# Copyright 1999-2009 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/eclass/ruby-ng.eclass,v 1.34 2011/07/16 09:50:05 graaff Exp $ # # @ECLASS: ruby-ng.eclass # @MAINTAINER: # Ruby herd # # Author: Diego E. Pettenò # # Author: Alex Legler # # Author: Hans de Graaff # # @BLURB: An eclass for installing Ruby packages with proper support for multiple Ruby slots. # @DESCRIPTION: # The Ruby eclass is designed to allow an easier installation of Ruby packages # and their incorporation into the Gentoo Linux system. # # Currently available targets are: # * ruby18 - Ruby (MRI) 1.8.x # * ruby19 - Ruby (MRI) 1.9.x # * ree18 - Ruby Enterprise Edition 1.8.x # * jruby - JRuby # # This eclass does not define the implementation of the configure, # compile, test, or install phases. Instead, the default phases are # used. Specific implementations of these phases can be provided in # the ebuild either to be run for each Ruby implementation, or for all # Ruby implementations, as follows: # # * each_ruby_configure # * all_ruby_configure # @ECLASS-VARIABLE: USE_RUBY # @REQUIRED # @DESCRIPTION: # This variable contains a space separated list of targets (see above) a package # is compatible to. It must be set before the `inherit' call. There is no # default. All ebuilds are expected to set this variable. # @ECLASS-VARIABLE: RUBY_PATCHES # @DEFAULT_UNSET # @DESCRIPTION: # A String or Array of filenames of patches to apply to all implementations. # @ECLASS-VARIABLE: RUBY_OPTIONAL # @DESCRIPTION: # Set the value to "yes" to make the dependency on a Ruby interpreter optional. # @ECLASS-VARIABLE: RUBY_S # @DEFAULT_UNSET # @DESCRIPTION: # If defined this variable determines the source directory name after # unpacking. This defaults to the name of the package. Note that this # variable supports a wildcard mechanism to help with github tarballs # that contain the commit hash as part of the directory name. # @ECLASS-VARIABLE: RUBY_QA_ALLOWED_LIBS # @DEFAULT_UNSET # @DESCRIPTION: # If defined this variable contains a whitelist of shared objects that # are allowed to exist even if they don't link to libruby. This avoids # the QA check that makes this mandatory. This is most likely not what # you are looking for if you get the related "Missing links" QA warning, # since the proper fix is almost always to make sure the shared object # is linked against libruby. There are cases were this is not the case # and the shared object is generic code to be used in some other way # (e.g. selenium's firefox driver extension). When set this argument is # passed to "grep -E" to remove reporting of these shared objects. inherit eutils toolchain-funcs EXPORT_FUNCTIONS src_unpack src_prepare src_configure src_compile src_test src_install pkg_setup case ${EAPI} in 0|1) die "Unsupported EAPI=${EAPI} (too old) for ruby-ng.eclass" ;; 2|3) ;; 4) # S is no longer automatically assigned when it doesn't exist. S="${WORKDIR}" ;; *) die "Unknown EAPI=${EAPI} for ruby-ng.eclass" esac # @FUNCTION: ruby_implementation_depend # @USAGE: target [comparator [version]] # @RETURN: Package atom of a Ruby implementation to be used in dependencies. # @DESCRIPTION: # This function returns the formal package atom for a Ruby implementation. # # `target' has to be one of the valid values for USE_RUBY (see above) # # Set `comparator' and `version' to include a comparator (=, >=, etc.) and a # version string to the returned string ruby_implementation_depend() { local rubypn= local rubyslot= case $1 in ruby18) rubypn="dev-lang/ruby" rubyslot=":1.8" ;; ruby19) rubypn="dev-lang/ruby" rubyslot=":1.9" ;; ree18) rubypn="dev-lang/ruby-enterprise" rubyslot=":1.8" ;; jruby) rubypn="dev-java/jruby" rubyslot="" ;; *) die "$1: unknown Ruby implementation" esac echo "$2${rubypn}$3${rubyslot}" } # @FUNCTION: ruby_samelib # @RETURN: use flag string with current ruby implementations # @DESCRIPTION: # Convenience function to output the use dependency part of a # dependency. Used as a building block for ruby_add_rdepend() and # ruby_add_bdepend(), but may also be useful in an ebuild to specify # more complex dependencies. ruby_samelib() { local res= for _ruby_implementation in $USE_RUBY; do has -${_ruby_implementation} $@ || \ res="${res}ruby_targets_${_ruby_implementation}?," done echo "[${res%,}]" } _ruby_atoms_samelib_generic() { eshopts_push -o noglob echo "RUBYTARGET? (" for token in $*; do case "$token" in "||" | "(" | ")" | *"?") echo "${token}" ;; *]) echo "${token%[*}[RUBYTARGET,${token/*[}" ;; *) echo "${token}[RUBYTARGET]" ;; esac done echo ")" eshopts_pop } # @FUNCTION: ruby_implementation_command # @RETURN: the path to the given ruby implementation # @DESCRIPTION: # Not all implementations have the same command basename as the # target; namely Ruby Enterprise 1.8 uses ree18 and rubyee18 # respectively. This function translate between the two ruby_implementation_command() { local _ruby_name=$1 # Add all USE_RUBY values where the flag name diverts from the binary here case $1 in ree18) _ruby_name=rubyee18 ;; esac echo $(type -p ${_ruby_name} 2>/dev/null) } _ruby_atoms_samelib() { local atoms=$(_ruby_atoms_samelib_generic "$*") for _ruby_implementation in $USE_RUBY; do echo "${atoms//RUBYTARGET/ruby_targets_${_ruby_implementation}}" done } _ruby_wrap_conditions() { local conditions="$1" local atoms="$2" for condition in $conditions; do atoms="${condition}? ( ${atoms} )" done echo "$atoms" } # @FUNCTION: ruby_add_rdepend # @USAGE: dependencies # @DESCRIPTION: # Adds the specified dependencies, with use condition(s) to RDEPEND, # taking the current set of ruby targets into account. This makes sure # that all ruby dependencies of the package are installed for the same # ruby targets. Use this function for all ruby dependencies instead of # setting RDEPEND yourself. The list of atoms uses the same syntax as # normal dependencies. # # Note: runtime dependencies are also added as build-time test # dependencies. ruby_add_rdepend() { case $# in 1) ;; 2) [[ "${GENTOO_DEV}" == "yes" ]] && eqawarn "You can now use the usual syntax in ruby_add_rdepend for $CATEGORY/$PF" ruby_add_rdepend "$(_ruby_wrap_conditions "$1" "$2")" return ;; *) die "bad number of arguments to $0" ;; esac local dependency=$(_ruby_atoms_samelib "$1") RDEPEND="${RDEPEND} $dependency" # Add the dependency as a test-dependency since we're going to # execute the code during test phase. DEPEND="${DEPEND} test? ( ${dependency} )" has test "$IUSE" || IUSE="${IUSE} test" } # @FUNCTION: ruby_add_bdepend # @USAGE: dependencies # @DESCRIPTION: # Adds the specified dependencies, with use condition(s) to DEPEND, # taking the current set of ruby targets into account. This makes sure # that all ruby dependencies of the package are installed for the same # ruby targets. Use this function for all ruby dependencies instead of # setting DEPEND yourself. The list of atoms uses the same syntax as # normal dependencies. ruby_add_bdepend() { case $# in 1) ;; 2) [[ "${GENTOO_DEV}" == "yes" ]] && eqawarn "You can now use the usual syntax in ruby_add_bdepend for $CATEGORY/$PF" ruby_add_bdepend "$(_ruby_wrap_conditions "$1" "$2")" return ;; *) die "bad number of arguments to $0" ;; esac local dependency=$(_ruby_atoms_samelib "$1") DEPEND="${DEPEND} $dependency" RDEPEND="${RDEPEND}" } for _ruby_implementation in $USE_RUBY; do IUSE="${IUSE} ruby_targets_${_ruby_implementation}" # If you specify RUBY_OPTIONAL you also need to take care of # ruby useflag and dependency. if [[ ${RUBY_OPTIONAL} != "yes" ]]; then DEPEND="${DEPEND} ruby_targets_${_ruby_implementation}? ( $(ruby_implementation_depend $_ruby_implementation) )" RDEPEND="${RDEPEND} ruby_targets_${_ruby_implementation}? ( $(ruby_implementation_depend $_ruby_implementation) )" fi done _ruby_invoke_environment() { old_S=${S} case ${EAPI} in 4) if [ -z ${RUBY_S} ]; then sub_S=${P} else sub_S=${RUBY_S} fi ;; *) sub_S=${S#${WORKDIR}/} ;; esac # Special case, for the always-lovely GitHub fetches. With this, # we allow the star glob to just expand to whatever directory it's # called. if [[ ${sub_S} = *"*"* ]]; then pushd "${WORKDIR}"/all &>/dev/null sub_S=$(eval ls -d ${sub_S} 2>/dev/null) popd &>/dev/null fi environment=$1; shift my_WORKDIR="${WORKDIR}"/${environment} S="${my_WORKDIR}"/"${sub_S}" if [[ -d "${S}" ]]; then pushd "$S" &>/dev/null elif [[ -d "${my_WORKDIR}" ]]; then pushd "${my_WORKDIR}" &>/dev/null else pushd "${WORKDIR}" &>/dev/null fi ebegin "Running ${_PHASE:-${EBUILD_PHASE}} phase for $environment" "$@" popd &>/dev/null S=${old_S} } _ruby_each_implementation() { local invoked=no for _ruby_implementation in ${USE_RUBY}; do # only proceed if it's requested use ruby_targets_${_ruby_implementation} || continue RUBY=$(ruby_implementation_command ${_ruby_implementation}) invoked=yes if [[ -n "$1" ]]; then _ruby_invoke_environment ${_ruby_implementation} "$@" fi unset RUBY done [[ ${invoked} == "no" ]] && die "You need to select at least one Ruby implementation by setting RUBY_TARGETS in /etc/make.conf." } # @FUNCTION: ruby-ng_pkg_setup # @DESCRIPTION: # Check whether at least one ruby target implementation is present. ruby-ng_pkg_setup() { # This only checks that at least one implementation is present # before doing anything; by leaving the parameters empty we know # it's a special case. _ruby_each_implementation } # @FUNCTION: ruby-ng_src_unpack # @DESCRIPTION: # Unpack the source archive. ruby-ng_src_unpack() { mkdir "${WORKDIR}"/all pushd "${WORKDIR}"/all &>/dev/null # We don't support an each-unpack, it's either all or nothing! if type all_ruby_unpack &>/dev/null; then _ruby_invoke_environment all all_ruby_unpack else [[ -n ${A} ]] && unpack ${A} fi popd &>/dev/null } _ruby_apply_patches() { for patch in "${RUBY_PATCHES[@]}"; do if [ -f "${patch}" ]; then epatch "${patch}" elif [ -f "${FILESDIR}/${patch}" ]; then epatch "${FILESDIR}/${patch}" else die "Cannot find patch ${patch}" fi done # This is a special case: instead of executing just in the special # "all" environment, this will actually copy the effects on _all_ # the other environments, and is thus executed before the copy type all_ruby_prepare &>/dev/null && all_ruby_prepare } _ruby_source_copy() { # Until we actually find a reason not to, we use hardlinks, this # should reduce the amount of disk space that is wasted by this. cp -prl all ${_ruby_implementation} \ || die "Unable to copy ${_ruby_implementation} environment" } # @FUNCTION: ruby-ng_src_prepare # @DESCRIPTION: # Apply patches and prepare versions for each ruby target # implementation. Also carry out common clean up tasks. ruby-ng_src_prepare() { # Way too many Ruby packages are prepared on OSX without removing # the extra data forks, we do it here to avoid repeating it for # almost every other ebuild. find . -name '._*' -delete _ruby_invoke_environment all _ruby_apply_patches _PHASE="source copy" \ _ruby_each_implementation _ruby_source_copy if type each_ruby_prepare &>/dev/null; then _ruby_each_implementation each_ruby_prepare fi } # @FUNCTION: ruby-ng_src_configure # @DESCRIPTION: # Configure the package. ruby-ng_src_configure() { if type each_ruby_configure &>/dev/null; then _ruby_each_implementation each_ruby_configure fi type all_ruby_configure &>/dev/null && \ _ruby_invoke_environment all all_ruby_configure } # @FUNCTION: ruby-ng_src_compile # @DESCRIPTION: # Compile the package. ruby-ng_src_compile() { if type each_ruby_compile &>/dev/null; then _ruby_each_implementation each_ruby_compile fi type all_ruby_compile &>/dev/null && \ _ruby_invoke_environment all all_ruby_compile } # @FUNCTION: ruby-ng_src_test # @DESCRIPTION: # Run tests for the package. ruby-ng_src_test() { if type each_ruby_test &>/dev/null; then _ruby_each_implementation each_ruby_test fi type all_ruby_test &>/dev/null && \ _ruby_invoke_environment all all_ruby_test } _each_ruby_check_install() { local scancmd=scanelf # we have a Mach-O object here [[ ${CHOST} == *-darwin ]] && scancmd=scanmacho has "${EAPI}" 2 && ! use prefix && EPREFIX= local libruby_basename=$(${RUBY} -rrbconfig -e 'puts Config::CONFIG["LIBRUBY_SO"]') local libruby_soname=$(basename $(${scancmd} -F "%S#F" -qS "${EPREFIX}/usr/$(get_libdir)/${libruby_basename}") 2>/dev/null) local sitedir=$(${RUBY} -rrbconfig -e 'puts Config::CONFIG["sitedir"]') local sitelibdir=$(${RUBY} -rrbconfig -e 'puts Config::CONFIG["sitelibdir"]') # Look for wrong files in sitedir # if [[ -d "${D}${sitedir}" ]]; then # local f=$(find "${D}${sitedir}" -mindepth 1 -maxdepth 1 -not -wholename "${D}${sitelibdir}") # if [[ -n ${f} ]]; then # eerror "Found files in sitedir, outsite sitelibdir:" # eerror "${f}" # die "Misplaced files in sitedir" # fi # fi # The current implementation lacks libruby (i.e.: jruby) [[ -z ${libruby_soname} ]] && return 0 # Check also the gems directory, since we could be installing compiled # extensions via ruby-fakegem; make sure to check only in sitelibdir, since # that's what changes between two implementations (otherwise you'd get false # positives now that Ruby 1.9.2 installs with the same sitedir as 1.8) ${scancmd} -qnR "${D}${sitelibdir}" "${D}${sitelibdir/site_ruby/gems}" \ | fgrep -v "${libruby_soname}" \ | grep -E -v "${RUBY_QA_ALLOWED_LIBS}" \ > "${T}"/ruby-ng-${_ruby_implementation}-mislink.log if [[ -s "${T}"/ruby-ng-${_ruby_implementation}-mislink.log ]]; then ewarn "Extensions installed for ${_ruby_implementation} with missing links to ${libruby_soname}" ewarn $(< "${T}"/ruby-ng-${_ruby_implementation}-mislink.log ) die "Missing links to ${libruby_soname}" fi } # @FUNCTION: ruby-ng_src_install # @DESCRIPTION: # Install the package for each ruby target implementation. ruby-ng_src_install() { if type each_ruby_install &>/dev/null; then _ruby_each_implementation each_ruby_install fi type all_ruby_install &>/dev/null && \ _ruby_invoke_environment all all_ruby_install _PHASE="check install" \ _ruby_each_implementation _each_ruby_check_install } # @FUNCTION: ruby_rbconfig_value # @USAGE: rbconfig item # @RETURN: Returns the value of the given rbconfig item of the Ruby interpreter in ${RUBY}. ruby_rbconfig_value() { echo $(${RUBY} -rrbconfig -e "puts Config::CONFIG['$1']") } # @FUNCTION: doruby # @USAGE: file [file...] # @DESCRIPTION: # Installs the specified file(s) into the sitelibdir of the Ruby interpreter in ${RUBY}. doruby() { [[ -z ${RUBY} ]] && die "\$RUBY is not set" has "${EAPI}" 2 && ! use prefix && EPREFIX= ( # don't want to pollute calling env sitelibdir=$(ruby_rbconfig_value 'sitelibdir') insinto ${sitelibdir#${EPREFIX}} insopts -m 0644 doins "$@" ) || die "failed to install $@" } # @FUNCTION: ruby_get_libruby # @RETURN: The location of libruby*.so belonging to the Ruby interpreter in ${RUBY}. ruby_get_libruby() { ${RUBY} -rrbconfig -e 'puts File.join(Config::CONFIG["libdir"], Config::CONFIG["LIBRUBY"])' } # @FUNCTION: ruby_get_hdrdir # @RETURN: The location of the header files belonging to the Ruby interpreter in ${RUBY}. ruby_get_hdrdir() { local rubyhdrdir=$(ruby_rbconfig_value 'rubyhdrdir') if [[ "${rubyhdrdir}" = "nil" ]] ; then rubyhdrdir=$(ruby_rbconfig_value 'archdir') fi echo "${rubyhdrdir}" } # @FUNCTION: ruby_get_version # @RETURN: The version of the Ruby interpreter in ${RUBY}, or what 'ruby' points to. ruby_get_version() { local ruby=${RUBY:-$(type -p ruby 2>/dev/null)} echo $(${ruby} -e 'puts RUBY_VERSION') } # @FUNCTION: ruby_get_implementation # @RETURN: The implementation of the Ruby interpreter in ${RUBY}, or what 'ruby' points to. ruby_get_implementation() { local ruby=${RUBY:-$(type -p ruby 2>/dev/null)} case $(${ruby} --version) in *Enterprise*) echo "ree" ;; *jruby*) echo "jruby" ;; *) echo "mri" ;; esac }