ufs/ffs/ffs_snapshot.c

 1.1  hannken /*
 1.1  hannken  * Copyright 2000 Marshall Kirk McKusick. All Rights Reserved.
 1.1  hannken  *
 1.1  hannken  * Further information about snapshots can be obtained from:
 1.1  hannken  *
 1.1  hannken  *	Marshall Kirk McKusick		http://www.mckusick.com/softdep/
 1.1  hannken  *	1614 Oxford Street		mckusick (at) mckusick.com
 1.1  hannken  *	Berkeley, CA 94709-1608		+1-510-843-9542
 1.1  hannken  *	USA
 1.1  hannken  *
 1.1  hannken  * Redistribution and use in source and binary forms, with or without
 1.1  hannken  * modification, are permitted provided that the following conditions
 1.1  hannken  * are met:
 1.1  hannken  *
 1.1  hannken  * 1. Redistributions of source code must retain the above copyright
 1.1  hannken  *    notice, this list of conditions and the following disclaimer.
 1.1  hannken  * 2. Redistributions in binary form must reproduce the above copyright
 1.1  hannken  *    notice, this list of conditions and the following disclaimer in the
 1.1  hannken  *    documentation and/or other materials provided with the distribution.
 1.1  hannken  *
 1.1  hannken  * THIS SOFTWARE IS PROVIDED BY MARSHALL KIRK MCKUSICK ``AS IS'' AND ANY
 1.1  hannken  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 1.1  hannken  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 1.1  hannken  * DISCLAIMED.  IN NO EVENT SHALL MARSHALL KIRK MCKUSICK BE LIABLE FOR
 1.1  hannken  * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 1.1  hannken  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 1.1  hannken  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 1.1  hannken  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 1.1  hannken  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 1.1  hannken  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 1.1  hannken  * SUCH DAMAGE.
 1.1  hannken  *
 1.1  hannken  *	@(#)ffs_snapshot.c	8.11 (McKusick) 7/23/00
 1.1  hannken  *
 1.1  hannken  *	from FreeBSD: ffs_snapshot.c,v 1.79 2004/02/13 02:02:06 kuriyama Exp
 1.1  hannken  */
 1.1  hannken
 1.1  hannken #include <sys/cdefs.h>
1.13  hannken __KERNEL_RCSID(0, "$NetBSD: ffs_snapshot.c,v 1.13 2005/04/24 15:49:37 hannken Exp $");
 1.8  hannken
 1.8  hannken #if defined(_KERNEL_OPT)
 1.8  hannken #include "opt_ffs.h"
 1.8  hannken #endif
 1.1  hannken
 1.1  hannken #include <sys/param.h>
 1.1  hannken #include <sys/kernel.h>
 1.1  hannken #include <sys/systm.h>
 1.1  hannken #include <sys/conf.h>
 1.1  hannken #include <sys/buf.h>
 1.1  hannken #include <sys/proc.h>
 1.1  hannken #include <sys/namei.h>
 1.1  hannken #include <sys/sched.h>
 1.1  hannken #include <sys/stat.h>
 1.1  hannken #include <sys/malloc.h>
 1.1  hannken #include <sys/mount.h>
 1.1  hannken #include <sys/resource.h>
 1.1  hannken #include <sys/resourcevar.h>
 1.1  hannken #include <sys/vnode.h>
 1.1  hannken
 1.1  hannken #include <miscfs/specfs/specdev.h>
 1.1  hannken
 1.1  hannken #include <ufs/ufs/quota.h>
 1.1  hannken #include <ufs/ufs/ufsmount.h>
 1.1  hannken #include <ufs/ufs/inode.h>
 1.1  hannken #include <ufs/ufs/ufs_extern.h>
 1.1  hannken #include <ufs/ufs/ufs_bswap.h>
 1.1  hannken
 1.1  hannken #include <ufs/ffs/fs.h>
 1.1  hannken #include <ufs/ffs/ffs_extern.h>
 1.1  hannken
 1.1  hannken /* FreeBSD -> NetBSD conversion */
 1.1  hannken #define KERNCRED	proc0.p_ucred
 1.1  hannken #define ufs1_daddr_t	int32_t
 1.1  hannken #define ufs2_daddr_t	int64_t
 1.1  hannken #define ufs_lbn_t	daddr_t
 1.1  hannken #define VI_MTX(v)	(&(v)->v_interlock)
 1.1  hannken #define VI_LOCK(v)	simple_lock(&(v)->v_interlock)
 1.1  hannken #define VI_UNLOCK(v)	simple_unlock(&(v)->v_interlock)
 1.1  hannken #define MNT_ILOCK(v)	simple_lock(&mntvnode_slock)
 1.1  hannken #define MNT_IUNLOCK(v)	simple_unlock(&mntvnode_slock)
 1.1  hannken
1.10  hannken #if !defined(FFS_NO_SNAPSHOT)
 1.1  hannken static int cgaccount(int, struct vnode *, caddr_t, int);
 1.1  hannken static int expunge_ufs1(struct vnode *, struct inode *, struct fs *,
 1.1  hannken     int (*)(struct vnode *, ufs1_daddr_t *, ufs1_daddr_t *, struct fs *,
 1.1  hannken     ufs_lbn_t, int), int);
 1.1  hannken static int indiracct_ufs1(struct vnode *, struct vnode *, int,
 1.1  hannken     ufs1_daddr_t, ufs_lbn_t, ufs_lbn_t, ufs_lbn_t, ufs_lbn_t, struct fs *,
 1.1  hannken     int (*)(struct vnode *, ufs1_daddr_t *, ufs1_daddr_t *, struct fs *,
 1.1  hannken     ufs_lbn_t, int), int);
 1.1  hannken static int fullacct_ufs1(struct vnode *, ufs1_daddr_t *, ufs1_daddr_t *,
 1.1  hannken     struct fs *, ufs_lbn_t, int);
 1.1  hannken static int snapacct_ufs1(struct vnode *, ufs1_daddr_t *, ufs1_daddr_t *,
 1.1  hannken     struct fs *, ufs_lbn_t, int);
 1.1  hannken static int mapacct_ufs1(struct vnode *, ufs1_daddr_t *, ufs1_daddr_t *,
 1.1  hannken     struct fs *, ufs_lbn_t, int);
 1.1  hannken static int expunge_ufs2(struct vnode *, struct inode *, struct fs *,
 1.1  hannken     int (*)(struct vnode *, ufs2_daddr_t *, ufs2_daddr_t *, struct fs *,
 1.1  hannken     ufs_lbn_t, int), int);
 1.1  hannken static int indiracct_ufs2(struct vnode *, struct vnode *, int,
 1.1  hannken     ufs2_daddr_t, ufs_lbn_t, ufs_lbn_t, ufs_lbn_t, ufs_lbn_t, struct fs *,
 1.1  hannken     int (*)(struct vnode *, ufs2_daddr_t *, ufs2_daddr_t *, struct fs *,
 1.1  hannken     ufs_lbn_t, int), int);
 1.1  hannken static int fullacct_ufs2(struct vnode *, ufs2_daddr_t *, ufs2_daddr_t *,
 1.1  hannken     struct fs *, ufs_lbn_t, int);
 1.1  hannken static int snapacct_ufs2(struct vnode *, ufs2_daddr_t *, ufs2_daddr_t *,
 1.1  hannken     struct fs *, ufs_lbn_t, int);
 1.1  hannken static int mapacct_ufs2(struct vnode *, ufs2_daddr_t *, ufs2_daddr_t *,
 1.1  hannken     struct fs *, ufs_lbn_t, int);
1.10  hannken #endif /* !defined(FFS_NO_SNAPSHOT) */
1.10  hannken
 1.1  hannken static int ffs_copyonwrite(void *, struct buf *);
 1.1  hannken static int readfsblk(struct vnode *, caddr_t, ufs2_daddr_t);
1.10  hannken static int __unused readvnblk(struct vnode *, caddr_t, ufs2_daddr_t);
 1.1  hannken static int writevnblk(struct vnode *, caddr_t, ufs2_daddr_t);
 1.4  hannken static inline int cow_enter(void);
 1.4  hannken static inline void cow_leave(int);
 1.1  hannken static inline ufs2_daddr_t db_get(struct inode *, int);
 1.1  hannken static inline void db_assign(struct inode *, int, ufs2_daddr_t);
 1.1  hannken static inline ufs2_daddr_t idb_get(struct inode *, caddr_t, int);
 1.1  hannken static inline void idb_assign(struct inode *, caddr_t, int, ufs2_daddr_t);
 1.1  hannken
 1.1  hannken #ifdef DEBUG
 1.1  hannken static int snapdebug = 0;
 1.1  hannken #endif
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Create a snapshot file and initialize it for the filesystem.
 1.4  hannken  * Vnode is locked on entry and return.
 1.1  hannken  */
 1.1  hannken int
 1.1  hannken ffs_snapshot(mp, vp, ctime)
 1.1  hannken 	struct mount *mp;
 1.1  hannken 	struct vnode *vp;
 1.1  hannken 	struct timespec *ctime;
 1.1  hannken {
1.10  hannken #if defined(FFS_NO_SNAPSHOT)
1.10  hannken 	return EOPNOTSUPP;
1.10  hannken }
1.10  hannken #else /* defined(FFS_NO_SNAPSHOT) */
 1.1  hannken 	ufs2_daddr_t numblks, blkno, *blkp, snaplistsize = 0, *snapblklist;
 1.1  hannken 	int error, ns, cg, snaploc;
 1.1  hannken 	int i, size, len, loc;
 1.1  hannken 	int flag = mp->mnt_flag;
 1.1  hannken 	struct timeval starttime;
 1.1  hannken #ifdef DEBUG
 1.1  hannken 	struct timeval endtime;
 1.1  hannken #endif
 1.1  hannken 	struct timespec ts;
 1.1  hannken 	long redo = 0;
 1.1  hannken 	int32_t *lp;
 1.1  hannken 	void *space;
 1.1  hannken 	caddr_t cgbuf;
 1.1  hannken 	struct ufsmount *ump = VFSTOUFS(mp);
 1.1  hannken 	struct fs *copy_fs = NULL, *fs = ump->um_fs;
 1.1  hannken 	struct proc *p = curproc;
 1.1  hannken 	struct inode *ip, *xp;
 1.1  hannken 	struct buf *bp, *ibp;
 1.1  hannken 	struct vattr vat;
 1.1  hannken 	struct vnode *xvp, *nvp, *devvp;
 1.1  hannken
 1.1  hannken 	ns = UFS_FSNEEDSWAP(fs);
 1.1  hannken 	/*
 1.1  hannken 	 * Need to serialize access to snapshot code per filesystem.
 1.1  hannken 	 */
 1.1  hannken 	/*
 1.1  hannken 	 * If the vnode already is a snapshot, return.
 1.1  hannken 	 */
 1.1  hannken 	if (VTOI(vp)->i_flags & SF_SNAPSHOT) {
 1.1  hannken 		if (ctime) {
 1.1  hannken 			ctime->tv_sec = DIP(VTOI(vp), mtime);
 1.1  hannken 			ctime->tv_nsec = DIP(VTOI(vp), mtimensec);
 1.1  hannken 		}
 1.1  hannken 		return 0;
 1.1  hannken 	}
 1.1  hannken 	/*
 1.9  hannken 	 * Check mount, exclusive reference and owner.
 1.1  hannken 	 */
 1.4  hannken 	if (vp->v_mount != mp)
 1.1  hannken 		return EXDEV;
 1.4  hannken 	if (vp->v_usecount != 1 || vp->v_writecount != 0)
 1.1  hannken 		return EBUSY;
 1.9  hannken 	if (suser(p->p_ucred, &p->p_acflag) != 0 &&
 1.9  hannken 	    VTOI(vp)->i_uid != p->p_ucred->cr_uid)
 1.9  hannken 		return EACCES;
 1.9  hannken
 1.1  hannken 	if (vp->v_size != 0) {
 1.1  hannken 		error = VOP_TRUNCATE(vp, 0, 0, NOCRED, p);
 1.4  hannken 		if (error)
 1.1  hannken 			return error;
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Assign a snapshot slot in the superblock.
 1.1  hannken 	 */
 1.1  hannken 	for (snaploc = 0; snaploc < FSMAXSNAP; snaploc++)
 1.1  hannken 		if (fs->fs_snapinum[snaploc] == 0)
 1.1  hannken 			break;
 1.1  hannken 	if (snaploc == FSMAXSNAP)
 1.1  hannken 		return (ENOSPC);
 1.1  hannken 	ip = VTOI(vp);
 1.1  hannken 	devvp = ip->i_devvp;
 1.1  hannken 	/*
 1.1  hannken 	 * Allocate and copy the last block contents so as to be able
 1.1  hannken 	 * to set size to that of the filesystem.
 1.1  hannken 	 */
 1.1  hannken 	numblks = howmany(fs->fs_size, fs->fs_frag);
 1.1  hannken 	cgbuf = malloc(fs->fs_bsize, M_UFSMNT, M_WAITOK);
 1.1  hannken 	if ((error = readfsblk(vp, cgbuf, numblks - 1)) != 0)
 1.1  hannken 		goto out;
 1.1  hannken 	error = vn_rdwr(UIO_WRITE, vp,
 1.1  hannken 	    cgbuf, fs->fs_bsize, lblktosize(fs, (off_t)(numblks - 1)),
 1.7    skrll 	    UIO_SYSSPACE, IO_NODELOCKED|IO_UNIT, p->p_ucred, NULL, NULL);
 1.1  hannken 	if (error)
 1.1  hannken 		goto out;
 1.1  hannken 	/*
 1.1  hannken 	 * Preallocate critical data structures so that we can copy
 1.1  hannken 	 * them in without further allocation after we suspend all
 1.1  hannken 	 * operations on the filesystem. We would like to just release
 1.1  hannken 	 * the allocated buffers without writing them since they will
 1.1  hannken 	 * be filled in below once we are ready to go, but this upsets
 1.1  hannken 	 * the soft update code, so we go ahead and write the new buffers.
 1.1  hannken 	 *
 1.1  hannken 	 * Allocate all indirect blocks and mark all of them as not
 1.1  hannken 	 * needing to be copied.
 1.1  hannken 	 */
 1.1  hannken 	for (blkno = NDADDR; blkno < numblks; blkno += NINDIR(fs)) {
 1.1  hannken 		error = VOP_BALLOC(vp, lblktosize(fs, (off_t)blkno),
 1.1  hannken 		    fs->fs_bsize, p->p_ucred, B_METAONLY, &ibp);
 1.1  hannken 		if (error)
 1.1  hannken 			goto out;
 1.1  hannken 		bwrite(ibp);
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Allocate copies for the superblock and its summary information.
 1.1  hannken 	 */
 1.1  hannken 	bzero(cgbuf, fs->fs_bsize);
 1.1  hannken 	blkno = lblkno(fs, fs->fs_sblockloc);
 1.1  hannken 	for (loc = 0; loc < howmany(fs->fs_sbsize, fs->fs_bsize); loc++)
 1.1  hannken 		if ((error = writevnblk(vp, cgbuf, blkno + loc)) != 0)
 1.1  hannken 			goto out;
 1.1  hannken 	blkno = fragstoblks(fs, fs->fs_csaddr);
 1.1  hannken 	for (loc = 0; loc < howmany(fs->fs_cssize, fs->fs_bsize); loc++)
 1.1  hannken 		if ((error = writevnblk(vp, cgbuf, blkno + loc)) != 0)
 1.1  hannken 			goto out;
 1.1  hannken 	/*
 1.1  hannken 	 * Allocate all cylinder group blocks.
 1.1  hannken 	 */
 1.1  hannken 	for (cg = 0; cg < fs->fs_ncg; cg++)
 1.1  hannken 		if ((error = writevnblk(vp, cgbuf,
 1.1  hannken 		    fragstoblks(fs, cgtod(fs, cg)))) != 0)
 1.1  hannken 			goto out;
 1.1  hannken 	/*
 1.1  hannken 	 * Copy all the cylinder group maps. Although the
 1.1  hannken 	 * filesystem is still active, we hope that only a few
 1.1  hannken 	 * cylinder groups will change between now and when we
 1.1  hannken 	 * suspend operations. Thus, we will be able to quickly
 1.1  hannken 	 * touch up the few cylinder groups that changed during
 1.1  hannken 	 * the suspension period.
 1.1  hannken 	 */
 1.1  hannken 	len = howmany(fs->fs_ncg, NBBY);
 1.1  hannken 	MALLOC(fs->fs_active, u_char *, len, M_DEVBUF, M_WAITOK | M_ZERO);
 1.1  hannken 	for (cg = 0; cg < fs->fs_ncg; cg++) {
 1.1  hannken 		if ((error = cgaccount(cg, vp, cgbuf, 1)) != 0)
 1.1  hannken 			goto out;
 1.1  hannken 		if ((error = writevnblk(vp, cgbuf,
 1.1  hannken 		    fragstoblks(fs, cgtod(fs, cg)))) != 0)
 1.1  hannken 			goto out;
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Change inode to snapshot type file.
 1.1  hannken 	 */
 1.1  hannken 	ip->i_flags |= SF_SNAPSHOT;
 1.1  hannken 	DIP_ASSIGN(ip, flags, ip->i_flags);
 1.1  hannken 	ip->i_flag |= IN_CHANGE | IN_UPDATE;
 1.1  hannken 	/*
 1.1  hannken 	 * Ensure that the snapshot is completely on disk.
 1.1  hannken 	 * Since we have marked it as a snapshot it is safe to
 1.1  hannken 	 * unlock it as no process will be allowed to write to it.
 1.1  hannken 	 */
 1.1  hannken 	if ((error = VOP_FSYNC(vp, KERNCRED, FSYNC_WAIT, 0, 0, p)) != 0)
 1.1  hannken 		goto out;
 1.1  hannken 	VOP_UNLOCK(vp, 0);
 1.1  hannken 	/*
 1.1  hannken 	 * All allocations are done, so we can now snapshot the system.
 1.1  hannken 	 *
 1.1  hannken 	 * Suspend operation on filesystem.
 1.1  hannken 	 */
 1.1  hannken 	if ((error = vfs_write_suspend(vp->v_mount, PUSER|PCATCH, 0)) != 0) {
 1.1  hannken 		vn_lock(vp, LK_EXCLUSIVE | LK_RETRY);
 1.1  hannken 		goto out;
 1.1  hannken 	}
 1.1  hannken 	vn_lock(vp, LK_EXCLUSIVE | LK_RETRY);
 1.1  hannken 	microtime(&starttime);
 1.1  hannken 	/*
1.13  hannken 	 * If the last cylinder group has changed the last block
1.13  hannken 	 * saved before may have changed too so update it now.
1.13  hannken 	 */
1.13  hannken 	if (!ACTIVECG_ISSET(fs, fs->fs_ncg-1)) {
1.13  hannken 		if ((error = readfsblk(vp, cgbuf, numblks - 1)) != 0)
1.13  hannken 			goto out1;
1.13  hannken 		if ((error = writevnblk(vp, cgbuf, numblks - 1)) != 0)
1.13  hannken 			goto out1;
1.13  hannken 	}
1.13  hannken 	/*
 1.1  hannken 	 * First, copy all the cylinder group maps that have changed.
 1.1  hannken 	 */
 1.1  hannken 	for (cg = 0; cg < fs->fs_ncg; cg++) {
 1.1  hannken 		if (ACTIVECG_ISSET(fs, cg))
 1.1  hannken 			continue;
 1.1  hannken 		redo++;
 1.1  hannken 		if ((error = cgaccount(cg, vp, cgbuf, 2)) != 0)
 1.1  hannken 			goto out1;
 1.1  hannken 		if ((error = writevnblk(vp, cgbuf,
 1.1  hannken 		    fragstoblks(fs, cgtod(fs, cg)))) != 0)
 1.1  hannken 			goto out1;
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Grab a copy of the superblock and its summary information.
 1.1  hannken 	 * We delay writing it until the suspension is released below.
 1.1  hannken 	 */
 1.1  hannken 	loc = blkoff(fs, fs->fs_sblockloc);
 1.1  hannken 	if (loc > 0)
 1.1  hannken 		bzero(&cgbuf[0], loc);
 1.1  hannken 	copy_fs = (struct fs *)(cgbuf + loc);
 1.1  hannken 	bcopy(fs, copy_fs, fs->fs_sbsize);
 1.1  hannken 	size = fs->fs_bsize < SBLOCKSIZE ? fs->fs_bsize : SBLOCKSIZE;
 1.1  hannken 	if (fs->fs_sbsize < size)
 1.1  hannken 		bzero(&cgbuf[loc + fs->fs_sbsize], size - fs->fs_sbsize);
 1.1  hannken 	size = blkroundup(fs, fs->fs_cssize);
 1.1  hannken 	if (fs->fs_contigsumsize > 0)
 1.1  hannken 		size += fs->fs_ncg * sizeof(int32_t);
 1.1  hannken 	space = malloc((u_long)size, M_UFSMNT, M_WAITOK);
 1.1  hannken 	copy_fs->fs_csp = space;
 1.1  hannken 	bcopy(fs->fs_csp, copy_fs->fs_csp, fs->fs_cssize);
1.12     yamt 	space = (char *)space + fs->fs_cssize;
 1.1  hannken 	loc = howmany(fs->fs_cssize, fs->fs_fsize);
 1.1  hannken 	i = fs->fs_frag - loc % fs->fs_frag;
 1.1  hannken 	len = (i == fs->fs_frag) ? 0 : i * fs->fs_fsize;
 1.1  hannken 	if (len > 0) {
 1.1  hannken 		if ((error = bread(devvp, fsbtodb(fs, fs->fs_csaddr + loc),
 1.1  hannken 		    len, KERNCRED, &bp)) != 0) {
 1.1  hannken 			brelse(bp);
 1.1  hannken 			free(copy_fs->fs_csp, M_UFSMNT);
 1.1  hannken 			goto out1;
 1.1  hannken 		}
 1.1  hannken 		bcopy(bp->b_data, space, (u_int)len);
1.12     yamt 		space = (char *)space + len;
 1.1  hannken 		bp->b_flags |= B_INVAL | B_NOCACHE;
 1.1  hannken 		brelse(bp);
 1.1  hannken 	}
 1.1  hannken 	if (fs->fs_contigsumsize > 0) {
 1.1  hannken 		copy_fs->fs_maxcluster = lp = space;
 1.1  hannken 		for (i = 0; i < fs->fs_ncg; i++)
 1.1  hannken 			*lp++ = fs->fs_contigsumsize;
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * We must check for active files that have been unlinked
 1.1  hannken 	 * (e.g., with a zero link count). We have to expunge all
 1.1  hannken 	 * trace of these files from the snapshot so that they are
 1.1  hannken 	 * not reclaimed prematurely by fsck or unnecessarily dumped.
 1.1  hannken 	 * We turn off the MNTK_SUSPENDED flag to avoid a panic from
 1.1  hannken 	 * spec_strategy about writing on a suspended filesystem.
 1.1  hannken 	 * Note that we skip unlinked snapshot files as they will
 1.1  hannken 	 * be handled separately below.
 1.1  hannken 	 *
 1.1  hannken 	 * We also calculate the needed size for the snapshot list.
 1.1  hannken 	 */
 1.1  hannken 	snaplistsize = fs->fs_ncg + howmany(fs->fs_cssize, fs->fs_bsize) +
 1.1  hannken 	    FSMAXSNAP + 1 /* superblock */ + 1 /* last block */ + 1 /* size */;
 1.1  hannken 	MNT_ILOCK(mp);
 1.1  hannken loop:
 1.1  hannken 	for (xvp = LIST_FIRST(&mp->mnt_vnodelist); xvp; xvp = nvp) {
 1.1  hannken 		/*
 1.1  hannken 		 * Make sure this vnode wasn't reclaimed in getnewvnode().
 1.1  hannken 		 * Start over if it has (it won't be on the list anymore).
 1.1  hannken 		 */
 1.1  hannken 		if (xvp->v_mount != mp)
 1.1  hannken 			goto loop;
 1.1  hannken 		nvp = LIST_NEXT(xvp, v_mntvnodes);
 1.1  hannken 		VI_LOCK(xvp);
 1.1  hannken 		MNT_IUNLOCK(mp);
 1.1  hannken 		if ((xvp->v_flag & VXLOCK) ||
 1.1  hannken 		    xvp->v_usecount == 0 || xvp->v_type == VNON ||
 1.1  hannken 		    (VTOI(xvp)->i_flags & SF_SNAPSHOT)) {
 1.1  hannken 			VI_UNLOCK(xvp);
 1.1  hannken 			MNT_ILOCK(mp);
 1.1  hannken 			continue;
 1.1  hannken 		}
 1.1  hannken 		if (vn_lock(xvp, LK_EXCLUSIVE | LK_INTERLOCK) != 0) {
 1.1  hannken 			MNT_ILOCK(mp);
 1.1  hannken 			goto loop;
 1.1  hannken 		}
 1.1  hannken #ifdef DEBUG
 1.1  hannken 		if (snapdebug)
 1.1  hannken 			vprint("ffs_snapshot: busy vnode", xvp);
 1.1  hannken #endif
 1.1  hannken 		if (VOP_GETATTR(xvp, &vat, p->p_ucred, p) == 0 &&
 1.1  hannken 		    vat.va_nlink > 0) {
 1.1  hannken 			VOP_UNLOCK(xvp, 0);
 1.1  hannken 			MNT_ILOCK(mp);
 1.1  hannken 			continue;
 1.1  hannken 		}
 1.1  hannken 		xp = VTOI(xvp);
 1.1  hannken 		if (ffs_checkfreefile(copy_fs, vp, xp->i_number)) {
 1.1  hannken 			VOP_UNLOCK(xvp, 0);
 1.1  hannken 			MNT_ILOCK(mp);
 1.1  hannken 			continue;
 1.1  hannken 		}
 1.1  hannken 		/*
 1.1  hannken 		 * If there is a fragment, clear it here.
 1.1  hannken 		 */
 1.1  hannken 		blkno = 0;
 1.1  hannken 		loc = howmany(xp->i_size, fs->fs_bsize) - 1;
 1.1  hannken 		if (loc < NDADDR) {
 1.1  hannken 			len = fragroundup(fs, blkoff(fs, xp->i_size));
 1.5  hannken 			if (len > 0 && len < fs->fs_bsize) {
 1.1  hannken 				ffs_blkfree(copy_fs, vp, db_get(xp, loc),
 1.1  hannken 				    len, xp->i_number);
 1.1  hannken 				blkno = db_get(xp, loc);
 1.1  hannken 				db_assign(xp, loc, 0);
 1.1  hannken 			}
 1.1  hannken 		}
 1.1  hannken 		snaplistsize += 1;
 1.1  hannken 		if (xp->i_ump->um_fstype == UFS1)
 1.1  hannken 			error = expunge_ufs1(vp, xp, copy_fs, fullacct_ufs1,
 1.1  hannken 			    BLK_NOCOPY);
 1.1  hannken 		else
 1.1  hannken 			error = expunge_ufs2(vp, xp, copy_fs, fullacct_ufs2,
 1.1  hannken 			    BLK_NOCOPY);
 1.1  hannken 		if (blkno)
 1.1  hannken 			db_assign(xp, loc, blkno);
 1.6  hannken 		if (!error)
 1.6  hannken 			error = ffs_freefile(copy_fs, vp, xp->i_number,
 1.6  hannken 			    xp->i_mode);
 1.1  hannken 		VOP_UNLOCK(xvp, 0);
 1.1  hannken 		if (error) {
 1.1  hannken 			free(copy_fs->fs_csp, M_UFSMNT);
 1.1  hannken 			goto out1;
 1.1  hannken 		}
 1.1  hannken 		MNT_ILOCK(mp);
 1.1  hannken 	}
 1.1  hannken 	MNT_IUNLOCK(mp);
 1.1  hannken 	/*
 1.1  hannken 	 * If there already exist snapshots on this filesystem, grab a
 1.1  hannken 	 * reference to their shared lock. If this is the first snapshot
 1.1  hannken 	 * on this filesystem, we need to allocate a lock for the snapshots
 1.1  hannken 	 * to share. In either case, acquire the snapshot lock and give
 1.1  hannken 	 * up our original private lock.
 1.1  hannken 	 */
 1.1  hannken 	VI_LOCK(devvp);
 1.1  hannken 	if ((xp = TAILQ_FIRST(&ump->um_snapshots)) != NULL) {
 1.1  hannken 		struct lock *lkp;
 1.1  hannken
 1.1  hannken 		lkp = ITOV(xp)->v_vnlock;
 1.1  hannken 		VI_UNLOCK(devvp);
 1.1  hannken 		VI_LOCK(vp);
 1.1  hannken 		vp->v_vnlock = lkp;
 1.1  hannken 	} else {
 1.1  hannken 		struct lock *lkp;
 1.1  hannken
 1.1  hannken 		VI_UNLOCK(devvp);
 1.1  hannken 		MALLOC(lkp, struct lock *, sizeof(struct lock), M_UFSMNT,
 1.1  hannken 		    M_WAITOK);
 1.1  hannken 		lockinit(lkp, PVFS, "snaplk", 0, LK_CANRECURSE);
 1.1  hannken 		VI_LOCK(vp);
 1.1  hannken 		vp->v_vnlock = lkp;
 1.1  hannken 	}
 1.1  hannken 	vn_lock(vp, LK_INTERLOCK | LK_EXCLUSIVE | LK_RETRY);
 1.1  hannken 	transferlockers(&vp->v_lock, vp->v_vnlock);
 1.1  hannken 	lockmgr(&vp->v_lock, LK_RELEASE, NULL);
 1.1  hannken 	/*
 1.1  hannken 	 * If this is the first snapshot on this filesystem, then we need
 1.1  hannken 	 * to allocate the space for the list of preallocated snapshot blocks.
 1.1  hannken 	 * This list will be refined below, but this preliminary one will
 1.1  hannken 	 * keep us out of deadlock until the full one is ready.
 1.1  hannken 	 */
 1.1  hannken 	if (xp == NULL) {
 1.1  hannken 		MALLOC(snapblklist, ufs2_daddr_t *,
 1.1  hannken 		    snaplistsize * sizeof(ufs2_daddr_t), M_UFSMNT, M_WAITOK);
 1.1  hannken 		blkp = &snapblklist[1];
 1.1  hannken 		*blkp++ = ufs_rw64(lblkno(fs, fs->fs_sblockloc), ns);
 1.1  hannken 		blkno = fragstoblks(fs, fs->fs_csaddr);
 1.1  hannken 		for (cg = 0; cg < fs->fs_ncg; cg++) {
 1.1  hannken 			if (fragstoblks(fs, cgtod(fs, cg) > blkno))
 1.1  hannken 				break;
 1.1  hannken 			*blkp++ = ufs_rw64(fragstoblks(fs, cgtod(fs, cg)), ns);
 1.1  hannken 		}
 1.1  hannken 		len = howmany(fs->fs_cssize, fs->fs_bsize);
 1.1  hannken 		for (loc = 0; loc < len; loc++)
 1.1  hannken 			*blkp++ = ufs_rw64(blkno + loc, ns);
 1.1  hannken 		for (; cg < fs->fs_ncg; cg++)
 1.1  hannken 			*blkp++ = ufs_rw64(fragstoblks(fs, cgtod(fs, cg)), ns);
 1.1  hannken 		snapblklist[0] = ufs_rw64(blkp - snapblklist, ns);
 1.1  hannken 		VI_LOCK(devvp);
 1.1  hannken 		if (ump->um_snapblklist != NULL)
 1.1  hannken 			panic("ffs_snapshot: non-empty list");
 1.1  hannken 		ump->um_snapblklist = snapblklist;
 1.1  hannken 		ump->um_snaplistsize = blkp - snapblklist;
 1.1  hannken 		VI_UNLOCK(devvp);
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Record snapshot inode. Since this is the newest snapshot,
 1.1  hannken 	 * it must be placed at the end of the list.
 1.1  hannken 	 */
 1.1  hannken 	VI_LOCK(devvp);
 1.1  hannken 	fs->fs_snapinum[snaploc] = ip->i_number;
 1.1  hannken 	if (ip->i_nextsnap.tqe_prev != 0)
 1.1  hannken 		panic("ffs_snapshot: %d already on list", ip->i_number);
 1.1  hannken 	TAILQ_INSERT_TAIL(&ump->um_snapshots, ip, i_nextsnap);
 1.1  hannken 	VI_UNLOCK(devvp);
 1.1  hannken 	if (xp == NULL)
 1.1  hannken 		vn_cow_establish(devvp, ffs_copyonwrite, devvp);
 1.1  hannken 	vp->v_flag |= VSYSTEM;
 1.1  hannken out1:
 1.1  hannken 	/*
 1.1  hannken 	 * Resume operation on filesystem.
 1.1  hannken 	 */
 1.1  hannken 	vfs_write_resume(vp->v_mount);
 1.1  hannken 	/*
 1.1  hannken 	 * Set the mtime to the time the snapshot has been taken.
 1.1  hannken 	 */
 1.1  hannken 	TIMEVAL_TO_TIMESPEC(&starttime, &ts);
 1.1  hannken 	if (ctime)
 1.1  hannken 		*ctime = ts;
 1.1  hannken 	DIP_ASSIGN(ip, mtime, ts.tv_sec);
 1.1  hannken 	DIP_ASSIGN(ip, mtimensec, ts.tv_nsec);
 1.1  hannken 	ip->i_flag |= IN_CHANGE | IN_UPDATE;
 1.1  hannken
 1.1  hannken #ifdef DEBUG
 1.1  hannken 	if (starttime.tv_sec > 0) {
 1.1  hannken 		microtime(&endtime);
 1.1  hannken 		timersub(&endtime, &starttime, &endtime);
 1.1  hannken 		printf("%s: suspended %ld.%03ld sec, redo %ld of %d\n",
 1.1  hannken 		    vp->v_mount->mnt_stat.f_mntonname, (long)endtime.tv_sec,
 1.1  hannken 		    endtime.tv_usec / 1000, redo, fs->fs_ncg);
 1.1  hannken 	}
 1.1  hannken #endif
 1.1  hannken 	if (error)
 1.1  hannken 		goto out;
 1.1  hannken 	/*
 1.1  hannken 	 * Copy allocation information from all the snapshots in
 1.1  hannken 	 * this snapshot and then expunge them from its view.
 1.1  hannken 	 */
 1.1  hannken 	TAILQ_FOREACH(xp, &ump->um_snapshots, i_nextsnap) {
 1.1  hannken 		if (xp == ip)
 1.1  hannken 			break;
 1.1  hannken 		if (xp->i_ump->um_fstype == UFS1)
 1.1  hannken 			error = expunge_ufs1(vp, xp, fs, snapacct_ufs1,
 1.1  hannken 			    BLK_SNAP);
 1.1  hannken 		else
 1.1  hannken 			error = expunge_ufs2(vp, xp, fs, snapacct_ufs2,
 1.1  hannken 			    BLK_SNAP);
 1.1  hannken 		if (error) {
 1.1  hannken 			fs->fs_snapinum[snaploc] = 0;
 1.1  hannken 			goto done;
 1.1  hannken 		}
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Allocate space for the full list of preallocated snapshot blocks.
 1.1  hannken 	 */
 1.1  hannken 	MALLOC(snapblklist, ufs2_daddr_t *, snaplistsize * sizeof(ufs2_daddr_t),
 1.1  hannken 	    M_UFSMNT, M_WAITOK);
 1.1  hannken 	ip->i_snapblklist = &snapblklist[1];
 1.1  hannken 	/*
 1.1  hannken 	 * Expunge the blocks used by the snapshots from the set of
 1.1  hannken 	 * blocks marked as used in the snapshot bitmaps. Also, collect
 1.1  hannken 	 * the list of allocated blocks in i_snapblklist.
 1.1  hannken 	 */
 1.1  hannken 	if (ip->i_ump->um_fstype == UFS1)
 1.1  hannken 		error = expunge_ufs1(vp, ip, copy_fs, mapacct_ufs1, BLK_SNAP);
 1.1  hannken 	else
 1.1  hannken 		error = expunge_ufs2(vp, ip, copy_fs, mapacct_ufs2, BLK_SNAP);
 1.1  hannken 	if (error) {
 1.1  hannken 		fs->fs_snapinum[snaploc] = 0;
 1.1  hannken 		FREE(snapblklist, M_UFSMNT);
 1.1  hannken 		goto done;
 1.1  hannken 	}
 1.1  hannken 	if (snaplistsize < ip->i_snapblklist - snapblklist)
 1.1  hannken 		panic("ffs_snapshot: list too small");
 1.1  hannken 	snaplistsize = ip->i_snapblklist - snapblklist;
 1.1  hannken 	snapblklist[0] = ufs_rw64(snaplistsize, ns);
 1.1  hannken 	ip->i_snapblklist = 0;
 1.1  hannken 	/*
 1.1  hannken 	 * Write out the list of allocated blocks to the end of the snapshot.
 1.1  hannken 	 */
 1.1  hannken 	error = vn_rdwr(UIO_WRITE, vp,
 1.1  hannken 	    (caddr_t)snapblklist, snaplistsize*sizeof(ufs2_daddr_t), ip->i_size,
 1.7    skrll 	    UIO_SYSSPACE, IO_NODELOCKED|IO_UNIT, p->p_ucred, NULL, NULL);
 1.1  hannken 	if (error) {
 1.1  hannken 		fs->fs_snapinum[snaploc] = 0;
 1.1  hannken 		FREE(snapblklist, M_UFSMNT);
 1.1  hannken 		goto done;
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Write the superblock and its summary information
 1.1  hannken 	 * to the snapshot.
 1.1  hannken 	 */
 1.1  hannken 	blkno = fragstoblks(fs, fs->fs_csaddr);
 1.1  hannken 	len = howmany(fs->fs_cssize, fs->fs_bsize);
 1.1  hannken 	space = copy_fs->fs_csp;
 1.8  hannken #ifdef FFS_EI
 1.1  hannken 	if (ns) {
 1.1  hannken 		ffs_sb_swap(copy_fs, copy_fs);
 1.1  hannken 		ffs_csum_swap(space, space, fs->fs_cssize);
 1.1  hannken 	}
 1.8  hannken #endif
 1.1  hannken 	for (loc = 0; loc < len; loc++) {
 1.1  hannken 		if ((error = writevnblk(vp, space, blkno + loc)) != 0) {
 1.1  hannken 			fs->fs_snapinum[snaploc] = 0;
 1.1  hannken 			FREE(snapblklist, M_UFSMNT);
 1.1  hannken 			goto done;
 1.1  hannken 		}
 1.1  hannken 		space = (char *)space + fs->fs_bsize;
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * As this is the newest list, it is the most inclusive, so
 1.1  hannken 	 * should replace the previous list.
 1.1  hannken 	 */
 1.1  hannken 	VI_LOCK(devvp);
 1.1  hannken 	space = ump->um_snapblklist;
 1.1  hannken 	ump->um_snapblklist = snapblklist;
 1.1  hannken 	ump->um_snaplistsize = snaplistsize;
 1.1  hannken 	VI_UNLOCK(devvp);
 1.1  hannken 	if (space != NULL)
 1.1  hannken 		FREE(space, M_UFSMNT);
 1.1  hannken done:
 1.1  hannken 	free(copy_fs->fs_csp, M_UFSMNT);
 1.1  hannken 	blkno = lblkno(fs, fs->fs_sblockloc);
 1.1  hannken 	if (error == 0 && (error = writevnblk(vp, cgbuf, blkno)) != 0)
 1.1  hannken 		fs->fs_snapinum[snaploc] = 0;
 1.1  hannken out:
 1.4  hannken 	/*
 1.4  hannken 	 * All block address modifications are done. Invalidate and free
 1.4  hannken 	 * all pages on the snapshot vnode. Those coming from read ahead
 1.4  hannken 	 * are no longer valid.
 1.4  hannken 	 */
 1.4  hannken 	if (!error) {
 1.4  hannken 		simple_lock(&vp->v_interlock);
 1.4  hannken 		error = VOP_PUTPAGES(vp, 0, 0,
 1.4  hannken 		    PGO_ALLPAGES|PGO_CLEANIT|PGO_SYNCIO|PGO_FREE);
 1.4  hannken 	}
 1.1  hannken 	if (cgbuf)
 1.1  hannken 		free(cgbuf, M_UFSMNT);
 1.1  hannken 	if (fs->fs_active != 0) {
 1.1  hannken 		FREE(fs->fs_active, M_DEVBUF);
 1.1  hannken 		fs->fs_active = 0;
 1.1  hannken 	}
 1.1  hannken 	mp->mnt_flag = flag;
 1.1  hannken 	if (error)
 1.1  hannken 		(void) VOP_TRUNCATE(vp, (off_t)0, 0, NOCRED, p);
 1.1  hannken 	else
 1.1  hannken 		vref(vp);
 1.1  hannken 	return (error);
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Copy a cylinder group map. All the unallocated blocks are marked
 1.1  hannken  * BLK_NOCOPY so that the snapshot knows that it need not copy them
 1.1  hannken  * if they are later written. If passno is one, then this is a first
 1.1  hannken  * pass, so only setting needs to be done. If passno is 2, then this
 1.1  hannken  * is a revision to a previous pass which must be undone as the
 1.1  hannken  * replacement pass is done.
 1.1  hannken  */
 1.1  hannken static int
 1.1  hannken cgaccount(cg, vp, data, passno)
 1.1  hannken 	int cg;
 1.1  hannken 	struct vnode *vp;
 1.1  hannken 	caddr_t data;
 1.1  hannken 	int passno;
 1.1  hannken {
 1.1  hannken 	struct buf *bp, *ibp;
 1.1  hannken 	struct inode *ip;
 1.1  hannken 	struct cg *cgp;
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	ufs2_daddr_t base, numblks;
 1.1  hannken 	int error, len, loc, ns, indiroff;
 1.1  hannken
 1.1  hannken 	ip = VTOI(vp);
 1.1  hannken 	fs = ip->i_fs;
 1.1  hannken 	ns = UFS_FSNEEDSWAP(fs);
 1.1  hannken 	error = bread(ip->i_devvp, fsbtodb(fs, cgtod(fs, cg)),
 1.1  hannken 		(int)fs->fs_cgsize, KERNCRED, &bp);
 1.1  hannken 	if (error) {
 1.1  hannken 		brelse(bp);
 1.1  hannken 		return (error);
 1.1  hannken 	}
 1.1  hannken 	cgp = (struct cg *)bp->b_data;
 1.1  hannken 	if (!cg_chkmagic(cgp, ns)) {
 1.1  hannken 		brelse(bp);
 1.1  hannken 		return (EIO);
 1.1  hannken 	}
 1.1  hannken 	ACTIVECG_SET(fs, cg);
 1.1  hannken
 1.1  hannken 	bcopy(bp->b_data, data, fs->fs_cgsize);
 1.1  hannken 	brelse(bp);
 1.1  hannken 	if (fs->fs_cgsize < fs->fs_bsize)
 1.1  hannken 		bzero(&data[fs->fs_cgsize],
 1.1  hannken 		    fs->fs_bsize - fs->fs_cgsize);
 1.1  hannken 	numblks = howmany(fs->fs_size, fs->fs_frag);
 1.1  hannken 	len = howmany(fs->fs_fpg, fs->fs_frag);
 1.1  hannken 	base = cg * fs->fs_fpg / fs->fs_frag;
 1.1  hannken 	if (base + len >= numblks)
 1.1  hannken 		len = numblks - base - 1;
 1.1  hannken 	loc = 0;
 1.1  hannken 	if (base < NDADDR) {
 1.1  hannken 		for ( ; loc < NDADDR; loc++) {
 1.1  hannken 			if (ffs_isblock(fs, cg_blksfree(cgp, ns), loc))
 1.1  hannken 				db_assign(ip, loc, BLK_NOCOPY);
 1.1  hannken 			else if (db_get(ip, loc) == BLK_NOCOPY) {
 1.1  hannken 				if (passno == 2)
 1.1  hannken 					db_assign(ip, loc, 0);
 1.1  hannken 				else if (passno == 1)
 1.1  hannken 					panic("ffs_snapshot: lost direct block");
 1.1  hannken 			}
 1.1  hannken 		}
 1.1  hannken 	}
 1.1  hannken 	if ((error = VOP_BALLOC(vp, lblktosize(fs, (off_t)(base + loc)),
1.11    perry 	    fs->fs_bsize, KERNCRED, B_METAONLY, &ibp)) != 0)
 1.1  hannken 		return (error);
 1.1  hannken 	indiroff = (base + loc - NDADDR) % NINDIR(fs);
 1.1  hannken 	for ( ; loc < len; loc++, indiroff++) {
 1.1  hannken 		if (indiroff >= NINDIR(fs)) {
 1.1  hannken 			bwrite(ibp);
 1.1  hannken 			if ((error = VOP_BALLOC(vp,
 1.1  hannken 			    lblktosize(fs, (off_t)(base + loc)),
 1.1  hannken 			    fs->fs_bsize, KERNCRED, B_METAONLY, &ibp)) != 0)
 1.1  hannken 				return (error);
 1.1  hannken 			indiroff = 0;
 1.1  hannken 		}
 1.1  hannken 		if (ffs_isblock(fs, cg_blksfree(cgp, ns), loc))
 1.1  hannken 			idb_assign(ip, ibp->b_data, indiroff, BLK_NOCOPY);
 1.1  hannken 		else if (idb_get(ip, ibp->b_data, indiroff) == BLK_NOCOPY) {
 1.1  hannken 			if (passno == 2)
 1.1  hannken 				idb_assign(ip, ibp->b_data, indiroff, 0);
 1.1  hannken 			else if (passno == 1)
 1.1  hannken 				panic("ffs_snapshot: lost indirect block");
 1.1  hannken 		}
 1.1  hannken 	}
 1.1  hannken 	bwrite(ibp);
 1.1  hannken 	return (0);
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Before expunging a snapshot inode, note all the
 1.1  hannken  * blocks that it claims with BLK_SNAP so that fsck will
 1.1  hannken  * be able to account for those blocks properly and so
 1.1  hannken  * that this snapshot knows that it need not copy them
 1.1  hannken  * if the other snapshot holding them is freed. This code
 1.1  hannken  * is reproduced once each for UFS1 and UFS2.
 1.1  hannken  */
 1.1  hannken static int
 1.1  hannken expunge_ufs1(snapvp, cancelip, fs, acctfunc, expungetype)
 1.1  hannken 	struct vnode *snapvp;
 1.1  hannken 	struct inode *cancelip;
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	int (*acctfunc)(struct vnode *, ufs1_daddr_t *, ufs1_daddr_t *,
 1.1  hannken 	    struct fs *, ufs_lbn_t, int);
 1.1  hannken 	int expungetype;
 1.1  hannken {
 1.4  hannken 	int i, s, error, ns, indiroff;
 1.1  hannken 	ufs_lbn_t lbn, rlbn;
 1.1  hannken 	ufs2_daddr_t len, blkno, numblks, blksperindir;
 1.1  hannken 	struct ufs1_dinode *dip;
 1.1  hannken 	struct buf *bp;
 1.1  hannken 	caddr_t buf;
 1.1  hannken
 1.1  hannken 	ns = UFS_FSNEEDSWAP(fs);
 1.1  hannken 	/*
 1.1  hannken 	 * Prepare to expunge the inode. If its inode block has not
 1.1  hannken 	 * yet been copied, then allocate and fill the copy.
 1.1  hannken 	 */
 1.1  hannken 	lbn = fragstoblks(fs, ino_to_fsba(fs, cancelip->i_number));
 1.1  hannken 	blkno = 0;
 1.1  hannken 	if (lbn < NDADDR) {
 1.1  hannken 		blkno = db_get(VTOI(snapvp), lbn);
 1.1  hannken 	} else {
 1.4  hannken 		s = cow_enter();
 1.1  hannken 		error = VOP_BALLOC(snapvp, lblktosize(fs, (off_t)lbn),
 1.1  hannken 		   fs->fs_bsize, KERNCRED, B_METAONLY, &bp);
 1.4  hannken 		cow_leave(s);
 1.1  hannken 		if (error)
 1.1  hannken 			return (error);
 1.1  hannken 		indiroff = (lbn - NDADDR) % NINDIR(fs);
 1.1  hannken 		blkno = idb_get(VTOI(snapvp), bp->b_data, indiroff);
 1.1  hannken 		brelse(bp);
 1.1  hannken 	}
 1.1  hannken 	buf = malloc(fs->fs_bsize, M_UFSMNT, M_WAITOK);
 1.1  hannken 	if (blkno != 0)
 1.1  hannken 		error = readvnblk(snapvp, buf, lbn);
 1.1  hannken 	else
 1.1  hannken 		error = readfsblk(snapvp, buf, lbn);
 1.1  hannken 	if (error) {
 1.1  hannken 		free(buf, M_UFSMNT);
 1.1  hannken 		return error;
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Set a snapshot inode to be a zero length file, regular files
 1.1  hannken 	 * to be completely unallocated.
 1.1  hannken 	 */
 1.1  hannken 	dip = (struct ufs1_dinode *)buf + ino_to_fsbo(fs, cancelip->i_number);
 1.1  hannken 	if (expungetype == BLK_NOCOPY)
 1.1  hannken 		dip->di_mode = 0;
 1.1  hannken 	dip->di_size = 0;
 1.1  hannken 	dip->di_blocks = 0;
 1.1  hannken 	dip->di_flags =
 1.1  hannken 	    ufs_rw32(ufs_rw32(dip->di_flags, ns) & ~SF_SNAPSHOT, ns);
 1.1  hannken 	bzero(&dip->di_db[0], (NDADDR + NIADDR) * sizeof(ufs1_daddr_t));
 1.1  hannken 	error = writevnblk(snapvp, buf, lbn);
 1.1  hannken 	free(buf, M_UFSMNT);
 1.1  hannken 	if (error)
 1.1  hannken 		return error;
 1.1  hannken 	/*
 1.1  hannken 	 * Now go through and expunge all the blocks in the file
 1.1  hannken 	 * using the function requested.
 1.1  hannken 	 */
 1.1  hannken 	numblks = howmany(cancelip->i_size, fs->fs_bsize);
 1.1  hannken 	if ((error = (*acctfunc)(snapvp, &cancelip->i_ffs1_db[0],
 1.1  hannken 	    &cancelip->i_ffs1_db[NDADDR], fs, 0, expungetype)))
 1.1  hannken 		return (error);
 1.1  hannken 	if ((error = (*acctfunc)(snapvp, &cancelip->i_ffs1_ib[0],
 1.1  hannken 	    &cancelip->i_ffs1_ib[NIADDR], fs, -1, expungetype)))
 1.1  hannken 		return (error);
 1.1  hannken 	blksperindir = 1;
 1.1  hannken 	lbn = -NDADDR;
 1.1  hannken 	len = numblks - NDADDR;
 1.1  hannken 	rlbn = NDADDR;
 1.1  hannken 	for (i = 0; len > 0 && i < NIADDR; i++) {
 1.1  hannken 		error = indiracct_ufs1(snapvp, ITOV(cancelip), i,
 1.1  hannken 		    ufs_rw32(cancelip->i_ffs1_ib[i], ns), lbn, rlbn, len,
 1.1  hannken 		    blksperindir, fs, acctfunc, expungetype);
 1.1  hannken 		if (error)
 1.1  hannken 			return (error);
 1.1  hannken 		blksperindir *= NINDIR(fs);
 1.1  hannken 		lbn -= blksperindir + 1;
 1.1  hannken 		len -= blksperindir;
 1.1  hannken 		rlbn += blksperindir;
 1.1  hannken 	}
 1.1  hannken 	return (0);
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Descend an indirect block chain for vnode cancelvp accounting for all
 1.1  hannken  * its indirect blocks in snapvp.
1.11    perry  */
 1.1  hannken static int
 1.1  hannken indiracct_ufs1(snapvp, cancelvp, level, blkno, lbn, rlbn, remblks,
 1.1  hannken 	    blksperindir, fs, acctfunc, expungetype)
 1.1  hannken 	struct vnode *snapvp;
 1.1  hannken 	struct vnode *cancelvp;
 1.1  hannken 	int level;
 1.1  hannken 	ufs1_daddr_t blkno;
 1.1  hannken 	ufs_lbn_t lbn;
 1.1  hannken 	ufs_lbn_t rlbn;
 1.1  hannken 	ufs_lbn_t remblks;
 1.1  hannken 	ufs_lbn_t blksperindir;
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	int (*acctfunc)(struct vnode *, ufs1_daddr_t *, ufs1_daddr_t *,
 1.1  hannken 	    struct fs *, ufs_lbn_t, int);
 1.1  hannken 	int expungetype;
 1.1  hannken {
 1.1  hannken 	int error, ns, num, i;
 1.1  hannken 	ufs_lbn_t subblksperindir;
 1.1  hannken 	struct indir indirs[NIADDR + 2];
 1.1  hannken 	ufs1_daddr_t last, *bap;
 1.1  hannken 	struct buf *bp;
 1.1  hannken
 1.1  hannken 	ns = UFS_FSNEEDSWAP(fs);
 1.1  hannken
 1.1  hannken 	if (blkno == 0) {
 1.1  hannken 		if (expungetype == BLK_NOCOPY)
 1.1  hannken 			return (0);
 1.1  hannken 		panic("indiracct_ufs1: missing indir");
 1.1  hannken 	}
 1.1  hannken 	if ((error = ufs_getlbns(cancelvp, rlbn, indirs, &num)) != 0)
 1.1  hannken 		return (error);
 1.1  hannken 	if (lbn != indirs[num - 1 - level].in_lbn || num < 2)
 1.1  hannken 		panic("indiracct_ufs1: botched params");
 1.1  hannken 	/*
 1.1  hannken 	 * We have to expand bread here since it will deadlock looking
 1.1  hannken 	 * up the block number for any blocks that are not in the cache.
 1.1  hannken 	 */
 1.1  hannken 	bp = getblk(cancelvp, lbn, fs->fs_bsize, 0, 0);
 1.1  hannken 	bp->b_blkno = fsbtodb(fs, blkno);
 1.1  hannken 	if ((bp->b_flags & (B_DONE | B_DELWRI)) == 0 &&
 1.1  hannken 	    (error = readfsblk(bp->b_vp, bp->b_data, fragstoblks(fs, blkno)))) {
 1.1  hannken 		brelse(bp);
 1.1  hannken 		return (error);
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Account for the block pointers in this indirect block.
 1.1  hannken 	 */
 1.1  hannken 	last = howmany(remblks, blksperindir);
 1.1  hannken 	if (last > NINDIR(fs))
 1.1  hannken 		last = NINDIR(fs);
 1.1  hannken 	MALLOC(bap, ufs1_daddr_t *, fs->fs_bsize, M_DEVBUF, M_WAITOK);
 1.1  hannken 	bcopy(bp->b_data, (caddr_t)bap, fs->fs_bsize);
 1.1  hannken 	brelse(bp);
 1.1  hannken 	error = (*acctfunc)(snapvp, &bap[0], &bap[last], fs,
 1.1  hannken 	    level == 0 ? rlbn : -1, expungetype);
 1.1  hannken 	if (error || level == 0)
 1.1  hannken 		goto out;
 1.1  hannken 	/*
 1.1  hannken 	 * Account for the block pointers in each of the indirect blocks
 1.1  hannken 	 * in the levels below us.
 1.1  hannken 	 */
 1.1  hannken 	subblksperindir = blksperindir / NINDIR(fs);
 1.1  hannken 	for (lbn++, level--, i = 0; i < last; i++) {
 1.1  hannken 		error = indiracct_ufs1(snapvp, cancelvp, level,
 1.1  hannken 		    ufs_rw32(bap[i], ns), lbn, rlbn, remblks, subblksperindir,
 1.1  hannken 		    fs, acctfunc, expungetype);
 1.1  hannken 		if (error)
 1.1  hannken 			goto out;
 1.1  hannken 		rlbn += blksperindir;
 1.1  hannken 		lbn -= blksperindir;
 1.1  hannken 		remblks -= blksperindir;
 1.1  hannken 	}
 1.1  hannken out:
 1.1  hannken 	FREE(bap, M_DEVBUF);
 1.1  hannken 	return (error);
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Do both snap accounting and map accounting.
 1.1  hannken  */
 1.1  hannken static int
 1.1  hannken fullacct_ufs1(vp, oldblkp, lastblkp, fs, lblkno, exptype)
 1.1  hannken 	struct vnode *vp;
 1.1  hannken 	ufs1_daddr_t *oldblkp, *lastblkp;
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	ufs_lbn_t lblkno;
 1.1  hannken 	int exptype;	/* BLK_SNAP or BLK_NOCOPY */
 1.1  hannken {
 1.1  hannken 	int error;
 1.1  hannken
 1.1  hannken 	if ((error = snapacct_ufs1(vp, oldblkp, lastblkp, fs, lblkno, exptype)))
 1.1  hannken 		return (error);
 1.1  hannken 	return (mapacct_ufs1(vp, oldblkp, lastblkp, fs, lblkno, exptype));
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Identify a set of blocks allocated in a snapshot inode.
 1.1  hannken  */
 1.1  hannken static int
 1.1  hannken snapacct_ufs1(vp, oldblkp, lastblkp, fs, lblkno, expungetype)
 1.1  hannken 	struct vnode *vp;
 1.1  hannken 	ufs1_daddr_t *oldblkp, *lastblkp;
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	ufs_lbn_t lblkno;
 1.1  hannken 	int expungetype;	/* BLK_SNAP or BLK_NOCOPY */
 1.1  hannken {
 1.1  hannken 	struct inode *ip = VTOI(vp);
 1.1  hannken 	ufs1_daddr_t blkno, *blkp;
 1.1  hannken 	ufs_lbn_t lbn;
 1.1  hannken 	struct buf *ibp;
 1.1  hannken 	int error, ns;
 1.1  hannken
 1.1  hannken 	ns = UFS_FSNEEDSWAP(fs);
 1.1  hannken
 1.1  hannken 	for ( ; oldblkp < lastblkp; oldblkp++) {
 1.1  hannken 		blkno = ufs_rw32(*oldblkp, ns);
 1.1  hannken 		if (blkno == 0 || blkno == BLK_NOCOPY || blkno == BLK_SNAP)
 1.1  hannken 			continue;
 1.1  hannken 		lbn = fragstoblks(fs, blkno);
 1.1  hannken 		if (lbn < NDADDR) {
 1.1  hannken 			blkp = &ip->i_ffs1_db[lbn];
 1.1  hannken 			ip->i_flag |= IN_CHANGE | IN_UPDATE;
 1.1  hannken 		} else {
 1.1  hannken 			error = VOP_BALLOC(vp, lblktosize(fs, (off_t)lbn),
 1.1  hannken 			    fs->fs_bsize, KERNCRED, B_METAONLY, &ibp);
 1.1  hannken 			if (error)
 1.1  hannken 				return (error);
 1.1  hannken 			blkp = &((ufs1_daddr_t *)(ibp->b_data))
 1.1  hannken 			    [(lbn - NDADDR) % NINDIR(fs)];
 1.1  hannken 		}
 1.1  hannken 		/*
 1.1  hannken 		 * If we are expunging a snapshot vnode and we
 1.1  hannken 		 * find a block marked BLK_NOCOPY, then it is
 1.1  hannken 		 * one that has been allocated to this snapshot after
 1.1  hannken 		 * we took our current snapshot and can be ignored.
 1.1  hannken 		 */
 1.1  hannken 		blkno = ufs_rw32(*blkp, ns);
 1.1  hannken 		if (expungetype == BLK_SNAP && blkno == BLK_NOCOPY) {
 1.1  hannken 			if (lbn >= NDADDR)
 1.1  hannken 				brelse(ibp);
 1.1  hannken 		} else {
 1.1  hannken 			if (blkno != 0)
 1.1  hannken 				panic("snapacct_ufs1: bad block");
 1.1  hannken 			*blkp = ufs_rw32(expungetype, ns);
 1.1  hannken 			if (lbn >= NDADDR)
 1.1  hannken 				bwrite(ibp);
 1.1  hannken 		}
 1.1  hannken 	}
 1.1  hannken 	return (0);
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Account for a set of blocks allocated in a snapshot inode.
 1.1  hannken  */
 1.1  hannken static int
 1.1  hannken mapacct_ufs1(vp, oldblkp, lastblkp, fs, lblkno, expungetype)
 1.1  hannken 	struct vnode *vp;
 1.1  hannken 	ufs1_daddr_t *oldblkp, *lastblkp;
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	ufs_lbn_t lblkno;
 1.1  hannken 	int expungetype;
 1.1  hannken {
 1.1  hannken 	ufs1_daddr_t blkno;
 1.1  hannken 	struct inode *ip;
 1.1  hannken 	ino_t inum;
 1.1  hannken 	int acctit, ns;
 1.1  hannken
 1.1  hannken 	ns = UFS_FSNEEDSWAP(fs);
 1.1  hannken 	ip = VTOI(vp);
 1.1  hannken 	inum = ip->i_number;
 1.1  hannken 	if (lblkno == -1)
 1.1  hannken 		acctit = 0;
 1.1  hannken 	else
 1.1  hannken 		acctit = 1;
 1.1  hannken 	for ( ; oldblkp < lastblkp; oldblkp++, lblkno++) {
 1.1  hannken 		blkno = ufs_rw32(*oldblkp, ns);
 1.1  hannken 		if (blkno == 0 || blkno == BLK_NOCOPY)
 1.1  hannken 			continue;
 1.1  hannken 		if (acctit && expungetype == BLK_SNAP && blkno != BLK_SNAP)
 1.1  hannken 			*ip->i_snapblklist++ = ufs_rw64(lblkno, ns);
 1.1  hannken 		if (blkno == BLK_SNAP)
 1.1  hannken 			blkno = blkstofrags(fs, lblkno);
 1.1  hannken 		ffs_blkfree(fs, vp, blkno, fs->fs_bsize, inum);
 1.1  hannken 	}
 1.1  hannken 	return (0);
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Before expunging a snapshot inode, note all the
 1.1  hannken  * blocks that it claims with BLK_SNAP so that fsck will
 1.1  hannken  * be able to account for those blocks properly and so
 1.1  hannken  * that this snapshot knows that it need not copy them
 1.1  hannken  * if the other snapshot holding them is freed. This code
 1.1  hannken  * is reproduced once each for UFS1 and UFS2.
 1.1  hannken  */
 1.1  hannken static int
 1.1  hannken expunge_ufs2(snapvp, cancelip, fs, acctfunc, expungetype)
 1.1  hannken 	struct vnode *snapvp;
 1.1  hannken 	struct inode *cancelip;
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	int (*acctfunc)(struct vnode *, ufs2_daddr_t *, ufs2_daddr_t *,
 1.1  hannken 	    struct fs *, ufs_lbn_t, int);
 1.1  hannken 	int expungetype;
 1.1  hannken {
 1.4  hannken 	int i, s, error, ns, indiroff;
 1.1  hannken 	ufs_lbn_t lbn, rlbn;
 1.1  hannken 	ufs2_daddr_t len, blkno, numblks, blksperindir;
 1.1  hannken 	struct ufs2_dinode *dip;
 1.1  hannken 	struct buf *bp;
 1.1  hannken 	caddr_t buf;
 1.1  hannken
 1.1  hannken 	ns = UFS_FSNEEDSWAP(fs);
 1.1  hannken 	/*
 1.1  hannken 	 * Prepare to expunge the inode. If its inode block has not
 1.1  hannken 	 * yet been copied, then allocate and fill the copy.
 1.1  hannken 	 */
 1.1  hannken 	lbn = fragstoblks(fs, ino_to_fsba(fs, cancelip->i_number));
 1.1  hannken 	blkno = 0;
 1.1  hannken 	if (lbn < NDADDR) {
 1.1  hannken 		blkno = db_get(VTOI(snapvp), lbn);
 1.1  hannken 	} else {
 1.4  hannken 		s = cow_enter();
 1.1  hannken 		error = VOP_BALLOC(snapvp, lblktosize(fs, (off_t)lbn),
 1.1  hannken 		   fs->fs_bsize, KERNCRED, B_METAONLY, &bp);
 1.4  hannken 		cow_leave(s);
 1.1  hannken 		if (error)
 1.1  hannken 			return (error);
 1.1  hannken 		indiroff = (lbn - NDADDR) % NINDIR(fs);
 1.1  hannken 		blkno = idb_get(VTOI(snapvp), bp->b_data, indiroff);
 1.1  hannken 		brelse(bp);
 1.1  hannken 	}
 1.1  hannken 	buf = malloc(fs->fs_bsize, M_UFSMNT, M_WAITOK);
 1.1  hannken 	if (blkno != 0)
 1.1  hannken 		error = readvnblk(snapvp, buf, lbn);
 1.1  hannken 	else
 1.1  hannken 		error = readfsblk(snapvp, buf, lbn);
 1.1  hannken 	if (error) {
 1.1  hannken 		free(buf, M_UFSMNT);
 1.1  hannken 		return error;
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Set a snapshot inode to be a zero length file, regular files
 1.1  hannken 	 * to be completely unallocated.
 1.1  hannken 	 */
 1.1  hannken 	dip = (struct ufs2_dinode *)buf + ino_to_fsbo(fs, cancelip->i_number);
 1.1  hannken 	if (expungetype == BLK_NOCOPY)
 1.1  hannken 		dip->di_mode = 0;
 1.1  hannken 	dip->di_size = 0;
 1.1  hannken 	dip->di_blocks = 0;
 1.1  hannken 	dip->di_flags =
 1.1  hannken 	    ufs_rw32(ufs_rw32(dip->di_flags, ns) & ~SF_SNAPSHOT, ns);
 1.1  hannken 	bzero(&dip->di_db[0], (NDADDR + NIADDR) * sizeof(ufs2_daddr_t));
 1.1  hannken 	error = writevnblk(snapvp, buf, lbn);
 1.1  hannken 	free(buf, M_UFSMNT);
 1.1  hannken 	if (error)
 1.1  hannken 		return error;
 1.1  hannken 	/*
 1.1  hannken 	 * Now go through and expunge all the blocks in the file
 1.1  hannken 	 * using the function requested.
 1.1  hannken 	 */
 1.1  hannken 	numblks = howmany(cancelip->i_size, fs->fs_bsize);
 1.1  hannken 	if ((error = (*acctfunc)(snapvp, &cancelip->i_ffs2_db[0],
 1.1  hannken 	    &cancelip->i_ffs2_db[NDADDR], fs, 0, expungetype)))
 1.1  hannken 		return (error);
 1.1  hannken 	if ((error = (*acctfunc)(snapvp, &cancelip->i_ffs2_ib[0],
 1.1  hannken 	    &cancelip->i_ffs2_ib[NIADDR], fs, -1, expungetype)))
 1.1  hannken 		return (error);
 1.1  hannken 	blksperindir = 1;
 1.1  hannken 	lbn = -NDADDR;
 1.1  hannken 	len = numblks - NDADDR;
 1.1  hannken 	rlbn = NDADDR;
 1.1  hannken 	for (i = 0; len > 0 && i < NIADDR; i++) {
 1.1  hannken 		error = indiracct_ufs2(snapvp, ITOV(cancelip), i,
 1.1  hannken 		    ufs_rw64(cancelip->i_ffs2_ib[i], ns), lbn, rlbn, len,
 1.1  hannken 		    blksperindir, fs, acctfunc, expungetype);
 1.1  hannken 		if (error)
 1.1  hannken 			return (error);
 1.1  hannken 		blksperindir *= NINDIR(fs);
 1.1  hannken 		lbn -= blksperindir + 1;
 1.1  hannken 		len -= blksperindir;
 1.1  hannken 		rlbn += blksperindir;
 1.1  hannken 	}
 1.1  hannken 	return (0);
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Descend an indirect block chain for vnode cancelvp accounting for all
 1.1  hannken  * its indirect blocks in snapvp.
1.11    perry  */
 1.1  hannken static int
 1.1  hannken indiracct_ufs2(snapvp, cancelvp, level, blkno, lbn, rlbn, remblks,
 1.1  hannken 	    blksperindir, fs, acctfunc, expungetype)
 1.1  hannken 	struct vnode *snapvp;
 1.1  hannken 	struct vnode *cancelvp;
 1.1  hannken 	int level;
 1.1  hannken 	ufs2_daddr_t blkno;
 1.1  hannken 	ufs_lbn_t lbn;
 1.1  hannken 	ufs_lbn_t rlbn;
 1.1  hannken 	ufs_lbn_t remblks;
 1.1  hannken 	ufs_lbn_t blksperindir;
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	int (*acctfunc)(struct vnode *, ufs2_daddr_t *, ufs2_daddr_t *,
 1.1  hannken 	    struct fs *, ufs_lbn_t, int);
 1.1  hannken 	int expungetype;
 1.1  hannken {
 1.1  hannken 	int error, ns, num, i;
 1.1  hannken 	ufs_lbn_t subblksperindir;
 1.1  hannken 	struct indir indirs[NIADDR + 2];
 1.1  hannken 	ufs2_daddr_t last, *bap;
 1.1  hannken 	struct buf *bp;
 1.1  hannken
 1.1  hannken 	ns = UFS_FSNEEDSWAP(fs);
 1.1  hannken
 1.1  hannken 	if (blkno == 0) {
 1.1  hannken 		if (expungetype == BLK_NOCOPY)
 1.1  hannken 			return (0);
 1.1  hannken 		panic("indiracct_ufs2: missing indir");
 1.1  hannken 	}
 1.1  hannken 	if ((error = ufs_getlbns(cancelvp, rlbn, indirs, &num)) != 0)
 1.1  hannken 		return (error);
 1.1  hannken 	if (lbn != indirs[num - 1 - level].in_lbn || num < 2)
 1.1  hannken 		panic("indiracct_ufs2: botched params");
 1.1  hannken 	/*
 1.1  hannken 	 * We have to expand bread here since it will deadlock looking
 1.1  hannken 	 * up the block number for any blocks that are not in the cache.
 1.1  hannken 	 */
 1.1  hannken 	bp = getblk(cancelvp, lbn, fs->fs_bsize, 0, 0);
 1.1  hannken 	bp->b_blkno = fsbtodb(fs, blkno);
 1.1  hannken 	if ((bp->b_flags & (B_DONE | B_DELWRI)) == 0 &&
 1.1  hannken 	    (error = readfsblk(bp->b_vp, bp->b_data, fragstoblks(fs, blkno)))) {
 1.1  hannken 		brelse(bp);
 1.1  hannken 		return (error);
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Account for the block pointers in this indirect block.
 1.1  hannken 	 */
 1.1  hannken 	last = howmany(remblks, blksperindir);
 1.1  hannken 	if (last > NINDIR(fs))
 1.1  hannken 		last = NINDIR(fs);
 1.1  hannken 	MALLOC(bap, ufs2_daddr_t *, fs->fs_bsize, M_DEVBUF, M_WAITOK);
 1.1  hannken 	bcopy(bp->b_data, (caddr_t)bap, fs->fs_bsize);
 1.1  hannken 	brelse(bp);
 1.1  hannken 	error = (*acctfunc)(snapvp, &bap[0], &bap[last], fs,
 1.1  hannken 	    level == 0 ? rlbn : -1, expungetype);
 1.1  hannken 	if (error || level == 0)
 1.1  hannken 		goto out;
 1.1  hannken 	/*
 1.1  hannken 	 * Account for the block pointers in each of the indirect blocks
 1.1  hannken 	 * in the levels below us.
 1.1  hannken 	 */
 1.1  hannken 	subblksperindir = blksperindir / NINDIR(fs);
 1.1  hannken 	for (lbn++, level--, i = 0; i < last; i++) {
 1.1  hannken 		error = indiracct_ufs2(snapvp, cancelvp, level,
 1.1  hannken 		    ufs_rw64(bap[i], ns), lbn, rlbn, remblks, subblksperindir,
 1.1  hannken 		    fs, acctfunc, expungetype);
 1.1  hannken 		if (error)
 1.1  hannken 			goto out;
 1.1  hannken 		rlbn += blksperindir;
 1.1  hannken 		lbn -= blksperindir;
 1.1  hannken 		remblks -= blksperindir;
 1.1  hannken 	}
 1.1  hannken out:
 1.1  hannken 	FREE(bap, M_DEVBUF);
 1.1  hannken 	return (error);
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Do both snap accounting and map accounting.
 1.1  hannken  */
 1.1  hannken static int
 1.1  hannken fullacct_ufs2(vp, oldblkp, lastblkp, fs, lblkno, exptype)
 1.1  hannken 	struct vnode *vp;
 1.1  hannken 	ufs2_daddr_t *oldblkp, *lastblkp;
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	ufs_lbn_t lblkno;
 1.1  hannken 	int exptype;	/* BLK_SNAP or BLK_NOCOPY */
 1.1  hannken {
 1.1  hannken 	int error;
 1.1  hannken
 1.1  hannken 	if ((error = snapacct_ufs2(vp, oldblkp, lastblkp, fs, lblkno, exptype)))
 1.1  hannken 		return (error);
 1.1  hannken 	return (mapacct_ufs2(vp, oldblkp, lastblkp, fs, lblkno, exptype));
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Identify a set of blocks allocated in a snapshot inode.
 1.1  hannken  */
 1.1  hannken static int
 1.1  hannken snapacct_ufs2(vp, oldblkp, lastblkp, fs, lblkno, expungetype)
 1.1  hannken 	struct vnode *vp;
 1.1  hannken 	ufs2_daddr_t *oldblkp, *lastblkp;
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	ufs_lbn_t lblkno;
 1.1  hannken 	int expungetype;	/* BLK_SNAP or BLK_NOCOPY */
 1.1  hannken {
 1.1  hannken 	struct inode *ip = VTOI(vp);
 1.1  hannken 	ufs2_daddr_t blkno, *blkp;
 1.1  hannken 	ufs_lbn_t lbn;
 1.1  hannken 	struct buf *ibp;
 1.1  hannken 	int error, ns;
 1.1  hannken
 1.1  hannken 	ns = UFS_FSNEEDSWAP(fs);
 1.1  hannken
 1.1  hannken 	for ( ; oldblkp < lastblkp; oldblkp++) {
 1.1  hannken 		blkno = ufs_rw64(*oldblkp, ns);
 1.1  hannken 		if (blkno == 0 || blkno == BLK_NOCOPY || blkno == BLK_SNAP)
 1.1  hannken 			continue;
 1.1  hannken 		lbn = fragstoblks(fs, blkno);
 1.1  hannken 		if (lbn < NDADDR) {
 1.1  hannken 			blkp = &ip->i_ffs2_db[lbn];
 1.1  hannken 			ip->i_flag |= IN_CHANGE | IN_UPDATE;
 1.1  hannken 		} else {
 1.1  hannken 			error = VOP_BALLOC(vp, lblktosize(fs, (off_t)lbn),
 1.1  hannken 			    fs->fs_bsize, KERNCRED, B_METAONLY, &ibp);
 1.1  hannken 			if (error)
 1.1  hannken 				return (error);
 1.1  hannken 			blkp = &((ufs2_daddr_t *)(ibp->b_data))
 1.1  hannken 			    [(lbn - NDADDR) % NINDIR(fs)];
 1.1  hannken 		}
 1.1  hannken 		/*
 1.1  hannken 		 * If we are expunging a snapshot vnode and we
 1.1  hannken 		 * find a block marked BLK_NOCOPY, then it is
 1.1  hannken 		 * one that has been allocated to this snapshot after
 1.1  hannken 		 * we took our current snapshot and can be ignored.
 1.1  hannken 		 */
 1.1  hannken 		blkno = ufs_rw64(*blkp, ns);
 1.1  hannken 		if (expungetype == BLK_SNAP && blkno == BLK_NOCOPY) {
 1.1  hannken 			if (lbn >= NDADDR)
 1.1  hannken 				brelse(ibp);
 1.1  hannken 		} else {
 1.1  hannken 			if (blkno != 0)
 1.1  hannken 				panic("snapacct_ufs2: bad block");
 1.1  hannken 			*blkp = ufs_rw64(expungetype, ns);
 1.1  hannken 			if (lbn >= NDADDR)
 1.1  hannken 				bwrite(ibp);
 1.1  hannken 		}
 1.1  hannken 	}
 1.1  hannken 	return (0);
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Account for a set of blocks allocated in a snapshot inode.
 1.1  hannken  */
 1.1  hannken static int
 1.1  hannken mapacct_ufs2(vp, oldblkp, lastblkp, fs, lblkno, expungetype)
 1.1  hannken 	struct vnode *vp;
 1.1  hannken 	ufs2_daddr_t *oldblkp, *lastblkp;
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	ufs_lbn_t lblkno;
 1.1  hannken 	int expungetype;
 1.1  hannken {
 1.1  hannken 	ufs2_daddr_t blkno;
 1.1  hannken 	struct inode *ip;
 1.1  hannken 	ino_t inum;
 1.1  hannken 	int acctit, ns;
 1.1  hannken
 1.1  hannken 	ns = UFS_FSNEEDSWAP(fs);
 1.1  hannken 	ip = VTOI(vp);
 1.1  hannken 	inum = ip->i_number;
 1.1  hannken 	if (lblkno == -1)
 1.1  hannken 		acctit = 0;
 1.1  hannken 	else
 1.1  hannken 		acctit = 1;
 1.1  hannken 	for ( ; oldblkp < lastblkp; oldblkp++, lblkno++) {
 1.1  hannken 		blkno = ufs_rw64(*oldblkp, ns);
 1.1  hannken 		if (blkno == 0 || blkno == BLK_NOCOPY)
 1.1  hannken 			continue;
 1.1  hannken 		if (acctit && expungetype == BLK_SNAP && blkno != BLK_SNAP)
 1.1  hannken 			*ip->i_snapblklist++ = ufs_rw64(lblkno, ns);
 1.1  hannken 		if (blkno == BLK_SNAP)
 1.1  hannken 			blkno = blkstofrags(fs, lblkno);
 1.1  hannken 		ffs_blkfree(fs, vp, blkno, fs->fs_bsize, inum);
 1.1  hannken 	}
 1.1  hannken 	return (0);
 1.1  hannken }
1.10  hannken #endif /* defined(FFS_NO_SNAPSHOT) */
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Decrement extra reference on snapshot when last name is removed.
 1.1  hannken  * It will not be freed until the last open reference goes away.
 1.1  hannken  */
 1.1  hannken void
 1.1  hannken ffs_snapgone(ip)
 1.1  hannken 	struct inode *ip;
 1.1  hannken {
 1.1  hannken 	struct ufsmount *ump = VFSTOUFS(ip->i_devvp->v_specmountpoint);
 1.1  hannken 	struct inode *xp;
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	int snaploc;
 1.1  hannken
 1.1  hannken 	/*
 1.1  hannken 	 * Find snapshot in incore list.
 1.1  hannken 	 */
 1.1  hannken 	TAILQ_FOREACH(xp, &ump->um_snapshots, i_nextsnap)
 1.1  hannken 		if (xp == ip)
 1.1  hannken 			break;
 1.1  hannken 	if (xp != NULL)
 1.1  hannken 		vrele(ITOV(ip));
 1.1  hannken #ifdef DEBUG
 1.1  hannken 	else if (snapdebug)
 1.1  hannken 		printf("ffs_snapgone: lost snapshot vnode %d\n",
 1.1  hannken 		    ip->i_number);
 1.1  hannken #endif
 1.1  hannken 	/*
 1.1  hannken 	 * Delete snapshot inode from superblock. Keep list dense.
 1.1  hannken 	 */
 1.1  hannken 	fs = ip->i_fs;
 1.1  hannken 	for (snaploc = 0; snaploc < FSMAXSNAP; snaploc++)
 1.1  hannken 		if (fs->fs_snapinum[snaploc] == ip->i_number)
 1.1  hannken 			break;
 1.1  hannken 	if (snaploc < FSMAXSNAP) {
 1.1  hannken 		for (snaploc++; snaploc < FSMAXSNAP; snaploc++) {
 1.1  hannken 			if (fs->fs_snapinum[snaploc] == 0)
 1.1  hannken 				break;
 1.1  hannken 			fs->fs_snapinum[snaploc - 1] = fs->fs_snapinum[snaploc];
 1.1  hannken 		}
 1.1  hannken 		fs->fs_snapinum[snaploc - 1] = 0;
 1.1  hannken 	}
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Prepare a snapshot file for being removed.
 1.1  hannken  */
 1.1  hannken void
 1.1  hannken ffs_snapremove(vp)
 1.1  hannken 	struct vnode *vp;
 1.1  hannken {
 1.1  hannken 	struct inode *ip = VTOI(vp);
 1.1  hannken 	struct vnode *devvp = ip->i_devvp;
 1.1  hannken 	struct fs *fs = ip->i_fs;
 1.1  hannken 	struct ufsmount *ump = VFSTOUFS(devvp->v_specmountpoint);
 1.1  hannken 	struct lock *lkp;
 1.1  hannken 	struct buf *ibp;
 1.1  hannken 	ufs2_daddr_t numblks, blkno, dblk, *snapblklist;
 1.1  hannken 	int error, ns, loc, last;
 1.1  hannken
 1.1  hannken 	ns = UFS_FSNEEDSWAP(fs);
 1.1  hannken 	/*
 1.1  hannken 	 * If active, delete from incore list (this snapshot may
 1.1  hannken 	 * already have been in the process of being deleted, so
 1.1  hannken 	 * would not have been active).
 1.1  hannken 	 *
 1.1  hannken 	 * Clear copy-on-write flag if last snapshot.
 1.1  hannken 	 */
 1.1  hannken 	if (ip->i_nextsnap.tqe_prev != 0) {
 1.1  hannken 		VI_LOCK(devvp);
 1.1  hannken 		lockmgr(&vp->v_lock, LK_INTERLOCK | LK_EXCLUSIVE,
 1.1  hannken 		    VI_MTX(devvp));
 1.1  hannken 		VI_LOCK(devvp);
 1.1  hannken 		TAILQ_REMOVE(&ump->um_snapshots, ip, i_nextsnap);
 1.1  hannken 		ip->i_nextsnap.tqe_prev = 0;
 1.1  hannken 		lkp = vp->v_vnlock;
 1.1  hannken 		vp->v_vnlock = &vp->v_lock;
 1.1  hannken 		lockmgr(lkp, LK_RELEASE, NULL);
 1.1  hannken 		if (TAILQ_FIRST(&ump->um_snapshots) != 0) {
 1.1  hannken 			VI_UNLOCK(devvp);
 1.1  hannken 		} else {
 1.1  hannken 			snapblklist = ump->um_snapblklist;
 1.1  hannken 			ump->um_snapblklist = 0;
 1.1  hannken 			ump->um_snaplistsize = 0;
 1.1  hannken 			lockmgr(lkp, LK_DRAIN|LK_INTERLOCK, VI_MTX(devvp));
 1.1  hannken 			lockmgr(lkp, LK_RELEASE, NULL);
 1.1  hannken 			vn_cow_disestablish(devvp, ffs_copyonwrite, devvp);
 1.1  hannken 			FREE(lkp, M_UFSMNT);
 1.1  hannken 			FREE(snapblklist, M_UFSMNT);
 1.1  hannken 		}
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Clear all BLK_NOCOPY fields. Pass any block claims to other
 1.1  hannken 	 * snapshots that want them (see ffs_snapblkfree below).
 1.1  hannken 	 */
 1.1  hannken 	for (blkno = 1; blkno < NDADDR; blkno++) {
 1.1  hannken 		dblk = db_get(ip, blkno);
 1.1  hannken 		if (dblk == BLK_NOCOPY || dblk == BLK_SNAP)
 1.1  hannken 			db_assign(ip, blkno, 0);
 1.1  hannken 		else if ((dblk == blkstofrags(fs, blkno) &&
 1.1  hannken 		     ffs_snapblkfree(fs, ip->i_devvp, dblk, fs->fs_bsize,
 1.1  hannken 		     ip->i_number))) {
 1.1  hannken 			DIP_ADD(ip, blocks, -btodb(fs->fs_bsize));
 1.1  hannken 			db_assign(ip, blkno, 0);
 1.1  hannken 		}
 1.1  hannken 	}
 1.1  hannken 	numblks = howmany(ip->i_size, fs->fs_bsize);
 1.1  hannken 	for (blkno = NDADDR; blkno < numblks; blkno += NINDIR(fs)) {
 1.1  hannken 		error = VOP_BALLOC(vp, lblktosize(fs, (off_t)blkno),
 1.1  hannken 		    fs->fs_bsize, KERNCRED, B_METAONLY, &ibp);
 1.1  hannken 		if (error)
 1.1  hannken 			continue;
 1.1  hannken 		if (fs->fs_size - blkno > NINDIR(fs))
 1.1  hannken 			last = NINDIR(fs);
 1.1  hannken 		else
 1.1  hannken 			last = fs->fs_size - blkno;
 1.1  hannken 		for (loc = 0; loc < last; loc++) {
 1.1  hannken 			dblk = idb_get(ip, ibp->b_data, loc);
 1.1  hannken 			if (dblk == BLK_NOCOPY || dblk == BLK_SNAP)
 1.1  hannken 				idb_assign(ip, ibp->b_data, loc, 0);
 1.1  hannken 			else if (dblk == blkstofrags(fs, blkno) &&
 1.1  hannken 			    ffs_snapblkfree(fs, ip->i_devvp, dblk,
 1.1  hannken 			    fs->fs_bsize, ip->i_number)) {
 1.1  hannken 				DIP_ADD(ip, blocks, -btodb(fs->fs_bsize));
 1.1  hannken 				idb_assign(ip, ibp->b_data, loc, 0);
 1.1  hannken 			}
 1.1  hannken 		}
 1.1  hannken 		bwrite(ibp);
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Clear snapshot flag and drop reference.
 1.1  hannken 	 */
 1.1  hannken 	ip->i_flags &= ~SF_SNAPSHOT;
 1.1  hannken 	DIP_ASSIGN(ip, flags, ip->i_flags);
 1.1  hannken 	ip->i_flag |= IN_CHANGE | IN_UPDATE;
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Notification that a block is being freed. Return zero if the free
 1.1  hannken  * should be allowed to proceed. Return non-zero if the snapshot file
 1.1  hannken  * wants to claim the block. The block will be claimed if it is an
 1.1  hannken  * uncopied part of one of the snapshots. It will be freed if it is
 1.1  hannken  * either a BLK_NOCOPY or has already been copied in all of the snapshots.
 1.1  hannken  * If a fragment is being freed, then all snapshots that care about
 1.1  hannken  * it must make a copy since a snapshot file can only claim full sized
 1.1  hannken  * blocks. Note that if more than one snapshot file maps the block,
 1.1  hannken  * we can pick one at random to claim it. Since none of the snapshots
 1.1  hannken  * can change, we are assurred that they will all see the same unmodified
 1.1  hannken  * image. When deleting a snapshot file (see ffs_snapremove above), we
 1.1  hannken  * must push any of these claimed blocks to one of the other snapshots
 1.1  hannken  * that maps it. These claimed blocks are easily identified as they will
 1.1  hannken  * have a block number equal to their logical block number within the
 1.1  hannken  * snapshot. A copied block can never have this property because they
 1.1  hannken  * must always have been allocated from a BLK_NOCOPY location.
 1.1  hannken  */
 1.1  hannken int
 1.1  hannken ffs_snapblkfree(fs, devvp, bno, size, inum)
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	struct vnode *devvp;
 1.1  hannken 	ufs2_daddr_t bno;
 1.1  hannken 	long size;
 1.1  hannken 	ino_t inum;
 1.1  hannken {
 1.1  hannken 	struct ufsmount *ump = VFSTOUFS(devvp->v_specmountpoint);
 1.1  hannken 	struct buf *ibp;
 1.1  hannken 	struct inode *ip;
 1.1  hannken 	struct vnode *vp = NULL, *saved_vp = NULL;
 1.1  hannken 	caddr_t saved_data = NULL;
 1.1  hannken 	ufs_lbn_t lbn;
 1.1  hannken 	ufs2_daddr_t blkno;
 1.4  hannken 	int s, indiroff = 0, snapshot_locked = 0, error = 0, claimedblk = 0;
 1.1  hannken
 1.1  hannken 	lbn = fragstoblks(fs, bno);
 1.1  hannken retry:
 1.1  hannken 	VI_LOCK(devvp);
 1.1  hannken 	TAILQ_FOREACH(ip, &ump->um_snapshots, i_nextsnap) {
 1.1  hannken 		vp = ITOV(ip);
 1.1  hannken 		/*
 1.1  hannken 		 * Lookup block being written.
 1.1  hannken 		 */
 1.1  hannken 		if (lbn < NDADDR) {
 1.1  hannken 			blkno = db_get(ip, lbn);
 1.1  hannken 		} else {
 1.1  hannken 			if (snapshot_locked == 0 &&
 1.1  hannken 			    lockmgr(vp->v_vnlock,
 1.1  hannken 			      LK_INTERLOCK | LK_EXCLUSIVE | LK_SLEEPFAIL,
 1.1  hannken 			      VI_MTX(devvp)) != 0)
 1.1  hannken 				goto retry;
 1.1  hannken 			snapshot_locked = 1;
 1.4  hannken 			s = cow_enter();
 1.1  hannken 			error = VOP_BALLOC(vp, lblktosize(fs, (off_t)lbn),
 1.1  hannken 			    fs->fs_bsize, KERNCRED, B_METAONLY, &ibp);
 1.4  hannken 			cow_leave(s);
 1.1  hannken 			if (error)
 1.1  hannken 				break;
 1.1  hannken 			indiroff = (lbn - NDADDR) % NINDIR(fs);
 1.1  hannken 			blkno = idb_get(ip, ibp->b_data, indiroff);
 1.1  hannken 		}
 1.1  hannken 		/*
 1.1  hannken 		 * Check to see if block needs to be copied.
 1.1  hannken 		 */
 1.1  hannken 		if (blkno == 0) {
 1.1  hannken 			/*
 1.1  hannken 			 * A block that we map is being freed. If it has not
 1.1  hannken 			 * been claimed yet, we will claim or copy it (below).
 1.1  hannken 			 */
 1.1  hannken 			claimedblk = 1;
 1.1  hannken 		} else if (blkno == BLK_SNAP) {
 1.1  hannken 			/*
 1.1  hannken 			 * No previous snapshot claimed the block,
 1.1  hannken 			 * so it will be freed and become a BLK_NOCOPY
 1.1  hannken 			 * (don't care) for us.
 1.1  hannken 			 */
 1.1  hannken 			if (claimedblk)
 1.1  hannken 				panic("snapblkfree: inconsistent block type");
 1.1  hannken 			if (snapshot_locked == 0 &&
 1.1  hannken 			    lockmgr(vp->v_vnlock,
 1.1  hannken 			      LK_INTERLOCK | LK_EXCLUSIVE | LK_NOWAIT,
 1.1  hannken 			      VI_MTX(devvp)) != 0) {
 1.1  hannken 				if (lbn >= NDADDR)
 1.1  hannken 					brelse(ibp);
 1.1  hannken 				vn_lock(vp, LK_EXCLUSIVE | LK_SLEEPFAIL);
 1.1  hannken 				goto retry;
 1.1  hannken 			}
 1.1  hannken 			snapshot_locked = 1;
 1.1  hannken 			if (lbn < NDADDR) {
 1.1  hannken 				db_assign(ip, lbn, BLK_NOCOPY);
 1.1  hannken 				ip->i_flag |= IN_CHANGE | IN_UPDATE;
 1.1  hannken 			} else {
 1.1  hannken 				idb_assign(ip, ibp->b_data, indiroff,
 1.1  hannken 				    BLK_NOCOPY);
 1.1  hannken 				bwrite(ibp);
 1.1  hannken 			}
 1.1  hannken 			continue;
 1.1  hannken 		} else /* BLK_NOCOPY or default */ {
 1.1  hannken 			/*
 1.1  hannken 			 * If the snapshot has already copied the block
 1.1  hannken 			 * (default), or does not care about the block,
 1.1  hannken 			 * it is not needed.
 1.1  hannken 			 */
 1.1  hannken 			if (lbn >= NDADDR)
 1.1  hannken 				brelse(ibp);
 1.1  hannken 			continue;
 1.1  hannken 		}
 1.1  hannken 		/*
 1.1  hannken 		 * If this is a full size block, we will just grab it
 1.1  hannken 		 * and assign it to the snapshot inode. Otherwise we
 1.1  hannken 		 * will proceed to copy it. See explanation for this
 1.1  hannken 		 * routine as to why only a single snapshot needs to
 1.1  hannken 		 * claim this block.
 1.1  hannken 		 */
 1.1  hannken 		if (snapshot_locked == 0 &&
 1.1  hannken 		    lockmgr(vp->v_vnlock,
 1.1  hannken 		      LK_INTERLOCK | LK_EXCLUSIVE | LK_NOWAIT,
 1.1  hannken 		      VI_MTX(devvp)) != 0) {
 1.1  hannken 			if (lbn >= NDADDR)
 1.1  hannken 				brelse(ibp);
 1.1  hannken 			vn_lock(vp, LK_EXCLUSIVE | LK_SLEEPFAIL);
 1.1  hannken 			goto retry;
 1.1  hannken 		}
 1.1  hannken 		snapshot_locked = 1;
 1.1  hannken 		if (size == fs->fs_bsize) {
 1.1  hannken #ifdef DEBUG
 1.1  hannken 			if (snapdebug)
 1.4  hannken 				printf("%s %d lbn %" PRId64 " from inum %d\n",
 1.1  hannken 				    "Grabonremove: snapino", ip->i_number,
 1.4  hannken 				    lbn, inum);
 1.1  hannken #endif
 1.1  hannken 			if (lbn < NDADDR) {
 1.1  hannken 				db_assign(ip, lbn, bno);
 1.1  hannken 			} else {
 1.1  hannken 				idb_assign(ip, ibp->b_data, indiroff, bno);
 1.1  hannken 				bwrite(ibp);
 1.1  hannken 			}
 1.1  hannken 			DIP_ADD(ip, blocks, btodb(size));
 1.1  hannken 			ip->i_flag |= IN_CHANGE | IN_UPDATE;
 1.1  hannken 			VOP_UNLOCK(vp, 0);
 1.1  hannken 			return (1);
 1.1  hannken 		}
 1.1  hannken 		if (lbn >= NDADDR)
 1.1  hannken 			brelse(ibp);
 1.1  hannken #ifdef DEBUG
 1.1  hannken 		if (snapdebug)
 1.4  hannken 			printf("%s%d lbn %" PRId64 " %s %d size %ld\n",
 1.1  hannken 			    "Copyonremove: snapino ", ip->i_number,
 1.4  hannken 			    lbn, "for inum", inum, size);
 1.1  hannken #endif
 1.1  hannken 		/*
 1.1  hannken 		 * If we have already read the old block contents, then
 1.1  hannken 		 * simply copy them to the new block. Note that we need
 1.1  hannken 		 * to synchronously write snapshots that have not been
 1.1  hannken 		 * unlinked, and hence will be visible after a crash,
 1.1  hannken 		 * to ensure their integrity.
 1.1  hannken 		 */
 1.1  hannken 		if (saved_data) {
 1.1  hannken 			error = writevnblk(vp, saved_data, lbn);
 1.1  hannken 			if (error)
 1.1  hannken 				break;
 1.1  hannken 			continue;
 1.1  hannken 		}
 1.1  hannken 		/*
 1.1  hannken 		 * Otherwise, read the old block contents into the buffer.
 1.1  hannken 		 */
 1.1  hannken 		saved_data = malloc(fs->fs_bsize, M_UFSMNT, M_WAITOK);
 1.1  hannken 		saved_vp = vp;
 1.1  hannken 		if ((error = readfsblk(vp, saved_data, lbn)) != 0) {
 1.1  hannken 			free(saved_data, M_UFSMNT);
 1.1  hannken 			saved_data = NULL;
 1.1  hannken 			break;
 1.1  hannken 		}
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Note that we need to synchronously write snapshots that
 1.1  hannken 	 * have not been unlinked, and hence will be visible after
 1.1  hannken 	 * a crash, to ensure their integrity.
 1.1  hannken 	 */
 1.1  hannken 	if (saved_data) {
 1.1  hannken 		error = writevnblk(saved_vp, saved_data, lbn);
 1.1  hannken 		free(saved_data, M_UFSMNT);
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * If we have been unable to allocate a block in which to do
 1.1  hannken 	 * the copy, then return non-zero so that the fragment will
 1.1  hannken 	 * not be freed. Although space will be lost, the snapshot
 1.1  hannken 	 * will stay consistent.
 1.1  hannken 	 */
 1.1  hannken 	if (snapshot_locked)
 1.1  hannken 		VOP_UNLOCK(vp, 0);
 1.1  hannken 	else
 1.1  hannken 		VI_UNLOCK(devvp);
 1.1  hannken 	return (error);
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Associate snapshot files when mounting.
 1.1  hannken  */
 1.1  hannken void
 1.1  hannken ffs_snapshot_mount(mp)
 1.1  hannken 	struct mount *mp;
 1.1  hannken {
 1.1  hannken 	struct ufsmount *ump = VFSTOUFS(mp);
 1.1  hannken 	struct vnode *devvp = ump->um_devvp;
 1.1  hannken 	struct fs *fs = ump->um_fs;
 1.1  hannken 	struct proc *p = curproc;
 1.1  hannken 	struct vnode *vp;
 1.1  hannken 	struct inode *ip, *xp;
 1.1  hannken 	ufs2_daddr_t snaplistsize, *snapblklist;
 1.1  hannken 	int error, ns, snaploc, loc;
 1.1  hannken
 1.1  hannken 	ns = UFS_FSNEEDSWAP(fs);
 1.1  hannken 	/*
 1.1  hannken 	 * XXX The following needs to be set before VOP_TRUNCATE or
 1.1  hannken 	 * VOP_READ can be called.
 1.1  hannken 	 */
 1.1  hannken 	mp->mnt_stat.f_iosize = fs->fs_bsize;
 1.1  hannken 	/*
 1.1  hannken 	 * Process each snapshot listed in the superblock.
 1.1  hannken 	 */
 1.1  hannken 	vp = NULL;
 1.1  hannken 	for (snaploc = 0; snaploc < FSMAXSNAP; snaploc++) {
 1.1  hannken 		if (fs->fs_snapinum[snaploc] == 0)
 1.1  hannken 			break;
 1.1  hannken 		if ((error = VFS_VGET(mp, fs->fs_snapinum[snaploc],
 1.1  hannken 		    &vp)) != 0) {
 1.1  hannken 			printf("ffs_snapshot_mount: vget failed %d\n", error);
 1.1  hannken 			continue;
 1.1  hannken 		}
 1.1  hannken 		ip = VTOI(vp);
 1.1  hannken 		if ((ip->i_flags & SF_SNAPSHOT) == 0) {
 1.1  hannken 			printf("ffs_snapshot_mount: non-snapshot inode %d\n",
 1.1  hannken 			    fs->fs_snapinum[snaploc]);
 1.1  hannken 			vput(vp);
 1.1  hannken 			vp = NULL;
 1.1  hannken 			for (loc = snaploc + 1; loc < FSMAXSNAP; loc++) {
 1.1  hannken 				if (fs->fs_snapinum[loc] == 0)
 1.1  hannken 					break;
 1.1  hannken 				fs->fs_snapinum[loc - 1] = fs->fs_snapinum[loc];
 1.1  hannken 			}
 1.1  hannken 			fs->fs_snapinum[loc - 1] = 0;
 1.1  hannken 			snaploc--;
 1.1  hannken 			continue;
 1.1  hannken 		}
 1.1  hannken 		/*
 1.1  hannken 		 * If there already exist snapshots on this filesystem, grab a
 1.1  hannken 		 * reference to their shared lock. If this is the first snapshot
 1.1  hannken 		 * on this filesystem, we need to allocate a lock for the
 1.1  hannken 		 * snapshots to share. In either case, acquire the snapshot
 1.1  hannken 		 * lock and give up our original private lock.
 1.1  hannken 		 */
 1.1  hannken 		VI_LOCK(devvp);
 1.1  hannken 		if ((xp = TAILQ_FIRST(&ump->um_snapshots)) != NULL) {
 1.1  hannken 			struct lock *lkp;
 1.1  hannken
 1.1  hannken 			lkp = ITOV(xp)->v_vnlock;
 1.1  hannken 			VI_UNLOCK(devvp);
 1.1  hannken 			VI_LOCK(vp);
 1.1  hannken 			vp->v_vnlock = lkp;
 1.1  hannken 		} else {
 1.1  hannken 			struct lock *lkp;
 1.1  hannken
 1.1  hannken 			VI_UNLOCK(devvp);
 1.1  hannken 			MALLOC(lkp, struct lock *, sizeof(struct lock),
 1.1  hannken 			    M_UFSMNT, M_WAITOK);
 1.1  hannken 			lockinit(lkp, PVFS, "snaplk", 0, LK_CANRECURSE);
 1.1  hannken 			VI_LOCK(vp);
 1.1  hannken 			vp->v_vnlock = lkp;
 1.1  hannken 		}
 1.1  hannken 		vn_lock(vp, LK_INTERLOCK | LK_EXCLUSIVE | LK_RETRY);
 1.1  hannken 		transferlockers(&vp->v_lock, vp->v_vnlock);
 1.1  hannken 		lockmgr(&vp->v_lock, LK_RELEASE, NULL);
 1.1  hannken 		/*
 1.1  hannken 		 * Link it onto the active snapshot list.
 1.1  hannken 		 */
 1.1  hannken 		VI_LOCK(devvp);
 1.1  hannken 		if (ip->i_nextsnap.tqe_prev != 0)
 1.1  hannken 			panic("ffs_snapshot_mount: %d already on list",
 1.1  hannken 			    ip->i_number);
 1.1  hannken 		else
 1.1  hannken 			TAILQ_INSERT_TAIL(&ump->um_snapshots, ip, i_nextsnap);
 1.1  hannken 		vp->v_flag |= VSYSTEM;
 1.1  hannken 		VI_UNLOCK(devvp);
 1.1  hannken 		VOP_UNLOCK(vp, 0);
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * No usable snapshots found.
 1.1  hannken 	 */
 1.1  hannken 	if (vp == NULL)
 1.1  hannken 		return;
 1.1  hannken 	/*
 1.1  hannken 	 * Allocate the space for the block hints list. We always want to
 1.1  hannken 	 * use the list from the newest snapshot.
 1.1  hannken 	 */
 1.1  hannken 	vn_lock(vp, LK_EXCLUSIVE | LK_RETRY);
 1.1  hannken 	error = vn_rdwr(UIO_READ, vp,
 1.1  hannken 	    (caddr_t)&snaplistsize, sizeof(snaplistsize),
 1.1  hannken 	    lblktosize(fs, howmany(fs->fs_size, fs->fs_frag)),
 1.7    skrll 	    UIO_SYSSPACE, IO_NODELOCKED|IO_UNIT, p->p_ucred, NULL, NULL);
 1.1  hannken 	if (error) {
 1.1  hannken 		printf("ffs_snapshot_mount: read_1 failed %d\n", error);
 1.1  hannken 		VOP_UNLOCK(vp, 0);
 1.1  hannken 		return;
 1.1  hannken 	}
 1.1  hannken 	snaplistsize = ufs_rw64(snaplistsize, ns);
 1.1  hannken 	MALLOC(snapblklist, ufs2_daddr_t *, snaplistsize * sizeof(ufs2_daddr_t),
 1.1  hannken 	    M_UFSMNT, M_WAITOK);
 1.1  hannken 	error = vn_rdwr(UIO_READ, vp,
 1.1  hannken 	    (caddr_t)snapblklist, snaplistsize * sizeof(ufs2_daddr_t),
 1.1  hannken 	    lblktosize(fs, howmany(fs->fs_size, fs->fs_frag)),
 1.7    skrll 	    UIO_SYSSPACE, IO_NODELOCKED|IO_UNIT, p->p_ucred, NULL, NULL);
 1.1  hannken 	if (error) {
 1.1  hannken 		printf("ffs_snapshot_mount: read_2 failed %d\n", error);
 1.1  hannken 		VOP_UNLOCK(vp, 0);
 1.1  hannken 		FREE(snapblklist, M_UFSMNT);
 1.1  hannken 		return;
 1.1  hannken 	}
 1.1  hannken 	VOP_UNLOCK(vp, 0);
 1.1  hannken 	VI_LOCK(devvp);
 1.1  hannken 	ump->um_snaplistsize = snaplistsize;
 1.1  hannken 	ump->um_snapblklist = snapblklist;
 1.1  hannken 	VI_UNLOCK(devvp);
 1.1  hannken 	vn_cow_establish(devvp, ffs_copyonwrite, devvp);
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Disassociate snapshot files when unmounting.
 1.1  hannken  */
 1.1  hannken void
 1.1  hannken ffs_snapshot_unmount(mp)
 1.1  hannken 	struct mount *mp;
 1.1  hannken {
 1.1  hannken 	struct ufsmount *ump = VFSTOUFS(mp);
 1.1  hannken 	struct vnode *devvp = ump->um_devvp;
 1.1  hannken 	struct lock *lkp = NULL;
 1.1  hannken 	struct inode *xp;
 1.1  hannken 	struct vnode *vp;
 1.1  hannken
 1.1  hannken 	VI_LOCK(devvp);
 1.1  hannken 	while ((xp = TAILQ_FIRST(&ump->um_snapshots)) != 0) {
 1.1  hannken 		vp = ITOV(xp);
 1.1  hannken 		lkp = vp->v_vnlock;
 1.1  hannken 		vp->v_vnlock = &vp->v_lock;
 1.1  hannken 		TAILQ_REMOVE(&ump->um_snapshots, xp, i_nextsnap);
 1.1  hannken 		xp->i_nextsnap.tqe_prev = 0;
 1.1  hannken 		if (xp->i_ffs_effnlink > 0) {
 1.1  hannken 			VI_UNLOCK(devvp);
 1.1  hannken 			vrele(vp);
 1.1  hannken 			VI_LOCK(devvp);
 1.1  hannken 		}
 1.1  hannken 	}
 1.1  hannken 	if (ump->um_snapblklist != NULL) {
 1.1  hannken 		FREE(ump->um_snapblklist, M_UFSMNT);
 1.1  hannken 		ump->um_snapblklist = NULL;
 1.1  hannken 		ump->um_snaplistsize = 0;
 1.1  hannken 	}
 1.1  hannken 	VI_UNLOCK(devvp);
 1.1  hannken 	if (lkp != NULL) {
 1.1  hannken 		vn_cow_disestablish(devvp, ffs_copyonwrite, devvp);
 1.1  hannken 		FREE(lkp, M_UFSMNT);
 1.1  hannken 	}
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Check for need to copy block that is about to be written,
 1.1  hannken  * copying the block if necessary.
 1.1  hannken  */
 1.1  hannken static int
 1.1  hannken ffs_copyonwrite(v, bp)
 1.1  hannken 	void *v;
 1.1  hannken 	struct buf *bp;
 1.1  hannken {
 1.1  hannken 	struct buf *ibp;
 1.1  hannken 	struct fs *fs;
 1.1  hannken 	struct inode *ip;
 1.1  hannken 	struct vnode *devvp = v, *vp = 0, *saved_vp = NULL;
 1.1  hannken 	struct ufsmount *ump = VFSTOUFS(devvp->v_specmountpoint);
 1.1  hannken 	caddr_t saved_data = NULL;
 1.1  hannken 	ufs2_daddr_t lbn, blkno, *snapblklist;
 1.4  hannken 	int lower, upper, mid, s, ns, indiroff, snapshot_locked = 0, error = 0;
 1.1  hannken
 1.1  hannken 	/*
 1.1  hannken 	 * Check for valid snapshots.
 1.1  hannken 	 */
 1.1  hannken 	VI_LOCK(devvp);
 1.1  hannken 	ip = TAILQ_FIRST(&ump->um_snapshots);
 1.1  hannken 	if (ip == NULL) {
 1.1  hannken 		VI_UNLOCK(devvp);
1.11    perry 		return 0;
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * First check to see if it is in the preallocated list.
 1.1  hannken 	 * By doing this check we avoid several potential deadlocks.
 1.1  hannken 	 */
 1.1  hannken 	fs = ip->i_fs;
 1.1  hannken 	ns = UFS_FSNEEDSWAP(fs);
 1.1  hannken 	lbn = fragstoblks(fs, dbtofsb(fs, bp->b_blkno));
 1.1  hannken 	snapblklist = ump->um_snapblklist;
 1.1  hannken 	upper = ump->um_snaplistsize - 1;
 1.1  hannken 	lower = 1;
 1.1  hannken 	while (lower <= upper) {
 1.1  hannken 		mid = (lower + upper) / 2;
 1.1  hannken 		if (ufs_rw64(snapblklist[mid], ns) == lbn)
 1.1  hannken 			break;
 1.1  hannken 		if (ufs_rw64(snapblklist[mid], ns) < lbn)
 1.1  hannken 			lower = mid + 1;
 1.1  hannken 		else
 1.1  hannken 			upper = mid - 1;
 1.1  hannken 	}
 1.1  hannken 	if (lower <= upper) {
 1.1  hannken 		VI_UNLOCK(devvp);
 1.1  hannken 		return 0;
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Not in the precomputed list, so check the snapshots.
 1.1  hannken 	 */
 1.1  hannken retry:
 1.1  hannken 	TAILQ_FOREACH(ip, &ump->um_snapshots, i_nextsnap) {
 1.1  hannken 		vp = ITOV(ip);
 1.1  hannken 		/*
 1.1  hannken 		 * We ensure that everything of our own that needs to be
 1.1  hannken 		 * copied will be done at the time that ffs_snapshot is
 1.1  hannken 		 * called. Thus we can skip the check here which can
 1.1  hannken 		 * deadlock in doing the lookup in VOP_BALLOC.
 1.1  hannken 		 */
 1.1  hannken 		if (bp->b_vp == vp)
 1.1  hannken 			continue;
 1.1  hannken 		/*
 1.1  hannken 		 * Check to see if block needs to be copied. We do not have
 1.1  hannken 		 * to hold the snapshot lock while doing this lookup as it
 1.1  hannken 		 * will never require any additional allocations for the
 1.1  hannken 		 * snapshot inode.
 1.1  hannken 		 */
 1.1  hannken 		if (lbn < NDADDR) {
 1.1  hannken 			blkno = db_get(ip, lbn);
 1.1  hannken 		} else {
 1.1  hannken 			if (snapshot_locked == 0 &&
 1.1  hannken 			    lockmgr(vp->v_vnlock,
 1.1  hannken 			      LK_INTERLOCK | LK_EXCLUSIVE | LK_SLEEPFAIL,
 1.1  hannken 			      VI_MTX(devvp)) != 0) {
 1.1  hannken 				VI_LOCK(devvp);
 1.1  hannken 				goto retry;
 1.1  hannken 			}
 1.1  hannken 			snapshot_locked = 1;
 1.4  hannken 			s = cow_enter();
 1.1  hannken 			error = VOP_BALLOC(vp, lblktosize(fs, (off_t)lbn),
 1.1  hannken 			   fs->fs_bsize, KERNCRED, B_METAONLY, &ibp);
 1.4  hannken 			cow_leave(s);
 1.1  hannken 			if (error)
 1.1  hannken 				break;
 1.1  hannken 			indiroff = (lbn - NDADDR) % NINDIR(fs);
 1.1  hannken 			blkno = idb_get(ip, ibp->b_data, indiroff);
 1.1  hannken 			brelse(ibp);
 1.1  hannken 		}
 1.1  hannken #ifdef DIAGNOSTIC
 1.1  hannken 		if (blkno == BLK_SNAP && bp->b_lblkno >= 0)
 1.1  hannken 			panic("ffs_copyonwrite: bad copy block");
 1.1  hannken #endif
 1.1  hannken 		if (blkno != 0)
 1.1  hannken 			continue;
 1.4  hannken #ifdef DIAGNOSTIC
 1.4  hannken 		if (curlwp->l_flag & L_COWINPROGRESS)
 1.4  hannken 			printf("ffs_copyonwrite: recursive call\n");
 1.4  hannken #endif
 1.1  hannken 		/*
 1.1  hannken 		 * Allocate the block into which to do the copy. Since
 1.1  hannken 		 * multiple processes may all try to copy the same block,
 1.1  hannken 		 * we have to recheck our need to do a copy if we sleep
 1.1  hannken 		 * waiting for the lock.
 1.1  hannken 		 *
 1.1  hannken 		 * Because all snapshots on a filesystem share a single
 1.1  hannken 		 * lock, we ensure that we will never be in competition
 1.1  hannken 		 * with another process to allocate a block.
 1.1  hannken 		 */
 1.1  hannken 		if (snapshot_locked == 0 &&
 1.1  hannken 		    lockmgr(vp->v_vnlock,
 1.1  hannken 		      LK_INTERLOCK | LK_EXCLUSIVE | LK_SLEEPFAIL,
 1.1  hannken 		      VI_MTX(devvp)) != 0) {
 1.1  hannken 			VI_LOCK(devvp);
 1.1  hannken 			goto retry;
 1.1  hannken 		}
 1.1  hannken 		snapshot_locked = 1;
 1.1  hannken #ifdef DEBUG
 1.1  hannken 		if (snapdebug) {
 1.4  hannken 			printf("Copyonwrite: snapino %d lbn %" PRId64 " for ",
 1.4  hannken 			    ip->i_number, lbn);
 1.1  hannken 			if (bp->b_vp == devvp)
 1.1  hannken 				printf("fs metadata");
 1.1  hannken 			else
 1.1  hannken 				printf("inum %d", VTOI(bp->b_vp)->i_number);
 1.4  hannken 			printf(" lblkno %" PRId64 "\n", bp->b_lblkno);
 1.1  hannken 		}
 1.1  hannken #endif
 1.1  hannken 		/*
 1.1  hannken 		 * If we have already read the old block contents, then
 1.1  hannken 		 * simply copy them to the new block. Note that we need
 1.1  hannken 		 * to synchronously write snapshots that have not been
 1.1  hannken 		 * unlinked, and hence will be visible after a crash,
 1.1  hannken 		 * to ensure their integrity.
 1.1  hannken 		 */
 1.1  hannken 		if (saved_data) {
 1.1  hannken 			error = writevnblk(vp, saved_data, lbn);
 1.1  hannken 			if (error)
 1.1  hannken 				break;
 1.1  hannken 			continue;
 1.1  hannken 		}
 1.1  hannken 		/*
 1.1  hannken 		 * Otherwise, read the old block contents into the buffer.
 1.1  hannken 		 */
 1.1  hannken 		saved_data = malloc(fs->fs_bsize, M_UFSMNT, M_WAITOK);
 1.1  hannken 		saved_vp = vp;
 1.1  hannken 		if ((error = readfsblk(vp, saved_data, lbn)) != 0) {
 1.1  hannken 			free(saved_data, M_UFSMNT);
 1.1  hannken 			saved_data = NULL;
 1.1  hannken 			break;
 1.1  hannken 		}
 1.1  hannken 	}
 1.1  hannken 	/*
 1.1  hannken 	 * Note that we need to synchronously write snapshots that
 1.1  hannken 	 * have not been unlinked, and hence will be visible after
 1.1  hannken 	 * a crash, to ensure their integrity.
 1.1  hannken 	 */
 1.1  hannken 	if (saved_data) {
 1.1  hannken 		error = writevnblk(saved_vp, saved_data, lbn);
 1.1  hannken 		free(saved_data, M_UFSMNT);
 1.1  hannken 	}
 1.1  hannken 	if (snapshot_locked)
 1.1  hannken 		VOP_UNLOCK(vp, 0);
 1.1  hannken 	else
 1.1  hannken 		VI_UNLOCK(devvp);
 1.1  hannken 	return error;
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Read the specified block from disk. Vp is usually a snapshot vnode.
 1.1  hannken  */
 1.1  hannken static int
 1.1  hannken readfsblk(vp, data, lbn)
 1.1  hannken 	struct vnode *vp;
 1.1  hannken 	caddr_t data;
 1.1  hannken 	ufs2_daddr_t lbn;
 1.1  hannken {
 1.1  hannken 	int s, error;
 1.1  hannken 	struct inode *ip = VTOI(vp);
 1.1  hannken 	struct fs *fs = ip->i_fs;
 1.1  hannken 	struct buf *nbp;
 1.1  hannken
 1.1  hannken 	s = splbio();
 1.1  hannken 	nbp = pool_get(&bufpool, PR_WAITOK);
 1.1  hannken 	splx(s);
 1.1  hannken
 1.1  hannken 	BUF_INIT(nbp);
 1.1  hannken 	nbp->b_flags = B_READ;
 1.1  hannken 	nbp->b_bcount = nbp->b_bufsize = fs->fs_bsize;
 1.1  hannken 	nbp->b_error = 0;
 1.1  hannken 	nbp->b_data = data;
 1.1  hannken 	nbp->b_blkno = nbp->b_rawblkno = fsbtodb(fs, blkstofrags(fs, lbn));
 1.1  hannken 	nbp->b_proc = NULL;
 1.1  hannken 	nbp->b_dev = ip->i_devvp->v_rdev;
 1.1  hannken 	nbp->b_vp = NULLVP;
 1.1  hannken
 1.1  hannken 	DEV_STRATEGY(nbp);
 1.1  hannken
 1.1  hannken 	error = biowait(nbp);
 1.1  hannken
 1.1  hannken 	s = splbio();
 1.1  hannken 	pool_put(&bufpool, nbp);
 1.1  hannken 	splx(s);
 1.1  hannken
 1.1  hannken 	return error;
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.4  hannken  * Read the specified block. Bypass UBC to prevent deadlocks.
 1.1  hannken  */
 1.1  hannken static int
 1.1  hannken readvnblk(vp, data, lbn)
 1.1  hannken 	struct vnode *vp;
 1.1  hannken 	caddr_t data;
 1.1  hannken 	ufs2_daddr_t lbn;
 1.1  hannken {
 1.4  hannken 	int error;
 1.4  hannken 	daddr_t bn;
 1.4  hannken 	off_t offset;
 1.1  hannken 	struct inode *ip = VTOI(vp);
 1.1  hannken 	struct fs *fs = ip->i_fs;
 1.1  hannken
 1.4  hannken 	error = VOP_BMAP(vp, lbn, NULL, &bn, NULL);
 1.4  hannken 	if (error)
 1.4  hannken 		return error;
 1.1  hannken
 1.4  hannken 	if (bn != (daddr_t)-1) {
 1.4  hannken 		offset = dbtob(bn);
 1.4  hannken 		simple_lock(&vp->v_interlock);
 1.4  hannken 		error = VOP_PUTPAGES(vp, trunc_page(offset),
 1.4  hannken 		    round_page(offset+fs->fs_bsize),
 1.4  hannken 		    PGO_CLEANIT|PGO_SYNCIO|PGO_FREE);
 1.1  hannken 		if (error)
 1.4  hannken 			return error;
 1.4  hannken
 1.4  hannken 		return readfsblk(vp, data, fragstoblks(fs, dbtofsb(fs, bn)));
 1.1  hannken 	}
 1.1  hannken
 1.4  hannken 	bzero(data, fs->fs_bsize);
 1.4  hannken
 1.4  hannken 	return 0;
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.4  hannken  * Write the specified block. Bypass UBC to prevent deadlocks.
 1.1  hannken  */
 1.1  hannken static int
 1.1  hannken writevnblk(vp, data, lbn)
 1.1  hannken 	struct vnode *vp;
 1.1  hannken 	caddr_t data;
 1.1  hannken 	ufs2_daddr_t lbn;
 1.1  hannken {
 1.4  hannken 	int s, error;
 1.4  hannken 	off_t offset;
 1.4  hannken 	struct buf *bp;
 1.1  hannken 	struct inode *ip = VTOI(vp);
 1.1  hannken 	struct fs *fs = ip->i_fs;
 1.1  hannken
 1.4  hannken 	offset = lblktosize(fs, (off_t)lbn);
 1.4  hannken 	s = cow_enter();
 1.4  hannken 	simple_lock(&vp->v_interlock);
 1.4  hannken 	error = VOP_PUTPAGES(vp, trunc_page(offset),
 1.4  hannken 	    round_page(offset+fs->fs_bsize), PGO_CLEANIT|PGO_SYNCIO|PGO_FREE);
 1.4  hannken 	if (error == 0)
 1.4  hannken 		error = VOP_BALLOC(vp, lblktosize(fs, (off_t)lbn),
 1.4  hannken 		    fs->fs_bsize, KERNCRED, B_SYNC, &bp);
 1.4  hannken 	cow_leave(s);
 1.1  hannken 	if (error)
 1.1  hannken 		return error;
 1.1  hannken
 1.4  hannken 	bcopy(data, bp->b_data, fs->fs_bsize);
 1.4  hannken 	bp->b_flags |= B_NOCACHE;
 1.4  hannken
 1.4  hannken 	return bwrite(bp);
 1.4  hannken }
 1.4  hannken
 1.4  hannken /*
 1.4  hannken  * Set/reset lwp's L_COWINPROGRESS flag.
 1.4  hannken  * May be called recursive.
 1.4  hannken  */
 1.4  hannken static inline int
 1.4  hannken cow_enter(void)
 1.4  hannken {
 1.4  hannken 	struct lwp *l = curlwp;
 1.4  hannken
 1.4  hannken 	if (l->l_flag & L_COWINPROGRESS) {
 1.4  hannken 		return 0;
 1.4  hannken 	} else {
 1.4  hannken 		l->l_flag |= L_COWINPROGRESS;
 1.4  hannken 		return L_COWINPROGRESS;
 1.1  hannken 	}
 1.4  hannken }
 1.4  hannken
 1.4  hannken static inline void
 1.4  hannken cow_leave(int flag)
 1.4  hannken {
 1.4  hannken 	struct lwp *l = curlwp;
 1.1  hannken
 1.4  hannken 	l->l_flag &= ~flag;
 1.1  hannken }
 1.1  hannken
 1.1  hannken /*
 1.1  hannken  * Get/Put direct block from inode or buffer containing disk addresses. Take
 1.1  hannken  * care for fs type (UFS1/UFS2) and byte swapping. These functions should go
 1.1  hannken  * into a global include.
 1.1  hannken  */
 1.1  hannken static inline ufs2_daddr_t
 1.1  hannken db_get(struct inode *ip, int loc)
 1.1  hannken {
 1.1  hannken 	if (ip->i_ump->um_fstype == UFS1)
 1.2  hannken 		return ufs_rw32(ip->i_ffs1_db[loc], UFS_IPNEEDSWAP(ip));
 1.1  hannken 	else
 1.2  hannken 		return ufs_rw64(ip->i_ffs2_db[loc], UFS_IPNEEDSWAP(ip));
 1.1  hannken }
 1.1  hannken
 1.1  hannken static inline void
 1.1  hannken db_assign(struct inode *ip, int loc, ufs2_daddr_t val)
 1.1  hannken {
 1.1  hannken 	if (ip->i_ump->um_fstype == UFS1)
 1.2  hannken 		ip->i_ffs1_db[loc] = ufs_rw32(val, UFS_IPNEEDSWAP(ip));
 1.1  hannken 	else
 1.2  hannken 		ip->i_ffs2_db[loc] = ufs_rw64(val, UFS_IPNEEDSWAP(ip));
 1.1  hannken }
 1.1  hannken
 1.1  hannken static inline ufs2_daddr_t
 1.1  hannken idb_get(struct inode *ip, caddr_t buf, int loc)
 1.1  hannken {
 1.1  hannken 	if (ip->i_ump->um_fstype == UFS1)
 1.2  hannken 		return ufs_rw32(((ufs1_daddr_t *)(buf))[loc],
 1.2  hannken 		    UFS_IPNEEDSWAP(ip));
 1.1  hannken 	else
 1.2  hannken 		return ufs_rw64(((ufs2_daddr_t *)(buf))[loc],
 1.2  hannken 		    UFS_IPNEEDSWAP(ip));
 1.1  hannken }
 1.1  hannken
 1.1  hannken static inline void
 1.1  hannken idb_assign(struct inode *ip, caddr_t buf, int loc, ufs2_daddr_t val)
 1.1  hannken {
 1.1  hannken 	if (ip->i_ump->um_fstype == UFS1)
 1.2  hannken 		((ufs1_daddr_t *)(buf))[loc] =
 1.2  hannken 		    ufs_rw32(val, UFS_IPNEEDSWAP(ip));
 1.1  hannken 	else
 1.2  hannken 		((ufs2_daddr_t *)(buf))[loc] =
 1.2  hannken 		    ufs_rw64(val, UFS_IPNEEDSWAP(ip));
 1.1  hannken }