From: Arnout Vandecappelle Date: Mon, 7 Nov 2016 01:19:57 +0000 (+0100) Subject: toolchain-external: reorder the contents of toolchain-external.mk X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=6d98b57527ba3393511c97ad42164d647ad543ed;p=buildroot.git toolchain-external: reorder the contents of toolchain-external.mk When the toolchain-external logic will be split into separate packages, the order in which things are defined in toolchain-external.mk no makes less sense. So reorder things in a more logical fashion. Also add a few more comments to the different sections. No functional changes at all. The output of 'make -qp' hasn't changed, except for the order of arguments in TOOLCHAIN_EXTERNAL_TOOLCHAIN_WRAPPER_ARGS. Signed-off-by: Thomas Petazzoni Signed-off-by: Romain Naour [Arnout: split off into separate patch, slightly change some comments, reordered some parts] Signed-off-by: Arnout Vandecappelle (Essensium/Mind) Reviewed-by: Romain Naour Signed-off-by: Thomas Petazzoni --- diff --git a/toolchain/toolchain-external/toolchain-external.mk b/toolchain/toolchain-external/toolchain-external.mk index b7a36bea12..180a63da58 100644 --- a/toolchain/toolchain-external/toolchain-external.mk +++ b/toolchain/toolchain-external/toolchain-external.mk @@ -63,79 +63,9 @@ # $(HOST_DIR)/usr/bin like for the internal toolchains, and the rest # of Buildroot is handled identical for the 2 toolchain types. -ifeq ($(BR2_TOOLCHAIN_EXTERNAL_GLIBC)$(BR2_TOOLCHAIN_EXTERNAL_UCLIBC),y) -TOOLCHAIN_EXTERNAL_LIBS += libatomic.so.* libc.so.* libcrypt.so.* libdl.so.* libgcc_s.so.* libm.so.* libnsl.so.* libresolv.so.* librt.so.* libutil.so.* -ifeq ($(BR2_TOOLCHAIN_EXTERNAL_GLIBC)$(BR2_ARM_EABIHF),yy) -TOOLCHAIN_EXTERNAL_LIBS += ld-linux-armhf.so.* -else -TOOLCHAIN_EXTERNAL_LIBS += ld*.so.* -endif -ifeq ($(BR2_TOOLCHAIN_HAS_THREADS),y) -TOOLCHAIN_EXTERNAL_LIBS += libpthread.so.* -ifneq ($(BR2_PACKAGE_GDB)$(BR2_TOOLCHAIN_EXTERNAL_GDB_SERVER_COPY),) -TOOLCHAIN_EXTERNAL_LIBS += libthread_db.so.* -endif # gdbserver -endif # ! no threads -endif - -ifeq ($(BR2_TOOLCHAIN_EXTERNAL_GLIBC),y) -TOOLCHAIN_EXTERNAL_LIBS += libnss_files.so.* libnss_dns.so.* libmvec.so.* -endif - -ifeq ($(BR2_TOOLCHAIN_EXTERNAL_MUSL),y) -TOOLCHAIN_EXTERNAL_LIBS += libc.so libgcc_s.so.* -endif - -ifeq ($(BR2_INSTALL_LIBSTDCPP),y) -TOOLCHAIN_EXTERNAL_LIBS += libstdc++.so.* -endif - -ifeq ($(BR2_TOOLCHAIN_HAS_FORTRAN),y) -TOOLCHAIN_EXTERNAL_LIBS += libgfortran.so.* -# fortran needs quadmath on x86 and x86_64 -ifeq ($(BR2_TOOLCHAIN_HAS_LIBQUADMATH),y) -TOOLCHAIN_EXTERNAL_LIBS += libquadmath.so* -endif -endif - -TOOLCHAIN_EXTERNAL_LIBS += $(call qstrip,$(BR2_TOOLCHAIN_EXTRA_EXTERNAL_LIBS)) - -# Details about sysroot directory selection. -# -# To find the sysroot directory, we use the trick of looking for the -# 'libc.a' file with the -print-file-name gcc option, and then -# mangling the path to find the base directory of the sysroot. -# -# Note that we do not use the -print-sysroot option, because it is -# only available since gcc 4.4.x, and we only recently dropped support -# for 4.2.x and 4.3.x. -# -# When doing this, we don't pass any option to gcc that could select a -# multilib variant (such as -march) as we want the "main" sysroot, -# which contains all variants of the C library in the case of multilib -# toolchains. We use the TARGET_CC_NO_SYSROOT variable, which is the -# path of the cross-compiler, without the --sysroot=$(STAGING_DIR), -# since what we want to find is the location of the original toolchain -# sysroot. This "main" sysroot directory is stored in SYSROOT_DIR. -# -# Then, multilib toolchains are a little bit more complicated, since -# they in fact have multiple sysroots, one for each variant supported -# by the toolchain. So we need to find the particular sysroot we're -# interested in. # -# To do so, we ask the compiler where its sysroot is by passing all -# flags (including -march and al.), except the --sysroot flag since we -# want to the compiler to tell us where its original sysroot -# is. ARCH_SUBDIR will contain the subdirectory, in the main -# SYSROOT_DIR, that corresponds to the selected architecture -# variant. ARCH_SYSROOT_DIR will contain the full path to this -# location. +# Definitions of where the toolchain can be found # -# One might wonder why we don't just bother with ARCH_SYSROOT_DIR. The -# fact is that in multilib toolchains, the header files are often only -# present in the main sysroot, and only the libraries are available in -# each variant-specific sysroot directory. - TOOLCHAIN_EXTERNAL_PREFIX = $(call qstrip,$(BR2_TOOLCHAIN_EXTERNAL_PREFIX)) TOOLCHAIN_EXTERNAL_DOWNLOAD_INSTALL_DIR = $(HOST_DIR)/opt/ext-toolchain @@ -164,8 +94,6 @@ endif # $(wildcard ...) here. TOOLCHAIN_EXTERNAL_SUFFIX = \ $(if $(wildcard $(TOOLCHAIN_EXTERNAL_BIN)/*.br_real),.br_real) -TOOLCHAIN_EXTERNAL_TOOLCHAIN_WRAPPER_ARGS += \ - -DBR_CROSS_PATH_SUFFIX='"$(TOOLCHAIN_EXTERNAL_SUFFIX)"' TOOLCHAIN_EXTERNAL_CROSS = $(TOOLCHAIN_EXTERNAL_BIN)/$(TOOLCHAIN_EXTERNAL_PREFIX)- TOOLCHAIN_EXTERNAL_CC = $(TOOLCHAIN_EXTERNAL_CROSS)gcc$(TOOLCHAIN_EXTERNAL_SUFFIX) @@ -173,16 +101,52 @@ TOOLCHAIN_EXTERNAL_CXX = $(TOOLCHAIN_EXTERNAL_CROSS)g++$(TOOLCHAIN_EXTERNAL_SUFF TOOLCHAIN_EXTERNAL_FC = $(TOOLCHAIN_EXTERNAL_CROSS)gfortran$(TOOLCHAIN_EXTERNAL_SUFFIX) TOOLCHAIN_EXTERNAL_READELF = $(TOOLCHAIN_EXTERNAL_CROSS)readelf$(TOOLCHAIN_EXTERNAL_SUFFIX) -ifeq ($(filter $(HOST_DIR)/%,$(TOOLCHAIN_EXTERNAL_BIN)),) -# TOOLCHAIN_EXTERNAL_BIN points outside HOST_DIR => absolute path -TOOLCHAIN_EXTERNAL_TOOLCHAIN_WRAPPER_ARGS += \ - -DBR_CROSS_PATH_ABS='"$(TOOLCHAIN_EXTERNAL_BIN)"' + +# +# Definitions of the list of libraries that should be copied to the target. +# +ifeq ($(BR2_TOOLCHAIN_EXTERNAL_GLIBC)$(BR2_TOOLCHAIN_EXTERNAL_UCLIBC),y) +TOOLCHAIN_EXTERNAL_LIBS += libatomic.so.* libc.so.* libcrypt.so.* libdl.so.* libgcc_s.so.* libm.so.* libnsl.so.* libresolv.so.* librt.so.* libutil.so.* +ifeq ($(BR2_TOOLCHAIN_EXTERNAL_GLIBC)$(BR2_ARM_EABIHF),yy) +TOOLCHAIN_EXTERNAL_LIBS += ld-linux-armhf.so.* else -# TOOLCHAIN_EXTERNAL_BIN points inside HOST_DIR => relative path -TOOLCHAIN_EXTERNAL_TOOLCHAIN_WRAPPER_ARGS += \ - -DBR_CROSS_PATH_REL='"$(TOOLCHAIN_EXTERNAL_BIN:$(HOST_DIR)/%=%)"' +TOOLCHAIN_EXTERNAL_LIBS += ld*.so.* +endif +ifeq ($(BR2_TOOLCHAIN_HAS_THREADS),y) +TOOLCHAIN_EXTERNAL_LIBS += libpthread.so.* +ifneq ($(BR2_PACKAGE_GDB)$(BR2_TOOLCHAIN_EXTERNAL_GDB_SERVER_COPY),) +TOOLCHAIN_EXTERNAL_LIBS += libthread_db.so.* +endif # gdbserver +endif # ! no threads +endif + +ifeq ($(BR2_TOOLCHAIN_EXTERNAL_GLIBC),y) +TOOLCHAIN_EXTERNAL_LIBS += libnss_files.so.* libnss_dns.so.* libmvec.so.* +endif + +ifeq ($(BR2_TOOLCHAIN_EXTERNAL_MUSL),y) +TOOLCHAIN_EXTERNAL_LIBS += libc.so libgcc_s.so.* +endif + +ifeq ($(BR2_INSTALL_LIBSTDCPP),y) +TOOLCHAIN_EXTERNAL_LIBS += libstdc++.so.* +endif + +ifeq ($(BR2_TOOLCHAIN_HAS_FORTRAN),y) +TOOLCHAIN_EXTERNAL_LIBS += libgfortran.so.* +# fortran needs quadmath on x86 and x86_64 +ifeq ($(BR2_TOOLCHAIN_HAS_LIBQUADMATH),y) +TOOLCHAIN_EXTERNAL_LIBS += libquadmath.so* endif +endif + +TOOLCHAIN_EXTERNAL_LIBS += $(call qstrip,$(BR2_TOOLCHAIN_EXTRA_EXTERNAL_LIBS)) + +# +# Definition of the CFLAGS to use with the external toolchain, as well as the +# common toolchain wrapper build arguments +# ifeq ($(call qstrip,$(BR2_GCC_TARGET_CPU_REVISION)),) CC_TARGET_CPU_ := $(call qstrip,$(BR2_GCC_TARGET_CPU)) else @@ -248,58 +212,420 @@ TOOLCHAIN_EXTERNAL_CFLAGS += -msoft-float TOOLCHAIN_EXTERNAL_TOOLCHAIN_WRAPPER_ARGS += -DBR_SOFTFLOAT=1 endif -# musl does not provide an implementation for sys/queue.h or sys/cdefs.h. -# So, add the musl-compat-headers package that will install those files, -# into the staging directory: -# sys/queue.h: header from NetBSD -# sys/cdefs.h: minimalist header bundled in Buildroot -ifeq ($(BR2_TOOLCHAIN_USES_MUSL),y) -TOOLCHAIN_EXTERNAL_DEPENDENCIES += musl-compat-headers +TOOLCHAIN_EXTERNAL_TOOLCHAIN_WRAPPER_ARGS += \ + -DBR_CROSS_PATH_SUFFIX='"$(TOOLCHAIN_EXTERNAL_SUFFIX)"' + +ifeq ($(filter $(HOST_DIR)/%,$(TOOLCHAIN_EXTERNAL_BIN)),) +# TOOLCHAIN_EXTERNAL_BIN points outside HOST_DIR => absolute path +TOOLCHAIN_EXTERNAL_TOOLCHAIN_WRAPPER_ARGS += \ + -DBR_CROSS_PATH_ABS='"$(TOOLCHAIN_EXTERNAL_BIN)"' +else +# TOOLCHAIN_EXTERNAL_BIN points inside HOST_DIR => relative path +TOOLCHAIN_EXTERNAL_TOOLCHAIN_WRAPPER_ARGS += \ + -DBR_CROSS_PATH_REL='"$(TOOLCHAIN_EXTERNAL_BIN:$(HOST_DIR)/%=%)"' endif -# The Codescape toolchain uses a sysroot layout that places them -# side-by-side instead of nested like multilibs. A symlink is needed -# much like for the nested sysroots which are handled in -# copy_toolchain_sysroot but there is not enough information in there -# to determine whether the sysroot layout was nested or side-by-side. -# Add the symlink here for now. -define TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_SYMLINK - $(Q)ARCH_SYSROOT_DIR="$(call toolchain_find_sysroot,$(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS))"; \ - ARCH_SUBDIR=`basename $${ARCH_SYSROOT_DIR}`; \ - ln -snf . $(STAGING_DIR)/$${ARCH_SUBDIR} + +# +# The following functions creates the symbolic links needed to get the +# cross-compilation tools visible in $(HOST_DIR)/usr/bin. Some of +# links are done directly to the corresponding tool in the external +# toolchain installation directory, while some other links are done to +# the toolchain wrapper (preprocessor, C, C++ and Fortran compiler) +# +# We skip gdb symlink when we are building our own gdb to prevent two +# gdb's in $(HOST_DIR)/usr/bin. +# +# The LTO support in gcc creates wrappers for ar, ranlib and nm which load +# the lto plugin. These wrappers are called *-gcc-ar, *-gcc-ranlib, and +# *-gcc-nm and should be used instead of the real programs when -flto is +# used. However, we should not add the toolchain wrapper for them, and they +# match the *cc-* pattern. Therefore, an additional case is added for *-ar, +# *-ranlib and *-nm. +define TOOLCHAIN_EXTERNAL_INSTALL_WRAPPER + $(Q)cd $(HOST_DIR)/usr/bin; \ + for i in $(TOOLCHAIN_EXTERNAL_CROSS)*; do \ + base=$${i##*/}; \ + case "$$base" in \ + *-ar|*-ranlib|*-nm) \ + ln -sf $$(echo $$i | sed 's%^$(HOST_DIR)%../..%') .; \ + ;; \ + *cc|*cc-*|*++|*++-*|*cpp|*-gfortran) \ + ln -sf toolchain-wrapper $$base; \ + ;; \ + *gdb|*gdbtui) \ + if test "$(BR2_PACKAGE_HOST_GDB)" != "y"; then \ + ln -sf $$(echo $$i | sed 's%^$(HOST_DIR)%../..%') .; \ + fi \ + ;; \ + *) \ + ln -sf $$(echo $$i | sed 's%^$(HOST_DIR)%../..%') .; \ + ;; \ + esac; \ + done endef -# Special fixup for Codescape MIPS toolchains, that have bin- and -# sbin- directories. We create symlinks bin -> bin- and sbin -# -> sbin- so that the rest of Buildroot can find the toolchain -# tools in the appropriate location. -ifeq ($(BR2_TOOLCHAIN_EXTERNAL_CODESCAPE_IMG_MIPS)$(BR2_TOOLCHAIN_EXTERNAL_CODESCAPE_MTI_MIPS),y) -ifeq ($(BR2_MIPS_OABI32),y) -TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_BIN_DIR_SUFFIX = o32 -else ifeq ($(BR2_MIPS_NABI32),y) -TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_BIN_DIR_SUFFIX = n32 -else ifeq ($(BR2_MIPS_NABI64),y) -TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_BIN_DIR_SUFFIX = n64 -endif -define TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_STAGING_FIXUPS - rmdir $(STAGING_DIR)/usr/bin $(STAGING_DIR)/usr/sbin - ln -sf bin-$(TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_BIN_DIR_SUFFIX) $(STAGING_DIR)/usr/bin - ln -sf sbin-$(TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_BIN_DIR_SUFFIX) $(STAGING_DIR)/usr/sbin -endef -endif +# Various utility functions used by the external toolchain package +# infrastructure. Those functions are mainly responsible for: +# +# - installation the toolchain libraries to $(TARGET_DIR) +# - copying the toolchain sysroot to $(STAGING_DIR) +# - installing a gdbinit file +# +# Details about sysroot directory selection. +# +# To find the sysroot directory, we use the trick of looking for the +# 'libc.a' file with the -print-file-name gcc option, and then +# mangling the path to find the base directory of the sysroot. +# +# Note that we do not use the -print-sysroot option, because it is +# only available since gcc 4.4.x, and we only recently dropped support +# for 4.2.x and 4.3.x. +# +# When doing this, we don't pass any option to gcc that could select a +# multilib variant (such as -march) as we want the "main" sysroot, +# which contains all variants of the C library in the case of multilib +# toolchains. We use the TARGET_CC_NO_SYSROOT variable, which is the +# path of the cross-compiler, without the --sysroot=$(STAGING_DIR), +# since what we want to find is the location of the original toolchain +# sysroot. This "main" sysroot directory is stored in SYSROOT_DIR. +# +# Then, multilib toolchains are a little bit more complicated, since +# they in fact have multiple sysroots, one for each variant supported +# by the toolchain. So we need to find the particular sysroot we're +# interested in. +# +# To do so, we ask the compiler where its sysroot is by passing all +# flags (including -march and al.), except the --sysroot flag since we +# want to the compiler to tell us where its original sysroot +# is. ARCH_SUBDIR will contain the subdirectory, in the main +# SYSROOT_DIR, that corresponds to the selected architecture +# variant. ARCH_SYSROOT_DIR will contain the full path to this +# location. +# +# One might wonder why we don't just bother with ARCH_SYSROOT_DIR. The +# fact is that in multilib toolchains, the header files are often only +# present in the main sysroot, and only the libraries are available in +# each variant-specific sysroot directory. -# Special handling for Blackfin toolchain, because of the split in two -# tarballs, and the organization of tarball contents. The tarballs -# contain ./opt/uClinux/{bfin-uclinux,bfin-linux-uclibc} directories, -# which themselves contain the toolchain. This is why we strip more -# components than usual. -define TOOLCHAIN_EXTERNAL_BLACKFIN_UCLIBC_EXTRA_EXTRACT - $(call suitable-extractor,$(TOOLCHAIN_EXTERNAL_EXTRA_DOWNLOADS)) $(DL_DIR)/$(TOOLCHAIN_EXTERNAL_EXTRA_DOWNLOADS) | \ - $(TAR) --strip-components=3 --hard-dereference -C $(@D) $(TAR_OPTIONS) - + +# toolchain_find_sysroot returns the sysroot location for the given +# compiler + flags. We need to handle cases where libc.a is in: +# +# - lib/ +# - usr/lib/ +# - lib32/ +# - lib64/ +# - lib32-fp/ (Cavium toolchain) +# - lib64-fp/ (Cavium toolchain) +# - usr/lib// (Linaro toolchain) +# +# And variations on these. +define toolchain_find_sysroot +$$(printf $(call toolchain_find_libc_a,$(1)) | sed -r -e 's:(usr/)?lib(32|64)?([^/]*)?/([^/]*/)?libc\.a::') endef -ifeq ($(BR2_TOOLCHAIN_EXTERNAL_CODESOURCERY_ARM),y) +# Returns the lib subdirectory for the given compiler + flags (i.e +# typically lib32 or lib64 for some toolchains) +define toolchain_find_libdir +$$(printf $(call toolchain_find_libc_a,$(1)) | sed -r -e 's:.*/(usr/)?(lib(32|64)?([^/]*)?)/([^/]*/)?libc.a:\2:') +endef + +# Returns the location of the libc.a file for the given compiler + flags +define toolchain_find_libc_a +$$(readlink -f $$(LANG=C $(1) -print-file-name=libc.a)) +endef + +# Integration of the toolchain into Buildroot: find the main sysroot +# and the variant-specific sysroot, then copy the needed libraries to +# the $(TARGET_DIR) and copy the whole sysroot (libraries and headers) +# to $(STAGING_DIR). +# +# Variables are defined as follows: +# +# LIBC_A_LOCATION: location of the libc.a file in the default +# multilib variant (allows to find the main +# sysroot directory) +# Ex: /x-tools/mips-2011.03/mips-linux-gnu/libc/usr/lib/libc.a +# +# SYSROOT_DIR: the main sysroot directory, deduced from +# LIBC_A_LOCATION by removing the +# usr/lib[32|64]/libc.a part of the path. +# Ex: /x-tools/mips-2011.03/mips-linux-gnu/libc/ +# +# ARCH_LIBC_A_LOCATION: location of the libc.a file in the selected +# multilib variant (taking into account the +# CFLAGS). Allows to find the sysroot of the +# selected multilib variant. +# Ex: /x-tools/mips-2011.03/mips-linux-gnu/libc/mips16/soft-float/el/usr/lib/libc.a +# +# ARCH_SYSROOT_DIR: the sysroot of the selected multilib variant, +# deduced from ARCH_LIBC_A_LOCATION by removing +# usr/lib[32|64]/libc.a at the end of the path. +# Ex: /x-tools/mips-2011.03/mips-linux-gnu/libc/mips16/soft-float/el/ +# +# ARCH_LIB_DIR: 'lib', 'lib32' or 'lib64' depending on where libraries +# are stored. Deduced from ARCH_LIBC_A_LOCATION by +# looking at usr/lib??/libc.a. +# Ex: lib +# +# ARCH_SUBDIR: the relative location of the sysroot of the selected +# multilib variant compared to the main sysroot. +# Ex: mips16/soft-float/el +# +# SUPPORT_LIB_DIR: some toolchains, such as recent Linaro toolchains, +# store GCC support libraries (libstdc++, +# libgcc_s, etc.) outside of the sysroot. In +# this case, SUPPORT_LIB_DIR is set to a +# non-empty value, and points to the directory +# where these support libraries are +# available. Those libraries will be copied to +# our sysroot, and the directory will also be +# considered when searching libraries for copy +# to the target filesystem. +# +# Please be very careful to check the major toolchain sources: +# Buildroot, Crosstool-NG, CodeSourcery and Linaro +# before doing any modification on the below logic. + +ifeq ($(BR2_STATIC_LIBS),) +define TOOLCHAIN_EXTERNAL_INSTALL_TARGET_LIBS + $(Q)$(call MESSAGE,"Copying external toolchain libraries to target...") + $(Q)for libs in $(TOOLCHAIN_EXTERNAL_LIBS); do \ + $(call copy_toolchain_lib_root,$$libs); \ + done +endef +endif + +ifeq ($(BR2_TOOLCHAIN_EXTERNAL_GDB_SERVER_COPY),y) +define TOOLCHAIN_EXTERNAL_INSTALL_TARGET_GDBSERVER + $(Q)$(call MESSAGE,"Copying gdbserver") + $(Q)ARCH_SYSROOT_DIR="$(call toolchain_find_sysroot,$(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ + ARCH_LIB_DIR="$(call toolchain_find_libdir,$(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ + gdbserver_found=0 ; \ + for d in $${ARCH_SYSROOT_DIR}/usr \ + $${ARCH_SYSROOT_DIR}/../debug-root/usr \ + $${ARCH_SYSROOT_DIR}/usr/$${ARCH_LIB_DIR} \ + $(TOOLCHAIN_EXTERNAL_INSTALL_DIR); do \ + if test -f $${d}/bin/gdbserver ; then \ + install -m 0755 -D $${d}/bin/gdbserver $(TARGET_DIR)/usr/bin/gdbserver ; \ + gdbserver_found=1 ; \ + break ; \ + fi ; \ + done ; \ + if [ $${gdbserver_found} -eq 0 ] ; then \ + echo "Could not find gdbserver in external toolchain" ; \ + exit 1 ; \ + fi +endef +endif + +define TOOLCHAIN_EXTERNAL_INSTALL_SYSROOT_LIBS + $(Q)SYSROOT_DIR="$(call toolchain_find_sysroot,$(TOOLCHAIN_EXTERNAL_CC))" ; \ + ARCH_SYSROOT_DIR="$(call toolchain_find_sysroot,$(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ + ARCH_LIB_DIR="$(call toolchain_find_libdir,$(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ + SUPPORT_LIB_DIR="" ; \ + if test `find $${ARCH_SYSROOT_DIR} -name 'libstdc++.a' | wc -l` -eq 0 ; then \ + LIBSTDCPP_A_LOCATION=$$(LANG=C $(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS) -print-file-name=libstdc++.a) ; \ + if [ -e "$${LIBSTDCPP_A_LOCATION}" ]; then \ + SUPPORT_LIB_DIR=`readlink -f $${LIBSTDCPP_A_LOCATION} | sed -r -e 's:libstdc\+\+\.a::'` ; \ + fi ; \ + fi ; \ + if [ "$${SYSROOT_DIR}" == "$${ARCH_SYSROOT_DIR}" ] ; then \ + ARCH_SUBDIR="" ; \ + elif [ "`dirname $${ARCH_SYSROOT_DIR}`" = "`dirname $${SYSROOT_DIR}`" ] ; then \ + SYSROOT_DIR_DIRNAME=`dirname $${SYSROOT_DIR}`/ ; \ + ARCH_SUBDIR=`echo $${ARCH_SYSROOT_DIR} | sed -r -e "s:^$${SYSROOT_DIR_DIRNAME}(.*)/$$:\1:"` ; \ + else \ + ARCH_SUBDIR=`echo $${ARCH_SYSROOT_DIR} | sed -r -e "s:^$${SYSROOT_DIR}(.*)/$$:\1:"` ; \ + fi ; \ + $(call MESSAGE,"Copying external toolchain sysroot to staging...") ; \ + $(call copy_toolchain_sysroot,$${SYSROOT_DIR},$${ARCH_SYSROOT_DIR},$${ARCH_SUBDIR},$${ARCH_LIB_DIR},$${SUPPORT_LIB_DIR}) +endef + +# Create a symlink from (usr/)$(ARCH_LIB_DIR) to lib. +# Note: the skeleton package additionally creates lib32->lib or lib64->lib +# (as appropriate) +# +# $1: destination directory (TARGET_DIR / STAGING_DIR) +create_lib_symlinks = \ + $(Q)DESTDIR="$(strip $1)" ; \ + ARCH_LIB_DIR="$(call toolchain_find_libdir,$(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ + if [ ! -e "$${DESTDIR}/$${ARCH_LIB_DIR}" -a ! -e "$${DESTDIR}/usr/$${ARCH_LIB_DIR}" ]; then \ + ln -snf lib "$${DESTDIR}/$${ARCH_LIB_DIR}" ; \ + ln -snf lib "$${DESTDIR}/usr/$${ARCH_LIB_DIR}" ; \ + fi + +define TOOLCHAIN_EXTERNAL_CREATE_STAGING_LIB_SYMLINK + $(call create_lib_symlinks,$(STAGING_DIR)) +endef + +define TOOLCHAIN_EXTERNAL_CREATE_TARGET_LIB_SYMLINK + $(call create_lib_symlinks,$(TARGET_DIR)) +endef + +# +# Generate gdbinit file for use with Buildroot +# +define TOOLCHAIN_EXTERNAL_INSTALL_GDBINIT + $(Q)if test -f $(TARGET_CROSS)gdb ; then \ + $(call MESSAGE,"Installing gdbinit"); \ + $(gen_gdbinit_file); \ + fi +endef + +# Various utility functions used by the external toolchain based on musl. + +# musl does not provide an implementation for sys/queue.h or sys/cdefs.h. +# So, add the musl-compat-headers package that will install those files, +# into the staging directory: +# sys/queue.h: header from NetBSD +# sys/cdefs.h: minimalist header bundled in Buildroot +ifeq ($(BR2_TOOLCHAIN_USES_MUSL),y) +TOOLCHAIN_EXTERNAL_DEPENDENCIES += musl-compat-headers +endif + +# With the musl C library, the libc.so library directly plays the role +# of the dynamic library loader. We just need to create a symbolic +# link to libc.so with the appropriate name. +ifeq ($(BR2_TOOLCHAIN_EXTERNAL_MUSL),y) +ifeq ($(BR2_i386),y) +MUSL_ARCH = i386 +else ifeq ($(BR2_ARM_EABIHF),y) +MUSL_ARCH = armhf +else ifeq ($(BR2_mipsel):$(BR2_SOFT_FLOAT),y:y) +MUSL_ARCH = mipsel-sf +else ifeq ($(BR2_sh),y) +MUSL_ARCH = sh +else +MUSL_ARCH = $(ARCH) +endif +define TOOLCHAIN_EXTERNAL_MUSL_LD_LINK + ln -sf libc.so $(TARGET_DIR)/lib/ld-musl-$(MUSL_ARCH).so.1 +endef +TOOLCHAIN_EXTERNAL_POST_INSTALL_STAGING_HOOKS += TOOLCHAIN_EXTERNAL_MUSL_LD_LINK +endif + +# +# Various functions used by the external toolchain package +# infrastructure to handle the Blackfin specific +# BR2_BFIN_INSTALL_FDPIC_SHARED and BR2_BFIN_INSTALL_FLAT_SHARED +# options. +# + +# Special installation target used on the Blackfin architecture when +# FDPIC is not the primary binary format being used, but the user has +# nonetheless requested the installation of the FDPIC libraries to the +# target filesystem. +ifeq ($(BR2_BFIN_INSTALL_FDPIC_SHARED),y) +define TOOLCHAIN_EXTERNAL_INSTALL_SYSROOT_LIBS_BFIN_FDPIC + $(Q)$(call MESSAGE,"Install external toolchain FDPIC libraries to staging...") + $(Q)FDPIC_EXTERNAL_CC=$(dir $(TOOLCHAIN_EXTERNAL_CC))/../../bfin-linux-uclibc/bin/bfin-linux-uclibc-gcc ; \ + FDPIC_SYSROOT_DIR="$(call toolchain_find_sysroot,$${FDPIC_EXTERNAL_CC} $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ + FDPIC_LIB_DIR="$(call toolchain_find_libdir,$${FDPIC_EXTERNAL_CC} $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ + FDPIC_SUPPORT_LIB_DIR="" ; \ + if test `find $${FDPIC_SYSROOT_DIR} -name 'libstdc++.a' | wc -l` -eq 0 ; then \ + FDPIC_LIBSTDCPP_A_LOCATION=$$(LANG=C $${FDPIC_EXTERNAL_CC} $(TOOLCHAIN_EXTERNAL_CFLAGS) -print-file-name=libstdc++.a) ; \ + if [ -e "$${FDPIC_LIBSTDCPP_A_LOCATION}" ]; then \ + FDPIC_SUPPORT_LIB_DIR=`readlink -f $${FDPIC_LIBSTDCPP_A_LOCATION} | sed -r -e 's:libstdc\+\+\.a::'` ; \ + fi ; \ + fi ; \ + $(call copy_toolchain_sysroot,$${FDPIC_SYSROOT_DIR},$${FDPIC_SYSROOT_DIR},,$${FDPIC_LIB_DIR},$${FDPIC_SUPPORT_LIB_DIR}) +endef +define TOOLCHAIN_EXTERNAL_INSTALL_TARGET_BFIN_FDPIC + $(Q)$(call MESSAGE,"Install external toolchain FDPIC libraries to target...") + $(Q)for libs in $(TOOLCHAIN_EXTERNAL_LIBS); do \ + $(call copy_toolchain_lib_root,$$libs); \ + done +endef +endif + +# Special installation target used on the Blackfin architecture when +# shared FLAT is not the primary format being used, but the user has +# nonetheless requested the installation of the shared FLAT libraries +# to the target filesystem. The flat libraries are found and linked +# according to the index in name "libN.so". Index 1 is reserved for +# the standard C library. Customer libraries can use 4 and above. +ifeq ($(BR2_BFIN_INSTALL_FLAT_SHARED),y) +define TOOLCHAIN_EXTERNAL_INSTALL_TARGET_BFIN_FLAT + $(Q)$(call MESSAGE,"Install external toolchain FLAT libraries to target...") + $(Q)FLAT_EXTERNAL_CC=$(dir $(TOOLCHAIN_EXTERNAL_CC))../../bfin-uclinux/bin/bfin-uclinux-gcc ; \ + FLAT_LIBC_A_LOCATION=`$${FLAT_EXTERNAL_CC} $(TOOLCHAIN_EXTERNAL_CFLAGS) -mid-shared-library -print-file-name=libc`; \ + if [ -f $${FLAT_LIBC_A_LOCATION} -a ! -h $${FLAT_LIBC_A_LOCATION} ] ; then \ + $(INSTALL) -D $${FLAT_LIBC_A_LOCATION} $(TARGET_DIR)/lib/lib1.so; \ + fi +endef +endif + +# uClibc-ng dynamic loader is called ld-uClibc.so.1, but gcc is not +# patched specifically for uClibc-ng, so it continues to generate +# binaries that expect the dynamic loader to be named ld-uClibc.so.0, +# like with the original uClibc. Therefore, we create an additional +# symbolic link to make uClibc-ng systems work properly. +define TOOLCHAIN_EXTERNAL_FIXUP_UCLIBCNG_LDSO + $(Q)if test -e $(TARGET_DIR)/lib/ld-uClibc.so.1; then \ + ln -sf ld-uClibc.so.1 $(TARGET_DIR)/lib/ld-uClibc.so.0 ; \ + fi + $(Q)if test -e $(TARGET_DIR)/lib/ld64-uClibc.so.1; then \ + ln -sf ld64-uClibc.so.1 $(TARGET_DIR)/lib/ld64-uClibc.so.0 ; \ + fi +endef + +TOOLCHAIN_EXTERNAL_INSTALL_STAGING = YES +TOOLCHAIN_EXTERNAL_ADD_TOOLCHAIN_DEPENDENCY = NO + +# In fact, we don't need to download the toolchain, since it is already +# available on the system, so force the site and source to be empty so +# that nothing will be downloaded/extracted. +ifeq ($(BR2_TOOLCHAIN_EXTERNAL_PREINSTALLED),y) +TOOLCHAIN_EXTERNAL_SITE = +TOOLCHAIN_EXTERNAL_SOURCE = +endif + +# The Codescape toolchain uses a sysroot layout that places them +# side-by-side instead of nested like multilibs. A symlink is needed +# much like for the nested sysroots which are handled in +# copy_toolchain_sysroot but there is not enough information in there +# to determine whether the sysroot layout was nested or side-by-side. +# Add the symlink here for now. +define TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_SYMLINK + $(Q)ARCH_SYSROOT_DIR="$(call toolchain_find_sysroot,$(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS))"; \ + ARCH_SUBDIR=`basename $${ARCH_SYSROOT_DIR}`; \ + ln -snf . $(STAGING_DIR)/$${ARCH_SUBDIR} +endef + +# Special fixup for Codescape MIPS toolchains, that have bin- and +# sbin- directories. We create symlinks bin -> bin- and sbin +# -> sbin- so that the rest of Buildroot can find the toolchain +# tools in the appropriate location. +ifeq ($(BR2_TOOLCHAIN_EXTERNAL_CODESCAPE_IMG_MIPS)$(BR2_TOOLCHAIN_EXTERNAL_CODESCAPE_MTI_MIPS),y) +ifeq ($(BR2_MIPS_OABI32),y) +TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_BIN_DIR_SUFFIX = o32 +else ifeq ($(BR2_MIPS_NABI32),y) +TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_BIN_DIR_SUFFIX = n32 +else ifeq ($(BR2_MIPS_NABI64),y) +TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_BIN_DIR_SUFFIX = n64 +endif + +define TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_STAGING_FIXUPS + rmdir $(STAGING_DIR)/usr/bin $(STAGING_DIR)/usr/sbin + ln -sf bin-$(TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_BIN_DIR_SUFFIX) $(STAGING_DIR)/usr/bin + ln -sf sbin-$(TOOLCHAIN_EXTERNAL_CODESCAPE_MIPS_BIN_DIR_SUFFIX) $(STAGING_DIR)/usr/sbin +endef +endif + +# Special handling for Blackfin toolchain, because of the split in two +# tarballs, and the organization of tarball contents. The tarballs +# contain ./opt/uClinux/{bfin-uclinux,bfin-linux-uclibc} directories, +# which themselves contain the toolchain. This is why we strip more +# components than usual. +define TOOLCHAIN_EXTERNAL_BLACKFIN_UCLIBC_EXTRA_EXTRACT + $(call suitable-extractor,$(TOOLCHAIN_EXTERNAL_EXTRA_DOWNLOADS)) $(DL_DIR)/$(TOOLCHAIN_EXTERNAL_EXTRA_DOWNLOADS) | \ + $(TAR) --strip-components=3 --hard-dereference -C $(@D) $(TAR_OPTIONS) - +endef + +ifeq ($(BR2_TOOLCHAIN_EXTERNAL_CODESOURCERY_ARM),y) TOOLCHAIN_EXTERNAL_SITE = http://sourcery.mentor.com/public/gnu_toolchain/arm-none-linux-gnueabi TOOLCHAIN_EXTERNAL_SOURCE = arm-2014.05-29-arm-none-linux-gnueabi-i686-pc-linux-gnu.tar.bz2 else ifeq ($(BR2_TOOLCHAIN_EXTERNAL_ARAGO_ARMV7A),y) @@ -439,60 +765,21 @@ TOOLCHAIN_EXTERNAL_ACTUAL_SOURCE_TARBALL ?= \ $(subst -i686-pc-linux-gnu.tar.bz2,.src.tar.bz2,$(subst -i686-pc-linux-gnu-i386-linux.tar.bz2,-i686-pc-linux-gnu.src.tar.bz2,$(TOOLCHAIN_EXTERNAL_SOURCE))) endif -# In fact, we don't need to download the toolchain, since it is already -# available on the system, so force the site and source to be empty so -# that nothing will be downloaded/extracted. -ifeq ($(BR2_TOOLCHAIN_EXTERNAL_PREINSTALLED),y) -TOOLCHAIN_EXTERNAL_SITE = -TOOLCHAIN_EXTERNAL_SOURCE = -endif - -TOOLCHAIN_EXTERNAL_ADD_TOOLCHAIN_DEPENDENCY = NO - -TOOLCHAIN_EXTERNAL_INSTALL_STAGING = YES - # Normal handling of downloaded toolchain tarball extraction. ifeq ($(BR2_TOOLCHAIN_EXTERNAL_DOWNLOAD),y) TOOLCHAIN_EXTERNAL_EXCLUDES = usr/lib/locale/* -# As a regular package, the toolchain gets extracted in $(@D), but -# since it's actually a fairly special package, we need it to be moved -# into TOOLCHAIN_EXTERNAL_DOWNLOAD_INSTALL_DIR. -define TOOLCHAIN_EXTERNAL_MOVE - rm -rf $(TOOLCHAIN_EXTERNAL_DOWNLOAD_INSTALL_DIR) - mkdir -p $(TOOLCHAIN_EXTERNAL_DOWNLOAD_INSTALL_DIR) - mv $(@D)/* $(TOOLCHAIN_EXTERNAL_DOWNLOAD_INSTALL_DIR)/ -endef -TOOLCHAIN_EXTERNAL_POST_EXTRACT_HOOKS += \ - TOOLCHAIN_EXTERNAL_MOVE -endif - -# Returns the location of the libc.a file for the given compiler + flags -define toolchain_find_libc_a -$$(readlink -f $$(LANG=C $(1) -print-file-name=libc.a)) -endef - -# Returns the sysroot location for the given compiler + flags. We need -# to handle cases where libc.a is in: -# -# - lib/ -# - usr/lib/ -# - lib32/ -# - lib64/ -# - lib32-fp/ (Cavium toolchain) -# - lib64-fp/ (Cavium toolchain) -# - usr/lib// (Linaro toolchain) -# -# And variations on these. -define toolchain_find_sysroot -$$(printf $(call toolchain_find_libc_a,$(1)) | sed -r -e 's:(usr/)?lib(32|64)?([^/]*)?/([^/]*/)?libc\.a::') -endef - -# Returns the lib subdirectory for the given compiler + flags (i.e -# typically lib32 or lib64 for some toolchains) -define toolchain_find_libdir -$$(printf $(call toolchain_find_libc_a,$(1)) | sed -r -e 's:.*/(usr/)?(lib(32|64)?([^/]*)?)/([^/]*/)?libc.a:\2:') +# As a regular package, the toolchain gets extracted in $(@D), but +# since it's actually a fairly special package, we need it to be moved +# into TOOLCHAIN_EXTERNAL_DOWNLOAD_INSTALL_DIR. +define TOOLCHAIN_EXTERNAL_MOVE + rm -rf $(TOOLCHAIN_EXTERNAL_DOWNLOAD_INSTALL_DIR) + mkdir -p $(TOOLCHAIN_EXTERNAL_DOWNLOAD_INSTALL_DIR) + mv $(@D)/* $(TOOLCHAIN_EXTERNAL_DOWNLOAD_INSTALL_DIR)/ endef +TOOLCHAIN_EXTERNAL_POST_EXTRACT_HOOKS += \ + TOOLCHAIN_EXTERNAL_MOVE +endif # Checks for an already installed toolchain: check the toolchain # location, check that it is usable, and then verify that it @@ -528,255 +815,6 @@ define TOOLCHAIN_EXTERNAL_CONFIGURE_CMDS $(Q)$(call check_toolchain_ssp,$(TOOLCHAIN_EXTERNAL_CC)) endef -# With the musl C library, the libc.so library directly plays the role -# of the dynamic library loader. We just need to create a symbolic -# link to libc.so with the appropriate name. -ifeq ($(BR2_TOOLCHAIN_EXTERNAL_MUSL),y) -ifeq ($(BR2_i386),y) -MUSL_ARCH = i386 -else ifeq ($(BR2_ARM_EABIHF),y) -MUSL_ARCH = armhf -else ifeq ($(BR2_mipsel):$(BR2_SOFT_FLOAT),y:y) -MUSL_ARCH = mipsel-sf -else ifeq ($(BR2_sh),y) -MUSL_ARCH = sh -else -MUSL_ARCH = $(ARCH) -endif -define TOOLCHAIN_EXTERNAL_MUSL_LD_LINK - ln -sf libc.so $(TARGET_DIR)/lib/ld-musl-$(MUSL_ARCH).so.1 -endef -TOOLCHAIN_EXTERNAL_POST_INSTALL_STAGING_HOOKS += TOOLCHAIN_EXTERNAL_MUSL_LD_LINK -endif - -# Create a symlink from (usr/)$(ARCH_LIB_DIR) to lib. -# Note: the skeleton package additionally creates lib32->lib or lib64->lib -# (as appropriate) -# -# $1: destination directory (TARGET_DIR / STAGING_DIR) -create_lib_symlinks = \ - $(Q)DESTDIR="$(strip $1)" ; \ - ARCH_LIB_DIR="$(call toolchain_find_libdir,$(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ - if [ ! -e "$${DESTDIR}/$${ARCH_LIB_DIR}" -a ! -e "$${DESTDIR}/usr/$${ARCH_LIB_DIR}" ]; then \ - ln -snf lib "$${DESTDIR}/$${ARCH_LIB_DIR}" ; \ - ln -snf lib "$${DESTDIR}/usr/$${ARCH_LIB_DIR}" ; \ - fi - -define TOOLCHAIN_EXTERNAL_CREATE_STAGING_LIB_SYMLINK - $(call create_lib_symlinks,$(STAGING_DIR)) -endef - -define TOOLCHAIN_EXTERNAL_CREATE_TARGET_LIB_SYMLINK - $(call create_lib_symlinks,$(TARGET_DIR)) -endef - -# Integration of the toolchain into Buildroot: find the main sysroot -# and the variant-specific sysroot, then copy the needed libraries to -# the $(TARGET_DIR) and copy the whole sysroot (libraries and headers) -# to $(STAGING_DIR). -# -# Variables are defined as follows: -# -# LIBC_A_LOCATION: location of the libc.a file in the default -# multilib variant (allows to find the main -# sysroot directory) -# Ex: /x-tools/mips-2011.03/mips-linux-gnu/libc/usr/lib/libc.a -# -# SYSROOT_DIR: the main sysroot directory, deduced from -# LIBC_A_LOCATION by removing the -# usr/lib[32|64]/libc.a part of the path. -# Ex: /x-tools/mips-2011.03/mips-linux-gnu/libc/ -# -# ARCH_LIBC_A_LOCATION: location of the libc.a file in the selected -# multilib variant (taking into account the -# CFLAGS). Allows to find the sysroot of the -# selected multilib variant. -# Ex: /x-tools/mips-2011.03/mips-linux-gnu/libc/mips16/soft-float/el/usr/lib/libc.a -# -# ARCH_SYSROOT_DIR: the sysroot of the selected multilib variant, -# deduced from ARCH_LIBC_A_LOCATION by removing -# usr/lib[32|64]/libc.a at the end of the path. -# Ex: /x-tools/mips-2011.03/mips-linux-gnu/libc/mips16/soft-float/el/ -# -# ARCH_LIB_DIR: 'lib', 'lib32' or 'lib64' depending on where libraries -# are stored. Deduced from ARCH_LIBC_A_LOCATION by -# looking at usr/lib??/libc.a. -# Ex: lib -# -# ARCH_SUBDIR: the relative location of the sysroot of the selected -# multilib variant compared to the main sysroot. -# Ex: mips16/soft-float/el -# -# SUPPORT_LIB_DIR: some toolchains, such as recent Linaro toolchains, -# store GCC support libraries (libstdc++, -# libgcc_s, etc.) outside of the sysroot. In -# this case, SUPPORT_LIB_DIR is set to a -# non-empty value, and points to the directory -# where these support libraries are -# available. Those libraries will be copied to -# our sysroot, and the directory will also be -# considered when searching libraries for copy -# to the target filesystem. -# -# Please be very careful to check the major toolchain sources: -# Buildroot, Crosstool-NG, CodeSourcery and Linaro -# before doing any modification on the below logic. - -ifeq ($(BR2_STATIC_LIBS),) -define TOOLCHAIN_EXTERNAL_INSTALL_TARGET_LIBS - $(Q)$(call MESSAGE,"Copying external toolchain libraries to target...") - $(Q)for libs in $(TOOLCHAIN_EXTERNAL_LIBS); do \ - $(call copy_toolchain_lib_root,$$libs); \ - done -endef -endif - -ifeq ($(BR2_TOOLCHAIN_EXTERNAL_GDB_SERVER_COPY),y) -define TOOLCHAIN_EXTERNAL_INSTALL_TARGET_GDBSERVER - $(Q)$(call MESSAGE,"Copying gdbserver") - $(Q)ARCH_SYSROOT_DIR="$(call toolchain_find_sysroot,$(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ - ARCH_LIB_DIR="$(call toolchain_find_libdir,$(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ - gdbserver_found=0 ; \ - for d in $${ARCH_SYSROOT_DIR}/usr \ - $${ARCH_SYSROOT_DIR}/../debug-root/usr \ - $${ARCH_SYSROOT_DIR}/usr/$${ARCH_LIB_DIR} \ - $(TOOLCHAIN_EXTERNAL_INSTALL_DIR); do \ - if test -f $${d}/bin/gdbserver ; then \ - install -m 0755 -D $${d}/bin/gdbserver $(TARGET_DIR)/usr/bin/gdbserver ; \ - gdbserver_found=1 ; \ - break ; \ - fi ; \ - done ; \ - if [ $${gdbserver_found} -eq 0 ] ; then \ - echo "Could not find gdbserver in external toolchain" ; \ - exit 1 ; \ - fi -endef -endif - -define TOOLCHAIN_EXTERNAL_INSTALL_SYSROOT_LIBS - $(Q)SYSROOT_DIR="$(call toolchain_find_sysroot,$(TOOLCHAIN_EXTERNAL_CC))" ; \ - ARCH_SYSROOT_DIR="$(call toolchain_find_sysroot,$(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ - ARCH_LIB_DIR="$(call toolchain_find_libdir,$(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ - SUPPORT_LIB_DIR="" ; \ - if test `find $${ARCH_SYSROOT_DIR} -name 'libstdc++.a' | wc -l` -eq 0 ; then \ - LIBSTDCPP_A_LOCATION=$$(LANG=C $(TOOLCHAIN_EXTERNAL_CC) $(TOOLCHAIN_EXTERNAL_CFLAGS) -print-file-name=libstdc++.a) ; \ - if [ -e "$${LIBSTDCPP_A_LOCATION}" ]; then \ - SUPPORT_LIB_DIR=`readlink -f $${LIBSTDCPP_A_LOCATION} | sed -r -e 's:libstdc\+\+\.a::'` ; \ - fi ; \ - fi ; \ - if [ "$${SYSROOT_DIR}" == "$${ARCH_SYSROOT_DIR}" ] ; then \ - ARCH_SUBDIR="" ; \ - elif [ "`dirname $${ARCH_SYSROOT_DIR}`" = "`dirname $${SYSROOT_DIR}`" ] ; then \ - SYSROOT_DIR_DIRNAME=`dirname $${SYSROOT_DIR}`/ ; \ - ARCH_SUBDIR=`echo $${ARCH_SYSROOT_DIR} | sed -r -e "s:^$${SYSROOT_DIR_DIRNAME}(.*)/$$:\1:"` ; \ - else \ - ARCH_SUBDIR=`echo $${ARCH_SYSROOT_DIR} | sed -r -e "s:^$${SYSROOT_DIR}(.*)/$$:\1:"` ; \ - fi ; \ - $(call MESSAGE,"Copying external toolchain sysroot to staging...") ; \ - $(call copy_toolchain_sysroot,$${SYSROOT_DIR},$${ARCH_SYSROOT_DIR},$${ARCH_SUBDIR},$${ARCH_LIB_DIR},$${SUPPORT_LIB_DIR}) -endef - -# Special installation target used on the Blackfin architecture when -# FDPIC is not the primary binary format being used, but the user has -# nonetheless requested the installation of the FDPIC libraries to the -# target filesystem. -ifeq ($(BR2_BFIN_INSTALL_FDPIC_SHARED),y) -define TOOLCHAIN_EXTERNAL_INSTALL_SYSROOT_LIBS_BFIN_FDPIC - $(Q)$(call MESSAGE,"Install external toolchain FDPIC libraries to staging...") - $(Q)FDPIC_EXTERNAL_CC=$(dir $(TOOLCHAIN_EXTERNAL_CC))/../../bfin-linux-uclibc/bin/bfin-linux-uclibc-gcc ; \ - FDPIC_SYSROOT_DIR="$(call toolchain_find_sysroot,$${FDPIC_EXTERNAL_CC} $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ - FDPIC_LIB_DIR="$(call toolchain_find_libdir,$${FDPIC_EXTERNAL_CC} $(TOOLCHAIN_EXTERNAL_CFLAGS))" ; \ - FDPIC_SUPPORT_LIB_DIR="" ; \ - if test `find $${FDPIC_SYSROOT_DIR} -name 'libstdc++.a' | wc -l` -eq 0 ; then \ - FDPIC_LIBSTDCPP_A_LOCATION=$$(LANG=C $${FDPIC_EXTERNAL_CC} $(TOOLCHAIN_EXTERNAL_CFLAGS) -print-file-name=libstdc++.a) ; \ - if [ -e "$${FDPIC_LIBSTDCPP_A_LOCATION}" ]; then \ - FDPIC_SUPPORT_LIB_DIR=`readlink -f $${FDPIC_LIBSTDCPP_A_LOCATION} | sed -r -e 's:libstdc\+\+\.a::'` ; \ - fi ; \ - fi ; \ - $(call copy_toolchain_sysroot,$${FDPIC_SYSROOT_DIR},$${FDPIC_SYSROOT_DIR},,$${FDPIC_LIB_DIR},$${FDPIC_SUPPORT_LIB_DIR}) -endef -define TOOLCHAIN_EXTERNAL_INSTALL_TARGET_BFIN_FDPIC - $(Q)$(call MESSAGE,"Install external toolchain FDPIC libraries to target...") - $(Q)for libs in $(TOOLCHAIN_EXTERNAL_LIBS); do \ - $(call copy_toolchain_lib_root,$$libs); \ - done -endef -endif - -# Special installation target used on the Blackfin architecture when -# shared FLAT is not the primary format being used, but the user has -# nonetheless requested the installation of the shared FLAT libraries -# to the target filesystem. The flat libraries are found and linked -# according to the index in name "libN.so". Index 1 is reserved for -# the standard C library. Customer libraries can use 4 and above. -ifeq ($(BR2_BFIN_INSTALL_FLAT_SHARED),y) -define TOOLCHAIN_EXTERNAL_INSTALL_TARGET_BFIN_FLAT - $(Q)$(call MESSAGE,"Install external toolchain FLAT libraries to target...") - $(Q)FLAT_EXTERNAL_CC=$(dir $(TOOLCHAIN_EXTERNAL_CC))../../bfin-uclinux/bin/bfin-uclinux-gcc ; \ - FLAT_LIBC_A_LOCATION=`$${FLAT_EXTERNAL_CC} $(TOOLCHAIN_EXTERNAL_CFLAGS) -mid-shared-library -print-file-name=libc`; \ - if [ -f $${FLAT_LIBC_A_LOCATION} -a ! -h $${FLAT_LIBC_A_LOCATION} ] ; then \ - $(INSTALL) -D $${FLAT_LIBC_A_LOCATION} $(TARGET_DIR)/lib/lib1.so; \ - fi -endef -endif - -# Build toolchain wrapper for preprocessor, C, C++ and Fortran compilers -# and setup symlinks for everything else. Skip gdb symlink when we are -# building our own gdb to prevent two gdb's in output/host/usr/bin. -# The LTO support in gcc creates wrappers for ar, ranlib and nm which load -# the lto plugin. These wrappers are called *-gcc-ar, *-gcc-ranlib, and -# *-gcc-nm and should be used instead of the real programs when -flto is -# used. However, we should not add the toolchain wrapper for them, and they -# match the *cc-* pattern. Therefore, an additional case is added for *-ar, -# *-ranlib and *-nm. -define TOOLCHAIN_EXTERNAL_INSTALL_WRAPPER - $(Q)cd $(HOST_DIR)/usr/bin; \ - for i in $(TOOLCHAIN_EXTERNAL_CROSS)*; do \ - base=$${i##*/}; \ - case "$$base" in \ - *-ar|*-ranlib|*-nm) \ - ln -sf $$(echo $$i | sed 's%^$(HOST_DIR)%../..%') .; \ - ;; \ - *cc|*cc-*|*++|*++-*|*cpp|*-gfortran) \ - ln -sf toolchain-wrapper $$base; \ - ;; \ - *gdb|*gdbtui) \ - if test "$(BR2_PACKAGE_HOST_GDB)" != "y"; then \ - ln -sf $$(echo $$i | sed 's%^$(HOST_DIR)%../..%') .; \ - fi \ - ;; \ - *) \ - ln -sf $$(echo $$i | sed 's%^$(HOST_DIR)%../..%') .; \ - ;; \ - esac; \ - done -endef - -# -# Generate gdbinit file for use with Buildroot -# -define TOOLCHAIN_EXTERNAL_INSTALL_GDBINIT - $(Q)if test -f $(TARGET_CROSS)gdb ; then \ - $(call MESSAGE,"Installing gdbinit"); \ - $(gen_gdbinit_file); \ - fi -endef - -# uClibc-ng dynamic loader is called ld-uClibc.so.1, but gcc is not -# patched specifically for uClibc-ng, so it continues to generate -# binaries that expect the dynamic loader to be named ld-uClibc.so.0, -# like with the original uClibc. Therefore, we create an additional -# symbolic link to make uClibc-ng systems work properly. -define TOOLCHAIN_EXTERNAL_FIXUP_UCLIBCNG_LDSO - $(Q)if test -e $(TARGET_DIR)/lib/ld-uClibc.so.1; then \ - ln -sf ld-uClibc.so.1 $(TARGET_DIR)/lib/ld-uClibc.so.0 ; \ - fi - $(Q)if test -e $(TARGET_DIR)/lib/ld64-uClibc.so.1; then \ - ln -sf ld64-uClibc.so.1 $(TARGET_DIR)/lib/ld64-uClibc.so.0 ; \ - fi -endef - TOOLCHAIN_EXTERNAL_BUILD_CMDS = $(TOOLCHAIN_WRAPPER_BUILD) define TOOLCHAIN_EXTERNAL_INSTALL_STAGING_CMDS