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/*
 * pass1.c -- pass #1 of e2fsck: sequential scan of the inode table
 *
 * Copyright (C) 1993, 1994, 1995, 1996, 1997 Theodore Ts'o.
 *
 * %Begin-Header%
 * This file may be redistributed under the terms of the GNU Public
 * License.
 * %End-Header%
 *
 * Pass 1 of e2fsck iterates over all the inodes in the filesystems,
 * and applies the following tests to each inode:
 *
 * 	- The mode field of the inode must be legal.
 * 	- The size and block count fields of the inode are correct.
 * 	- A data block must not be used by another inode
 *
 * Pass 1 also gathers the collects the following information:
 *
 * 	- A bitmap of which inodes are in use.		(inode_used_map)
 * 	- A bitmap of which inodes are directories.	(inode_dir_map)
 * 	- A bitmap of which inodes are regular files.	(inode_reg_map)
 * 	- A bitmap of which inodes have bad fields.	(inode_bad_map)
 * 	- A bitmap of which inodes are in bad blocks.	(inode_bb_map)
 * 	- A bitmap of which inodes are imagic inodes.	(inode_imagic_map)
 * 	- A bitmap of which blocks are in use.		(block_found_map)
 * 	- A bitmap of which blocks are in use by two inodes	(block_dup_map)
 * 	- The data blocks of the directory inodes.	(dir_map)
 *
 * Pass 1 is designed to stash away enough information so that the
 * other passes should not need to read in the inode information
 * during the normal course of a filesystem check.  (Althogh if an
 * inconsistency is detected, other passes may need to read in an
 * inode to fix it.)
 *
 * Note that pass 1B will be invoked if there are any duplicate blocks
 * found.
 */

#define _GNU_SOURCE 1 /* get strnlen() */
#include "config.h"
#include <string.h>
#include <time.h>
#ifdef HAVE_ERRNO_H
#include <errno.h>
#endif

#include "e2fsck.h"
#include <ext2fs/ext2_ext_attr.h>

#include "problem.h"

#ifdef NO_INLINE_FUNCS
#define _INLINE_
#else
#define _INLINE_ inline
#endif

static int process_block(ext2_filsys fs, blk64_t	*blocknr,
			 e2_blkcnt_t blockcnt, blk64_t ref_blk,
			 int ref_offset, void *priv_data);
static int process_bad_block(ext2_filsys fs, blk64_t *block_nr,
			     e2_blkcnt_t blockcnt, blk64_t ref_blk,
			     int ref_offset, void *priv_data);
static void check_blocks(e2fsck_t ctx, struct problem_context *pctx,
			 char *block_buf);
static void mark_table_blocks(e2fsck_t ctx);
static void alloc_bb_map(e2fsck_t ctx);
static void alloc_imagic_map(e2fsck_t ctx);
static void mark_inode_bad(e2fsck_t ctx, ino_t ino);
static void handle_fs_bad_blocks(e2fsck_t ctx);
static void process_inodes(e2fsck_t ctx, char *block_buf);
static EXT2_QSORT_TYPE process_inode_cmp(const void *a, const void *b);
static errcode_t scan_callback(ext2_filsys fs, ext2_inode_scan scan,
				  dgrp_t group, void * priv_data);
static void adjust_extattr_refcount(e2fsck_t ctx, ext2_refcount_t refcount,
				    char *block_buf, int adjust_sign);
/* static char *describe_illegal_block(ext2_filsys fs, blk64_t block); */

struct process_block_struct {
	ext2_ino_t	ino;
	unsigned	is_dir:1, is_reg:1, clear:1, suppress:1,
				fragmented:1, compressed:1, bbcheck:1;
	blk64_t		num_blocks;
	blk64_t		max_blocks;
	e2_blkcnt_t	last_block;
	e2_blkcnt_t	last_init_lblock;
	e2_blkcnt_t	last_db_block;
	int		num_illegal_blocks;
	blk64_t		previous_block;
	struct ext2_inode *inode;
	struct problem_context *pctx;
	ext2fs_block_bitmap fs_meta_blocks;
	e2fsck_t	ctx;
};

struct process_inode_block {
	ext2_ino_t ino;
	struct ext2_inode inode;
};

struct scan_callback_struct {
	e2fsck_t	ctx;
	char		*block_buf;
};

/*
 * For the inodes to process list.
 */
static struct process_inode_block *inodes_to_process;
static int process_inode_count;

static __u64 ext2_max_sizes[EXT2_MAX_BLOCK_LOG_SIZE -
			    EXT2_MIN_BLOCK_LOG_SIZE + 1];

/*
 * Free all memory allocated by pass1 in preparation for restarting
 * things.
 */
static void unwind_pass1(ext2_filsys fs EXT2FS_ATTR((unused)))
{
	ext2fs_free_mem(&inodes_to_process);
	inodes_to_process = 0;
}

/*
 * Check to make sure a device inode is real.  Returns 1 if the device
 * checks out, 0 if not.
 *
 * Note: this routine is now also used to check FIFO's and Sockets,
 * since they have the same requirement; the i_block fields should be
 * zero.
 */
int e2fsck_pass1_check_device_inode(ext2_filsys fs EXT2FS_ATTR((unused)),
				    struct ext2_inode *inode)
{
	int	i;

	/*
	 * If the index flag is set, then this is a bogus
	 * device/fifo/socket
	 */
	if (inode->i_flags & EXT2_INDEX_FL)
		return 0;

	/*
	 * We should be able to do the test below all the time, but
	 * because the kernel doesn't forcibly clear the device
	 * inode's additional i_block fields, there are some rare
	 * occasions when a legitimate device inode will have non-zero
	 * additional i_block fields.  So for now, we only complain
	 * when the immutable flag is set, which should never happen
	 * for devices.  (And that's when the problem is caused, since
	 * you can't set or clear immutable flags for devices.)  Once
	 * the kernel has been fixed we can change this...
	 */
	if (inode->i_flags & (EXT2_IMMUTABLE_FL | EXT2_APPEND_FL)) {
		for (i=4; i < EXT2_N_BLOCKS; i++)
			if (inode->i_block[i])
				return 0;
	}
	return 1;
}

/*
 * Check to make sure a symlink inode is real.  Returns 1 if the symlink
 * checks out, 0 if not.
 */
int e2fsck_pass1_check_symlink(ext2_filsys fs, ext2_ino_t ino,
			       struct ext2_inode *inode, char *buf)
{
	unsigned int len;
	int i;
	blk64_t	blocks;
	ext2_extent_handle_t	handle;
	struct ext2_extent_info	info;
	struct ext2fs_extent	extent;

	if ((inode->i_size_high || inode->i_size == 0) ||
	    (inode->i_flags & EXT2_INDEX_FL))
		return 0;

	if (inode->i_flags & EXT4_EXTENTS_FL) {
		if (inode->i_size > fs->blocksize)
			return 0;
		if (ext2fs_extent_open2(fs, ino, inode, &handle))
			return 0;
		i = 0;
		if (ext2fs_extent_get_info(handle, &info) ||
		    (info.num_entries != 1) ||
		    (info.max_depth != 0))
			goto exit_extent;
		if (ext2fs_extent_get(handle, EXT2_EXTENT_ROOT, &extent) ||
		    (extent.e_lblk != 0) ||
		    (extent.e_len != 1) ||
		    (extent.e_pblk < fs->super->s_first_data_block) ||
		    (extent.e_pblk >= ext2fs_blocks_count(fs->super)))
			goto exit_extent;
		i = 1;
	exit_extent:
		ext2fs_extent_free(handle);
		return i;
	}

	blocks = ext2fs_inode_data_blocks2(fs, inode);
	if (blocks) {
		if ((inode->i_size >= fs->blocksize) ||
		    (blocks != fs->blocksize >> 9) ||
		    (inode->i_block[0] < fs->super->s_first_data_block) ||
		    (inode->i_block[0] >= ext2fs_blocks_count(fs->super)))
			return 0;

		for (i = 1; i < EXT2_N_BLOCKS; i++)
			if (inode->i_block[i])
				return 0;

		if (io_channel_read_blk64(fs->io, inode->i_block[0], 1, buf))
			return 0;

		len = strnlen(buf, fs->blocksize);
		if (len == fs->blocksize)
			return 0;
	} else {
		if (inode->i_size >= sizeof(inode->i_block))
			return 0;

		len = strnlen((char *)inode->i_block, sizeof(inode->i_block));
		if (len == sizeof(inode->i_block))
			return 0;
	}
	if (len != inode->i_size)
		return 0;
	return 1;
}

/*
 * If the immutable (or append-only) flag is set on the inode, offer
 * to clear it.
 */
#define BAD_SPECIAL_FLAGS (EXT2_IMMUTABLE_FL | EXT2_APPEND_FL)
static void check_immutable(e2fsck_t ctx, struct problem_context *pctx)
{
	if (!(pctx->inode->i_flags & BAD_SPECIAL_FLAGS))
		return;

	if (!fix_problem(ctx, PR_1_SET_IMMUTABLE, pctx))
		return;

	pctx->inode->i_flags &= ~BAD_SPECIAL_FLAGS;
	e2fsck_write_inode(ctx, pctx->ino, pctx->inode, "pass1");
}

/*
 * If device, fifo or socket, check size is zero -- if not offer to
 * clear it
 */
static void check_size(e2fsck_t ctx, struct problem_context *pctx)
{
	struct ext2_inode *inode = pctx->inode;

	if (EXT2_I_SIZE(inode) == 0)
		return;

	if (!fix_problem(ctx, PR_1_SET_NONZSIZE, pctx))
		return;

	inode->i_size = 0;
	inode->i_size_high = 0;
	e2fsck_write_inode(ctx, pctx->ino, pctx->inode, "pass1");
}

static void check_ea_in_inode(e2fsck_t ctx, struct problem_context *pctx)
{
	struct ext2_super_block *sb = ctx->fs->super;
	struct ext2_inode_large *inode;
	struct ext2_ext_attr_entry *entry;
	char *start;
	unsigned int storage_size, remain;
	int problem = 0;

	inode = (struct ext2_inode_large *) pctx->inode;
	storage_size = EXT2_INODE_SIZE(ctx->fs->super) - EXT2_GOOD_OLD_INODE_SIZE -
		inode->i_extra_isize;
	start = ((char *) inode) + EXT2_GOOD_OLD_INODE_SIZE +
		inode->i_extra_isize + sizeof(__u32);
	entry = (struct ext2_ext_attr_entry *) start;

	/* scan all entry's headers first */

	/* take finish entry 0UL into account */
	remain = storage_size - sizeof(__u32);

	while (!EXT2_EXT_IS_LAST_ENTRY(entry)) {
		__u32 hash;

		/* header eats this space */
		remain -= sizeof(struct ext2_ext_attr_entry);

		/* is attribute name valid? */
		if (EXT2_EXT_ATTR_SIZE(entry->e_name_len) > remain) {
			pctx->num = entry->e_name_len;
			problem = PR_1_ATTR_NAME_LEN;
			goto fix;
		}

		/* attribute len eats this space */
		remain -= EXT2_EXT_ATTR_SIZE(entry->e_name_len);

		/* check value size */
		if (entry->e_value_size == 0 || entry->e_value_size > remain) {
			pctx->num = entry->e_value_size;
			problem = PR_1_ATTR_VALUE_SIZE;
			goto fix;
		}

		/* e_value_block must be 0 in inode's ea */
		if (entry->e_value_block != 0) {
			pctx->num = entry->e_value_block;
			problem = PR_1_ATTR_VALUE_BLOCK;
			goto fix;
		}

		hash = ext2fs_ext_attr_hash_entry(entry,
						  start + entry->e_value_offs);

		/* e_hash may be 0 in older inode's ea */
		if (entry->e_hash != 0 && entry->e_hash != hash) {
			pctx->num = entry->e_hash;
			problem = PR_1_ATTR_HASH;
			goto fix;
		}

		remain -= entry->e_value_size;

		entry = EXT2_EXT_ATTR_NEXT(entry);
	}
fix:
	/*
	 * it seems like a corruption. it's very unlikely we could repair
	 * EA(s) in automatic fashion -bzzz
	 */
	if (problem == 0 || !fix_problem(ctx, problem, pctx))
		return;

	/* simply remove all possible EA(s) */
	*((__u32 *)start) = 0UL;
	e2fsck_write_inode_full(ctx, pctx->ino, pctx->inode,
				EXT2_INODE_SIZE(sb), "pass1");
}

static void check_inode_extra_space(e2fsck_t ctx, struct problem_context *pctx)
{
	struct ext2_super_block *sb = ctx->fs->super;
	struct ext2_inode_large *inode;
	__u32 *eamagic;
	int min, max;

	inode = (struct ext2_inode_large *) pctx->inode;
	if (EXT2_INODE_SIZE(sb) == EXT2_GOOD_OLD_INODE_SIZE) {
		/* this isn't large inode. so, nothing to check */
		return;
	}

#if 0
	printf("inode #%u, i_extra_size %d\n", pctx->ino,
			inode->i_extra_isize);
#endif
	/* i_extra_isize must cover i_extra_isize + i_checksum_hi at least */
	min = sizeof(inode->i_extra_isize) + sizeof(inode->i_checksum_hi);
	max = EXT2_INODE_SIZE(sb) - EXT2_GOOD_OLD_INODE_SIZE;
	/*
	 * For now we will allow i_extra_isize to be 0, but really
	 * implementations should never allow i_extra_isize to be 0
	 */
	if (inode->i_extra_isize &&
	    (inode->i_extra_isize < min || inode->i_extra_isize > max)) {
		if (!fix_problem(ctx, PR_1_EXTRA_ISIZE, pctx))
			return;
		inode->i_extra_isize = min;
		e2fsck_write_inode_full(ctx, pctx->ino, pctx->inode,
					EXT2_INODE_SIZE(sb), "pass1");
		return;
	}

	eamagic = (__u32 *) (((char *) inode) + EXT2_GOOD_OLD_INODE_SIZE +
			inode->i_extra_isize);
	if (*eamagic == EXT2_EXT_ATTR_MAGIC) {
		/* it seems inode has an extended attribute(s) in body */
		check_ea_in_inode(ctx, pctx);
	}
}

/*
 * Check to see if the inode might really be a directory, despite i_mode
 *
 * This is a lot of complexity for something for which I'm not really
 * convinced happens frequently in the wild.  If for any reason this
 * causes any problems, take this code out.
 * [tytso:20070331.0827EDT]
 */
static void check_is_really_dir(e2fsck_t ctx, struct problem_context *pctx,
				char *buf)
{
	struct ext2_inode *inode = pctx->inode;
	struct ext2_dir_entry 	*dirent;
	errcode_t		retval;
	blk64_t			blk;
	unsigned int		i, rec_len, not_device = 0;
	int			extent_fs;

	/*
	 * If the mode looks OK, we believe it.  If the first block in
	 * the i_block array is 0, this cannot be a directory. If the
	 * inode is extent-mapped, it is still the case that the latter
	 * cannot be 0 - the magic number in the extent header would make
	 * it nonzero.
	 */
	if (LINUX_S_ISDIR(inode->i_mode) || LINUX_S_ISREG(inode->i_mode) ||
	    LINUX_S_ISLNK(inode->i_mode) || inode->i_block[0] == 0)
		return;

	/* 
	 * Check the block numbers in the i_block array for validity:
	 * zero blocks are skipped (but the first one cannot be zero -
	 * see above), other blocks are checked against the first and
	 * max data blocks (from the the superblock) and against the
	 * block bitmap. Any invalid block found means this cannot be
	 * a directory.
	 * 
	 * If there are non-zero blocks past the fourth entry, then
	 * this cannot be a device file: we remember that for the next
	 * check.
	 *
	 * For extent mapped files, we don't do any sanity checking:
	 * just try to get the phys block of logical block 0 and run
	 * with it.
	 */

	extent_fs = (ctx->fs->super->s_feature_incompat &
		     EXT3_FEATURE_INCOMPAT_EXTENTS);
	if (extent_fs && (inode->i_flags & EXT4_EXTENTS_FL)) {
		/* extent mapped */
		if  (ext2fs_bmap2(ctx->fs, pctx->ino, inode, 0, 0, 0, 0,
				 &blk))
			return;
		/* device files are never extent mapped */
		not_device++;
	} else {
		for (i=0; i < EXT2_N_BLOCKS; i++) {
			blk = inode->i_block[i];
			if (!blk)
				continue;
			if (i >= 4)
				not_device++;

			if (blk < ctx->fs->super->s_first_data_block ||
			    blk >= ext2fs_blocks_count(ctx->fs->super) ||
			    ext2fs_fast_test_block_bitmap2(ctx->block_found_map,
							   blk))
				return;	/* Invalid block, can't be dir */
		}
		blk = inode->i_block[0];
	}

	/*
	 * If the mode says this is a device file and the i_links_count field
	 * is sane and we have not ruled it out as a device file previously,
	 * we declare it a device file, not a directory.
	 */
	if ((LINUX_S_ISCHR(inode->i_mode) || LINUX_S_ISBLK(inode->i_mode)) &&
	    (inode->i_links_count == 1) && !not_device)
		return;

	/* read the first block */
	ehandler_operation(_("reading directory block"));
	retval = ext2fs_read_dir_block4(ctx->fs, blk, buf, 0, pctx->ino);
	ehandler_operation(0);
	if (retval)
		return;

	dirent = (struct ext2_dir_entry *) buf;
	retval = ext2fs_get_rec_len(ctx->fs, dirent, &rec_len);
	if (retval)
		return;
	if (((dirent->name_len & 0xFF) != 1) ||
	    (dirent->name[0] != '.') ||
	    (dirent->inode != pctx->ino) ||
	    (rec_len < 12) ||
	    (rec_len % 4) ||
	    (rec_len >= ctx->fs->blocksize - 12))
		return;

	dirent = (struct ext2_dir_entry *) (buf + rec_len);
	retval = ext2fs_get_rec_len(ctx->fs, dirent, &rec_len);
	if (retval)
		return;
	if (((dirent->name_len & 0xFF) != 2) ||
	    (dirent->name[0] != '.') ||
	    (dirent->name[1] != '.') ||
	    (rec_len < 12) ||
	    (rec_len % 4))
		return;

	if (fix_problem(ctx, PR_1_TREAT_AS_DIRECTORY, pctx)) {
		inode->i_mode = (inode->i_mode & 07777) | LINUX_S_IFDIR;
		e2fsck_write_inode_full(ctx, pctx->ino, inode,
					EXT2_INODE_SIZE(ctx->fs->super),
					"check_is_really_dir");
	}
}

extern void e2fsck_setup_tdb_icount(e2fsck_t ctx, int flags,
				    ext2_icount_t *ret)
{
	unsigned int		threshold;
	ext2_ino_t		num_dirs;
	errcode_t		retval;
	char			*tdb_dir;
	int			enable;

	*ret = 0;

	profile_get_string(ctx->profile, "scratch_files", "directory", 0, 0,
			   &tdb_dir);
	profile_get_uint(ctx->profile, "scratch_files",
			 "numdirs_threshold", 0, 0, &threshold);
	profile_get_boolean(ctx->profile, "scratch_files",
			    "icount", 0, 1, &enable);

	retval = ext2fs_get_num_dirs(ctx->fs, &num_dirs);
	if (retval)
		num_dirs = 1024;	/* Guess */

	if (!enable || !tdb_dir || access(tdb_dir, W_OK) ||
	    (threshold && num_dirs <= threshold))
		return;

	retval = ext2fs_create_icount_tdb(ctx->fs, tdb_dir, flags, ret);
	if (retval)
		*ret = 0;
}

static errcode_t recheck_bad_inode_checksum(ext2_filsys fs, ext2_ino_t ino,
					    e2fsck_t ctx,
					    struct problem_context *pctx)
{
	errcode_t retval;
	struct ext2_inode_large inode;

	/*
	 * Reread inode.  If we don't see checksum error, then this inode
	 * has been fixed elsewhere.
	 */
	retval = ext2fs_read_inode_full(fs, ino, (struct ext2_inode *)&inode,
					sizeof(inode));
	if (retval && retval != EXT2_ET_INODE_CSUM_INVALID)
		return retval;
	if (!retval)
		return 0;

	/*
	 * Checksum still doesn't match.  That implies that the inode passes
	 * all the sanity checks, so maybe the checksum is simply corrupt.
	 * See if the user will go for fixing that.
	 */
	if (!fix_problem(ctx, PR_1_INODE_ONLY_CSUM_INVALID, pctx))
		return 0;

	retval = ext2fs_write_inode_full(fs, ino, (struct ext2_inode *)&inode,
					 sizeof(inode));
	if (retval)
		return retval;

	return 0;
}

void e2fsck_pass1(e2fsck_t ctx)
{
	int	i;
	__u64	max_sizes;
	ext2_filsys fs = ctx->fs;
	ext2_ino_t	ino = 0;
	struct ext2_inode *inode;
	ext2_inode_scan	scan;
	char		*block_buf;
#ifdef RESOURCE_TRACK
	struct resource_track	rtrack;
#endif
	unsigned char	frag, fsize;
	struct		problem_context pctx;
	struct		scan_callback_struct scan_struct;
	struct ext2_super_block *sb = ctx->fs->super;
	const char	*old_op;
	unsigned int	save_type;
	int		imagic_fs, extent_fs;
	int		busted_fs_time = 0;
	int		inode_size;
	int		failed_csum = 0;

	init_resource_track(&rtrack, ctx->fs->io);
	clear_problem_context(&pctx);

	if (!(ctx->options & E2F_OPT_PREEN))
		fix_problem(ctx, PR_1_PASS_HEADER, &pctx);

	if ((fs->super->s_feature_compat & EXT2_FEATURE_COMPAT_DIR_INDEX) &&
	    !(ctx->options & E2F_OPT_NO)) {
		if (ext2fs_u32_list_create(&ctx->dirs_to_hash, 50))
			ctx->dirs_to_hash = 0;
	}

#ifdef MTRACE
	mtrace_print("Pass 1");
#endif

#define EXT2_BPP(bits) (1ULL << ((bits) - 2))

	for (i = EXT2_MIN_BLOCK_LOG_SIZE; i <= EXT2_MAX_BLOCK_LOG_SIZE; i++) {
		max_sizes = EXT2_NDIR_BLOCKS + EXT2_BPP(i);
		max_sizes = max_sizes + EXT2_BPP(i) * EXT2_BPP(i);
		max_sizes = max_sizes + EXT2_BPP(i) * EXT2_BPP(i) * EXT2_BPP(i);
		max_sizes = (max_sizes * (1UL << i));
		ext2_max_sizes[i - EXT2_MIN_BLOCK_LOG_SIZE] = max_sizes;
	}
#undef EXT2_BPP

	imagic_fs = (sb->s_feature_compat & EXT2_FEATURE_COMPAT_IMAGIC_INODES);
	extent_fs = (sb->s_feature_incompat & EXT3_FEATURE_INCOMPAT_EXTENTS);

	/*
	 * Allocate bitmaps structures
	 */
	pctx.errcode = e2fsck_allocate_inode_bitmap(fs, _("in-use inode map"),
						    EXT2FS_BMAP64_RBTREE,
						    "inode_used_map",
						    &ctx->inode_used_map);
	if (pctx.errcode) {
		pctx.num = 1;
		fix_problem(ctx, PR_1_ALLOCATE_IBITMAP_ERROR, &pctx);
		ctx->flags |= E2F_FLAG_ABORT;
		return;
	}
	pctx.errcode = e2fsck_allocate_inode_bitmap(fs,
			_("directory inode map"),
			EXT2FS_BMAP64_AUTODIR,
			"inode_dir_map", &ctx->inode_dir_map);
	if (pctx.errcode) {
		pctx.num = 2;
		fix_problem(ctx, PR_1_ALLOCATE_IBITMAP_ERROR, &pctx);
		ctx->flags |= E2F_FLAG_ABORT;
		return;
	}
	pctx.errcode = e2fsck_allocate_inode_bitmap(fs,
			_("regular file inode map"), EXT2FS_BMAP64_RBTREE,
			"inode_reg_map", &ctx->inode_reg_map);
	if (pctx.errcode) {
		pctx.num = 6;
		fix_problem(ctx, PR_1_ALLOCATE_IBITMAP_ERROR, &pctx);
		ctx->flags |= E2F_FLAG_ABORT;
		return;
	}
	pctx.errcode = e2fsck_allocate_subcluster_bitmap(fs,
			_("in-use block map"), EXT2FS_BMAP64_RBTREE,
			"block_found_map", &ctx->block_found_map);
	if (pctx.errcode) {
		pctx.num = 1;
		fix_problem(ctx, PR_1_ALLOCATE_BBITMAP_ERROR, &pctx);
		ctx->flags |= E2F_FLAG_ABORT;
		return;
	}
	e2fsck_setup_tdb_icount(ctx, 0, &ctx->inode_link_info);
	if (!ctx->inode_link_info) {
		e2fsck_set_bitmap_type(fs, EXT2FS_BMAP64_RBTREE,
				       "inode_link_info", &save_type);
		pctx.errcode = ext2fs_create_icount2(fs, 0, 0, 0,
						     &ctx->inode_link_info);
		fs->default_bitmap_type = save_type;
	}

	if (pctx.errcode) {
		fix_problem(ctx, PR_1_ALLOCATE_ICOUNT, &pctx);
		ctx->flags |= E2F_FLAG_ABORT;
		return;
	}
	inode_size = EXT2_INODE_SIZE(fs->super);
	inode = (struct ext2_inode *)
		e2fsck_allocate_memory(ctx, inode_size, "scratch inode");

	inodes_to_process = (struct process_inode_block *)
		e2fsck_allocate_memory(ctx,
				       (ctx->process_inode_size *
					sizeof(struct process_inode_block)),
				       "array of inodes to process");
	process_inode_count = 0;

	pctx.errcode = ext2fs_init_dblist(fs, 0);
	if (pctx.errcode) {
		fix_problem(ctx, PR_1_ALLOCATE_DBCOUNT, &pctx);
		ctx->flags |= E2F_FLAG_ABORT;
		ext2fs_free_mem(&inode);
		return;
	}

	/*
	 * If the last orphan field is set, clear it, since the pass1
	 * processing will automatically find and clear the orphans.
	 * In the future, we may want to try using the last_orphan
	 * linked list ourselves, but for now, we clear it so that the
	 * ext3 mount code won't get confused.
	 */
	if (!(ctx->options & E2F_OPT_READONLY)) {
		if (fs->super->s_last_orphan) {
			fs->super->s_last_orphan = 0;
			ext2fs_mark_super_dirty(fs);
		}
	}

	mark_table_blocks(ctx);
	pctx.errcode = ext2fs_convert_subcluster_bitmap(fs,
						&ctx->block_found_map);
	if (pctx.errcode) {
		fix_problem(ctx, PR_1_CONVERT_SUBCLUSTER, &pctx);
		ctx->flags |= E2F_FLAG_ABORT;
		ext2fs_free_mem(&inode);
		return;
	}
	block_buf = (char *) e2fsck_allocate_memory(ctx, fs->blocksize * 3,
						    "block interate buffer");
	if (EXT2_INODE_SIZE(fs->super) == EXT2_GOOD_OLD_INODE_SIZE)
		e2fsck_use_inode_shortcuts(ctx, 1);
	old_op = ehandler_operation(_("opening inode scan"));
	pctx.errcode = ext2fs_open_inode_scan(fs, ctx->inode_buffer_blocks,
					      &scan);
	ehandler_operation(old_op);
	if (pctx.errcode) {
		fix_problem(ctx, PR_1_ISCAN_ERROR, &pctx);
		ctx->flags |= E2F_FLAG_ABORT;
		ext2fs_free_mem(&block_buf);
		ext2fs_free_mem(&inode);
		return;
	}
	ext2fs_inode_scan_flags(scan, EXT2_SF_SKIP_MISSING_ITABLE, 0);
	ctx->stashed_inode = inode;
	scan_struct.ctx = ctx;
	scan_struct.block_buf = block_buf;
	ext2fs_set_inode_callback(scan, scan_callback, &scan_struct);
	if (ctx->progress)
		if ((ctx->progress)(ctx, 1, 0, ctx->fs->group_desc_count))
			return;
	if ((fs->super->s_wtime < fs->super->s_inodes_count) ||
	    (fs->super->s_mtime < fs->super->s_inodes_count))
		busted_fs_time = 1;

	if ((fs->super->s_feature_incompat & EXT4_FEATURE_INCOMPAT_MMP) &&
	    !(fs->super->s_mmp_block <= fs->super->s_first_data_block ||
	      fs->super->s_mmp_block >= fs->super->s_blocks_count))
		ext2fs_mark_block_bitmap2(ctx->block_found_map,
					  fs->super->s_mmp_block);

	/* Set up ctx->lost_and_found if possible */
	(void) e2fsck_get_lost_and_found(ctx, 0);

	while (1) {
		if (ino % (fs->super->s_inodes_per_group * 4) == 1) {
			if (e2fsck_mmp_update(fs))
				fatal_error(ctx, 0);
		}
		old_op = ehandler_operation(_("getting next inode from scan"));
		pctx.errcode = ext2fs_get_next_inode_full(scan, &ino,
							  inode, inode_size);
		ehandler_operation(old_op);
		if (ctx->flags & E2F_FLAG_SIGNAL_MASK)
			return;
		if (pctx.errcode == EXT2_ET_BAD_BLOCK_IN_INODE_TABLE) {
			if (!ctx->inode_bb_map)
				alloc_bb_map(ctx);
			ext2fs_mark_inode_bitmap2(ctx->inode_bb_map, ino);
			ext2fs_mark_inode_bitmap2(ctx->inode_used_map, ino);
			continue;
		}
		if (pctx.errcode &&
		    pctx.errcode != EXT2_ET_INODE_CSUM_INVALID) {
			fix_problem(ctx, PR_1_ISCAN_ERROR, &pctx);
			ctx->flags |= E2F_FLAG_ABORT;
			return;
		}
		if (!ino)
			break;
		pctx.ino = ino;
		pctx.inode = inode;
		ctx->stashed_ino = ino;

		/* Clear corrupt inode? */
		if (pctx.errcode == EXT2_ET_INODE_CSUM_INVALID) {
			if (fix_problem(ctx, PR_1_INODE_CSUM_INVALID, &pctx))
				goto clear_inode;
			failed_csum = 1;
		}

		if (inode->i_links_count) {
			pctx.errcode = ext2fs_icount_store(ctx->inode_link_info,
					   ino, inode->i_links_count);
			if (pctx.errcode) {
				pctx.num = inode->i_links_count;
				fix_problem(ctx, PR_1_ICOUNT_STORE, &pctx);
				ctx->flags |= E2F_FLAG_ABORT;
				return;
			}
		}

		/*
		 * Test for incorrect extent flag settings.
		 *
		 * On big-endian machines we must be careful:
		 * When the inode is read, the i_block array is not swapped
		 * if the extent flag is set.  Therefore if we are testing
		 * for or fixing a wrongly-set flag, we must potentially
		 * (un)swap before testing, or after fixing.
		 */

		/*
		 * In this case the extents flag was set when read, so
		 * extent_header_verify is ok.  If the inode is cleared,
		 * no need to swap... so no extra swapping here.
		 */
		if ((inode->i_flags & EXT4_EXTENTS_FL) && !extent_fs &&
		    (inode->i_links_count || (ino == EXT2_BAD_INO) ||
		     (ino == EXT2_ROOT_INO) || (ino == EXT2_JOURNAL_INO))) {
			if ((ext2fs_extent_header_verify(inode->i_block,
						 sizeof(inode->i_block)) == 0) &&
			    fix_problem(ctx, PR_1_EXTENT_FEATURE, &pctx)) {
				sb->s_feature_incompat |= EXT3_FEATURE_INCOMPAT_EXTENTS;
				ext2fs_mark_super_dirty(fs);
				extent_fs = 1;
			} else if (fix_problem(ctx, PR_1_EXTENTS_SET, &pctx)) {
			clear_inode:
				e2fsck_clear_inode(ctx, ino, inode, 0, "pass1");
				if (ino == EXT2_BAD_INO)
					ext2fs_mark_inode_bitmap2(ctx->inode_used_map,
								 ino);
				continue;
			}
		}

		/*
		 * For big-endian machines:
		 * If the inode didn't have the extents flag set when it
		 * was read, then the i_blocks array was swapped.  To test
		 * as an extents header, we must swap it back first.
		 * IF we then set the extents flag, the entire i_block
		 * array must be un/re-swapped to make it proper extents data.
		 */
		if (extent_fs && !(inode->i_flags & EXT4_EXTENTS_FL) &&
		    (inode->i_links_count || (ino == EXT2_BAD_INO) ||
		     (ino == EXT2_ROOT_INO) || (ino == EXT2_JOURNAL_INO)) &&
		    (LINUX_S_ISREG(inode->i_mode) ||
		     LINUX_S_ISDIR(inode->i_mode))) {
			void *ehp;
#ifdef WORDS_BIGENDIAN
			__u32 tmp_block[EXT2_N_BLOCKS];

			for (i = 0; i < EXT2_N_BLOCKS; i++)
				tmp_block[i] = ext2fs_swab32(inode->i_block[i]);
			ehp = tmp_block;
#else
			ehp = inode->i_block;
#endif
			if ((ext2fs_extent_header_verify(ehp,
					 sizeof(inode->i_block)) == 0) &&
			    (fix_problem(ctx, PR_1_UNSET_EXTENT_FL, &pctx))) {
				inode->i_flags |= EXT4_EXTENTS_FL;
#ifdef WORDS_BIGENDIAN
				memcpy(inode->i_block, tmp_block,
				       sizeof(inode->i_block));
#endif
				e2fsck_write_inode(ctx, ino, inode, "pass1");
			}
		}

		if (ino == EXT2_BAD_INO) {
			struct process_block_struct pb;

			if ((inode->i_mode || inode->i_uid || inode->i_gid ||
			     inode->i_links_count || inode->i_file_acl) &&
			    fix_problem(ctx, PR_1_INVALID_BAD_INODE, &pctx)) {
				memset(inode, 0, sizeof(struct ext2_inode));
				e2fsck_write_inode(ctx, ino, inode,
						   "clear bad inode");
			}

			pctx.errcode = ext2fs_copy_bitmap(ctx->block_found_map,
							  &pb.fs_meta_blocks);
			if (pctx.errcode) {
				pctx.num = 4;
				fix_problem(ctx, PR_1_ALLOCATE_BBITMAP_ERROR, &pctx);
				ctx->flags |= E2F_FLAG_ABORT;
				return;
			}
			pb.ino = EXT2_BAD_INO;
			pb.num_blocks = pb.last_block = 0;
			pb.last_db_block = -1;
			pb.num_illegal_blocks = 0;
			pb.suppress = 0; pb.clear = 0; pb.is_dir = 0;
			pb.is_reg = 0; pb.fragmented = 0; pb.bbcheck = 0;
			pb.inode = inode;
			pb.pctx = &pctx;
			pb.ctx = ctx;
			pctx.errcode = ext2fs_block_iterate3(fs, ino, 0,
				     block_buf, process_bad_block, &pb);
			ext2fs_free_block_bitmap(pb.fs_meta_blocks);
			if (pctx.errcode) {
				fix_problem(ctx, PR_1_BLOCK_ITERATE, &pctx);
				ctx->flags |= E2F_FLAG_ABORT;
				return;
			}
			if (pb.bbcheck)
				if (!fix_problem(ctx, PR_1_BBINODE_BAD_METABLOCK_PROMPT, &pctx)) {
				ctx->flags |= E2F_FLAG_ABORT;
				return;
			}
			ext2fs_mark_inode_bitmap2(ctx->inode_used_map, ino);
			clear_problem_context(&pctx);
			continue;
		} else if (ino == EXT2_ROOT_INO) {
			/*
			 * Make sure the root inode is a directory; if
			 * not, offer to clear it.  It will be
			 * regnerated in pass #3.
			 */
			if (!LINUX_S_ISDIR(inode->i_mode)) {
				if (fix_problem(ctx, PR_1_ROOT_NO_DIR, &pctx))
					goto clear_inode;
			}
			/*
			 * If dtime is set, offer to clear it.  mke2fs
			 * version 0.2b created filesystems with the
			 * dtime field set for the root and lost+found
			 * directories.  We won't worry about
			 * /lost+found, since that can be regenerated
			 * easily.  But we will fix the root directory
			 * as a special case.
			 */
			if (inode->i_dtime && inode->i_links_count) {
				if (fix_problem(ctx, PR_1_ROOT_DTIME, &pctx)) {
					inode->i_dtime = 0;
					e2fsck_write_inode(ctx, ino, inode,
							   "pass1");
				}
			}
		} else if (ino == EXT2_JOURNAL_INO) {
			ext2fs_mark_inode_bitmap2(ctx->inode_used_map, ino);
			if (fs->super->s_journal_inum == EXT2_JOURNAL_INO) {
				if (!LINUX_S_ISREG(inode->i_mode) &&
				    fix_problem(ctx, PR_1_JOURNAL_BAD_MODE,
						&pctx)) {
					inode->i_mode = LINUX_S_IFREG;
					e2fsck_write_inode(ctx, ino, inode,
							   "pass1");
				}
				check_blocks(ctx, &pctx, block_buf);
				continue;
			}
			if ((inode->i_links_count ||
			     inode->i_blocks || inode->i_block[0]) &&
			    fix_problem(ctx, PR_1_JOURNAL_INODE_NOT_CLEAR,
					&pctx)) {
				memset(inode, 0, inode_size);
				ext2fs_icount_store(ctx->inode_link_info,
						    ino, 0);
				e2fsck_write_inode_full(ctx, ino, inode,
							inode_size, "pass1");
			}
		} else if ((ino == EXT4_USR_QUOTA_INO) ||
			   (ino == EXT4_GRP_QUOTA_INO)) {
			ext2fs_mark_inode_bitmap2(ctx->inode_used_map, ino);
			if ((fs->super->s_feature_ro_compat &
					EXT4_FEATURE_RO_COMPAT_QUOTA) &&
			    ((fs->super->s_usr_quota_inum == ino) ||
			     (fs->super->s_grp_quota_inum == ino))) {
				if (!LINUX_S_ISREG(inode->i_mode) &&
				    fix_problem(ctx, PR_1_QUOTA_BAD_MODE,
							&pctx)) {
					inode->i_mode = LINUX_S_IFREG;
					e2fsck_write_inode(ctx, ino, inode,
							"pass1");
				}
				check_blocks(ctx, &pctx, block_buf);
				continue;
			}
			if ((inode->i_links_count ||
			     inode->i_blocks || inode->i_block[0]) &&
			    fix_problem(ctx, PR_1_QUOTA_INODE_NOT_CLEAR,
					&pctx)) {
				memset(inode, 0, inode_size);
				ext2fs_icount_store(ctx->inode_link_info,
						    ino, 0);
				e2fsck_write_inode_full(ctx, ino, inode,
							inode_size, "pass1");
			}
		} else if (ino < EXT2_FIRST_INODE(fs->super)) {
			int	problem = 0;

			ext2fs_mark_inode_bitmap2(ctx->inode_used_map, ino);
			if (ino == EXT2_BOOT_LOADER_INO) {
				if (LINUX_S_ISDIR(inode->i_mode))
					problem = PR_1_RESERVED_BAD_MODE;
			} else if (ino == EXT2_RESIZE_INO) {
				if (inode->i_mode &&
				    !LINUX_S_ISREG(inode->i_mode))
					problem = PR_1_RESERVED_BAD_MODE;
			} else {
				if (inode->i_mode != 0)
					problem = PR_1_RESERVED_BAD_MODE;
			}
			if (problem) {
				if (fix_problem(ctx, problem, &pctx)) {
					inode->i_mode = 0;
					e2fsck_write_inode(ctx, ino, inode,
							   "pass1");
				}
			}
			check_blocks(ctx, &pctx, block_buf);
			continue;
		}

		/*
		 * Check for inodes who might have been part of the
		 * orphaned list linked list.  They should have gotten
		 * dealt with by now, unless the list had somehow been
		 * corrupted.
		 *
		 * FIXME: In the future, inodes which are still in use
		 * (and which are therefore) pending truncation should
		 * be handled specially.  Right now we just clear the
		 * dtime field, and the normal e2fsck handling of
		 * inodes where i_size and the inode blocks are
		 * inconsistent is to fix i_size, instead of releasing
		 * the extra blocks.  This won't catch the inodes that
		 * was at the end of the orphan list, but it's better
		 * than nothing.  The right answer is that there
		 * shouldn't be any bugs in the orphan list handling.  :-)
		 */
		if (inode->i_dtime && !busted_fs_time &&
		    inode->i_dtime < ctx->fs->super->s_inodes_count) {
			if (fix_problem(ctx, PR_1_LOW_DTIME, &pctx)) {
				inode->i_dtime = inode->i_links_count ?
					0 : ctx->now;
				e2fsck_write_inode(ctx, ino, inode,
						   "pass1");
			}
		}

		/*
		 * This code assumes that deleted inodes have
		 * i_links_count set to 0.
		 */
		if (!inode->i_links_count) {
			if (!inode->i_dtime && inode->i_mode) {
				if (fix_problem(ctx,
					    PR_1_ZERO_DTIME, &pctx)) {
					inode->i_dtime = ctx->now;
					e2fsck_write_inode(ctx, ino, inode,
							   "pass1");
				}
			}
			continue;
		}
		/*
		 * n.b.  0.3c ext2fs code didn't clear i_links_count for
		 * deleted files.  Oops.
		 *
		 * Since all new ext2 implementations get this right,
		 * we now assume that the case of non-zero
		 * i_links_count and non-zero dtime means that we
		 * should keep the file, not delete it.
		 *
		 */
		if (inode->i_dtime) {
			if (fix_problem(ctx, PR_1_SET_DTIME, &pctx)) {
				inode->i_dtime = 0;
				e2fsck_write_inode(ctx, ino, inode, "pass1");
			}
		}

		ext2fs_mark_inode_bitmap2(ctx->inode_used_map, ino);
		switch (fs->super->s_creator_os) {
		    case EXT2_OS_HURD:
			frag = inode->osd2.hurd2.h_i_frag;
			fsize = inode->osd2.hurd2.h_i_fsize;
			break;
		    default:
			frag = fsize = 0;
		}

		if (inode->i_faddr || frag || fsize ||
		    (LINUX_S_ISDIR(inode->i_mode) && inode->i_dir_acl))
			mark_inode_bad(ctx, ino);
		if (!(fs->super->s_feature_incompat & 
		      EXT4_FEATURE_INCOMPAT_64BIT) &&
		    inode->osd2.linux2.l_i_file_acl_high != 0)
			mark_inode_bad(ctx, ino);
		if ((fs->super->s_creator_os == EXT2_OS_LINUX) &&
		    !(fs->super->s_feature_ro_compat &
		      EXT4_FEATURE_RO_COMPAT_HUGE_FILE) &&
		    (inode->osd2.linux2.l_i_blocks_hi != 0))
			mark_inode_bad(ctx, ino);
		if (inode->i_flags & EXT2_IMAGIC_FL) {
			if (imagic_fs) {
				if (!ctx->inode_imagic_map)
					alloc_imagic_map(ctx);
				ext2fs_mark_inode_bitmap2(ctx->inode_imagic_map,
							 ino);
			} else {
				if (fix_problem(ctx, PR_1_SET_IMAGIC, &pctx)) {
					inode->i_flags &= ~EXT2_IMAGIC_FL;
					e2fsck_write_inode(ctx, ino,
							   inode, "pass1");
				}
			}
		}

		check_inode_extra_space(ctx, &pctx);
		check_is_really_dir(ctx, &pctx, block_buf);

		/*
		 * ext2fs_inode_has_valid_blocks2 does not actually look
		 * at i_block[] values, so not endian-sensitive here.
		 */
		if (extent_fs && (inode->i_flags & EXT4_EXTENTS_FL) &&
		    LINUX_S_ISLNK(inode->i_mode) &&
		    !ext2fs_inode_has_valid_blocks2(fs, inode) &&
		    fix_problem(ctx, PR_1_FAST_SYMLINK_EXTENT_FL, &pctx)) {
			inode->i_flags &= ~EXT4_EXTENTS_FL;
			e2fsck_write_inode(ctx, ino, inode, "pass1");
		}

		if (LINUX_S_ISDIR(inode->i_mode)) {
			ext2fs_mark_inode_bitmap2(ctx->inode_dir_map, ino);
			e2fsck_add_dir_info(ctx, ino, 0);
			ctx->fs_directory_count++;
		} else if (LINUX_S_ISREG (inode->i_mode)) {
			ext2fs_mark_inode_bitmap2(ctx->inode_reg_map, ino);
			ctx->fs_regular_count++;
		} else if (LINUX_S_ISCHR (inode->i_mode) &&
			   e2fsck_pass1_check_device_inode(fs, inode)) {
			check_immutable(ctx, &pctx);
			check_size(ctx, &pctx);
			ctx->fs_chardev_count++;
		} else if (LINUX_S_ISBLK (inode->i_mode) &&
			   e2fsck_pass1_check_device_inode(fs, inode)) {
			check_immutable(ctx, &pctx);
			check_size(ctx, &pctx);
			ctx->fs_blockdev_count++;
		} else if (LINUX_S_ISLNK (inode->i_mode) &&
			   e2fsck_pass1_check_symlink(fs, ino, inode,
						      block_buf)) {
			check_immutable(ctx, &pctx);
			ctx->fs_symlinks_count++;
			if (ext2fs_inode_data_blocks(fs, inode) == 0) {
				ctx->fs_fast_symlinks_count++;
				check_blocks(ctx, &pctx, block_buf);
				continue;
			}
		}
		else if (LINUX_S_ISFIFO (inode->i_mode) &&
			 e2fsck_pass1_check_device_inode(fs, inode)) {
			check_immutable(ctx, &pctx);
			check_size(ctx, &pctx);
			ctx->fs_fifo_count++;
		} else if ((LINUX_S_ISSOCK (inode->i_mode)) &&
			   e2fsck_pass1_check_device_inode(fs, inode)) {
			check_immutable(ctx, &pctx);
			check_size(ctx, &pctx);
			ctx->fs_sockets_count++;
		} else
			mark_inode_bad(ctx, ino);
		if (!(inode->i_flags & EXT4_EXTENTS_FL)) {
			if (inode->i_block[EXT2_IND_BLOCK])
				ctx->fs_ind_count++;
			if (inode->i_block[EXT2_DIND_BLOCK])
				ctx->fs_dind_count++;
			if (inode->i_block[EXT2_TIND_BLOCK])
				ctx->fs_tind_count++;
		}
		if (!(inode->i_flags & EXT4_EXTENTS_FL) &&
		    (inode->i_block[EXT2_IND_BLOCK] ||
		     inode->i_block[EXT2_DIND_BLOCK] ||
		     inode->i_block[EXT2_TIND_BLOCK] ||
		     ext2fs_file_acl_block(fs, inode))) {
			inodes_to_process[process_inode_count].ino = ino;
			inodes_to_process[process_inode_count].inode = *inode;
			process_inode_count++;
		} else
			check_blocks(ctx, &pctx, block_buf);

		/*
		 * If the inode failed the checksum and the user didn't
		 * clear the inode, test the checksum again -- if it still
		 * fails, ask the user if the checksum should be corrected.
		 */
		if (failed_csum) {
			pctx.errcode = recheck_bad_inode_checksum(fs, ino, ctx,
								  &pctx);
			if (pctx.errcode) {
				ctx->flags |= E2F_FLAG_ABORT;
				return;
			}
		}

		if (ctx->flags & E2F_FLAG_SIGNAL_MASK)
			return;

		if (process_inode_count >= ctx->process_inode_size) {
			process_inodes(ctx, block_buf);

			if (ctx->flags & E2F_FLAG_SIGNAL_MASK)
				return;
		}
	}
	process_inodes(ctx, block_buf);
	ext2fs_close_inode_scan(scan);

	/*
	 * If any extended attribute blocks' reference counts need to
	 * be adjusted, either up (ctx->refcount_extra), or down
	 * (ctx->refcount), then fix them.
	 */
	if (ctx->refcount) {
		adjust_extattr_refcount(ctx, ctx->refcount, block_buf, -1);
		ea_refcount_free(ctx->refcount);
		ctx->refcount = 0;
	}
	if (ctx->refcount_extra) {
		adjust_extattr_refcount(ctx, ctx->refcount_extra,
					block_buf, +1);
		ea_refcount_free(ctx->refcount_extra);
		ctx->refcount_extra = 0;
	}

	if (ctx->invalid_bitmaps)
		handle_fs_bad_blocks(ctx);

	/* We don't need the block_ea_map any more */
	if (ctx->block_ea_map) {
		ext2fs_free_block_bitmap(ctx->block_ea_map);
		ctx->block_ea_map = 0;
	}

	if (ctx->flags & E2F_FLAG_RESIZE_INODE) {
		ext2fs_block_bitmap save_bmap;

		save_bmap = fs->block_map;
		fs->block_map = ctx->block_found_map;
		clear_problem_context(&pctx);
		pctx.errcode = ext2fs_create_resize_inode(fs);
		if (pctx.errcode) {
			if (!fix_problem(ctx, PR_1_RESIZE_INODE_CREATE,
					 &pctx)) {
				ctx->flags |= E2F_FLAG_ABORT;
				return;
			}
			pctx.errcode = 0;
		}
		if (!pctx.errcode) {
			e2fsck_read_inode(ctx, EXT2_RESIZE_INO, inode,
					  "recreate inode");
			inode->i_mtime = ctx->now;
			e2fsck_write_inode(ctx, EXT2_RESIZE_INO, inode,
					   "recreate inode");
		}
		fs->block_map = save_bmap;
		ctx->flags &= ~E2F_FLAG_RESIZE_INODE;
	}

	if (ctx->flags & E2F_FLAG_RESTART) {
		/*
		 * Only the master copy of the superblock and block
		 * group descriptors are going to be written during a
		 * restart, so set the superblock to be used to be the
		 * master superblock.
		 */
		ctx->use_superblock = 0;
		unwind_pass1(fs);
		goto endit;
	}

	if (ctx->block_dup_map) {
		if (ctx->options & E2F_OPT_PREEN) {
			clear_problem_context(&pctx);
			fix_problem(ctx, PR_1_DUP_BLOCKS_PREENSTOP, &pctx);
		}
		e2fsck_pass1_dupblocks(ctx, block_buf);
	}
	ext2fs_free_mem(&inodes_to_process);
endit:
	e2fsck_use_inode_shortcuts(ctx, 0);

	ext2fs_free_mem(&block_buf);
	ext2fs_free_mem(&inode);

	/*
	 * The l+f inode may have been cleared, so zap it now and
	 * later passes will recalculate it if necessary
	 */
	ctx->lost_and_found = 0;

	print_resource_track(ctx, _("Pass 1"), &rtrack, ctx->fs->io);
}

/*
 * When the inode_scan routines call this callback at the end of the
 * glock group, call process_inodes.
 */
static errcode_t scan_callback(ext2_filsys fs,
			       ext2_inode_scan scan EXT2FS_ATTR((unused)),
			       dgrp_t group, void * priv_data)
{
	struct scan_callback_struct *scan_struct;
	e2fsck_t ctx;

	scan_struct = (struct scan_callback_struct *) priv_data;
	ctx = scan_struct->ctx;

	process_inodes((e2fsck_t) fs->priv_data, scan_struct->block_buf);

	if (ctx->progress)
		if ((ctx->progress)(ctx, 1, group+1,
				    ctx->fs->group_desc_count))
			return EXT2_ET_CANCEL_REQUESTED;

	return 0;
}

/*
 * Process the inodes in the "inodes to process" list.
 */
static void process_inodes(e2fsck_t ctx, char *block_buf)
{
	int			i;
	struct ext2_inode	*old_stashed_inode;
	ext2_ino_t		old_stashed_ino;
	const char		*old_operation;
	char			buf[80];
	struct problem_context	pctx;

#if 0
	printf("begin process_inodes: ");
#endif
	if (process_inode_count == 0)
		return;
	old_operation = ehandler_operation(0);
	old_stashed_inode = ctx->stashed_inode;
	old_stashed_ino = ctx->stashed_ino;
	qsort(inodes_to_process, process_inode_count,
		      sizeof(struct process_inode_block), process_inode_cmp);
	clear_problem_context(&pctx);
	for (i=0; i < process_inode_count; i++) {
		pctx.inode = ctx->stashed_inode = &inodes_to_process[i].inode;
		pctx.ino = ctx->stashed_ino = inodes_to_process[i].ino;

#if 0
		printf("%u ", pctx.ino);
#endif
		sprintf(buf, _("reading indirect blocks of inode %u"),
			pctx.ino);
		ehandler_operation(buf);
		check_blocks(ctx, &pctx, block_buf);
		if (ctx->flags & E2F_FLAG_SIGNAL_MASK)
			break;
	}
	ctx->stashed_inode = old_stashed_inode;
	ctx->stashed_ino = old_stashed_ino;
	process_inode_count = 0;
#if 0
	printf("end process inodes\n");
#endif
	ehandler_operation(old_operation);
}

static EXT2_QSORT_TYPE process_inode_cmp(const void *a, const void *b)
{
	const struct process_inode_block *ib_a =
		(const struct process_inode_block *) a;
	const struct process_inode_block *ib_b =
		(const struct process_inode_block *) b;
	int	ret;

	ret = (ib_a->inode.i_block[EXT2_IND_BLOCK] -
	       ib_b->inode.i_block[EXT2_IND_BLOCK]);
	if (ret == 0)
		/*
		 * We only call process_inodes() for non-extent
		 * inodes, so it's OK to pass NULL to
		 * ext2fs_file_acl_block() here.
		 */
		ret = ext2fs_file_acl_block(0, &(ib_a->inode)) -
			ext2fs_file_acl_block(0, &(ib_b->inode));
	if (ret == 0)
		ret = ib_a->ino - ib_b->ino;
	return ret;
}

/*
 * Mark an inode as being bad in some what
 */
static void mark_inode_bad(e2fsck_t ctx, ino_t ino)
{
	struct		problem_context pctx;

	if (!ctx->inode_bad_map) {
		clear_problem_context(&pctx);

		pctx.errcode = e2fsck_allocate_inode_bitmap(ctx->fs,
				_("bad inode map"), EXT2FS_BMAP64_RBTREE,
				"inode_bad_map", &ctx->inode_bad_map);
		if (pctx.errcode) {
			pctx.num = 3;
			fix_problem(ctx, PR_1_ALLOCATE_IBITMAP_ERROR, &pctx);
			/* Should never get here */
			ctx->flags |= E2F_FLAG_ABORT;
			return;
		}
	}
	ext2fs_mark_inode_bitmap2(ctx->inode_bad_map, ino);
}


/*
 * This procedure will allocate the inode "bb" (badblock) map table
 */
static void alloc_bb_map(e2fsck_t ctx)
{
	struct		problem_context pctx;

	clear_problem_context(&pctx);
	pctx.errcode = e2fsck_allocate_inode_bitmap(ctx->fs,
			_("inode in bad block map"), EXT2FS_BMAP64_RBTREE,
			"inode_bb_map", &ctx->inode_bb_map);
	if (pctx.errcode) {
		pctx.num = 4;
		fix_problem(ctx, PR_1_ALLOCATE_IBITMAP_ERROR, &pctx);
		/* Should never get here */
		ctx->flags |= E2F_FLAG_ABORT;
		return;
	}
}

/*
 * This procedure will allocate the inode imagic table
 */
static void alloc_imagic_map(e2fsck_t ctx)
{
	struct		problem_context pctx;

	clear_problem_context(&pctx);
	pctx.errcode = e2fsck_allocate_inode_bitmap(ctx->fs,
			_("imagic inode map"), EXT2FS_BMAP64_RBTREE,
			"inode_imagic_map", &ctx->inode_imagic_map);
	if (pctx.errcode) {
		pctx.num = 5;
		fix_problem(ctx, PR_1_ALLOCATE_IBITMAP_ERROR, &pctx);
		/* Should never get here */
		ctx->flags |= E2F_FLAG_ABORT;
		return;
	}
}

/*
 * Marks a block as in use, setting the dup_map if it's been set
 * already.  Called by process_block and process_bad_block.
 *
 * WARNING: Assumes checks have already been done to make sure block
 * is valid.  This is true in both process_block and process_bad_block.
 */
static _INLINE_ void mark_block_used(e2fsck_t ctx, blk64_t block)
{
	struct		problem_context pctx;

	clear_problem_context(&pctx);

	if (ext2fs_fast_test_block_bitmap2(ctx->block_found_map, block)) {
		if (!ctx->block_dup_map) {
			pctx.errcode = e2fsck_allocate_block_bitmap(ctx->fs,
					_("multiply claimed block map"),
					EXT2FS_BMAP64_RBTREE, "block_dup_map",
					&ctx->block_dup_map);
			if (pctx.errcode) {
				pctx.num = 3;
				fix_problem(ctx, PR_1_ALLOCATE_BBITMAP_ERROR,
					    &pctx);
				/* Should never get here */
				ctx->flags |= E2F_FLAG_ABORT;
				return;
			}
		}
		ext2fs_fast_mark_block_bitmap2(ctx->block_dup_map, block);
	} else {
		ext2fs_fast_mark_block_bitmap2(ctx->block_found_map, block);
	}
}

static _INLINE_ void mark_blocks_used(e2fsck_t ctx, blk64_t block,
				      unsigned int num)
{
	if (ext2fs_test_block_bitmap_range2(ctx->block_found_map, block, num))
		ext2fs_mark_block_bitmap_range2(ctx->block_found_map, block, num);
	else
		while (num--)
			mark_block_used(ctx, block++);
}

/*
 * Adjust the extended attribute block's reference counts at the end
 * of pass 1, either by subtracting out references for EA blocks that
 * are still referenced in ctx->refcount, or by adding references for
 * EA blocks that had extra references as accounted for in
 * ctx->refcount_extra.
 */
static void adjust_extattr_refcount(e2fsck_t ctx, ext2_refcount_t refcount,
				    char *block_buf, int adjust_sign)
{
	struct ext2_ext_attr_header 	*header;
	struct problem_context		pctx;
	ext2_filsys			fs = ctx->fs;
	blk64_t				blk;
	__u32				should_be;
	int				count;

	clear_problem_context(&pctx);

	ea_refcount_intr_begin(refcount);
	while (1) {
		if ((blk = ea_refcount_intr_next(refcount, &count)) == 0)
			break;
		pctx.blk = blk;
		pctx.errcode = ext2fs_read_ext_attr3(fs, blk, block_buf,
						     pctx.ino);
		if (pctx.errcode) {
			fix_problem(ctx, PR_1_EXTATTR_READ_ABORT, &pctx);
			return;
		}
		header = (struct ext2_ext_attr_header *) block_buf;
		pctx.blkcount = header->h_refcount;
		should_be = header->h_refcount + adjust_sign * count;
		pctx.num = should_be;
		if (fix_problem(ctx, PR_1_EXTATTR_REFCOUNT, &pctx)) {
			header->h_refcount = should_be;
			pctx.errcode = ext2fs_write_ext_attr3(fs, blk,
							     block_buf,
							     pctx.ino);
			if (pctx.errcode) {
				fix_problem(ctx, PR_1_EXTATTR_WRITE_ABORT,
					    &pctx);
				continue;
			}
		}
	}
}

/*
 * Handle processing the extended attribute blocks
 */
static int check_ext_attr(e2fsck_t ctx, struct problem_context *pctx,
			   char *block_buf)
{
	ext2_filsys fs = ctx->fs;
	ext2_ino_t	ino = pctx->ino;
	struct ext2_inode *inode = pctx->inode;
	blk64_t		blk;
	char *		end;
	struct ext2_ext_attr_header *header;
	struct ext2_ext_attr_entry *entry;
	int		count;
	region_t	region = 0;
	int		failed_csum = 0;

	blk = ext2fs_file_acl_block(fs, inode);
	if (blk == 0)
		return 0;

	/*
	 * If the Extended attribute flag isn't set, then a non-zero
	 * file acl means that the inode is corrupted.
	 *
	 * Or if the extended attribute block is an invalid block,
	 * then the inode is also corrupted.
	 */
	if (!(fs->super->s_feature_compat & EXT2_FEATURE_COMPAT_EXT_ATTR) ||
	    (blk < fs->super->s_first_data_block) ||
	    (blk >= ext2fs_blocks_count(fs->super))) {
		mark_inode_bad(ctx, ino);
		return 0;
	}

	/* If ea bitmap hasn't been allocated, create it */
	if (!ctx->block_ea_map) {
		pctx->errcode = e2fsck_allocate_block_bitmap(fs,
					_("ext attr block map"),
					EXT2FS_BMAP64_RBTREE, "block_ea_map",
					&ctx->block_ea_map);
		if (pctx->errcode) {
			pctx->num = 2;
			fix_problem(ctx, PR_1_ALLOCATE_BBITMAP_ERROR, pctx);
			ctx->flags |= E2F_FLAG_ABORT;
			return 0;
		}
	}

	/* Create the EA refcount structure if necessary */
	if (!ctx->refcount) {
		pctx->errcode = ea_refcount_create(0, &ctx->refcount);
		if (pctx->errcode) {
			pctx->num = 1;
			fix_problem(ctx, PR_1_ALLOCATE_REFCOUNT, pctx);
			ctx->flags |= E2F_FLAG_ABORT;
			return 0;
		}
	}

#if 0
	/* Debugging text */
	printf("Inode %u has EA block %u\n", ino, blk);
#endif

	/* Have we seen this EA block before? */
	if (ext2fs_fast_test_block_bitmap2(ctx->block_ea_map, blk)) {
		if (ea_refcount_decrement(ctx->refcount, blk, 0) == 0)
			return 1;
		/* Ooops, this EA was referenced more than it stated */
		if (!ctx->refcount_extra) {
			pctx->errcode = ea_refcount_create(0,
					   &ctx->refcount_extra);
			if (pctx->errcode) {
				pctx->num = 2;
				fix_problem(ctx, PR_1_ALLOCATE_REFCOUNT, pctx);
				ctx->flags |= E2F_FLAG_ABORT;
				return 0;
			}
		}
		ea_refcount_increment(ctx->refcount_extra, blk, 0);
		return 1;
	}

	/*
	 * OK, we haven't seen this EA block yet.  So we need to
	 * validate it
	 */
	pctx->blk = blk;
	pctx->errcode = ext2fs_read_ext_attr3(fs, blk, block_buf, pctx->ino);
	if (pctx->errcode == EXT2_ET_EXT_ATTR_CSUM_INVALID) {
		if (fix_problem(ctx, PR_1_EA_BLOCK_CSUM_INVALID, pctx))
			goto clear_extattr;
		failed_csum = 1;
	}
	if (pctx->errcode && fix_problem(ctx, PR_1_READ_EA_BLOCK, pctx))
		goto clear_extattr;
	header = (struct ext2_ext_attr_header *) block_buf;
	pctx->blk = ext2fs_file_acl_block(fs, inode);
	if (((ctx->ext_attr_ver == 1) &&
	     (header->h_magic != EXT2_EXT_ATTR_MAGIC_v1)) ||
	    ((ctx->ext_attr_ver == 2) &&
	     (header->h_magic != EXT2_EXT_ATTR_MAGIC))) {
		if (fix_problem(ctx, PR_1_BAD_EA_BLOCK, pctx))
			goto clear_extattr;
	}

	if (header->h_blocks != 1) {
		if (fix_problem(ctx, PR_1_EA_MULTI_BLOCK, pctx))
			goto clear_extattr;
	}

	region = region_create(0, fs->blocksize);
	if (!region) {
		fix_problem(ctx, PR_1_EA_ALLOC_REGION_ABORT, pctx);
		ctx->flags |= E2F_FLAG_ABORT;
		return 0;
	}
	if (region_allocate(region, 0, sizeof(struct ext2_ext_attr_header))) {
		if (fix_problem(ctx, PR_1_EA_ALLOC_COLLISION, pctx))
			goto clear_extattr;
	}

	entry = (struct ext2_ext_attr_entry *)(header+1);
	end = block_buf + fs->blocksize;
	while ((char *)entry < end && *(__u32 *)entry) {
		__u32 hash;

		if (region_allocate(region, (char *)entry - (char *)header,
			           EXT2_EXT_ATTR_LEN(entry->e_name_len))) {
			if (fix_problem(ctx, PR_1_EA_ALLOC_COLLISION, pctx))
				goto clear_extattr;
			break;
		}
		if ((ctx->ext_attr_ver == 1 &&
		     (entry->e_name_len == 0 || entry->e_name_index != 0)) ||
		    (ctx->ext_attr_ver == 2 &&
		     entry->e_name_index == 0)) {
			if (fix_problem(ctx, PR_1_EA_BAD_NAME, pctx))
				goto clear_extattr;
			break;
		}
		if (entry->e_value_block != 0) {
			if (fix_problem(ctx, PR_1_EA_BAD_VALUE, pctx))
				goto clear_extattr;
		}
		if (entry->e_value_offs + entry->e_value_size > fs->blocksize) {
			if (fix_problem(ctx, PR_1_EA_BAD_VALUE, pctx))
				goto clear_extattr;
			break;
		}
		if (entry->e_value_size &&
		    region_allocate(region, entry->e_value_offs,
				    EXT2_EXT_ATTR_SIZE(entry->e_value_size))) {
			if (fix_problem(ctx, PR_1_EA_ALLOC_COLLISION, pctx))
				goto clear_extattr;
		}

		hash = ext2fs_ext_attr_hash_entry(entry, block_buf +
							 entry->e_value_offs);

		if (entry->e_hash != hash) {
			pctx->num = entry->e_hash;
			if (fix_problem(ctx, PR_1_ATTR_HASH, pctx))
				goto clear_extattr;
			entry->e_hash = hash;
		}

		entry = EXT2_EXT_ATTR_NEXT(entry);
	}
	if (region_allocate(region, (char *)entry - (char *)header, 4)) {
		if (fix_problem(ctx, PR_1_EA_ALLOC_COLLISION, pctx))
			goto clear_extattr;
	}
	region_free(region);

	/*
	 * We only get here if there was no other errors that were fixed.
	 * If there was a checksum fail, ask to correct it.
	 */
	if (failed_csum &&
	    fix_problem(ctx, PR_1_EA_BLOCK_ONLY_CSUM_INVALID, pctx)) {
		pctx->errcode = ext2fs_write_ext_attr3(fs, blk, block_buf,
						       pctx->ino);
		if (pctx->errcode)
			return 0;
	}

	count = header->h_refcount - 1;
	if (count)
		ea_refcount_store(ctx->refcount, blk, count);
	mark_block_used(ctx, blk);
	ext2fs_fast_mark_block_bitmap2(ctx->block_ea_map, blk);
	return 1;

clear_extattr:
	if (region)
		region_free(region);
	ext2fs_file_acl_block_set(fs, inode, 0);
	e2fsck_write_inode(ctx, ino, inode, "check_ext_attr");
	return 0;
}

/* Returns 1 if bad htree, 0 if OK */
static int handle_htree(e2fsck_t ctx, struct problem_context *pctx,
			ext2_ino_t ino, struct ext2_inode *inode,
			char *block_buf)
{
	struct ext2_dx_root_info	*root;
	ext2_filsys			fs = ctx->fs;
	errcode_t			retval;
	blk64_t				blk;

	if ((!LINUX_S_ISDIR(inode->i_mode) &&
	     fix_problem(ctx, PR_1_HTREE_NODIR, pctx)) ||
	    (!(fs->super->s_feature_compat & EXT2_FEATURE_COMPAT_DIR_INDEX) &&
	     fix_problem(ctx, PR_1_HTREE_SET, pctx)))
		return 1;

	pctx->errcode = ext2fs_bmap2(fs, ino, inode, 0, 0, 0, 0, &blk);

	if ((pctx->errcode) ||
	    (blk == 0) ||
	    (blk < fs->super->s_first_data_block) ||
	    (blk >= ext2fs_blocks_count(fs->super))) {
		if (fix_problem(ctx, PR_1_HTREE_BADROOT, pctx))
			return 1;
		else
			return 0;
	}

	retval = io_channel_read_blk64(fs->io, blk, 1, block_buf);
	if (retval && fix_problem(ctx, PR_1_HTREE_BADROOT, pctx))
		return 1;

	/* XXX should check that beginning matches a directory */
	root = (struct ext2_dx_root_info *) (block_buf + 24);

	if ((root->reserved_zero || root->info_length < 8) &&
	    fix_problem(ctx, PR_1_HTREE_BADROOT, pctx))
		return 1;

	pctx->num = root->hash_version;
	if ((root->hash_version != EXT2_HASH_LEGACY) &&
	    (root->hash_version != EXT2_HASH_HALF_MD4) &&
	    (root->hash_version != EXT2_HASH_TEA) &&
	    fix_problem(ctx, PR_1_HTREE_HASHV, pctx))
		return 1;

	if ((root->unused_flags & EXT2_HASH_FLAG_INCOMPAT) &&
	    fix_problem(ctx, PR_1_HTREE_INCOMPAT, pctx))
		return 1;

	pctx->num = root->indirect_levels;
	if ((root->indirect_levels > 1) &&
	    fix_problem(ctx, PR_1_HTREE_DEPTH, pctx))
		return 1;

	return 0;
}

void e2fsck_clear_inode(e2fsck_t ctx, ext2_ino_t ino,
			struct ext2_inode *inode, int restart_flag,
			const char *source)
{
	inode->i_flags = 0;
	inode->i_links_count = 0;
	ext2fs_icount_store(ctx->inode_link_info, ino, 0);
	inode->i_dtime = ctx->now;

	ext2fs_unmark_inode_bitmap2(ctx->inode_dir_map, ino);
	ext2fs_unmark_inode_bitmap2(ctx->inode_used_map, ino);
	if (ctx->inode_reg_map)
		ext2fs_unmark_inode_bitmap2(ctx->inode_reg_map, ino);
	if (ctx->inode_bad_map)
		ext2fs_unmark_inode_bitmap2(ctx->inode_bad_map, ino);

	/*
	 * If the inode was partially accounted for before processing
	 * was aborted, we need to restart the pass 1 scan.
	 */
	ctx->flags |= restart_flag;

	if (ino == EXT2_BAD_INO)
		memset(inode, 0, sizeof(struct ext2_inode));

	e2fsck_write_inode(ctx, ino, inode, source);
}

static void scan_extent_node(e2fsck_t ctx, struct problem_context *pctx,
			     struct process_block_struct *pb,
			     blk64_t start_block,
			     ext2_extent_handle_t ehandle)
{
	struct ext2fs_extent	extent;
	blk64_t			blk;
	e2_blkcnt_t		blockcnt;
	unsigned int		i;
	int			is_dir, is_leaf;
	errcode_t		problem;
	struct ext2_extent_info	info;
	int			failed_csum;

	pctx->errcode = ext2fs_extent_get_info(ehandle, &info);
	if (pctx->errcode)
		return;

	pctx->errcode = ext2fs_extent_get(ehandle, EXT2_EXTENT_FIRST_SIB,
					  &extent);
	while ((pctx->errcode == 0 ||
		pctx->errcode == EXT2_ET_EXTENT_CSUM_INVALID) &&
	       info.num_entries-- > 0) {
		failed_csum = 0;
		is_leaf = extent.e_flags & EXT2_EXTENT_FLAGS_LEAF;
		is_dir = LINUX_S_ISDIR(pctx->inode->i_mode);

		problem = 0;
		/* Ask to clear a corrupt extent block */
		if (pctx->errcode == EXT2_ET_EXTENT_CSUM_INVALID) {
			pctx->blk = extent.e_pblk;
			pctx->blk2 = extent.e_lblk;
			pctx->num = extent.e_len;
			problem = PR_1_EXTENT_CSUM_INVALID;
			if (fix_problem(ctx, problem, pctx))
				goto fix_problem_now;
			failed_csum = 1;
		}

		if (extent.e_pblk == 0 ||
		    extent.e_pblk < ctx->fs->super->s_first_data_block ||
		    extent.e_pblk >= ext2fs_blocks_count(ctx->fs->super))
			problem = PR_1_EXTENT_BAD_START_BLK;
		else if (extent.e_lblk < start_block)
			problem = PR_1_OUT_OF_ORDER_EXTENTS;
		else if (is_leaf && extent.e_len == 0)
			problem = PR_1_EXTENT_LENGTH_ZERO;
		else if (is_leaf &&
			 (extent.e_pblk + extent.e_len) >
			 ext2fs_blocks_count(ctx->fs->super))
			problem = PR_1_EXTENT_ENDS_BEYOND;

		/* Corrupt but passes checks?  Ask to fix checksum. */
		if (failed_csum) {
			pctx->blk = extent.e_pblk;
			pctx->blk2 = extent.e_lblk;
			pctx->num = extent.e_len;
			problem = 0;
			if (fix_problem(ctx, PR_1_EXTENT_ONLY_CSUM_INVALID,
					pctx))
				ext2fs_extent_replace(ehandle, 0, &extent);
		}

		if (problem) {
report_problem:
			pctx->blk = extent.e_pblk;
			pctx->blk2 = extent.e_lblk;
			pctx->num = extent.e_len;
			if (fix_problem(ctx, problem, pctx)) {
fix_problem_now:
				e2fsck_read_bitmaps(ctx);
				pctx->errcode =
					ext2fs_extent_delete(ehandle, 0);
				if (pctx->errcode) {
					pctx->str = "ext2fs_extent_delete";
					return;
				}
				ext2fs_extent_fix_parents(ehandle);
				pctx->errcode = ext2fs_extent_get(ehandle,
								  EXT2_EXTENT_CURRENT,
								  &extent);
				if (pctx->errcode == EXT2_ET_NO_CURRENT_NODE) {
					pctx->errcode = 0;
					break;
				}
				continue;
			}
			goto next;
		}

		if (!is_leaf) {
			blk64_t lblk;

			blk = extent.e_pblk;
			lblk = extent.e_lblk;
			pctx->errcode = ext2fs_extent_get(ehandle,
						  EXT2_EXTENT_DOWN, &extent);
			if (pctx->errcode) {
				pctx->str = "EXT2_EXTENT_DOWN";
				problem = PR_1_EXTENT_HEADER_INVALID;
				if (pctx->errcode ==
					EXT2_ET_EXTENT_HEADER_BAD ||
				    pctx->errcode ==
					EXT2_ET_EXTENT_CSUM_INVALID)
					goto report_problem;
				return;
			}
			/* The next extent should match this index's logical start */
			if (extent.e_lblk != lblk) {
				struct ext2_extent_info info;

				ext2fs_extent_get_info(ehandle, &info);
				pctx->blk = lblk;
				pctx->blk2 = extent.e_lblk;
				pctx->num = info.curr_level - 1;
				problem = PR_1_EXTENT_INDEX_START_INVALID;
				if (fix_problem(ctx, problem, pctx))
					ext2fs_extent_fix_parents(ehandle);
			}
			scan_extent_node(ctx, pctx, pb, extent.e_lblk, ehandle);
			if (pctx->errcode)
				return;
			pctx->errcode = ext2fs_extent_get(ehandle,
						  EXT2_EXTENT_UP, &extent);
			if (pctx->errcode) {
				pctx->str = "EXT2_EXTENT_UP";
				return;
			}
			mark_block_used(ctx, blk);
			pb->num_blocks++;
			goto next;
		}

		if ((pb->previous_block != 0) &&
		    (pb->previous_block+1 != extent.e_pblk)) {
			if (ctx->options & E2F_OPT_FRAGCHECK) {
				char type = '?';

				if (pb->is_dir)
					type = 'd';
				else if (pb->is_reg)
					type = 'f';

				printf(("%6lu(%c): expecting %6lu "
					"actual extent "
					"phys %6lu log %lu len %lu\n"),
				       (unsigned long) pctx->ino, type,
				       (unsigned long) pb->previous_block+1,
				       (unsigned long) extent.e_pblk,
				       (unsigned long) extent.e_lblk,
				       (unsigned long) extent.e_len);
			}
			pb->fragmented = 1;
		}
		while (is_dir && ++pb->last_db_block < extent.e_lblk) {
			pctx->errcode = ext2fs_add_dir_block2(ctx->fs->dblist,
							      pb->ino, 0,
							      pb->last_db_block);
			if (pctx->errcode) {
				pctx->blk = 0;
				pctx->num = pb->last_db_block;
				goto failed_add_dir_block;
			}
		}
		if (!ctx->fs->cluster_ratio_bits) {
			mark_blocks_used(ctx, extent.e_pblk, extent.e_len);
			pb->num_blocks += extent.e_len;
		}
		for (blk = extent.e_pblk, blockcnt = extent.e_lblk, i = 0;
		     i < extent.e_len;
		     blk++, blockcnt++, i++) {
			if (ctx->fs->cluster_ratio_bits &&
			    !(pb->previous_block &&
			      (EXT2FS_B2C(ctx->fs, blk) ==
			       EXT2FS_B2C(ctx->fs, pb->previous_block)) &&
			      (blk & EXT2FS_CLUSTER_MASK(ctx->fs)) ==
			      (blockcnt & EXT2FS_CLUSTER_MASK(ctx->fs)))) {
				mark_block_used(ctx, blk);
				pb->num_blocks++;
			}

			pb->previous_block = blk;

			if (is_dir) {
				pctx->errcode = ext2fs_add_dir_block2(ctx->fs->dblist, pctx->ino, blk, blockcnt);
				if (pctx->errcode) {
					pctx->blk = blk;
					pctx->num = blockcnt;
				failed_add_dir_block:
					fix_problem(ctx, PR_1_ADD_DBLOCK, pctx);
					/* Should never get here */
					ctx->flags |= E2F_FLAG_ABORT;
					return;
				}
			}
		}
		if (is_dir && extent.e_len > 0)
			pb->last_db_block = blockcnt - 1;
		pb->previous_block = extent.e_pblk + extent.e_len - 1;
		start_block = pb->last_block = extent.e_lblk + extent.e_len - 1;
		if (is_leaf && !is_dir &&
		    !(extent.e_flags & EXT2_EXTENT_FLAGS_UNINIT))
			pb->last_init_lblock = extent.e_lblk + extent.e_len - 1;
	next:
		pctx->errcode = ext2fs_extent_get(ehandle,
						  EXT2_EXTENT_NEXT_SIB,
						  &extent);
	}
	if (pctx->errcode == EXT2_ET_EXTENT_NO_NEXT)
		pctx->errcode = 0;
}

static void check_blocks_extents(e2fsck_t ctx, struct problem_context *pctx,
				 struct process_block_struct *pb)
{
	struct ext2_extent_info info;
	struct ext2_inode	*inode = pctx->inode;
	ext2_extent_handle_t	ehandle;
	ext2_filsys		fs = ctx->fs;
	ext2_ino_t		ino = pctx->ino;
	errcode_t		retval;

	pctx->errcode = ext2fs_extent_open2(fs, ino, inode, &ehandle);
	if (pctx->errcode) {
		if (fix_problem(ctx, PR_1_READ_EXTENT, pctx))
			e2fsck_clear_inode(ctx, ino, inode, 0,
					   "check_blocks_extents");
		pctx->errcode = 0;
		return;
	}

	retval = ext2fs_extent_get_info(ehandle, &info);
	if (retval == 0) {
		if (info.max_depth >= MAX_EXTENT_DEPTH_COUNT)
			info.max_depth = MAX_EXTENT_DEPTH_COUNT-1;
		ctx->extent_depth_count[info.max_depth]++;
	}

	scan_extent_node(ctx, pctx, pb, 0, ehandle);
	if (pctx->errcode &&
	    fix_problem(ctx, PR_1_EXTENT_ITERATE_FAILURE, pctx)) {
		pb->num_blocks = 0;
		inode->i_blocks = 0;
		e2fsck_clear_inode(ctx, ino, inode, E2F_FLAG_RESTART,
				   "check_blocks_extents");
		pctx->errcode = 0;
	}
	ext2fs_extent_free(ehandle);
}

/*
 * This subroutine is called on each inode to account for all of the
 * blocks used by that inode.
 */
static void check_blocks(e2fsck_t ctx, struct problem_context *pctx,
			 char *block_buf)
{
	ext2_filsys fs = ctx->fs;
	struct process_block_struct pb;
	ext2_ino_t	ino = pctx->ino;
	struct ext2_inode *inode = pctx->inode;
	int		bad_size = 0;
	int		dirty_inode = 0;
	int		extent_fs;
	__u64		size;

	pb.ino = ino;
	pb.num_blocks = 0;
	pb.last_block = -1;
	pb.last_init_lblock = -1;
	pb.last_db_block = -1;
	pb.num_illegal_blocks = 0;
	pb.suppress = 0; pb.clear = 0;
	pb.fragmented = 0;
	pb.compressed = 0;
	pb.previous_block = 0;
	pb.is_dir = LINUX_S_ISDIR(inode->i_mode);
	pb.is_reg = LINUX_S_ISREG(inode->i_mode);
	pb.max_blocks = 1 << (31 - fs->super->s_log_block_size);
	pb.inode = inode;
	pb.pctx = pctx;
	pb.ctx = ctx;
	pctx->ino = ino;
	pctx->errcode = 0;

	extent_fs = (ctx->fs->super->s_feature_incompat &
                     EXT3_FEATURE_INCOMPAT_EXTENTS);

	if (inode->i_flags & EXT2_COMPRBLK_FL) {
		if (fs->super->s_feature_incompat &
		    EXT2_FEATURE_INCOMPAT_COMPRESSION)
			pb.compressed = 1;
		else {
			if (fix_problem(ctx, PR_1_COMPR_SET, pctx)) {
				inode->i_flags &= ~EXT2_COMPRBLK_FL;
				dirty_inode++;
			}
		}
	}

	if (ext2fs_file_acl_block(fs, inode) &&
	    check_ext_attr(ctx, pctx, block_buf)) {
		if (ctx->flags & E2F_FLAG_SIGNAL_MASK)
			goto out;
		pb.num_blocks++;
	}

	if (ext2fs_inode_has_valid_blocks2(fs, inode)) {
		if (extent_fs && (inode->i_flags & EXT4_EXTENTS_FL))
			check_blocks_extents(ctx, pctx, &pb);
		else {
			pctx->errcode = ext2fs_block_iterate3(fs, ino,
						pb.is_dir ? BLOCK_FLAG_HOLE : 0,
						block_buf, process_block, &pb);
			/*
			 * We do not have uninitialized extents in non extent
			 * files.
			 */
			pb.last_init_lblock = pb.last_block;
		}
	}
	end_problem_latch(ctx, PR_LATCH_BLOCK);
	end_problem_latch(ctx, PR_LATCH_TOOBIG);
	if (ctx->flags & E2F_FLAG_SIGNAL_MASK)
		goto out;
	if (pctx->errcode)
		fix_problem(ctx, PR_1_BLOCK_ITERATE, pctx);

	if (pb.fragmented && pb.num_blocks < fs->super->s_blocks_per_group) {
		if (LINUX_S_ISDIR(inode->i_mode))
			ctx->fs_fragmented_dir++;
		else
			ctx->fs_fragmented++;
	}

	if (pb.clear) {
		e2fsck_clear_inode(ctx, ino, inode, E2F_FLAG_RESTART,
				   "check_blocks");
		return;
	}

	if (inode->i_flags & EXT2_INDEX_FL) {
		if (handle_htree(ctx, pctx, ino, inode, block_buf)) {
			inode->i_flags &= ~EXT2_INDEX_FL;
			dirty_inode++;
		} else {
#ifdef ENABLE_HTREE
			e2fsck_add_dx_dir(ctx, ino, pb.last_block+1);
#endif
		}
	}

	if (!pb.num_blocks && pb.is_dir) {
		if (fix_problem(ctx, PR_1_ZERO_LENGTH_DIR, pctx)) {
			e2fsck_clear_inode(ctx, ino, inode, 0, "check_blocks");
			ctx->fs_directory_count--;
			return;
		}
	}

	if (ino == EXT2_ROOT_INO || ino >= EXT2_FIRST_INODE(ctx->fs->super)) {
		quota_data_add(ctx->qctx, inode, ino,
			       pb.num_blocks * fs->blocksize);
		quota_data_inodes(ctx->qctx, inode, ino, +1);
	}

	if (!(fs->super->s_feature_ro_compat &
	      EXT4_FEATURE_RO_COMPAT_HUGE_FILE) ||
	    !(inode->i_flags & EXT4_HUGE_FILE_FL))
		pb.num_blocks *= (fs->blocksize / 512);
	pb.num_blocks *= EXT2FS_CLUSTER_RATIO(fs);
#if 0
	printf("inode %u, i_size = %u, last_block = %lld, i_blocks=%llu, num_blocks = %llu\n",
	       ino, inode->i_size, pb.last_block, ext2fs_inode_i_blocks(fs, inode),
	       pb.num_blocks);
#endif
	if (pb.is_dir) {
		int nblock = inode->i_size >> EXT2_BLOCK_SIZE_BITS(fs->super);
		if (inode->i_size & (fs->blocksize - 1))
			bad_size = 5;
		else if (nblock > (pb.last_block + 1))
			bad_size = 1;
		else if (nblock < (pb.last_block + 1)) {
			if (((pb.last_block + 1) - nblock) >
			    fs->super->s_prealloc_dir_blocks)
				bad_size = 2;
		}
	} else {
		e2_blkcnt_t blkpg = ctx->blocks_per_page;

		size = EXT2_I_SIZE(inode);
		if ((pb.last_init_lblock >= 0) &&
		    /* allow allocated blocks to end of PAGE_SIZE */
		    (size < (__u64)pb.last_init_lblock * fs->blocksize) &&
		    (pb.last_init_lblock / blkpg * blkpg != pb.last_init_lblock ||
		     size < (__u64)(pb.last_init_lblock & ~(blkpg-1)) *
		     fs->blocksize))
			bad_size = 3;
		else if (!(extent_fs && (inode->i_flags & EXT4_EXTENTS_FL)) &&
			 size > ext2_max_sizes[fs->super->s_log_block_size])
			/* too big for a direct/indirect-mapped file */
			bad_size = 4;
		else if ((extent_fs && (inode->i_flags & EXT4_EXTENTS_FL)) &&
			 size >
			 ((1ULL << (32 + EXT2_BLOCK_SIZE_BITS(fs->super))) - 1))
			/* too big for an extent-based file - 32bit ee_block */
			bad_size = 6;
	}
	/* i_size for symlinks is checked elsewhere */
	if (bad_size && !LINUX_S_ISLNK(inode->i_mode)) {
		pctx->num = (pb.last_block+1) * fs->blocksize;
		pctx->group = bad_size;
		if (fix_problem(ctx, PR_1_BAD_I_SIZE, pctx)) {
			inode->i_size = pctx->num;
			if (!LINUX_S_ISDIR(inode->i_mode))
				inode->i_size_high = pctx->num >> 32;
			dirty_inode++;
		}
		pctx->num = 0;
	}
	if (LINUX_S_ISREG(inode->i_mode) && EXT2_I_SIZE(inode) >= 0x80000000UL)
		ctx->large_files++;
	if ((pb.num_blocks != ext2fs_inode_i_blocks(fs, inode)) ||
	    ((fs->super->s_feature_ro_compat &
	      EXT4_FEATURE_RO_COMPAT_HUGE_FILE) &&
	     (inode->i_flags & EXT4_HUGE_FILE_FL) &&
	     (inode->osd2.linux2.l_i_blocks_hi != 0))) {
		pctx->num = pb.num_blocks;
		if (fix_problem(ctx, PR_1_BAD_I_BLOCKS, pctx)) {
			inode->i_blocks = pb.num_blocks;
			inode->osd2.linux2.l_i_blocks_hi = pb.num_blocks >> 32;
			dirty_inode++;
		}
		pctx->num = 0;
	}

	if (ctx->dirs_to_hash && pb.is_dir &&
	    !(ctx->lost_and_found && ctx->lost_and_found == ino) &&
	    !(inode->i_flags & EXT2_INDEX_FL) &&
	    ((inode->i_size / fs->blocksize) >= 3))
		e2fsck_rehash_dir_later(ctx, ino);

out:
	if (dirty_inode)
		e2fsck_write_inode(ctx, ino, inode, "check_blocks");
}

#if 0
/*
 * Helper function called by process block when an illegal block is
 * found.  It returns a description about why the block is illegal
 */
static char *describe_illegal_block(ext2_filsys fs, blk64_t block)
{
	blk64_t	super;
	int	i;
	static char	problem[80];

	super = fs->super->s_first_data_block;
	strcpy(problem, "PROGRAMMING ERROR: Unknown reason for illegal block");
	if (block < super) {
		sprintf(problem, "< FIRSTBLOCK (%u)", super);
		return(problem);
	} else if (block >= ext2fs_blocks_count(fs->super)) {
		sprintf(problem, "> BLOCKS (%u)", ext2fs_blocks_count(fs->super));
		return(problem);
	}
	for (i = 0; i < fs->group_desc_count; i++) {
		if (block == super) {
			sprintf(problem, "is the superblock in group %d", i);
			break;
		}
		if (block > super &&
		    block <= (super + fs->desc_blocks)) {
			sprintf(problem, "is in the group descriptors "
				"of group %d", i);
			break;
		}
		if (block == ext2fs_block_bitmap_loc(fs, i)) {
			sprintf(problem, "is the block bitmap of group %d", i);
			break;
		}
		if (block == ext2fs_inode_bitmap_loc(fs, i)) {
			sprintf(problem, "is the inode bitmap of group %d", i);
			break;
		}
		if (block >= ext2fs_inode_table_loc(fs, i) &&
		    (block < ext2fs_inode_table_loc(fs, i)
		     + fs->inode_blocks_per_group)) {
			sprintf(problem, "is in the inode table of group %d",
				i);
			break;
		}
		super += fs->super->s_blocks_per_group;
	}
	return(problem);
}
#endif

/*
 * This is a helper function for check_blocks().
 */
static int process_block(ext2_filsys fs,
		  blk64_t	*block_nr,
		  e2_blkcnt_t blockcnt,
		  blk64_t ref_block EXT2FS_ATTR((unused)),
		  int ref_offset EXT2FS_ATTR((unused)),
		  void *priv_data)
{
	struct process_block_struct *p;
	struct problem_context *pctx;
	blk64_t	blk = *block_nr;
	int	ret_code = 0;
	int	problem = 0;
	e2fsck_t	ctx;

	p = (struct process_block_struct *) priv_data;
	pctx = p->pctx;
	ctx = p->ctx;

	if (p->compressed && (blk == EXT2FS_COMPRESSED_BLKADDR)) {
		/* todo: Check that the comprblk_fl is high, that the
		   blkaddr pattern looks right (all non-holes up to
		   first EXT2FS_COMPRESSED_BLKADDR, then all
		   EXT2FS_COMPRESSED_BLKADDR up to end of cluster),
		   that the feature_incompat bit is high, and that the
		   inode is a regular file.  If we're doing a "full
		   check" (a concept introduced to e2fsck by e2compr,
		   meaning that we look at data blocks as well as
		   metadata) then call some library routine that
		   checks the compressed data.  I'll have to think
		   about this, because one particularly important
		   problem to be able to fix is to recalculate the
		   cluster size if necessary.  I think that perhaps
		   we'd better do most/all e2compr-specific checks
		   separately, after the non-e2compr checks.  If not
		   doing a full check, it may be useful to test that
		   the personality is linux; e.g. if it isn't then
		   perhaps this really is just an illegal block. */
		return 0;
	}

	if (blk == 0)
		return 0;

#if 0
	printf("Process_block, inode %lu, block %u, #%d\n", p->ino, blk,
	       blockcnt);
#endif

	/*
	 * Simplistic fragmentation check.  We merely require that the
	 * file be contiguous.  (Which can never be true for really
	 * big files that are greater than a block group.)
	 */
	if (!HOLE_BLKADDR(p->previous_block) && p->ino != EXT2_RESIZE_INO) {
		if (p->previous_block+1 != blk) {
			if (ctx->options & E2F_OPT_FRAGCHECK) {
				char type = '?';

				if (p->is_dir)
					type = 'd';
				else if (p->is_reg)
					type = 'f';

				printf(_("%6lu(%c): expecting %6lu "
					 "got phys %6lu (blkcnt %lld)\n"),
				       (unsigned long) pctx->ino, type,
				       (unsigned long) p->previous_block+1,
				       (unsigned long) blk,
				       blockcnt);
			}
			p->fragmented = 1;
		}
	}

	if (p->is_dir && blockcnt > (1 << (21 - fs->super->s_log_block_size)))
		problem = PR_1_TOOBIG_DIR;
	if (p->is_reg && p->num_blocks+1 >= p->max_blocks)
		problem = PR_1_TOOBIG_REG;
	if (!p->is_dir && !p->is_reg && blockcnt > 0)
		problem = PR_1_TOOBIG_SYMLINK;

	if (blk < fs->super->s_first_data_block ||
	    blk >= ext2fs_blocks_count(fs->super))
		problem = PR_1_ILLEGAL_BLOCK_NUM;

	if (problem) {
		p->num_illegal_blocks++;
		if (!p->suppress && (p->num_illegal_blocks % 12) == 0) {
			if (fix_problem(ctx, PR_1_TOO_MANY_BAD_BLOCKS, pctx)) {
				p->clear = 1;
				return BLOCK_ABORT;
			}
			if (fix_problem(ctx, PR_1_SUPPRESS_MESSAGES, pctx)) {
				p->suppress = 1;
				set_latch_flags(PR_LATCH_BLOCK,
						PRL_SUPPRESS, 0);
			}
		}
		pctx->blk = blk;
		pctx->blkcount = blockcnt;
		if (fix_problem(ctx, problem, pctx)) {
			blk = *block_nr = 0;
			ret_code = BLOCK_CHANGED;
			goto mark_dir;
		} else
			return 0;
	}

	if (p->ino == EXT2_RESIZE_INO) {
		/*
		 * The resize inode has already be sanity checked
		 * during pass #0 (the superblock checks).  All we
		 * have to do is mark the double indirect block as
		 * being in use; all of the other blocks are handled
		 * by mark_table_blocks()).
		 */
		if (blockcnt == BLOCK_COUNT_DIND)
			mark_block_used(ctx, blk);
		p->num_blocks++;
	} else if (!(ctx->fs->cluster_ratio_bits &&
		     p->previous_block &&
		     (EXT2FS_B2C(ctx->fs, blk) ==
		      EXT2FS_B2C(ctx->fs, p->previous_block)) &&
		     (blk & EXT2FS_CLUSTER_MASK(ctx->fs)) ==
		     (blockcnt & EXT2FS_CLUSTER_MASK(ctx->fs)))) {
		mark_block_used(ctx, blk);
		p->num_blocks++;
	}
	if (blockcnt >= 0)
		p->last_block = blockcnt;
	p->previous_block = blk;
mark_dir:
	if (p->is_dir && (blockcnt >= 0)) {
		while (++p->last_db_block < blockcnt) {
			pctx->errcode = ext2fs_add_dir_block2(fs->dblist,
							      p->ino, 0,
							      p->last_db_block);
			if (pctx->errcode) {
				pctx->blk = 0;
				pctx->num = p->last_db_block;
				goto failed_add_dir_block;
			}
		}
		pctx->errcode = ext2fs_add_dir_block2(fs->dblist, p->ino,
						      blk, blockcnt);
		if (pctx->errcode) {
			pctx->blk = blk;
			pctx->num = blockcnt;
		failed_add_dir_block:
			fix_problem(ctx, PR_1_ADD_DBLOCK, pctx);
			/* Should never get here */
			ctx->flags |= E2F_FLAG_ABORT;
			return BLOCK_ABORT;
		}
	}
	return ret_code;
}

static int process_bad_block(ext2_filsys fs,
		      blk64_t *block_nr,
		      e2_blkcnt_t blockcnt,
		      blk64_t ref_block EXT2FS_ATTR((unused)),
		      int ref_offset EXT2FS_ATTR((unused)),
		      void *priv_data)
{
	struct process_block_struct *p;
	blk64_t		blk = *block_nr;
	blk64_t		first_block;
	dgrp_t		i;
	struct problem_context *pctx;
	e2fsck_t	ctx;

	/*
	 * Note: This function processes blocks for the bad blocks
	 * inode, which is never compressed.  So we don't use HOLE_BLKADDR().
	 */

	if (!blk)
		return 0;

	p = (struct process_block_struct *) priv_data;
	ctx = p->ctx;
	pctx = p->pctx;

	pctx->ino = EXT2_BAD_INO;
	pctx->blk = blk;
	pctx->blkcount = blockcnt;

	if ((blk < fs->super->s_first_data_block) ||
	    (blk >= ext2fs_blocks_count(fs->super))) {
		if (fix_problem(ctx, PR_1_BB_ILLEGAL_BLOCK_NUM, pctx)) {
			*block_nr = 0;
			return BLOCK_CHANGED;
		} else
			return 0;
	}

	if (blockcnt < 0) {
		if (ext2fs_test_block_bitmap2(p->fs_meta_blocks, blk)) {
			p->bbcheck = 1;
			if (fix_problem(ctx, PR_1_BB_FS_BLOCK, pctx)) {
				*block_nr = 0;
				return BLOCK_CHANGED;
			}
		} else if (ext2fs_test_block_bitmap2(ctx->block_found_map,
						    blk)) {
			p->bbcheck = 1;
			if (fix_problem(ctx, PR_1_BBINODE_BAD_METABLOCK,
					pctx)) {
				*block_nr = 0;
				return BLOCK_CHANGED;
			}
			if (ctx->flags & E2F_FLAG_SIGNAL_MASK)
				return BLOCK_ABORT;
		} else
			mark_block_used(ctx, blk);
		return 0;
	}
#if 0
	printf ("DEBUG: Marking %u as bad.\n", blk);
#endif
	ctx->fs_badblocks_count++;
	/*
	 * If the block is not used, then mark it as used and return.
	 * If it is already marked as found, this must mean that
	 * there's an overlap between the filesystem table blocks
	 * (bitmaps and inode table) and the bad block list.
	 */
	if (!ext2fs_test_block_bitmap2(ctx->block_found_map, blk)) {
		ext2fs_mark_block_bitmap2(ctx->block_found_map, blk);
		return 0;
	}
	/*
	 * Try to find the where the filesystem block was used...
	 */
	first_block = fs->super->s_first_data_block;

	for (i = 0; i < fs->group_desc_count; i++ ) {
		pctx->group = i;
		pctx->blk = blk;
		if (!ext2fs_bg_has_super(fs, i))
			goto skip_super;
		if (blk == first_block) {
			if (i == 0) {
				if (fix_problem(ctx,
						PR_1_BAD_PRIMARY_SUPERBLOCK,
						pctx)) {
					*block_nr = 0;
					return BLOCK_CHANGED;
				}
				return 0;
			}
			fix_problem(ctx, PR_1_BAD_SUPERBLOCK, pctx);
			return 0;
		}
		if ((blk > first_block) &&
		    (blk <= first_block + fs->desc_blocks)) {
			if (i == 0) {
				pctx->blk = *block_nr;
				if (fix_problem(ctx,
			PR_1_BAD_PRIMARY_GROUP_DESCRIPTOR, pctx)) {
					*block_nr = 0;
					return BLOCK_CHANGED;
				}
				return 0;
			}
			fix_problem(ctx, PR_1_BAD_GROUP_DESCRIPTORS, pctx);
			return 0;
		}
	skip_super:
		if (blk == ext2fs_block_bitmap_loc(fs, i)) {
			if (fix_problem(ctx, PR_1_BB_BAD_BLOCK, pctx)) {
				ctx->invalid_block_bitmap_flag[i]++;
				ctx->invalid_bitmaps++;
			}
			return 0;
		}
		if (blk == ext2fs_inode_bitmap_loc(fs, i)) {
			if (fix_problem(ctx, PR_1_IB_BAD_BLOCK, pctx)) {
				ctx->invalid_inode_bitmap_flag[i]++;
				ctx->invalid_bitmaps++;
			}
			return 0;
		}
		if ((blk >= ext2fs_inode_table_loc(fs, i)) &&
		    (blk < (ext2fs_inode_table_loc(fs, i) +
			    fs->inode_blocks_per_group))) {
			/*
			 * If there are bad blocks in the inode table,
			 * the inode scan code will try to do
			 * something reasonable automatically.
			 */
			return 0;
		}
		first_block += fs->super->s_blocks_per_group;
	}
	/*
	 * If we've gotten to this point, then the only
	 * possibility is that the bad block inode meta data
	 * is using a bad block.
	 */
	if ((blk == p->inode->i_block[EXT2_IND_BLOCK]) ||
	    (blk == p->inode->i_block[EXT2_DIND_BLOCK]) ||
	    (blk == p->inode->i_block[EXT2_TIND_BLOCK])) {
		p->bbcheck = 1;
		if (fix_problem(ctx, PR_1_BBINODE_BAD_METABLOCK, pctx)) {
			*block_nr = 0;
			return BLOCK_CHANGED;
		}
		if (ctx->flags & E2F_FLAG_SIGNAL_MASK)
			return BLOCK_ABORT;
		return 0;
	}

	pctx->group = -1;

	/* Warn user that the block wasn't claimed */
	fix_problem(ctx, PR_1_PROGERR_CLAIMED_BLOCK, pctx);

	return 0;
}

static void new_table_block(e2fsck_t ctx, blk_t first_block, int group,
			    const char *name, int num, blk64_t *new_block)
{
	ext2_filsys fs = ctx->fs;
	dgrp_t		last_grp;
	blk64_t		old_block = *new_block;
	blk64_t		last_block;
	int		i, is_flexbg, flexbg, flexbg_size;
	char		*buf;
	struct problem_context	pctx;

	clear_problem_context(&pctx);

	pctx.group = group;
	pctx.blk = old_block;
	pctx.str = name;

	/*
	 * For flex_bg filesystems, first try to allocate the metadata
	 * within the flex_bg, and if that fails then try finding the
	 * space anywhere in the filesystem.
	 */
	is_flexbg = EXT2_HAS_INCOMPAT_FEATURE(fs->super,
					      EXT4_FEATURE_INCOMPAT_FLEX_BG);
	if (is_flexbg) {
		flexbg_size = 1 << fs->super->s_log_groups_per_flex;
		flexbg = group / flexbg_size;
		first_block = ext2fs_group_first_block2(fs,
							flexbg_size * flexbg);
		last_grp = group | (flexbg_size - 1);
		if (last_grp > fs->group_desc_count)
			last_grp = fs->group_desc_count;
		last_block = ext2fs_group_last_block2(fs, last_grp);
	} else
		last_block = ext2fs_group_last_block2(fs, group);
	pctx.errcode = ext2fs_get_free_blocks2(fs, first_block, last_block,
					       num, ctx->block_found_map,
					       new_block);
	if (is_flexbg && (pctx.errcode == EXT2_ET_BLOCK_ALLOC_FAIL))
		pctx.errcode = ext2fs_get_free_blocks2(fs,
				fs->super->s_first_data_block,
				ext2fs_blocks_count(fs->super),
				num, ctx->block_found_map, new_block);
	if (pctx.errcode) {
		pctx.num = num;
		fix_problem(ctx, PR_1_RELOC_BLOCK_ALLOCATE, &pctx);
		ext2fs_unmark_valid(fs);
		ctx->flags |= E2F_FLAG_ABORT;
		return;
	}
	pctx.errcode = ext2fs_get_mem(fs->blocksize, &buf);
	if (pctx.errcode) {
		fix_problem(ctx, PR_1_RELOC_MEMORY_ALLOCATE, &pctx);
		ext2fs_unmark_valid(fs);
		ctx->flags |= E2F_FLAG_ABORT;
		return;
	}
	ext2fs_mark_super_dirty(fs);
	fs->flags &= ~EXT2_FLAG_MASTER_SB_ONLY;
	pctx.blk2 = *new_block;
	fix_problem(ctx, (old_block ? PR_1_RELOC_FROM_TO :
			  PR_1_RELOC_TO), &pctx);
	pctx.blk2 = 0;
	for (i = 0; i < num; i++) {
		pctx.blk = i;
		ext2fs_mark_block_bitmap2(ctx->block_found_map, (*new_block)+i);
		if (old_block) {
			pctx.errcode = io_channel_read_blk64(fs->io,
				   old_block + i, 1, buf);
			if (pctx.errcode)
				fix_problem(ctx, PR_1_RELOC_READ_ERR, &pctx);
		} else
			memset(buf, 0, fs->blocksize);

		pctx.blk = (*new_block) + i;
		pctx.errcode = io_channel_write_blk64(fs->io, pctx.blk,
					      1, buf);
		if (pctx.errcode)
			fix_problem(ctx, PR_1_RELOC_WRITE_ERR, &pctx);
	}
	ext2fs_free_mem(&buf);
}

/*
 * This routine gets called at the end of pass 1 if bad blocks are
 * detected in the superblock, group descriptors, inode_bitmaps, or
 * block bitmaps.  At this point, all of the blocks have been mapped
 * out, so we can try to allocate new block(s) to replace the bad
 * blocks.
 */
static void handle_fs_bad_blocks(e2fsck_t ctx)
{
	ext2_filsys fs = ctx->fs;
	dgrp_t		i;
	blk64_t		first_block;
	blk64_t		new_blk;

	for (i = 0; i < fs->group_desc_count; i++) {
		first_block = ext2fs_group_first_block2(fs, i);

		if (ctx->invalid_block_bitmap_flag[i]) {
			new_blk = ext2fs_block_bitmap_loc(fs, i);
			new_table_block(ctx, first_block, i, _("block bitmap"),
					1, &new_blk);
			ext2fs_block_bitmap_loc_set(fs, i, new_blk);
		}
		if (ctx->invalid_inode_bitmap_flag[i]) {
			new_blk = ext2fs_inode_bitmap_loc(fs, i);
			new_table_block(ctx, first_block, i, _("inode bitmap"),
					1, &new_blk);
			ext2fs_inode_bitmap_loc_set(fs, i, new_blk);
		}
		if (ctx->invalid_inode_table_flag[i]) {
			new_blk = ext2fs_inode_table_loc(fs, i);
			new_table_block(ctx, first_block, i, _("inode table"),
					fs->inode_blocks_per_group,
					&new_blk);
			ext2fs_inode_table_loc_set(fs, i, new_blk);
			ctx->flags |= E2F_FLAG_RESTART;
		}
	}
	ctx->invalid_bitmaps = 0;
}

/*
 * This routine marks all blocks which are used by the superblock,
 * group descriptors, inode bitmaps, and block bitmaps.
 */
static void mark_table_blocks(e2fsck_t ctx)
{
	ext2_filsys fs = ctx->fs;
	blk64_t	b;
	dgrp_t	i;
	int	j;
	struct problem_context pctx;

	clear_problem_context(&pctx);

	for (i = 0; i < fs->group_desc_count; i++) {
		pctx.group = i;

		ext2fs_reserve_super_and_bgd(fs, i, ctx->block_found_map);

		/*
		 * Mark the blocks used for the inode table
		 */
		if (ext2fs_inode_table_loc(fs, i)) {
			for (j = 0, b = ext2fs_inode_table_loc(fs, i);
			     j < fs->inode_blocks_per_group;
			     j++, b++) {
				if (ext2fs_test_block_bitmap2(ctx->block_found_map,
							     b)) {
					pctx.blk = b;
					if (!ctx->invalid_inode_table_flag[i] &&
					    fix_problem(ctx,
						PR_1_ITABLE_CONFLICT, &pctx)) {
						ctx->invalid_inode_table_flag[i]++;
						ctx->invalid_bitmaps++;
					}
				} else {
				    ext2fs_mark_block_bitmap2(ctx->block_found_map,
							     b);
			    	}
			}
		}

		/*
		 * Mark block used for the block bitmap
		 */
		if (ext2fs_block_bitmap_loc(fs, i)) {
			if (ext2fs_test_block_bitmap2(ctx->block_found_map,
				     ext2fs_block_bitmap_loc(fs, i))) {
				pctx.blk = ext2fs_block_bitmap_loc(fs, i);
				if (fix_problem(ctx, PR_1_BB_CONFLICT, &pctx)) {
					ctx->invalid_block_bitmap_flag[i]++;
					ctx->invalid_bitmaps++;
				}
			} else {
			    ext2fs_mark_block_bitmap2(ctx->block_found_map,
				     ext2fs_block_bitmap_loc(fs, i));
		    }

		}
		/*
		 * Mark block used for the inode bitmap
		 */
		if (ext2fs_inode_bitmap_loc(fs, i)) {
			if (ext2fs_test_block_bitmap2(ctx->block_found_map,
				     ext2fs_inode_bitmap_loc(fs, i))) {
				pctx.blk = ext2fs_inode_bitmap_loc(fs, i);
				if (fix_problem(ctx, PR_1_IB_CONFLICT, &pctx)) {
					ctx->invalid_inode_bitmap_flag[i]++;
					ctx->invalid_bitmaps++;
				}
			} else {
			    ext2fs_mark_block_bitmap2(ctx->block_found_map,
				     ext2fs_inode_bitmap_loc(fs, i));
			}
		}
	}
}

/*
 * Thes subroutines short circuits ext2fs_get_blocks and
 * ext2fs_check_directory; we use them since we already have the inode
 * structure, so there's no point in letting the ext2fs library read
 * the inode again.
 */
static errcode_t pass1_get_blocks(ext2_filsys fs, ext2_ino_t ino,
				  blk_t *blocks)
{
	e2fsck_t ctx = (e2fsck_t) fs->priv_data;
	int	i;

	if ((ino != ctx->stashed_ino) || !ctx->stashed_inode)
		return EXT2_ET_CALLBACK_NOTHANDLED;

	for (i=0; i < EXT2_N_BLOCKS; i++)
		blocks[i] = ctx->stashed_inode->i_block[i];
	return 0;
}

static errcode_t pass1_read_inode(ext2_filsys fs, ext2_ino_t ino,
				  struct ext2_inode *inode)
{
	e2fsck_t ctx = (e2fsck_t) fs->priv_data;

	if ((ino != ctx->stashed_ino) || !ctx->stashed_inode)
		return EXT2_ET_CALLBACK_NOTHANDLED;
	*inode = *ctx->stashed_inode;
	return 0;
}

static errcode_t pass1_write_inode(ext2_filsys fs, ext2_ino_t ino,
			    struct ext2_inode *inode)
{
	e2fsck_t ctx = (e2fsck_t) fs->priv_data;

	if ((ino == ctx->stashed_ino) && ctx->stashed_inode &&
		(inode != ctx->stashed_inode))
		*ctx->stashed_inode = *inode;
	return EXT2_ET_CALLBACK_NOTHANDLED;
}

static errcode_t pass1_check_directory(ext2_filsys fs, ext2_ino_t ino)
{
	e2fsck_t ctx = (e2fsck_t) fs->priv_data;

	if ((ino != ctx->stashed_ino) || !ctx->stashed_inode)
		return EXT2_ET_CALLBACK_NOTHANDLED;

	if (!LINUX_S_ISDIR(ctx->stashed_inode->i_mode))
		return EXT2_ET_NO_DIRECTORY;
	return 0;
}

static errcode_t e2fsck_get_alloc_block(ext2_filsys fs, blk64_t goal,
					blk64_t *ret)
{
	e2fsck_t ctx = (e2fsck_t) fs->priv_data;
	errcode_t	retval;
	blk64_t		new_block;

	if (ctx->block_found_map) {
		retval = ext2fs_new_block2(fs, goal, ctx->block_found_map,
					   &new_block);
		if (retval)
			return retval;
		if (fs->block_map) {
			ext2fs_mark_block_bitmap2(fs->block_map, new_block);
			ext2fs_mark_bb_dirty(fs);
		}
	} else {
		if (!fs->block_map) {
			retval = ext2fs_read_block_bitmap(fs);
			if (retval)
				return retval;
		}

		retval = ext2fs_new_block2(fs, goal, 0, &new_block);
		if (retval)
			return retval;
	}

	*ret = new_block;
	return (0);
}

static void e2fsck_block_alloc_stats(ext2_filsys fs, blk64_t blk, int inuse)
{
	e2fsck_t ctx = (e2fsck_t) fs->priv_data;

	if (ctx->block_found_map) {
		if (inuse > 0)
			ext2fs_mark_block_bitmap2(ctx->block_found_map, blk);
		else
			ext2fs_unmark_block_bitmap2(ctx->block_found_map, blk);
	}
}

void e2fsck_use_inode_shortcuts(e2fsck_t ctx, int use_shortcuts)
{
	ext2_filsys fs = ctx->fs;

	if (use_shortcuts) {
		fs->get_blocks = pass1_get_blocks;
		fs->check_directory = pass1_check_directory;
		fs->read_inode = pass1_read_inode;
		fs->write_inode = pass1_write_inode;
		ctx->stashed_ino = 0;
		ext2fs_set_alloc_block_callback(fs, e2fsck_get_alloc_block,
						0);
		ext2fs_set_block_alloc_stats_callback(fs,
						      e2fsck_block_alloc_stats,
						      0);
	} else {
		fs->get_blocks = 0;
		fs->check_directory = 0;
		fs->read_inode = 0;
		fs->write_inode = 0;
	}
}