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author | Thomas Petazzoni <thomas.petazzoni@free-electrons.com> | 2011-10-10 10:46:39 +0200 |
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committer | Peter Korsgaard <jacmet@sunsite.dk> | 2011-10-25 09:46:01 +0200 |
commit | 41c1cb44cd60819f8ba20024e23e431c00b279d7 (patch) | |
tree | 8ec316f1602e4e9a8fff272aeeb1a2a36eb5fdd1 /docs/manual | |
parent | e55af699b5cb3d9286e19e19c8aaeb14bcdf0a38 (diff) | |
download | buildroot-novena-41c1cb44cd60819f8ba20024e23e431c00b279d7.tar.gz buildroot-novena-41c1cb44cd60819f8ba20024e23e431c00b279d7.zip |
manual: convert existing documentation to the asciidoc format
Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
Acked-by: Luca Ceresoli <luca@lucaceresoli.net>
Acked-by: Thomas De Schampheleire <thomas.de.schampheleire@gmail.com>
Reviewed-by: "Yann E. MORIN" <yann.morin.1998@anciens.enib.fr>
Signed-off-by: Peter Korsgaard <jacmet@sunsite.dk>
Diffstat (limited to 'docs/manual')
24 files changed, 1665 insertions, 0 deletions
diff --git a/docs/manual/adding-packages-autotargets.txt b/docs/manual/adding-packages-autotargets.txt new file mode 100644 index 000000000..cb41eadfd --- /dev/null +++ b/docs/manual/adding-packages-autotargets.txt @@ -0,0 +1,171 @@ +Infrastructure for autotools-based packages +------------------------------------------- + +[[autotargets-tutorial]] + ++AUTOTARGETS+ tutorial +~~~~~~~~~~~~~~~~~~~~~~ + +First, let's see how to write a +.mk+ file for an autotools-based +package, with an example : + +------------------------ +01: ############################################################# +02: # +03: # libfoo +04: # +05: ############################################################# +06: LIBFOO_VERSION = 1.0 +07: LIBFOO_SOURCE = libfoo-$(LIBFOO_VERSION).tar.gz +08: LIBFOO_SITE = http://www.foosoftware.org/download +09: LIBFOO_INSTALL_STAGING = YES +10: LIBFOO_INSTALL_TARGET = YES +11: LIBFOO_CONF_OPT = --enable-shared +12: LIBFOO_DEPENDENCIES = libglib2 host-pkg-config +13: +14: $(eval $(call AUTOTARGETS,package,libfoo)) +------------------------ + +On line 6, we declare the version of the package. + +On line 7 and 8, we declare the name of the tarball and the location +of the tarball on the Web. Buildroot will automatically download the +tarball from this location. + +On line 9, we tell Buildroot to install the package to the staging +directory. The staging directory, located in +output/staging/+ +is the directory where all the packages are installed, including their +development files, etc. By default, packages are not installed to the +staging directory, since usually, only libraries need to be installed in +the staging directory: their development files are needed to compile +other libraries or applications depending on them. Also by default, when +staging installation is enabled, packages are installed in this location +using the +make install+ command. + +On line 10, we tell Buildroot to also install the package to the +target directory. This directory contains what will become the root +filesystem running on the target. Usually, we try not to install header +files and to install stripped versions of the binary. By default, target +installation is enabled, so in fact, this line is not strictly +necessary. Also by default, packages are installed in this location +using the +make install+ command. + +On line 11, we tell Buildroot to pass a custom configure option, that +will be passed to the +./configure+ script before configuring +and building the package. + +On line 12, we declare our dependencies, so that they are built +before the build process of our package starts. + +Finally, on line line 14, we invoke the +AUTOTARGETS+ +macro that generates all the Makefile rules that actually allows the +package to be built. + +[[autotargets-reference]] + ++AUTOTARGETS+ reference +~~~~~~~~~~~~~~~~~~~~~~~ + +The main macro of the autotools package infrastructure is ++AUTOTARGETS+. It has the same number of arguments and the +same semantic as the +GENTARGETS+ macro, which is the main +macro of the generic package infrastructure. For autotools packages, the +ability to have target and host packages is also available (and is +actually widely used). + +Just like the generic infrastructure, the autotools infrastructure +works by defining a number of variables before calling the ++AUTOTARGETS+ macro. + +First, all the package metadata information variables that exist in the +generic infrastructure also exist in the autotools infrastructure: ++LIBFOO_VERSION+, +LIBFOO_SOURCE+, ++LIBFOO_PATCH+, +LIBFOO_SITE+, ++LIBFOO_SUBDIR+, +LIBFOO_DEPENDENCIES+, ++LIBFOO_INSTALL_STAGING+, +LIBFOO_INSTALL_TARGET+. + +A few additional variables, specific to the autotools infrastructure, +can also be defined. Many of them are only useful in very specific +cases, typical packages will therefore only use a few of them. + +* +LIBFOO_SUBDIR+ may contain the name of a subdirectory + inside the package that contains the configure script. This is useful, + if for example, the main configure script is not at the root of the + tree extracted by the tarball. If +HOST_LIBFOO_SUBDIR+ is + not specified, it defaults to +LIBFOO_SUBDIR+. + +* +LIBFOO_CONF_ENV+, to specify additional environment + variables to pass to the configure script. By default, empty. + +* +LIBFOO_CONF_OPT+, to specify additional configure + options to pass to the configure script. By default, empty. + +* +LIBFOO_MAKE+, to specify an alternate +make+ + command. This is typically useful when parallel make is enabled in + the configuration (using +BR2_JLEVEL+) but that this + feature should be disabled for the given package, for one reason or + another. By default, set to +$(MAKE)+. If parallel building + is not supported by the package, then it should be set to + +LIBFOO_MAKE=$(MAKE1)+. + +* +LIBFOO_MAKE_ENV+, to specify additional environment + variables to pass to make in the build step. These are passed before + the +make+ command. By default, empty. + +* +LIBFOO_MAKE_OPT+, to specify additional variables to + pass to make in the build step. These are passed after the + +make+ command. By default, empty. + +* +LIBFOO_AUTORECONF+, tells whether the package should + be autoreconfigured or not (i.e, if the configure script and + Makefile.in files should be re-generated by re-running autoconf, + automake, libtool, etc.). Valid values are +YES+ and + +NO+. By default, the value is +NO+ + +* +LIBFOO_AUTORECONF_OPT+ to specify additional options + passed to the 'autoreconf' program if + +LIBFOO_AUTORECONF=YES+. By default, empty. + +* +LIBFOO_LIBTOOL_PATCH+ tells whether the Buildroot + patch to fix libtool cross-compilation issues should be applied or + not. Valid values are +YES+ and +NO+. By + default, the value is +YES+ + +* +LIBFOO_INSTALL_STAGING_OPT+ contains the make options + used to install the package to the staging directory. By default, the + value is +DESTDIR=$$(STAGING_DIR) install+, which is + correct for most autotools packages. It is still possible to override + it. + +* +LIBFOO_INSTALL_TARGET_OPT+ contains the make options + used to install the package to the target directory. By default, the + value is +DESTDIR=$$(TARGET_DIR) install+. The default + value is correct for most autotools packages, but it is still possible + to override it if needed. + +* +LIBFOO_CLEAN_OPT+ contains the make options used to + clean the package. By default, the value is +clean+. + +* +LIBFOO_UNINSTALL_STAGING_OPT+, contains the make + options used to uninstall the package from the staging directory. By + default, the value is +DESTDIR=$$(STAGING_DIR) uninstall+. + +* +LIBFOO_UNINSTALL_TARGET_OPT+, contains the make + options used to uninstall the package from the target directory. By + default, the value is +DESTDIR=$$(TARGET_DIR) uninstall+. + +With the autotools infrastructure, all the steps required to build +and install the packages are already defined, and they generally work +well for most autotools-based packages. However, when required, it is +still possible to customize what is done in any particular step: + +* By adding a post-operation hook (after extract, patch, configure, + build or install). See the reference documentation of the generic + infrastructure for details. + +* By overriding one of the steps. For example, even if the autotools + infrastructure is used, if the package +.mk+ file defines its + own +LIBFOO_CONFIGURE_CMDS+ variable, it will be used + instead of the default autotools one. However, using this method + should be restricted to very specific cases. Do not use it in the + general case. diff --git a/docs/manual/adding-packages-cmaketargets.txt b/docs/manual/adding-packages-cmaketargets.txt new file mode 100644 index 000000000..b03eb6894 --- /dev/null +++ b/docs/manual/adding-packages-cmaketargets.txt @@ -0,0 +1,142 @@ +Infrastructure for CMake-based packages +--------------------------------------- + +[[cmaketargets-tutorial]] + ++CMAKETARGETS+ tutorial +~~~~~~~~~~~~~~~~~~~~~~~ + +First, let's see how to write a +.mk+ file for a CMake-based package, +with an example : + +------------------------ +01: ############################################################# +02: # +03: # libfoo +04: # +05: ############################################################# +06: LIBFOO_VERSION = 1.0 +07: LIBFOO_SOURCE = libfoo-$(LIBFOO_VERSION).tar.gz +08: LIBFOO_SITE = http://www.foosoftware.org/download +09: LIBFOO_INSTALL_STAGING = YES +10: LIBFOO_INSTALL_TARGET = YES +11: LIBFOO_CONF_OPT = -DBUILD_DEMOS=ON +12: LIBFOO_DEPENDENCIES = libglib2 host-pkg-config +13: +14: $(eval $(call CMAKETARGETS,package,libfoo)) +------------------------ + +On line 6, we declare the version of the package. + +On line 7 and 8, we declare the name of the tarball and the location +of the tarball on the Web. Buildroot will automatically download the +tarball from this location. + +On line 9, we tell Buildroot to install the package to the staging +directory. The staging directory, located in +output/staging/+ +is the directory where all the packages are installed, including their +development files, etc. By default, packages are not installed to the +staging directory, since usually, only libraries need to be installed in +the staging directory: their development files are needed to compile +other libraries or applications depending on them. Also by default, when +staging installation is enabled, packages are installed in this location +using the +make install+ command. + +On line 10, we tell Buildroot to also install the package to the +target directory. This directory contains what will become the root +filesystem running on the target. Usually, we try not to install header +files and to install stripped versions of the binary. By default, target +installation is enabled, so in fact, this line is not strictly +necessary. Also by default, packages are installed in this location +using the +make install+ command. + +On line 11, we tell Buildroot to pass custom options to CMake when it is +configuring the package. + +On line 12, we declare our dependencies, so that they are built +before the build process of our package starts. + +Finally, on line line 14, we invoke the +CMAKETARGETS+ +macro that generates all the Makefile rules that actually allows the +package to be built. + +[[cmaketargets-reference]] + ++CMAKETARGETS+ reference +~~~~~~~~~~~~~~~~~~~~~~~~ + +The main macro of the CMake package infrastructure is ++CMAKETARGETS+. It has the same number of arguments and the same +semantic as the +GENTARGETS+ macro, which is the main macro of the +generic package infrastructure. For CMake packages, the ability to +have target and host packages is also available. + +Just like the generic infrastructure, the CMake infrastructure works +by defining a number of variables before calling the +CMAKETARGETS+ +macro. + +First, all the package metadata information variables that exist in +the generic infrastructure also exist in the CMake infrastructure: ++LIBFOO_VERSION+, +LIBFOO_SOURCE+, +LIBFOO_PATCH+, +LIBFOO_SITE+, ++LIBFOO_SUBDIR+, +LIBFOO_DEPENDENCIES+, +LIBFOO_INSTALL_STAGING+, ++LIBFOO_INSTALL_TARGET+. + +A few additional variables, specific to the CMake infrastructure, can +also be defined. Many of them are only useful in very specific cases, +typical packages will therefore only use a few of them. + +* +LIBFOO_SUBDIR+ may contain the name of a subdirectory inside the + package that contains the main CMakeLists.txt file. This is useful, + if for example, the main CMakeLists.txt file is not at the root of + the tree extracted by the tarball. If +HOST_LIBFOO_SUBDIR+ is not + specified, it defaults to +LIBFOO_SUBDIR+. + +* +LIBFOO_CONF_ENV+, to specify additional environment variables to + pass to CMake. By default, empty. + +* +LIBFOO_CONF_OPT+, to specify additional configure options to pass + to CMake. By default, empty. + +* +LIBFOO_MAKE+, to specify an alternate +make+ command. This is + typically useful when parallel make is enabled in the configuration + (using +BR2_JLEVEL+) but that this feature should be disabled for + the given package, for one reason or another. By default, set to + +$(MAKE)+. If parallel building is not supported by the package, + then it should be set to +LIBFOO_MAKE=$(MAKE1)+. + +* +LIBFOO_MAKE_ENV+, to specify additional environment variables to + pass to make in the build step. These are passed before the +make+ + command. By default, empty. + +* +LIBFOO_MAKE_OPT+, to specify additional variables to pass to make + in the build step. These are passed after the +make+ command. By + default, empty. + +* +LIBFOO_INSTALL_STAGING_OPT+ contains the make options used to + install the package to the staging directory. By default, the value + is +DESTDIR=$$(STAGING_DIR) install+, which is correct for most + CMake packages. It is still possible to override it. + +* +LIBFOO_INSTALL_TARGET_OPT+ contains the make options used to + install the package to the target directory. By default, the value + is +DESTDIR=$$(TARGET_DIR) install+. The default value is correct + for most CMake packages, but it is still possible to override it if + needed. + +* +LIBFOO_CLEAN_OPT+ contains the make options used to clean the + package. By default, the value is +clean+. + +With the CMake infrastructure, all the steps required to build and +install the packages are already defined, and they generally work well +for most CMake-based packages. However, when required, it is still +possible to customize what is done in any particular step: + +* By adding a post-operation hook (after extract, patch, configure, + build or install). See the reference documentation of the generic + infrastructure for details. + +* By overriding one of the steps. For example, even if the CMake + infrastructure is used, if the package +.mk+ file defines its own + +LIBFOO_CONFIGURE_CMDS+ variable, it will be used instead of the + default CMake one. However, using this method should be restricted + to very specific cases. Do not use it in the general case. diff --git a/docs/manual/adding-packages-conclusion.txt b/docs/manual/adding-packages-conclusion.txt new file mode 100644 index 000000000..347582727 --- /dev/null +++ b/docs/manual/adding-packages-conclusion.txt @@ -0,0 +1,10 @@ +Conclusion +---------- + +As you can see, adding a software package to Buildroot is simply a +matter of writing a Makefile using an existing example and modifying it +according to the compilation process required by the package. + +If you package software that might be useful for other people, don't +forget to send a patch to Buildroot developers! + diff --git a/docs/manual/adding-packages-directory.txt b/docs/manual/adding-packages-directory.txt new file mode 100644 index 000000000..058ebad1c --- /dev/null +++ b/docs/manual/adding-packages-directory.txt @@ -0,0 +1,75 @@ +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: ++multimedia+, +java+, +x11r7+, and +games+. If your package fits in +one of these categories, then create your package directory in these. + ++Config.in+ file +~~~~~~~~~~~~~~~~ + +Then, 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/ +--------------------------- + +Of course, you can add other options 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://lxr.free-electrons.com/source/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" +-------------------------- + +The +.mk+ file +~~~~~~~~~~~~~~ + +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): These are + based on an infrastructure similar to the one used for + autotools-based packages, but requires a little more work from the + developer. They specify what should be done for the configuration, + compilation, installation and cleanup 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:gentargets-tutorial[tutorial] and a + xref:gentargets-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:autotargets-tutorial[tutorial] + and xref:autotargets-reference[reference]. + +* *Hand-written Makefiles:* These are currently obsolete, and no new + manual Makefiles should be added. However, since there are still + many of them in the tree, we keep them documented in a + xref:handwritten-tutorial[tutorial]. + diff --git a/docs/manual/adding-packages-gentargets.txt b/docs/manual/adding-packages-gentargets.txt new file mode 100644 index 000000000..9a319d161 --- /dev/null +++ b/docs/manual/adding-packages-gentargets.txt @@ -0,0 +1,307 @@ +Infrastructure for packages with specific build systems +------------------------------------------------------- + +By 'packages with specific build systems' we mean all the packages +whose build system is not one of the standard ones, such as +'autotools' or 'CMake'. This typically includes packages whose build +system is based on hand-written Makefiles or shell scripts. + +[[gentargets-tutorial]] + ++GENTARGETS+ Tutorial +~~~~~~~~~~~~~~~~~~~~~ + +------------------------------ +01: ############################################################# +02: # +03: # libfoo +04: # +05: ############################################################# +06: LIBFOO_VERSION = 1.0 +07: LIBFOO_SOURCE = libfoo-$(LIBFOO_VERSION).tar.gz +08: LIBFOO_SITE = http://www.foosoftware.org/download +09: LIBFOO_INSTALL_STAGING = YES +10: LIBFOO_DEPENDENCIES = host-libaaa libbbb +11: +12: define LIBFOO_BUILD_CMDS +13: $(MAKE) CC=$(TARGET_CC) LD=$(TARGET_LD) -C $(@D) all +14: endef +15: +16: define LIBFOO_INSTALL_STAGING_CMDS +17: $(INSTALL) -D -m 0755 $(@D)/libfoo.a $(STAGING_DIR)/usr/lib/libfoo.a +18: $(INSTALL) -D -m 0644 $(@D)/foo.h $(STAGING_DIR)/usr/include/foo.h +19: $(INSTALL) -D -m 0755 $(@D)/libfoo.so* $(STAGING_DIR)/usr/lib +20: endef +21: +22: define LIBFOO_INSTALL_TARGET_CMDS +23: $(INSTALL) -D -m 0755 $(@D)/libfoo.so* $(TARGET_DIR)/usr/lib +24: $(INSTALL) -d -m 0755 $(TARGET_DIR)/etc/foo.d +25: endef +26: +27: $(eval $(call GENTARGETS,package,libfoo)) +-------------------------------- + +The Makefile begins on line 6 to 8 with metadata information: the +version of the package (+LIBFOO_VERSION+), the name of the +tarball containing the package (+LIBFOO_SOURCE+) and the +Internet location at which the tarball can be downloaded +(+LIBFOO_SITE+). All variables must start with the same prefix, ++LIBFOO_+ in this case. This prefix is always the uppercased +version of the package name (see below to understand where the package +name is defined). + +On line 9, we specify that this package wants to install something to +the staging space. This is often needed for libraries, since they must +install header files and other development files in the staging space. +This will ensure that the commands listed in the ++LIBFOO_INSTALL_STAGING_CMDS+ variable will be executed. + +On line 10, we specify the list of dependencies this package relies +on. These dependencies are listed in terms of lower-case package names, +which can be packages for the target (without the +host-+ +prefix) or packages for the host (with the +host-+) prefix). +Buildroot will ensure that all these packages are built and installed +'before' the current package starts its configuration. + +The rest of the Makefile defines what should be done at the different +steps of the package configuration, compilation and installation. ++LIBFOO_BUILD_CMDS+ tells what steps should be performed to +build the package. +LIBFOO_INSTALL_STAGING_CMDS+ tells what +steps should be performed to install the package in the staging space. ++LIBFOO_INSTALL_TARGET_CMDS+ tells what steps should be +performed to install the package in the target space. + +All these steps rely on the +$(@D)+ variable, which +contains the directory where the source code of the package has been +extracted. + +Finally, on line 27, we call the +GENTARGETS+ which +generates, according to the variables defined previously, all the +Makefile code necessary to make your package working. + +[[gentargets-reference]] + ++GENTARGETS+ Reference +~~~~~~~~~~~~~~~~~~~~~~ + +The +GENTARGETS+ macro takes three arguments: + +* The first argument is the package directory prefix. If your package + is in +package/libfoo+, then the directory prefix is +package+. If + your package is in +package/editors/foo+, then the directory prefix + must be +package/editors+. + +* The second argument is the lower-cased package name. It must match + the prefix of the variables in the +.mk+ file and must match the + configuration option name in the +Config.in+ file. For example, if + the package name is +libfoo+, then the variables in the +.mk+ file + must start with +LIBFOO_+ and the configuration option in the + +Config.in+ file must be +BR2_PACKAGE_LIBFOO+. + +* The third argument is optional. It can be used to tell if the + package is a target package (cross-compiled for the target) or a + host package (natively compiled for the host). If unspecified, it is + assumed that it is a target package. See below for details. + +For a given package, in a single +.mk+ file, it is possible to call +GENTARGETS twice, once to create the rules to generate a target +package and once to create the rules to generate a host package: + +---------------------- +$(eval $(call GENTARGETS,package,libfoo)) +$(eval $(call GENTARGETS,package,libfoo,host)) +---------------------- + +This might be useful if the compilation of the target package requires +some tools to be installed on the host. If the package name is ++libfoo+, then the name of the package for the target is also ++libfoo+, while the name of the package for the host is ++host-libfoo+. These names should be used in the DEPENDENCIES +variables of other packages, if they depend on +libfoo+ or ++host-libfoo+. + +The call to the +GENTARGETS+ macro *must* be at the end of the +.mk+ +file, after all variable definitions. + +For the target package, the +GENTARGETS+ uses the variables defined by +the .mk file and prefixed by the uppercased package name: ++LIBFOO_*+. For the host package, it uses the +HOST_LIBFOO_*+. For +'some' variables, if the +HOST_LIBFOO_+ prefixed variable doesn't +exist, the package infrastructure uses the corresponding variable +prefixed by +LIBFOO_+. This is done for variables that are likely to +have the same value for both the target and host packages. See below +for details. + +The list of variables that can be set in a +.mk+ file to give metadata +information is (assuming the package name is +libfoo+) : + +* +LIBFOO_VERSION+, mandatory, must contain the version of the + package. Note that if +HOST_LIBFOO_VERSION+ doesn't exist, it is + assumed to be the same as +LIBFOO_VERSION+. It can also be a + Subversion or Git branch or tag, for packages that are fetched + directly from their revision control system. + + Example: +LIBFOO_VERSION = 0.1.2+ + +* +LIBFOO_SOURCE+ may contain the name of the tarball of + the package. If +HOST_LIBFOO_SOURCE+ is not specified, it + defaults to +LIBFOO_VERSION+. If none are specified, then + the value is assumed to be + +packagename-$(LIBFOO_VERSION).tar.gz+. + + Example: +LIBFOO_SOURCE = foobar-$(LIBFOO_VERSION).tar.bz2+ + +* +LIBFOO_PATCH+ may contain the name of a patch, that will be + downloaded from the same location as the tarball indicated in + +LIBFOO_SOURCE+. If +HOST_LIBFOO_PATCH+ is not specified, it + defaults to +LIBFOO_PATCH+. Also note that another mechanism is + available to patch a package: all files of the form + +packagename-packageversion-description.patch+ present in the + package directory inside Buildroot will be applied to the package + after extraction. + +* +LIBFOO_SITE+ may contain the Internet location of the package. It + can either be the HTTP or FTP location of a tarball, or the URL of a + Git or Subversion repository (see +LIBFOO_SITE_METHOD+ below). If + +HOST_LIBFOO_SITE+ is not specified, it defaults to + +LIBFOO_SITE+. If none are specified, then the location is assumed + to be + +http://$$(BR2_SOURCEFORGE_MIRROR).dl.sourceforge.net/sourceforge/packagename+. + + Examples: +LIBFOO_SITE=http://www.libfoosoftware.org/libfoo+ + + +LIBFOO_SITE=http://svn.xiph.org/trunk/Tremor/+ + +* +LIBFOO_SITE_METHOD+ may contain the method to fetch the package + source code. It can either be +wget+ (for normal FTP/HTTP downloads + of tarballs), +svn+, +git+ or +bzr+. When not specified, it is + guessed from the URL given in +LIBFOO_SITE+: +svn://+, +git://+ and + +bzr://+ URLs will use the +svn+, +git+ and +bzr+ methods + respectively. All other URL-types will use the +wget+ method. So for + example, in the case of a package whose source code is available + through Subversion repository on HTTP, one 'must' specifiy + +LIBFOO_SITE_METHOD=svn+. For +svn+ and +git+ methods, what + Buildroot does is a checkout/clone of the repository which is then + tarballed and stored into the download cache. Next builds will not + checkout/clone again, but will use the tarball directly. When + +HOST_LIBFOO_SITE_METHOD+ is not specified, it defaults to the value + of +LIBFOO_SITE_METHOD+. See +package/multimedia/tremor/+ for an + example. + +* +LIBFOO_DEPENDENCIES+ lists the dependencies (in terms of package + name) that are required for the current target package to + compile. These dependencies are guaranteed to be compiled and + installed before the configuration of the current package starts. In + a similar way, +HOST_LIBFOO_DEPENDENCIES+ lists the dependency for + the current host package. + +* +LIBFOO_INSTALL_STAGING+ can be set to +YES+ or +NO+ (default). If + set to +YES+, then the commands in the +LIBFOO_INSTALL_STAGING_CMDS+ + variables are executed to install the package into the staging + directory. + +* +LIBFOO_INSTALL_TARGET+ can be set to +YES+ (default) or +NO+. If + set to +YES+, then the commands in the +LIBFOO_INSTALL_TARGET_CMDS+ + variables are executed to install the package into the target + directory. + +The recommended way to define these variables is to use the following +syntax: + +---------------------- +LIBFOO_VERSION = 2.32 +---------------------- + +Now, the variables that define what should be performed at the +different steps of the build process. + +* +LIBFOO_CONFIGURE_CMDS+, used to list the actions to be performed to + configure the package before its compilation + +* +LIBFOO_BUILD_CMDS+, used to list the actions to be performed to + compile the package + +* +HOST_LIBFOO_INSTALL_CMDS+, used to list the actions to be performed + to install the package, when the package is a host package. The + package must install its files to the directory given by + +$(HOST_DIR)+. All files, including development files such as + headers should be installed, since other packages might be compiled + on top of this package. + +* +LIBFOO_INSTALL_TARGET_CMDS+, used to list the actions to be + performed to install the package to the target directory, when the + package is a target package. The package must install its files to + the directory given by +$(TARGET_DIR)+. Only the files required for + 'documentation' and 'execution' of the package should be + installed. Header files should not be installed, they will be copied + to the target, if the +development files in target filesystem+ + option is selected. + +* +LIBFOO_INSTALL_STAGING_CMDS+, used to list the actions to be + performed to install the package to the staging directory, when the + package is a target package. The package must install its files to + the directory given by +$(STAGING_DIR)+. All development files + should be installed, since they might be needed to compile other + packages. + +* +LIBFOO_CLEAN_CMDS+, used to list the actions to perform to clean up + the build directory of the package. + +* +LIBFOO_UNINSTALL_TARGET_CMDS+, used to list the actions to + uninstall the package from the target directory +$(TARGET_DIR)+ + +* +LIBFOO_UNINSTALL_STAGING_CMDS+, used to list the actions to + uninstall the package from the staging directory +$(STAGING_DIR)+. + +The preferred way to define these variables is: + +---------------------- +define LIBFOO_CONFIGURE_CMDS + action 1 + action 2 + action 3 +endef +---------------------- + +In the action definitions, you can use the following variables: + +* +$(@D)+, which contains the directory in which the package source + code has been uncompressed. + +* +$(TARGET_CC)+, +$(TARGET_LD)+, etc. to get the target + cross-compilation utilities + +* +$(TARGET_CROSS)+ to get the cross-compilation toolchain prefix + +* Of course the +$(HOST_DIR)+, +$(STAGING_DIR)+ and +$(TARGET_DIR)+ + variables to install the packages properly. + +The last feature of the generic infrastructure is the ability to add +hooks. These define further actions to perform after existing steps. +Most hooks aren't really useful for generic packages, since the +.mk+ +file already has full control over the actions performed in each step +of the package construction. The hooks are more useful for packages +using the autotools infrastructure described below. However, since +they are provided by the generic infrastructure, they are documented +here. The exception is +LIBFOO_POST_PATCH_HOOKS+. Patching the +package is not user definable, so +LIBFOO_POST_PATCH_HOOKS+ will be +userful for generic packages. + +The following hook points are available: + +* +LIBFOO_POST_PATCH_HOOKS+ +* +LIBFOO_PRE_CONFIGURE_HOOKS+ +* +LIBFOO_POST_CONFIGURE_HOOKS+ +* +LIBFOO_POST_BUILD_HOOKS+ +* +LIBFOO_POST_INSTALL_HOOKS+ (for host packages only) +* +LIBFOO_POST_INSTALL_STAGING_HOOKS+ (for target packages only) +* +LIBFOO_POST_INSTALL_TARGET_HOOKS+ (for target packages only) + +These variables are 'lists' of variable names containing actions to be +performed at this hook point. This allows several hooks to be +registered at a given hook point. Here is an example: + +---------------------- +define LIBFOO_POST_PATCH_FIXUP + action1 + action2 +endef + +LIBFOO_POST_PATCH_HOOKS += LIBFOO_POST_PATCH_FIXUP +---------------------- diff --git a/docs/manual/adding-packages-gettext.txt b/docs/manual/adding-packages-gettext.txt new file mode 100644 index 000000000..1ed834e15 --- /dev/null +++ b/docs/manual/adding-packages-gettext.txt @@ -0,0 +1,44 @@ +Gettext integration and interaction with packages +------------------------------------------------- + +Many packages that support internationalization use the gettext +library. Dependencies for this library are fairly complicated and +therefore, deserves some explanation. + +The 'uClibc' C library doesn't implement gettext functionality, +therefore with this C library, a separate gettext must be compiled. On +the other hand, the 'glibc' C library does integrate its own gettext, +and in this case, the separate gettext library should not be compiled, +because it creates various kinds of build failures. + +Additionally, some packages (such as +libglib2+) do require gettext +unconditionally, while other packages (those who support ++--disable-nls+ in general) only require gettext when locale support +is enabled. + +Therefore, Buildroot defines two configuration options: + +* +BR2_NEEDS_GETTEXT+, which is true as soon as the toolchain doesn't + provide its own gettext implementation + +* +BR2_NEEDS_GETTEXT_IF_LOCALE+, which is true if the toolchain + doesn't provide its own gettext implementation and if locale support + is enabled + +Therefore, packages that unconditionally need gettext should: + +* Use +select BR2_PACKAGE_GETTEXT if BR2_NEEDS_GETTEXT+ and possibly + +select BR2_PACKAGE_LIBINTL if BR2_NEEDS_GETTEXT+, if libintl is + also needed + +* Use +$(if $(BR2_NEEDS_GETTEXT),gettext)+ in the package + +DEPENDENCIES+ variable + +Packages that need gettext only when locale support is enabled should: + +* Use +select BR2_PACKAGE_GETTEXT if BR2_NEEDS_GETTEXT_IF_LOCALE+ and + possibly +select BR2_PACKAGE_LIBINTL if + BR2_NEEDS_GETTEXT_IF_LOCALE+, if libintl is also needed + +* Use +$(if $(BR2_NEEDS_GETTEXT_IF_LOCALE),gettext)+ in the package + +DEPENDENCIES+ variable diff --git a/docs/manual/adding-packages-handwritten.txt b/docs/manual/adding-packages-handwritten.txt new file mode 100644 index 000000000..a9d247ca8 --- /dev/null +++ b/docs/manual/adding-packages-handwritten.txt @@ -0,0 +1,167 @@ +[[handwritten-tutorial]] + +Manual Makefile +--------------- + +*NOTE: new manual makefiles should not be created, and existing manual +makefiles should be converted either to the generic, autotools or +cmake infrastructure. This section is only kept to document the +existing manual makefiles and to help understand how they work.* + +------------------------ +01: ############################################################# +02: # +03: # libfoo +04: # +05: ############################################################# +06: LIBFOO_VERSION:=1.0 +07: LIBFOO_SOURCE:=libfoo-$(LIBFOO_VERSION).tar.gz +08: LIBFOO_SITE:=http://www.foosoftware.org/downloads +09: LIBFOO_DIR:=$(BUILD_DIR)/foo-$(FOO_VERSION) +10: LIBFOO_BINARY:=foo +11: LIBFOO_TARGET_BINARY:=usr/bin/foo +12: +13: $(DL_DIR)/$(LIBFOO_SOURCE): +14: $(call DOWNLOAD,$(LIBFOO_SITE),$(LIBFOO_SOURCE)) +15: +16: $(LIBFOO_DIR)/.source: $(DL_DIR)/$(LIBFOO_SOURCE) +17: $(ZCAT) $(DL_DIR)/$(LIBFOO_SOURCE) | tar -C $(BUILD_DIR) $(TAR_OPTIONS) - +18: touch $@ +19: +20: $(LIBFOO_DIR)/.configured: $(LIBFOO_DIR)/.source +21: (cd $(LIBFOO_DIR); rm -rf config.cache; \ +22: $(TARGET_CONFIGURE_OPTS) \ +23: $(TARGET_CONFIGURE_ARGS) \ +24: ./configure \ +25: --target=$(GNU_TARGET_NAME) \ +26: --host=$(GNU_TARGET_NAME) \ +27: --build=$(GNU_HOST_NAME) \ +28: --prefix=/usr \ +29: --sysconfdir=/etc \ +30: ) +31: touch $@ +32: +33: $(LIBFOO_DIR)/$(LIBFOO_BINARY): $(LIBFOO_DIR)/.configured +34: $(MAKE) CC=$(TARGET_CC) -C $(LIBFOO_DIR) +35: +36: $(TARGET_DIR)/$(LIBFOO_TARGET_BINARY): $(LIBFOO_DIR)/$(LIBFOO_BINARY) +37: $(MAKE) DESTDIR=$(TARGET_DIR) -C $(LIBFOO_DIR) install-strip +38: rm -Rf $(TARGET_DIR)/usr/man +39: +40: libfoo: uclibc ncurses $(TARGET_DIR)/$(LIBFOO_TARGET_BINARY) +41: +42: libfoo-source: $(DL_DIR)/$(LIBFOO_SOURCE) +43: +44: libfoo-clean: +45: $(MAKE) prefix=$(TARGET_DIR)/usr -C $(LIBFOO_DIR) uninstall +46: -$(MAKE) -C $(LIBFOO_DIR) clean +47: +48: libfoo-dirclean: +49: rm -rf $(LIBFOO_DIR) +50: +51: ############################################################# +52: # +53: # Toplevel Makefile options +54: # +55: ############################################################# +56: ifeq ($(BR2_PACKAGE_LIBFOO),y) +57: TARGETS+=libfoo +58: endif +------------------------ + +First of all, this Makefile example works for a package which +comprises a single binary executable. For other software, such as +libraries or more complex stuff with multiple binaries, it must be +qqadapted. For examples look at the other +*.mk+ files in the ++package+ directory. + +At lines 6-11, a couple of useful variables are defined: + +* +LIBFOO_VERSION+: The version of 'libfoo' that should be downloaded. + +* +LIBFOO_SOURCE+: The name of the tarball of 'libfoo' on the download + website or FTP site. As you can see +LIBFOO_VERSION+ is used. + +* +LIBFOO_SITE+: The HTTP or FTP site from which 'libfoo' archive is + downloaded. It must include the complete path to the directory where + +LIBFOO_SOURCE+ can be found. + +* +LIBFOO_DIR+: The directory into which the software will be + configured and compiled. Basically, it's a subdirectory of + +BUILD_DIR+ which is created upon decompression of the tarball. + +* +LIBFOO_BINARY+: Software binary name. As said previously, this is + an example for a package with a single binary. + +* +LIBFOO_TARGET_BINARY+: The full path of the binary inside the + target filesystem. Lines 13-14 define a target that downloads the + tarball from the remote site to the download directory (+DL_DIR+). + +Lines 16-18 define a target and associated rules that uncompress the +downloaded tarball. As you can see, this target depends on the tarball +file so that the previous target (lines 13-14) is called before +executing the rules of the current target. Uncompressing is followed +by 'touching' a hidden file to mark the software as having been +uncompressed. This trick is used everywhere in a Buildroot Makefile to +split steps (download, uncompress, configure, compile, install) while +still having correct dependencies. + +Lines 20-31 define a target and associated rules that configure the +software. It depends on the previous target (the hidden +.source+ +file) so that we are sure the software has been uncompressed. In order +to configure the package, it basically runs the well-known ++./configure+ script. As we may be doing cross-compilation, +target+, ++host+ and +build+ arguments are given. The prefix is also set to ++/usr+, not because the software will be installed in +/usr+ on your +host system, but because the software will be installed in + /usr+ on +the target filesystem. Finally it creates a +.configured+ file to mark +the software as configured. + +Lines 33-34 define a target and a rule that compile the software. This +target will create the binary file in the compilation directory and +depends on the software being already configured (hence the reference +to the +.configured+ file). It basically runs +make+ inside the +source directory. + +Lines 36-38 define a target and associated rules that install the +software inside the target filesystem. They depend on the binary file +in the source directory to make sure the software has been +compiled. They use the +install-strip+ target of the software ++Makefile+ by passing a +DESTDIR+ argument so that the +Makefile+ +doesn't try to install the software in the host +/usr+ but rather in +the target +/usr+. After the installation, the +/usr/man + directory +inside the target filesystem is removed to save space. + +Line 40 defines the main target of the software — the one that +will eventually be used by the top level +Makefile+ to download, +compile, and then install this package. This target should first of +all depend on all needed dependencies of the software (in our example, +'uclibc' and 'ncurses') and also depend on the final binary. This last +dependency will call all previous dependencies in the correct order. + +Line 42 defines a simple target that only downloads the code +source. This is not used during normal operation of Buildroot, but is +needed if you intend to download all required sources at once for +later offline build. Note that if you add a new package, providing a ++libfoo-source+ target is 'mandatory' to support users that wish to do +offline-builds. Furthermore, it eases checking if all package-sources +are downloadable. + +Lines 44-46 define a simple target to clean the software build by +calling the Makefile with the appropriate options. The +-clean+ +target should run +make clean+ on $(BUILD_DIR)/package-version and +MUST uninstall all files of the package from $(STAGING_DIR) and from +$(TARGET_DIR). + +Lines 48-49 define a simple target to completely remove the directory +in which the software was uncompressed, configured and compiled. The ++-dirclean+ target MUST completely rm $(BUILD_DIR)/ package-version. + +Lines 51-58 add the target +libfoo+ to the list of targets to be +compiled by Buildroot, by first checking if the configuration option +for this package has been enabled using the configuration tool. If so, +it then "subscribes" this package to be compiled by adding +the package to the TARGETS global variable. The name added to the +TARGETS global variable is the name of this package's target, as +defined on line 40, which is used by Buildroot to download, compile, +and then install this package. diff --git a/docs/manual/adding-packages.txt b/docs/manual/adding-packages.txt new file mode 100644 index 000000000..0217e9f4b --- /dev/null +++ b/docs/manual/adding-packages.txt @@ -0,0 +1,21 @@ +Adding new packages to Buildroot +================================ + +This section covers how new packages (userspace libraries or +applications) can be integrated into Buildroot. It also shows how +existing packages are integrated, which is needed for fixing issues or +tuning their configuration. + +include::adding-packages-directory.txt[] + +include::adding-packages-gentargets.txt[] + +include::adding-packages-autotargets.txt[] + +include::adding-packages-cmaketargets.txt[] + +include::adding-packages-handwritten.txt[] + +include::adding-packages-gettext.txt[] + +include::adding-packages-conclusion.txt[] diff --git a/docs/manual/board-support.txt b/docs/manual/board-support.txt new file mode 100644 index 000000000..d1d9d6380 --- /dev/null +++ b/docs/manual/board-support.txt @@ -0,0 +1,35 @@ +Creating your own board support +=============================== + +Creating your own board support in Buildroot allows users of a +particular hardware platform to easily build a system that is known to +work. + +To do so, you need to create a normal Buildroot configuration that +builds a basic system for the hardware: toolchain, kernel, bootloader, +filesystem and a simple Busybox-only userspace. No specific package +should be selected: the configuration should be as minimal as +possible, and should only build a working basic Busybox system for the +target platform. You can of course use more complicated configurations +for your internal projects, but the Buildroot project will only +integrate basic board configurations. This is because package +selections are highly application-specific. + +Once you have a known working configuration, run +make +savedefconfig+. This will generate a minimal +defconfig+ file at the +root of the Buildroot source tree. Move this file into the +configs/+ +directory, and rename it +MYBOARD_defconfig+. + +It is recommended to use as much as possible upstream versions of the +Linux kernel and bootloaders, and to use as much as possible default +kernel and bootloader configurations. If they are incorrect for your +platform, we encourage you to send fixes to the corresponding upstream +projects. + +However, in the mean time, you may want to store kernel or bootloader +configuration or patches specific to your target platform. To do so, +create a directory +board/MANUFACTURER+ and a subdirectory ++board/MANUFACTURER/BOARDNAME+ (after replacing, of course, +MANUFACTURER and BOARDNAME with the appropriate values, in lower case +letters). You can then store your patches and configurations in these +directories, and reference them from the main Buildroot configuration. diff --git a/docs/manual/ccache-support.txt b/docs/manual/ccache-support.txt new file mode 100644 index 000000000..ab8cbad1d --- /dev/null +++ b/docs/manual/ccache-support.txt @@ -0,0 +1,21 @@ +Using +ccache+ in Buildroot +=========================== + +http://ccache.samba.org[ccache] is a compiler cache. It stores the +object files resulting from each compilation process, and is able to +skip future compilation of the same source file (with same compiler +and same arguments) by using the pre-existing object files. When doing +almost identical builds from scratch a number of times, it can nicely +speed up the build process. + ++ccache+ support is integrated in Buildroot. You just have to enable ++Enable compiler cache+ in +Build options+. This will automatically +build +ccache+ and use it for every host and target compilation. + +The cache is located in +$HOME/.buildroot-ccache+. It is stored +outside of Buildroot output directory so that it can be shared by +separate Buildroot builds. If you want to get rid of the cache, simply +remove this directory. + +You can get statistics on the cache (its size, number of hits, +misses, etc.) by running +make ccache-stats+. diff --git a/docs/manual/customize-busybox-config.txt b/docs/manual/customize-busybox-config.txt new file mode 100644 index 000000000..60e6a5561 --- /dev/null +++ b/docs/manual/customize-busybox-config.txt @@ -0,0 +1,24 @@ +Customizing the Busybox configuration +------------------------------------- +[[busybox-custom]] + +http://www.busybox.net/[Busybox] is very configurable, and you may +want to customize it. You can follow these simple steps to do so. This +method isn't optimal, but it's simple, and it works: + +* Do an initial compilation of Buildroot, with busybox, without + trying to customize it. + +* Invoke +make busybox-menuconfig+. + The nice configuration tool appears, and you can + customize everything. + +* Run the compilation of Buildroot again. + +Otherwise, you can simply change the ++package/busybox/busybox-<version>.config+ file, if you know the +options you want to change, without using the configuration tool. + +If you want to use an existing config file for busybox, then see +section xref:env-vars[]. + diff --git a/docs/manual/customize-kernel-config.txt b/docs/manual/customize-kernel-config.txt new file mode 100644 index 000000000..6bafe46d7 --- /dev/null +++ b/docs/manual/customize-kernel-config.txt @@ -0,0 +1,12 @@ +Customizing the Linux kernel configuration +------------------------------------------ + +The Linux kernel configuration can be customized just like +xref:busybox-custom[BusyBox] and xref:uclibc-custom[uClibc] using ++make linux-menuconfig+. Make sure you have enabled the kernel build +in +make menuconfig+ first. Once done, run +make+ to (re)build +everything. + +If you want to use an existing config file for Linux, then see +xref:env-vars[]. + diff --git a/docs/manual/customize-rootfs.txt b/docs/manual/customize-rootfs.txt new file mode 100644 index 000000000..8c3ea82ad --- /dev/null +++ b/docs/manual/customize-rootfs.txt @@ -0,0 +1,36 @@ +Customizing the generated target filesystem +------------------------------------------- + +There are a few ways to customize the resulting target filesystem: + +* Customize the target filesystem directly and rebuild the image. The + target filesystem is available under +output/target/+. You can + simply make your changes here and run make afterwards - this will + rebuild the target filesystem image. This method allows you to do + anything to the target filesystem, but if you decide to completely + rebuild your toolchain and tools, these changes will be lost. + +* Create your own 'target skeleton'. You can start with the default + skeleton available under +fs/skeleton+ and then customize it to suit + your needs. The +BR2_ROOTFS_SKELETON_CUSTOM+ and + +BR2_ROOTFS_SKELETON_CUSTOM_PATH+ will allow you to specify the + location of your custom skeleton. At build time, the contents of the + skeleton are copied to output/target before any package + installation. + +* In the Buildroot configuration, you can specify the path to a + post-build script, that gets called 'after' Buildroot builds all the + selected software, but 'before' the rootfs packages are + assembled. The destination root filesystem folder is given as the + first argument to this script, and this script can then be used to + copy programs, static data or any other needed file to your target + filesystem. You should, however, use this feature with care. + Whenever you find that a certain package generates wrong or unneeded + files, you should fix that package rather than work around it with a + post-build cleanup script. + +* A special package, 'customize', stored in +package/customize+ can be + used. You can put all the files that you want to see in the final + target root filesystem in +package/customize/source+, and then + enable this special package in the configuration system. + diff --git a/docs/manual/customize-uclibc-config.txt b/docs/manual/customize-uclibc-config.txt new file mode 100644 index 000000000..e2e679920 --- /dev/null +++ b/docs/manual/customize-uclibc-config.txt @@ -0,0 +1,32 @@ +Customizing the uClibc configuration +------------------------------------ +[[uclibc-custom]] + +Just like xref:busybox-custom[BusyBox], http://www.uclibc.org/[uClibc] +offers a lot of configuration options. They allow you to select +various functionalities depending on your needs and limitations. + +The easiest way to modify the configuration of uClibc is to +follow these steps: + +* Do an initial compilation of Buildroot without trying to customize + uClibc. + +* Invoke +make uclibc-menuconfig+. The nice configuration assistant, + similar to the one used in the Linux kernel or Buildroot, + appears. Make your configuration changes as appropriate. + +* Copy the +$(O)/toolchain/uclibc-VERSION/.config+ file to a different + place (like +toolchain/uClibc/uClibc-myconfig.config+, or + +board/mymanufacturer/myboard/uClibc.config+) and adjust the uClibc + configuration (configuration option +BR2_UCLIBC_CONFIG+) to use this + configuration instead of the default one. + +* Run the compilation of Buildroot again. + +Otherwise, you can simply change +toolchain/uClibc/uClibc.config+, +without running the configuration assistant. + +If you want to use an existing config file for uclibc, then see +xref:env-vars[]. + diff --git a/docs/manual/customize.txt b/docs/manual/customize.txt new file mode 100644 index 000000000..c9f4dfd41 --- /dev/null +++ b/docs/manual/customize.txt @@ -0,0 +1,10 @@ +Customization +============= + +include::customize-rootfs.txt[] + +include::customize-busybox-config.txt[] + +include::customize-uclibc-config.txt[] + +include::customize-kernel-config.txt[] diff --git a/docs/manual/download-location.txt b/docs/manual/download-location.txt new file mode 100644 index 000000000..cb6147f2b --- /dev/null +++ b/docs/manual/download-location.txt @@ -0,0 +1,26 @@ +Location of downloaded packages +=============================== + +It might be useful to know that the various tarballs that are +downloaded by the Makefiles are all stored in the +DL_DIR+ which by +default is the +dl+ directory. It's useful, for example, if you want +to keep a complete version of Buildroot which is known to be working +with the associated tarballs. This will allow you to regenerate the +toolchain and the target filesystem with exactly the same versions. + +If you maintain several Buildroot trees, it might be better to have a +shared download location. This can be accessed by creating a symbolic +link from the +dl+ directory to the shared download location: + +----------------- + $ ln -s <shared download location> dl +----------------- + +Another way of accessing a shared download location is to create the ++BUILDROOT_DL_DIR+ environment variable. If this is set, then the +value of DL_DIR in the project is overridden. The following line +should be added to +<~/.bashrc>+. + +----------------- + $ export BUILDROOT_DL_DIR <shared download location> +----------------- diff --git a/docs/manual/external-toolchain.txt b/docs/manual/external-toolchain.txt new file mode 100644 index 000000000..20eebdb20 --- /dev/null +++ b/docs/manual/external-toolchain.txt @@ -0,0 +1,84 @@ +Using an external toolchain +=========================== + +Using an already existing toolchain is useful for different +reasons: + +* you already have a toolchain that is known to work for your specific + CPU + +* you want to speed up the Buildroot build process by skipping the + long toolchain build part + +* the toolchain generation feature of Buildroot is not sufficiently + flexible for you (for example if you need to generate a system with + 'glibc' instead of 'uClibc') + +Buildroot supports using existing toolchains through a mechanism +called 'external toolchain'. The external toolchain mechanism is +enabled in the +Toolchain+ menu, by selecting +External toolchain+ in ++Toolchain type+. + +Then, you have three solutions to use an external toolchain: + +* Use a predefined external toolchain profile, and let Buildroot + download, extract and install the toolchain. Buildroot already knows + about a few CodeSourcery toolchains for ARM, PowerPC, MIPS and + SuperH. Just select the toolchain profile in +Toolchain+ through the + available ones. This is definitely the easiest solution. + +* Use a predefined external toolchain profile, but instead of having + Buildroot download and extract the toolchain, you can tell Buildroot + where your toolchain is already installed on your system. Just + select the toolchain profile in +Toolchain+ through the available + ones, unselect +Download toolchain automatically+, and fill the + +Toolchain path+ text entry with the path to your cross-compiling + toolchain. + +* Use a completely custom external toolchain. This is particularly + useful for toolchains generated using crosstool-NG. To do this, + select the +Custom toolchain+ solution in the +Toolchain+ list. You + need to fill the +Toolchain path+, +Toolchain prefix+ and +External + toolchain C library+ options. Then, you have to tell Buildroot what + your external toolchain supports. If your external toolchain uses + the 'glibc' library, you only have to tell whether your toolchain + supports C++ or not. If your external toolchain uses the 'uclibc' + library, then you have to tell Buildroot if it supports largefile, + IPv6, RPC, wide-char, locale, program invocation, threads and + C++. At the beginning of the execution, Buildroot will tell you if + the selected options do not match the toolchain configuration. + + +Our external toolchain support has been tested with toolchains from +CodeSourcery, toolchains generated by +http://crosstool-ng.org[crosstool-NG], and toolchains generated by +Buildroot itself. In general, all toolchains that support the +'sysroot' feature should work. If not, do not hesitate to contact the +developers. + +We do not support toolchains from the +http://www.denx.de/wiki/DULG/ELDK[ELDK] of Denx, for two reasons: + +* The ELDK does not contain a pure toolchain (i.e just the compiler, + binutils, the C and C++ libraries), but a toolchain that comes with + a very large set of pre-compiled libraries and programs. Therefore, + Buildroot cannot import the 'sysroot' of the toolchain, as it would + contain hundreds of megabytes of pre-compiled libraries that are + normally built by Buildroot. + +* The ELDK toolchains have a completely non-standard custom mechanism + to handle multiple library variants. Instead of using the standard + GCC 'multilib' mechanism, the ARM ELDK uses different symbolic links + to the compiler to differentiate between library variants (for ARM + soft-float and ARM VFP), and the PowerPC ELDK compiler uses a + +CROSS_COMPILE+ environment variable. This non-standard behaviour + makes it difficult to support ELDK in Buildroot. + +We also do not support using the distribution toolchain (i.e the +gcc/binutils/C library installed by your distribution) as the +toolchain to build software for the target. This is because your +distribution toolchain is not a "pure" toolchain (i.e only with the +C/C++ library), so we cannot import it properly into the Buildroot +build environment. So even if you are building a system for a x86 or +x86_64 target, you have to generate a cross-compilation toolchain with +Buildroot or crosstool-NG. diff --git a/docs/manual/getting.txt b/docs/manual/getting.txt new file mode 100644 index 000000000..42ca0098d --- /dev/null +++ b/docs/manual/getting.txt @@ -0,0 +1,23 @@ +Getting Buildroot +================= + +Buildroot releases are made approximately every 3 months. Direct Git +access and daily snapshots are also available, if you want more +bleeding edge. + +Releases are available at http://buildroot.net/downloads/[]. + +The latest snapshot is always available at +http://buildroot.net/downloads/snapshots/buildroot-snapshot.tar.bz2[], +and previous snapshots are also available at +http://buildroot.net/downloads/snapshots/[]. + +To download Buildroot using Git, you can simply follow the rules +described on the "Accessing Git" page +(http://buildroot.net/git.html[]) of the Buildroot website +(http://buildroot.net[]). For the impatient, here's a quick recipe: + +--------------------- + $ git clone git://git.buildroot.net/buildroot +--------------------- + diff --git a/docs/manual/how-buildroot-works.txt b/docs/manual/how-buildroot-works.txt new file mode 100644 index 000000000..481e5a480 --- /dev/null +++ b/docs/manual/how-buildroot-works.txt @@ -0,0 +1,59 @@ +How Buildroot works +=================== + +As mentioned above, Buildroot is basically a set of Makefiles that +download, configure, and compile software with the correct options. It +also includes patches for various software packages - mainly the ones +involved in the cross-compilation tool chain (+gcc+, +binutils+ and ++uClibc+). + +There is basically one Makefile per software package, and they are +named with the +.mk+ extension. Makefiles are split into three main +sections: + +* *toolchain* (in the +toolchain/+ directory) contains the Makefiles + and associated files for all software related to the + cross-compilation toolchain: +binutils+, +gcc+, +gdb+, + +kernel-headers+ and +uClibc+. + +* *package* (in the +package/+ directory) contains the Makefiles and + associated files for all user-space tools that Buildroot can compile + and add to the target root filesystem. There is one sub-directory + per tool. + +* *target* (in the +target+ directory) contains the Makefiles and + associated files for software related to the generation of the + target root filesystem image. Four types of filesystems are + supported: ext2, jffs2, cramfs and squashfs. For each of them there + is a sub-directory with the required files. There is also a + +default/+ directory that contains the target filesystem skeleton. + +Each directory contains at least 2 files: + +* +something.mk+ is the Makefile that downloads, configures, + compiles and installs the package +something+. + +* +Config.in+ is a part of the configuration tool + description file. It describes the options related to the + package. + +The main Makefile performs the following steps (once the +configuration is done): + +* Create all the output directories: +staging+, +target+, +build+, + +stamps+, etc. in the output directory (+output/+ by default, + another value can be specified using +O=+) + +* Generate all the targets listed in the +BASE_TARGETS+ variable. When + an internal toolchain is used, this means generating the + cross-compilation toolchain. When an external toolchain is used, + this means checking the features of the external toolchain and + importing it into the Buildroot environment. + +* Generate all the targets listed in the +TARGETS+ variable. This + variable is filled by all the individual components' + Makefiles. Generating these targets will trigger the compilation of + the userspace packages (libraries, programs), the kernel, the + bootloader and the generation of the root filesystem images, + depending on the configuration. + diff --git a/docs/manual/introduction.txt b/docs/manual/introduction.txt new file mode 100644 index 000000000..476ce257b --- /dev/null +++ b/docs/manual/introduction.txt @@ -0,0 +1,69 @@ +About Buildroot +=============== + +Buildroot is a set of Makefiles and patches that allows you to easily +generate a cross-compilation toolchain, a root filesystem and a Linux +kernel image for your target. Buildroot can be used for one, two or +all of these options, independently. + +Buildroot is useful mainly for people working with embedded systems. +Embedded systems often use processors that are not the regular x86 +processors everyone is used to having in his PC. They can be PowerPC +processors, MIPS processors, ARM processors, etc. + +A compilation toolchain is the set of tools that allows you to compile +code for your system. It consists of a compiler (in our case, +gcc+), +binary utils like assembler and linker (in our case, +binutils+) and a +C standard library (for example +http://www.gnu.org/software/libc/libc.html[GNU Libc], +http://www.uclibc.org/[uClibc] or +http://www.fefe.de/dietlibc/[dietlibc]). The system installed on your +development station certainly already has a compilation toolchain that +you can use to compile an application that runs on your system. If +you're using a PC, your compilation toolchain runs on an x86 processor +and generates code for an x86 processor. Under most Linux systems, the +compilation toolchain uses the GNU libc (glibc) as the C standard +library. This compilation toolchain is called the "host compilation +toolchain". The machine on which it is running, and on which you're +working, is called the "host system". The compilation toolchain is +provided by your distribution, and Buildroot has nothing to do with it +(other than using it to build a cross-compilation toolchain and other +tools that are run on the development host). + +As said above, the compilation toolchain that comes with your system +runs on and generates code for the processor in your host system. As +your embedded system has a different processor, you need a +cross-compilation toolchain - a compilation toolchain that runs on +your host system but generates code for your target system (and target +processor). For example, if your host system uses x86 and your target +system uses ARM, the regular compilation toolchain on your host runs on +x86 and generates code for x86, while the cross-compilation toolchain +runs on x86 and generates code for ARM. + +Even if your embedded system uses an x86 processor, you might be +interested in Buildroot for two reasons: + +* The compilation toolchain on your host certainly uses the GNU Libc + which is a complete but huge C standard library. Instead of using + GNU Libc on your target system, you can use uClibc which is a tiny C + standard library. If you want to use this C library, then you need a + compilation toolchain to generate binaries linked with it. Buildroot + can do that for you. + +* Buildroot automates the building of a root filesystem with all + needed tools like busybox. That makes it much easier than doing it + by hand. + +You might wonder why such a tool is needed when you can compile +gcc+, ++binutils+, +uClibc+ and all the other tools by hand. Of course doing +so is possible but, dealing with all of the configure options and +problems of every +gcc+ or +binutils+ version is very time-consuming +and uninteresting. Buildroot automates this process through the use +of Makefiles and has a collection of patches for each +gcc+ and ++binutils+ version to make them work on most architectures. + +Moreover, Buildroot provides an infrastructure for reproducing the +build process of your kernel, cross-toolchain, and embedded root +filesystem. Being able to reproduce the build process will be useful +when a component needs to be patched or updated or when another person +is supposed to take over the project. diff --git a/docs/manual/manual.txt b/docs/manual/manual.txt new file mode 100644 index 000000000..10ce69508 --- /dev/null +++ b/docs/manual/manual.txt @@ -0,0 +1,32 @@ +The Buildroot user manual +========================= +:toc: + +Buildroot usage and documentation by Thomas Petazzoni. Contributions +from Karsten Kruse, Ned Ludd, Martin Herren and others. + +image::logo.png[] + +:leveloffset: 1 + +include::introduction.txt[] + +include::getting.txt[] + +include::using.txt[] + +include::customize.txt[] + +include::rebuilding-packages.txt[] + +include::how-buildroot-works.txt[] + +include::using-buildroot-toolchain.txt[] + +include::external-toolchain.txt[] + +include::ccache-support.txt[] + +include::download-location.txt[] + +include::adding-packages.txt[] diff --git a/docs/manual/rebuilding-packages.txt b/docs/manual/rebuilding-packages.txt new file mode 100644 index 000000000..9a41a88ac --- /dev/null +++ b/docs/manual/rebuilding-packages.txt @@ -0,0 +1,62 @@ +Understanding how to rebuild packages +===================================== + +One of the most common questions asked by Buildroot users is how to +rebuild a given package or how to remove a package without rebuilding +everything from scratch. + +Removing a package is currently unsupported by Buildroot without +rebuilding from scratch. This is because Buildroot doesn't keep track +of which package installs what files in the +output/staging+ and ++output/target+ directories. However, implementing clean package +removal is on the TODO-list of Buildroot developers. + +The easiest way to rebuild a single package from scratch is to remove +its build directory in +output/build+. Buildroot will then re-extract, +re-configure, re-compile and re-install this package from scratch. + +However, if you don't want to rebuild the package completely from +scratch, a better understanding of the Buildroot internals is +needed. Internally, to keep track of which steps have been done and +which steps remain to be done, Buildroot maintains stamp files (empty +files that just tell whether this or that action has been done). The +problem is that these stamp files are not uniformly named and handled +by the different packages, so some understanding of the particular +package is needed. + +For packages relying on Buildroot packages infrastructures (see +xref:add-packages[this section] for details), the following stamp +files are relevant: + +* +output/build/packagename-version/.stamp_configured+. If removed, + Buildroot will trigger the recompilation of the package from the + configuration step (execution of +./configure+). + +* +output/build/packagename-version/.stamp_built+. If removed, + Buildroot will trigger the recompilation of the package from the + compilation step (execution of +make+). + +For other packages, an analysis of the specific 'package.mk' file is +needed. For example, the zlib Makefile used to look like this (before +it was converted to the generic package infrastructure): + +----------------- +$(ZLIB_DIR)/.configured: $(ZLIB_DIR)/.patched + (cd $(ZLIB_DIR); rm -rf config.cache; \ + [...] + ) + touch $@ + +$(ZLIB_DIR)/libz.a: $(ZLIB_DIR)/.configured + $(MAKE) -C $(ZLIB_DIR) all libz.a + touch -c $@ +----------------- + +If you want to trigger the reconfiguration, you need to remove ++output/build/zlib-version/.configured+. If you want to trigger only +the recompilation, you need to remove ++output/build/zlib-version/libz.a+. + +Note that most packages, if not all, will progressively be ported over +to the generic or autotools infrastructure, making it much easier to +rebuild individual packages. diff --git a/docs/manual/using-buildroot-toolchain.txt b/docs/manual/using-buildroot-toolchain.txt new file mode 100644 index 000000000..712e9a89e --- /dev/null +++ b/docs/manual/using-buildroot-toolchain.txt @@ -0,0 +1,20 @@ +Using the generated toolchain outside Buildroot +=============================================== + +You may want to compile, for your target, your own programs or other +software that are not packaged in Buildroot. In order to do this you +can use the toolchain that was generated by Buildroot. + +The toolchain generated by Buildroot is located by default in ++output/host/+. The simplest way to use it is to add ++output/host/usr/bin/+ to your PATH environment variable and then to +use +ARCH-linux-gcc+, +ARCH-linux-objdump+, +ARCH-linux-ld+, etc. + +It is possible to relocate the toolchain - but then +--sysroot+ must +be passed every time the compiler is called to tell where the +libraries and header files are. + +It is also possible to generate the Buildroot toolchain in a directory +other than +output/host+ by using the +Build options -> Host dir+ +option. This could be useful if the toolchain must be shared with +other users. diff --git a/docs/manual/using.txt b/docs/manual/using.txt new file mode 100644 index 000000000..8d7f0a7bc --- /dev/null +++ b/docs/manual/using.txt @@ -0,0 +1,183 @@ +Using Buildroot +=============== + +Configuration and general usage +------------------------------- + +Buildroot has a nice configuration tool similar to the one you can +find in the http://www.kernel.org/[Linux kernel] or in +http://www.busybox.org/[Busybox]. Note that you can (and should) build +everything as a normal user. There is no need to be root to configure +and use Buildroot. The first step is to run the configuration +assistant: + +-------------------- + $ make menuconfig +-------------------- + +to run the curses-based configurator, or + +-------------------- + $ make xconfig +-------------------- + +or + +-------------------- + $ make gconfig +-------------------- + +to run the Qt or GTK-based configurators. + +All of these "make" commands will need to build a configuration +utility, so you may need to install "development" packages for +relevant libraries used by the configuration utilities. On Debian-like +systems, the +libncurses5-dev+ package is required to use the +'menuconfig' interface, +libqt4-dev+ is required to use the 'xconfig' +interface, and +libglib2.0-dev, libgtk2.0-dev and libglade2-dev+ are +needed to use the 'gconfig' interface. + +For each menu entry in the configuration tool, you can find associated +help that describes the purpose of the entry. + +Once everything is configured, the configuration tool generates a ++.config+ file that contains the description of your +configuration. It will be used by the Makefiles to do what's needed. + +Let's go: + +-------------------- + $ make +-------------------- + +You *should never* use +make -jN+ with Buildroot: it does not support +'top-level parallel make'. Instead, use the +BR2_JLEVEL+ option to +tell Buildroot to run each package compilation with +make -jN+. + +This command will generally perform the following steps: + +* Download source files (as required) +* Configure, build and install the cross-compiling toolchain if an + internal toolchain is used, or import a toolchain if an external + toolchain is used +* Build/install selected target packages +* Build a kernel image, if selected +* Build a bootloader image, if selected +* Create a root filesystem in selected formats + +Buildroot output is stored in a single directory, +output/+. +This directory contains several subdirectories: + +* +images/+ where all the images (kernel image, bootloader and root + filesystem images) are stored. + +* +build/+ where all the components except for the cross-compilation + toolchain are built (this includes tools needed to run Buildroot on + the host and packages compiled for the target). The +build/+ + directory contains one subdirectory for each of these components. + +* +staging/+ which contains a hierarchy similar to a root filesystem + hierarchy. This directory contains the installation of the + cross-compilation toolchain and all the userspace packages selected + for the target. However, this directory is 'not' intended to be + the root filesystem for the target: it contains a lot of development + files, unstripped binaries and libraries that make it far too big + for an embedded system. These development files are used to compile + libraries and applications for the target that depend on other + libraries. + +* +target/+ which contains 'almost' the complete root filesystem for + the target: everything needed is present except the device files in + +/dev/+ (Buildroot can't create them because Buildroot doesn't run + as root and doesn't want to run as root). Therefore, this directory + *should not be used on your target*. Instead, you should use one of + the images built in the +images/+ directory. If you need an + extracted image of the root filesystem for booting over NFS, then + use the tarball image generated in +images/+ and extract it as + root. Compared to +staging/+, +target/+ contains only the files and + libraries needed to run the selected target applications: the + development files (headers, etc.) are not present, unless the + +development files in target filesystem+ option is selected. + +* +host/+ contains the installation of tools compiled for the host + that are needed for the proper execution of Buildroot, including the + cross-compilation toolchain. + +* +toolchain/+ contains the build directories for the various + components of the cross-compilation toolchain. + +Offline builds +-------------- + +If you intend to do an offline build and just want to download +all sources that you previously selected in the configurator +('menuconfig', 'xconfig' or 'gconfig'), then issue: + +-------------------- + $ make source +-------------------- + +You can now disconnect or copy the content of your +dl+ +directory to the build-host. + +Building out-of-tree +-------------------- + +Buildroot supports building out of tree with a syntax similar to the +Linux kernel. To use it, add +O=<directory>+ to the make command line: + +-------------------- + $ make O=/tmp/build +-------------------- + +Or: + +-------------------- + $ cd /tmp/build; make O=$PWD -C path/to/buildroot +-------------------- + +All the output files will be located under +/tmp/build+. + +When using out-of-tree builds, the Buildroot +.config+ and temporary +files are also stored in the output directory. This means that you can +safely run multiple builds in parallel using the same source tree as +long as they use unique output directories. + +For ease of use, Buildroot generates a Makefile wrapper in the output +directory - So after the first run, you no longer need to pass +O=..+ +and +-C ..+, simply run (in the output directory): + +-------------------- + $ make <target> +-------------------- + +Environment variables +--------------------- +[[env-vars]] + +Buildroot also honors some environment variables, when they are passed +to +make+ or set in the environment: + +* +HOSTCXX+, the host C++ compiler to use +* +HOSTCC+, the host C compiler to use +* +UCLIBC_CONFIG_FILE=<path/to/.config>+, path to + the uClibc configuration file, used to compile uClibc, if an + internal toolchain is being built +* +BUSYBOX_CONFIG_FILE=<path/to/.config>+, path to + the Busybox configuration file +* +BUILDROOT_DL_DIR+ to override the directory in which + Buildroot stores/retrieves downloaded files + +An example that uses config files located in the toplevel directory and +in your $HOME: + +-------------------- + $ make UCLIBC_CONFIG_FILE=uClibc.config BUSYBOX_CONFIG_FILE=$HOME/bb.config +-------------------- + +If you want to use a compiler other than the default +gcc+ +or +g+++ for building helper-binaries on your host, then do + +-------------------- + $ make HOSTCXX=g++-4.3-HEAD HOSTCC=gcc-4.3-HEAD +-------------------- |