Chisel is a software tool for carving and cutting Debian packages!
It is built on the idea of package slices - minimal, complimentary and loosely coupled sets of files, based on the package’s metadata and content. Slices are basically subsets of the Debian packages, with their own content and set of dependencies to other internal and external slices.
This image depicts a simple case, where both packages A and B are deconstructed into multiple slices. At a package level, B depends on A, but in reality, there might be files in A that B doesn’t actually need (eg. A_slice3 isn’t needed for B to function properly). With this slice definition in place, Chisel is able to extract a highly-customized and specialized Slice of the Ubuntu distribution, which one could see as a block of stone from which we can carve and extract small and relevant parts we need to run our applications. It is ideal to support the creation of smaller but equally functional container images.
“The sculpture is already complete within the marble block, before I start my work. It is already there, I just have to chisel away the superfluous material.”
- Michelangelo
In the end, it’s like having a slice of Ubuntu - get just what you need. You can have your cake and eat it too!
To install the latest version of Chisel, run the following command:
go install github.com/canonical/chisel/cmd/chisel@latestChisel is invoked using chisel <command>. To get more information:
- To see a help summary, type
chisel -h. - To see a short description of all commands, type
chisel help --all. - To see details for one command, type
chisel help <command>orchisel <command> -h.
Chisel relies on a database of slices that are indexed per Ubuntu release.
chisel cut --release ubuntu-22.04 --root myrootfs/ libgcc-s1_libs libssl3_libsIn this example, Chisel would look into the Ubuntu Jammy archives, fetch the provided packages and install only the desired slices into the myrootfs folder, according to the slice definitions available in the "ubuntu-22.04" chisel-releases branch.
As mentioned above, Chisel relies on package slices. These slices need to
be defined prior to the execution of the chisel command.
By default, Chisel will look into its central chisel-releases database, where package slices are defined and indexed by Ubuntu release. A release is identified by the branch name. For example:
chisel cut --release ubuntu-22.10 ...will tell Chisel to look for a chisel.yaml file in the "ubuntu-22.10" branch
of the chisel-releases
repository. This file will in turn instruct Chisel to fetch the requested
package slices, as defined in the same branch, from the corresponding Kinetic
release in the Ubuntu archives.
Alternatively, one can also point Chisel to a custom and local Chisel release by specifying a path instead of a branch name. For example:
chisel cut --release release/ ...Each Chisel release must have one "chisel.yaml" file.
chisel.yaml:
format: <chiselReleaseFormat>
archives:
ubuntu:
# Ubuntu archive for Chisel to look into
version: <ubuntuRelease>
# categories/components of the Ubuntu archive to look into
components: [<componentName>, ...]
# pockets/suites of the Ubuntu archive to look into
suites: [<pocket>, ...]Example:
format: v1
archives:
ubuntu:
version: 22.04
components: [main, universe]
suites: [jammy, jammy-security, jammy-updates]
public-keys: [ubuntu-archive-key-2018]
public-keys:
# Ubuntu Archive Automatic Signing Key (2018) <ftpmaster@ubuntu.com>
# rsa4096/f6ecb3762474eda9d21b7022871920d1991bc93c 2018-09-17T15:01:46Z
ubuntu-archive-key-2018:
id: "871920D1991BC93C"
armor: |
-----BEGIN PGP PUBLIC KEY BLOCK-----
mQINBFufwdoBEADv/Gxytx/LcSXYuM0MwKojbBye81s0G1nEx+lz6VAUpIUZnbkq
dXBHC+dwrGS/CeeLuAjPRLU8AoxE/jjvZVp8xFGEWHYdklqXGZ/gJfP5d3fIUBtZ
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=9AdM
-----END PGP PUBLIC KEY BLOCK-----There can be only one slice definitions file for each Ubuntu package, per Chisel release. All of the slice definitions files must be placed under a "slices" folder, and follow the same structure. For example:
slices/B.yaml:
# (req) Name of the package.
# The slice definition file should be named accordingly (eg. "openssl.yaml")
package: B
# (req) List of slices
slices:
# (req) Name of the slice
slice2:
# (opt) Optional list of slices that this slice depends on
essential:
- A_slice1
# (req) The list of files, from the package, that this slice will install
contents:
/path/to/content:
/path/to/another/multiple*/content/**:
/path/to/moved/content: {copy: /bin/original}
/path/to/link: {symlink: /bin/mybin}
/path/to/new/dir: {make: true}
/path/to/file/with/text: {text: "Some text"}
/path/to/mutable/file/with/default/text: {text: FIXME, mutable: true}
/path/to/temporary/content: {until: mutate}
# (opt) Mutation scripts, to allow for the reproduction of maintainer scripts,
# based on Starlark (https://github.com/google/starlark-go)
mutate: |
foo = content.read("/path/to/temporary/content")
content.write("/path/to/mutable/file/with/default/text", foo)Example:
package: mypkg
slices:
bins:
essential:
- mypkg_config
contents:
/bin/mybin:
/bin/moved: {copy: /bin/original}
/bin/linked: {symlink: /bin/mybin}
config:
contents:
/etc/mypkg.conf: {text: "The configuration."}
/etc/mypkg.d/: {make: true}To find more examples of real slice definitions files (and contribute your own), please go to https://github.com/canonical/chisel-releases.
As depicted in the example above, the paths listed under a slice's contents can have additional information for identifying the kind of content to expect:
- make: a
trueorfalseboolean value to specify whether the path must be created or not. Example:/etc/mypkg.d/: {make: true}instructs Chisel to create the directory "/etc/mypkg.d/" (with parent directories). NOTE: the provided path must end with "/" formaketo be valid. - mode: a 32-bit unsigned integer representing the path mode. Example:
/etc/dir/sub/: {make: true, mode: 01777}instructs Chisel to create the directory "/etc/dir/sub/" with mode "01777". - copy: a string referring to the original path of the content being
copied. Example:
/bin/moved: {copy: /bin/original}instructs Chisel to copy the package's "/bin/original" file onto "/bin/moved". - text: a sequence of characters to be written to the provided file path.
Example:
/tmp/file1: {text: data1}will instruct Chisel to write "data1" into the file "/tmp/file1". - symlink: a string referring to the original path (source) of the content
being linked. Example:
/bin/linked: {symlink: /bin/mybin}will instruct Chisel to create the symlink "/bin/linked", which points to an existing file "/bin/mybin". - mutable: a
trueorfalseboolean value to specify whether the content is mutable, i.e. it can be changed after being extracted from the deb. Example:/tmp/file1: {text: data1, mutable: true}instructs Chisel to populate "/tmp/file1" with "data1", while also letting Chisel know that this file's content can be mutated via a mutation script. - until: accepts a
mutatevalue to say that the specified content shall be removed by Chisel after the mutation scripts are executed. Example:/tmp/file1: {text: data1, until: mutate}instructs Chisel to populate the file "/tmp/file1" with "data1" at installation time, but to then remove it right after the slice's mutation scripts are executed. NOTE: while this option can be combined with globs (eg./tmp/file*: {until: mutate}), it cannot be used to remove non-empty directories. - arch: accepts a list of known architectures for identifying contents
which are only available for certain architectures. Example:
/usr/bin/hello: {arch: amd64}will instruct Chisel to extract and install the "/usr/bin/hello" file only when chiselling an amd64 filesystem. - generate: accepts a
manifestvalue to instruct Chisel to generate the manifest files in the directory. Example:/var/lib/chisel/**:{generate: manifest}. NOTE: the provided path has to be of the form/slashed/path/to/dir/**and no wildcards can appear apart from the trailing**.
- Preserve ownerships when possible
- GPG signature checking for archives
- Use a fake server for the archive tests
- Functional tests
No, package names must reflect the package names in the archive, so that there's a single namespace to remember and respect.
The mapping is manual for now. Let us know and we'll fix it.
Not at the moment, but maybe eventually.
Not at the moment, but eventually.
Yes, but see below.
Yes, as long as either both slices are part of the same package, or the path is not extracted from a package at all (not copied) and the explicit inline definitions match exactly.
Not right now, but it will be supported.