Creating an Alpine package

From Alpine Linux

General

This document assumes that you have a working build environment, or use a diskbased alpine installation.

The APKBUILDs

The abuild script reads the APKBUILD and executes the steps needed to create a package.

The aports tree

The aports tree is a directory tree with many APKBUILDs. Those files are used when building alpine from source.

Installing and configuring the alpine-sdk

The alpine-sdk is a metapackage that pulls in the most essential packages used to build new packages.
Install those packages now:

apk add alpine-sdk

This would be a good time to create a normal user account for you to work in. (You weren't going to develop as root now, were you!) To create the user:

adduser <yourusername>

To make life easier later, it's a good idea to add this user to /etc/sudoers. Append the line

<yourusername>    ALL=(ALL) ALL

using the command:

visudo

Now logout of the root account, and login as <yourusername>. From here on everything can be done in a normal user account, and operations that require superuser privileges can be done with sudo.

The aports tree is in git so before we clone the aports tree we should configure git.

git config --global user.name "Your Full Name" git config --global user.email "your@email.address"

Now we can clone the aports tree.

git clone git://dev.alpinelinux.org/aports

Before we start creating or modifying APKBUILD files we need to setup abuild to our system/user. Edit the file abuild.conf to your requirements. Most of the defaults can be left alone, unless you are developing for a custom platform, in which case the comments in the file should guide you. The one field to edit is PACKAGER, so that you can get credit (or blame) for packages you create.

sudo vi /etc/abuild.conf

We also need to prepare the location that the build process caches files when they are downloaded. By default this is /var/cache/distfiles. To create this directory and ensure that it is writeable, enter the following commands:

sudo mkdir -p /var/cache/distfiles

sudo chmod a+w /var/cache/distfiles

The last step in preparation is to configure the security keys for abuild with the command:

abuild-keygen -a -i

Getting some help

It might be wise to start by checking what the abuild program can/cannot do.

abuild -h

Creating an APKBUILD file

Use a template APKBUILD

To create the actual APKBUILD file newapkbuild can serve you a template to start with. It will create a directory with the given package name, place an example/template APKBUILD file to the given directory, and fill some variables if those are provided.

newapkbuild packagename

newapkbuild options

  • -a Create autotools (use ./configure ...)
  • -c Copy a sample init.d, conf.d and install script to new directory
  • -d Set package description (pkgdesc) to DESC
  • -f Force even if directory already exist
  • -h Show this help
  • -l Set package license to LICENSE
  • -p Create perl package (Assume Makefile.PL is there)
  • -u Set package URL
  • -s Use sourceforge source url
Note: On older Alpine systems, abuild -c -n packagename the way to create APKBUILD files. The 'packagename' was a parameter to the -n option so order of -c and -n matters.

If you are create a daemon package which needs initd scripts you can add the -c making it:

newapkbuild -c packagename

This will copy the sample initd and confd files to the build directory.
A third file sample.install file will be copied as well (we will discuss this later on).

Modify your APKBUILD

Edit APKBUILD and fill in the needed info (especially pkgname, pkgver, pkgdesc, url, license, depends and source).

If you are going to use any of the variables for directories like $pkgdir, always make sure they are double quoted like:

"$pkgdir"/somedir

This will prevent issues with spaces/special characters in the future.

Note: If you like syntax highlighting we suggest you to install vim. We have setup vim to recognize the APKBUILD file as a bash scripts so its easier to read them.

APKBUILD variables/functions

source

The source variable is not only used to list the remote source files to fetch, it is also used to list the local files that abuild will need in order to build the apk. Examples of such local files include: init.d files, conf.d files, install files (see install variable), patches, and all other necessary files.

Here are few things to note:

  • When you are finished adding local and/or remote files to source, you can execute the following command to add their checksums to the APKBUILD file:

abuild checksum

Note: When later updating the content of source, or updating a file that is listed in source, you must also update their checksums again with the same command.
  • When the remote file is hosted at SourceForge, it's best to specify the special mirrors link used by SourceForge:
http://downloads.sourceforge.net/$pkgname/$pkgname-$pkgver.tar.gz
(or similar depending on the package).
  • When the remote filename is not specified in the URI (ie, does not end in '/software-1.0.tar.gz'), such as:
http://oss.example.org/?get=software&ver=1.0
You must prepend 'saveas-' to the protocol and append '/software-1.0.tar.gz' (for instance) to the end of the URI, like so:
saveas-http://oss.example.org/?get=software&ver=1.0/software-1.0.tar.gz
This causes the file to be saved as software-1.0.tar.gz where abuild can use it, instead of ?get=software&ver=1.0, where abuild cannot use it.
  • abuild currently supports the following protocols for remote file retrieval:
    • http
    • https
    • ftp
  • abuild currently supports the following archive types/archive file extensions:
    • .tar.gz / .tgz
    • .tar.bz2
    • .tar.lzma
    • .tar.xz
    • .zip

depends & makedepends

Depends are the actual running dependencies that a package would need when it is running. Makedepends are only needed when you are building a package. If you set a package, in depends you do not need to add it to makedepends as well. The best way to find out what the depends and makedepends of a package are is to RTFM.

No kidding, lots of important information can be found it the package INSTALL and README file (or the likes). Another good way is the run ./configure --help from the source directory to see which options are needed for configure to finish without errors. If you do not yet have a src directory you can create one with the command:

abuild unpack

Running configure will also show you how you can disable a specific option for this package. A good example is for instance "--disable-nls" which will disable native language support and thus does not depend on gettext(libiconv,glib..).

Alpine likes to keep things small, so we try to disable as much as possible without losing too many features. The exact disable/enable options are decided the package builder but please try to follow Alpine's design concept as much as possible.

An easy way of quickly finding out the build info for a package is to check Arch Linux (Alpine package management and build scripts are similar) or Gentoo linux ebuilds (previous versions of Alpine were based on Gentoo).

After the package is successfully compiled and created we should make sure it didn't link to any package that is not present in the $depends variable. We do this by using scanelf. If scanelf is not yet installed on your system you can do that by installing pax-utils.

scanelf -nR pkg

An example output of libcurl would be:

ET_DYN libssl.so.0.9.8,libcrypto.so.0.9.8,libz.so.1,libc.so.0,ld-uClibc.so.0 pkg/usr/lib/libcurl.so.4.1.1

You can see the needed files and should be able to find out which file belongs to which package.

license

If a package has a special/custom license we need to provide it with the release. Because we want to save space and don't like to have licenses all over our system we have decided to include the license in the doc subpackage. Please follow the following guidelines to add a proper license. Locate the license file inside the source package. Add the doc subpackage to the $subpackages variable as follows:

subpackages="$pkgname-doc"

Add a similar line to the following to your build() function, depending on the license description file:

install -Dm644 COPYING "$pkgdir"/usr/share/licenses/$pkgname/COPYING

If you follow these steps then abuild will automatically add the license to the package-doc apk for you.

arch

The package architecture(s) to build for. This can be one of: x86, x86_64, all, or noarch, where all means all architectures, and noarch means it's architecture-independent (ie, a pure-python package).

Tip: To determine if your APKBUILD can use noarch, build the package for your architecture and then run "scanelf -R pkg" from the directory that the APKBUILD resides in, in order to scan for ELF files in the ./pkg directory. If you do NOT get output from this, then noarch can be used.

url

Website address for the program. This is usefully later on when either finding documentation or other information about the package.

pkgdesc

A brief, one line, description of what the package does. Useful for the package management system.

Here is an example from apk_info for the OpenSSH client package

pkgdesc="Port of OpenBSD's free SSH release - client"

pkgver

Provide the release number of the package you are building.

pkgrel

The $pkgrel versioning is made so if you change something to your APKBUILD file without changing the actual $pkgver you can higer pkgrel so apk tools will detect it as an update. For instance if you forget to add a dependency you can add it afterward and you can +1 pkgver so apk finds this update and add the missing dependency.

pkgname

The base name of the package you are creating. For Freeswitch 1.0.6, you would use "freeswitch"

install

There are 6 different kinds of install scripts. Each script is called with the $pkgname.<action> where <action> is one of the following:

$pkgname.pre-install

This script is executed before package is installed. Typical use is when package needs a user/group to be created. For example:

#!/bin/sh
adduser -H -s /bin/false -D clamav 2>/dev/null
exit 0

Note the exit 0 at the end. If the script exits with failure (if the user already exist), the package will not be installed and apk add will exit with failure.

$pkgname.post-install

This script is executed after package is installed. Can be used to generate font cache and similar.

$pkgname.pre-upgrade

Same as pre-install but is executed before upgrading an already installed package.

$pkgname.post-upgrade

Same as post-install but is executed after upgrading an already installed package.

$pkgname.pre-deinstall

This script is executed before uninstalling a package. If script exits with failure apk will not uninstall the package.

$pkgname.post-deinstall

This script is executed after a package have been uninstalled. Can be used to update font caches and restore busybox links. For example:

#!/bin/sh
busybox --install -s


If the package have an pre-install and post-install script the APKBUILD should have the install variable defined and the scripts should also be added to the source variable:

...
install="$pkgname.pre-install $pkgname.post-install"
source="http://....
       $install"
...

subpackages

$subpackages are made to split up the normal "make install" into separate packages. The most common subpackages we use are doc and dev. Because we like to keep our target system small we move documentation and development files (only needed when building packages) into separate packages. To use the specific program a user only need to install the base apk without package-doc or package-dev, but if he wants to read the manual he will need to install package-doc.

The easiest way to find out if you need to use -dev and -doc is to first build the package without these options set and wait until the build finishes. When its finished you should have a pkg directory which is the fake root directory. Inside this directory you will see the structure as how it would be installed in / on the target system.

To see if you need the -dev package you can run the following cmd:

find pkg/usr/ -name '*.[acho]' -o -name '*.la'

If this returns any files you need to include the -dev package.


To see if you need the -doc package you can run the following cmd:

find pkg/usr/share -name doc -o -name man -o -name info -o -name html -o -name sgml -o -name licenses

If this returns any directories you need to include the -doc package.

Custom subpackages

Some applications will have except doc and dev files other non needed at run time files which we want to separate away from the base package. Some packages include large test suites which are only needed in specific circumstances or binaries which have depends which we prefer not to install. To handle those we create our own package/function. In the APKBUILD below the build() function we create another function:

test() {
       mkdir -p "$subpkgdir"/usr
       mv "$pkgdir"/usr/package-test "$subpkgdir"/usr/
}

We also need to add the package info to $subpackages variable:

subpackages="$pkgname-doc $pkgname-dev $pkgname-test"

After we finish building the package you should see another apk called packagename-test.apk which includes the files which we moved to the $subpkgdir dir.

The above mentioned variables can also be used in our custom function. If we want for instance to build the test() function with perl support we would add:

depends="perl"
makedepends="perl-dev"

If we would install the base package it would not install perl, but if we install the package-test package it would.

Patches

Please make sure you always submit human readable patches. Way's to create them are:

directory compare:

diff -urp original_directory new_directory > filename.patch

file compare:

diff -up original.file new.file > filename.patch

If you are going to use multiple patches for a single package, the preferred way to handle those is a loop and numbering the patches.

for i in "$srcdir"/*.patch; do
       msg "Applying ${i}"
       patch -p0 -i $i || return 1
done

Because multiple patches can patch the same file, we could create offset for the next patch. To make sure we always patch in a specified way we should number the patches as followed:

10-patch1.patch 20-patch2.patch 30-patch3.patch

This way we are always sure patch 1 is first and if we want to add additional patches between them we can use 11,12,21,22...

Configure options

Alpine has some default configure options we set by default. We use /usr for prefix to make sure everyting is installed with /usr in front of it. If you notice that anything is installed in the wrong directory please run ./configure --help and see if you can set the correct location.

We are not covering the depend switches here we have discussed this already in the depend section.

Make options

If you notice weird problems when compiling or installing the package with make/make install you could try to disable parallel building/installing. A normal make line would be:

make || return 1

To disable parallel we use:

make -j1 || return 1

We can use the same for make install.

Because we do not want to install the package in our build environment but we want to install it in a fake root directory we need to tell 'make install' to use another destination directory instead of '/'. We do this by setting a variable when we execute make install as followed:

make DESTDIR="$pkgdir" install

Please note that some Makefiles do not support this variable and will always install software in '/'. To make sure you do not mess up your build system NEVER run your build system as root but always use a custom user and sudo when needed. If by accident the Makefile does not support DESTDIR variable it will fail to install in our build system system directories.

Additional files

If you want/need to install additional files not mentioned above you can use the following cmd (this is an example of a conf file):

install -Dm644 doc/$pkgname.conf "$pkgdir"/etc/$pkgname.conf

Build the package

If you did not already create the checksums as mentioned above you can do so now:

cd $pkgname abuild checksum

It's about time we build our package. Because a build system should never have all the package installed to prevent linking to packages we don't want it to link we use a abuild recursively with the -r switch. It will install all dependency's from your repository and builds it, afterwards it will uninstall all those depending packages again. You could also use the -R switch which would build your package including the dependency packages.

abuild -r

Commit your work

After you successfully build your package you can submit your APKBUILD to alpine git repository.

Update your git repo, before adding new files:

cd $aportsdir git pull

This should pull all the changes made by others into you local git repo. When you think you are ready you can add your files to git:

cd $apkbuilddir git add APKBUILD (include any other files needed for the build; $pkgname.install...) git commit

Now your changes are only available locally in your repo. Because you do not have push rights to the alpine repo you need to create diff (patch) of the changes you made:

git format-patch -1

Where -1 sets how many commits you want to go back (mostly this is 1). This should create a patch called 0001......patch.

An easy way to send this patch to the list is with an program called 'email'.

apk_add email

to send to the mailing list you would do:

email -a 0001...patch alpine-devel@lists.alpinelinux.org

And provide a subject and body after you execute the above cmd.


If you doubt to which repo your package belongs to you can safely use testing.

See Also