.\"
.TH E2IMAGE 8 "@E2FSPROGS_MONTH@ @E2FSPROGS_YEAR@" "E2fsprogs version @E2FSPROGS_VERSION@"
.SH NAME
-e2image \- Save critical ext2 filesystem data to a file
+e2image \- Save critical ext2/ext3/ext4 filesystem metadata to a file
.SH SYNOPSIS
.B e2image
[
-.B \-r
+.B \-r|\-Q
+]
+[
+.B \-f
+]
+[
+.B \-b
+.I superblock
]
+[
+.B \-B
+.I blocksize
+]
+.I device
+.I image-file
+.br
+.B e2image
+.B \-I
.I device
.I image-file
+.br
+.B e2image
+.B \-ra
+[
+.B \-cfnp
+]
+[
+.B \-o
+.I src_offset
+]
+[
+.B \-O
+.I dest_offset
+]
+.I src_fs
+[
+.I dest_fs
+]
.SH DESCRIPTION
The
.B e2image
-program will save critical filesystem data on the ext2 filesystem located on
-display or change the filesystem label on the ext2 filesystem located on
-.I device
-to a file specified by
+program will save critical ext2, ext3, or ext4 filesystem metadata located on
+.I device
+to a file specified by
.IR image-file .
-The image file may be examined by
+The image file may be examined by
.B dumpe2fs
and
.BR debugfs ,
by using the
.B \-i
-option to those programs. This can be used by an expert in assisting
-the recovery of catastrophically corrupted filesystems. In the future,
+option to those programs. This can assist an expert in
+recovering catastrophically corrupted filesystems. In the future,
e2fsck will be enhanced to be able to use the image file to help
recover a badly damaged filesystem.
.PP
-If
+When saving an e2image for debugging purposes, using either the
+.B \-r
+or
+.B \-Q
+options, the filesystem must be unmounted or be mounted read/only, in order
+for the image file to be in a consistent state. This requirement can be
+overridden using the
+.B \-f
+option, but the resulting image file is very likely not going to be useful.
+.PP
+If
.I image-file
-is -, then the output of
+is \-, then the output of
+.B e2image
+will be sent to standard output, so that the output can be piped to
+another program, such as
+.BR gzip (1).
+(Note that this is currently only supported when
+creating a raw image file using the
+.B \-r
+option, since the process of creating a normal image file, or QCOW2
+image currently
+requires random access to the file, which cannot be done using a
+pipe. This restriction will hopefully be lifted in a future version of
+.BR e2image .)
+.PP
+It is a very good idea to create image files for all of
+filesystems on a system and save the partition
+layout (which can be generated using the
+.B fdisk \-l
+command) at regular intervals --- at boot time, and/or every week or so.
+The image file should be stored on some filesystem other than
+the filesystem whose data it contains, to ensure that this data is
+accessible in the case where the filesystem has been badly damaged.
+.PP
+To save disk space,
.B e2image
-will be sent to standard output.
+creates the image file as a sparse file, or in QCOW2 format.
+Hence, if the sparse image file
+needs to be copied to another location, it should
+either be compressed first or copied using the
+.B \-\-sparse=always
+option to the GNU version of
+.BR cp .
+This does not apply to the QCOW2 image, which is not sparse.
+.PP
+The size of an ext2 image file depends primarily on the size of the
+filesystems and how many inodes are in use. For a typical 10 gigabyte
+filesystem, with 200,000 inodes in use out of 1.2 million inodes, the
+image file will be approximately 35 megabytes; a 4 gigabyte filesystem with
+15,000 inodes in use out of 550,000 inodes will result in a 3 megabyte
+image file. Image files tend to be quite
+compressible; an image file taking up 32 megabytes of space on
+disk will generally compress down to 3 or 4 megabytes.
+.PP
+.SH RESTORING FILESYSTEM METADATA USING AN IMAGE FILE
+.PP
+The
+.B \-I
+option will cause e2image to install the metadata stored in the image
+file back to the device. It can be used to restore the filesystem metadata
+back to the device in emergency situations.
.PP
-The
+.B WARNING!!!!
+The
+.B \-I
+option should only be used as a desperation measure when other
+alternatives have failed. If the filesystem has changed since the image
+file was created, data
+.B will
+be lost. In general, you should make a full image
+backup of the filesystem first, in case you wish to try other recovery
+strategies afterwards.
+.PP
+.SH RAW IMAGE FILES
+The
.B \-r
-option will create a raw image file instead of a normal image file.
+option will create a raw image file instead of a normal image file.
A raw image file differs
from a normal image file in two ways. First, the filesystem metadata is
placed in the proper position so that e2fsck, dumpe2fs, debugfs,
-etc. can be run directly on the raw image file. In order to minimize
+etc.\& can be run directly on the raw image file. In order to minimize
the amount of disk space consumed by a raw image file, the file is
created as a sparse file. (Beware of copying or
compressing/decompressing this file with utilities that don't understand
how to create sparse files; the file will become as large as the
filesystem itself!) Secondly, the raw image file also includes indirect
-blocks and data blocks, which the current image file does not have,
+blocks and directory blocks, which the standard image file does not have,
although this may change in the future.
.PP
-It is a very good idea to periodically (at boot time and
-every week or so) to create image files for all of
-filesystems on a system, as well as saving the partition
-layout (which can be generated using the using
-.B fdisk -l
-command). Ideally the image file should be stored on some filesystem
-other that
-the filesystem whose data it contains, to ensure that its data is
-accessible in the case where the filesystem has been badly damaged.
+Raw image files are sometimes used when sending filesystems to the maintainer
+as part of bug reports to e2fsprogs. When used in this capacity, the
+recommended command is as follows (replace hda1 with the appropriate device):
+.PP
+.br
+ \fBe2image \-r /dev/hda1 \- | bzip2 > hda1.e2i.bz2\fR
.PP
-To save disk space,
+This will only send the metadata information, without any data blocks.
+However, the filenames in the directory blocks can still reveal
+information about the contents of the filesystem that the bug reporter
+may wish to keep confidential. To address this concern, the
+.B \-s
+option can be specified. This will cause
.B e2image
-creates the image file as a sparse file.
-Hence, if the image file
-needs to be copied to another location, it should
-either be compressed first or copied using the
-.B \--sparse=always
-option to GNU version of
-.BR cp .
+to scramble directory entries and zero out any unused portions
+of the directory blocks before writing the image file. However,
+the
+.B \-s
+option will prevent analysis of problems related to hash-tree indexed
+directories.
.PP
-The size of an ext2 image file depends primarily on the size of the
-filesystems and how many inodes are in use. For a typical 10 gigabyte
-filesystem, with 200,000 inodes in use out of 1.2 million inodes, the
-image file be approximately 35 megabytes; a 4 gigabyte filesystem with
-15,000 inodes in use out of 550,000 inodes will result in a 3 megabyte
-image file. Image files tend to be quite
-compressible; an image file taking up 32 megabytes of space on
-disk will generally compress down to 3 or 4 megabytes.
+Option
+.B \-b
+.I superblock
+can be used to get image from partition with broken primary superblock.
+The partition is copied as-is including broken primary superblock.
+.PP
+Option
+.B \-B
+.I blocksize
+can be used to set superblock block size. Normally, e2fsck will search
+for the superblock at various different block sizes in an attempt to find
+the appropriate blocksize. This search can be fooled in some cases. This
+option forces e2fsck to only try locating the superblock at a particular
+blocksize. If the superblock is not found, e2fsck will terminate with a
+fatal error.
+.PP
+Note that this will work even if you substitute "/dev/hda1" for another raw
+disk image, or QCOW2 image previously created by
+.BR e2image .
+.PP
+.SH QCOW2 IMAGE FILES
+The
+.B \-Q
+option will create a QCOW2 image file instead of a normal, or raw image file.
+A QCOW2 image contains all the information the raw image does, however unlike
+the raw image it is not sparse. The QCOW2 image minimize the amount of disk
+space by storing data in special format with pack data closely together, hence
+avoiding holes while still minimizing size.
+.PP
+In order to send filesystem to the maintainer as a part of bug report to
+e2fsprogs, use following commands (replace hda1 with the appropriate device):
+.PP
+.br
+\ \fBe2image \-Q /dev/hda1 hda1.qcow2\fR
+.br
+\ \fBbzip2 -z hda1.qcow2\fR
.PP
+This will only send the metadata information, without any data blocks.
+However, the filenames in the directory blocks can still reveal
+information about the contents of the filesystem that the bug reporter
+may wish to keep confidential. To address this concern, the
+.B \-s
+option can be specified. This will cause
+.B e2image
+to scramble directory entries and zero out any unused portions
+of the directory blocks before writing the image file. However, the
+.B \-s
+option will prevent analysis of problems related to hash-tree indexed
+directories.
+.PP
+Note that QCOW2 image created by
+.B e2image
+is regular QCOW2 image and can be processed by tools aware of QCOW2 format
+such as for example
+.BR qemu-img .
+.PP
+You can convert a qcow2 image into a raw image with:
+.PP
+.br
+\ \fBe2image \-r hda1.qcow2 hda1.raw\fR
+.br
+.PP
+This can be useful to write a qcow2 image containing all data to a
+sparse image file where it can be loop mounted, or to a disk partition.
+Note that this may not work with qcow2 images not generated by e2image.
+.PP
+Options
+.B \-b
+.I superblock
+and
+.B \-B
+.I blocksize
+can be used same way as for raw images.
+.PP
+.SH INCLUDING DATA
+Normally
+.B e2image
+only includes fs metadata, not regular file data. The
+.B \-a
+option can be specified to include all data. This will
+give an image that is suitable to use to clone the entire FS or
+for backup purposes. Note that this option only works with the
+raw or QCOW2 formats. The
+.B \-p
+switch may be given to show progress. If the file system is being
+cloned to a flash-based storage device (where reads are very fast and
+where it is desirable to avoid unnecessary writes to reduce write wear
+on the device), the
+.B \-c
+option which cause e2image to try reading a block from the destination
+to see if it is identical to the block which
+.B e2image
+is about to copy. If the block is already the same, the write can be
+skipped. The
+.B \-n
+option will cause all of the writes to be no-ops, and print the blocks
+that would have been written.
+.PP
+.SH OFFSETS
+Normally a filesystem starts at the beginning of a partition, and
+.B e2image
+is run on the partition. When working with image files, you don't
+have the option of using the partition device, so you can specify
+the offset where the filesystem starts directly with the
+.B \-o
+option. Similarly the
+.B \-O
+option specifies the offset that should be seeked to in the destination
+before writing the filesystem.
+.PP
+For example, if you have a
+.B dd
+image of a whole hard drive that contains an ext2 fs in a partition
+starting at 1 MiB, you can clone that fs with:
+.PP
+.br
+\ \fBe2image \-aro 1048576 img /dev/sda1\fR
+.br
+.PP
+Or you can clone a fs into an image file, leaving room in the first
+MiB for a partition table with:
+.PP
+.br
+\ \fBe2image -arO 1048576 /dev/sda1 img\fR
+.br
+.PP
+If you specify at least one offset, and only one file, an in-place
+move will be performed, allowing you to safely move the filesystem
+from one offset to another.
.SH AUTHOR
-.B e2image
+.B e2image
was written by Theodore Ts'o (tytso@mit.edu).
.SH AVAILABILITY
.B e2image
-is part of the e2fsprogs package and is available from anonymous
+is part of the e2fsprogs package and is available from
http://e2fsprogs.sourceforge.net.
.SH SEE ALSO
.BR dumpe2fs (8),