dwarfs
image mountpoint [options...]
dwarfs
is the FUSE driver for DwarFS, a highly compressed, read-only file
system. As such, it's similar to file systems like SquashFS, cramfs or CromFS,
but it has some distinct features.
Other than that, it's pretty straightforward to use. Once you've created a file system image using mkdwarfs(1), you can mount it with:
dwarfs image.dwarfs /path/to/mountpoint
In addition to the regular FUSE options, dwarfs
supports the following
options:
-
-o cachesize=
value: Size of the block cache, in bytes. You can append suffixes (k
,m
,g
) to specify the size in KiB, MiB and GiB, respectively. Note that this is not the upper memory limit of the process, as there may be blocks in flight that are not stored in the cache. Also, each block that hasn't been fully decompressed yet will carry decompressor state along with it, which can use a significant amount of additional memory. For more details, see mkdwarfs(1). -
-o blocksize=
value: Size reported for files inst_blksize
. You can use this to optimize throughput in certain situations. -
-o readahead=
value: How much data to read ahead when receiving a read request. This is experimental and disabled by default. If you perform a lot of large, sequential reads, throughput may benefit from enabling readahead. -
-o workers=
value: Number of worker threads to use for decompressing blocks. If you have a lot of CPUs, increasing this number can help speed up access to files in the filesystem. -
-o decratio=
value: The ratio over which a block is fully decompressed. Blocks are only decompressed partially, so each block has to carry the decompressor state with it until it is fully decompressed. However, if a certain fraction of the block has already been decompressed, it may be beneficial to just decompress the rest and free the decompressor state. This value determines the ratio at which we fully decompress the block rather than keeping a partially decompressed block. A value of 0.8 means that as long as we've decompressed less than 80% of the block, we keep the partially decompressed block, but if we've decompressed more then 80%, we'll fully decompress it. -
-o offset=
value|auto
: Specify the byte offset at which the filesystem is located in the image, or useauto
to detect the offset automatically. This is only useful for images that have some header located before the actual filesystem data. -
-o mlock=none
|try
|must
: Set this totry
ormust
instead of the defaultnone
to try or requiremlock()
ing of the file system metadata into memory. -
-o enable_nlink
: Set this option if you want correct hardlink counts for regular files. If this is not specified, the hardlink count will be 1. Enabling this will slow down the initialization of the fuse driver as the hardlink counts will be determined by a full file system scan (it only takes about a millisecond to scan through 100,000 files, so this isn't dramatic). The fuse driver will also consume more memory to hold the hardlink count table. This will be 4 bytes for every regular file inode. -
-o readonly
: Show all file system entries as read-only. By default, DwarFS will preserve the original writability, which is obviously a lie as it's a read-only file system. However, this is needed for overlays to work correctly, as otherwise directories are seen as read-only by the overlay and it'll be impossible to create new files even in a writeable overlay. If you don't use overlays and want the file system to reflect its read-only state, you can set this option. -
-o (no_)cache_image
: By default,dwarfs
tries to ensure that the compressed file system image will not be cached by the kernel (i.e. the default is-o no_cache_image
). This will reduce the memory consumption of the FUSE driver to slightly more than thecachesize
, plus the size of the metadata block. This usually isn't a problem, especially when the image is stored on an SSD, but if you want to maximize performance it can be beneficial to use-o cache_image
to keep the compressed image data in the kernel cache. -
-o (no_)cache_files
: By default, files in the mounted file system will be cached by the kernel (i.e. the default is-o cache_files
). This will significantly improve performance when accessing the same files over and over again, especially if the data from these files has been (partially) evicted from the block cache. By setting the-o no_cache_files
option, you can force the fuse driver to not use the kernel cache for file data. If you're short on memory and only infrequently accessing files, this can be worth trying, even though it's likely that the kernel will already do the right thing even when the cache is enabled. -
-o debuglevel=
name: Use this for different levels of verbosity along with either the-f
or-d
FUSE options. This can give you some insight over what the file system driver is doing internally, but it's mainly meant for debugging and thedebug
andtrace
levels in particular will slow down the driver. This defaults toinfo
in foreground mode (-f
,-d
) and towarn
in background mode. -
-o tidy_strategy=
name: Use one of the following strategies to tidy the block cache:-
none
: This is the default strategy that never tidies the cache. Blocks will only be evicted from the cache if the cache is full and a more recently used block is added to the cache. -
time
: Time based tidying strategy. Everytidy_interval
, the block cache is traversed and all blocks that have not been accessed for more thentidy_max_age
will be removed. -
swap
: Swap based tidying strategy. Everytidy_interval
, the block cache is traversed and all blocks that have been fully or partially swapped out by the kernel will be removed.
-
-
-o tidy_interval=
time: Used only iftidy_strategy
is notnone
. This is the interval at which the cache tidying thread wakes up to look for blocks that can be removed from the cache. This must be an integer value. Suffixesms
,s
,m
,h
are supported. If no suffix is given, the value will be assumed to be in seconds. -
-o tidy_max_age=
time: Used only iftidy_strategy
istime
. A block will be removed from the cache if it hasn't been used for this time span. This must be an integer value. Suffixesms
,s
,m
,h
are supported. If no suffix is given, the value will be assumed to be in seconds. -
-o seq_detector=
num: Threshold, in blocks, for the sequential access detector. If the most recently accessed num blocks are sequential, then the block following the sequence is prefetched. This can significantly increase throughput if data is accessed sequentially. A value of0
completely disables detection and prefetching. -
-o perfmon=
name[+
name...]: Enable performance monitoring for the list of+
-separated components. This option is only available if the project was built with performance monitoring enabled. Available components includefuse
,filesystem_v2
,inode_reader_v2
andblock_cache
. -
-o perfmon_trace=
file: Write JSON trace data for all components enabled by--perfmon
to this file when the process exits. -
--man
: If the project was built with support for built-in manual pages, this option will show the manual page. If supported by the terminal and a suitable pager (e.g.less
) is found, the manual page is displayed in the pager.
There's two particular FUSE options that you'll likely need at some
point, e.g. when trying to set up an overlayfs
mount on top of
a DwarFS image:
-o allow_root
and-o allow_other
: These will ensure that the mounted file system can be read by eitherroot
or any other user in addition to the user that started the fuse driver. So if you're runningdwarfs
as a non-privileged user, you want to-o allow_root
in caseroot
needs access, for example when you're trying to useoverlayfs
along withdwarfs
. If you're runningdwarfs
asroot
, you needallow_other
.
This should be relatively straightforward if you're already familiar
with adding other FUSE file systems to /etc/fstab
. An entry looks
like this:
dwarfs#/path/to/image.dwarfs /mnt/mountpoint fuse noauto,defaults,user,cachesize=1g 0 0
The first bit before the #
tells mount
to look for mount.dwarfs
,
which is installed as a symbolic link to the DwarFS FUSE driver. The
part after the #
looks pretty much like any other fstab
entry.
It starts with the path of the file system image to mount, followed
by the mount point, followed by the file system type (fuse
), and
finally followed by a set of options.
If you want to automatically mount a DwarFS file system, you'll also
need the allow_other
option to make sure non-privileged users will
be able to access the data. If you want to work with overlays, you'll
need either allow_other
or allow_root
. For any of these options
to work, you will have to set user_allow_other
in /etc/fuse.conf
.
This will show you how to set up a read/write layer on top of a read-only DwarFS image, which can be incredibly handy if you want to be able to partially and/or temporarily modify/amend the contents of your read-only image.
My primary use case for this feature is keeping over 1000 Perl versions in the DwarFS image and then setting up a read/write layer to be able to install additional modules for each of these versions. When I didn't need the modules anymore, I could just completely wipe the read/write layer and get my pristine original set of Perl versions back.
Here's what you need to do:
-
Create a set of directories. In my case, these are all located in
/tmp/perl
as this was the original install location.cd /tmp/perl mkdir install-ro mkdir install-rw mkdir install-work mkdir install
-
Mount the DwarFS image.
-o allow_root
is needed to make sureoverlayfs
has access to the mounted file system. In order to use-o allow_root
, you may have to uncomment or adduser_allow_other
in/etc/fuse.conf
.dwarfs perl-install.dwarfs install-ro -o allow_root
-
Now set up
overlayfs
.sudo mount -t overlay overlay -o lowerdir=install-ro,upperdir=install-rw,workdir=install-work install
-
That's it. You should now be able to access a writeable version of your DwarFS image in
install
.
You can go even further than that. Say you have different sets of
modules that you regularly want to layer on top of the base DwarFS
image. In that case, you can simply build a new DwarFS image from
the read-write directory after unmounting the overlayfs
, and
selectively add this by passing a colon-separated list to the
lowerdir
option when setting up the overlayfs
mount:
sudo mount -t overlay overlay -o lowerdir=install-ro:install-modules install
If you want this merged overlay to be writable, just add in the
upperdir
and workdir
options from before again.
Written by Marcus Holland-Moritz.
Copyright (C) Marcus Holland-Moritz.
mkdwarfs(1), dwarfsextract(1), dwarfsck(1), dwarfs-format(5)