# Copyright 1999-2005 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/eclass/flag-o-matic.eclass,v 1.106 2006/02/19 23:18:30 vapier Exp $ # need access to emktemp() inherit eutils toolchain-funcs multilib # #### filter-flags #### # Remove particular flags from C[XX]FLAGS # Matches only complete flags # #### append-flags #### # Add extra flags to your current C[XX]FLAGS # #### replace-flags ### # Replace a flag by another one # #### replace-cpu-flags ### # Replace march/mcpu flags that specify # with flags that specify # #### is-flag[q] #### # Returns "true" if flag is set in C[XX]FLAGS # Matches only complete a flag # q version sets return code but doesn't echo # #### is-ldflag[q] #### # Returns "true" if flag is set in LDFLAGS # Matches only complete a flag # q version sets return code but doesn't echo # #### strip-flags #### # Strip C[XX]FLAGS of everything except known # good options. # #### strip-unsupported-flags #### # Strip C[XX]FLAGS of any flags not supported by # installed version of gcc # #### get-flag #### # Find and echo the value for a particular flag # #### replace-sparc64-flags #### # Sets mcpu to v8 and uses the original value # as mtune if none specified. # #### filter-mfpmath #### # Remove specified math types from the fpmath specification # If the user has -mfpmath=sse,386, running `filter-mfpmath sse` # will leave the user with -mfpmath=386 # #### append-ldflags #### # Add extra flags to your current LDFLAGS # #### filter-ldflags #### # Remove particular flags from LDFLAGS # Matches only complete flags # #### bindnow-flags #### # Returns the flags to enable "now" binding in the current selected linker. # ################ DEPRECATED functions ################ # The following are still present to avoid breaking existing # code more than necessary; however they are deprecated. Please # use gcc-specs-* from toolchain-funcs.eclass instead, if you # need to know which hardened techs are active in the compiler. # See bug #100974 # #### has_hardened #### # Returns true if the compiler has 'Hardened' in its version string, # (note; switched-spec vanilla compilers satisfy this condition) or # the specs file name contains 'hardened'. # #### has_pie #### # Returns true if the compiler by default or with current CFLAGS # builds position-independent code. # #### has_pic #### # Returns true if the compiler by default or with current CFLAGS # builds position-independent code. # #### has_ssp_all #### # Returns true if the compiler by default or with current CFLAGS # generates stack smash protections for all functions # #### has_ssp #### # Returns true if the compiler by default or with current CFLAGS # generates stack smash protections for most vulnerable functions # # C[XX]FLAGS that we allow in strip-flags setup-allowed-flags() { if [[ -z ${ALLOWED_FLAGS} ]] ; then export ALLOWED_FLAGS="-pipe" export ALLOWED_FLAGS="${ALLOWED_FLAGS} -O -O0 -O1 -O2 -mcpu -march -mtune" export ALLOWED_FLAGS="${ALLOWED_FLAGS} -fstack-protector -fstack-protector-all" export ALLOWED_FLAGS="${ALLOWED_FLAGS} -fbounds-checking -fno-bounds-checking" export ALLOWED_FLAGS="${ALLOWED_FLAGS} -fno-PIE -fno-pie -fno-unit-at-a-time" export ALLOWED_FLAGS="${ALLOWED_FLAGS} -g -g0 -g1 -g2 -g3 -ggdb -ggdb0 -ggdb1 -ggdb2 -ggdb3" fi # allow a bunch of flags that negate features / control ABI ALLOWED_FLAGS="${ALLOWED_FLAGS} -fno-stack-protector -fno-stack-protector-all" ALLOWED_FLAGS="${ALLOWED_FLAGS} -mregparm -mno-app-regs -mapp-regs \ -mno-mmx -mno-sse -mno-sse2 -mno-sse3 -mno-3dnow \ -mips1 -mips2 -mips3 -mips4 -mips32 -mips64 -mips16 \ -msoft-float -mno-soft-float -mhard-float -mno-hard-float -mfpu \ -mieee -mieee-with-inexact \ -mtls-direct-seg-refs -mno-tls-direct-seg-refs \ -mflat -mno-flat -mno-faster-structs -mfaster-structs \ -m32 -m64 -mabi -mlittle-endian -mbig-endian -EL -EB -fPIC \ -mlive-g0 -mcmodel -mstack-bias -mno-stack-bias" # C[XX]FLAGS that we are think is ok, but needs testing # NOTE: currently -Os have issues with gcc3 and K6* arch's export UNSTABLE_FLAGS="-Os -O3 -freorder-blocks" return 0 } # inverted filters for hardened compiler. This is trying to unpick # the hardened compiler defaults. _filter-hardened() { local f for f in "$@" ; do case "${f}" in # Ideally we should only concern ourselves with PIE flags, # not -fPIC or -fpic, but too many places filter -fPIC without # thinking about -fPIE. -fPIC|-fpic|-fPIE|-fpie|-Wl,pie|-pie) gcc-specs-pie || continue is-flagq -nopie || append-flags -nopie;; -fstack-protector) gcc-specs-ssp || continue is-flagq -fno-stack-protector || append-flags -fno-stack-protector;; -fstack-protector-all) gcc-specs-ssp-to-all || continue is-flagq -fno-stack-protector-all || append-flags -fno-stack-protector-all;; esac done } # Remove occurrences of strings from variable given in $1 # Strings removed are matched as globs, so for example # '-O*' would remove -O1, -O2 etc. _filter-var() { local f x VAR VAL declare -a new VAR=$1 shift eval VAL=\${${VAR}} for f in ${VAL}; do for x in "$@"; do # Note this should work with globs like -O* [[ ${f} == ${x} ]] && continue 2 done eval new\[\${\#new\[@]}]=\${f} done eval export ${VAR}=\${new\[*]} } filter-flags() { _filter-hardened "$@" _filter-var CFLAGS "$@" _filter-var CXXFLAGS "$@" return 0 } filter-lfs-flags() { [[ -n $@ ]] && die "filter-lfs-flags takes no arguments" filter-flags -D_FILE_OFFSET_BITS=64 -D_LARGEFILE_SOURCE -D_LARGEFILE64_SOURCE } append-lfs-flags() { [[ -n $@ ]] && die "append-lfs-flags takes no arguments" append-flags -D_FILE_OFFSET_BITS=64 -D_LARGEFILE_SOURCE -D_LARGEFILE64_SOURCE } append-flags() { [[ -z $* ]] && return 0 export CFLAGS="${CFLAGS} $*" export CXXFLAGS="${CXXFLAGS} $*" return 0 } replace-flags() { [[ $# != 2 ]] \ && echo && eerror "Usage: replace-flags " \ && die "replace-flags takes 2 arguments, not $#" local f fset declare -a new_CFLAGS new_CXXFLAGS for fset in CFLAGS CXXFLAGS; do # Looping over the flags instead of using a global # substitution ensures that we're working with flag atoms. # Otherwise globs like -O* have the potential to wipe out the # list of flags. for f in ${!fset}; do # Note this should work with globs like -O* [[ ${f} == ${1} ]] && f=${2} eval new_${fset}\[\${\#new_${fset}\[@]}]=\${f} done eval export ${fset}=\${new_${fset}\[*]} done return 0 } replace-cpu-flags() { local newcpu="$#" ; newcpu="${!newcpu}" while [ $# -gt 1 ] ; do # quote to make sure that no globbing is done (particularly on # ${oldcpu} prior to calling replace-flags replace-flags "-march=${1}" "-march=${newcpu}" replace-flags "-mcpu=${1}" "-mcpu=${newcpu}" replace-flags "-mtune=${1}" "-mtune=${newcpu}" shift done return 0 } is-flagq() { local x for x in ${CFLAGS} ${CXXFLAGS} ; do # Note this should work with globs like -mcpu=ultrasparc* if [[ ${x} == ${1} ]]; then return 0 fi done return 1 } is-flag() { if is-flagq ${1}; then echo true return 0 fi return 1 } is-ldflagq() { local x for x in ${LDFLAGS} ; do # Note this should work with globs like -mcpu=ultrasparc* if [[ ${x} == ${1} ]]; then return 0 fi done return 1 } is-ldflag() { if is-ldflagq ${1}; then echo true return 0 fi return 1 } filter-mfpmath() { local orig_mfpmath new_math prune_math # save the original -mfpmath flag orig_mfpmath="`get-flag -mfpmath`" # get the value of the current -mfpmath flag new_math=" `get-flag mfpmath | tr , ' '` " # figure out which math values are to be removed prune_math="" for prune_math in "$@" ; do new_math="${new_math/ ${prune_math} / }" done new_math="`echo ${new_math:1:${#new_math}-2} | tr ' ' ,`" if [ -z "${new_math}" ] ; then # if we're removing all user specified math values are # slated for removal, then we just filter the flag filter-flags ${orig_mfpmath} else # if we only want to filter some of the user specified # math values, then we replace the current flag replace-flags ${orig_mfpmath} -mfpmath=${new_math} fi return 0 } strip-flags() { local x y flag NEW_CFLAGS NEW_CXXFLAGS setup-allowed-flags local NEW_CFLAGS="" local NEW_CXXFLAGS="" # Allow unstable C[XX]FLAGS if we are using unstable profile ... if has ~$(tc-arch) ${ACCEPT_KEYWORDS} ; then ALLOWED_FLAGS="${ALLOWED_FLAGS} ${UNSTABLE_FLAGS}" fi set -f # disable pathname expansion for x in ${CFLAGS}; do for y in ${ALLOWED_FLAGS}; do flag=${x%%=*} if [ "${flag%%${y}}" = "" ] ; then NEW_CFLAGS="${NEW_CFLAGS} ${x}" break fi done done for x in ${CXXFLAGS}; do for y in ${ALLOWED_FLAGS}; do flag=${x%%=*} if [ "${flag%%${y}}" = "" ] ; then NEW_CXXFLAGS="${NEW_CXXFLAGS} ${x}" break fi done done # In case we filtered out all optimization flags fallback to -O2 if [ "${CFLAGS/-O}" != "${CFLAGS}" -a "${NEW_CFLAGS/-O}" = "${NEW_CFLAGS}" ]; then NEW_CFLAGS="${NEW_CFLAGS} -O2" fi if [ "${CXXFLAGS/-O}" != "${CXXFLAGS}" -a "${NEW_CXXFLAGS/-O}" = "${NEW_CXXFLAGS}" ]; then NEW_CXXFLAGS="${NEW_CXXFLAGS} -O2" fi set +f # re-enable pathname expansion export CFLAGS="${NEW_CFLAGS}" export CXXFLAGS="${NEW_CXXFLAGS}" return 0 } test-flag-PROG() { local comp=$1 local flags="$2" [[ -z ${comp} || -z ${flags} ]] && \ return 1 local PROG=$(tc-get${comp}) ${PROG} ${flags} -S -o /dev/null -xc /dev/null \ > /dev/null 2>&1 } # Returns true if C compiler support given flag test-flag-CC() { test-flag-PROG "CC" "$1"; } # Returns true if C++ compiler support given flag test-flag-CXX() { test-flag-PROG "CXX" "$1"; } test-flags-PROG() { local comp=$1 local flags local x shift [[ -z ${comp} ]] && \ return 1 for x in "$@" ; do test-flag-${comp} "${x}" && flags="${flags} ${x}" done echo "${flags}" # Just bail if we dont have any flags [[ -n ${flags} ]] } # Returns (echo's) the given flags supported by the C compiler test-flags-CC() { test-flags-PROG "CC" "$@"; } # Returns (echo's) the given flags supported by the C++ compiler test-flags-CXX() { test-flags-PROG "CXX" "$@"; } # Short-hand that should hopefully work for both C and C++ compiler, but # its really only present due to the append-flags() abomination. test-flags() { test-flags-CC "$@"; } # Depriciated, use test-flags() test_flag() { ewarn "test_flag: deprecated, please use test-flags()!" >&2 test-flags-CC "$@" } test_version_info() { if [[ $($(tc-getCC) --version 2>&1) == *$1* ]]; then return 0 else return 1 fi } strip-unsupported-flags() { local x NEW_CFLAGS NEW_CXXFLAGS for x in ${CFLAGS} ; do NEW_CFLAGS="${NEW_CFLAGS} $(test-flags ${x})" done for x in ${CXXFLAGS} ; do NEW_CXXFLAGS="${NEW_CXXFLAGS} $(test-flags ${x})" done export CFLAGS=${NEW_CFLAGS} export CXXFLAGS=${NEW_CXXFLAGS} } get-flag() { local f findflag="$1" # this code looks a little flaky but seems to work for # everything we want ... # for example, if CFLAGS="-march=i686": # `get-flag -march` == "-march=i686" # `get-flag march` == "i686" for f in ${CFLAGS} ${CXXFLAGS} ; do if [ "${f/${findflag}}" != "${f}" ] ; then printf "%s\n" "${f/-${findflag}=}" return 0 fi done return 1 } # DEPRECATED - use gcc-specs-relro or gcc-specs-now from toolchain-funcs has_hardened() { ewarn "has_hardened: deprecated, please use gcc-specs-{relro,now}()!" >&2 test_version_info Hardened && return 0 # The specs file wont exist unless gcc has GCC_SPECS support [[ -f ${GCC_SPECS} && ${GCC_SPECS} != ${GCC_SPECS/hardened/} ]] } # DEPRECATED - use gcc-specs-pie from toolchain-funcs # indicate whether PIC is set has_pic() { ewarn "has_pic: deprecated, please use gcc-specs-pie()!" >&2 [[ ${CFLAGS/-fPIC} != ${CFLAGS} || \ ${CFLAGS/-fpic} != ${CFLAGS} ]] || \ gcc-specs-pie } # DEPRECATED - use gcc-specs-pie from toolchain-funcs # indicate whether PIE is set has_pie() { ewarn "has_pie: deprecated, please use gcc-specs-pie()!" >&2 [[ ${CFLAGS/-fPIE} != ${CFLAGS} || \ ${CFLAGS/-fpie} != ${CFLAGS} ]] || \ gcc-specs-pie } # DEPRECATED - use gcc-specs-ssp from toolchain-funcs # indicate whether code for SSP is being generated for all functions has_ssp_all() { ewarn "has_ssp_all: deprecated, please use gcc-specs-ssp()!" >&2 # note; this matches only -fstack-protector-all [[ ${CFLAGS/-fstack-protector-all} != ${CFLAGS} || \ -n $(echo | $(tc-getCC) ${CFLAGS} -E -dM - | grep __SSP_ALL__) ]] || \ gcc-specs-ssp-all } # DEPRECATED - use gcc-specs-ssp from toolchain-funcs # indicate whether code for SSP is being generated has_ssp() { ewarn "has_ssp: deprecated, please use gcc-specs-ssp()!" >&2 # note; this matches both -fstack-protector and -fstack-protector-all [[ ${CFLAGS/-fstack-protector} != ${CFLAGS} || \ -n $(echo | $(tc-getCC) ${CFLAGS} -E -dM - | grep __SSP__) ]] || \ gcc-specs-ssp } has_m64() { # this doesnt test if the flag is accepted, it tests if the flag # actually -WORKS-. non-multilib gcc will take both -m32 and -m64! # please dont replace this function with test_flag in some future # clean-up! local temp="$(emktemp)" echo "int main() { return(0); }" > "${temp}".c MY_CC=$(tc-getCC) ${MY_CC/ .*/} -m64 -o "$(emktemp)" "${temp}".c > /dev/null 2>&1 local ret=$? rm -f "${temp}".c [[ ${ret} != 1 ]] && return 0 return 1 } has_m32() { # this doesnt test if the flag is accepted, it tests if the flag # actually -WORKS-. non-multilib gcc will take both -m32 and -m64! # please dont replace this function with test_flag in some future # clean-up! [ "$(tc-arch)" = "amd64" ] && has_multilib_profile && return 0 local temp=$(emktemp) echo "int main() { return(0); }" > "${temp}".c MY_CC=$(tc-getCC) ${MY_CC/ .*/} -m32 -o "$(emktemp)" "${temp}".c > /dev/null 2>&1 local ret=$? rm -f "${temp}".c [[ ${ret} != 1 ]] && return 0 return 1 } replace-sparc64-flags() { local SPARC64_CPUS="ultrasparc3 ultrasparc v9" if [ "${CFLAGS/mtune}" != "${CFLAGS}" ]; then for x in ${SPARC64_CPUS}; do CFLAGS="${CFLAGS/-mcpu=${x}/-mcpu=v8}" done else for x in ${SPARC64_CPUS}; do CFLAGS="${CFLAGS/-mcpu=${x}/-mcpu=v8 -mtune=${x}}" done fi if [ "${CXXFLAGS/mtune}" != "${CXXFLAGS}" ]; then for x in ${SPARC64_CPUS}; do CXXFLAGS="${CXXFLAGS/-mcpu=${x}/-mcpu=v8}" done else for x in ${SPARC64_CPUS}; do CXXFLAGS="${CXXFLAGS/-mcpu=${x}/-mcpu=v8 -mtune=${x}}" done fi export CFLAGS CXXFLAGS } append-ldflags() { [[ -z $* ]] && return 0 export LDFLAGS="${LDFLAGS} $*" return 0 } # Remove flags from LDFLAGS - it's up to the ebuild to filter # CFLAGS and CXXFLAGS via filter-flags if they need to. filter-ldflags() { _filter-var LDFLAGS "$@" return 0 } # Turn C style ldflags (-Wl,-foo) into straight ldflags - the results # are suitable for passing directly to 'ld'; note LDFLAGS is usually passed # to gcc where it needs the '-Wl,'. raw-ldflags() { local x input="$@" [[ -z ${input} ]] && input=${LDFLAGS} set -- for x in ${input} ; do x=${x#-Wl,} set -- "$@" ${x//,/ } done echo "$@" } # This is thanks to great work from Paul de Vrieze , # bug #9016. Also thanks to Jukka Salmi (bug #13907) for more # fixes. # # Export CFLAGS and CXXFLAGS that are compadible with gcc-2.95.3 gcc2-flags() { if [[ $(tc-arch) == "x86" || $(tc-arch) == "amd64" ]] ; then CFLAGS=${CFLAGS//-mtune=/-mcpu=} CXXFLAGS=${CXXFLAGS//-mtune=/-mcpu=} fi replace-cpu-flags k6-{2,3} k6 replace-cpu-flags athlon{,-{tbird,4,xp,mp}} i686 replace-cpu-flags pentium-mmx i586 replace-cpu-flags pentium{2,3,4} i686 replace-cpu-flags ev6{7,8} ev6 export CFLAGS CXXFLAGS } # Gets the flags needed for "NOW" binding bindnow-flags() { case $($(tc-getLD) -v 2>&1 &1