kumquat-buildroot/Makefile

1073 lines
39 KiB
Makefile
Raw Normal View History

# Makefile for buildroot
2001-12-22 01:56:11 +01:00
#
2005-02-07 23:19:26 +01:00
# Copyright (C) 1999-2005 by Erik Andersen <andersen@codepoet.org>
# Copyright (C) 2006-2014 by the Buildroot developers <buildroot@uclibc.org>
# Copyright (C) 2014-2016 by the Buildroot developers <buildroot@buildroot.org>
2001-12-22 01:56:11 +01:00
#
2002-04-26 13:45:55 +02:00
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
2001-12-22 01:56:11 +01:00
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
2002-04-26 13:45:55 +02:00
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
#--------------------------------------------------------------
# Just run 'make menuconfig', configure stuff, then run 'make'.
# You shouldn't need to mess with anything beyond this point...
#--------------------------------------------------------------
# Delete default rules. We don't use them. This saves a bit of time.
.SUFFIXES:
# we want bash as shell
SHELL := $(shell if [ -x "$$BASH" ]; then echo $$BASH; \
else if [ -x /bin/bash ]; then echo /bin/bash; \
else echo sh; fi; fi)
# Set O variable if not already done on the command line;
# or avoid confusing packages that can use the O=<dir> syntax for out-of-tree
# build by preventing it from being forwarded to sub-make calls.
ifneq ("$(origin O)", "command line")
core: re-enter make if $(CURDIR) or $(O) are not canonical paths When $(CURDIR) and/or $(O) contain symlinks in their paths, they can be resolved differently, depending on each package build-system (whether it uses the given paths or get the absolute canonical ones). Using absolute canonical paths will help achieving reproducible builds and will make easier tracking down host machine paths leaking into the host, target or staging trees. So, this change ensures the build takes place with the CURDIR and O variables are set to their absolute canonical paths. In order to recall the toplevel makefile with absolute canonical paths for $(CURDIR) and $(O), we need to: 1- Compute the absolute canonical paths for $(CURDIR) and $(O) that will be passed to the sub-make. This is achieved using the 'realpath' make primitive. However, some care must be taken when manipulating O: - the out-of-tree makefile wrapper happens a trailing "/.", we need to strip this part away to not break the comparison driving the sub-make call; - the user can leave a trailing '/' to $(O); - according to [1,2], realpath returns an empty string in case of non-existing entry. So, to avoid passing an empty O= variable to sub-make, it is necessary to define the output directory and create it prior to call realpath on it (because on the first invocation, $(O) usually does not yet exists), hence the trick doing the mkdir right before calling realpath. 2- Update EXTRAMAKEARGS with the absolute canonical $(O) and use it when call recalling the top-level makefile with umask and paths correctly set. 3- Lastly, update the condition for setting the CONFIG_DIR and NEED_WRAPPER variables. Note: * This change takes care of the makefile wrapper installed in $(O) to avoid unneeded make recursion. [1] https://www.gnu.org/software/make/manual/html_node/File-Name-Functions.html [2] http://man7.org/linux/man-pages/man3/realpath.3.html Reported-by: Matthew Weber <matt@thewebers.ws> Cc: Matthew Weber <matt@thewebers.ws> Cc: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Samuel Martin <s.martin49@gmail.com> Acked-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Tested-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2016-10-17 23:05:43 +02:00
O := $(CURDIR)/output
endif
# Check if the current Buildroot execution meets all the pre-requisites.
# If they are not met, Buildroot will actually do its job in a sub-make meeting
core: re-enter make if $(CURDIR) or $(O) are not canonical paths When $(CURDIR) and/or $(O) contain symlinks in their paths, they can be resolved differently, depending on each package build-system (whether it uses the given paths or get the absolute canonical ones). Using absolute canonical paths will help achieving reproducible builds and will make easier tracking down host machine paths leaking into the host, target or staging trees. So, this change ensures the build takes place with the CURDIR and O variables are set to their absolute canonical paths. In order to recall the toplevel makefile with absolute canonical paths for $(CURDIR) and $(O), we need to: 1- Compute the absolute canonical paths for $(CURDIR) and $(O) that will be passed to the sub-make. This is achieved using the 'realpath' make primitive. However, some care must be taken when manipulating O: - the out-of-tree makefile wrapper happens a trailing "/.", we need to strip this part away to not break the comparison driving the sub-make call; - the user can leave a trailing '/' to $(O); - according to [1,2], realpath returns an empty string in case of non-existing entry. So, to avoid passing an empty O= variable to sub-make, it is necessary to define the output directory and create it prior to call realpath on it (because on the first invocation, $(O) usually does not yet exists), hence the trick doing the mkdir right before calling realpath. 2- Update EXTRAMAKEARGS with the absolute canonical $(O) and use it when call recalling the top-level makefile with umask and paths correctly set. 3- Lastly, update the condition for setting the CONFIG_DIR and NEED_WRAPPER variables. Note: * This change takes care of the makefile wrapper installed in $(O) to avoid unneeded make recursion. [1] https://www.gnu.org/software/make/manual/html_node/File-Name-Functions.html [2] http://man7.org/linux/man-pages/man3/realpath.3.html Reported-by: Matthew Weber <matt@thewebers.ws> Cc: Matthew Weber <matt@thewebers.ws> Cc: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Samuel Martin <s.martin49@gmail.com> Acked-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Tested-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2016-10-17 23:05:43 +02:00
# its pre-requisites, which are:
# 1- Permissive enough umask:
# Wrong or too restrictive umask will prevent Buildroot and packages from
# creating files and directories.
core: re-enter make if $(CURDIR) or $(O) are not canonical paths When $(CURDIR) and/or $(O) contain symlinks in their paths, they can be resolved differently, depending on each package build-system (whether it uses the given paths or get the absolute canonical ones). Using absolute canonical paths will help achieving reproducible builds and will make easier tracking down host machine paths leaking into the host, target or staging trees. So, this change ensures the build takes place with the CURDIR and O variables are set to their absolute canonical paths. In order to recall the toplevel makefile with absolute canonical paths for $(CURDIR) and $(O), we need to: 1- Compute the absolute canonical paths for $(CURDIR) and $(O) that will be passed to the sub-make. This is achieved using the 'realpath' make primitive. However, some care must be taken when manipulating O: - the out-of-tree makefile wrapper happens a trailing "/.", we need to strip this part away to not break the comparison driving the sub-make call; - the user can leave a trailing '/' to $(O); - according to [1,2], realpath returns an empty string in case of non-existing entry. So, to avoid passing an empty O= variable to sub-make, it is necessary to define the output directory and create it prior to call realpath on it (because on the first invocation, $(O) usually does not yet exists), hence the trick doing the mkdir right before calling realpath. 2- Update EXTRAMAKEARGS with the absolute canonical $(O) and use it when call recalling the top-level makefile with umask and paths correctly set. 3- Lastly, update the condition for setting the CONFIG_DIR and NEED_WRAPPER variables. Note: * This change takes care of the makefile wrapper installed in $(O) to avoid unneeded make recursion. [1] https://www.gnu.org/software/make/manual/html_node/File-Name-Functions.html [2] http://man7.org/linux/man-pages/man3/realpath.3.html Reported-by: Matthew Weber <matt@thewebers.ws> Cc: Matthew Weber <matt@thewebers.ws> Cc: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Samuel Martin <s.martin49@gmail.com> Acked-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Tested-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2016-10-17 23:05:43 +02:00
# 2- Absolute canonical CWD (i.e. $(CURDIR)):
# Otherwise, some packages will use CWD as-is, others will compute its
# absolute canonical path. This makes harder tracking and fixing host
# machine path leaks.
# 3- Absolute canonical output location (i.e. $(O)):
# For the same reason as the one for CWD.
# Remove the trailing '/.' from $(O) as it can be added by the makefile wrapper
# installed in the $(O) directory.
# Also remove the trailing '/' the user can set when on the command line.
override O := $(patsubst %/,%,$(patsubst %.,%,$(O)))
# Make sure $(O) actually exists before calling realpath on it; this is to
# avoid empty CANONICAL_O in case on non-existing entry.
CANONICAL_O := $(shell mkdir -p $(O) >/dev/null 2>&1)$(realpath $(O))
CANONICAL_CURDIR = $(realpath $(CURDIR))
REQ_UMASK = 0022
core: re-enter make if $(CURDIR) or $(O) are not canonical paths When $(CURDIR) and/or $(O) contain symlinks in their paths, they can be resolved differently, depending on each package build-system (whether it uses the given paths or get the absolute canonical ones). Using absolute canonical paths will help achieving reproducible builds and will make easier tracking down host machine paths leaking into the host, target or staging trees. So, this change ensures the build takes place with the CURDIR and O variables are set to their absolute canonical paths. In order to recall the toplevel makefile with absolute canonical paths for $(CURDIR) and $(O), we need to: 1- Compute the absolute canonical paths for $(CURDIR) and $(O) that will be passed to the sub-make. This is achieved using the 'realpath' make primitive. However, some care must be taken when manipulating O: - the out-of-tree makefile wrapper happens a trailing "/.", we need to strip this part away to not break the comparison driving the sub-make call; - the user can leave a trailing '/' to $(O); - according to [1,2], realpath returns an empty string in case of non-existing entry. So, to avoid passing an empty O= variable to sub-make, it is necessary to define the output directory and create it prior to call realpath on it (because on the first invocation, $(O) usually does not yet exists), hence the trick doing the mkdir right before calling realpath. 2- Update EXTRAMAKEARGS with the absolute canonical $(O) and use it when call recalling the top-level makefile with umask and paths correctly set. 3- Lastly, update the condition for setting the CONFIG_DIR and NEED_WRAPPER variables. Note: * This change takes care of the makefile wrapper installed in $(O) to avoid unneeded make recursion. [1] https://www.gnu.org/software/make/manual/html_node/File-Name-Functions.html [2] http://man7.org/linux/man-pages/man3/realpath.3.html Reported-by: Matthew Weber <matt@thewebers.ws> Cc: Matthew Weber <matt@thewebers.ws> Cc: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Samuel Martin <s.martin49@gmail.com> Acked-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Tested-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2016-10-17 23:05:43 +02:00
# Make sure O= is passed (with its absolute canonical path) everywhere the
# toplevel makefile is called back.
EXTRAMAKEARGS := O=$(CANONICAL_O)
# Check Buildroot execution pre-requisites here.
core: re-enter make if $(CURDIR) or $(O) are not canonical paths When $(CURDIR) and/or $(O) contain symlinks in their paths, they can be resolved differently, depending on each package build-system (whether it uses the given paths or get the absolute canonical ones). Using absolute canonical paths will help achieving reproducible builds and will make easier tracking down host machine paths leaking into the host, target or staging trees. So, this change ensures the build takes place with the CURDIR and O variables are set to their absolute canonical paths. In order to recall the toplevel makefile with absolute canonical paths for $(CURDIR) and $(O), we need to: 1- Compute the absolute canonical paths for $(CURDIR) and $(O) that will be passed to the sub-make. This is achieved using the 'realpath' make primitive. However, some care must be taken when manipulating O: - the out-of-tree makefile wrapper happens a trailing "/.", we need to strip this part away to not break the comparison driving the sub-make call; - the user can leave a trailing '/' to $(O); - according to [1,2], realpath returns an empty string in case of non-existing entry. So, to avoid passing an empty O= variable to sub-make, it is necessary to define the output directory and create it prior to call realpath on it (because on the first invocation, $(O) usually does not yet exists), hence the trick doing the mkdir right before calling realpath. 2- Update EXTRAMAKEARGS with the absolute canonical $(O) and use it when call recalling the top-level makefile with umask and paths correctly set. 3- Lastly, update the condition for setting the CONFIG_DIR and NEED_WRAPPER variables. Note: * This change takes care of the makefile wrapper installed in $(O) to avoid unneeded make recursion. [1] https://www.gnu.org/software/make/manual/html_node/File-Name-Functions.html [2] http://man7.org/linux/man-pages/man3/realpath.3.html Reported-by: Matthew Weber <matt@thewebers.ws> Cc: Matthew Weber <matt@thewebers.ws> Cc: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Samuel Martin <s.martin49@gmail.com> Acked-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Tested-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2016-10-17 23:05:43 +02:00
ifneq ($(shell umask):$(CURDIR):$(O),$(REQ_UMASK):$(CANONICAL_CURDIR):$(CANONICAL_O))
.PHONY: _all $(MAKECMDGOALS)
$(MAKECMDGOALS): _all
@:
_all:
core: re-enter make if $(CURDIR) or $(O) are not canonical paths When $(CURDIR) and/or $(O) contain symlinks in their paths, they can be resolved differently, depending on each package build-system (whether it uses the given paths or get the absolute canonical ones). Using absolute canonical paths will help achieving reproducible builds and will make easier tracking down host machine paths leaking into the host, target or staging trees. So, this change ensures the build takes place with the CURDIR and O variables are set to their absolute canonical paths. In order to recall the toplevel makefile with absolute canonical paths for $(CURDIR) and $(O), we need to: 1- Compute the absolute canonical paths for $(CURDIR) and $(O) that will be passed to the sub-make. This is achieved using the 'realpath' make primitive. However, some care must be taken when manipulating O: - the out-of-tree makefile wrapper happens a trailing "/.", we need to strip this part away to not break the comparison driving the sub-make call; - the user can leave a trailing '/' to $(O); - according to [1,2], realpath returns an empty string in case of non-existing entry. So, to avoid passing an empty O= variable to sub-make, it is necessary to define the output directory and create it prior to call realpath on it (because on the first invocation, $(O) usually does not yet exists), hence the trick doing the mkdir right before calling realpath. 2- Update EXTRAMAKEARGS with the absolute canonical $(O) and use it when call recalling the top-level makefile with umask and paths correctly set. 3- Lastly, update the condition for setting the CONFIG_DIR and NEED_WRAPPER variables. Note: * This change takes care of the makefile wrapper installed in $(O) to avoid unneeded make recursion. [1] https://www.gnu.org/software/make/manual/html_node/File-Name-Functions.html [2] http://man7.org/linux/man-pages/man3/realpath.3.html Reported-by: Matthew Weber <matt@thewebers.ws> Cc: Matthew Weber <matt@thewebers.ws> Cc: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Samuel Martin <s.martin49@gmail.com> Acked-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Tested-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2016-10-17 23:05:43 +02:00
@umask $(REQ_UMASK) && \
$(MAKE) -C $(CANONICAL_CURDIR) --no-print-directory \
$(MAKECMDGOALS) $(EXTRAMAKEARGS)
core: re-enter make if $(CURDIR) or $(O) are not canonical paths When $(CURDIR) and/or $(O) contain symlinks in their paths, they can be resolved differently, depending on each package build-system (whether it uses the given paths or get the absolute canonical ones). Using absolute canonical paths will help achieving reproducible builds and will make easier tracking down host machine paths leaking into the host, target or staging trees. So, this change ensures the build takes place with the CURDIR and O variables are set to their absolute canonical paths. In order to recall the toplevel makefile with absolute canonical paths for $(CURDIR) and $(O), we need to: 1- Compute the absolute canonical paths for $(CURDIR) and $(O) that will be passed to the sub-make. This is achieved using the 'realpath' make primitive. However, some care must be taken when manipulating O: - the out-of-tree makefile wrapper happens a trailing "/.", we need to strip this part away to not break the comparison driving the sub-make call; - the user can leave a trailing '/' to $(O); - according to [1,2], realpath returns an empty string in case of non-existing entry. So, to avoid passing an empty O= variable to sub-make, it is necessary to define the output directory and create it prior to call realpath on it (because on the first invocation, $(O) usually does not yet exists), hence the trick doing the mkdir right before calling realpath. 2- Update EXTRAMAKEARGS with the absolute canonical $(O) and use it when call recalling the top-level makefile with umask and paths correctly set. 3- Lastly, update the condition for setting the CONFIG_DIR and NEED_WRAPPER variables. Note: * This change takes care of the makefile wrapper installed in $(O) to avoid unneeded make recursion. [1] https://www.gnu.org/software/make/manual/html_node/File-Name-Functions.html [2] http://man7.org/linux/man-pages/man3/realpath.3.html Reported-by: Matthew Weber <matt@thewebers.ws> Cc: Matthew Weber <matt@thewebers.ws> Cc: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Samuel Martin <s.martin49@gmail.com> Acked-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Tested-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2016-10-17 23:05:43 +02:00
else # umask / $(CURDIR) / $(O)
# This is our default rule, so must come first
all:
# Set and export the version string
export BR2_VERSION := 2017.02-git
# Actual time the release is cut (for reproducible builds)
BR2_VERSION_EPOCH = 1478206447
# Save running make version since it's clobbered by the make package
RUNNING_MAKE_VERSION := $(MAKE_VERSION)
# Check for minimal make version (note: this check will break at make 10.x)
MIN_MAKE_VERSION = 3.81
ifneq ($(firstword $(sort $(RUNNING_MAKE_VERSION) $(MIN_MAKE_VERSION))),$(MIN_MAKE_VERSION))
$(error You have make '$(RUNNING_MAKE_VERSION)' installed. GNU make >= $(MIN_MAKE_VERSION) is required)
endif
# Parallel execution of this Makefile is disabled because it changes
# the packages building order, that can be a problem for two reasons:
# - If a package has an unspecified optional dependency and that
# dependency is present when the package is built, it is used,
# otherwise it isn't (but compilation happily proceeds) so the end
# result will differ if the order is swapped due to parallel
# building.
# - Also changing the building order can be a problem if two packages
# manipulate the same file in the target directory.
#
# Taking into account the above considerations, if you still want to execute
# this top-level Makefile in parallel comment the ".NOTPARALLEL" line and
packages: fix and improve support for top-level parallel make The boost and jack2 packages fail to build when PARALLEL_JOBS is empty so instead of using an empty PARALLEL_JOBS don't use it in the MAKE variable when top-level parallel make is being used. To simplify the use of top-level parallel make, check the MAKEFLAGS variable to know automatically if the -j option is being used, also use the "=" operator instead of the ":=" operator because the MAKEFLAGS variable can be checked only in a "recursively expanded variable". The "override" keyword must be used in order to change the automatic variable "MAKE". When the top-parallel make is being used the sub-make are called without specifying the "-j" option in order to let GNU make share the job slots specified in the top make. This is done because GNU make is able to share the job slots available between each instance of make so if you want to increase the number of jobs you just need to increase the <jobs> value in the top make -j<jobs> command. If we specify the -j<jobs> option in each instance of make, it is less efficient, e.g. in a processor with 8 cores we specify -j9 in each instance: the number of processes goes up to 81 because each sub-make can execute 9 processes. The excessive number of processes is not a good thing because in my tests even -j16 is slower than -j9. Instead if we don't specify the -j<jobs> option in the sub-make, the top make share the job slots automatically between each instance, so the number of process in this examples goes up to 9 that is faster than using up to 81 processes. e.g. when the -j3 option is specified only in the top make: possible state n. 1: process 1 - <packagea>-build process 2 - <packagea>-build process 3 - <packagea>-build possible state n. 2: process 1 - <packagea>-extract process 2 - <packageb>-configure process 3 - <packagec>-build possible state n. 3: process 1 - <packagea>-build make -j1 process 2 - <packageb>-build make -j1 process 3 - <packagec>-build make -j1 Signed-off-by: Fabio Porcedda <fabio.porcedda@gmail.com> Acked-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2015-07-01 10:10:46 +02:00
# use the -j<jobs> option when building, e.g:
# make -j$((`getconf _NPROCESSORS_ONLN`+1))
.NOTPARALLEL:
# absolute path
TOPDIR := $(CURDIR)
CONFIG_CONFIG_IN = Config.in
CONFIG = support/kconfig
DATE := $(shell date +%Y%m%d)
2003-09-26 23:18:46 +02:00
# Compute the full local version string so packages can use it as-is
# Need to export it, so it can be got from environment in children (eg. mconf)
export BR2_VERSION_FULL := $(BR2_VERSION)$(shell $(TOPDIR)/support/scripts/setlocalversion)
noconfig_targets := menuconfig nconfig gconfig xconfig config oldconfig randconfig \
defconfig %_defconfig allyesconfig allnoconfig silentoldconfig release \
randpackageconfig allyespackageconfig allnopackageconfig \
print-version olddefconfig distclean manual manual-html manual-split-html \
manual-pdf manual-text manual-epub
# Some global targets do not trigger a build, but are used to collect
# metadata, or do various checks. When such targets are triggered,
# some packages should not do their configuration sanity
# checks. Provide them a BR_BUILDING variable set to 'y' when we're
# actually building and they should do their sanity checks.
#
# We're building in two situations: when MAKECMDGOALS is empty
# (default target is to build), or when MAKECMDGOALS contains
# something else than one of the nobuild_targets.
nobuild_targets := source %-source source-check \
legal-info %-legal-info external-deps _external-deps \
clean distclean help show-targets graph-depends \
%-graph-depends %-show-depends %-show-version \
graph-build graph-size list-defconfigs \
savedefconfig printvars
ifeq ($(MAKECMDGOALS),)
BR_BUILDING = y
else ifneq ($(filter-out $(nobuild_targets),$(MAKECMDGOALS)),)
BR_BUILDING = y
endif
# We call make recursively to build packages. The command-line overrides that
# are passed to Buildroot don't apply to those package build systems. In
# particular, we don't want to pass down the O=<dir> option for out-of-tree
# builds, because the value specified on the command line will not be correct
# for packages.
MAKEOVERRIDES :=
# Include some helper macros and variables
include support/misc/utils.mk
# Set variables related to in-tree or out-of-tree build.
core: re-enter make if $(CURDIR) or $(O) are not canonical paths When $(CURDIR) and/or $(O) contain symlinks in their paths, they can be resolved differently, depending on each package build-system (whether it uses the given paths or get the absolute canonical ones). Using absolute canonical paths will help achieving reproducible builds and will make easier tracking down host machine paths leaking into the host, target or staging trees. So, this change ensures the build takes place with the CURDIR and O variables are set to their absolute canonical paths. In order to recall the toplevel makefile with absolute canonical paths for $(CURDIR) and $(O), we need to: 1- Compute the absolute canonical paths for $(CURDIR) and $(O) that will be passed to the sub-make. This is achieved using the 'realpath' make primitive. However, some care must be taken when manipulating O: - the out-of-tree makefile wrapper happens a trailing "/.", we need to strip this part away to not break the comparison driving the sub-make call; - the user can leave a trailing '/' to $(O); - according to [1,2], realpath returns an empty string in case of non-existing entry. So, to avoid passing an empty O= variable to sub-make, it is necessary to define the output directory and create it prior to call realpath on it (because on the first invocation, $(O) usually does not yet exists), hence the trick doing the mkdir right before calling realpath. 2- Update EXTRAMAKEARGS with the absolute canonical $(O) and use it when call recalling the top-level makefile with umask and paths correctly set. 3- Lastly, update the condition for setting the CONFIG_DIR and NEED_WRAPPER variables. Note: * This change takes care of the makefile wrapper installed in $(O) to avoid unneeded make recursion. [1] https://www.gnu.org/software/make/manual/html_node/File-Name-Functions.html [2] http://man7.org/linux/man-pages/man3/realpath.3.html Reported-by: Matthew Weber <matt@thewebers.ws> Cc: Matthew Weber <matt@thewebers.ws> Cc: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Samuel Martin <s.martin49@gmail.com> Acked-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Tested-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2016-10-17 23:05:43 +02:00
# Here, both $(O) and $(CURDIR) are absolute canonical paths.
ifeq ($(O),$(CURDIR)/output)
CONFIG_DIR := $(CURDIR)
NEED_WRAPPER =
else
CONFIG_DIR := $(O)
NEED_WRAPPER = y
endif
# bash prints the name of the directory on 'cd <dir>' if CDPATH is
# set, so unset it here to not cause problems. Notice that the export
# line doesn't affect the environment of $(shell ..) calls.
export CDPATH :=
BASE_DIR := $(CANONICAL_O)
$(if $(BASE_DIR),, $(error output directory "$(O)" does not exist))
core: introduce the BR2_EXTERNAL variable This commit introduces the BR2_EXTERNAL environment variable, which will allow to keep Buildroot customization (board-specific configuration files or root filesystem overlays, package Config.in and makefiles, as well as defconfigs) outside of the Buildroot tree. This commit only introduces the variable itself, and ensures that it is available within Config.in options. This allows us to use $BR2_EXTERNAL in a 'source' statement in Config.in. Following patches extend the usage of BR2_EXTERNAL to other areas (packages and defconfigs). In details, this commit: * Introduces the BR2_EXTERNAL Kconfig option. This option has no prompt, and is therefore not visible to the user and also not stored in the .config file. It is automatically set to the value of the BR2_EXTERNAL environment variable. The only purpose of this BR2_EXTERNAL Kconfig option is to allow $BR2_EXTERNAL to be properly expanded when used inside Kconfig source statements. * Calculates the BR2_EXTERNAL value to use. If passed on the command line, then this value is taken in priority, and saved to a .br-external hidden file in the output directory. If not passed on the command line, then we read the .br-external file from the output directory. This allows the user to not pass the BR2_EXTERNAL value at each make invocation. If no BR2_EXTERNAL value is passed, we define it to support/dummy-external, so that the kconfig code finds an existing $(BR2_EXTERNAL)/package/Config.in file to include. * Passes the BR2_EXTERNAL into the *config environment, so that its value is found when parsing/evaluating Config.in files and .config values. Signed-off-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Reviewed-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Tested-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Acked-by: Ryan Barnett <rjbarnet@rockwellcollins.com> Tested-by: "Samuel Martin" <s.martin49@gmail.com> Acked-by: "Samuel Martin" <s.martin49@gmail.com> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2013-12-05 20:11:10 +01:00
# Handling of BR2_EXTERNAL.
#
# The value of BR2_EXTERNAL is stored in .br-external in the output directory.
core: add support for multiple br2-external trees Currently, we only support at most one br2-external tree. Being able to use more than one br2-external tree can be very useful. A use-case would be for having a br2-external to contain the basic packages, basic board defconfigs and board files, provided by one team responsible for the "board-bringup", while other teams consume that br2-external as a base, and complements it each with their own set of packages, defconfigs and extra board files. Another use-case would be for third-parties to provide their own Buildroot packaging in a br2-external tree, along-side the archives for their stuff. Finally, another use-case is to be able to add FLOSS packages in a br2-external tree, and proprietary packages in another. This allows to not touch the Buildroot tree at all, and still be able to get in compliance by providing only that br2-external tree(s) that contains FLOSS packages, leaving aside the br2-external tree(s) with the proprietary bits. What we do is to treat BR2_EXTERNAL as a colon-separated (space- separated also work, and we use that internally) list of paths, on which we iterate to construct: - the list of all br2-external names, BR2_EXTERNAL_NAMES, - the per-br2-external tree BR2_EXTERNAL_$(NAME) variables, which point each to the actual location of the corresponding tree, - the list of paths to all the external.mk files, BR2_EXTERNAL_MKS, - the space-separated list of absolute paths to the external trees, BR2_EXTERNAL_DIRS. Once we have all those variables, we replace references to BR2_EXTERNAL with either one of those. This cascades into how we display the list of defconfigs, so that it is easy to see what br2-external tree provides what defconfigs. As suggested by Arnout, tweak the comment from "User-provided configs" to "External configs", on the assumption that some br2-external trees could be provided by vendors, so not necessarily user-provided. Ditto the menu in Kconfig, changed from "User-provided options" to "External options". Now, when more than one br2-external tree is used, each gets its own sub-menu in the "User-provided options" menu. The sub-menu is labelled with that br2-external tree's name and the sub-menu's first item is a comment with the path to that br2-external tree. If there's only one br2-external tree, then there is no sub-menu; there is a single comment that contains the name and path to the br2-external tree. Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Arnout Vandecappelle <arnout@mind.be> Cc: Romain Naour <romain.naour@openwide.fr> Cc: Julien CORJON <corjon.j@ecagroup.com> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2016-10-14 16:39:20 +02:00
# The location of the external.mk makefile fragments is computed in that file.
core: offload handling of BR2_EXTERNAL into the script Currently, we treat the case where we have no br2-external tree (BR2_EXTERNAL is empty) differently from the case where we do have one (BR2_EXTERNAL is not empty). There is now no reason to treat those two cases differently: - the kconfig snippet is always generated appropriately (i.e. it would include the br2-external tree if set, or include nothing otherwise); - we no longer have a dummy br-external tree either. Also, the Makefile code to handle BR2_EXTERNAL is currently quite readable if at least a little bit tricky. However, when we're going to add support for using multiple br2-external trees simultaneously, this code would need to get much, much more complex. To keep the Makefile (rather) simple, offload all of the handling of BR2_EXTERNAL to the recently added br2-external helper script. However, because of Makefiles idiosyncracies, we can't use a rule to generate that Makefile fragment. Instead, we use $(shell ...) to call the helper script, and include the fragment twice: once before the $(shell ...) so we can grab a previously defined BR2_EXTERNAL value, a second time to use the one passed on the command line, if any. Furthermore, we can't error out (e.g. on non-existent br2-external tree) directly from the fragment or we'd get that error on subsequent calls, with no chance to override it even from command line. Instead, we use a variable in which we store the error, set it to empty before the second inclusion, so that only the one newly generated, if any, is taken into account. Since we know the script will always be called from Makefile context first, we know validation will occur in Makefile context first. So we can assume that, if there is an error, it will be detected in Makefile context. Consequently, if the script is called to generate the kconfig fragment, validation has already occured, and there should be no error. So we change the error function to generate Makefile code, so that errors are caught as explained above. Lastly, when the value of BR2_EXTERNAL changes, we want to 'forget' about the previous value of the BR2_EXTERNAL_MK variable, especially in the case where BR2_EXTERNAL is now set to empty, so that we do not try to include it later. That's why we first generate empty version of BR2_EXTERNAL_MK, and then assign it the new value, if any. Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Arnout Vandecappelle <arnout@mind.be> Cc: Romain Naour <romain.naour@openwide.fr> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2016-10-14 16:39:15 +02:00
# On subsequent invocations of make, this file is read in. BR2_EXTERNAL can
# still be overridden on the command line, therefore the file is re-created
# every time make is run.
core: introduce the BR2_EXTERNAL variable This commit introduces the BR2_EXTERNAL environment variable, which will allow to keep Buildroot customization (board-specific configuration files or root filesystem overlays, package Config.in and makefiles, as well as defconfigs) outside of the Buildroot tree. This commit only introduces the variable itself, and ensures that it is available within Config.in options. This allows us to use $BR2_EXTERNAL in a 'source' statement in Config.in. Following patches extend the usage of BR2_EXTERNAL to other areas (packages and defconfigs). In details, this commit: * Introduces the BR2_EXTERNAL Kconfig option. This option has no prompt, and is therefore not visible to the user and also not stored in the .config file. It is automatically set to the value of the BR2_EXTERNAL environment variable. The only purpose of this BR2_EXTERNAL Kconfig option is to allow $BR2_EXTERNAL to be properly expanded when used inside Kconfig source statements. * Calculates the BR2_EXTERNAL value to use. If passed on the command line, then this value is taken in priority, and saved to a .br-external hidden file in the output directory. If not passed on the command line, then we read the .br-external file from the output directory. This allows the user to not pass the BR2_EXTERNAL value at each make invocation. If no BR2_EXTERNAL value is passed, we define it to support/dummy-external, so that the kconfig code finds an existing $(BR2_EXTERNAL)/package/Config.in file to include. * Passes the BR2_EXTERNAL into the *config environment, so that its value is found when parsing/evaluating Config.in files and .config values. Signed-off-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Reviewed-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Tested-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Acked-by: Ryan Barnett <rjbarnet@rockwellcollins.com> Tested-by: "Samuel Martin" <s.martin49@gmail.com> Acked-by: "Samuel Martin" <s.martin49@gmail.com> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2013-12-05 20:11:10 +01:00
core: offload handling of BR2_EXTERNAL into the script Currently, we treat the case where we have no br2-external tree (BR2_EXTERNAL is empty) differently from the case where we do have one (BR2_EXTERNAL is not empty). There is now no reason to treat those two cases differently: - the kconfig snippet is always generated appropriately (i.e. it would include the br2-external tree if set, or include nothing otherwise); - we no longer have a dummy br-external tree either. Also, the Makefile code to handle BR2_EXTERNAL is currently quite readable if at least a little bit tricky. However, when we're going to add support for using multiple br2-external trees simultaneously, this code would need to get much, much more complex. To keep the Makefile (rather) simple, offload all of the handling of BR2_EXTERNAL to the recently added br2-external helper script. However, because of Makefiles idiosyncracies, we can't use a rule to generate that Makefile fragment. Instead, we use $(shell ...) to call the helper script, and include the fragment twice: once before the $(shell ...) so we can grab a previously defined BR2_EXTERNAL value, a second time to use the one passed on the command line, if any. Furthermore, we can't error out (e.g. on non-existent br2-external tree) directly from the fragment or we'd get that error on subsequent calls, with no chance to override it even from command line. Instead, we use a variable in which we store the error, set it to empty before the second inclusion, so that only the one newly generated, if any, is taken into account. Since we know the script will always be called from Makefile context first, we know validation will occur in Makefile context first. So we can assume that, if there is an error, it will be detected in Makefile context. Consequently, if the script is called to generate the kconfig fragment, validation has already occured, and there should be no error. So we change the error function to generate Makefile code, so that errors are caught as explained above. Lastly, when the value of BR2_EXTERNAL changes, we want to 'forget' about the previous value of the BR2_EXTERNAL_MK variable, especially in the case where BR2_EXTERNAL is now set to empty, so that we do not try to include it later. That's why we first generate empty version of BR2_EXTERNAL_MK, and then assign it the new value, if any. Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Arnout Vandecappelle <arnout@mind.be> Cc: Romain Naour <romain.naour@openwide.fr> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2016-10-14 16:39:15 +02:00
BR2_EXTERNAL_FILE = $(BASE_DIR)/.br-external.mk
core: introduce the BR2_EXTERNAL variable This commit introduces the BR2_EXTERNAL environment variable, which will allow to keep Buildroot customization (board-specific configuration files or root filesystem overlays, package Config.in and makefiles, as well as defconfigs) outside of the Buildroot tree. This commit only introduces the variable itself, and ensures that it is available within Config.in options. This allows us to use $BR2_EXTERNAL in a 'source' statement in Config.in. Following patches extend the usage of BR2_EXTERNAL to other areas (packages and defconfigs). In details, this commit: * Introduces the BR2_EXTERNAL Kconfig option. This option has no prompt, and is therefore not visible to the user and also not stored in the .config file. It is automatically set to the value of the BR2_EXTERNAL environment variable. The only purpose of this BR2_EXTERNAL Kconfig option is to allow $BR2_EXTERNAL to be properly expanded when used inside Kconfig source statements. * Calculates the BR2_EXTERNAL value to use. If passed on the command line, then this value is taken in priority, and saved to a .br-external hidden file in the output directory. If not passed on the command line, then we read the .br-external file from the output directory. This allows the user to not pass the BR2_EXTERNAL value at each make invocation. If no BR2_EXTERNAL value is passed, we define it to support/dummy-external, so that the kconfig code finds an existing $(BR2_EXTERNAL)/package/Config.in file to include. * Passes the BR2_EXTERNAL into the *config environment, so that its value is found when parsing/evaluating Config.in files and .config values. Signed-off-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Reviewed-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Tested-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Acked-by: Ryan Barnett <rjbarnet@rockwellcollins.com> Tested-by: "Samuel Martin" <s.martin49@gmail.com> Acked-by: "Samuel Martin" <s.martin49@gmail.com> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2013-12-05 20:11:10 +01:00
-include $(BR2_EXTERNAL_FILE)
core: offload handling of BR2_EXTERNAL into the script Currently, we treat the case where we have no br2-external tree (BR2_EXTERNAL is empty) differently from the case where we do have one (BR2_EXTERNAL is not empty). There is now no reason to treat those two cases differently: - the kconfig snippet is always generated appropriately (i.e. it would include the br2-external tree if set, or include nothing otherwise); - we no longer have a dummy br-external tree either. Also, the Makefile code to handle BR2_EXTERNAL is currently quite readable if at least a little bit tricky. However, when we're going to add support for using multiple br2-external trees simultaneously, this code would need to get much, much more complex. To keep the Makefile (rather) simple, offload all of the handling of BR2_EXTERNAL to the recently added br2-external helper script. However, because of Makefiles idiosyncracies, we can't use a rule to generate that Makefile fragment. Instead, we use $(shell ...) to call the helper script, and include the fragment twice: once before the $(shell ...) so we can grab a previously defined BR2_EXTERNAL value, a second time to use the one passed on the command line, if any. Furthermore, we can't error out (e.g. on non-existent br2-external tree) directly from the fragment or we'd get that error on subsequent calls, with no chance to override it even from command line. Instead, we use a variable in which we store the error, set it to empty before the second inclusion, so that only the one newly generated, if any, is taken into account. Since we know the script will always be called from Makefile context first, we know validation will occur in Makefile context first. So we can assume that, if there is an error, it will be detected in Makefile context. Consequently, if the script is called to generate the kconfig fragment, validation has already occured, and there should be no error. So we change the error function to generate Makefile code, so that errors are caught as explained above. Lastly, when the value of BR2_EXTERNAL changes, we want to 'forget' about the previous value of the BR2_EXTERNAL_MK variable, especially in the case where BR2_EXTERNAL is now set to empty, so that we do not try to include it later. That's why we first generate empty version of BR2_EXTERNAL_MK, and then assign it the new value, if any. Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Arnout Vandecappelle <arnout@mind.be> Cc: Romain Naour <romain.naour@openwide.fr> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2016-10-14 16:39:15 +02:00
$(shell support/scripts/br2-external \
-m -o '$(BR2_EXTERNAL_FILE)' $(BR2_EXTERNAL))
BR2_EXTERNAL_ERROR =
include $(BR2_EXTERNAL_FILE)
ifneq ($(BR2_EXTERNAL_ERROR),)
$(error $(BR2_EXTERNAL_ERROR))
core: introduce the BR2_EXTERNAL variable This commit introduces the BR2_EXTERNAL environment variable, which will allow to keep Buildroot customization (board-specific configuration files or root filesystem overlays, package Config.in and makefiles, as well as defconfigs) outside of the Buildroot tree. This commit only introduces the variable itself, and ensures that it is available within Config.in options. This allows us to use $BR2_EXTERNAL in a 'source' statement in Config.in. Following patches extend the usage of BR2_EXTERNAL to other areas (packages and defconfigs). In details, this commit: * Introduces the BR2_EXTERNAL Kconfig option. This option has no prompt, and is therefore not visible to the user and also not stored in the .config file. It is automatically set to the value of the BR2_EXTERNAL environment variable. The only purpose of this BR2_EXTERNAL Kconfig option is to allow $BR2_EXTERNAL to be properly expanded when used inside Kconfig source statements. * Calculates the BR2_EXTERNAL value to use. If passed on the command line, then this value is taken in priority, and saved to a .br-external hidden file in the output directory. If not passed on the command line, then we read the .br-external file from the output directory. This allows the user to not pass the BR2_EXTERNAL value at each make invocation. If no BR2_EXTERNAL value is passed, we define it to support/dummy-external, so that the kconfig code finds an existing $(BR2_EXTERNAL)/package/Config.in file to include. * Passes the BR2_EXTERNAL into the *config environment, so that its value is found when parsing/evaluating Config.in files and .config values. Signed-off-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Reviewed-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Tested-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Acked-by: Ryan Barnett <rjbarnet@rockwellcollins.com> Tested-by: "Samuel Martin" <s.martin49@gmail.com> Acked-by: "Samuel Martin" <s.martin49@gmail.com> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2013-12-05 20:11:10 +01:00
endif
# To make sure that the environment variable overrides the .config option,
# set this before including .config.
ifneq ($(BR2_DL_DIR),)
DL_DIR := $(BR2_DL_DIR)
endif
ifneq ($(BR2_CCACHE_DIR),)
BR_CACHE_DIR := $(BR2_CCACHE_DIR)
endif
# Need that early, before we scan packages
# Avoids doing the $(or...) everytime
BR_GRAPH_OUT := $(or $(BR2_GRAPH_OUT),pdf)
core: introduce the BR2_EXTERNAL variable This commit introduces the BR2_EXTERNAL environment variable, which will allow to keep Buildroot customization (board-specific configuration files or root filesystem overlays, package Config.in and makefiles, as well as defconfigs) outside of the Buildroot tree. This commit only introduces the variable itself, and ensures that it is available within Config.in options. This allows us to use $BR2_EXTERNAL in a 'source' statement in Config.in. Following patches extend the usage of BR2_EXTERNAL to other areas (packages and defconfigs). In details, this commit: * Introduces the BR2_EXTERNAL Kconfig option. This option has no prompt, and is therefore not visible to the user and also not stored in the .config file. It is automatically set to the value of the BR2_EXTERNAL environment variable. The only purpose of this BR2_EXTERNAL Kconfig option is to allow $BR2_EXTERNAL to be properly expanded when used inside Kconfig source statements. * Calculates the BR2_EXTERNAL value to use. If passed on the command line, then this value is taken in priority, and saved to a .br-external hidden file in the output directory. If not passed on the command line, then we read the .br-external file from the output directory. This allows the user to not pass the BR2_EXTERNAL value at each make invocation. If no BR2_EXTERNAL value is passed, we define it to support/dummy-external, so that the kconfig code finds an existing $(BR2_EXTERNAL)/package/Config.in file to include. * Passes the BR2_EXTERNAL into the *config environment, so that its value is found when parsing/evaluating Config.in files and .config values. Signed-off-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Reviewed-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Tested-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Acked-by: Ryan Barnett <rjbarnet@rockwellcollins.com> Tested-by: "Samuel Martin" <s.martin49@gmail.com> Acked-by: "Samuel Martin" <s.martin49@gmail.com> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2013-12-05 20:11:10 +01:00
BUILD_DIR := $(BASE_DIR)/build
BINARIES_DIR := $(BASE_DIR)/images
TARGET_DIR := $(BASE_DIR)/target
# initial definition so that 'make clean' works for most users, even without
# .config. HOST_DIR will be overwritten later when .config is included.
HOST_DIR := $(BASE_DIR)/host
GRAPHS_DIR := $(BASE_DIR)/graphs
LEGAL_INFO_DIR = $(BASE_DIR)/legal-info
REDIST_SOURCES_DIR_TARGET = $(LEGAL_INFO_DIR)/sources
REDIST_SOURCES_DIR_HOST = $(LEGAL_INFO_DIR)/host-sources
LICENSE_FILES_DIR_TARGET = $(LEGAL_INFO_DIR)/licenses
LICENSE_FILES_DIR_HOST = $(LEGAL_INFO_DIR)/host-licenses
LEGAL_MANIFEST_CSV_TARGET = $(LEGAL_INFO_DIR)/manifest.csv
LEGAL_MANIFEST_CSV_HOST = $(LEGAL_INFO_DIR)/host-manifest.csv
LEGAL_WARNINGS = $(LEGAL_INFO_DIR)/.warnings
LEGAL_REPORT = $(LEGAL_INFO_DIR)/README
################################################################################
#
# staging and target directories do NOT list these as
# dependencies anywhere else
#
################################################################################
$(BUILD_DIR) $(TARGET_DIR) $(HOST_DIR) $(BINARIES_DIR) $(LEGAL_INFO_DIR) $(REDIST_SOURCES_DIR_TARGET) $(REDIST_SOURCES_DIR_HOST):
@mkdir -p $@
BR2_CONFIG = $(CONFIG_DIR)/.config
# Pull in the user's configuration file
ifeq ($(filter $(noconfig_targets),$(MAKECMDGOALS)),)
-include $(BR2_CONFIG)
endif
# timezone and locale may affect build output
ifeq ($(BR2_REPRODUCIBLE),y)
export TZ = UTC
export LANG = C
export LC_ALL = C
export GZIP = -n
BR2_VERSION_GIT_EPOCH = $(shell GIT_DIR=$(TOPDIR)/.git $(GIT) log -1 --format=%at)
export SOURCE_DATE_EPOCH = $(if $(wildcard $(TOPDIR)/.git),$(BR2_VERSION_GIT_EPOCH),$(BR2_VERSION_EPOCH))
endif
# To put more focus on warnings, be less verbose as default
# Use 'make V=1' to see the full commands
ifeq ("$(origin V)", "command line")
KBUILD_VERBOSE = $(V)
endif
ifndef KBUILD_VERBOSE
KBUILD_VERBOSE = 0
endif
ifeq ($(KBUILD_VERBOSE),1)
Q =
ifndef VERBOSE
VERBOSE = 1
endif
export VERBOSE
else
Q = @
endif
# kconfig uses CONFIG_SHELL
CONFIG_SHELL := $(SHELL)
export SHELL CONFIG_SHELL Q KBUILD_VERBOSE
ifndef HOSTAR
HOSTAR := ar
endif
ifndef HOSTAS
HOSTAS := as
endif
ifndef HOSTCC
HOSTCC := gcc
HOSTCC := $(shell which $(HOSTCC) || type -p $(HOSTCC) || echo gcc)
endif
HOSTCC_NOCCACHE := $(HOSTCC)
ifndef HOSTCXX
HOSTCXX := g++
HOSTCXX := $(shell which $(HOSTCXX) || type -p $(HOSTCXX) || echo g++)
endif
HOSTCXX_NOCCACHE := $(HOSTCXX)
2007-09-28 21:46:58 +02:00
ifndef HOSTCPP
HOSTCPP := cpp
2007-09-28 21:46:58 +02:00
endif
ifndef HOSTLD
HOSTLD := ld
endif
ifndef HOSTLN
HOSTLN := ln
endif
2007-09-28 21:46:58 +02:00
ifndef HOSTNM
HOSTNM := nm
2007-09-28 21:46:58 +02:00
endif
ifndef HOSTOBJCOPY
HOSTOBJCOPY := objcopy
endif
ifndef HOSTRANLIB
HOSTRANLIB := ranlib
endif
HOSTAR := $(shell which $(HOSTAR) || type -p $(HOSTAR) || echo ar)
HOSTAS := $(shell which $(HOSTAS) || type -p $(HOSTAS) || echo as)
HOSTCPP := $(shell which $(HOSTCPP) || type -p $(HOSTCPP) || echo cpp)
HOSTLD := $(shell which $(HOSTLD) || type -p $(HOSTLD) || echo ld)
HOSTLN := $(shell which $(HOSTLN) || type -p $(HOSTLN) || echo ln)
HOSTNM := $(shell which $(HOSTNM) || type -p $(HOSTNM) || echo nm)
HOSTOBJCOPY := $(shell which $(HOSTOBJCOPY) || type -p $(HOSTOBJCOPY) || echo objcopy)
HOSTRANLIB := $(shell which $(HOSTRANLIB) || type -p $(HOSTRANLIB) || echo ranlib)
SED := $(shell which sed || type -p sed) -i -e
export HOSTAR HOSTAS HOSTCC HOSTCXX HOSTLD
export HOSTCC_NOCCACHE HOSTCXX_NOCCACHE
core: fix setting of HOSTARCH Currently, we set HOSTARCH to the output of `uname -m`. This gives us the architecture as seen by the running kernel. For example, we would end up with 'x86_64' for a 64-bit kernel running on an x86_64 processor. We use that value to determine whether we can run some binary tools, like our pre-configured external toolchains. However, one may be running a userland in a different bitness than that of the running kernel. For example, one may run in a 32-bit chroot, even though the kernel is running in 64-bit. Up until recently, this was not an issue because the pre-configured external toolchains were all requiring an i386 (x86 in Buildroot parlance). But since we introduced the latest Linaro toolchains, we now have toolchains that require a 64-bit userland. So, when running on a 64-bit kernel, we believe those toolchains are available, even when the user is running a 32-bit userland. This causes build failures for our autobuilders, like so: http://autobuild.buildroot.org/results/9cd/9cdf10ec5b31144b2e03ea09cf128702339895b3/ with the following symptoms: >>> toolchain-external undefined Configuring Cannot execute cross-compiler '/home/test/autobuild/instance-3/output/host/opt/ext-toolchain/bin/aarch64-linux-gnu-gcc' So, instead of relying on the output of `uname -r`, look for the host gcc and extract the target it was configured to generate code for. Fixes: http://autobuild.buildroot.org/results/9cd/9cdf10ec5b31144b2e03ea09cf128702339895b3/ (aarch64) http://autobuild.buildroot.org/results/888/8889aa7d9fb48370e4760a6edbc6d3ae945f02f2/ (arm) and many more... Besides fixing those issues, it will also allow us to add the 64-bit variants of toolchains when they exist, like the upcoming Codescape MTI and IMG toolchains for MIPS from Imagination Technologies. [Peter: use HOSTCC_NOCCACHE] Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Vicente Olivert Riera <Vincent.Riera@imgtec.com> Reviewed-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2015-11-09 20:00:21 +01:00
# Determine the userland we are running on.
#
# Note that, despite its name, we are not interested in the actual
# architecture name. This is mostly used to determine whether some
# of the binary tools (e.g. pre-built external toolchains) can run
# on the current host. So we need to know if the userland we're
# running on can actually run those toolchains.
#
# For example, a 64-bit prebuilt toolchain will not run on a 64-bit
# kernel if the userland is 32-bit (e.g. in a chroot for example).
#
# So, we extract the first part of the tuple the host gcc was
# configured to generate code for; we assume this is our userland.
#
export HOSTARCH := $(shell LC_ALL=C $(HOSTCC_NOCCACHE) -v 2>&1 | \
core: fix setting of HOSTARCH Currently, we set HOSTARCH to the output of `uname -m`. This gives us the architecture as seen by the running kernel. For example, we would end up with 'x86_64' for a 64-bit kernel running on an x86_64 processor. We use that value to determine whether we can run some binary tools, like our pre-configured external toolchains. However, one may be running a userland in a different bitness than that of the running kernel. For example, one may run in a 32-bit chroot, even though the kernel is running in 64-bit. Up until recently, this was not an issue because the pre-configured external toolchains were all requiring an i386 (x86 in Buildroot parlance). But since we introduced the latest Linaro toolchains, we now have toolchains that require a 64-bit userland. So, when running on a 64-bit kernel, we believe those toolchains are available, even when the user is running a 32-bit userland. This causes build failures for our autobuilders, like so: http://autobuild.buildroot.org/results/9cd/9cdf10ec5b31144b2e03ea09cf128702339895b3/ with the following symptoms: >>> toolchain-external undefined Configuring Cannot execute cross-compiler '/home/test/autobuild/instance-3/output/host/opt/ext-toolchain/bin/aarch64-linux-gnu-gcc' So, instead of relying on the output of `uname -r`, look for the host gcc and extract the target it was configured to generate code for. Fixes: http://autobuild.buildroot.org/results/9cd/9cdf10ec5b31144b2e03ea09cf128702339895b3/ (aarch64) http://autobuild.buildroot.org/results/888/8889aa7d9fb48370e4760a6edbc6d3ae945f02f2/ (arm) and many more... Besides fixing those issues, it will also allow us to add the 64-bit variants of toolchains when they exist, like the upcoming Codescape MTI and IMG toolchains for MIPS from Imagination Technologies. [Peter: use HOSTCC_NOCCACHE] Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Vicente Olivert Riera <Vincent.Riera@imgtec.com> Reviewed-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2015-11-09 20:00:21 +01:00
sed -e '/^Target: \([^-]*\).*/!d' \
-e 's//\1/' \
-e 's/i.86/x86/' \
-e 's/sun4u/sparc64/' \
-e 's/arm.*/arm/' \
-e 's/sa110/arm/' \
-e 's/ppc64/powerpc64/' \
-e 's/ppc/powerpc/' \
-e 's/macppc/powerpc/' \
-e 's/sh.*/sh/' )
HOSTCC_VERSION := $(shell $(HOSTCC_NOCCACHE) --version | \
sed -n -r 's/^.* ([0-9]*)\.([0-9]*)\.([0-9]*)[ ]*.*/\1 \2/p')
# For gcc >= 5.x, we only need the major version.
ifneq ($(firstword $(HOSTCC_VERSION)),4)
HOSTCC_VERSION := $(firstword $(HOSTCC_VERSION))
endif
# Make sure pkg-config doesn't look outside the buildroot tree
HOST_PKG_CONFIG_PATH := $(PKG_CONFIG_PATH)
unexport PKG_CONFIG_PATH
unexport PKG_CONFIG_SYSROOT_DIR
unexport PKG_CONFIG_LIBDIR
# Having DESTDIR set in the environment confuses the installation
# steps of some packages.
unexport DESTDIR
# Causes breakage with packages that needs host-ruby
unexport RUBYOPT
include package/pkg-utils.mk
include package/doc-asciidoc.mk
ifeq ($(BR2_HAVE_DOT_CONFIG),y)
2003-01-18 22:52:46 +01:00
################################################################################
#
# Hide troublesome environment variables from sub processes
#
################################################################################
unexport CROSS_COMPILE
unexport ARCH
unexport CC
unexport LD
unexport AR
unexport CXX
unexport CPP
unexport RANLIB
unexport CFLAGS
unexport CXXFLAGS
unexport GREP_OPTIONS
unexport TAR_OPTIONS
unexport CONFIG_SITE
unexport QMAKESPEC
unexport TERMINFO to correct ncurses behavior The ncurses build can become polluted by the user's TERMINFO environment variable, causing the user's ~/.terminfo to be modified and preventing the install from succeeding: /bin/sh ./run_tic.sh ** Building terminfo database, please wait... Running tic to install /home/nathanl/devel/buildroot.git/output/host/usr/i686-unknown-linux-gnu/sysroot/usr/share/emacs/24.0.97/etc/ ... You may see messages regarding extended capabilities, e.g., AX. These are extended terminal capabilities which are compiled using tic -x If you have ncurses 4.2 applications, you should read the INSTALL document, and install the terminfo without the -x option. 1562 entries written to /home/nathanl/.terminfo ** built new /home/nathanl/devel/buildroot.git/output/host/usr/i686-unknown-linux-gnu/sysroot/usr/share/emacs/24.0.97/etc/ installing std installing stdcrt installing vt100 installing vt300 make[2]: Leaving directory `/home/nathanl/devel/buildroot.git/output/build/ncurses-5.7/misc' make[1]: Leaving directory `/home/nathanl/devel/buildroot.git/output/build/ncurses-5.7' for i in $(find /home/nathanl/devel/buildroot.git/output/host/usr/i686-unknown-linux-gnu/sysroot/usr/lib* -name "*.la"); do cp -f $i $i~; /usr/bin/sed -i -e "s:\(['= ]\)/usr:\\1/home/nathanl/devel/buildroot.git/output/host/usr/i686-unknown-linux-gnu/sysroot/usr:g" $i; done >>> ncurses 5.7 Installing to target mkdir -p /home/nathanl/devel/buildroot.git/output/target/usr/lib cp -dpf /home/nathanl/devel/buildroot.git/output/build/ncurses-5.7/lib/libncurses.so* /home/nathanl/devel/buildroot.git/output/target/usr/lib/ ln -snf /usr/share/terminfo /home/nathanl/devel/buildroot.git/output/target/usr/lib/terminfo mkdir -p /home/nathanl/devel/buildroot.git/output/target/usr/share/terminfo/x cp -dpf /home/nathanl/devel/buildroot.git/output/host/usr/i686-unknown-linux-gnu/sysroot/usr/share/terminfo/x/xterm /home/nathanl/devel/buildroot.git/output/target/usr/share/terminfo/x cp: cannot stat `/home/nathanl/devel/buildroot.git/output/host/usr/i686-unknown-linux-gnu/sysroot/usr/share/terminfo/x/xterm': No such file or directory make: *** [/home/nathanl/devel/buildroot.git/output/build/ncurses-5.7/.stamp_target_installed] Error 1 So unexport TERMINFO in the top-level Makefile. Signed-off-by: Nathan Lynch <ntl@pobox.com> Acked-by: Gustavo Zacarias <gustavo@zacarias.com.ar> Signed-off-by: Peter Korsgaard <jacmet@sunsite.dk>
2012-07-10 09:37:22 +02:00
unexport TERMINFO
unexport MACHINE
unexport O
GNU_HOST_NAME := $(shell support/gnuconfig/config.guess)
PACKAGES :=
PACKAGES_ALL :=
# silent mode requested?
QUIET := $(if $(findstring s,$(filter-out --%,$(MAKEFLAGS))),-q)
Remove the "project" feature The "project" feature was designed to allow to several projects to be built inside the same Buildroot source tree and allowing the toolchain and non-configurable packages to be shared between the different projects on the same architecture. While being interesting in theory, this feature adds a level of complexity to Buildroot, both from an user perspective and from a developer perspective, while one of the main Buildroot strengh is to be simple. Moreover, this feature is only seldomly used by our users. From a user-level perspective, this for example allows to remove the project_build_ARCH directory, which was very confusing. The autotools-stamps directory is also removed, since these stamps are back at their normal location. Description of the changes involved : * project/, directory removed * Makefile - Don't include project/Makefile.in and project/project.mk anymore - Grab a copy of the contents of project/Makefile.in at the location it was imported, but remove the definition related to PROJECT_BUILD_DIR. The TARGET_DIR is now in $(BUILD_DIR)/target_dir - Remove the creation/removal of the $(PROJECT_BUILD_DIR) and $(PROJECT_BUILD_DIR)/autotools-stamps directories - Don't make world depends on target-host-info. This target was defined by project/project.mk to customize /etc/issue, /etc/hostname and create /etc/br-version depending on the project definitions. We can of course imagine re-adding such a feature later. - Replace PROJECT_BUILD_DIR by BUILD_DIR everywhere - Remove the update, log and lognr.$(PROJECT) target, they were specific to the project feature. * package/Makefile.autotools.in - Replace PROJECT_BUILD_DIR by BUILD_DIR for the location of the configure cache - Move the INSTALL_TARGET and HOOK_POST_INSTALL stamps to the same directory as the other stamps (i.e, in the package directory). * package/Makefile.in - Replace PROJECT_BUILD_DIR by BUILD_DIR for the location of the configure cache * package/at/at.mk, package/busybox/busybox.mk, package/busybox/initramfs.mk, package/customize/customize.mk, package/linux-fusion/linux-fusion.mk, package/ltp-testsuite/ltp-testsuite.mk, package/nfs-utils/nfs-utils.mk, target/cpio/cpioroot.mk, target/cramfs/cramfs.mk, target/device/Atmel/DataFlashBoot/DataflashBoot.mk, target/device/Atmel/Makefile.in, target/device/Atmel/at91bootstrap/at91bootstrap.mk, target/device/KwikByte/Makefile.in, target/ext2/ext2root.mk, target/initramfs/initramfs.mk, target/iso9660/iso9660.mk, target/jffs2/jffs2root.mk, target/linux/Makefile.in, target/romfs/romfs.mk, target/squashfs/squashfsroot.mk, target/tar/tarroot.mk, target/ubifs/ubifsroot.mk - Replace PROJECT_BUILD_DIR by BUILD_DIR * target/device/Config.in - Do not include project/Config.in anymore * target/linux/Makefile.in.advanced - Replace PROJECT_BUILD_DIR by BUILD_DIR - Store the stamps file in $(STAMP_DIR) instead of $(PROJECT_BUILD_DIR)/autotools-stamps * target/u-boot/Makefile.in - Replace PROJECT_BUILD_DIR by BUILD_DIR - Remove $(PROJECT) from the U-Boot target binary name - Remove the insertion in the configuration of the project name as the hostname - The u-boot-autoscript target now generates $(U_BOOT_AUTOSCRIPT).img instead of $(U_BOOT_AUTOSCRIPT).$(PROJECT) * toolchain/gcc/gcc-uclibc-3.x.mk toolchain/gcc/gcc-uclibc-4.x.mk - Move the stamps files to $(STAMP_DIR) Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2009-09-05 15:49:30 +02:00
# Strip off the annoying quoting
ARCH := $(call qstrip,$(BR2_ARCH))
KERNEL_ARCH := $(shell echo "$(ARCH)" | sed -e "s/-.*//" \
-e s/i.86/i386/ -e s/sun4u/sparc64/ \
-e s/arcle/arc/ \
-e s/arceb/arc/ \
-e s/arm.*/arm/ -e s/sa110/arm/ \
-e s/aarch64.*/arm64/ \
-e s/bfin/blackfin/ \
-e s/parisc64/parisc/ \
-e s/powerpc64.*/powerpc/ \
-e s/ppc.*/powerpc/ -e s/mips.*/mips/ \
-e s/sh.*/sh/ \
-e s/microblazeel/microblaze/)
ZCAT := $(call qstrip,$(BR2_ZCAT))
BZCAT := $(call qstrip,$(BR2_BZCAT))
XZCAT := $(call qstrip,$(BR2_XZCAT))
TAR_OPTIONS = $(call qstrip,$(BR2_TAR_OPTIONS)) -xf
Remove the "project" feature The "project" feature was designed to allow to several projects to be built inside the same Buildroot source tree and allowing the toolchain and non-configurable packages to be shared between the different projects on the same architecture. While being interesting in theory, this feature adds a level of complexity to Buildroot, both from an user perspective and from a developer perspective, while one of the main Buildroot strengh is to be simple. Moreover, this feature is only seldomly used by our users. From a user-level perspective, this for example allows to remove the project_build_ARCH directory, which was very confusing. The autotools-stamps directory is also removed, since these stamps are back at their normal location. Description of the changes involved : * project/, directory removed * Makefile - Don't include project/Makefile.in and project/project.mk anymore - Grab a copy of the contents of project/Makefile.in at the location it was imported, but remove the definition related to PROJECT_BUILD_DIR. The TARGET_DIR is now in $(BUILD_DIR)/target_dir - Remove the creation/removal of the $(PROJECT_BUILD_DIR) and $(PROJECT_BUILD_DIR)/autotools-stamps directories - Don't make world depends on target-host-info. This target was defined by project/project.mk to customize /etc/issue, /etc/hostname and create /etc/br-version depending on the project definitions. We can of course imagine re-adding such a feature later. - Replace PROJECT_BUILD_DIR by BUILD_DIR everywhere - Remove the update, log and lognr.$(PROJECT) target, they were specific to the project feature. * package/Makefile.autotools.in - Replace PROJECT_BUILD_DIR by BUILD_DIR for the location of the configure cache - Move the INSTALL_TARGET and HOOK_POST_INSTALL stamps to the same directory as the other stamps (i.e, in the package directory). * package/Makefile.in - Replace PROJECT_BUILD_DIR by BUILD_DIR for the location of the configure cache * package/at/at.mk, package/busybox/busybox.mk, package/busybox/initramfs.mk, package/customize/customize.mk, package/linux-fusion/linux-fusion.mk, package/ltp-testsuite/ltp-testsuite.mk, package/nfs-utils/nfs-utils.mk, target/cpio/cpioroot.mk, target/cramfs/cramfs.mk, target/device/Atmel/DataFlashBoot/DataflashBoot.mk, target/device/Atmel/Makefile.in, target/device/Atmel/at91bootstrap/at91bootstrap.mk, target/device/KwikByte/Makefile.in, target/ext2/ext2root.mk, target/initramfs/initramfs.mk, target/iso9660/iso9660.mk, target/jffs2/jffs2root.mk, target/linux/Makefile.in, target/romfs/romfs.mk, target/squashfs/squashfsroot.mk, target/tar/tarroot.mk, target/ubifs/ubifsroot.mk - Replace PROJECT_BUILD_DIR by BUILD_DIR * target/device/Config.in - Do not include project/Config.in anymore * target/linux/Makefile.in.advanced - Replace PROJECT_BUILD_DIR by BUILD_DIR - Store the stamps file in $(STAMP_DIR) instead of $(PROJECT_BUILD_DIR)/autotools-stamps * target/u-boot/Makefile.in - Replace PROJECT_BUILD_DIR by BUILD_DIR - Remove $(PROJECT) from the U-Boot target binary name - Remove the insertion in the configuration of the project name as the hostname - The u-boot-autoscript target now generates $(U_BOOT_AUTOSCRIPT).img instead of $(U_BOOT_AUTOSCRIPT).$(PROJECT) * toolchain/gcc/gcc-uclibc-3.x.mk toolchain/gcc/gcc-uclibc-4.x.mk - Move the stamps files to $(STAMP_DIR) Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2009-09-05 15:49:30 +02:00
# packages compiled for the host go here
HOST_DIR := $(call qstrip,$(BR2_HOST_DIR))
Remove the "project" feature The "project" feature was designed to allow to several projects to be built inside the same Buildroot source tree and allowing the toolchain and non-configurable packages to be shared between the different projects on the same architecture. While being interesting in theory, this feature adds a level of complexity to Buildroot, both from an user perspective and from a developer perspective, while one of the main Buildroot strengh is to be simple. Moreover, this feature is only seldomly used by our users. From a user-level perspective, this for example allows to remove the project_build_ARCH directory, which was very confusing. The autotools-stamps directory is also removed, since these stamps are back at their normal location. Description of the changes involved : * project/, directory removed * Makefile - Don't include project/Makefile.in and project/project.mk anymore - Grab a copy of the contents of project/Makefile.in at the location it was imported, but remove the definition related to PROJECT_BUILD_DIR. The TARGET_DIR is now in $(BUILD_DIR)/target_dir - Remove the creation/removal of the $(PROJECT_BUILD_DIR) and $(PROJECT_BUILD_DIR)/autotools-stamps directories - Don't make world depends on target-host-info. This target was defined by project/project.mk to customize /etc/issue, /etc/hostname and create /etc/br-version depending on the project definitions. We can of course imagine re-adding such a feature later. - Replace PROJECT_BUILD_DIR by BUILD_DIR everywhere - Remove the update, log and lognr.$(PROJECT) target, they were specific to the project feature. * package/Makefile.autotools.in - Replace PROJECT_BUILD_DIR by BUILD_DIR for the location of the configure cache - Move the INSTALL_TARGET and HOOK_POST_INSTALL stamps to the same directory as the other stamps (i.e, in the package directory). * package/Makefile.in - Replace PROJECT_BUILD_DIR by BUILD_DIR for the location of the configure cache * package/at/at.mk, package/busybox/busybox.mk, package/busybox/initramfs.mk, package/customize/customize.mk, package/linux-fusion/linux-fusion.mk, package/ltp-testsuite/ltp-testsuite.mk, package/nfs-utils/nfs-utils.mk, target/cpio/cpioroot.mk, target/cramfs/cramfs.mk, target/device/Atmel/DataFlashBoot/DataflashBoot.mk, target/device/Atmel/Makefile.in, target/device/Atmel/at91bootstrap/at91bootstrap.mk, target/device/KwikByte/Makefile.in, target/ext2/ext2root.mk, target/initramfs/initramfs.mk, target/iso9660/iso9660.mk, target/jffs2/jffs2root.mk, target/linux/Makefile.in, target/romfs/romfs.mk, target/squashfs/squashfsroot.mk, target/tar/tarroot.mk, target/ubifs/ubifsroot.mk - Replace PROJECT_BUILD_DIR by BUILD_DIR * target/device/Config.in - Do not include project/Config.in anymore * target/linux/Makefile.in.advanced - Replace PROJECT_BUILD_DIR by BUILD_DIR - Store the stamps file in $(STAMP_DIR) instead of $(PROJECT_BUILD_DIR)/autotools-stamps * target/u-boot/Makefile.in - Replace PROJECT_BUILD_DIR by BUILD_DIR - Remove $(PROJECT) from the U-Boot target binary name - Remove the insertion in the configuration of the project name as the hostname - The u-boot-autoscript target now generates $(U_BOOT_AUTOSCRIPT).img instead of $(U_BOOT_AUTOSCRIPT).$(PROJECT) * toolchain/gcc/gcc-uclibc-3.x.mk toolchain/gcc/gcc-uclibc-4.x.mk - Move the stamps files to $(STAMP_DIR) Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2009-09-05 15:49:30 +02:00
# Quotes are needed for spaces and all in the original PATH content.
BR_PATH = "$(HOST_DIR)/bin:$(HOST_DIR)/sbin:$(HOST_DIR)/usr/bin:$(HOST_DIR)/usr/sbin:$(PATH)"
# Location of a file giving a big fat warning that output/target
# should not be used as the root filesystem.
TARGET_DIR_WARNING_FILE = $(TARGET_DIR)/THIS_IS_NOT_YOUR_ROOT_FILESYSTEM
ifeq ($(BR2_CCACHE),y)
CCACHE := $(HOST_DIR)/usr/bin/ccache
BR_CACHE_DIR ?= $(call qstrip,$(BR2_CCACHE_DIR))
export BR_CACHE_DIR
HOSTCC := $(CCACHE) $(HOSTCC)
HOSTCXX := $(CCACHE) $(HOSTCXX)
else
export BR_NO_CCACHE
endif
# Scripts in support/ or post-build scripts may need to reference
# these locations, so export them so it is easier to use
export BR2_CONFIG
export BR2_REPRODUCIBLE
export TARGET_DIR
export STAGING_DIR
export HOST_DIR
export BINARIES_DIR
export BASE_DIR
################################################################################
#
# You should probably leave this stuff alone unless you know
# what you are doing.
#
################################################################################
2007-08-22 14:35:41 +02:00
all: world
2001-12-22 01:56:11 +01:00
# Include legacy before the other things, because package .mk files
# may rely on it.
include Makefile.legacy
include package/Makefile.in
include support/dependencies/dependencies.mk
include toolchain/*.mk
include toolchain/*/*.mk
# Include the package override file if one has been provided in the
# configuration.
PACKAGE_OVERRIDE_FILE = $(call qstrip,$(BR2_PACKAGE_OVERRIDE_FILE))
ifneq ($(PACKAGE_OVERRIDE_FILE),)
-include $(PACKAGE_OVERRIDE_FILE)
endif
include $(sort $(wildcard package/*/*.mk))
include boot/common.mk
include linux/linux.mk
include fs/common.mk
core: add support for multiple br2-external trees Currently, we only support at most one br2-external tree. Being able to use more than one br2-external tree can be very useful. A use-case would be for having a br2-external to contain the basic packages, basic board defconfigs and board files, provided by one team responsible for the "board-bringup", while other teams consume that br2-external as a base, and complements it each with their own set of packages, defconfigs and extra board files. Another use-case would be for third-parties to provide their own Buildroot packaging in a br2-external tree, along-side the archives for their stuff. Finally, another use-case is to be able to add FLOSS packages in a br2-external tree, and proprietary packages in another. This allows to not touch the Buildroot tree at all, and still be able to get in compliance by providing only that br2-external tree(s) that contains FLOSS packages, leaving aside the br2-external tree(s) with the proprietary bits. What we do is to treat BR2_EXTERNAL as a colon-separated (space- separated also work, and we use that internally) list of paths, on which we iterate to construct: - the list of all br2-external names, BR2_EXTERNAL_NAMES, - the per-br2-external tree BR2_EXTERNAL_$(NAME) variables, which point each to the actual location of the corresponding tree, - the list of paths to all the external.mk files, BR2_EXTERNAL_MKS, - the space-separated list of absolute paths to the external trees, BR2_EXTERNAL_DIRS. Once we have all those variables, we replace references to BR2_EXTERNAL with either one of those. This cascades into how we display the list of defconfigs, so that it is easy to see what br2-external tree provides what defconfigs. As suggested by Arnout, tweak the comment from "User-provided configs" to "External configs", on the assumption that some br2-external trees could be provided by vendors, so not necessarily user-provided. Ditto the menu in Kconfig, changed from "User-provided options" to "External options". Now, when more than one br2-external tree is used, each gets its own sub-menu in the "User-provided options" menu. The sub-menu is labelled with that br2-external tree's name and the sub-menu's first item is a comment with the path to that br2-external tree. If there's only one br2-external tree, then there is no sub-menu; there is a single comment that contains the name and path to the br2-external tree. Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Arnout Vandecappelle <arnout@mind.be> Cc: Romain Naour <romain.naour@openwide.fr> Cc: Julien CORJON <corjon.j@ecagroup.com> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2016-10-14 16:39:20 +02:00
# If using a br2-external tree, the BR2_EXTERNAL_$(NAME)_PATH variables
# are also present in the .config file. Since .config is included after
# we defined them in the Makefile, the values for those variables are
# quoted. We just include the generated Makefile fragment .br2-external.mk
# a third time, which will set those variables to the un-quoted values.
core: introduce per br2-external NAME This unique NAME is used to construct a per br2-external tree variable, BR2_EXTERNAL_$(NAME)_PATH, which contains the path to the br2-external tree. This variable is available both from Kconfig (set in the Kconfig snippet) and from the .mk files. Also, display the NAME and its path as a comment in the menuconfig. This will ultimately allow us to support multiple br2-external trees at once, with that NAME (and thus BR2_EXTERNAL_$(NAME)) uniquely defining which br2-external tree is being used. The obvious outcome is that BR2_EXTERNAL should now no longer be used to refer to the files in the br2-external tree; that location is now known from the BR2_EXTERNAL_$(NAME)_PATH variable instead. This means we no longer need to expose, and must stop from from exposing BR2_EXTERNAL as a Kconfig variable. Finally, this also fixes a latent bug in the pkg-generic infra, where we would so far always refer to BR2_EXTERNAL (even if not set) to filter the names of packages (to decide whether they are a bootloader, a toolchain or a simple package). Note: since the variables in the Makefile and in Kconfig are named the same, the one we computed early on in the Makefile will be overridden by the one in .config when we have it. Thus, even though they are set to the same raw value, the one from .config is quoted and, being included later in the Makefile, will take precedence, so we just re-include the generated Makefile fragment a third time before includeing the br2-external's Makefiles. That's unfortunate, but there is no easy way around that as we do want the two variables to be named the same in Makefile and Kconfig (and we can't ask the user to un-quote that variable himself either), hence this little dirty triple-inclusion trick. Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Arnout Vandecappelle <arnout@mind.be> Cc: Romain Naour <romain.naour@openwide.fr> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2016-10-14 16:39:17 +02:00
include $(BR2_EXTERNAL_FILE)
# Nothing to include if no BR2_EXTERNAL tree in use
core: add support for multiple br2-external trees Currently, we only support at most one br2-external tree. Being able to use more than one br2-external tree can be very useful. A use-case would be for having a br2-external to contain the basic packages, basic board defconfigs and board files, provided by one team responsible for the "board-bringup", while other teams consume that br2-external as a base, and complements it each with their own set of packages, defconfigs and extra board files. Another use-case would be for third-parties to provide their own Buildroot packaging in a br2-external tree, along-side the archives for their stuff. Finally, another use-case is to be able to add FLOSS packages in a br2-external tree, and proprietary packages in another. This allows to not touch the Buildroot tree at all, and still be able to get in compliance by providing only that br2-external tree(s) that contains FLOSS packages, leaving aside the br2-external tree(s) with the proprietary bits. What we do is to treat BR2_EXTERNAL as a colon-separated (space- separated also work, and we use that internally) list of paths, on which we iterate to construct: - the list of all br2-external names, BR2_EXTERNAL_NAMES, - the per-br2-external tree BR2_EXTERNAL_$(NAME) variables, which point each to the actual location of the corresponding tree, - the list of paths to all the external.mk files, BR2_EXTERNAL_MKS, - the space-separated list of absolute paths to the external trees, BR2_EXTERNAL_DIRS. Once we have all those variables, we replace references to BR2_EXTERNAL with either one of those. This cascades into how we display the list of defconfigs, so that it is easy to see what br2-external tree provides what defconfigs. As suggested by Arnout, tweak the comment from "User-provided configs" to "External configs", on the assumption that some br2-external trees could be provided by vendors, so not necessarily user-provided. Ditto the menu in Kconfig, changed from "User-provided options" to "External options". Now, when more than one br2-external tree is used, each gets its own sub-menu in the "User-provided options" menu. The sub-menu is labelled with that br2-external tree's name and the sub-menu's first item is a comment with the path to that br2-external tree. If there's only one br2-external tree, then there is no sub-menu; there is a single comment that contains the name and path to the br2-external tree. Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Arnout Vandecappelle <arnout@mind.be> Cc: Romain Naour <romain.naour@openwide.fr> Cc: Julien CORJON <corjon.j@ecagroup.com> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2016-10-14 16:39:20 +02:00
include $(BR2_EXTERNAL_MKS)
# Now we are sure we have all the packages scanned and defined. We now
# check for each package in the list of enabled packages, that all its
# dependencies are indeed enabled.
#
# Only trigger the check for default builds. If the user forces building
# a package, even if not enabled in the configuration, we want to accept
# it.
#
ifeq ($(MAKECMDGOALS),)
define CHECK_ONE_DEPENDENCY
ifeq ($$($(2)_TYPE),target)
ifeq ($$($(2)_IS_VIRTUAL),)
ifneq ($$($$($(2)_KCONFIG_VAR)),y)
$$(error $$($(2)_NAME) is in the dependency chain of $$($(1)_NAME) that \
has added it to its _DEPENDENCIES variable without selecting it or \
depending on it from Config.in)
endif
endif
endif
endef
$(foreach pkg,$(call UPPERCASE,$(PACKAGES)),\
$(foreach dep,$(call UPPERCASE,$($(pkg)_FINAL_ALL_DEPENDENCIES)),\
$(eval $(call CHECK_ONE_DEPENDENCY,$(pkg),$(dep))$(sep))))
endif
dirs: $(BUILD_DIR) $(STAGING_DIR) $(TARGET_DIR) \
$(HOST_DIR) $(BINARIES_DIR)
$(BUILD_DIR)/buildroot-config/auto.conf: $(BR2_CONFIG)
$(MAKE1) $(EXTRAMAKEARGS) HOSTCC="$(HOSTCC_NOCCACHE)" HOSTCXX="$(HOSTCXX_NOCCACHE)" silentoldconfig
prepare: $(BUILD_DIR)/buildroot-config/auto.conf
world: target-post-image
.PHONY: all world toolchain dirs clean distclean source outputmakefile \
legal-info legal-info-prepare legal-info-clean printvars help \
list-defconfigs target-finalize target-post-image source-check
2001-12-22 01:56:11 +01:00
# Populating the staging with the base directories is handled by the skeleton package
2002-04-26 13:45:55 +02:00
$(STAGING_DIR):
@mkdir -p $(STAGING_DIR)
@ln -snf $(STAGING_DIR) $(BASE_DIR)/staging
2001-12-22 01:56:11 +01:00
RSYNC_VCS_EXCLUSIONS = \
--exclude .svn --exclude .git --exclude .hg --exclude .bzr \
--exclude CVS
STRIP_FIND_CMD = find $(TARGET_DIR)
ifneq (,$(call qstrip,$(BR2_STRIP_EXCLUDE_DIRS)))
STRIP_FIND_CMD += \( $(call finddirclauses,$(TARGET_DIR),$(call qstrip,$(BR2_STRIP_EXCLUDE_DIRS))) \) -prune -o
endif
STRIP_FIND_CMD += -type f \( -perm /111 -o -name '*.so*' \)
# file exclusions:
# - libpthread.so: a non-stripped libpthread shared library is needed for
# proper debugging of pthread programs using gdb.
# - ld.so: a non-stripped dynamic linker library is needed for valgrind
# - kernel modules (*.ko): do not function properly when stripped like normal
# applications and libraries. Normally kernel modules are already excluded
# by the executable permission check above, so the explicit exclusion is only
# done for kernel modules with incorrect permissions.
STRIP_FIND_CMD += -not \( $(call findfileclauses,libpthread*.so* ld-*.so* *.ko $(call qstrip,$(BR2_STRIP_EXCLUDE_FILES))) \) -print0
ifeq ($(BR2_ECLIPSE_REGISTER),y)
define TOOLCHAIN_ECLIPSE_REGISTER
./support/scripts/eclipse-register-toolchain `readlink -f $(O)` \
$(notdir $(TARGET_CROSS)) $(BR2_ARCH)
endef
TARGET_FINALIZE_HOOKS += TOOLCHAIN_ECLIPSE_REGISTER
endif
# Generate locale data. Basically, we call the localedef program
# (built by the host-localedef package) for each locale. The input
# data comes preferably from the toolchain, or if the toolchain does
# not have them (Linaro toolchains), we use the ones available on the
# host machine.
ifeq ($(BR2_TOOLCHAIN_USES_GLIBC),y)
GLIBC_GENERATE_LOCALES = $(call qstrip,$(BR2_GENERATE_LOCALE))
ifneq ($(GLIBC_GENERATE_LOCALES),)
PACKAGES += host-localedef
define GENERATE_GLIBC_LOCALES
$(Q)mkdir -p $(TARGET_DIR)/usr/lib/locale/
$(Q)for locale in $(GLIBC_GENERATE_LOCALES) ; do \
inputfile=`echo $${locale} | cut -f1 -d'.'` ; \
charmap=`echo $${locale} | cut -f2 -d'.' -s` ; \
if test -z "$${charmap}" ; then \
charmap="UTF-8" ; \
fi ; \
echo "Generating locale $${inputfile}.$${charmap}" ; \
I18NPATH=$(STAGING_DIR)/usr/share/i18n:/usr/share/i18n \
$(HOST_DIR)/usr/bin/localedef \
--prefix=$(TARGET_DIR) \
--$(call LOWERCASE,$(BR2_ENDIAN))-endian \
-i $${inputfile} -f $${charmap} \
$${locale} ; \
done
endef
TARGET_FINALIZE_HOOKS += GENERATE_GLIBC_LOCALES
endif
endif
ifeq ($(BR2_ENABLE_LOCALE_PURGE),y)
LOCALE_WHITELIST = $(BUILD_DIR)/locales.nopurge
LOCALE_NOPURGE = $(call qstrip,$(BR2_ENABLE_LOCALE_WHITELIST))
# This piece of junk does the following:
# First collect the whitelist in a file.
# Then go over all the locale dirs and for each subdir, check if it exists
# in the whitelist file. If it doesn't, kill it.
# Finally, specifically for X11, regenerate locale.dir from the whitelist.
define PURGE_LOCALES
rm -f $(LOCALE_WHITELIST)
for i in $(LOCALE_NOPURGE) locale-archive; do echo $$i >> $(LOCALE_WHITELIST); done
for dir in $(wildcard $(addprefix $(TARGET_DIR),/usr/share/locale /usr/share/X11/locale /usr/lib/locale)); \
do \
for langdir in $$dir/*; \
do \
if [ -e "$${langdir}" ]; \
then \
grep -qx "$${langdir##*/}" $(LOCALE_WHITELIST) || rm -rf $$langdir; \
fi \
done; \
done
if [ -d $(TARGET_DIR)/usr/share/X11/locale ]; \
then \
for lang in $(LOCALE_NOPURGE); \
do \
if [ -f $(TARGET_DIR)/usr/share/X11/locale/$$lang/XLC_LOCALE ]; \
then \
echo "$$lang/XLC_LOCALE: $$lang"; \
fi \
done > $(TARGET_DIR)/usr/share/X11/locale/locale.dir; \
fi
endef
TARGET_FINALIZE_HOOKS += PURGE_LOCALES
endif
$(TARGETS_ROOTFS): target-finalize
target-finalize: $(PACKAGES)
@$(call MESSAGE,"Finalizing target directory")
$(foreach hook,$(TARGET_FINALIZE_HOOKS),$($(hook))$(sep))
rm -rf $(TARGET_DIR)/usr/include $(TARGET_DIR)/usr/share/aclocal \
$(TARGET_DIR)/usr/lib/pkgconfig $(TARGET_DIR)/usr/share/pkgconfig \
$(TARGET_DIR)/usr/lib/cmake $(TARGET_DIR)/usr/share/cmake
find $(TARGET_DIR)/usr/{lib,share}/ -name '*.cmake' -print0 | xargs -0 rm -f
find $(TARGET_DIR)/lib/ $(TARGET_DIR)/usr/lib/ $(TARGET_DIR)/usr/libexec/ \
\( -name '*.a' -o -name '*.la' \) -print0 | xargs -0 rm -f
ifneq ($(BR2_PACKAGE_GDB),y)
rm -rf $(TARGET_DIR)/usr/share/gdb
endif
ifneq ($(BR2_PACKAGE_BASH),y)
rm -rf $(TARGET_DIR)/usr/share/bash-completion
endif
ifneq ($(BR2_PACKAGE_ZSH),y)
rm -rf $(TARGET_DIR)/usr/share/zsh
endif
rm -rf $(TARGET_DIR)/usr/man $(TARGET_DIR)/usr/share/man
rm -rf $(TARGET_DIR)/usr/info $(TARGET_DIR)/usr/share/info
rm -rf $(TARGET_DIR)/usr/doc $(TARGET_DIR)/usr/share/doc
rm -rf $(TARGET_DIR)/usr/share/gtk-doc
rmdir $(TARGET_DIR)/usr/share 2>/dev/null || true
$(STRIP_FIND_CMD) | xargs -0 $(STRIPCMD) 2>/dev/null || true
# See http://sourceware.org/gdb/wiki/FAQ, "GDB does not see any threads
# besides the one in which crash occurred; or SIGTRAP kills my program when
# I set a breakpoint"
ifeq ($(BR2_TOOLCHAIN_HAS_THREADS),y)
find $(TARGET_DIR)/lib/ -type f -name 'libpthread*.so*' | \
xargs -r $(STRIPCMD) $(STRIP_STRIP_DEBUG)
endif
# Valgrind needs ld.so with enough information, so only strip
# debugging symbols.
find $(TARGET_DIR)/lib/ -type f -name 'ld-*.so*' | \
xargs -r $(STRIPCMD) $(STRIP_STRIP_DEBUG)
test -f $(TARGET_DIR)/etc/ld.so.conf && \
{ echo "ERROR: we shouldn't have a /etc/ld.so.conf file"; exit 1; } || true
test -d $(TARGET_DIR)/etc/ld.so.conf.d && \
{ echo "ERROR: we shouldn't have a /etc/ld.so.conf.d directory"; exit 1; } || true
mkdir -p $(TARGET_DIR)/etc
( \
echo "NAME=Buildroot"; \
echo "VERSION=$(BR2_VERSION_FULL)"; \
echo "ID=buildroot"; \
echo "VERSION_ID=$(BR2_VERSION)"; \
echo "PRETTY_NAME=\"Buildroot $(BR2_VERSION)\"" \
) > $(TARGET_DIR)/etc/os-release
@$(foreach d, $(call qstrip,$(BR2_ROOTFS_OVERLAY)), \
$(call MESSAGE,"Copying overlay $(d)"); \
rsync -a --ignore-times --keep-dirlinks $(RSYNC_VCS_EXCLUSIONS) \
--chmod=u=rwX,go=rX --exclude .empty --exclude '*~' \
$(d)/ $(TARGET_DIR)$(sep))
@$(foreach s, $(call qstrip,$(BR2_ROOTFS_POST_BUILD_SCRIPT)), \
$(call MESSAGE,"Executing post-build script $(s)"); \
$(EXTRA_ENV) $(s) $(TARGET_DIR) $(call qstrip,$(BR2_ROOTFS_POST_SCRIPT_ARGS))$(sep))
target-post-image: $(TARGETS_ROOTFS) target-finalize
@$(foreach s, $(call qstrip,$(BR2_ROOTFS_POST_IMAGE_SCRIPT)), \
$(call MESSAGE,"Executing post-image script $(s)"); \
$(EXTRA_ENV) $(s) $(BINARIES_DIR) $(call qstrip,$(BR2_ROOTFS_POST_SCRIPT_ARGS))$(sep))
source: $(foreach p,$(PACKAGES),$(p)-all-source)
2002-04-26 13:45:55 +02:00
_external-deps: $(foreach p,$(PACKAGES),$(p)-all-external-deps)
external-deps:
@$(MAKE1) -Bs $(EXTRAMAKEARGS) _external-deps | sort -u
# check if download URLs are outdated
source-check: $(foreach p,$(PACKAGES),$(p)-all-source-check)
legal-info-clean:
@rm -fr $(LEGAL_INFO_DIR)
legal-info-prepare: $(LEGAL_INFO_DIR)
@$(call MESSAGE,"Collecting legal info")
@$(call legal-license-file,buildroot,COPYING,COPYING,HOST)
@$(call legal-manifest,PACKAGE,VERSION,LICENSE,LICENSE FILES,SOURCE ARCHIVE,SOURCE SITE,TARGET)
@$(call legal-manifest,PACKAGE,VERSION,LICENSE,LICENSE FILES,SOURCE ARCHIVE,SOURCE SITE,HOST)
@$(call legal-manifest,buildroot,$(BR2_VERSION_FULL),GPLv2+,COPYING,not saved,not saved,HOST)
@$(call legal-warning,the Buildroot source code has not been saved)
@cp $(BR2_CONFIG) $(LEGAL_INFO_DIR)/buildroot.config
legal-info: dirs legal-info-clean legal-info-prepare $(foreach p,$(PACKAGES),$(p)-all-legal-info) \
$(REDIST_SOURCES_DIR_TARGET) $(REDIST_SOURCES_DIR_HOST)
@cat support/legal-info/README.header >>$(LEGAL_REPORT)
@if [ -r $(LEGAL_WARNINGS) ]; then \
cat support/legal-info/README.warnings-header \
$(LEGAL_WARNINGS) >>$(LEGAL_REPORT); \
cat $(LEGAL_WARNINGS); fi
@rm -f $(LEGAL_WARNINGS)
@(cd $(LEGAL_INFO_DIR); \
find * -type f -exec sha256sum {} + | LC_ALL=C sort -k2 \
>.legal-info.sha256; \
mv .legal-info.sha256 legal-info.sha256)
@echo "Legal info produced in $(LEGAL_INFO_DIR)"
show-targets:
@echo $(PACKAGES) $(TARGETS_ROOTFS)
graph-build: $(O)/build/build-time.log
@install -d $(GRAPHS_DIR)
$(foreach o,name build duration,./support/scripts/graph-build-time \
--type=histogram --order=$(o) --input=$(<) \
--output=$(GRAPHS_DIR)/build.hist-$(o).$(BR_GRAPH_OUT) \
$(if $(BR2_GRAPH_ALT),--alternate-colors)$(sep))
$(foreach t,packages steps,./support/scripts/graph-build-time \
--type=pie-$(t) --input=$(<) \
--output=$(GRAPHS_DIR)/build.pie-$(t).$(BR_GRAPH_OUT) \
$(if $(BR2_GRAPH_ALT),--alternate-colors)$(sep))
graph-depends-requirements:
@dot -? >/dev/null 2>&1 || \
{ echo "ERROR: The 'dot' program from Graphviz is needed for graph-depends" >&2; exit 1; }
graph-depends: graph-depends-requirements
@$(INSTALL) -d $(GRAPHS_DIR)
@cd "$(CONFIG_DIR)"; \
$(TOPDIR)/support/scripts/graph-depends $(BR2_GRAPH_DEPS_OPTS) \
--direct -o $(GRAPHS_DIR)/$(@).dot
dot $(BR2_GRAPH_DOT_OPTS) -T$(BR_GRAPH_OUT) \
-o $(GRAPHS_DIR)/$(@).$(BR_GRAPH_OUT) \
$(GRAPHS_DIR)/$(@).dot
graph-size:
$(Q)mkdir -p $(GRAPHS_DIR)
$(Q)$(TOPDIR)/support/scripts/size-stats --builddir $(BASE_DIR) \
--graph $(GRAPHS_DIR)/graph-size.$(BR_GRAPH_OUT) \
--file-size-csv $(GRAPHS_DIR)/file-size-stats.csv \
--package-size-csv $(GRAPHS_DIR)/package-size-stats.csv
check-dependencies:
@cd "$(CONFIG_DIR)"; \
$(TOPDIR)/support/scripts/graph-depends -C
else # ifeq ($(BR2_HAVE_DOT_CONFIG),y)
all: menuconfig
endif # ifeq ($(BR2_HAVE_DOT_CONFIG),y)
# configuration
# ---------------------------------------------------------------------------
HOSTCFLAGS = $(CFLAGS_FOR_BUILD)
export HOSTCFLAGS
.PHONY: prepare-kconfig
prepare-kconfig: outputmakefile $(BUILD_DIR)/.br2-external.in
$(BUILD_DIR)/buildroot-config/%onf:
mkdir -p $(@D)/lxdialog
PKG_CONFIG_PATH="$(HOST_PKG_CONFIG_PATH)" $(MAKE) CC="$(HOSTCC_NOCCACHE)" HOSTCC="$(HOSTCC_NOCCACHE)" \
obj=$(@D) -C $(CONFIG) -f Makefile.br $(@F)
DEFCONFIG = $(call qstrip,$(BR2_DEFCONFIG))
# We don't want to fully expand BR2_DEFCONFIG here, so Kconfig will
# recognize that if it's still at its default $(CONFIG_DIR)/defconfig
COMMON_CONFIG_ENV = \
BR2_DEFCONFIG='$(call qstrip,$(value BR2_DEFCONFIG))' \
KCONFIG_AUTOCONFIG=$(BUILD_DIR)/buildroot-config/auto.conf \
KCONFIG_AUTOHEADER=$(BUILD_DIR)/buildroot-config/autoconf.h \
KCONFIG_TRISTATE=$(BUILD_DIR)/buildroot-config/tristate.config \
BR2_CONFIG=$(BR2_CONFIG) \
HOST_GCC_VERSION="$(HOSTCC_VERSION)" \
BUILD_DIR=$(BUILD_DIR) \
SKIP_LEGACY=
xconfig: $(BUILD_DIR)/buildroot-config/qconf prepare-kconfig
@$(COMMON_CONFIG_ENV) $< $(CONFIG_CONFIG_IN)
gconfig: $(BUILD_DIR)/buildroot-config/gconf prepare-kconfig
@$(COMMON_CONFIG_ENV) srctree=$(TOPDIR) $< $(CONFIG_CONFIG_IN)
menuconfig: $(BUILD_DIR)/buildroot-config/mconf prepare-kconfig
@$(COMMON_CONFIG_ENV) $< $(CONFIG_CONFIG_IN)
nconfig: $(BUILD_DIR)/buildroot-config/nconf prepare-kconfig
@$(COMMON_CONFIG_ENV) $< $(CONFIG_CONFIG_IN)
config: $(BUILD_DIR)/buildroot-config/conf prepare-kconfig
@$(COMMON_CONFIG_ENV) $< $(CONFIG_CONFIG_IN)
# For the config targets that automatically select options, we pass
# SKIP_LEGACY=y to disable the legacy options. However, in that case
# no values are set for the legacy options so a subsequent oldconfig
# will query them. Therefore, run an additional olddefconfig.
oldconfig: $(BUILD_DIR)/buildroot-config/conf prepare-kconfig
@$(COMMON_CONFIG_ENV) $< --oldconfig $(CONFIG_CONFIG_IN)
randconfig: $(BUILD_DIR)/buildroot-config/conf prepare-kconfig
@$(COMMON_CONFIG_ENV) SKIP_LEGACY=y $< --randconfig $(CONFIG_CONFIG_IN)
@$(COMMON_CONFIG_ENV) $< --olddefconfig $(CONFIG_CONFIG_IN) >/dev/null
allyesconfig: $(BUILD_DIR)/buildroot-config/conf prepare-kconfig
@$(COMMON_CONFIG_ENV) SKIP_LEGACY=y $< --allyesconfig $(CONFIG_CONFIG_IN)
@$(COMMON_CONFIG_ENV) $< --olddefconfig $(CONFIG_CONFIG_IN) >/dev/null
allnoconfig: $(BUILD_DIR)/buildroot-config/conf prepare-kconfig
@$(COMMON_CONFIG_ENV) SKIP_LEGACY=y $< --allnoconfig $(CONFIG_CONFIG_IN)
@$(COMMON_CONFIG_ENV) $< --olddefconfig $(CONFIG_CONFIG_IN) >/dev/null
randpackageconfig: $(BUILD_DIR)/buildroot-config/conf prepare-kconfig
@grep -v BR2_PACKAGE_ $(BR2_CONFIG) > $(CONFIG_DIR)/.config.nopkg
@$(COMMON_CONFIG_ENV) SKIP_LEGACY=y \
KCONFIG_ALLCONFIG=$(CONFIG_DIR)/.config.nopkg \
$< --randconfig $(CONFIG_CONFIG_IN)
@rm -f $(CONFIG_DIR)/.config.nopkg
@$(COMMON_CONFIG_ENV) $< --olddefconfig $(CONFIG_CONFIG_IN) >/dev/null
allyespackageconfig: $(BUILD_DIR)/buildroot-config/conf prepare-kconfig
@grep -v BR2_PACKAGE_ $(BR2_CONFIG) > $(CONFIG_DIR)/.config.nopkg
@$(COMMON_CONFIG_ENV) SKIP_LEGACY=y \
KCONFIG_ALLCONFIG=$(CONFIG_DIR)/.config.nopkg \
$< --allyesconfig $(CONFIG_CONFIG_IN)
@rm -f $(CONFIG_DIR)/.config.nopkg
@$(COMMON_CONFIG_ENV) $< --olddefconfig $(CONFIG_CONFIG_IN) >/dev/null
allnopackageconfig: $(BUILD_DIR)/buildroot-config/conf prepare-kconfig
@grep -v BR2_PACKAGE_ $(BR2_CONFIG) > $(CONFIG_DIR)/.config.nopkg
@$(COMMON_CONFIG_ENV) SKIP_LEGACY=y \
KCONFIG_ALLCONFIG=$(CONFIG_DIR)/.config.nopkg \
$< --allnoconfig $(CONFIG_CONFIG_IN)
@rm -f $(CONFIG_DIR)/.config.nopkg
@$(COMMON_CONFIG_ENV) $< --olddefconfig $(CONFIG_CONFIG_IN) >/dev/null
silentoldconfig: $(BUILD_DIR)/buildroot-config/conf prepare-kconfig
$(COMMON_CONFIG_ENV) $< --silentoldconfig $(CONFIG_CONFIG_IN)
olddefconfig: $(BUILD_DIR)/buildroot-config/conf prepare-kconfig
$(COMMON_CONFIG_ENV) $< --olddefconfig $(CONFIG_CONFIG_IN)
defconfig: $(BUILD_DIR)/buildroot-config/conf prepare-kconfig
@$(COMMON_CONFIG_ENV) $< --defconfig$(if $(DEFCONFIG),=$(DEFCONFIG)) $(CONFIG_CONFIG_IN)
define percent_defconfig
# Override the BR2_DEFCONFIG from COMMON_CONFIG_ENV with the new defconfig
%_defconfig: $(BUILD_DIR)/buildroot-config/conf $(1)/configs/%_defconfig prepare-kconfig
@$$(COMMON_CONFIG_ENV) BR2_DEFCONFIG=$(1)/configs/$$@ \
$$< --defconfig=$(1)/configs/$$@ $$(CONFIG_CONFIG_IN)
endef
$(eval $(foreach d,$(call reverse,$(TOPDIR) $(BR2_EXTERNAL_DIRS)),$(call percent_defconfig,$(d))$(sep)))
savedefconfig: $(BUILD_DIR)/buildroot-config/conf prepare-kconfig
@$(COMMON_CONFIG_ENV) $< \
--savedefconfig=$(if $(DEFCONFIG),$(DEFCONFIG),$(CONFIG_DIR)/defconfig) \
$(CONFIG_CONFIG_IN)
@$(SED) '/BR2_DEFCONFIG=/d' $(if $(DEFCONFIG),$(DEFCONFIG),$(CONFIG_DIR)/defconfig)
.PHONY: defconfig savedefconfig
################################################################################
#
# Cleanup and misc junk
#
################################################################################
# outputmakefile generates a Makefile in the output directory, if using a
# separate output directory. This allows convenient use of make in the
# output directory.
outputmakefile:
ifeq ($(NEED_WRAPPER),y)
$(Q)$(TOPDIR)/support/scripts/mkmakefile $(TOPDIR) $(O)
endif
# Even though the target is a real file, we mark it as PHONY as we
# want it to be re-generated each time make is invoked, in case the
# value of BR2_EXTERNAL is changed.
.PHONY: $(BUILD_DIR)/.br2-external.in
$(BUILD_DIR)/.br2-external.in: $(BUILD_DIR)
core: offload handling of BR2_EXTERNAL into the script Currently, we treat the case where we have no br2-external tree (BR2_EXTERNAL is empty) differently from the case where we do have one (BR2_EXTERNAL is not empty). There is now no reason to treat those two cases differently: - the kconfig snippet is always generated appropriately (i.e. it would include the br2-external tree if set, or include nothing otherwise); - we no longer have a dummy br-external tree either. Also, the Makefile code to handle BR2_EXTERNAL is currently quite readable if at least a little bit tricky. However, when we're going to add support for using multiple br2-external trees simultaneously, this code would need to get much, much more complex. To keep the Makefile (rather) simple, offload all of the handling of BR2_EXTERNAL to the recently added br2-external helper script. However, because of Makefiles idiosyncracies, we can't use a rule to generate that Makefile fragment. Instead, we use $(shell ...) to call the helper script, and include the fragment twice: once before the $(shell ...) so we can grab a previously defined BR2_EXTERNAL value, a second time to use the one passed on the command line, if any. Furthermore, we can't error out (e.g. on non-existent br2-external tree) directly from the fragment or we'd get that error on subsequent calls, with no chance to override it even from command line. Instead, we use a variable in which we store the error, set it to empty before the second inclusion, so that only the one newly generated, if any, is taken into account. Since we know the script will always be called from Makefile context first, we know validation will occur in Makefile context first. So we can assume that, if there is an error, it will be detected in Makefile context. Consequently, if the script is called to generate the kconfig fragment, validation has already occured, and there should be no error. So we change the error function to generate Makefile code, so that errors are caught as explained above. Lastly, when the value of BR2_EXTERNAL changes, we want to 'forget' about the previous value of the BR2_EXTERNAL_MK variable, especially in the case where BR2_EXTERNAL is now set to empty, so that we do not try to include it later. That's why we first generate empty version of BR2_EXTERNAL_MK, and then assign it the new value, if any. Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Arnout Vandecappelle <arnout@mind.be> Cc: Romain Naour <romain.naour@openwide.fr> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2016-10-14 16:39:15 +02:00
$(Q)support/scripts/br2-external -k -o "$(@)" $(BR2_EXTERNAL)
# printvars prints all the variables currently defined in our
# Makefiles. Alternatively, if a non-empty VARS variable is passed,
# only the variables matching the make pattern passed in VARS are
# displayed.
printvars:
@$(foreach V, \
$(sort $(if $(VARS),$(filter $(VARS),$(.VARIABLES)),$(.VARIABLES))), \
$(if $(filter-out environment% default automatic, \
$(origin $V)), \
$(info $V=$($V) ($(value $V)))))
clean:
rm -rf $(TARGET_DIR) $(BINARIES_DIR) $(HOST_DIR) \
$(BUILD_DIR) $(BASE_DIR)/staging \
$(LEGAL_INFO_DIR) $(GRAPHS_DIR)
distclean: clean
ifeq ($(O),$(CURDIR)/output)
rm -rf $(O)
endif
rm -rf $(TOPDIR)/dl $(BR2_CONFIG) $(CONFIG_DIR)/.config.old $(CONFIG_DIR)/..config.tmp \
$(CONFIG_DIR)/.auto.deps $(BR2_EXTERNAL_FILE)
help:
2007-07-08 14:20:58 +02:00
@echo 'Cleaning:'
@echo ' clean - delete all files created by build'
2007-07-08 14:20:58 +02:00
@echo ' distclean - delete all non-source files (including .config)'
@echo
@echo 'Build:'
@echo ' all - make world'
@echo ' toolchain - build toolchain'
2007-07-08 14:20:58 +02:00
@echo
@echo 'Configuration:'
@echo ' menuconfig - interactive curses-based configurator'
@echo ' nconfig - interactive ncurses-based configurator'
@echo ' xconfig - interactive Qt-based configurator'
@echo ' gconfig - interactive GTK-based configurator'
2007-07-08 14:20:58 +02:00
@echo ' oldconfig - resolve any unresolved symbols in .config'
@echo ' silentoldconfig - Same as oldconfig, but quietly, additionally update deps'
@echo ' olddefconfig - Same as silentoldconfig but sets new symbols to their default value'
@echo ' randconfig - New config with random answer to all options'
@echo ' defconfig - New config with default answer to all options'
@echo ' BR2_DEFCONFIG, if set, is used as input'
@echo ' savedefconfig - Save current config to BR2_DEFCONFIG (minimal config)'
@echo ' allyesconfig - New config where all options are accepted with yes'
@echo ' allnoconfig - New config where all options are answered with no'
@echo ' randpackageconfig - New config with random answer to package options'
@echo ' allyespackageconfig - New config where pkg options are accepted with yes'
@echo ' allnopackageconfig - New config where package options are answered with no'
@echo
@echo 'Package-specific:'
@echo ' <pkg> - Build and install <pkg> and all its dependencies'
@echo ' <pkg>-source - Only download the source files for <pkg>'
@echo ' <pkg>-extract - Extract <pkg> sources'
@echo ' <pkg>-patch - Apply patches to <pkg>'
@echo ' <pkg>-depends - Build <pkg>'\''s dependencies'
@echo ' <pkg>-configure - Build <pkg> up to the configure step'
@echo ' <pkg>-build - Build <pkg> up to the build step'
@echo ' <pkg>-show-depends - List packages on which <pkg> depends'
@echo ' <pkg>-show-rdepends - List packages which have <pkg> as a dependency'
@echo ' <pkg>-graph-depends - Generate a graph of <pkg>'\''s dependencies'
@echo ' <pkg>-graph-rdepends - Generate a graph of <pkg>'\''s reverse dependencies'
@echo ' <pkg>-dirclean - Remove <pkg> build directory'
@echo ' <pkg>-reconfigure - Restart the build from the configure step'
@echo ' <pkg>-rebuild - Restart the build from the build step'
core: name the package before its help text Currently, all our internal packages provide actions that are prefixed with their own names. This makes it obvious what package the action refer to. However, the help commands are really free-form. This means that packages (and especially packages from a br2-external tree) may provide completely arbitrary help text. As such, all that text can get pretty easily mixed up, and it will be very difficult to read. Prefix each package-specific help text with the name of the package it refers to. This generate a "make help" that looks like: [...] Package-specific: <pkg> - Build and install <pkg> and all its dependencies <pkg>-source - Only download the source files for <pkg> <pkg>-extract - Extract <pkg> sources <pkg>-patch - Apply patches to <pkg> <pkg>-depends - Build <pkg>'s dependencies <pkg>-configure - Build <pkg> up to the configure step <pkg>-build - Build <pkg> up to the build step <pkg>-graph-depends - Generate a graph of <pkg>'s dependencies <pkg>-dirclean - Remove <pkg> build directory <pkg>-reconfigure - Restart the build from the configure step <pkg>-rebuild - Restart the build from the build step busybox: busybox-menuconfig - Run BusyBox menuconfig busybox-nconfig - Run BusyBox nconfig barebox: barebox-menuconfig - Run barebox menuconfig barebox-savedefconfig - Run barebox savedefconfig linux: linux-menuconfig - Run Linux kernel menuconfig linux-savedefconfig - Run Linux kernel savedefconfig linux-update-defconfig - Save the Linux configuration to the path specified by BR2_LINUX_KERNEL_CUSTOM_CONFIG_FILE Documentation: manual - build manual in all formats manual-html - build manual in HTML [...] (Note: busybox, barebox, linux help will be converted in followup commits, they are represented here as an example of what this patch does look like.) Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> cc: Arnout Vandecappelle <arnout@mind.be> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2016-06-04 18:30:48 +02:00
$(foreach p,$(HELP_PACKAGES), \
@echo $(sep) \
@echo '$($(p)_NAME):' $(sep) \
$($(p)_HELP_CMDS)$(sep))
@echo
@echo 'Documentation:'
@echo ' manual - build manual in all formats'
@echo ' manual-html - build manual in HTML'
@echo ' manual-split-html - build manual in split HTML'
@echo ' manual-pdf - build manual in PDF'
@echo ' manual-text - build manual in text'
@echo ' manual-epub - build manual in ePub'
@echo ' graph-build - generate graphs of the build times'
@echo ' graph-depends - generate graph of the dependency tree'
@echo ' graph-size - generate stats of the filesystem size'
@echo ' list-defconfigs - list all defconfigs (pre-configured minimal systems)'
2007-07-08 14:20:58 +02:00
@echo
@echo 'Miscellaneous:'
@echo ' source - download all sources needed for offline-build'
@echo ' source-check - check selected packages for valid download URLs'
@echo ' external-deps - list external packages used'
@echo ' legal-info - generate info about license compliance'
2007-07-08 14:20:58 +02:00
@echo
@echo ' make V=0|1 - 0 => quiet build (default), 1 => verbose build'
@echo ' make O=dir - Locate all output files in "dir", including .config'
@echo
@echo 'For further details, see README, generate the Buildroot manual, or consult'
@echo 'it on-line at http://buildroot.org/docs.html'
@echo
core: add support for multiple br2-external trees Currently, we only support at most one br2-external tree. Being able to use more than one br2-external tree can be very useful. A use-case would be for having a br2-external to contain the basic packages, basic board defconfigs and board files, provided by one team responsible for the "board-bringup", while other teams consume that br2-external as a base, and complements it each with their own set of packages, defconfigs and extra board files. Another use-case would be for third-parties to provide their own Buildroot packaging in a br2-external tree, along-side the archives for their stuff. Finally, another use-case is to be able to add FLOSS packages in a br2-external tree, and proprietary packages in another. This allows to not touch the Buildroot tree at all, and still be able to get in compliance by providing only that br2-external tree(s) that contains FLOSS packages, leaving aside the br2-external tree(s) with the proprietary bits. What we do is to treat BR2_EXTERNAL as a colon-separated (space- separated also work, and we use that internally) list of paths, on which we iterate to construct: - the list of all br2-external names, BR2_EXTERNAL_NAMES, - the per-br2-external tree BR2_EXTERNAL_$(NAME) variables, which point each to the actual location of the corresponding tree, - the list of paths to all the external.mk files, BR2_EXTERNAL_MKS, - the space-separated list of absolute paths to the external trees, BR2_EXTERNAL_DIRS. Once we have all those variables, we replace references to BR2_EXTERNAL with either one of those. This cascades into how we display the list of defconfigs, so that it is easy to see what br2-external tree provides what defconfigs. As suggested by Arnout, tweak the comment from "User-provided configs" to "External configs", on the assumption that some br2-external trees could be provided by vendors, so not necessarily user-provided. Ditto the menu in Kconfig, changed from "User-provided options" to "External options". Now, when more than one br2-external tree is used, each gets its own sub-menu in the "User-provided options" menu. The sub-menu is labelled with that br2-external tree's name and the sub-menu's first item is a comment with the path to that br2-external tree. If there's only one br2-external tree, then there is no sub-menu; there is a single comment that contains the name and path to the br2-external tree. Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Arnout Vandecappelle <arnout@mind.be> Cc: Romain Naour <romain.naour@openwide.fr> Cc: Julien CORJON <corjon.j@ecagroup.com> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2016-10-14 16:39:20 +02:00
# List the defconfig files
# $(1): base directory
# $(2): br2-external name, empty for bundled
define list-defconfigs
@first=true; \
for defconfig in $(1)/configs/*_defconfig; do \
[ -f "$${defconfig}" ] || continue; \
if $${first}; then \
if [ "$(2)" ]; then \
printf 'External configs in "$(call qstrip,$(2))":\n'; \
core: add support for multiple br2-external trees Currently, we only support at most one br2-external tree. Being able to use more than one br2-external tree can be very useful. A use-case would be for having a br2-external to contain the basic packages, basic board defconfigs and board files, provided by one team responsible for the "board-bringup", while other teams consume that br2-external as a base, and complements it each with their own set of packages, defconfigs and extra board files. Another use-case would be for third-parties to provide their own Buildroot packaging in a br2-external tree, along-side the archives for their stuff. Finally, another use-case is to be able to add FLOSS packages in a br2-external tree, and proprietary packages in another. This allows to not touch the Buildroot tree at all, and still be able to get in compliance by providing only that br2-external tree(s) that contains FLOSS packages, leaving aside the br2-external tree(s) with the proprietary bits. What we do is to treat BR2_EXTERNAL as a colon-separated (space- separated also work, and we use that internally) list of paths, on which we iterate to construct: - the list of all br2-external names, BR2_EXTERNAL_NAMES, - the per-br2-external tree BR2_EXTERNAL_$(NAME) variables, which point each to the actual location of the corresponding tree, - the list of paths to all the external.mk files, BR2_EXTERNAL_MKS, - the space-separated list of absolute paths to the external trees, BR2_EXTERNAL_DIRS. Once we have all those variables, we replace references to BR2_EXTERNAL with either one of those. This cascades into how we display the list of defconfigs, so that it is easy to see what br2-external tree provides what defconfigs. As suggested by Arnout, tweak the comment from "User-provided configs" to "External configs", on the assumption that some br2-external trees could be provided by vendors, so not necessarily user-provided. Ditto the menu in Kconfig, changed from "User-provided options" to "External options". Now, when more than one br2-external tree is used, each gets its own sub-menu in the "User-provided options" menu. The sub-menu is labelled with that br2-external tree's name and the sub-menu's first item is a comment with the path to that br2-external tree. If there's only one br2-external tree, then there is no sub-menu; there is a single comment that contains the name and path to the br2-external tree. Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Arnout Vandecappelle <arnout@mind.be> Cc: Romain Naour <romain.naour@openwide.fr> Cc: Julien CORJON <corjon.j@ecagroup.com> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2016-10-14 16:39:20 +02:00
else \
printf "Built-in configs:\n"; \
fi; \
first=false; \
fi; \
defconfig="$${defconfig##*/}"; \
printf " %-35s - Build for %s\n" "$${defconfig}" "$${defconfig%_defconfig}"; \
done; \
$${first} || printf "\n"
endef
# We iterate over BR2_EXTERNAL_NAMES rather than BR2_EXTERNAL_DIRS,
# because we want to display the name of the br2-external tree.
list-defconfigs:
core: add support for multiple br2-external trees Currently, we only support at most one br2-external tree. Being able to use more than one br2-external tree can be very useful. A use-case would be for having a br2-external to contain the basic packages, basic board defconfigs and board files, provided by one team responsible for the "board-bringup", while other teams consume that br2-external as a base, and complements it each with their own set of packages, defconfigs and extra board files. Another use-case would be for third-parties to provide their own Buildroot packaging in a br2-external tree, along-side the archives for their stuff. Finally, another use-case is to be able to add FLOSS packages in a br2-external tree, and proprietary packages in another. This allows to not touch the Buildroot tree at all, and still be able to get in compliance by providing only that br2-external tree(s) that contains FLOSS packages, leaving aside the br2-external tree(s) with the proprietary bits. What we do is to treat BR2_EXTERNAL as a colon-separated (space- separated also work, and we use that internally) list of paths, on which we iterate to construct: - the list of all br2-external names, BR2_EXTERNAL_NAMES, - the per-br2-external tree BR2_EXTERNAL_$(NAME) variables, which point each to the actual location of the corresponding tree, - the list of paths to all the external.mk files, BR2_EXTERNAL_MKS, - the space-separated list of absolute paths to the external trees, BR2_EXTERNAL_DIRS. Once we have all those variables, we replace references to BR2_EXTERNAL with either one of those. This cascades into how we display the list of defconfigs, so that it is easy to see what br2-external tree provides what defconfigs. As suggested by Arnout, tweak the comment from "User-provided configs" to "External configs", on the assumption that some br2-external trees could be provided by vendors, so not necessarily user-provided. Ditto the menu in Kconfig, changed from "User-provided options" to "External options". Now, when more than one br2-external tree is used, each gets its own sub-menu in the "User-provided options" menu. The sub-menu is labelled with that br2-external tree's name and the sub-menu's first item is a comment with the path to that br2-external tree. If there's only one br2-external tree, then there is no sub-menu; there is a single comment that contains the name and path to the br2-external tree. Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Arnout Vandecappelle <arnout@mind.be> Cc: Romain Naour <romain.naour@openwide.fr> Cc: Julien CORJON <corjon.j@ecagroup.com> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2016-10-14 16:39:20 +02:00
$(call list-defconfigs,$(TOPDIR))
$(foreach name,$(BR2_EXTERNAL_NAMES),\
$(call list-defconfigs,$(BR2_EXTERNAL_$(name)_PATH),\
$(BR2_EXTERNAL_$(name)_DESC))$(sep))
release: OUT = buildroot-$(BR2_VERSION)
# Create release tarballs. We need to fiddle a bit to add the generated
# documentation to the git output
release:
git archive --format=tar --prefix=$(OUT)/ HEAD > $(OUT).tar
$(MAKE) O=$(OUT) manual-html manual-text manual-pdf
$(MAKE) O=$(OUT) manual-clean
tar rf $(OUT).tar $(OUT)
gzip -9 -c < $(OUT).tar > $(OUT).tar.gz
bzip2 -9 -c < $(OUT).tar > $(OUT).tar.bz2
rm -rf $(OUT) $(OUT).tar
2009-01-15 20:36:06 +01:00
print-version:
@echo $(BR2_VERSION_FULL)
include docs/manual/manual.mk
core: add support for multiple br2-external trees Currently, we only support at most one br2-external tree. Being able to use more than one br2-external tree can be very useful. A use-case would be for having a br2-external to contain the basic packages, basic board defconfigs and board files, provided by one team responsible for the "board-bringup", while other teams consume that br2-external as a base, and complements it each with their own set of packages, defconfigs and extra board files. Another use-case would be for third-parties to provide their own Buildroot packaging in a br2-external tree, along-side the archives for their stuff. Finally, another use-case is to be able to add FLOSS packages in a br2-external tree, and proprietary packages in another. This allows to not touch the Buildroot tree at all, and still be able to get in compliance by providing only that br2-external tree(s) that contains FLOSS packages, leaving aside the br2-external tree(s) with the proprietary bits. What we do is to treat BR2_EXTERNAL as a colon-separated (space- separated also work, and we use that internally) list of paths, on which we iterate to construct: - the list of all br2-external names, BR2_EXTERNAL_NAMES, - the per-br2-external tree BR2_EXTERNAL_$(NAME) variables, which point each to the actual location of the corresponding tree, - the list of paths to all the external.mk files, BR2_EXTERNAL_MKS, - the space-separated list of absolute paths to the external trees, BR2_EXTERNAL_DIRS. Once we have all those variables, we replace references to BR2_EXTERNAL with either one of those. This cascades into how we display the list of defconfigs, so that it is easy to see what br2-external tree provides what defconfigs. As suggested by Arnout, tweak the comment from "User-provided configs" to "External configs", on the assumption that some br2-external trees could be provided by vendors, so not necessarily user-provided. Ditto the menu in Kconfig, changed from "User-provided options" to "External options". Now, when more than one br2-external tree is used, each gets its own sub-menu in the "User-provided options" menu. The sub-menu is labelled with that br2-external tree's name and the sub-menu's first item is a comment with the path to that br2-external tree. If there's only one br2-external tree, then there is no sub-menu; there is a single comment that contains the name and path to the br2-external tree. Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Thomas Petazzoni <thomas.petazzoni@free-electrons.com> Cc: Arnout Vandecappelle <arnout@mind.be> Cc: Romain Naour <romain.naour@openwide.fr> Cc: Julien CORJON <corjon.j@ecagroup.com> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
2016-10-14 16:39:20 +02:00
-include $(foreach dir,$(BR2_EXTERNAL_DIRS),$(dir)/docs/*/*.mk)
.PHONY: $(noconfig_targets)
core: re-enter make if $(CURDIR) or $(O) are not canonical paths When $(CURDIR) and/or $(O) contain symlinks in their paths, they can be resolved differently, depending on each package build-system (whether it uses the given paths or get the absolute canonical ones). Using absolute canonical paths will help achieving reproducible builds and will make easier tracking down host machine paths leaking into the host, target or staging trees. So, this change ensures the build takes place with the CURDIR and O variables are set to their absolute canonical paths. In order to recall the toplevel makefile with absolute canonical paths for $(CURDIR) and $(O), we need to: 1- Compute the absolute canonical paths for $(CURDIR) and $(O) that will be passed to the sub-make. This is achieved using the 'realpath' make primitive. However, some care must be taken when manipulating O: - the out-of-tree makefile wrapper happens a trailing "/.", we need to strip this part away to not break the comparison driving the sub-make call; - the user can leave a trailing '/' to $(O); - according to [1,2], realpath returns an empty string in case of non-existing entry. So, to avoid passing an empty O= variable to sub-make, it is necessary to define the output directory and create it prior to call realpath on it (because on the first invocation, $(O) usually does not yet exists), hence the trick doing the mkdir right before calling realpath. 2- Update EXTRAMAKEARGS with the absolute canonical $(O) and use it when call recalling the top-level makefile with umask and paths correctly set. 3- Lastly, update the condition for setting the CONFIG_DIR and NEED_WRAPPER variables. Note: * This change takes care of the makefile wrapper installed in $(O) to avoid unneeded make recursion. [1] https://www.gnu.org/software/make/manual/html_node/File-Name-Functions.html [2] http://man7.org/linux/man-pages/man3/realpath.3.html Reported-by: Matthew Weber <matt@thewebers.ws> Cc: Matthew Weber <matt@thewebers.ws> Cc: "Yann E. MORIN" <yann.morin.1998@free.fr> Cc: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Samuel Martin <s.martin49@gmail.com> Acked-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Tested-by: Arnout Vandecappelle (Essensium/Mind) <arnout@mind.be> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2016-10-17 23:05:43 +02:00
endif #umask / $(CURDIR) / $(O)