kumquat-buildroot/docs/manual/adding-packages-directory.txt
Jan Heylen 1b3ac72d0f docs/manual: add documentation on Config.in.host
+ rearrange the structure a bit by adding a new paragraph for the Config
files

Signed-off-by: Jan Heylen <heyleke@gmail.com>
[ThomasDS:
  - clarify commit title
  - add list continuations to fix indentation of Config.in.host details]
Signed-off-by: Thomas De Schampheleire <thomas.de.schampheleire@gmail.com>
Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2015-03-16 22:09:34 +01:00

478 lines
17 KiB
Plaintext

// -*- mode:doc; -*-
// vim: set syntax=asciidoc:
=== Package directory
First of all, create a directory under the +package+ directory for
your software, for example +libfoo+.
Some packages have been grouped by topic in a sub-directory:
+x11r7+, +efl+ and +matchbox+. If your package fits in
one of these categories, then create your package directory in these.
New subdirectories are discouraged, however.
=== Config files
For the package to be displayed in the configuration tool, you need to
create a Config file in your package directory. There are two types:
+Config.in+ and +Config.in.host+.
==== +Config.in+ file
For packages used on the target, create a file named +Config.in+. This
file will contain the option descriptions related to our +libfoo+ software
that will be used and displayed in the configuration tool. It should basically
contain:
---------------------------
config BR2_PACKAGE_LIBFOO
bool "libfoo"
help
This is a comment that explains what libfoo is.
http://foosoftware.org/libfoo/
---------------------------
The +bool+ line, +help+ line and other metadata information about the
configuration option must be indented with one tab. The help text
itself should be indented with one tab and two spaces, and it must
mention the upstream URL of the project.
You can add other sub-options into a +if
BR2_PACKAGE_LIBFOO...endif+ statement to configure particular things
in your software. You can look at examples in other packages. The
syntax of the +Config.in+ file is the same as the one for the kernel
Kconfig file. The documentation for this syntax is available at
http://kernel.org/doc/Documentation/kbuild/kconfig-language.txt[]
Finally you have to add your new +libfoo/Config.in+ to
+package/Config.in+ (or in a category subdirectory if you decided to
put your package in one of the existing categories). The files
included there are 'sorted alphabetically' per category and are 'NOT'
supposed to contain anything but the 'bare' name of the package.
--------------------------
source "package/libfoo/Config.in"
--------------------------
==== +Config.in.host+ file
Some packages also need to be built for the host system. There are two
options here:
* The host package is only required to satisfy build-time
dependencies of one or more target packages. In this case, add
+host-foo+ to the target package's +BAR_DEPENDENCIES+ variable. No
+Config.in.host+ file should be created.
* The host package should be explicitly selectable by the user from
the configuration menu. In this case, create a +Config.in.host+ file
for that host package:
+
---------------------------
config BR2_PACKAGE_HOST_FOO
bool "host foo"
help
This is a comment that explains what foo for the host is.
http://foosoftware.org/foo/
---------------------------
+
The same coding style and options as for the +Config.in+ file are valid.
+
Finally you have to add your new +libfoo/Config.in.host+ to
+package/Config.in.host+. The files included there are 'sorted alphabetically'
and are 'NOT' supposed to contain anything but the 'bare' name of the package.
+
--------------------------
source "package/foo/Config.in.host"
--------------------------
+
The host package will then be available from the +Host utilities+ menu.
[[depends-on-vs-select]]
==== Choosing +depends on+ or +select+
The +Config.in+ file of your package must also ensure that
dependencies are enabled. Typically, Buildroot uses the following
rules:
* Use a +select+ type of dependency for dependencies on
libraries. These dependencies are generally not obvious and it
therefore make sense to have the kconfig system ensure that the
dependencies are selected. For example, the _libgtk2_ package uses
+select BR2_PACKAGE_LIBGLIB2+ to make sure this library is also
enabled.
The +select+ keyword expresses the dependency with a backward
semantic.
* Use a +depends on+ type of dependency when the user really needs to
be aware of the dependency. Typically, Buildroot uses this type of
dependency for dependencies on target architecture, MMU support and
toolchain options (see xref:dependencies-target-toolchain-options[]),
or for dependencies on "big" things, such as the X.org system.
The +depends on+ keyword expresses the dependency with a forward
semantic.
.Note
The current problem with the _kconfig_ language is that these two
dependency semantics are not internally linked. Therefore, it may be
possible to select a package, whom one of its dependencies/requirement
is not met.
An example illustrates both the usage of +select+ and +depends on+.
--------------------------
config BR2_PACKAGE_ACL
bool "acl"
select BR2_PACKAGE_ATTR
depends on BR2_LARGEFILE
help
POSIX Access Control Lists, which are used to define more
fine-grained discretionary access rights for files and
directories.
This package also provides libacl.
http://savannah.nongnu.org/projects/acl
comment "acl needs a toolchain w/ largefile"
depends on !BR2_LARGEFILE
--------------------------
Note that these two dependency types are only transitive with the
dependencies of the same kind.
This means, in the following example:
--------------------------
config BR2_PACKAGE_A
bool "Package A"
config BR2_PACKAGE_B
bool "Package B"
depends on BR2_PACKAGE_A
config BR2_PACKAGE_C
bool "Package C"
depends on BR2_PACKAGE_B
config BR2_PACKAGE_D
bool "Package D"
select BR2_PACKAGE_B
config BR2_PACKAGE_E
bool "Package E"
select BR2_PACKAGE_D
--------------------------
* Selecting +Package C+ will be visible if +Package B+ has been
selected, which in turn is only visible if +Package A+ has been
selected.
* Selecting +Package E+ will select +Package D+, which will select
+Package B+, it will not check for the dependencies of +Package B+,
so it will not select +Package A+.
* Since +Package B+ is selected but +Package A+ is not, this violates
the dependency of +Package B+ on +Package A+. Therefore, in such a
situation, the transitive dependency has to be added explicitly:
--------------------------
config BR2_PACKAGE_D
bool "Package D"
select BR2_PACKAGE_B
depends on BR2_PACKAGE_A
config BR2_PACKAGE_E
bool "Package E"
select BR2_PACKAGE_D
depends on BR2_PACKAGE_A
--------------------------
Overall, for package library dependencies, +select+ should be
preferred.
Note that such dependencies will ensure that the dependency option
is also enabled, but not necessarily built before your package. To do
so, the dependency also needs to be expressed in the +.mk+ file of the
package.
Further formatting details: see xref:writing-rules-config-in[the
coding style].
[[dependencies-target-toolchain-options]]
==== Dependencies on target and toolchain options
Many packages depend on certain options of the toolchain: the choice of
C library, C++ support, largefile support, thread support, RPC support,
IPv6 support, wchar support, or dynamic library support. Some packages
can only be built on certain target architectures, or if an MMU is
available in the processor.
These dependencies have to be expressed with the appropriate 'depends
on' statements in the Config.in file. Additionally, for dependencies on
toolchain options, a +comment+ should be displayed when the option is
not enabled, so that the user knows why the package is not available.
Dependencies on target architecture or MMU support should not be
made visible in a comment: since it is unlikely that the user can
freely choose another target, it makes little sense to show these
dependencies explicitly.
The +comment+ should only be visible if the +config+ option itself would
be visible when the toolchain option dependencies are met. This means
that all other dependencies of the package (including dependencies on
target architecture and MMU support) have to be repeated on the
+comment+ definition. To keep it clear, the +depends on+ statement for
these non-toolchain option should be kept separate from the +depends on+
statement for the toolchain options.
If there is a dependency on a config option in that same file (typically
the main package) it is preferable to have a global +if ... endif+
construct rather than repeating the +depends on+ statement on the
comment and other config options.
The general format of a dependency +comment+ for package foo is:
--------------------------
foo needs a toolchain w/ featA, featB, featC
--------------------------
for example:
--------------------------
aircrack-ng needs a toolchain w/ largefile, threads
--------------------------
or
--------------------------
crda needs a toolchain w/ threads
--------------------------
Note that this text is kept brief on purpose, so that it will fit on a
80-character terminal.
The rest of this section enumerates the different target and toolchain
options, the corresponding config symbols to depend on, and the text to
use in the comment.
* Target architecture
** Dependency symbol: +BR2_powerpc+, +BR2_mips+, ... (see +arch/Config.in+)
** Comment string: no comment to be added
* MMU support
** Dependency symbol: +BR2_USE_MMU+
** Comment string: no comment to be added
* Atomic instructions (whereby the architecture has instructions to
perform some operations atomically, like LOCKCMPXCHG on x86)
** Dependency symbol: +BR2_ARCH_HAS_ATOMICS+
** Comment string: no comment to be added
* Kernel headers
** Dependency symbol: +BR2_TOOLCHAIN_HEADERS_AT_LEAST_X_Y+, (replace
+X_Y+ with the proper version, see +toolchain/toolchain-common.in+)
** Comment string: +headers >= X.Y+ and/or `headers <= X.Y` (replace
+X.Y+ with the proper version)
* C library
** Dependency symbol: +BR2_TOOLCHAIN_USES_GLIBC+,
+BR2_TOOLCHAIN_USES_MUSL+, +BR2_TOOLCHAIN_USES_UCLIBC+
** Comment string: for the C library, a slightly different comment text
is used: +foo needs an (e)glibc toolchain+, or `foo needs an (e)glibc
toolchain w/ C++`
* C++ support
** Dependency symbol: +BR2_INSTALL_LIBSTDCPP+
** Comment string: `C++`
* largefile support
** Dependency symbol: +BR2_LARGEFILE+
** Comment string: +largefile+
* thread support
** Dependency symbol: +BR2_TOOLCHAIN_HAS_THREADS+
** Comment string: +threads+ (unless +BR2_TOOLCHAIN_HAS_THREADS_NPTL+
is also needed, in which case, specifying only +NPTL+ is sufficient)
* NPTL thread support
** Dependency symbol: +BR2_TOOLCHAIN_HAS_THREADS_NPTL+
** Comment string: +NPTL+
* RPC support
** Dependency symbol: +BR2_TOOLCHAIN_HAS_NATIVE_RPC+
** Comment string: +RPC+
* IPv6 support
** Dependency symbol: +BR2_INET_IPV6+
** Comment string: +IPv6+ (lowercase v)
* wchar support
** Dependency symbol: +BR2_USE_WCHAR+
** Comment string: +wchar+
* dynamic library
** Dependency symbol: +!BR2_STATIC_LIBS+
** Comment string: +dynamic library+
==== Dependencies on a Linux kernel built by buildroot
Some packages need a Linux kernel to be built by buildroot. These are
typically kernel modules or firmware. A comment should be added in the
Config.in file to express this dependency, similar to dependencies on
toolchain options. The general format is:
--------------------------
foo needs a Linux kernel to be built
--------------------------
If there is a dependency on both toolchain options and the Linux
kernel, use this format:
--------------------------
foo needs a toolchain w/ featA, featB, featC and a Linux kernel to be built
--------------------------
==== Dependencies on udev /dev management
If a package needs udev /dev management, it should depend on symbol
+BR2_PACKAGE_HAS_UDEV+, and the following comment should be added:
--------------------------
foo needs udev /dev management
--------------------------
If there is a dependency on both toolchain options and udev /dev
management, use this format:
--------------------------
foo needs udev /dev management and a toolchain w/ featA, featB, featC
--------------------------
==== Dependencies on features provided by virtual packages
Some features can be provided by more than one package, such as the
openGL libraries.
See xref:virtual-package-tutorial[] for more on the virtual packages.
See xref:virtual-package-list[] for the symbols to depend on if your package
depends on a feature provided by a virtual package.
=== The +.mk+ file
[[adding-packages-mk]]
Finally, here's the hardest part. Create a file named +libfoo.mk+. It
describes how the package should be downloaded, configured, built,
installed, etc.
Depending on the package type, the +.mk+ file must be written in a
different way, using different infrastructures:
* *Makefiles for generic packages* (not using autotools or CMake):
These are based on an infrastructure similar to the one used for
autotools-based packages, but require a little more work from the
developer. They specify what should be done for the configuration,
compilation and installation of the package. This
infrastructure must be used for all packages that do not use the
autotools as their build system. In the future, other specialized
infrastructures might be written for other build systems. We cover
them through in a xref:generic-package-tutorial[tutorial] and a
xref:generic-package-reference[reference].
* *Makefiles for autotools-based software* (autoconf, automake, etc.):
We provide a dedicated infrastructure for such packages, since
autotools is a very common build system. This infrastructure 'must'
be used for new packages that rely on the autotools as their build
system. We cover them through a xref:autotools-package-tutorial[tutorial]
and xref:autotools-package-reference[reference].
* *Makefiles for cmake-based software*: We provide a dedicated
infrastructure for such packages, as CMake is a more and more
commonly used build system and has a standardized behaviour. This
infrastructure 'must' be used for new packages that rely on
CMake. We cover them through a xref:cmake-package-tutorial[tutorial]
and xref:cmake-package-reference[reference].
* *Makefiles for Python modules*: We have a dedicated infrastructure
for Python modules that use either the +distutils+ or the
+setuptools+ mechanism. We cover them through a
xref:python-package-tutorial[tutorial] and a
xref:python-package-reference[reference].
* *Makefiles for Lua modules*: We have a dedicated infrastructure for
Lua modules available through the LuaRocks web site. We cover them
through a xref:luarocks-package-tutorial[tutorial] and a
xref:luarocks-package-reference[reference].
Further formatting details: see xref:writing-rules-mk[the writing
rules].
[[adding-packages-hash]]
=== The +.hash+ file
Optionally, you can add a third file, named +libfoo.hash+, that contains
the hashes of the downloaded files for the +libfoo+ package.
The hashes stored in that file are used to validate the integrity of the
downloaded files.
The format of this file is one line for each file for which to check the
hash, each line being space-separated, with these three fields:
* the type of hash, one of:
** +sha1+, +sha224+, +sha256+, +sha384+, +sha512+
* the hash of the file:
** for +sha1+, 40 hexadecimal characters
** for +sha224+, 56 hexadecimal characters
** for +sha256+, 64 hexadecimal characters
** for +sha384+, 96 hexadecimal characters
** for +sha512+, 128 hexadecimal characters
* the name of the file, without any directory component
Lines starting with a +#+ sign are considered comments, and ignored. Empty
lines are ignored.
There can be more than one hash for a single file, each on its own line. In
this case, all hashes must match.
Ideally, the hashes stored in this file should match the hashes published by
upstream, e.g. on their website, in the e-mail announcement... If upstream
provides more than one type of hash (say, +sha1+ and +sha512+), then it is
best to add all those hashes in the +.hash+ file. If upstream does not
provide any hash, then compute at least one yourself, and mention this in a
comment line above the hashes.
*Note:* the number of spaces does not matter, so one can use spaces to
properly align the different fields.
The example below defines a +sha1+ and a +sha256+ published by upstream for
the main +libfoo-1.2.3.tar.bz2+ tarball, plus two locally-computed hashes,
a +sha256+ for a downloaded patch, and a +sha1+ for a downloaded binary blob:
----
# Hashes from: http://www.foosoftware.org/download/libfoo-1.2.3.tar.bz2.{sha1,sha256}:
sha1 486fb55c3efa71148fe07895fd713ea3a5ae343a libfoo-1.2.3.tar.bz2
sha256 efc8103cc3bcb06bda6a781532d12701eb081ad83e8f90004b39ab81b65d4369 libfoo-1.2.3.tar.bz2
# No upstream hashes for the following:
sha256 ff52101fb90bbfc3fe9475e425688c660f46216d7e751c4bbdb1dc85cdccacb9 libfoo-fix-blabla.patch
sha1 2d608f3c318c6b7557d551a5a09314f03452f1a1 libfoo-data.bin
----
If the +.hash+ file is present, and it contains one or more hashes for a
downloaded file, the hash(es) computed by Buildroot (after download) must
match the hash(es) stored in the +.hash+ file. If one or more hashes do
not match, Buildroot considers this an error, deletes the downloaded file,
and aborts.
If the +.hash+ file is present, but it does not contain a hash for a
downloaded file, no check is done for that file. If you set the
environment variable +BR2_ENFORCE_CHECK_HASH+ to a non-empty value, and
there is no hash for a downloaded file, Buildroot considers this an
error, deletes the downloaded file, and aborts.
If the +.hash+ file is missing, then no check is done at all.