SquashFS is a highly compressed, read only file system often used as a root fs on embedded devices, live systems or simply as a compressed archive format.
Think of it as a .tar.gz that you can mount (or XZ, LZO, LZ4, ZSTD).
This project originally started out as a fork of squashfs-tools 4.3, after encountering some short comings and realizing that there have been no updates on the SourceForge site or mailing list for a long time. Even before the first public release, the fork was replaced with a complete re-write after growing frustrated with the existing code base. For lack of a better name, and because the original appeared to be unmaintained at the time, the name squashfs-tools-ng was kept, although the published code base technically never had any connection to squashfs-tools.
Maintenance of the original squashfs-tools has since resumed, squashfs-tools version 4.4 was released and continues to be maintained in parallel. The utilities provided by squashfs-tools-ng offer alternative tooling and are intentionally named differently, so both packages can be installed side by side.
The actual guts of squashfs-tools-ng are encapsulated in a library with a generic API designed to make SquashFS available to other applications as an embeddable, extensible archive format (or to simply read, write or manipulate SquashFS file systems).
The utility programs are largely command line wrappers around the library. The following tools are provided:
gensquashfs
can be used to produce SquashFS images fromgen_init_cpio
like file listings or simply pack an input directory. Can use an SELinux contexts file (see selabel_file(5)) to generate SELinux labels.rdsquashfs
can be used to inspect and unpack SquashFS images.sqfs2tar
can turn a SquashFS image into a tarball, written to stdout.tar2sqfs
can turn a tarball (read from stdin) into a SquashFS image.sqfsdiff
can compare the contents of two SquashFS images.
The library and the tools that produce SquashFS images are designed to operate deterministically. Same input will produce byte-for-byte identical output. Failure to do so is treated as a critical bug.
A number of Linux distributions already offer squashfs-tools-ng through their package management system. Replogy maintains an up to date list:
Pre-compiled binary packages for Windows are available here:
https://infraroot.at/pub/squashfs/windows
Those packages contain the binaries for the tools, the SquashFS library and pre-compiled dependency libraries (zstd, lzo, lzma; others are built in).
The binary package does not contain any source code. See below on how to obtain and compile the source for squashfs-tools-ng. The corresponding source code from which the 3rd party libraries have been built is also available for download at the above location.
The headers and import libraries to build applications that use libsquashfs are included. For convenience, the pre-compiled, 3rd party dependency libraries also come with headers and import libraries.
In short: libsquashfs is LGPLv3 licensed, the utility programs are GPLv3.
Some 3rd party source code is included with more permissive licenses, some of which is actually compiled into libsquashfs. Copyright notices for those must be included when distributing either source or binaries of squashfs-tools-ng.
See COPYING.md for more detailed information.
This package attempts to use Semantic Versioning. A changelog is maintained that summarizes changes between releases.
Releases are tagged and gpg signed in the git tree and official release tarballs are generated using Autotools.
The git master
branch currently contains ongoing development for a
future 2.0
release.
The latest stable version is 1.2.0
, maintained in a fixes-1.2.0
branch.
Bug fixes that also affect the previous 1.1.0
minor version are back-ported to
a fixes-1.1.0
branch with occasionally patch level releases. The latest
release from this branch is 1.1.4
.
Older versions are no longer supported. Fixes were previously backported to
the fixes-1.0.0
branch, the final release is 1.0.7
.
It is likely that support for 1.1.x
will also be dropped after version 2.0
.
Official release tarballs can be obtained here:
https://infraroot.at/pub/squashfs
In between patch level releases, bug fixes are continuously published as
individual patch files in fixes-<version>
directories.
The official git tree is available at the following locations:
https://github.com/AgentD/squashfs-tools-ng
https://git.infraroot.at/squashfs-tools-ng.git
Those locations are kept in sync and the former is a GitHub project that also accepts and handles issues & pull requests.
If you are working on an official release tarball, you can build the package like every autotools based package:
./configure
make
make install
If you work on the git tree, you need to bootstrap the build system first:
./autogen.sh
If Doxygen is available, a reference manual can be built as follows:
make doxygen-doc
The pre-compiled binary packages for Windows are built using a helper script that uses a MinGW cross toolchain to build squashfs-tools-ng and any of the required dependencies:
./mkwinbins.sh
An high-level overview of the source code and architecture can be found here.
The SquashFS format supports compression using LZO. The liblzo2
library
itself is released under the GNU GPL, version 2.
To make the libsquashfs
library available as an LGPL library, it cannot be
linked against liblzo2
, neither statically nor dynamically.
This legal problem has been solved using the following technical measure:
libsquashfs
, as of right now, does not support LZO compression.- The
libcommon
helper library has an implementation of anliblzo2
based compressor. This library and the tools that use it are released under the GPL.
This way, the tools themselves do support LZO compression seamlessly, while
the libsquashfs
library does not.
The GitHub project for squashfs-tools-ng is registered with Travis-CI and Coverity Scan.
The Travis-CI page shows the current build status for various system configurations for the latest commit on master, as well as pull requests on the GitHub project page.
The Coverity Scan page shows details for static analysis runs on the code, which are triggered manually and thus run less frequently.
A documentation of the SquashFS on-disk format in plain text format can be found in the documentation directory, which is based on an online version that can be found here:
https://dr-emann.github.io/squashfs/
The closest thing to an official web site can be found here:
https://infraroot.at/projects/squashfs-tools-ng/index.html
This location also hosts the Doxygen reference manual for the latest release.
There is currently no official mailing list. So far I used the squashfs-tools mailing list on SourceForge for announcements and I will continue to do so until I am booted off.