inherit cross INHIBIT_DEFAULT_DEPS = "1" EXTRADEPENDS = "" DEPENDS = "virtual/${TARGET_PREFIX}binutils virtual/${TARGET_PREFIX}libc-for-gcc ${EXTRADEPENDS} ${NATIVEDEPS}" PROVIDES = "virtual/${TARGET_PREFIX}gcc virtual/${TARGET_PREFIX}g++" python () { if d.getVar("TARGET_OS", True).startswith("linux"): d.setVar("EXTRADEPENDS", "linux-libc-headers") } require gcc-configure-common.inc EXTRA_OECONF += " --enable-poison-system-directories" EXTRA_OECONF_append_sh4 = " --with-multilib-list= --enable-incomplete-targets " EXTRA_OECONF += "--disable-libunwind-exceptions \ --with-mpfr=${STAGING_DIR_NATIVE}${prefix_native} \ --with-system-zlib " EXTRA_OECONF_PATHS = " \ --with-gxx-include-dir=${STAGING_DIR_TARGET}${target_includedir}/c++ \ --with-sysroot=${STAGING_DIR_TARGET} \ --with-build-sysroot=${STAGING_DIR_TARGET}" ARCH_FLAGS_FOR_TARGET += "-isystem${STAGING_DIR_TARGET}${target_includedir}" do_configure_prepend () { sed -i 's/BUILD_INFO=info/BUILD_INFO=/' ${S}/gcc/configure } do_compile () { export CC="${BUILD_CC}" export AR_FOR_TARGET="${TARGET_SYS}-ar" export RANLIB_FOR_TARGET="${TARGET_SYS}-ranlib" export LD_FOR_TARGET="${TARGET_SYS}-ld" export NM_FOR_TARGET="${TARGET_SYS}-nm" export CC_FOR_TARGET="${CCACHE} ${TARGET_SYS}-gcc ${TARGET_CC_ARCH}" export CFLAGS_FOR_TARGET="${TARGET_CFLAGS}" export CPPFLAGS_FOR_TARGET="${TARGET_CPPFLAGS}" export CXXFLAGS_FOR_TARGET="${TARGET_CXXFLAGS}" export LDFLAGS_FOR_TARGET="${TARGET_LDFLAGS}" oe_runmake all-host all-target-libgcc # now generate script to drive testing echo "#!/usr/bin/env sh" >${B}/${TARGET_PREFIX}testgcc set >> ${B}/${TARGET_PREFIX}testgcc # prune out the unneeded vars sed -i -e "/^BASH/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^USER/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^OPT/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^DIRSTACK/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^EUID/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^FUNCNAME/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^GROUPS/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^HOST/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^HOME/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^IFS/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^LC_ALL/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^LOGNAME/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^MACHTYPE/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^OSTYPE/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^PIPE/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^SHELL/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^'/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^UID/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^TERM/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^PATCH_GET/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^PKG_/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^POSIXLY_/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^PPID/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^PS4/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^Q/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^SHLVL/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^STAGING/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^LD_LIBRARY_PATH/d" ${B}/${TARGET_PREFIX}testgcc sed -i -e "/^PSEUDO/d" ${B}/${TARGET_PREFIX}testgcc # append execution part of the script cat >> ${B}/${TARGET_PREFIX}testgcc << STOP target="\$1" usage () { echo "Usage:" echo "\$0 user@target 'extra options to dejagnu'" echo "\$0 target 'extra options to dejagnu'" echo "\$0 target" echo "e.g. \$0 192.168.7.2 ' dg.exp=visibility-d.c'" echo "will only run visibility-d.c test case" echo "e.g. \$0 192.168.7.2 '/-mthumb dg.exp=visibility-d.c'" echo "will only run visibility-d.c test case in thumb mode" echo "You need to have dejagnu autogen expect installed" echo "on the build host" } if [ "x\$target" = "x" ] then echo "Please specify the target machine and remote user in form of user@target\n" usage exit 1; fi shift echo "\$target" | grep "@" 2>&1 > /dev/null if [ "x\$?" = "x0" ] then user=\$(echo \$target | cut -d '@' -f 1) target=\$(echo \$target | cut -d '@' -f 2) else user=\$USER fi ssh \$user@\$target date 2>&1 > /dev/null if [ "x\$?" != "x0" ] then echo "Failed connecting to \$user@\$target it could be because" echo "you don't have passwordless ssh setup to access \$target" echo "or sometimes host key has been changed" echo "in such case do something like below on build host" echo "ssh-keygen -f "~/.ssh/known_hosts" -R \$target" echo "and then try ssh \$user@\$target" usage exit 1 fi echo "lappend boards_dir [pwd]/../../.." > ${B}/site.exp echo "load_generic_config \"unix\"" > ${B}/${PACKAGE_ARCH}.exp echo "set_board_info username \$user" >> ${B}/${PACKAGE_ARCH}.exp echo "set_board_info rsh_prog ssh" >> ${B}/${PACKAGE_ARCH}.exp echo "set_board_info rcp_prog scp" >> ${B}/${PACKAGE_ARCH}.exp echo "set_board_info hostname \$target" >> ${B}/${PACKAGE_ARCH}.exp DEJAGNU=${B}/site.exp make -k check RUNTESTFLAGS="--target_board=${PACKAGE_ARCH}\$@" STOP chmod +x ${B}/${TARGET_PREFIX}testgcc } INHIBIT_PACKAGE_STRIP = "1" # Compute how to get from libexecdir to bindir in python (easier than shell) BINRELPATH = "${@oe.path.relative(d.expand("${libexecdir}/gcc/${TARGET_SYS}/${BINV}"), d.expand("${STAGING_DIR_NATIVE}${prefix_native}/bin/${MULTIMACH_TARGET_SYS}"))}" do_install () { oe_runmake 'DESTDIR=${D}' install-host install -d ${D}${target_base_libdir} install -d ${D}${target_libdir} # Link gfortran to g77 to satisfy not-so-smart configure or hard coded g77 # gfortran is fully backwards compatible. This is a safe and practical solution. ln -sf ${STAGING_DIR_NATIVE}${prefix_native}/bin/${TARGET_PREFIX}gfortran ${STAGING_DIR_NATIVE}${prefix_native}/bin/${TARGET_PREFIX}g77 || true # Insert symlinks into libexec so when tools without a prefix are searched for, the correct ones are # found. These need to be relative paths so they work in different locations. dest=${D}${libexecdir}/gcc/${TARGET_SYS}/${BINV}/ install -d $dest for t in ar as ld nm objcopy objdump ranlib strip g77 gcc cpp gfortran; do ln -sf ${BINRELPATH}/${TARGET_PREFIX}$t $dest$t ln -sf ${BINRELPATH}/${TARGET_PREFIX}$t ${dest}${TARGET_PREFIX}$t done # Remove things we don't need but keep share/java for d in info man share/doc share/locale share/man share/info; do rm -rf ${D}${STAGING_DIR_NATIVE}${prefix_native}/$d done # libquadmath headers need to be available in the gcc libexec dir install -d ${D}${libdir}/gcc/${TARGET_SYS}/${BINV}/include/ cp ${S}/libquadmath/quadmath.h ${D}${libdir}/gcc/${TARGET_SYS}/${BINV}/include/ cp ${S}/libquadmath/quadmath_weak.h ${D}${libdir}/gcc/${TARGET_SYS}/${BINV}/include/ # We use libiberty from binutils find ${D}${exec_prefix}/lib -name libiberty.a | xargs rm -f find ${D}${exec_prefix}/lib -name libiberty.h | xargs rm -f # gcc-runtime installs libgcc into a special location in staging since it breaks doing a standalone build case ${PN} in *gcc-cross|*gcc-crosssdk) dest=${D}/${includedir}/gcc-build-internal-${MULTIMACH_TARGET_SYS} cp -fpPR . $dest ;; esac } do_package[noexec] = "1" do_packagedata[noexec] = "1" do_package_write_ipk[noexec] = "1" do_package_write_rpm[noexec] = "1" do_package_write_deb[noexec] = "1"