LURE uses build scripts similar to the AUR's PKGBUILDs. This is the documentation for those scripts.
Allowing LURE to run on different distros provides some challenges. For example, some distros use different names for their packages. This is solved using distro overrides. Any variable or function used in a LURE build script may be overridden based on distro and CPU architecture. The way you do this is by appending the distro and/or architecture to the end of the name. For example, ITD depends on the pactl
command as well as DBus and BlueZ. These are named somewhat differently on different distros. For ITD, I use the following for the dependencies:
deps=('dbus' 'bluez' 'pulseaudio-utils')
deps_arch=('dbus' 'bluez' 'libpulse')
deps_opensuse=('dbus-1' 'bluez' 'pulseaudio-utils')
Appending arch
and opensuse
to the end causes LURE to use the appropriate array based on the distro. If on Arch Linux, it will use deps_arch
. If on OpenSUSE, it will use deps_opensuse
, and if on anything else, it will use deps
.
Names are checked in the following order:
- $name_$architecture_$distro
- $name_$distro
- $name_$architecture
- $name
Distro detection is performed by reading the /usr/lib/os-release
and /etc/os-release
files.
Inside the os-release
file, there is a list of "like" distros. LURE takes this into account. For example, if a script contains deps_debian
but not deps_ubuntu
, Ubuntu builds will use deps_debian
because Ubuntu is based on debian.
Most specificity is preferred, so if both deps_debian
and deps_ubuntu
is provided, Ubuntu and all Ubuntu-based distros will use deps_ubuntu
while Debian and all Debian-based distros
that are not Ubuntu-based will use deps_debian
.
Like distros are disabled when using the LURE_DISTRO
environment variable.
Any variables marked with (*)
are required
The name
variable contains the name of the package described by the script.
The version
variable contains the version of the package. This should be the same as the version used by the author upstream.
Versions are compared using the rpmvercmp algorithm.
The release
number is meant to differentiate between different builds of the same package version, such as if the script is changed but the version stays the same. The release
must be an integer.
The epoch
number forces the package to be considered newer than versions with a lower epoch. It is meant to be used if the versioning scheme can't be used to determine which package is newer. Its use is discouraged and it should only be used if necessary. The epoch
must be a positive integer.
The desc
field contains the description for the package. It should not contain any newlines.
The homepage
field contains the URL to the website of the project packaged by this script.
The maintainer
field contains the name and email address of the person maintaining the package. Example:
Elara Musayelyan <[email protected]>
While LURE does not require this field to be set, Debian has deprecated unset maintainer fields, and may disallow their use in .deb
packages in the future.
The architectures
array contains all the architectures that this package supports. These match Go's GOARCH list, except for a few differences.
The all
architecture will be translated to the proper term for the packaging format. For example, it will be changed to noarch
if building a .rpm
, or any
if building an Arch package.
Since multiple variations of the arm
architecture exist, the following values should be used:
arm5
: armv5
arm6
: armv6
arm7
: armv7
LURE will attempt to detect which variant your system is using by checking for the existence of various CPU features. If this yields the wrong result or if you simply want to build for a different variant, the LURE_ARM_VARIANT
variable should be set to the ARM variant you want. Example:
LURE_ARM_VARIANT=arm5 lure install ...
The licenses
array contains the licenses used by this package. In order to standardize license names, values should be SPDX Identifiers such as Apache-2.0
, MIT
, and GPL-3.0-only
. If the project uses a license that is not standardized in SPDX, use the value Custom
. If the project has multiple nonstandard licenses, include Custom
as many times as there are nonstandard licenses.
The provides
array specifies what features the package provides. For example, if two packages build ffmpeg
with different build flags, they should both have ffmpeg
in the provides
array.
The conflicts
array contains names of packages that conflict with the one built by this script. If two different packages contain the executable for ffmpeg
, they cannot be installed at the same time, so they conflict. The provides
array will also be checked, so this array generally contains the same values as provides
.
The deps
array contains the dependencies for the package. LURE repos will be checked first, and if the packages exist there, they will be built and installed. Otherwise, they will be installed from the system repos by your package manager.
The build_deps
array contains the dependencies that are required to build the package. They will be installed before the build starts. Similarly to the deps
array, LURE repos will be checked first.
The opt_deps
array contains optional dependencies for the package. A description can be added after ": ", but it's not required.
opt_deps_arch=(
'git: Download git repositories'
'aria2: Download files'
)
The replaces
array contains the packages that are replaced by this package. Generally, if package managers find a package with a replaces
field set, they will remove the listed package(s) and install that one instead. This is only useful if the packages are being stored in a repo for your package manager.
The sources
array contains URLs which are downloaded into $srcdir
before the build starts.
If the URL provided is an archive or compressed file, it will be extracted. To disable this, add the ~archive=false
query parameter. Example:
Extracted:
https://example.com/archive.tar.gz
Not extracted:
https://example.com/archive.tar.gz?~archive=false
If the URL scheme starts with git+
, the source will be downloaded as a git repo. The git download mode supports multiple parameters:
~rev
: Specify which revision of the repo to check out.~depth
: Specify what depth should be used when cloning the repo. Must be an integer.~name
: Specify the name of the directory into which the git repo should be cloned.~recursive
: If set to true, submodules will be cloned recursively. It is false by default.
Examples:
git+https://gitea.elara.ws/Elara6331/itd?~rev=resource-loading&~depth=1
git+https://gitea.elara.ws/lure/lure?~rev=v0.0.1&~recursive=true
The checksums
array must be the same length as the sources
array. It contains checksums for the source files. The files are checked against the checksums and the build fails if they don't match.
By default, checksums are expected to be sha256. To change the algorithm, add it before the hash with a colon in between. For example, md5:bc0c6f5dcd06bddbca9a0163e4c9f2e1
. The following algorithms are currently supported: sha256
, sha224
, sha512
, sha384
, sha1
, and md5
.
To skip the check for a particular source, set the corresponding checksum to SKIP
.
The backup
array contains files that should be backed up when upgrading and removing. The exact behavior of this depends on your package manager. All files within this array must be full destination paths. For example, if there's a config called config
in /etc
that you want to back up, you'd set it like so:
backup=('/etc/config')
The scripts
variable contains a Bash associative array that specifies the location of various scripts relative to the build script. Example:
scripts=(
['preinstall']='preinstall.sh'
['postinstall']='postinstall.sh'
['preremove']='preremove.sh'
['postremove']='postremove.sh'
['preupgrade']='preupgrade.sh'
['postupgrade']='postupgrade.sh'
['pretrans']='pretrans.sh'
['posttrans']='posttrans.sh'
)
Note: The quotes are required due to limitations with the bash parser used.
The preupgrade
and postupgrade
scripts are only available in .apk
and Arch Linux packages.
The pretrans
and posttrans
scripts are only available in .rpm
packages.
The rest of the scripts are available in all packages.
This section documents user-defined functions that can be added to build scripts. Any functions marked with (*)
are required.
All functions are executed in the $srcdir
directory
The version()
function updates the version
variable. This allows for automatically deriving the version from sources. This is most useful for git packages, which usually don't need to be changed, so their version
variable stays the same.
An example of using this for git:
version() {
cd "$srcdir/itd"
printf "r%s.%s" "$(git rev-list --count HEAD)" "$(git rev-parse --short HEAD)"
}
The AUR equivalent is the pkgver()
function
The prepare()
function is meant to prepare the sources for building and packaging. This is the function in which patches should be applied, for example, by the patch
command, and where tools like go generate
should be executed.
The build()
function is where the package is actually built. Use the same commands that would be used to manually compile the software. Often, this function is just one line:
build() {
make
}
The package()
function is where the built files are placed into the directory that will be used by LURE to build the package.
Any files that should be installed on the filesystem should go in the $pkgdir
directory in this function. For example, if you have a binary called bin
that should be placed in /usr/bin
and a config file called bin.cfg
that should be placed in /etc
, the package()
function might look like this:
package() {
install -Dm755 bin ${pkgdir}/usr/bin/bin
install -Dm644 bin.cfg ${pkgdir}/etc/bin.cfg
}
LURE exposes several values as environment variables for use in build scripts.
The DISTRO_NAME
variable is the name of the distro as defined in its os-release
file.
For example, it's set to Fedora Linux
in a Fedora 36 docker image
The DISTRO_PRETTY_NAME
variable is the "pretty" name of the distro as defined in its os-release
file.
For example, it's set to Fedora Linux 36 (Container Image)
in a Fedora 36 docker image
The DISTRO_ID
variable is the identifier of the distro as defined in its os-release
file. This is the same as what LURE uses for overrides.
For example, it's set to fedora
in a Fedora 36 docker image
The DISTRO_ID_LIKE
variable contains identifiers of similar distros to the one running, separated by spaces.
For example, it's set to opensuse suse
in an OpenSUSE Tumbleweed docker image and rhel fedora
in a CentOS 8 docker image.
The DISTRO_VERSION_ID
variable is the version identifier of the distro as defined in its os-release
file.
For example, it's set to 36
in a Fedora 36 docker image and 11
in a Debian Bullseye docker image
The ARCH
variable is the architecture of the machine running the script. It uses the same naming convention as the values in the architectures
array
The NCPU
variable is the amount of CPUs available on the machine running the script. It will be set to 8
on a quad core machine with hyperthreading, for example.
LURE provides various commands to help packagers create proper cross-distro packages. These commands should be used wherever possible instead of doing the tasks manually.
install-binary
accepts 1-2 arguments. The first argument is the binary you'd like to install. The second is the filename that should be used.
If the filename argument is not provided, tha name of the input file will be used.
Examples:
install-binary ./itd
install-binary ./itd itd-2
install-systemd
installs regular systemd system services (see install-systemd-user
for user services)
It accepts 1-2 arguments. The first argument is the service you'd like to install. The second is the filename that should be used.
If the filename argument is not provided, tha name of the input file will be used.
Examples:
install-systemd ./[email protected]
install-systemd-user ./[email protected] [email protected]
install-systemd-user
installs systemd user services (services like itd
meant to be started with --user
).
It accepts 1-2 arguments. The first argument is the service you'd like to install. The second is the filename that should be used.
If the filename argument is not provided, tha name of the input file will be used.
Examples:
install-systemd-user ./itd.service
install-systemd-user ./itd.service infinitime-daemon.service
install-config
installs configuration files into the /etc
directory
It accepts 1-2 arguments. The first argument is the config you'd like to install. The second is the filename that should be used.
If the filename argument is not provided, tha name of the input file will be used.
Examples:
install-config ./itd.toml
install-config ./itd.example.toml itd.toml
install-license
installs a license file
It accepts 1-2 arguments. The first argument is the config you'd like to install. The second is the filename that should be used.
If the filename argument is not provided, tha name of the input file will be used.
Examples:
install-license ./LICENSE itd/LICENSE
install-completion
installs shell completions
It currently supports bash
, zsh
, and fish
Completions are read from stdin, so they can either be piped in or retrieved from files
Two arguments are required for this function. The first one is the name of the shell and the second is the name of the completion.
Examples:
./k9s completion fish | install-completion fish k9s
install-completion bash k9s <./k9s/completions/k9s.bash
install-manual
installs manpages. It accepts a single argument, which is the path to the manpage.
The install path will be determined based on the number at the end of the filename. If a number cannot be extracted, an error will be returned.
Examples:
install-manual ./man/strelaysrv.1
install-manual ./mdoc.7
install-desktop
installs desktop files for applications. It accepts 1-2 arguments. The first argument is the config you'd like to install. The second is the filename that should be used.
If the filename argument is not provided, tha name of the input file will be used.
Examples:
install-desktop ./${name}/share/admc.desktop
install-desktop ./${name}/share/admc.desktop admc-app.desktop
install-library
installs shared and static libraries to the correct location.
This is the most important helper as it contains logic to figure out where to install libraries based on the target distro and CPU architecture. It should almost always be used to install all libraries.
It accepts 1-2 arguments. The first argument is the config you'd like to install. The second is the filename that should be used.
If the filename argument is not provided, tha name of the input file will be used.
Examples:
install-library ./${name}/build/libadldap.so
git-version
returns a version number based on the git revision of a repository.
If an argument is provided, it will be used as the path to the repo. Otherwise, the current directory will be used.
The version number will be the amount of revisions, a dot, and the short hash of the current revision. For example: 118.e4b8348
.
The AUR's convention includes an r
at the beginning of the version number. This is ommitted because some distros expect the version number to start with a digit.
Examples:
git-version
git-version "$srcdir/itd"