ufs/ffs/ffs_wapbl.c

1.7   joerg /*	$NetBSD: ffs_wapbl.c,v 1.7 2008/11/10 20:12:13 joerg Exp $	*/
1.2  simonb
1.2  simonb /*-
1.2  simonb  * Copyright (c) 2003,2006,2008 The NetBSD Foundation, Inc.
1.2  simonb  * All rights reserved.
1.2  simonb  *
1.2  simonb  * This code is derived from software contributed to The NetBSD Foundation
1.2  simonb  * by Wasabi Systems, Inc.
1.2  simonb  *
1.2  simonb  * Redistribution and use in source and binary forms, with or without
1.2  simonb  * modification, are permitted provided that the following conditions
1.2  simonb  * are met:
1.2  simonb  * 1. Redistributions of source code must retain the above copyright
1.2  simonb  *    notice, this list of conditions and the following disclaimer.
1.2  simonb  * 2. Redistributions in binary form must reproduce the above copyright
1.2  simonb  *    notice, this list of conditions and the following disclaimer in the
1.2  simonb  *    documentation and/or other materials provided with the distribution.
1.2  simonb  *
1.2  simonb  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.2  simonb  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.2  simonb  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.2  simonb  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.2  simonb  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.2  simonb  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.2  simonb  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.2  simonb  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.2  simonb  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.2  simonb  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.2  simonb  * POSSIBILITY OF SUCH DAMAGE.
1.2  simonb  */
1.2  simonb
1.2  simonb #include <sys/cdefs.h>
1.7   joerg __KERNEL_RCSID(0, "$NetBSD: ffs_wapbl.c,v 1.7 2008/11/10 20:12:13 joerg Exp $");
1.7   joerg
1.7   joerg #define WAPBL_INTERNAL
1.2  simonb
1.2  simonb #if defined(_KERNEL_OPT)
1.2  simonb #include "opt_ffs.h"
1.2  simonb #endif
1.2  simonb
1.2  simonb #include <sys/param.h>
1.2  simonb #include <sys/systm.h>
1.2  simonb #include <sys/kernel.h>
1.2  simonb #include <sys/vnode.h>
1.2  simonb #include <sys/mount.h>
1.2  simonb #include <sys/file.h>
1.2  simonb #include <sys/disk.h>
1.2  simonb #include <sys/disklabel.h>
1.2  simonb #include <sys/ioctl.h>
1.2  simonb #include <sys/errno.h>
1.2  simonb #include <sys/kauth.h>
1.2  simonb #include <sys/wapbl.h>
1.2  simonb
1.2  simonb #include <ufs/ufs/inode.h>
1.2  simonb #include <ufs/ufs/quota.h>
1.2  simonb #include <ufs/ufs/ufsmount.h>
1.2  simonb #include <ufs/ufs/ufs_bswap.h>
1.2  simonb #include <ufs/ufs/ufs_extern.h>
1.2  simonb #include <ufs/ufs/ufs_wapbl.h>
1.2  simonb
1.2  simonb #include <ufs/ffs/fs.h>
1.2  simonb #include <ufs/ffs/ffs_extern.h>
1.2  simonb
1.2  simonb #undef	WAPBL_DEBUG
1.2  simonb #ifdef WAPBL_DEBUG
1.2  simonb int ffs_wapbl_debug = 1;
1.2  simonb #define DPRINTF(fmt, args...)						\
1.2  simonb do {									\
1.2  simonb 	if (ffs_wapbl_debug)						\
1.2  simonb 		printf("%s:%d "fmt, __func__ , __LINE__, ##args);	\
1.2  simonb } while (/* CONSTCOND */0)
1.2  simonb #else
1.2  simonb #define	DPRINTF(fmt, args...)						\
1.2  simonb do {									\
1.2  simonb 	/* nothing */							\
1.2  simonb } while (/* CONSTCOND */0)
1.2  simonb #endif
1.2  simonb
1.4  simonb static int ffs_superblock_layout(struct fs *);
1.2  simonb static int wapbl_log_position(struct mount *, struct fs *, struct vnode *,
1.2  simonb     daddr_t *, size_t *, size_t *, uint64_t *);
1.2  simonb static int wapbl_create_infs_log(struct mount *, struct fs *, struct vnode *,
1.2  simonb     daddr_t *, size_t *, size_t *, uint64_t *);
1.2  simonb static void wapbl_find_log_start(struct mount *, struct vnode *, off_t,
1.2  simonb     daddr_t *, daddr_t *, size_t *);
1.2  simonb static int wapbl_remove_log(struct mount *);
1.2  simonb static int wapbl_allocate_log_file(struct mount *, struct vnode *);
1.2  simonb
1.2  simonb /*
1.4  simonb  * Return the super block layout format - UFS1 or UFS2.
1.4  simonb  * WAPBL only works with UFS2 layout (which is still available
1.4  simonb  * with FFSv1).
1.4  simonb  *
1.4  simonb  * XXX Should this be in ufs/ffs/fs.h?  Same style of check is
1.4  simonb  * also used in ffs_alloc.c in a few places.
1.4  simonb  */
1.4  simonb static int
1.4  simonb ffs_superblock_layout(struct fs *fs)
1.4  simonb {
1.4  simonb 	if ((fs->fs_magic == FS_UFS1_MAGIC) &&
1.4  simonb 	    ((fs->fs_old_flags & FS_FLAGS_UPDATED) == 0))
1.4  simonb 		return 1;
1.4  simonb 	else
1.4  simonb 		return 2;
1.4  simonb }
1.4  simonb
1.4  simonb /*
1.2  simonb  * This function is invoked after a log is replayed to
1.2  simonb  * disk to perform logical cleanup actions as described by
1.2  simonb  * the log
1.2  simonb  */
1.2  simonb void
1.2  simonb ffs_wapbl_replay_finish(struct mount *mp)
1.2  simonb {
1.2  simonb 	struct wapbl_replay *wr = mp->mnt_wapbl_replay;
1.2  simonb 	int i;
1.2  simonb 	int error;
1.2  simonb
1.2  simonb 	if (!wr)
1.2  simonb 		return;
1.2  simonb
1.2  simonb 	KDASSERT((mp->mnt_flag & MNT_RDONLY) == 0);
1.2  simonb
1.2  simonb 	for (i = 0; i < wr->wr_inodescnt; i++) {
1.2  simonb 		struct vnode *vp;
1.2  simonb 		struct inode *ip;
1.2  simonb 		error = VFS_VGET(mp, wr->wr_inodes[i].wr_inumber, &vp);
1.2  simonb 		if (error) {
1.2  simonb 			printf("ffs_wapbl_replay_finish: "
1.2  simonb 			    "unable to cleanup inode %" PRIu32 "\n",
1.2  simonb 			    wr->wr_inodes[i].wr_inumber);
1.2  simonb 			continue;
1.2  simonb 		}
1.2  simonb 		ip = VTOI(vp);
1.2  simonb 		KDASSERT(wr->wr_inodes[i].wr_inumber == ip->i_number);
1.6   joerg #ifdef WAPBL_DEBUG
1.2  simonb 		printf("ffs_wapbl_replay_finish: "
1.2  simonb 		    "cleaning inode %" PRIu64 " size=%" PRIu64 " mode=%o nlink=%d\n",
1.2  simonb 		    ip->i_number, ip->i_size, ip->i_mode, ip->i_nlink);
1.6   joerg #endif
1.2  simonb 		KASSERT(ip->i_nlink == 0);
1.2  simonb
1.2  simonb 		/*
1.2  simonb 		 * The journal may have left partially allocated inodes in mode
1.2  simonb 		 * zero.  This may occur if a crash occurs betweeen the node
1.2  simonb 		 * allocation in ffs_nodeallocg and when the node is properly
1.2  simonb 		 * initialized in ufs_makeinode.  If so, just dallocate them.
1.2  simonb 		 */
1.2  simonb 		if (ip->i_mode == 0) {
1.2  simonb 			UFS_WAPBL_BEGIN(mp);
1.2  simonb 			ffs_vfree(vp, ip->i_number, wr->wr_inodes[i].wr_imode);
1.2  simonb 			UFS_WAPBL_END(mp);
1.2  simonb 		}
1.2  simonb 		vput(vp);
1.2  simonb 	}
1.2  simonb 	mp->mnt_wapbl_replay = 0;
1.2  simonb 	wapbl_replay_free(wr);
1.2  simonb }
1.2  simonb
1.2  simonb /* Callback for wapbl */
1.2  simonb void
1.2  simonb ffs_wapbl_sync_metadata(struct mount *mp, daddr_t *deallocblks,
1.2  simonb     int *dealloclens, int dealloccnt)
1.2  simonb {
1.2  simonb 	struct ufsmount *ump = VFSTOUFS(mp);
1.2  simonb 	struct fs *fs = ump->um_fs;
1.2  simonb 	int i, error;
1.2  simonb
1.2  simonb #ifdef WAPBL_DEBUG_INODES
1.2  simonb 	ufs_wapbl_verify_inodes(mp, "ffs_wapbl_sync_metadata");
1.2  simonb #endif
1.2  simonb
1.2  simonb 	for (i = 0; i< dealloccnt; i++) {
1.2  simonb 		/*
1.2  simonb 		 * blkfree errors are unreported, might silently fail
1.2  simonb 		 * if it cannot read the cylinder group block
1.2  simonb 		 */
1.2  simonb 		ffs_blkfree(fs, ump->um_devvp,
1.2  simonb 		    dbtofsb(fs, deallocblks[i]), dealloclens[i], -1);
1.2  simonb 	}
1.2  simonb
1.2  simonb 	fs->fs_fmod = 0;
1.2  simonb 	fs->fs_time = time_second;
1.2  simonb 	error = ffs_cgupdate(ump, 0);
1.2  simonb 	KASSERT(error == 0);
1.2  simonb }
1.2  simonb
1.2  simonb void
1.2  simonb ffs_wapbl_abort_sync_metadata(struct mount *mp, daddr_t *deallocblks,
1.2  simonb     int *dealloclens, int dealloccnt)
1.2  simonb {
1.2  simonb 	struct ufsmount *ump = VFSTOUFS(mp);
1.2  simonb 	struct fs *fs = ump->um_fs;
1.2  simonb 	int i;
1.2  simonb
1.2  simonb 	/*
1.2  simonb 	 * I suppose we could dig around for an in use inode, but
1.2  simonb 	 * its not really used by ffs_blkalloc, so we just fake
1.2  simonb 	 * the couple of fields that it touches.
1.2  simonb 	 */
1.2  simonb 	struct inode in;
1.2  simonb 	in.i_fs = fs;
1.2  simonb 	in.i_devvp = ump->um_devvp;
1.2  simonb 	in.i_dev = ump->um_dev;
1.2  simonb 	in.i_number = -1;
1.2  simonb 	in.i_uid = 0;
1.2  simonb 	for (i = 0; i < dealloccnt; i++) {
1.2  simonb 		/*
1.2  simonb 		 * Since the above blkfree may have failed, this blkalloc might
1.2  simonb 		 * fail as well, so don't check its error.  Note that if the
1.2  simonb 		 * blkfree succeeded above, then this shouldn't fail because
1.2  simonb 		 * the buffer will be locked in the current transaction.
1.2  simonb 		 */
1.2  simonb 		ffs_blkalloc(&in, dbtofsb(fs, deallocblks[i]),
1.2  simonb 		    dealloclens[i]);
1.2  simonb 	}
1.2  simonb }
1.2  simonb
1.2  simonb static int
1.2  simonb wapbl_remove_log(struct mount *mp)
1.2  simonb {
1.2  simonb 	struct ufsmount *ump = VFSTOUFS(mp);
1.2  simonb 	struct fs *fs = ump->um_fs;
1.2  simonb 	struct vnode *vp;
1.2  simonb 	struct inode *ip;
1.2  simonb 	ino_t log_ino;
1.2  simonb 	int error;
1.2  simonb
1.4  simonb 	/* If super block layout is too old to support WAPBL, return */
1.4  simonb 	if (ffs_superblock_layout(fs) < 2)
1.4  simonb 		return 0;
1.4  simonb
1.2  simonb 	/* If all the log locators are 0, just clean up */
1.2  simonb 	if (fs->fs_journallocs[0] == 0 &&
1.2  simonb 	    fs->fs_journallocs[1] == 0 &&
1.2  simonb 	    fs->fs_journallocs[2] == 0 &&
1.2  simonb 	    fs->fs_journallocs[3] == 0) {
1.2  simonb 		DPRINTF("empty locators, just clear\n");
1.2  simonb 		goto done;
1.2  simonb 	}
1.2  simonb
1.2  simonb 	switch (fs->fs_journal_location) {
1.2  simonb 	case UFS_WAPBL_JOURNALLOC_NONE:
1.2  simonb 		/* nothing! */
1.2  simonb 		DPRINTF("no log\n");
1.2  simonb 		break;
1.2  simonb
1.2  simonb 	case UFS_WAPBL_JOURNALLOC_IN_FILESYSTEM:
1.2  simonb 		log_ino = fs->fs_journallocs[UFS_WAPBL_INFS_INO];
1.2  simonb 		DPRINTF("in-fs log, ino = %" PRId64 "\n",log_ino);
1.2  simonb
1.2  simonb 		/* if no existing log inode, just clear all fields and bail */
1.2  simonb 		if (log_ino == 0)
1.2  simonb 			goto done;
1.2  simonb 		error = VFS_VGET(mp, log_ino, &vp);
1.2  simonb 		if (error != 0) {
1.2  simonb 			printf("ffs_wapbl: vget failed %d\n",
1.2  simonb 			    error);
1.2  simonb 			/* clear out log info on error */
1.2  simonb 			goto done;
1.2  simonb 		}
1.2  simonb 		ip = VTOI(vp);
1.2  simonb 		KASSERT(log_ino == ip->i_number);
1.2  simonb 		if ((ip->i_flags & SF_LOG) == 0) {
1.2  simonb 			printf("ffs_wapbl: try to clear non-log inode "
1.2  simonb 			    "%" PRId64 "\n", log_ino);
1.2  simonb 			vput(vp);
1.2  simonb 			/* clear out log info on error */
1.2  simonb 			goto done;
1.2  simonb 		}
1.2  simonb
1.2  simonb 		/*
1.2  simonb 		 * remove the log inode by setting its link count back
1.2  simonb 		 * to zero and bail.
1.2  simonb 		 */
1.2  simonb 		ip->i_ffs_effnlink = 0;
1.2  simonb 		ip->i_nlink = 0;
1.2  simonb 		DIP_ASSIGN(ip, nlink, 0);
1.2  simonb 		if (DOINGSOFTDEP(vp))
1.2  simonb 			softdep_change_linkcnt(ip);
1.2  simonb 		vput(vp);
1.2  simonb
1.2  simonb 	case UFS_WAPBL_JOURNALLOC_END_PARTITION:
1.2  simonb 		DPRINTF("end-of-partition log\n");
1.2  simonb 		/* no extra work required */
1.2  simonb 		break;
1.2  simonb
1.2  simonb 	default:
1.2  simonb 		printf("ffs_wapbl: unknown journal type %d\n",
1.2  simonb 		    fs->fs_journal_location);
1.2  simonb 		return EINVAL;
1.2  simonb 	}
1.2  simonb
1.2  simonb
1.2  simonb done:
1.2  simonb 	/* Clear out all previous knowledge of journal */
1.2  simonb 	fs->fs_journal_version = 0;
1.2  simonb 	fs->fs_journal_location = 0;
1.2  simonb 	fs->fs_journal_flags = 0;
1.2  simonb 	fs->fs_journallocs[0] = 0;
1.2  simonb 	fs->fs_journallocs[1] = 0;
1.2  simonb 	fs->fs_journallocs[2] = 0;
1.2  simonb 	fs->fs_journallocs[3] = 0;
1.2  simonb 	(void) ffs_sbupdate(ump, MNT_WAIT);
1.2  simonb
1.2  simonb 	return 0;
1.2  simonb }
1.2  simonb
1.2  simonb int
1.2  simonb ffs_wapbl_start(struct mount *mp)
1.2  simonb {
1.2  simonb 	struct ufsmount *ump = VFSTOUFS(mp);
1.2  simonb 	struct fs *fs = ump->um_fs;
1.2  simonb 	struct vnode *devvp = ump->um_devvp;
1.2  simonb 	daddr_t off;
1.2  simonb 	size_t count;
1.2  simonb 	size_t blksize;
1.2  simonb 	uint64_t extradata;
1.2  simonb 	int error;
1.2  simonb
1.2  simonb 	if (mp->mnt_wapbl == 0) {
1.2  simonb 		if (fs->fs_journal_flags & UFS_WAPBL_FLAGS_CLEAR_LOG) {
1.2  simonb 			/* Clear out any existing journal file */
1.2  simonb 			error = wapbl_remove_log(mp);
1.2  simonb 			if (error != 0)
1.2  simonb 				return error;
1.2  simonb 		}
1.2  simonb
1.2  simonb 		if (mp->mnt_flag & MNT_LOG) {
1.2  simonb 			KDASSERT(fs->fs_ronly == 0);
1.2  simonb
1.4  simonb 			/* WAPBL needs UFS2 format super block */
1.4  simonb 			if (ffs_superblock_layout(fs) < 2) {
1.4  simonb 				printf("%s fs superblock in old format, "
1.4  simonb 				   "not journaling\n",
1.4  simonb 				   VFSTOUFS(mp)->um_fs->fs_fsmnt);
1.4  simonb 				mp->mnt_flag &= ~MNT_LOG;
1.4  simonb 				return EINVAL;
1.4  simonb 			}
1.4  simonb
1.2  simonb 			error = wapbl_log_position(mp, fs, devvp, &off,
1.2  simonb 			    &count, &blksize, &extradata);
1.2  simonb 			if (error)
1.2  simonb 				return error;
1.2  simonb
1.2  simonb 			/* XXX any other consistancy checks here? */
1.2  simonb 			if (blksize != DEV_BSIZE) {
1.5   pooka 				printf("%s: bad blocksize %zu\n", __func__,
1.2  simonb 				    blksize);
1.2  simonb 				return EINVAL;
1.2  simonb 			}
1.2  simonb
1.2  simonb 			error = wapbl_start(&mp->mnt_wapbl, mp, devvp, off,
1.2  simonb 			    count, blksize, mp->mnt_wapbl_replay,
1.2  simonb 			    ffs_wapbl_sync_metadata,
1.2  simonb 			    ffs_wapbl_abort_sync_metadata);
1.2  simonb 			if (error)
1.2  simonb 				return error;
1.2  simonb
1.2  simonb 			mp->mnt_wapbl_op = &wapbl_ops;
1.2  simonb
1.2  simonb #ifdef WAPBL_DEBUG
1.2  simonb 			printf("%s: enabling logging\n", fs->fs_fsmnt);
1.2  simonb #endif
1.2  simonb
1.2  simonb 			if ((fs->fs_flags & FS_DOWAPBL) == 0) {
1.2  simonb 				UFS_WAPBL_BEGIN(mp);
1.2  simonb 				fs->fs_flags |= FS_DOWAPBL;
1.2  simonb 				error = ffs_sbupdate(ump, MNT_WAIT);
1.2  simonb 				if (error) {
1.2  simonb 					UFS_WAPBL_END(mp);
1.2  simonb 					ffs_wapbl_stop(mp, MNT_FORCE);
1.2  simonb 					return error;
1.2  simonb 				}
1.2  simonb 				UFS_WAPBL_END(mp);
1.2  simonb 				error = wapbl_flush(mp->mnt_wapbl, 1);
1.2  simonb 				if (error) {
1.2  simonb 					ffs_wapbl_stop(mp, MNT_FORCE);
1.2  simonb 					return error;
1.2  simonb 				}
1.2  simonb 			}
1.2  simonb 		} else if (fs->fs_flags & FS_DOWAPBL) {
1.2  simonb 			fs->fs_fmod = 1;
1.2  simonb 			fs->fs_flags &= ~FS_DOWAPBL;
1.2  simonb 		}
1.2  simonb 	}
1.2  simonb
1.2  simonb 	/*
1.2  simonb 	 * It is recommended that you finish replay with logging enabled.
1.2  simonb 	 * However, even if logging is not enabled, the remaining log
1.2  simonb 	 * replay should be safely recoverable with an fsck, so perform
1.2  simonb 	 * it anyway.
1.2  simonb 	 */
1.2  simonb 	if ((fs->fs_ronly == 0) && mp->mnt_wapbl_replay) {
1.2  simonb 		int saveflag = mp->mnt_flag & MNT_RDONLY;
1.2  simonb 		/*
1.2  simonb 		 * Make sure MNT_RDONLY is not set so that the inode
1.2  simonb 		 * cleanup in ufs_inactive will actually do its work.
1.2  simonb 		 */
1.2  simonb 		mp->mnt_flag &= ~MNT_RDONLY;
1.2  simonb 		ffs_wapbl_replay_finish(mp);
1.2  simonb 		mp->mnt_flag |= saveflag;
1.2  simonb 		KASSERT(fs->fs_ronly == 0);
1.2  simonb 	}
1.2  simonb
1.2  simonb 	return 0;
1.2  simonb }
1.2  simonb
1.2  simonb int
1.2  simonb ffs_wapbl_stop(struct mount *mp, int force)
1.2  simonb {
1.2  simonb 	struct ufsmount *ump = VFSTOUFS(mp);
1.2  simonb 	struct fs *fs = ump->um_fs;
1.2  simonb 	int error;
1.2  simonb
1.2  simonb 	if (mp->mnt_wapbl) {
1.2  simonb 		KDASSERT(fs->fs_ronly == 0);
1.2  simonb
1.2  simonb 		/*
1.2  simonb 		 * Make sure turning off FS_DOWAPBL is only removed
1.2  simonb 		 * as the only change in the final flush since otherwise
1.2  simonb 		 * a transaction may reorder writes.
1.2  simonb 		 */
1.2  simonb 		error = wapbl_flush(mp->mnt_wapbl, 1);
1.2  simonb 		if (error && !force)
1.2  simonb 			return error;
1.2  simonb 		if (error && force)
1.2  simonb 			goto forceout;
1.2  simonb 		error = UFS_WAPBL_BEGIN(mp);
1.2  simonb 		if (error && !force)
1.2  simonb 			return error;
1.2  simonb 		if (error && force)
1.2  simonb 			goto forceout;
1.2  simonb 		KASSERT(fs->fs_flags & FS_DOWAPBL);
1.2  simonb
1.2  simonb 		fs->fs_flags &= ~FS_DOWAPBL;
1.2  simonb 		error = ffs_sbupdate(ump, MNT_WAIT);
1.2  simonb 		KASSERT(error == 0);	/* XXX a bit drastic! */
1.2  simonb 		UFS_WAPBL_END(mp);
1.2  simonb 	forceout:
1.2  simonb 		error = wapbl_stop(mp->mnt_wapbl, force);
1.2  simonb 		if (error) {
1.2  simonb 			KASSERT(!force);
1.2  simonb 			fs->fs_flags |= FS_DOWAPBL;
1.2  simonb 			return error;
1.2  simonb 		}
1.2  simonb 		fs->fs_flags &= ~FS_DOWAPBL; /* Repeat in case of forced error */
1.2  simonb 		mp->mnt_wapbl = 0;
1.2  simonb
1.2  simonb #ifdef WAPBL_DEBUG
1.2  simonb 		printf("%s: disabled logging\n", fs->fs_fsmnt);
1.2  simonb #endif
1.2  simonb 	}
1.2  simonb
1.2  simonb 	return 0;
1.2  simonb }
1.2  simonb
1.2  simonb int
1.2  simonb ffs_wapbl_replay_start(struct mount *mp, struct fs *fs, struct vnode *devvp)
1.2  simonb {
1.2  simonb 	int error;
1.2  simonb 	daddr_t off;
1.2  simonb 	size_t count;
1.2  simonb 	size_t blksize;
1.2  simonb 	uint64_t extradata;
1.2  simonb
1.4  simonb 	/*
1.4  simonb 	 * WAPBL needs UFS2 format super block, if we got here with a
1.4  simonb 	 * UFS1 format super block something is amiss...
1.4  simonb 	 */
1.4  simonb 	if (ffs_superblock_layout(fs) < 2)
1.4  simonb 		return EINVAL;
1.4  simonb
1.2  simonb 	error = wapbl_log_position(mp, fs, devvp, &off, &count, &blksize,
1.2  simonb 	    &extradata);
1.2  simonb
1.2  simonb 	if (error)
1.2  simonb 		return error;
1.2  simonb
1.2  simonb 	error = wapbl_replay_start(&mp->mnt_wapbl_replay, devvp, off,
1.2  simonb 		count, blksize);
1.2  simonb 	if (error)
1.2  simonb 		return error;
1.2  simonb
1.2  simonb 	mp->mnt_wapbl_op = &wapbl_ops;
1.2  simonb
1.2  simonb 	return 0;
1.2  simonb }
1.2  simonb
1.2  simonb /*
1.2  simonb  * If the superblock doesn't already have a recorded journal location
1.2  simonb  * then we allocate the journal in one of two positions:
1.2  simonb  *
1.2  simonb  *  - At the end of the partition after the filesystem if there's
1.2  simonb  *    enough space.  "Enough space" is defined as >= 1MB of journal
1.2  simonb  *    per 1GB of filesystem or 64MB, whichever is smaller.
1.2  simonb  *
1.2  simonb  *  - Inside the filesystem.  We try to allocate a contiguous journal
1.2  simonb  *    based on the total filesystem size - the target is 1MB of journal
1.2  simonb  *    per 1GB of filesystem, up to a maximum journal size of 64MB.  As
1.2  simonb  *    a worst case allowing for fragmentation, we'll allocate a journal
1.2  simonb  *    1/4 of the desired size but never smaller than 1MB.
1.2  simonb  *
1.2  simonb  *    XXX In the future if we allow for non-contiguous journal files we
1.2  simonb  *    can tighten the above restrictions.
1.2  simonb  *
1.2  simonb  * XXX
1.2  simonb  * These seems like a lot of duplication both here and in some of
1.2  simonb  * the userland tools (fsck_ffs, dumpfs, tunefs) with similar
1.2  simonb  * "switch (fs_journal_location)" constructs.  Can we centralise
1.2  simonb  * this sort of code somehow/somewhere?
1.2  simonb  */
1.2  simonb static int
1.2  simonb wapbl_log_position(struct mount *mp, struct fs *fs, struct vnode *devvp,
1.2  simonb     daddr_t *startp, size_t *countp, size_t *blksizep, uint64_t *extradatap)
1.2  simonb {
1.2  simonb 	struct ufsmount *ump = VFSTOUFS(mp);
1.2  simonb 	struct partinfo dpart;
1.2  simonb 	daddr_t logstart, logend, desired_logsize;
1.2  simonb 	size_t blksize;
1.2  simonb 	int error;
1.2  simonb
1.2  simonb 	if (fs->fs_journal_version == UFS_WAPBL_VERSION) {
1.2  simonb 		switch (fs->fs_journal_location) {
1.2  simonb 		case UFS_WAPBL_JOURNALLOC_END_PARTITION:
1.2  simonb 			DPRINTF("found existing end-of-partition log\n");
1.2  simonb 			*startp = fs->fs_journallocs[UFS_WAPBL_EPART_ADDR];
1.2  simonb 			*countp = fs->fs_journallocs[UFS_WAPBL_EPART_COUNT];
1.2  simonb 			*blksizep = fs->fs_journallocs[UFS_WAPBL_EPART_BLKSZ];
1.5   pooka 			DPRINTF(" start = %" PRId64 ", size = %zu, "
1.5   pooka 			    "blksize = %zu\n", *startp, *countp, *blksizep);
1.2  simonb 			return 0;
1.2  simonb
1.2  simonb 		case UFS_WAPBL_JOURNALLOC_IN_FILESYSTEM:
1.2  simonb 			DPRINTF("found existing in-filesystem log\n");
1.2  simonb 			*startp = fs->fs_journallocs[UFS_WAPBL_INFS_ADDR];
1.2  simonb 			*countp = fs->fs_journallocs[UFS_WAPBL_INFS_COUNT];
1.2  simonb 			*blksizep = fs->fs_journallocs[UFS_WAPBL_INFS_BLKSZ];
1.5   pooka 			DPRINTF(" start = %" PRId64 ", size = %zu, "
1.5   pooka 			    "blksize = %zu\n", *startp, *countp, *blksizep);
1.2  simonb 			return 0;
1.2  simonb
1.2  simonb 		default:
1.2  simonb 			printf("ffs_wapbl: unknown journal type %d\n",
1.2  simonb 			    fs->fs_journal_location);
1.2  simonb 			return EINVAL;
1.2  simonb 		}
1.2  simonb 	}
1.2  simonb
1.2  simonb 	desired_logsize =
1.2  simonb 	    lfragtosize(fs, fs->fs_size) / UFS_WAPBL_JOURNAL_SCALE;
1.2  simonb 	DPRINTF("desired log size = %" PRId64 " kB\n", desired_logsize / 1024);
1.2  simonb 	desired_logsize = max(desired_logsize, UFS_WAPBL_MIN_JOURNAL_SIZE);
1.2  simonb 	desired_logsize = min(desired_logsize, UFS_WAPBL_MAX_JOURNAL_SIZE);
1.2  simonb 	DPRINTF("adjusted desired log size = %" PRId64 " kB\n",
1.2  simonb 	    desired_logsize / 1024);
1.2  simonb
1.2  simonb 	/* Is there space after after filesystem on partition for log? */
1.2  simonb 	logstart = fsbtodb(fs, fs->fs_size);
1.2  simonb 	error = VOP_IOCTL(devvp, DIOCGPART, &dpart, FREAD, FSCRED);
1.2  simonb 	if (!error) {
1.2  simonb 		logend  = dpart.part->p_size;
1.2  simonb 		blksize = dpart.disklab->d_secsize;
1.2  simonb 	} else {
1.2  simonb 		struct dkwedge_info dkw;
1.2  simonb 		error = VOP_IOCTL(devvp, DIOCGWEDGEINFO, &dkw, FREAD, FSCRED);
1.2  simonb 		if (error)
1.2  simonb 			return error;
1.2  simonb
1.2  simonb 		blksize = DEV_BSIZE;
1.2  simonb 		logend = dkw.dkw_size;
1.2  simonb 	}
1.2  simonb
1.3  simonb 	if ((logend - logstart) * blksize >= desired_logsize) {
1.2  simonb 		KDASSERT(blksize != 0);
1.2  simonb 		DPRINTF("enough space, use end-of-partition log\n");
1.2  simonb
1.2  simonb 		*startp = logstart;
1.2  simonb 		*countp = (logend - logstart);
1.2  simonb 		*blksizep = blksize;
1.2  simonb 		*extradatap = 0;
1.2  simonb
1.2  simonb 		/* update superblock with log location */
1.2  simonb 		fs->fs_journal_version = UFS_WAPBL_VERSION;
1.2  simonb 		fs->fs_journal_location = UFS_WAPBL_JOURNALLOC_END_PARTITION;
1.2  simonb 		fs->fs_journal_flags = 0;
1.2  simonb 		fs->fs_journallocs[UFS_WAPBL_EPART_ADDR] = *startp;
1.2  simonb 		fs->fs_journallocs[UFS_WAPBL_EPART_COUNT] = *countp;
1.2  simonb 		fs->fs_journallocs[UFS_WAPBL_EPART_BLKSZ] = *blksizep;
1.2  simonb 		fs->fs_journallocs[UFS_WAPBL_EPART_UNUSED] = *extradatap;
1.2  simonb
1.2  simonb 		error = ffs_sbupdate(ump, MNT_WAIT);
1.2  simonb 		return error;
1.2  simonb 	}
1.2  simonb 	DPRINTF("end-of-partition has only %" PRId64 " free\n",
1.2  simonb 	    logend - logstart);
1.2  simonb
1.2  simonb 	error = wapbl_create_infs_log(mp, fs, devvp, startp, countp, blksizep,
1.2  simonb 	    extradatap);
1.2  simonb
1.2  simonb 	ffs_sync(mp, 1, FSCRED);
1.2  simonb
1.2  simonb 	return error;
1.2  simonb }
1.2  simonb
1.2  simonb /*
1.2  simonb  * Try to create a journal log inside the filesystem.
1.2  simonb  */
1.2  simonb static int
1.2  simonb wapbl_create_infs_log(struct mount *mp, struct fs *fs, struct vnode *devvp,
1.2  simonb     daddr_t *startp, size_t *countp, size_t *blksizep, uint64_t *extradatap)
1.2  simonb {
1.2  simonb 	struct vnode *vp, *rvp;
1.2  simonb 	struct inode *ip;
1.2  simonb 	int error;
1.2  simonb
1.2  simonb 	if ((error = VFS_ROOT(mp, &rvp)) != 0)
1.2  simonb 		return error;
1.2  simonb
1.2  simonb 	if ((error = UFS_VALLOC(rvp, 0 | S_IFREG, NOCRED, &vp)) != 0) {
1.2  simonb 		vput(rvp);
1.2  simonb 		return error;
1.2  simonb 	}
1.2  simonb 	vput(rvp);
1.2  simonb
1.2  simonb 	vp->v_type = VREG;
1.2  simonb 	ip = VTOI(vp);
1.2  simonb 	ip->i_flag |= IN_ACCESS | IN_CHANGE | IN_UPDATE;
1.2  simonb 	ip->i_mode = 0 | IFREG;
1.2  simonb 	DIP_ASSIGN(ip, mode, ip->i_mode);
1.2  simonb 	ip->i_flags = SF_LOG;
1.2  simonb 	DIP_ASSIGN(ip, flags, ip->i_flags);
1.2  simonb 	ip->i_ffs_effnlink = 1;
1.2  simonb 	ip->i_nlink = 1;
1.2  simonb 	DIP_ASSIGN(ip, nlink, 1);
1.2  simonb 	if (DOINGSOFTDEP(vp))
1.2  simonb 		softdep_change_linkcnt(ip);
1.2  simonb 	ffs_update(vp, NULL, NULL, UPDATE_WAIT);
1.2  simonb
1.2  simonb 	if ((error = wapbl_allocate_log_file(mp, vp)) != 0) {
1.2  simonb 		/*
1.2  simonb 		 * If we couldn't allocate the space for the log file,
1.2  simonb 		 * remove the inode by setting its link count back to
1.2  simonb 		 * zero and bail.
1.2  simonb 		 */
1.2  simonb 		ip->i_ffs_effnlink = 0;
1.2  simonb 		ip->i_nlink = 0;
1.2  simonb 		DIP_ASSIGN(ip, nlink, 0);
1.2  simonb 		if (DOINGSOFTDEP(vp))
1.2  simonb 			softdep_change_linkcnt(ip);
1.2  simonb 		vput(vp);
1.2  simonb
1.2  simonb 		return error;
1.2  simonb 	}
1.2  simonb
1.2  simonb 	/*
1.2  simonb 	 * Now that we have the place-holder inode for the journal,
1.2  simonb 	 * we don't need the vnode ever again.
1.2  simonb 	 */
1.2  simonb 	vput(vp);
1.2  simonb
1.2  simonb 	*startp = fs->fs_journallocs[UFS_WAPBL_INFS_ADDR];
1.2  simonb 	*countp = fs->fs_journallocs[UFS_WAPBL_INFS_COUNT];
1.2  simonb 	*blksizep = fs->fs_journallocs[UFS_WAPBL_INFS_BLKSZ];
1.2  simonb 	*extradatap = fs->fs_journallocs[UFS_WAPBL_INFS_INO];
1.2  simonb
1.2  simonb 	return 0;
1.2  simonb }
1.2  simonb
1.2  simonb int
1.2  simonb wapbl_allocate_log_file(struct mount *mp, struct vnode *vp)
1.2  simonb {
1.2  simonb 	struct ufsmount *ump = VFSTOUFS(mp);
1.2  simonb 	struct fs *fs = ump->um_fs;
1.2  simonb 	daddr_t addr, indir_addr;
1.2  simonb 	off_t logsize;
1.2  simonb 	size_t size;
1.2  simonb 	int error;
1.2  simonb
1.2  simonb 	logsize = 0;
1.2  simonb 	/* check if there's a suggested log size */
1.2  simonb 	if (fs->fs_journal_flags & UFS_WAPBL_FLAGS_CREATE_LOG &&
1.2  simonb 	    fs->fs_journal_location == UFS_WAPBL_JOURNALLOC_IN_FILESYSTEM)
1.2  simonb 		logsize = fs->fs_journallocs[UFS_WAPBL_INFS_COUNT];
1.2  simonb
1.2  simonb 	if (vp->v_size > 0) {
1.2  simonb 		printf("%s: file size (%" PRId64 ") non zero\n", __func__,
1.2  simonb 		    vp->v_size);
1.2  simonb 		return EEXIST;
1.2  simonb 	}
1.2  simonb 	wapbl_find_log_start(mp, vp, logsize, &addr, &indir_addr, &size);
1.2  simonb 	if (addr == 0) {
1.2  simonb 		printf("%s: log not allocated, largest extent is "
1.2  simonb 		    "%" PRId64 "MB\n", __func__,
1.2  simonb 		    lblktosize(fs, size) / (1024 * 1024));
1.2  simonb 		return ENOSPC;
1.2  simonb 	}
1.2  simonb
1.2  simonb 	logsize = lblktosize(fs, size);	/* final log size */
1.2  simonb
1.2  simonb 	VTOI(vp)->i_ffs_first_data_blk = addr;
1.2  simonb 	VTOI(vp)->i_ffs_first_indir_blk = indir_addr;
1.2  simonb
1.2  simonb 	error = GOP_ALLOC(vp, 0, logsize, B_CONTIG, FSCRED);
1.2  simonb 	if (error) {
1.2  simonb 		printf("%s: GOP_ALLOC error %d\n", __func__, error);
1.2  simonb 		return error;
1.2  simonb 	}
1.2  simonb
1.2  simonb 	fs->fs_journal_version = UFS_WAPBL_VERSION;
1.2  simonb 	fs->fs_journal_location = UFS_WAPBL_JOURNALLOC_IN_FILESYSTEM;
1.2  simonb 	fs->fs_journal_flags = 0;
1.2  simonb 	fs->fs_journallocs[UFS_WAPBL_INFS_ADDR] =
1.2  simonb 	    lfragtosize(fs, addr) / DEV_BSIZE;
1.2  simonb 	fs->fs_journallocs[UFS_WAPBL_INFS_COUNT] = logsize / DEV_BSIZE;
1.2  simonb 	fs->fs_journallocs[UFS_WAPBL_INFS_BLKSZ] = DEV_BSIZE;
1.2  simonb 	fs->fs_journallocs[UFS_WAPBL_INFS_INO] = VTOI(vp)->i_number;
1.2  simonb
1.2  simonb 	error = ffs_sbupdate(ump, MNT_WAIT);
1.2  simonb 	return error;
1.2  simonb }
1.2  simonb
1.2  simonb /*
1.2  simonb  * Find a suitable location for the journal in the filesystem.
1.2  simonb  *
1.2  simonb  * Our strategy here is to look for a contiguous block of free space
1.2  simonb  * at least "logfile" MB in size (plus room for any indirect blocks).
1.2  simonb  * We start at the middle of the filesystem and check each cylinder
1.2  simonb  * group working outwards.  If "logfile" MB is not available as a
1.2  simonb  * single contigous chunk, then return the address and size of the
1.2  simonb  * largest chunk found.
1.2  simonb  *
1.2  simonb  * XXX
1.2  simonb  * At what stage does the search fail?  Is if the largest space we could
1.2  simonb  * find is less than a quarter the requested space reasonable?  If the
1.2  simonb  * search fails entirely, return a block address if "0" it indicate this.
1.2  simonb  */
1.2  simonb static void
1.2  simonb wapbl_find_log_start(struct mount *mp, struct vnode *vp, off_t logsize,
1.2  simonb     daddr_t *addr, daddr_t *indir_addr, size_t *size)
1.2  simonb {
1.2  simonb 	struct ufsmount *ump = VFSTOUFS(mp);
1.2  simonb 	struct fs *fs = ump->um_fs;
1.2  simonb 	struct vnode *devvp = ump->um_devvp;
1.2  simonb 	struct cg *cgp;
1.2  simonb 	struct buf *bp;
1.2  simonb 	uint8_t *blksfree;
1.2  simonb 	daddr_t blkno, best_addr, start_addr;
1.2  simonb 	daddr_t desired_blks, min_desired_blks;
1.2  simonb 	daddr_t freeblks, best_blks;
1.2  simonb 	int bpcg, cg, error, fixedsize, indir_blks, n, s;
1.2  simonb #ifdef FFS_EI
1.2  simonb 	const int needswap = UFS_FSNEEDSWAP(fs);
1.2  simonb #endif
1.2  simonb
1.2  simonb 	if (logsize == 0) {
1.2  simonb 		fixedsize = 0;	/* We can adjust the size if tight */
1.2  simonb 		logsize = lfragtosize(fs, fs->fs_dsize) /
1.2  simonb 		    UFS_WAPBL_JOURNAL_SCALE;
1.2  simonb 		DPRINTF("suggested log size = %" PRId64 "\n", logsize);
1.2  simonb 		logsize = max(logsize, UFS_WAPBL_MIN_JOURNAL_SIZE);
1.2  simonb 		logsize = min(logsize, UFS_WAPBL_MAX_JOURNAL_SIZE);
1.2  simonb 		DPRINTF("adjusted log size = %" PRId64 "\n", logsize);
1.2  simonb 	} else {
1.2  simonb 		fixedsize = 1;
1.2  simonb 		DPRINTF("fixed log size = %" PRId64 "\n", logsize);
1.2  simonb 	}
1.2  simonb
1.2  simonb 	desired_blks = logsize / fs->fs_bsize;
1.2  simonb 	DPRINTF("desired blocks = %" PRId64 "\n", desired_blks);
1.2  simonb
1.2  simonb 	/* add in number of indirect blocks needed */
1.2  simonb 	indir_blks = 0;
1.2  simonb 	if (desired_blks >= NDADDR) {
1.2  simonb 		struct indir indirs[NIADDR + 2];
1.2  simonb 		int num;
1.2  simonb
1.2  simonb 		error = ufs_getlbns(vp, desired_blks, indirs, &num);
1.2  simonb 		if (error) {
1.2  simonb 			printf("%s: ufs_getlbns failed, error %d!\n",
1.2  simonb 			    __func__, error);
1.2  simonb 			goto bad;
1.2  simonb 		}
1.2  simonb
1.2  simonb 		switch (num) {
1.2  simonb 		case 2:
1.2  simonb 			indir_blks = 1;		/* 1st level indirect */
1.2  simonb 			break;
1.2  simonb 		case 3:
1.2  simonb 			indir_blks = 1 +	/* 1st level indirect */
1.2  simonb 			    1 +			/* 2nd level indirect */
1.2  simonb 			    indirs[1].in_off + 1; /* extra 1st level indirect */
1.2  simonb 			break;
1.2  simonb 		default:
1.2  simonb 			printf("%s: unexpected numlevels %d from ufs_getlbns\n",
1.2  simonb 			    __func__, num);
1.2  simonb 			*size = 0;
1.2  simonb 			goto bad;
1.2  simonb 		}
1.2  simonb 		desired_blks += indir_blks;
1.2  simonb 	}
1.2  simonb 	DPRINTF("desired blocks = %" PRId64 " (including indirect)\n",
1.2  simonb 	    desired_blks);
1.2  simonb
1.2  simonb 	/*
1.2  simonb 	 * If a specific size wasn't requested, allow for a smaller log
1.2  simonb 	 * if we're really tight for space...
1.2  simonb 	 */
1.2  simonb 	min_desired_blks = desired_blks;
1.2  simonb 	if (!fixedsize)
1.2  simonb 		min_desired_blks = desired_blks / 4;
1.2  simonb
1.2  simonb 	/* Look at number of blocks per CG.  If it's too small, bail early. */
1.2  simonb 	bpcg = fragstoblks(fs, fs->fs_fpg);
1.2  simonb 	if (min_desired_blks > bpcg) {
1.2  simonb 		printf("ffs_wapbl: cylinder group size of %" PRId64 " MB "
1.2  simonb 		    " is not big enough for journal\n",
1.2  simonb 		    lblktosize(fs, bpcg) / (1024 * 1024));
1.2  simonb 		goto bad;
1.2  simonb 	}
1.2  simonb
1.2  simonb 	/*
1.2  simonb 	 * Start with the middle cylinder group, and search outwards in
1.2  simonb 	 * both directions until we either find the requested log size
1.2  simonb 	 * or reach the start/end of the file system.  If we reach the
1.2  simonb 	 * start/end without finding enough space for the full requested
1.2  simonb 	 * log size, use the largest extent found if it is large enough
1.2  simonb 	 * to satisfy the our minimum size.
1.2  simonb 	 *
1.2  simonb 	 * XXX
1.2  simonb 	 * Can we just use the cluster contigsum stuff (esp on UFS2)
1.2  simonb 	 * here to simplify this search code?
1.2  simonb 	 */
1.2  simonb 	best_addr = 0;
1.2  simonb 	best_blks = 0;
1.2  simonb 	for (cg = fs->fs_ncg / 2, s = 0, n = 1;
1.2  simonb 	    best_blks < desired_blks && cg >= 0 && cg < fs->fs_ncg;
1.2  simonb 	    s++, n = -n, cg += n * s) {
1.2  simonb 		DPRINTF("check cg %d of %d\n", cg, fs->fs_ncg);
1.2  simonb 		error = bread(devvp, fsbtodb(fs, cgtod(fs, cg)),
1.2  simonb 		    fs->fs_cgsize, FSCRED, 0, &bp);
1.2  simonb 		cgp = (struct cg *)bp->b_data;
1.2  simonb 		if (error || !cg_chkmagic(cgp, UFS_FSNEEDSWAP(fs))) {
1.2  simonb 			brelse(bp, 0);
1.2  simonb 			continue;
1.2  simonb 		}
1.2  simonb
1.2  simonb 		blksfree = cg_blksfree(cgp, needswap);
1.2  simonb
1.2  simonb 		for (blkno = 0; blkno < bpcg;) {
1.2  simonb 			/* look for next free block */
1.2  simonb 			/* XXX use scanc() and fragtbl[] here? */
1.2  simonb 			for (; blkno < bpcg - min_desired_blks; blkno++)
1.2  simonb 				if (ffs_isblock(fs, blksfree, blkno))
1.2  simonb 					break;
1.2  simonb
1.2  simonb 			/* past end of search space in this CG? */
1.2  simonb 			if (blkno >= bpcg - min_desired_blks)
1.2  simonb 				break;
1.2  simonb
1.2  simonb 			/* count how many free blocks in this extent */
1.2  simonb 			start_addr = blkno;
1.2  simonb 			for (freeblks = 0; blkno < bpcg; blkno++, freeblks++)
1.2  simonb 				if (!ffs_isblock(fs, blksfree, blkno))
1.2  simonb 					break;
1.2  simonb
1.2  simonb 			if (freeblks > best_blks) {
1.2  simonb 				best_blks = freeblks;
1.2  simonb 				best_addr = blkstofrags(fs, start_addr) +
1.2  simonb 				    cgbase(fs, cg);
1.2  simonb
1.2  simonb 				if (freeblks >= desired_blks) {
1.2  simonb 					DPRINTF("found len %" PRId64
1.2  simonb 					    " at offset %" PRId64 " in gc\n",
1.2  simonb 					    freeblks, start_addr);
1.2  simonb 					break;
1.2  simonb 				}
1.2  simonb 			}
1.2  simonb 		}
1.2  simonb 		brelse(bp, 0);
1.2  simonb 	}
1.2  simonb 	DPRINTF("best found len = %" PRId64 ", wanted %" PRId64
1.2  simonb 	    " at addr %" PRId64 "\n", best_blks, desired_blks, best_addr);
1.2  simonb
1.2  simonb 	if (best_blks < min_desired_blks) {
1.2  simonb 		*addr = 0;
1.2  simonb 		*indir_addr = 0;
1.2  simonb 	} else {
1.2  simonb 		/* put indirect blocks at start, and data blocks after */
1.2  simonb 		*addr = best_addr + blkstofrags(fs, indir_blks);
1.2  simonb 		*indir_addr = best_addr;
1.2  simonb 	}
1.2  simonb 	*size = min(desired_blks, best_blks) - indir_blks;
1.2  simonb 	return;
1.2  simonb
1.2  simonb bad:
1.2  simonb 	*addr = 0;
1.2  simonb 	*indir_addr = 0;
1.2  simonb 	*size = 0;
1.2  simonb 	return;
1.2  simonb }