mirror of https://github.com/ventoy/Ventoy
1217 lines
48 KiB
Plaintext
1217 lines
48 KiB
Plaintext
SQUASHFS 4.4 - A squashed read-only filesystem for Linux
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Copyright 2002-2019 Phillip Lougher <phillip@squashfs.org.uk>
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Released under the GPL licence (version 2 or later).
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Welcome to Squashfs version 4.4. Please read the README-4.3 and CHANGES files
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for details of changes.
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Squashfs is a highly compressed read-only filesystem for Linux.
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It uses either gzip/xz/lzo/lz4/zstd compression to compress both files, inodes
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and directories. Inodes in the system are very small and all blocks are
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packed to minimise data overhead. Block sizes greater than 4K are supported
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up to a maximum of 1Mbytes (default block size 128K).
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Squashfs is intended for general read-only filesystem use, for archival
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use (i.e. in cases where a .tar.gz file may be used), and in constrained
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block device/memory systems (e.g. embedded systems) where low overhead is
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needed.
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1. SQUASHFS OVERVIEW
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--------------------
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1. Data, inodes and directories are compressed.
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2. Squashfs stores full uid/gids (32 bits), and file creation time.
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3. In theory files up to 2^64 bytes are supported. In theory filesystems can
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be up to 2^64 bytes.
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4. Inode and directory data are highly compacted, and packed on byte
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boundaries. Each compressed inode is on average 8 bytes in length
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(the exact length varies on file type, i.e. regular file, directory,
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symbolic link, and block/char device inodes have different sizes).
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5. Squashfs can use block sizes up to 1Mbyte (the default size is 128K).
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Using 128K blocks achieves greater compression ratios than the normal
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4K block size.
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6. File duplicates are detected and removed.
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7. Filesystems can be compressed with gzip, xz (lzma2), lzo, lz4
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or zstd compression algorithms.
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1.1 Introducing reproducible builds
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-----------------------------------
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Ever since Mksquashfs was parallelised back in 2006, there
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has been a certain randomness in how fragments and multi-block
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files are ordered in the output filesystem even if the input
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remains the same.
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This is because the multiple parallel threads can be scheduled
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differently between Mksquashfs runs. For example, the thread
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given fragment 10 to compress may finish before the thread
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given fragment 9 to compress on one run (writing fragment 10
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to the output filesystem before fragment 9), but, on the next
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run it could be vice-versa. There are many different scheduling
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scenarios here, all of which can have a knock on effect causing
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different scheduling and ordering later in the filesystem too.
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Mkquashfs doesn't care about the ordering of fragments and
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multi-block files within the filesystem, as this does not
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affect the correctness of the filesystem.
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In fact not caring about the ordering, as it doesn't matter, allows
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Mksquashfs to run as fast as possible, maximising CPU and I/O
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performance.
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But, in the last couple of years, Squashfs has become used in
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scenarios (cloud etc) where this randomness is causing problems.
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Specifically this appears to be where downloaders, installers etc.
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try to work out the differences between Squashfs filesystem
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updates to minimise the amount of data that needs to transferred
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to update an image.
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Additionally, in the last couple of years has arisen the notion
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of reproducible builds, that is the same source and build
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environment etc should be able to (re-)generate identical
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output. This is usually for verification and security, allowing
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binaries/distributions to be checked for malicious activity.
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See https://reproducible-builds.org/ for more information.
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Mksquashfs from release 4.4 now generates reproducible images
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by default. Images generated by Mksquashfs will be ordered
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identically to previous runs if the same input has been supplied,
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and the same options used.
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1.1.1 Dealing with timestamps
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Timestamps embedded in the filesystem will stiil cause differences.
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Each new run of Mksquashfs will produce a different mkfs (make filesystem)
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timestamp in the super-block. Moreover if any file timestamps have changed
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(even if the content hasn't), this will produce a difference.
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To prevent timestamps from producing differences, the following
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new Mksquashfs options have been added.
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1.1.2 -mkfs-time <time>
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This option takes a positive time value (which is the number
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of seconds since the epoch of 1970-01-01 00:00:00 UTC), and sets
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the file system timestamp to that.
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Squashfs uses an unsigned 32-bit integer to store time, and the
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time given should be in that range.
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Obviously you can use the date command to convert dates into
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this value, i.e.
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% mksquashfs source source.sqsh -mkfs-time $(date +%s -d "Jan 1 2019 19:00")
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1.1.3 -all-time <time>
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This option takes a positive time value (which is the number
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of seconds since the epoch of 1970-01-01 00:00:00 UTC), and sets
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the timestamp on all files to that (but not the mkfs time).
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1.1.4 environment variable SOURCE_DATE_EPOCH
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As an alternative to the above command line options, you can
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set the environment variable SOURCE_DATE_EPOCH to a time value.
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This value will be used to set the mkfs time. Also any
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file timestamps which are after SOURCE_DATE_EPOCH will be
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clamped to SOURCE_DATE_EPOCH.
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See https://reproducible-builds.org/docs/source-date-epoch/
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for more information.
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Note: both SOURCE_DATE_EPOCH and the command line options cannot
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be used at the same time. They are different ways to do the same thing,
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and both have FORCE sematics which mean they can't be over-ridden
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elsewhere (otherwise it would defeat the purpose).
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1.1.5 -not-reproducible
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This option tells Mksquashfs that the files do not have to be
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strictly ordered. This will make Mksquashfs behave like version 4.3.
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1.2 Extended attributes (xattrs)
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--------------------------------
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Squashfs filesystems now have extended attribute support. The
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extended attribute implementation has the following features:
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1. Layout can store up to 2^48 bytes of compressed xattr data.
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2. Number of xattrs per inode unlimited.
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3. Total size of xattr data per inode 2^48 bytes of compressed data.
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4. Up to 4 Gbytes of data per xattr value.
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5. Inline and out-of-line xattr values supported for higher performance
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in xattr scanning (listxattr & getxattr), and to allow xattr value
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de-duplication.
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6. Both whole inode xattr duplicate detection and individual xattr value
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duplicate detection supported. These can obviously nest, file C's
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xattrs can be a complete duplicate of file B, and file B's xattrs
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can be a partial duplicate of file A.
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7. Xattr name prefix types stored, allowing the redundant "user.", "trusted."
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etc. characters to be eliminated and more concisely stored.
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8. Support for files, directories, symbolic links, device nodes, fifos
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and sockets.
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Extended attribute support is in 2.6.35 and later kernels. Filesystems
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with extended attributes can be mounted on 2.6.29 and later kernels, the
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extended attributes will be ignored with a warning.
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2. USING SQUASHFS
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-----------------
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Squashfs filesystems should be mounted with 'mount' with the filesystem type
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'squashfs'. If the filesystem is on a block device, the filesystem can be
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mounted directly, e.g.
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%mount -t squashfs /dev/sda1 /mnt
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Will mount the squashfs filesystem on "/dev/sda1" under the directory "/mnt".
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If the squashfs filesystem has been written to a file, the loopback device
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can be used to mount it (loopback support must be in the kernel), e.g.
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%mount -t squashfs image /mnt -o loop
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Will mount the squashfs filesystem in the file "image" under
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the directory "/mnt".
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3. MKSQUASHFS
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-------------
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3.1 Mksquashfs options and overview
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-----------------------------------
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As squashfs is a read-only filesystem, the mksquashfs program must be used to
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create populated squashfs filesystems.
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SYNTAX:mksquashfs source1 source2 ... dest [options] [-e list of exclude
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dirs/files]
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Filesystem build options:
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-comp <comp> select <comp> compression
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Compressors available:
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gzip (default)
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lzo
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lz4
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xz
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zstd
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-b <block_size> set data block to <block_size>. Default 128 Kbytes
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Optionally a suffix of K or M can be given to specify
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Kbytes or Mbytes respectively
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-reproducible build images that are reproducible (default)
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-not-reproducible build images that are not reproducible
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-mkfs-time <time> set mkfs time to <time> which is an unsigned int
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-fstime <time> synonym for mkfs-time
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-all-time <time> set all inode times to <time> which is an unsigned int
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-no-exports don't make the filesystem exportable via NFS
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-no-sparse don't detect sparse files
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-no-xattrs don't store extended attributes
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-xattrs store extended attributes (default)
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-noI do not compress inode table
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-noId do not compress the uid/gid table (implied by -noI)
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-noD do not compress data blocks
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-noF do not compress fragment blocks
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-noX do not compress extended attributes
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-no-fragments do not use fragments
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-always-use-fragments use fragment blocks for files larger than block size
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-no-duplicates do not perform duplicate checking
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-all-root make all files owned by root
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-root-mode <mode> set root directory permissions to octal <mode>
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-force-uid <uid> set all file uids to <uid>
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-force-gid <gid> set all file gids to <gid>
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-nopad do not pad filesystem to a multiple of 4K
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-keep-as-directory if one source directory is specified, create a root
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directory containing that directory, rather than the
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contents of the directory
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Filesystem filter options:
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-p <pseudo-definition> Add pseudo file definition
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-pf <pseudo-file> Add list of pseudo file definitions
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Pseudo definitions should be of the format
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filename d mode uid gid
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filename m mode uid gid
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filename b mode uid gid major minor
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filename c mode uid gid major minor
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filename f mode uid gid command
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filename s mode uid gid symlink
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-sort <sort_file> sort files according to priorities in <sort_file>. One
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file or dir with priority per line. Priority -32768 to
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32767, default priority 0
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-ef <exclude_file> list of exclude dirs/files. One per line
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-wildcards Allow extended shell wildcards (globbing) to be used in
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exclude dirs/files
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-regex Allow POSIX regular expressions to be used in exclude
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dirs/files
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Filesystem append options:
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-noappend do not append to existing filesystem
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-root-becomes <name> when appending source files/directories, make the
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original root become a subdirectory in the new root
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called <name>, rather than adding the new source items
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to the original root
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Mksquashfs runtime options:
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-version print version, licence and copyright message
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-exit-on-error treat normally ignored errors as fatal
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-recover <name> recover filesystem data using recovery file <name>
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-no-recovery don't generate a recovery file
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-quiet no verbose output
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-info print files written to filesystem
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-no-progress don't display the progress bar
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-progress display progress bar when using the -info option
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-processors <number> Use <number> processors. By default will use number of
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processors available
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-mem <size> Use <size> physical memory. Currently set to 4096M
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Optionally a suffix of K, M or G can be given to specify
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Kbytes, Mbytes or Gbytes respectively
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Miscellaneous options:
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-root-owned alternative name for -all-root
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-offset <offset> Skip <offset> bytes at the beginning of <dest>.
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Optionally a suffix of K, M or G can be given to specify
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Kbytes, Mbytes or Gbytes respectively.
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Default 0 bytes.
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-o <offset> synonym for -offset
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-noInodeCompression alternative name for -noI
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-noIdTableCompression alternative name for -noId
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-noDataCompression alternative name for -noD
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-noFragmentCompression alternative name for -noF
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-noXattrCompression alternative name for -noX
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-Xhelp print compressor options for selected compressor
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Compressors available and compressor specific options:
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gzip (default)
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-Xcompression-level <compression-level>
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<compression-level> should be 1 .. 9 (default 9)
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-Xwindow-size <window-size>
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<window-size> should be 8 .. 15 (default 15)
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-Xstrategy strategy1,strategy2,...,strategyN
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Compress using strategy1,strategy2,...,strategyN in turn
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and choose the best compression.
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Available strategies: default, filtered, huffman_only,
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run_length_encoded and fixed
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lzo
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-Xalgorithm <algorithm>
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Where <algorithm> is one of:
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lzo1x_1
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lzo1x_1_11
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lzo1x_1_12
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lzo1x_1_15
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lzo1x_999 (default)
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-Xcompression-level <compression-level>
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<compression-level> should be 1 .. 9 (default 8)
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Only applies to lzo1x_999 algorithm
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lz4
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-Xhc
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Compress using LZ4 High Compression
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xz
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-Xbcj filter1,filter2,...,filterN
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Compress using filter1,filter2,...,filterN in turn
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(in addition to no filter), and choose the best compression.
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Available filters: x86, arm, armthumb, powerpc, sparc, ia64
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-Xdict-size <dict-size>
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Use <dict-size> as the XZ dictionary size. The dictionary size
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can be specified as a percentage of the block size, or as an
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absolute value. The dictionary size must be less than or equal
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to the block size and 8192 bytes or larger. It must also be
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storable in the xz header as either 2^n or as 2^n+2^(n+1).
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Example dict-sizes are 75%, 50%, 37.5%, 25%, or 32K, 16K, 8K
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etc.
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zstd
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-Xcompression-level <compression-level>
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<compression-level> should be 1 .. 22 (default 15)
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Source1 source2 ... are the source directories/files containing the
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files/directories that will form the squashfs filesystem. If a single
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directory is specified (i.e. mksquashfs source output_fs) the squashfs
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filesystem will consist of that directory, with the top-level root
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directory corresponding to the source directory.
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If multiple source directories or files are specified, mksquashfs will merge
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the specified sources into a single filesystem, with the root directory
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containing each of the source files/directories. The name of each directory
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entry will be the basename of the source path. If more than one source
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entry maps to the same name, the conflicts are named xxx_1, xxx_2, etc. where
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xxx is the original name.
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To make this clear, take two example directories. Source directory
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"/home/phillip/test" contains "file1", "file2" and "dir1".
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Source directory "goodies" contains "goodies1", "goodies2" and "goodies3".
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usage example 1:
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%mksquashfs /home/phillip/test output_fs
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This will generate a squashfs filesystem with root entries
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"file1", "file2" and "dir1".
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example 2:
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%mksquashfs /home/phillip/test goodies output_fs
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This will create a squashfs filesystem with the root containing
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entries "test" and "goodies" corresponding to the source
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directories "/home/phillip/test" and "goodies".
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example 3:
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%mksquashfs /home/phillip/test goodies test output_fs
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This is the same as the previous example, except a third
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source directory "test" has been specified. This conflicts
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with the first directory named "test" and will be renamed "test_1".
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Multiple sources allow filesystems to be generated without needing to
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copy all source files into a common directory. This simplifies creating
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filesystems.
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The -keep-as-directory option can be used when only one source directory
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is specified, and you wish the root to contain that directory, rather than
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the contents of the directory. For example:
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example 4:
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%mksquashfs /home/phillip/test output_fs -keep-as-directory
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This is the same as example 1, except for -keep-as-directory.
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This will generate a root directory containing directory "test",
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rather than the "test" directory contents "file1", "file2" and "dir1".
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The Dest argument is the destination where the squashfs filesystem will be
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written. This can either be a conventional file or a block device. If the file
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doesn't exist it will be created, if it does exist and a squashfs
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filesystem exists on it, mksquashfs will append. The -noappend option will
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write a new filesystem irrespective of whether an existing filesystem is
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present.
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3.2 Changing compression algorithm and compression specific options
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-------------------------------------------------------------------
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By default Mksquashfs will compress using the gzip compression
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algorithm. This algorithm offers a good trade-off between compression
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ratio, and memory and time taken to decompress.
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Squashfs also supports LZ4, LZO and XZ (LZMA2) compression. LZO offers worse
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compression ratio than gzip, but is faster to decompress. XZ offers better
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compression ratio than gzip, but at the expense of greater memory and time
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to decompress (and significantly more time to compress). LZ4 is similar
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to LZO, but, support for it is not yet in the mainline kernel, and so
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its usefulness is currently limited to using Squashfs with Mksquashfs/Unsquashfs
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as an archival system like tar.
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If you're not building the squashfs-tools and kernel from source, then
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the tools and kernel may or may not have been built with support for LZ4, LZO or
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XZ compression. The compression algorithms supported by the build of
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Mksquashfs can be found by typing mksquashfs without any arguments. The
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compressors available are displayed at the end of the help message, e.g.
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Compressors available and compressor specific options:
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gzip (default)
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-Xcompression-level <compression-level>
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<compression-level> should be 1 .. 9 (default 9)
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-Xwindow-size <window-size>
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<window-size> should be 8 .. 15 (default 15)
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-Xstrategy strategy1,strategy2,...,strategyN
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Compress using strategy1,strategy2,...,strategyN in turn
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and choose the best compression.
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Available strategies: default, filtered, huffman_only,
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run_length_encoded and fixed
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lzo
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-Xalgorithm <algorithm>
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Where <algorithm> is one of:
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lzo1x_1
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lzo1x_1_11
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lzo1x_1_12
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lzo1x_1_15
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lzo1x_999 (default)
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-Xcompression-level <compression-level>
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<compression-level> should be 1 .. 9 (default 8)
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Only applies to lzo1x_999 algorithm
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lz4
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-Xhc
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Compress using LZ4 High Compression
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xz
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-Xbcj filter1,filter2,...,filterN
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Compress using filter1,filter2,...,filterN in turn
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(in addition to no filter), and choose the best compression.
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Available filters: x86, arm, armthumb, powerpc, sparc, ia64
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-Xdict-size <dict-size>
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Use <dict-size> as the XZ dictionary size. The dictionary size
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can be specified as a percentage of the block size, or as an
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absolute value. The dictionary size must be less than or equal
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to the block size and 8192 bytes or larger. It must also be
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storable in the xz header as either 2^n or as 2^n+2^(n+1).
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Example dict-sizes are 75%, 50%, 37.5%, 25%, or 32K, 16K, 8K
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etc.
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zstd
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-Xcompression-level <compression-level>
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<compression-level> should be 1 .. 22 (default 15)
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If the compressor offers compression specific options (all the compressors now
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have compression specific options except the deprecated lzma1 compressor)
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then these options are also displayed (.i.e. in the above XZ is shown with two
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compression specific options). The compression specific options are, obviously,
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specific to the compressor in question, and the compressor documentation and
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web sites should be consulted to understand their behaviour. In general
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the Mksquashfs compression defaults for each compressor are optimised to
|
|
give the best performance for each compressor, where what constitutes
|
|
best depends on the compressor. For gzip/xz best means highest compression,
|
|
for LZO/LZ4 best means a tradeoff between compression and (de)-compression
|
|
overhead (LZO/LZ4 by definition are intended for weaker processors).
|
|
|
|
3.3 Changing global compression defaults used in mksquashfs
|
|
-----------------------------------------------------------
|
|
|
|
There are a large number of options that can be used to control the
|
|
compression in mksquashfs. By and large the defaults are the most
|
|
optimum settings and should only be changed in exceptional circumstances!
|
|
Note, this does not apply to the block size, increasing the block size
|
|
from the default of 128Kbytes will increase compression (especially
|
|
for the xz compressor) and should increase I/O performance too. However,
|
|
a block size of greater than 128Kbytes may increase latency in certain
|
|
cases (where the filesystem contains lots of fragments, and no locality
|
|
of reference is observed). For this reason the block size default is
|
|
configured to the less optimal 128Kbytes. Users should experiment
|
|
with 256Kbyte sizes or above.
|
|
|
|
The -noI, -noD and -noF options (also -noInodeCompression, -noDataCompression
|
|
and -noFragmentCompression) can be used to force mksquashfs to not compress
|
|
inodes/directories, data and fragments respectively. Giving all options
|
|
generates an uncompressed filesystem.
|
|
|
|
The -no-fragments tells mksquashfs to not generate fragment blocks, and rather
|
|
generate a filesystem similar to a Squashfs 1.x filesystem. It will of course
|
|
still be a Squashfs 4.0 filesystem but without fragments, and so it won't be
|
|
mountable on a Squashfs 1.x system.
|
|
|
|
The -always-use-fragments option tells mksquashfs to always generate
|
|
fragments for files irrespective of the file length. By default only small
|
|
files less than the block size are packed into fragment blocks. The ends of
|
|
files which do not fit fully into a block, are NOT by default packed into
|
|
fragments. To illustrate this, a 100K file has an initial 64K block and a 36K
|
|
remainder. This 36K remainder is not packed into a fragment by default. This
|
|
is because to do so leads to a 10 - 20% drop in sequential I/O performance, as a
|
|
disk head seek is needed to seek to the initial file data and another disk seek
|
|
is need to seek to the fragment block. Specify this option if you want file
|
|
remainders to be packed into fragment blocks. Doing so may increase the
|
|
compression obtained BUT at the expense of I/O speed.
|
|
|
|
The -no-duplicates option tells mksquashfs to not check the files being
|
|
added to the filesystem for duplicates. This can result in quicker filesystem
|
|
generation and appending although obviously compression will suffer badly if
|
|
there is a lot of duplicate files.
|
|
|
|
The -b option allows the block size to be selected, both "K" and "M" postfixes
|
|
are supported, this can be either 4K, 8K, 16K, 32K, 64K, 128K, 256K, 512K or
|
|
1M bytes.
|
|
|
|
3.4 Specifying the UIDs/GIDs used in the filesystem
|
|
---------------------------------------------------
|
|
|
|
By default files in the generated filesystem inherit the UID and GID ownership
|
|
of the original file. However, mksquashfs provides a number of options which
|
|
can be used to override the ownership.
|
|
|
|
The options -all-root and -root-owned (both do exactly the same thing) force all
|
|
file uids/gids in the generated Squashfs filesystem to be root. This allows
|
|
root owned filesystems to be built without root access on the host machine.
|
|
|
|
The "-force-uid uid" option forces all files in the generated Squashfs
|
|
filesystem to be owned by the specified uid. The uid can be specified either by
|
|
name (i.e. "root") or by number.
|
|
|
|
The "-force-gid gid" option forces all files in the generated Squashfs
|
|
filesystem to be group owned by the specified gid. The gid can be specified
|
|
either by name (i.e. "root") or by number.
|
|
|
|
3.5 Excluding files from the filesystem
|
|
---------------------------------------
|
|
|
|
The -e and -ef options allow files/directories to be specified which are
|
|
excluded from the output filesystem. The -e option takes the exclude
|
|
files/directories from the command line, the -ef option takes the
|
|
exlude files/directories from the specified exclude file, one file/directory
|
|
per line.
|
|
|
|
Two styles of exclude file matching are supported: basic exclude matching, and
|
|
extended wildcard matching. Basic exclude matching is a legacy feature
|
|
retained for backwards compatibility with earlier versions of Mksquashfs.
|
|
Extended wildcard matching should be used in preference.
|
|
|
|
3.5.1 Basic exclude matching
|
|
----------------------------
|
|
|
|
Each exclude file is treated as an exact match of a file/directory in
|
|
the source directories. If an exclude file/directory is absolute (i.e.
|
|
prefixed with /, ../, or ./) the entry is treated as absolute, however, if an
|
|
exclude file/directory is relative, it is treated as being relative to each of
|
|
the sources in turn, i.e.
|
|
|
|
%mksquashfs /tmp/source1 source2 output_fs -e ex1 /tmp/source1/ex2 out/ex3
|
|
|
|
Will generate exclude files /tmp/source1/ex2, /tmp/source1/ex1, source2/ex1,
|
|
/tmp/source1/out/ex3 and source2/out/ex3.
|
|
|
|
3.5.2 Extended exclude file handling
|
|
------------------------------------
|
|
|
|
Extended exclude file matching treats each exclude file as a wildcard or
|
|
regex expression. To enable wildcard matching specify the -wildcards
|
|
option, and to enable regex matching specify the -regex option. In most
|
|
cases the -wildcards option should be used rather than -regex because wildcard
|
|
matching behaviour is significantly easier to understand!
|
|
|
|
In addition to wildcards/regex expressions, exclude files can be "anchored" or
|
|
"non-anchored". An anchored exclude is one which matches from the root of the
|
|
directory and nowhere else, a non-anchored exclude matches anywhere. For
|
|
example given the directory hierarchy "a/b/c/a/b", the anchored exclude
|
|
"a/b" will match "a/b" at the root of the directory hierarchy, but
|
|
it will not match the "/a/b" sub-directory within directory "c", whereas a
|
|
non-anchored exclude would.
|
|
|
|
A couple of examples should make this clearer.
|
|
|
|
Anchored excludes
|
|
|
|
1. mksquashfs example image.sqsh -wildcards -e 'test/*.gz'
|
|
|
|
Exclude all files matching "*.gz" in the top level directory "test".
|
|
|
|
2. mksquashfs example image.sqsh -wildcards -e '*/[Tt]est/example*'
|
|
|
|
Exclude all files beginning with "example" inside directories called
|
|
"Test" or "test", that occur inside any top level directory.
|
|
|
|
Using extended wildcards, negative matching is also possible.
|
|
|
|
3. mksquashfs example image.sqsh -wildcards -e 'test/!(*data*).gz'
|
|
|
|
Exclude all files matching "*.gz" in top level directory "test",
|
|
except those with "data" in the name.
|
|
|
|
Non-anchored excludes
|
|
|
|
By default excludes match from the top level directory, but it is
|
|
often useful to exclude a file matching anywhere in the source directories.
|
|
For this non-anchored excludes can be used, specified by pre-fixing the
|
|
exclude with "...".
|
|
|
|
Examples:
|
|
|
|
1. mksquashfs example image.sqsh -wildcards -e '... *.gz'
|
|
|
|
Exclude files matching "*.gz" anywhere in the source directories.
|
|
For example this will match "example.gz", "test/example.gz", and
|
|
"test/test/example.gz".
|
|
|
|
2. mksquashfs example image.sqsh -wildcards -e '... [Tt]est/*.gz'
|
|
|
|
Exclude files matching "*.gz" inside directories called "Test" or
|
|
"test" that occur anywhere in the source directories.
|
|
|
|
Again, using extended wildcards, negative matching is also possible.
|
|
|
|
3. mksquashfs example image.sqsh -wildcards -e '... !(*data*).gz'
|
|
|
|
Exclude all files matching "*.gz" anywhere in the source directories,
|
|
except those with "data" in the name.
|
|
|
|
3.5.3 Exclude files summary
|
|
---------------------------
|
|
|
|
The -e and -ef exclude options are usefully used in archiving the entire
|
|
filesystem, where it is wished to avoid archiving /proc, and the filesystem
|
|
being generated, i.e.
|
|
|
|
%mksquashfs / /tmp/root.sqsh -e proc /tmp/root.sqsh
|
|
|
|
Multiple -ef options can be specified on the command line, and the -ef
|
|
option can be used in conjuction with the -e option.
|
|
|
|
3.6 Appending to squashfs filesystems
|
|
-------------------------------------
|
|
|
|
Running squashfs with the destination directory containing an existing
|
|
filesystem will add the source items to the existing filesystem. By default,
|
|
the source items are added to the existing root directory.
|
|
|
|
To make this clear... An existing filesystem "image" contains root entries
|
|
"old1", and "old2". Source directory "/home/phillip/test" contains "file1",
|
|
"file2" and "dir1".
|
|
|
|
example 1:
|
|
|
|
%mksquashfs /home/phillip/test image
|
|
|
|
Will create a new "image" with root entries "old1", "old2", "file1", "file2" and
|
|
"dir1"
|
|
|
|
example 2:
|
|
|
|
%mksquashfs /home/phillip/test image -keep-as-directory
|
|
|
|
Will create a new "image" with root entries "old1", "old2", and "test".
|
|
As shown in the previous section, for single source directories
|
|
'-keep-as-directory' adds the source directory rather than the
|
|
contents of the directory.
|
|
|
|
example 3:
|
|
|
|
%mksquashfs /home/phillip/test image -keep-as-directory -root-becomes
|
|
original-root
|
|
|
|
Will create a new "image" with root entries "original-root", and "test". The
|
|
'-root-becomes' option specifies that the original root becomes a subdirectory
|
|
in the new root, with the specified name.
|
|
|
|
The append option with file duplicate detection, means squashfs can be
|
|
used as a simple versioning archiving filesystem. A squashfs filesystem can
|
|
be created with for example the linux-2.4.19 source. Appending the linux-2.4.20
|
|
source will create a filesystem with the two source trees, but only the
|
|
changed files will take extra room, the unchanged files will be detected as
|
|
duplicates.
|
|
|
|
3.7 Appending recovery file feature
|
|
-----------------------------------
|
|
|
|
Recovery files are created when appending to existing Squashfs
|
|
filesystems. This allows the original filesystem to be recovered
|
|
if Mksquashfs aborts unexpectedly (i.e. power failure).
|
|
|
|
The recovery files are called squashfs_recovery_xxx_yyy, where
|
|
"xxx" is the name of the filesystem being appended to, and "yyy" is a
|
|
number to guarantee filename uniqueness (the PID of the parent Mksquashfs
|
|
process).
|
|
|
|
Normally if Mksquashfs exits correctly the recovery file is deleted to
|
|
avoid cluttering the filesystem. If Mksquashfs aborts, the "-recover"
|
|
option can be used to recover the filesystem, giving the previously
|
|
created recovery file as a parameter, i.e.
|
|
|
|
mksquashfs dummy image.sqsh -recover squashfs_recovery_image.sqsh_1234
|
|
|
|
The writing of the recovery file can be disabled by specifying the
|
|
"-no-recovery" option.
|
|
|
|
3.8 Pseudo file support
|
|
-----------------------
|
|
|
|
Mksquashfs supports pseudo files, these allow fake files, directories, character
|
|
and block devices to be specified and added to the Squashfs filesystem being
|
|
built, rather than requiring them to be present in the source directories.
|
|
This, for example, allows device nodes to be added to the filesystem without
|
|
requiring root access.
|
|
|
|
Mksquashfs 4.1 added support for "dynamic pseudo files" and a modify operation.
|
|
Dynamic pseudo files allow files to be dynamically created when Mksquashfs
|
|
is run, their contents being the result of running a command or piece of
|
|
shell script. The modifiy operation allows the mode/uid/gid of an existing
|
|
file in the source filesystem to be modified.
|
|
|
|
Mksquashfs 4.4 adds support for Symbolic links.
|
|
|
|
Two Mksquashfs options are supported, -p allows one pseudo file to be specified
|
|
on the command line, and -pf allows a pseudo file to be specified containing a
|
|
list of pseduo definitions, one per line.
|
|
|
|
3.8.1. Creating a dynamic file
|
|
------------------------------
|
|
|
|
Pseudo definition
|
|
|
|
Filename f mode uid gid command
|
|
|
|
mode is the octal mode specifier, similar to that expected by chmod.
|
|
|
|
uid and gid can be either specified as a decimal number, or by name.
|
|
|
|
command can be an executable or a piece of shell script, and it is executed
|
|
by running "/bin/sh -c command". The stdout becomes the contents of
|
|
"Filename".
|
|
|
|
Examples:
|
|
|
|
Running a basic command
|
|
-----------------------
|
|
|
|
/somedir/dmesg f 444 root root dmesg
|
|
|
|
creates a file "/somedir/dmesg" containing the output from dmesg.
|
|
|
|
Executing shell script
|
|
----------------------
|
|
|
|
RELEASE f 444 root root \
|
|
if [ ! -e /tmp/ver ]; then \
|
|
echo 0 > /tmp/ver; \
|
|
fi; \
|
|
ver=`cat /tmp/ver`; \
|
|
ver=$((ver +1)); \
|
|
echo $ver > /tmp/ver; \
|
|
echo -n `cat /tmp/release`; \
|
|
echo "-dev #"$ver `date` "Build host" `hostname`
|
|
|
|
Creates a file RELEASE containing the release name, date, build host, and
|
|
an incrementing version number. The incrementing version is a side-effect
|
|
of executing the shell script, and ensures every time Mksquashfs is run a
|
|
new version number is used without requiring any other shell scripting.
|
|
|
|
The above example also shows that commands can be split across multiple lines
|
|
using "\". Obviously as the script will be presented to the shell as a single
|
|
line, a semicolon is need to separate individual shell commands within the
|
|
shell script.
|
|
|
|
Reading from a device (or fifo/named socket)
|
|
--------------------------------------------
|
|
|
|
input f 444 root root dd if=/dev/sda1 bs=1024 count=10
|
|
|
|
Copies 10K from the device /dev/sda1 into the file input. Ordinarily Mksquashfs
|
|
given a device, fifo, or named socket will place that special file within the
|
|
Squashfs filesystem, the above allows input from these special files to be
|
|
captured and placed in the Squashfs filesystem.
|
|
|
|
3.8.2. Creating a block or character device
|
|
-------------------------------------------
|
|
|
|
Pseudo definition
|
|
|
|
Filename type mode uid gid major minor
|
|
|
|
Where type is either
|
|
b - for block devices, and
|
|
c - for character devices
|
|
|
|
mode is the octal mode specifier, similar to that expected by chmod.
|
|
|
|
uid and gid can be either specified as a decimal number, or by name.
|
|
|
|
For example:
|
|
|
|
/dev/chr_dev c 666 root root 100 1
|
|
/dev/blk_dev b 666 0 0 200 200
|
|
|
|
creates a character device "/dev/chr_dev" with major:minor 100:1 and
|
|
a block device "/dev/blk_dev" with major:minor 200:200, both with root
|
|
uid/gid and a mode of rw-rw-rw.
|
|
|
|
3.8.3. Creating a directory
|
|
---------------------------
|
|
|
|
Pseudo definition
|
|
|
|
Filename d mode uid gid
|
|
|
|
mode is the octal mode specifier, similar to that expected by chmod.
|
|
|
|
uid and gid can be either specified as a decimal number, or by name.
|
|
|
|
For example:
|
|
|
|
/pseudo_dir d 666 root root
|
|
|
|
creates a directory "/pseudo_dir" with root uid/gid and mode of rw-rw-rw.
|
|
|
|
3.8.4. Creating a symbolic link
|
|
-------------------------------
|
|
|
|
Pseudo definition
|
|
|
|
Filename s mode uid gid symlink
|
|
|
|
uid and gid can be either specified as a decimal number, or by name.
|
|
|
|
Note mode is ignored, as symlinks always have "rwxrwxrwx" permissions.
|
|
|
|
For example:
|
|
|
|
symlink s 0 root root example
|
|
|
|
creates a symlink "symlink" to file "example" with root uid/gid.
|
|
|
|
3.8.5. Modifying attributes of an existing file
|
|
-----------------------------------------------
|
|
|
|
Pseudo definition
|
|
|
|
Filename m mode uid gid
|
|
|
|
mode is the octal mode specifier, similar to that expected by chmod.
|
|
|
|
uid and gid can be either specified as a decimal number, or by name.
|
|
|
|
For example:
|
|
|
|
dmesg m 666 root root
|
|
|
|
Changes the attributes of the file "dmesg" in the filesystem to have
|
|
root uid/gid and a mode of rw-rw-rw, overriding the attributes obtained
|
|
from the source filesystem.
|
|
|
|
3.9 Miscellaneous options
|
|
-------------------------
|
|
|
|
The -info option displays the files/directories as they are compressed and
|
|
added to the filesystem. The original uncompressed size of each file
|
|
is printed, along with DUPLICATE if the file is a duplicate of a
|
|
file in the filesystem.
|
|
|
|
The -nopad option informs mksquashfs to not pad the filesystem to a 4K multiple.
|
|
This is performed by default to enable the output filesystem file to be mounted
|
|
by loopback, which requires files to be a 4K multiple. If the filesystem is
|
|
being written to a block device, or is to be stored in a bootimage, the extra
|
|
pad bytes are not needed.
|
|
|
|
4. UNSQUASHFS
|
|
-------------
|
|
|
|
Unsquashfs allows you to decompress and extract a Squashfs filesystem without
|
|
mounting it. It can extract the entire filesystem, or a specific
|
|
file or directory.
|
|
|
|
Unsquashfs can decompress all official Squashfs filesystem versions.
|
|
|
|
The Unsquashfs usage info is:
|
|
|
|
SYNTAX: unsquashfs [options] filesystem [directories or files to extract]
|
|
-v[ersion] print version, licence and copyright information
|
|
-d[est] <pathname> unsquash to <pathname>, default "squashfs-root"
|
|
-q[uiet] no verbose output
|
|
-n[o-progress] don't display the progress bar
|
|
-no[-xattrs] don't extract xattrs in file system
|
|
-x[attrs] extract xattrs in file system (default)
|
|
-u[ser-xattrs] only extract user xattrs in file system.
|
|
Enables extracting xattrs
|
|
-p[rocessors] <number> use <number> processors. By default will use
|
|
number of processors available
|
|
-i[nfo] print files as they are unsquashed
|
|
-li[nfo] print files as they are unsquashed with file
|
|
attributes (like ls -l output)
|
|
-l[s] list filesystem, but don't unsquash
|
|
-ll[s] list filesystem with file attributes (like
|
|
ls -l output), but don't unsquash
|
|
-lln[umeric] -lls but with numeric uids and gids
|
|
-lc list filesystem concisely, displaying only files
|
|
and empty directories. Don't unsquash
|
|
-llc list filesystem concisely with file attributes,
|
|
displaying only files and empty directories.
|
|
Don't unsquash
|
|
-o[ffset] <bytes> skip <bytes> at start of <dest>
|
|
Optionally a suffix of K, M or G can be given to specify
|
|
Kbytes, Mbytes or Gbytes respectively.
|
|
Default 0 bytes.
|
|
-f[orce] if file already exists then overwrite
|
|
-ig[nore-errors] Treat errors writing files to output as non-fatal
|
|
-st[rict-errors] Treat all errors as fatal
|
|
-s[tat] display filesystem superblock information
|
|
-UTC Use UTC rather than local time zone when displaying time
|
|
-mkfs-time display filesystem superblock time
|
|
-fstime synonym for -mkfs-time
|
|
-e[f] <extract file> list of directories or files to extract.
|
|
One per line
|
|
-da[ta-queue] <size> Set data queue to <size> Mbytes. Default 256
|
|
Mbytes
|
|
-fr[ag-queue] <size> Set fragment queue to <size> Mbytes. Default
|
|
256 Mbytes
|
|
-r[egex] treat extract names as POSIX regular expressions
|
|
rather than use the default shell wildcard
|
|
expansion (globbing)
|
|
|
|
Decompressors available:
|
|
gzip
|
|
lzo
|
|
lz4
|
|
xz
|
|
zstd
|
|
|
|
To extract a subset of the filesystem, the filenames or directory
|
|
trees that are to be extracted can be specified on the command line. The
|
|
files/directories should be specified using the full path to the
|
|
files/directories as they appear within the Squashfs filesystem. The
|
|
files/directories will also be extracted to those positions within the specified
|
|
destination directory.
|
|
|
|
The extract files can also be given in a file using the "-e[f]" option.
|
|
|
|
Similarly to Mksquashfs, wildcard matching is performed on the extract
|
|
files. Wildcard matching is enabled by default.
|
|
|
|
Examples:
|
|
|
|
1. unsquashfs image.sqsh 'test/*.gz'
|
|
|
|
Extract all files matching "*.gz" in the top level directory "test".
|
|
|
|
2. unsquashfs image.sqsh '[Tt]est/example*'
|
|
|
|
Extract all files beginning with "example" inside top level directories
|
|
called "Test" or "test".
|
|
|
|
Using extended wildcards, negative matching is also possible.
|
|
|
|
3. unsquashfs image.sqsh 'test/!(*data*).gz'
|
|
|
|
Extract all files matching "*.gz" in top level directory "test",
|
|
except those with "data" in the name.
|
|
|
|
|
|
4.1 Unsquashfs options
|
|
----------------------
|
|
|
|
The "-ls" option can be used to list the contents of a filesystem without
|
|
decompressing the filesystem data itself. The "-lls" option is similar
|
|
but it also displays file attributes (ls -l style output). The "-lln"
|
|
option is the same but displays uids and gids numerically.
|
|
|
|
The "-lc" option is similar to the -ls option except it only displays files
|
|
and empty directories. The -llc option displays file attributes.
|
|
|
|
The "-info" option forces Unsquashfs to print each file as it is decompressed.
|
|
The -"linfo" is similar but it also displays file attributes.
|
|
|
|
The "-dest" option specifies the directory that is used to decompress
|
|
the filesystem data. If this option is not given then the filesystem is
|
|
decompressed to the directory "squashfs-root" in the current working directory.
|
|
|
|
The "-force" option forces Unsquashfs to output to the destination
|
|
directory even if files or directories already exist. This allows you
|
|
to update an existing directory tree, or to Unsquashfs to a partially
|
|
filled directory. Without the "-force" option, Unsquashfs will
|
|
refuse to overwrite any existing files, or to create any directories if they
|
|
already exist. This is done to protect data in case of mistakes, and
|
|
so the "-force" option should be used with caution.
|
|
|
|
The "-stat" option displays filesystem superblock information. This is
|
|
useful to discover the filesystem version, byte ordering, whether it has a NFS
|
|
export table, and what options were used to compress the filesystem, etc.
|
|
|
|
The -mkfs-time option displays the make filesystem time contained
|
|
in the super-block. This is displayed as the number of seconds since
|
|
the epoch of 1970-01-01 00:00:00 UTC.
|
|
|
|
The -UTC option makes Unsquashfs display all times in the UTC time zone
|
|
rather than using the default local time zone.
|
|
|
|
4.2. Dealing with errors
|
|
------------------------
|
|
|
|
Unsquashfs splits errors into two categories: fatal errors and non-fatal
|
|
errors.
|
|
|
|
Fatal errors are those which cause Unsquashfs to abort instantly.
|
|
These are generally due to failure to read the filesystem (corruption),
|
|
and/or failure to write files to the output filesystem, due to I/O error
|
|
or out of space. Generally anything which is unexpected is a fatal error.
|
|
|
|
Non-fatal errors are generally where support is lacking in the
|
|
output filesystem, and it can be considered to be an expected failure.
|
|
This includes the inability to write extended attributes (xattrs) to
|
|
a filesystem that doesn't support them, the inability to create files on
|
|
filesystem that doesn't support them (i.e. symbolic links on VFAT), and the
|
|
inability to execute privileged operations as a user-process.
|
|
|
|
The user may well know the filesystem cannot support certain operations
|
|
and would prefer Unsquashfs to ignore then without aborting.
|
|
|
|
In the past Unsquashfs was much more tolerant of errors, in this
|
|
release a significant number of errors that were non-fatal have been
|
|
hardened to fatal.
|
|
|
|
4.2.1. -ignore-errors
|
|
|
|
This makes Unsquashfs behave like previous versions, and treats more
|
|
errors as non-fatal.
|
|
|
|
4.2.2 -strict-errors
|
|
|
|
This makes Unsquashfs treat every error as fatal, and it will abort
|
|
instantly.
|
|
|
|
5. FILESYSTEM LAYOUT
|
|
--------------------
|
|
|
|
A squashfs filesystem consists of a maximum of nine parts, packed together on a
|
|
byte alignment:
|
|
|
|
---------------
|
|
| superblock |
|
|
|---------------|
|
|
| compression |
|
|
| options |
|
|
|---------------|
|
|
| datablocks |
|
|
| & fragments |
|
|
|---------------|
|
|
| inode table |
|
|
|---------------|
|
|
| directory |
|
|
| table |
|
|
|---------------|
|
|
| fragment |
|
|
| table |
|
|
|---------------|
|
|
| export |
|
|
| table |
|
|
|---------------|
|
|
| uid/gid |
|
|
| lookup table |
|
|
|---------------|
|
|
| xattr |
|
|
| table |
|
|
---------------
|
|
|
|
Compressed data blocks are written to the filesystem as files are read from
|
|
the source directory, and checked for duplicates. Once all file data has been
|
|
written the completed super-block, compression options, inode, directory,
|
|
fragment, export, uid/gid lookup and xattr tables are written.
|
|
|
|
5.1 Compression options
|
|
-----------------------
|
|
|
|
Compressors can optionally support compression specific options (e.g.
|
|
dictionary size). If non-default compression options have been used, then
|
|
these are stored here.
|
|
|
|
5.2 Inodes
|
|
----------
|
|
|
|
Metadata (inodes and directories) are compressed in 8Kbyte blocks. Each
|
|
compressed block is prefixed by a two byte length, the top bit is set if the
|
|
block is uncompressed. A block will be uncompressed if the -noI option is set,
|
|
or if the compressed block was larger than the uncompressed block.
|
|
|
|
Inodes are packed into the metadata blocks, and are not aligned to block
|
|
boundaries, therefore inodes overlap compressed blocks. Inodes are identified
|
|
by a 48-bit number which encodes the location of the compressed metadata block
|
|
containing the inode, and the byte offset into that block where the inode is
|
|
placed (<block, offset>).
|
|
|
|
To maximise compression there are different inodes for each file type
|
|
(regular file, directory, device, etc.), the inode contents and length
|
|
varying with the type.
|
|
|
|
To further maximise compression, two types of regular file inode and
|
|
directory inode are defined: inodes optimised for frequently occurring
|
|
regular files and directories, and extended types where extra
|
|
information has to be stored.
|
|
|
|
5.3 Directories
|
|
---------------
|
|
|
|
Like inodes, directories are packed into compressed metadata blocks, stored
|
|
in a directory table. Directories are accessed using the start address of
|
|
the metablock containing the directory and the offset into the
|
|
decompressed block (<block, offset>).
|
|
|
|
Directories are organised in a slightly complex way, and are not simply
|
|
a list of file names. The organisation takes advantage of the
|
|
fact that (in most cases) the inodes of the files will be in the same
|
|
compressed metadata block, and therefore, can share the start block.
|
|
Directories are therefore organised in a two level list, a directory
|
|
header containing the shared start block value, and a sequence of directory
|
|
entries, each of which share the shared start block. A new directory header
|
|
is written once/if the inode start block changes. The directory
|
|
header/directory entry list is repeated as many times as necessary.
|
|
|
|
Directories are sorted, and can contain a directory index to speed up
|
|
file lookup. Directory indexes store one entry per metablock, each entry
|
|
storing the index/filename mapping to the first directory header
|
|
in each metadata block. Directories are sorted in alphabetical order,
|
|
and at lookup the index is scanned linearly looking for the first filename
|
|
alphabetically larger than the filename being looked up. At this point the
|
|
location of the metadata block the filename is in has been found.
|
|
The general idea of the index is ensure only one metadata block needs to be
|
|
decompressed to do a lookup irrespective of the length of the directory.
|
|
This scheme has the advantage that it doesn't require extra memory overhead
|
|
and doesn't require much extra storage on disk.
|
|
|
|
5.4 File data
|
|
-------------
|
|
|
|
Regular files consist of a sequence of contiguous compressed blocks, and/or a
|
|
compressed fragment block (tail-end packed block). The compressed size
|
|
of each datablock is stored in a block list contained within the
|
|
file inode.
|
|
|
|
To speed up access to datablocks when reading 'large' files (256 Mbytes or
|
|
larger), the code implements an index cache that caches the mapping from
|
|
block index to datablock location on disk.
|
|
|
|
The index cache allows Squashfs to handle large files (up to 1.75 TiB) while
|
|
retaining a simple and space-efficient block list on disk. The cache
|
|
is split into slots, caching up to eight 224 GiB files (128 KiB blocks).
|
|
Larger files use multiple slots, with 1.75 TiB files using all 8 slots.
|
|
The index cache is designed to be memory efficient, and by default uses
|
|
16 KiB.
|
|
|
|
5.5 Fragment lookup table
|
|
-------------------------
|
|
|
|
Regular files can contain a fragment index which is mapped to a fragment
|
|
location on disk and compressed size using a fragment lookup table. This
|
|
fragment lookup table is itself stored compressed into metadata blocks.
|
|
A second index table is used to locate these. This second index table for
|
|
speed of access (and because it is small) is read at mount time and cached
|
|
in memory.
|
|
|
|
5.6 Uid/gid lookup table
|
|
------------------------
|
|
|
|
For space efficiency regular files store uid and gid indexes, which are
|
|
converted to 32-bit uids/gids using an id look up table. This table is
|
|
stored compressed into metadata blocks. A second index table is used to
|
|
locate these. This second index table for speed of access (and because it
|
|
is small) is read at mount time and cached in memory.
|
|
|
|
5.7 Export table
|
|
----------------
|
|
|
|
To enable Squashfs filesystems to be exportable (via NFS etc.) filesystems
|
|
can optionally (disabled with the -no-exports Mksquashfs option) contain
|
|
an inode number to inode disk location lookup table. This is required to
|
|
enable Squashfs to map inode numbers passed in filehandles to the inode
|
|
location on disk, which is necessary when the export code reinstantiates
|
|
expired/flushed inodes.
|
|
|
|
This table is stored compressed into metadata blocks. A second index table is
|
|
used to locate these. This second index table for speed of access (and because
|
|
it is small) is read at mount time and cached in memory.
|
|
|
|
5.8 Xattr table
|
|
---------------
|
|
|
|
The xattr table contains extended attributes for each inode. The xattrs
|
|
for each inode are stored in a list, each list entry containing a type,
|
|
name and value field. The type field encodes the xattr prefix
|
|
("user.", "trusted." etc) and it also encodes how the name/value fields
|
|
should be interpreted. Currently the type indicates whether the value
|
|
is stored inline (in which case the value field contains the xattr value),
|
|
or if it is stored out of line (in which case the value field stores a
|
|
reference to where the actual value is stored). This allows large values
|
|
to be stored out of line improving scanning and lookup performance and it
|
|
also allows values to be de-duplicated, the value being stored once, and
|
|
all other occurences holding an out of line reference to that value.
|
|
|
|
The xattr lists are packed into compressed 8K metadata blocks.
|
|
To reduce overhead in inodes, rather than storing the on-disk
|
|
location of the xattr list inside each inode, a 32-bit xattr id
|
|
is stored. This xattr id is mapped into the location of the xattr
|
|
list using a second xattr id lookup table.
|
|
|
|
6. AUTHOR INFO
|
|
--------------
|
|
|
|
Squashfs was written by Phillip Lougher, email phillip@squashfs.org.uk,
|
|
in Chepstow, Wales, UK. If you like the program, or have any problems,
|
|
then please email me, as it's nice to get feedback!
|