req_t pv_flush_req;

       if (copy_from_user(&pv_flush_req, arg,
                          sizeof(pv_flush_req)) != 0)
               return -EFAULT;

       fsync_dev(pv_flush_req.pv_dev);
       invalidate_buffers(pv_flush_req.pv_dev);

       return 0;
}

/*
 * support function initialize gendisk variables
 */
static void __init lvm_geninit(struct gendisk *lvm_gdisk)
{
	int i = 0;

#ifdef DEBUG_GENDISK
	printk(KERN_DEBUG "%s -- lvm_gendisk\n", lvm_name);
#endif

	for (i = 0; i < MAX_LV; i++) {
		lvm_gendisk.part[i].start_sect = -1;	/* avoid partition check */
		lvm_size[i] = lvm_gendisk.part[i].nr_sects = 0;
		lvm_blocksizes[i] = BLOCK_SIZE;
	}

	blk_size[MAJOR_NR] = lvm_size;
	blksize_size[MAJOR_NR] = lvm_blocksizes;

	return;
} /* lvm_gen_init() */



/* Must have down_write(_pe_lock) when we enqueue buffers */
static void _queue_io(struct bio *bh, int rw) {
	if (bh->bi_next) BUG();
	bh->bi_next = _pe_requests;
	_pe_requests = bh;
}

/* Must have down_write(_pe_lock) when we dequeue buffers */
static struct bio *_dequeue_io(void)
{
	struct bio *bh = _pe_requests;
	_pe_requests = NULL;
	return bh;
}

/*
 * We do not need to hold _pe_lock to flush buffers.  bh should be taken from
 * _pe_requests under down_write(_pe_lock), and then _pe_requests can be set
 * NULL and we drop _pe_lock.  Any new buffers defered at this time will be
 * added to a new list, and the old buffers can have their I/O restarted
 * asynchronously.
 *
 * If, for some reason, the same PE is locked again before all of these writes
 * have finished, then these buffers will just be re-queued (i.e. no danger).
 */
static void _flush_io(struct bio *bh)
{
	while (bh) {
		struct bio *next = bh->bi_next;
		bh->bi_next = NULL;
		/* resubmit this buffer head */
		bh->bi_rw = WRITE; /* needed? */
		generic_make_request(bh);
		bh = next;
	}
}

/*
 * we must open the pv's before we use them
 */
static int _open_pv(pv_t *pv) {
	int err;
	struct block_device *bd;

	if (!(bd = bdget(kdev_t_to_nr(pv->pv_dev))))
		return -ENOMEM;

	err = blkdev_get(bd, FMODE_READ|FMODE_WRITE, 0, BDEV_FILE);
	if (err)
		return err;

	pv->bd = bd;
	return 0;
}

static void _close_pv(pv_t *pv) {
	if (pv) {
		struct block_device *bdev = pv->bd;
		pv->bd = NULL;
		if (bdev)
			blkdev_put(bdev, BDEV_FILE);
	}
}

static unsigned long _sectors_to_k(unsigned long sect)
{
	if(SECTOR_SIZE > 1024) {
		return sect * (SECTOR_SIZE / 1024);
	}

	return sect / (1024 / SECTOR_SIZE);
}

module_init(lvm_init);
module_exit(lvm_cleanup);
MODULE_LICENSE("GPL");