feed205901
Python module updates |
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.. | ||
addons | ||
audio | ||
compress | ||
databases | ||
debug | ||
devel | ||
emulation | ||
graphics | ||
lang | ||
linux | ||
linux-driver-addons/dvb | ||
linux-drivers | ||
linux-firmware | ||
mediacenter | ||
multimedia | ||
network | ||
oem | ||
print/freetype | ||
python | ||
security | ||
sysutils | ||
testing | ||
textproc | ||
tools | ||
virtual | ||
wayland | ||
web | ||
x11 | ||
packages.mk.addon_template | ||
packages.mk.template | ||
readme.md |
Structure of package.mk files
Introduction
The package.mk file defines variables and functions to build a package.
Variables
To control the build behaviour of your package, use variables in the top-down order listed here.
Base
Variable | Default | Required | Description |
---|---|---|---|
PKG_NAME | - | yes | Name of the packaged software application. Should be lowercase |
PKG_VERSION | - | yes | Version of the packaged software application. If the version is a githash, please use the full githash, not the abbreviated form. |
PKG_SHA256 | - | yes | SHA256 hashsum of the application download file |
PKG_ARCH | any | no | Architectures for which the package builds. any or a space separated list of aarch64 , arm or x86_64 |
PKG_LICENSE | - | yes | License of the software application. Reference |
PKG_SITE | - | yes | Site of the software application |
PKG_URL | - | yes | Address at which the source of the software application can be retrieved |
PKG_MAINTAINER | - | no | Your name |
PKG_DEPENDS_BOOTSTRAP PKG_DEPENDS_HOST PKG_DEPENDS_INIT PKG_DEPENDS_TARGET |
- | no | A space separated list of name of packages required to build the software application |
PKG_SECTION | - | no | virtual if the package only defines dependencies |
PKG_SHORTDESC | - | no yes for addons |
Short description of the software package |
PKG_LONGDESC | - | yes | Long description of the package including purpose or function within LibreELEC or Kodi |
Universal Build Option
Variable | Default | Required | Description |
---|---|---|---|
PKG_SOURCE_DIR | - | no | Force the folder name that application sources are unpacked to. Used when sources do not automatically unpack to a folder with the PKG_NAME-PKG_VERSION naming convention. |
PKG_TAR_STRIP_COMPONENTS | - | no | When this option is set the top level directory is not get stripped off while extracting an archive. |
PKG_SOURCE_NAME | - | no | Force the filename of the application sources. Used when the filename is not the basename of PKG_URL |
PKG_PATCH_DIRS | - | no | Patches in ./patches are automatically applied after package unpack. Use this option to include patches from an additional folder, e.g. ./patches/$PKG_PATCH_DIRS |
PKG_NEED_UNPACK | - | no | Space separated list of files or folders to include in package stamp calculation. If the stamp is invalidated through changes to package files or dependent files/folders the package is cleaned and rebuilt. e.g. PKG_NEED_UNPACK="$(get_pkg_directory linux)" will trigger clean/rebuild of a Linux kernel driver package when a change to the linux kernel package is detected. |
PKG_TOOLCHAIN | auto | no | Control which build toolchain is used. For detailed information, see reference. |
PKG_BUILD_FLAGS | - | no | A space separated list of flags with which to fine-tune the build process. Flags can be enabled or disabled with a + or - prefix. For detailed information, see the Reference. |
PKG_PYTHON_VERSION | python3.8 | no | Define the Python version to be used. |
PKG_IS_KERNEL_PKG | - | no | Set to yes for packages that include Linux kernel modules |
PKG_DEPENDS_CONFIG | - | no | Space separated list of packages to add to PKG_CONFIG_PATH. Use this to build with support for -sysroot packages (See [reference](BUILD_FLAGS options). |
Meson Options
Variable | Default | Required | Description |
---|---|---|---|
PKG_MESON_SCRIPT | $PKG_BUILD/meson.build | no | Meson build file to use |
PKG_MESON_OPTS_TARGET | - | no | Options directly passed to meson |
CMAKE Options
Variable | Default | Required | Description |
---|---|---|---|
PKG_CMAKE_SCRIPT | $PKG_BUILD/CMakeLists.txt | no | CMake build file to use |
PKG_CMAKE_OPTS_HOST PKG_CMAKE_OPTS_TARGET |
- | no | Options directly passed to cmake |
Configure Options
Variable | Default | Required | Description |
---|---|---|---|
PKG_CONFIGURE_SCRIPT | $PKG_BUILD/configure | no | configure script to use |
PKG_CONFIGURE_OPTS PKG_CONFIGURE_OPTS_BOOTSTRAP PKG_CONFIGURE_OPTS_HOST PKG_CONFIGURE_OPTS_INIT PKG_CONFIGURE_OPTS_TARGET |
- | no | Options directly passed to configure |
Make Options
Variable | Default | Required | Description |
---|---|---|---|
PKG_MAKE_OPTS PKG_MAKE_OPTS_BOOTSTRP PKG_MAKE_OPTS_HOST PKG_MAKE_OPTS_INIT PKG_MAKE_OPTS_TARGET |
- | no | Options directly passed to make in the build step |
PKG_MAKEINSTALL_OPTS_HOST PKG_MAKEINSTALL_OPTS_TARGET |
- | no | Options directly passed to make in the install step |
Addons
Additional options used when the package builds an addon.
Variable | Default | Required | Description |
---|---|---|---|
PKG_REV | - | yes | The revision number of the addon (starts at 100). Must be placed after PKG_VERSION . Must be incremented for each new version else Kodi clients will not detect version change and download the updated addon. |
PKG_IS_ADDON | no | yes | Must be set to yes or to embedded when this addon is part of the image |
PKG_ADDON_NAME | - | yes | Proper name of the addon that is shown at the repo |
PKG_ADDON_TYPE | - | yes | See LE/config/addon/ for other possibilities |
PKG_ADDON_VERSION | - | no | The version of the addon, used in addon.xml |
PKG_ADDON_PROVIDES | - | no | Provides in addon-xml |
PKG_ADDON_REQUIRES | - | no | Requires used in addon.xml |
PKG_ADDON_PROJECTS | @PROJECTS@ | no | for available projects or devices, see projects subdirectory (note: Use RPi for RPi project, and RPi1 for RPi device) |
PKG_DISCLAIMER | - | no | Disclaimer in addon-xml |
PKG_ADDON_IS_STANDALONE | - | no | Defines if an addon depends on Kodi (on) or is standalone (yes) |
PKG_ADDON_BROKEN | - | no | Marks an addon as broken for the user |
Detailed Information for Options
TOOLCHAIN options
Application/packages needs different toolchains for build.
For instance cmake
or the classic ./configure
or same very different.
For the most application/packages, the auto-detection of the toolchain works proper.
But not always. To select a specific toolchain, you only need to set the PKG_TOOLCHAIN
variable.
Toolchain | Description (if needed) |
---|---|
meson | Meson Build System |
cmake | CMake with Ninja |
cmake-make | CMake with Make |
autotools | GNU Build System |
configure | preconfigured GNU Build System |
ninja | Ninja Build |
make | Makefile Based |
manual | only runs self writen build steps, see Functions |
Auto-Detection
The auto-detections looks for specific files in the source path.
meson.build
(PKG_MESON_SCRIPT) => meson toolchainCMakeLists.txt
(PKG_CMAKE_SCRIPT) => cmake toolchainconfigure
(PKG_CONFIGURE_SCRIPT) => configure toolchainMakefile
=> make toolchain
When none of these was found, the build abort and you have to set the toolchain via PKG_TOOLCHAIN
BUILD_FLAGS options
Build flags implement often used build options. Normally these are activated be default, but single applications/packages has problems to compile/run with these.
Set the variable PKG_BUILD_FLAGS
in the package.mk
to enable/disable the single flags. It is a space separated list. The flags can enabled with a +
prefix, and disabled with a -
.
flag | default | affected stage(s) | description |
---|---|---|---|
pic | disabled | target, init | Position Independent Code |
pic:host | disabled | host, bootstrap | see above |
speed | disabled | target, init | replaces default -O2 compiler optimization with -O3 (can only enable; overrules size) |
size | disabled | target, init | replaces default -O2 compiler optimization with -Os (can only enable) |
lto | disabled | target, init | enable LTO (Link Time optimization) in the compiler and linker unless disabled via LTO_SUPPORT . Compiles non-fat LTO objects (only bytecode) and performs single-threaded optimization at link stage |
lto-parallel | disabled | target, init | same as lto but enables parallel optimization at link stage. Only enable this if the package build doesn't run multiple linkers in parallel otherwise this can result in lots of parallel processes! |
lto-fat | disabled | target, init | same as lto but compile fat LTO objects (bytecode plus optimized assembly). This increases compile time but can be useful to create static libraries suitable both for LTO and non-LTO linking |
lto-off | disabled | target, init | explicitly disable LTO in the compiler and linker |
gold | enabled by GOLD_SUPPORT |
target, init | do not use GOLD-Llinker (can only disable) |
parallel | enabled | all | make or ninja builds with multiple threads/processes (or not) |
strip | enabled | target | strips executables (or not) |
sysroot | enabled | target | installs the package to the sysroot folder (or not) |
Example
PKG_BUILD_FLAGS="+pic -gold"
PKG_BUILD_FLAGS="-parallel"
Functions
All build steps in the LibreELEC build system are done by shell function.
These functions can be overwritten in the package.mk
. However, this raises problems when the build system is updated. To reduce the impact, most functions are extended by pre_
and post_
scripts to use instead.
When it is nesseary to replace configure, make and makeinstall, please use PKG_TOOLCHAIN="manual"
.
Some of the build steps needs to be run once, like unpack
. Other steps needs to be run multiple times, to create the toolchain (stage bootstrap & host) or to create the LE image (stage init & target). These stage specific functions have the stage as suffix, like make_target
.
Full list of overwrittable functions.
function | stages specific | description |
---|---|---|
configure_package | - | Optional function to implement late binding variable assignment (see below) |
unpack pre_unpack post_unpack |
- | Extract the source from the downloaded file |
pre_patch post_patch |
- | Apply the patches to the source, after extraction. The patch function it self is not allowed to overwritten |
pre_build_[stage] | yes | Runs before of the start of the build |
pre_configure pre_configure_[stage] configure_[stage] post_configure_[stage] |
yes | Configure the package for the compile. This is only relevant for toolchain, that supports it (e.g. meson, cmake, configure, manual) |
make_[stage] pre_make_[stage] post_make_[stage] |
yes | Build of the package |
makeinstall_[stage] pre_makeinstall_[stage] post_makeinstall_[stage] |
yes | Installation of the files in the correct pathes host: TOOLCHAIN target: SYSROOT and IMAGE bootstrap and init: temporary destination |
addon | - | Copy all files together for addon creation. This is requiered for addons |
post_install_addon | - | Post processing of installed addon files in ${INSTALL} directory |
Directory structure
Every package has its own set of build and install directories. The sources are extracted and built in the former, and build artifacts are installed to the latter.
Usually an install target provided by the package build system will populate the install directory automatically, but it's important that you use the standard usr/lib/
, usr/bin/
etc. structure when doing so manually, because the contents of the install directory will be part of the final image (with the exception of top level hidden directories).
Sometimes it's necessary to access build artifacts from different packages - like an addon collecting files of various other packages. In that case you need to access the files using the package's install directories (and not their build directories since they might not exist anymore). If you need additional files which should not be part of the final image, you can use a hidden directory for those - grep for .noinstall
for some examples.
Late Binding variable assignment
A package will be loaded only once, by the call to config/options
. During this process, additional package specific variables will be initialised, such as:
PKG_BUILD
- path to the build folderPKG_SOURCE_NAME
- if not already specified, generated fromPKG_URL
,PKG_NAME
andPKG_VERSION
Since these variables will not exist at the time the package is loaded, they can only be referenced after package has loaded. This can be accomplished by referencing these variables in the configure_package()
function which is executed once the additional variables have been assigned.
If necessary, the following variables would be configured in configure_package()
as they are normally relative to ${PKG_BUILD}
:
PKG_CONFIGURE_SCRIPT
PKG_CMAKE_SCRIPT
PKG_MESON_SCRIPT
Further to this, toolchain variables that are defined in setup_toolchain()
must not be referenced "globally" in the package as they will only be configured reliably after setup_toolchain()
has been called during scripts/build
. Any variable in the following list must instead be referenced in a package function such as pre_build_*
, pre_configure_*
, pre_make_*
etc.:
TARGET_CFLAGS TARGET_CXXFLAGS TARGET_LDFLAGS
NINJA_OPTS MAKEFLAGS
DESTIMAGE
CC CXX CPP LD
AS AR NM RANLIB
OBJCOPY OBJDUMP
STRIP
CPPFLAGS CFLAGS CXXFLAGS LDFLAGS
PKG_CONFIG
PKG_CONFIG_PATH
PKG_CONFIG_LIBDIR
PKG_CONFIG_SYSROOT_DIR
PKG_CONFIG_ALLOW_SYSTEM_CFLAGS
PKG_CONFIG_ALLOW_SYSTEM_LIBS
CMAKE_CONF CMAKE
HOST_CC HOST_CXX HOSTCC HOSTCXX
CC_FOR_BUILD CXX_FOR_BUILD BUILD_CC BUILD_CXX
_python_sysroot _python_prefix _python_exec_prefix
Lastly, the following variables are assigned during scripts/build
but some packages may need to use alternative values for these variables. To do so, the package must assign alternative values in pre_build_*
/pre_configure_*
/pre_make_*
etc. functions as these functions will be called after the variables are initialised with default values in scripts/build
but before they are used by scripts/build
.
CMAKE_GENERATOR_NINJA
TARGET_CONFIGURE_OPTS
TARGET_CMAKE_OPTS
TARGET_MESON_OPTS
HOST_CONFIGURE_OPTS
HOST_CMAKE_OPTS
HOST_MESON_OPTS
INIT_CONFIGURE_OPTS
INIT_CMAKE_OPTS
INIT_MESON_OPTS
BOOTSTRAP_CONFIGURE_OPTS
BOOTSTRAP_CMAKE_OPTS
BOOTSTRAP_MESON_OPTS
Example
configure_package() {
# now we know where we're building, assign a value
PKG_CONFIGURE_SCRIPT="${PKG_BUILD}/gettext-tools/configure"
}
post_patch() {
# replace hardcoded stuff
sed -i ${PKG_CONFIGURE_SCRIPT} 's|hardcoded stuff|variable stuff|'
}
pre_configure_target() {
# add extra flag to toolchain default
CFLAGS="$CFLAGS -DEXTRA_FLAG=yeah"
}
post_makeinstall_target() {
# remove unused executable, install what remains
rm $INSTALL/usr/bin/bigexecutable
}
tools/pkgcheck
Use tools/pkgcheck
to verify packages. It detects the following issues:
Issue | Level | Meaning |
---|---|---|
late binding violation | FAIL | Late binding variables referenced outside of a function - see late binding |
duplicate function def | FAIL | Function defined multiple times, only last definition will be used |
bad func - missing brace | FAIL | Opening brace ({ ) for function definition should be on same line as the function def, ie. pre_configure_target() { |
intertwined vars & funcs | WARN | Variable assignments and logic is intertwined with functions - this is cosmetic, but variables and logic should be specified before all functions |
unknown function | WARN | Could be a misspelled function, ie. per_configure_target() { which might fail silently. |
ignored depends assign | WARN | Values assigned to PKG_DEPENDS_* outside of the global section or configure_package() will be ignored. |
Add a new package to the Image
- Think about, why you need it in the image.
- new multimedia tool
- add a new network tool
- new kernel driver
- ...
- Find a place in the packages tree
- look into the package tree structure, which is generally self explaind.
- do not place it in an existing package (directory that includes a
package.mk
) - when you found a place, create a directory with the name of your package (use same value for
PKG_NAME
!!)
- Create an initial
package.mk
- you can find a template under
packages/package.mk.template
. Copy the template into the new directory and call itpackage.mk
- apply any required changes to your new
package.mk
- you can find a template under
- Find a place in the dependency tree
- when it extend an existing package, add it there to the
PKG_DEPENDS_TARGET
/PKG_DEPENDS_HOST
etc. - take a look into the path
packages/virtual
, there you should find a virtual packages, that match your new package (misc-packages should be the last option)
- when it extend an existing package, add it there to the
- Now you can build your image
- after the build, inside the
BUILD_DIR
(normally build.*) folder you should find a directory with your package name and -version, eg.widget-1.2.3
.
- after the build, inside the
Example
# SPDX-License-Identifier: GPL-2.0
# Copyright (C) 2018-present Team LibreELEC (https://libreelec.tv)
PKG_NAME="mariadb-connector-c"
PKG_VERSION="3.0.2"
PKG_SHA256="f44f436fc35e081db3a56516de9e3bb11ae96838e75d58910be28ddd2bc56d88"
PKG_LICENSE="LGPL"
PKG_SITE="https://mariadb.org/"
PKG_URL="https://github.com/MariaDB/mariadb-connector-c/archive/v$PKG_VERSION.tar.gz"
PKG_DEPENDS_TARGET="toolchain zlib openssl"
PKG_LONGDESC="mariadb-connector: library to conntect to mariadb/mysql database server"
PKG_BUILD_FLAGS="-gold"
PKG_CMAKE_OPTS_TARGET="-DWITH_EXTERNAL_ZLIB=ON \
-DAUTH_CLEARTEXT=STATIC \
-DAUTH_DIALOG=STATIC \
-DAUTH_OLDPASSWORD=STATIC \
-DREMOTEIO=OFF"
post_makeinstall_target() {
# drop all unneeded
rm -rf $INSTALL/usr
}