# Base eclass for Java packages # # Copyright (c) 2004-2005, Thomas Matthijs # Copyright (c) 2004, Karl Trygve Kalleberg # Copyright (c) 2004-2011, Gentoo Foundation # # Licensed under the GNU General Public License, v2 # # $Header: /var/cvsroot/gentoo-x86/eclass/java-utils-2.eclass,v 1.157 2015/04/04 21:04:49 chewi Exp $ # @ECLASS: java-utils-2.eclass # @MAINTAINER: # java@gentoo.org # @AUTHOR: # Thomas Matthijs , Karl Trygve Kalleberg # @BLURB: Base eclass for Java packages # @DESCRIPTION: # This eclass provides functionality which is used by java-pkg-2.eclass, # java-pkg-opt-2.eclass and java-ant-2 eclass, as well as from ebuilds. # # This eclass should not be inherited this directly from an ebuild. Instead, # you should inherit java-pkg-2 for Java packages or java-pkg-opt-2 for packages # that have optional Java support. In addition you can inherit java-ant-2 for # Ant-based packages. inherit eutils versionator multilib IUSE="elibc_FreeBSD" # Make sure we use java-config-2 export WANT_JAVA_CONFIG="2" # @VARIABLE: JAVA_PKG_PORTAGE_DEP # @INTERNAL # @DESCRIPTION: # The version of portage we need to function properly. Previously it was # portage with phase hooks support but now we use a version with proper env # saving. For EAPI 2 we have new enough stuff so let's have cleaner deps. has "${EAPI}" 0 1 && JAVA_PKG_PORTAGE_DEP=">=sys-apps/portage-2.1.2.7" # @VARIABLE: JAVA_PKG_E_DEPEND # @INTERNAL # @DESCRIPTION: # This is a convience variable to be used from the other java eclasses. This is # the version of java-config we want to use. Usually the latest stable version # so that ebuilds can use new features without depending on specific versions. JAVA_PKG_E_DEPEND=">=dev-java/java-config-2.1.9-r1 ${JAVA_PKG_PORTAGE_DEP}" has source ${JAVA_PKG_IUSE} && JAVA_PKG_E_DEPEND="${JAVA_PKG_E_DEPEND} source? ( app-arch/zip )" # @ECLASS-VARIABLE: JAVA_PKG_WANT_BOOTCLASSPATH # @DEFAULT_UNSET # @DESCRIPTION: # The version of bootclasspath the package needs to work. Translates to a proper # dependency. The bootclasspath can then be obtained by java-ant_rewrite-bootclasspath if [[ -n "${JAVA_PKG_WANT_BOOTCLASSPATH}" ]]; then if [[ "${JAVA_PKG_WANT_BOOTCLASSPATH}" == "1.5" ]]; then JAVA_PKG_E_DEPEND="${JAVA_PKG_E_DEPEND} >=dev-java/gnu-classpath-0.98-r1:0.98" else eerror "Unknown value of JAVA_PKG_WANT_BOOTCLASSPATH" # since die in global scope doesn't work, this will make repoman fail JAVA_PKG_E_DEPEND="${JAVA_PKG_E_DEPEND} BAD_JAVA_PKG_WANT_BOOTCLASSPATH" fi fi # @ECLASS-VARIABLE: JAVA_PKG_ALLOW_VM_CHANGE # @DESCRIPTION: # Allow this eclass to change the active VM? # If your system VM isn't sufficient for the package, the build will fail # instead of trying to switch to another VM. # # Overriding the default can be useful for testing specific VMs locally, but # should not be used in the final ebuild. JAVA_PKG_ALLOW_VM_CHANGE=${JAVA_PKG_ALLOW_VM_CHANGE:="yes"} # @ECLASS-VARIABLE: JAVA_PKG_FORCE_VM # @DEFAULT_UNSET # @DESCRIPTION: # Explicitly set a particular VM to use. If its not valid, it'll fall back to # whatever /etc/java-config-2/build/jdk.conf would elect to use. # # Should only be used for testing and debugging. # # Example: use sun-jdk-1.5 to emerge foo: # @CODE # JAVA_PKG_FORCE_VM=sun-jdk-1.5 emerge foo # @CODE # @ECLASS-VARIABLE: JAVA_PKG_WANT_BUILD_VM # @DEFAULT_UNSET # @DESCRIPTION: # A list of VM handles to choose a build VM from. If the list contains the # currently active VM use that one, otherwise step through the list till a # usable/installed VM is found. # # This allows to use an explicit list of JDKs in DEPEND instead of a virtual. # Users of this variable must make sure at least one of the listed handles is # covered by DEPEND. # Requires JAVA_PKG_WANT_SOURCE and JAVA_PKG_WANT_TARGET to be set as well. # @ECLASS-VARIABLE: JAVA_PKG_WANT_SOURCE # @DEFAULT_UNSET # @DESCRIPTION: # Specify a non-standard Java source version for compilation (via javac -source # parameter or Ant equivalent via build.xml rewriting done by java-ant-2 eclass). # Normally this is determined from the jdk version specified in DEPEND. # See java-pkg_get-source function below. # # Should generally only be used for testing and debugging. # # Use 1.4 source to emerge baz # @CODE # JAVA_PKG_WANT_SOURCE=1.4 emerge baz # @CODE # @ECLASS-VARIABLE: JAVA_PKG_WANT_TARGET # @DEFAULT_UNSET # @DESCRIPTION: # Same as JAVA_PKG_WANT_SOURCE (see above) but for javac -target parameter, # which affects the version of generated bytecode. # Normally this is determined from the jre/jdk version specified in RDEPEND. # See java-pkg_get-target function below. # # Should generallyonly be used for testing and debugging. # # emerge bar to be compatible with 1.3 # @CODE # JAVA_PKG_WANT_TARGET=1.3 emerge bar # @CODE # @VARIABLE: JAVA_PKG_COMPILER_DIR # @INTERNAL # @DESCRIPTION: # Directory where compiler settings are saved, without trailing slash. # You probably shouldn't touch this variable except local testing. JAVA_PKG_COMPILER_DIR=${JAVA_PKG_COMPILER_DIR:="/usr/share/java-config-2/compiler"} # @VARIABLE: JAVA_PKG_COMPILERS_CONF # @INTERNAL # @DESCRIPTION: # Path to file containing information about which compiler to use. # Can be overloaded, but it should be overloaded only for local testing. JAVA_PKG_COMPILERS_CONF=${JAVA_PKG_COMPILERS_CONF:="/etc/java-config-2/build/compilers.conf"} # @ECLASS-VARIABLE: JAVA_PKG_FORCE_COMPILER # @INTERNAL # @DEFAULT_UNSET # @DESCRIPTION: # Explicitly set a list of compilers to choose from. This is normally read from # JAVA_PKG_COMPILERS_CONF. # # Useful for local testing. # # Use jikes and javac, in that order # @CODE # JAVA_PKG_FORCE_COMPILER="jikes javac" # @CODE # @ECLASS-VARIABLE: JAVA_PKG_FORCE_ANT_TASKS # @DEFAULT_UNSET # @DESCRIPTION: # An $IFS separated list of ant tasks. Can be set in environment before calling # emerge/ebuild to override variables set in ebuild, mainly for testing before # putting the resulting (WANT_)ANT_TASKS into ebuild. Affects only ANT_TASKS in # eant() call, not the dependencies specified in WANT_ANT_TASKS. # # @CODE # JAVA_PKG_FORCE_ANT_TASKS="ant-junit ant-trax" \ # ebuild foo.ebuild compile # @CODE # TODO document me JAVA_PKG_QA_VIOLATIONS=0 # @FUNCTION: java-pkg_doexamples # @USAGE: [--subdir ] [ ...] # @DESCRIPTION: # Installs given arguments to /usr/share/doc/${PF}/examples # If you give it only one parameter and it is a directory it will install # everything in that directory to the examples directory. # # @CODE # Parameters: # --subdir - If the examples need a certain directory structure # $* - list of files to install # # Examples: # java-pkg_doexamples demo # java-pkg_doexamples demo/* examples/* # @CODE java-pkg_doexamples() { debug-print-function ${FUNCNAME} $* [[ ${#} -lt 1 ]] && die "At least one argument needed" java-pkg_check-phase install java-pkg_init_paths_ local dest=/usr/share/doc/${PF}/examples if [[ ${1} == --subdir ]]; then local dest=${dest}/${2} dodir ${dest} shift 2 fi if [[ ${#} = 1 && -d ${1} ]]; then ( # dont want to pollute calling env insinto "${dest}" doins -r ${1}/* ) || die "Installing examples failed" else ( # dont want to pollute calling env insinto "${dest}" doins -r "$@" ) || die "Installing examples failed" fi # Let's make a symlink to the directory we have everything else under dosym "${dest}" "${JAVA_PKG_SHAREPATH}/examples" || die } # @FUNCTION: java-pkg_dojar # @USAGE: [ ...] # @DESCRIPTION: # Installs any number of jars. # Jar's will be installed into /usr/share/${PN}(-${SLOT})/lib/ by default. # You can use java-pkg_jarinto to change this path. # You should never install a jar with a package version in the filename. # Instead, use java-pkg_newjar defined below. # # @CODE # java-pkg_dojar dist/${PN}.jar dist/${PN}-core.jar # @CODE # # @param $* - list of jars to install java-pkg_dojar() { debug-print-function ${FUNCNAME} $* [[ ${#} -lt 1 ]] && die "At least one argument needed" java-pkg_check-phase install java-pkg_init_paths_ # Create JARDEST if it doesn't exist dodir ${JAVA_PKG_JARDEST} local jar # for each jar for jar in "${@}"; do local jar_basename=$(basename "${jar}") java-pkg_check-versioned-jar ${jar_basename} # check if it exists if [[ -e "${jar}" ]] ; then # Don't overwrite if jar has already been installed with the same # name local dest="${D}${JAVA_PKG_JARDEST}/${jar_basename}" if [[ -e "${dest}" ]]; then ewarn "Overwriting ${dest}" fi # install it into JARDEST if it's a non-symlink if [[ ! -L "${jar}" ]] ; then #but first check class version when in strict mode. is-java-strict && java-pkg_verify-classes "${jar}" INSDESTTREE="${JAVA_PKG_JARDEST}" \ doins "${jar}" || die "failed to install ${jar}" java-pkg_append_ JAVA_PKG_CLASSPATH "${JAVA_PKG_JARDEST}/${jar_basename}" debug-print "installed ${jar} to ${D}${JAVA_PKG_JARDEST}" # make a symlink to the original jar if it's symlink else # TODO use dosym, once we find something that could use it # -nichoj ln -s "$(readlink "${jar}")" "${D}${JAVA_PKG_JARDEST}/${jar_basename}" debug-print "${jar} is a symlink, linking accordingly" fi else die "${jar} does not exist" fi done java-pkg_do_write_ } # @FUNCTION: depend-java-query # @INTERNAL # @DESCRIPTION: # Wrapper for the depend-java-query binary to enable passing USE in env. # Using env variables keeps this eclass working with java-config versions that # do not handle use flags. depend-java-query() { # Used to have a which call here but it caused endless loops for some people # that had some weird bashrc voodoo for which. USE="${USE}" /usr/bin/depend-java-query "${@}" } # @FUNCTION: java-pkg_regjar # @USAGE: # @DESCRIPTION: # Records an already installed (in ${D}) jar in the package.env # This would mostly be used if the package has make or a custom script to # install things. # # WARNING: # if you want to use shell expansion, you have to use ${D}/... as the for in # this function will not be able to expand the path, here's an example: # # @CODE # java-pkg_regjar ${D}/opt/my-java/lib/*.jar # @CODE # # TODO should we be making sure the jar is present on ${D} or wherever? java-pkg_regjar() { debug-print-function ${FUNCNAME} $* java-pkg_check-phase install [[ ${#} -lt 1 ]] && die "at least one argument needed" java-pkg_init_paths_ local jar jar_dir jar_file for jar in "${@}"; do # TODO use java-pkg_check-versioned-jar if [[ -e "${jar}" || -e "${D}${jar}" ]]; then [[ -d "${jar}" || -d "${D}${jar}" ]] \ && die "Called ${FUNCNAME} on a directory $*" #check that class version correct when in strict mode is-java-strict && java-pkg_verify-classes "${jar}" # nelchael: we should strip ${D} in this case too, here's why: # imagine such call: # java-pkg_regjar ${D}/opt/java/*.jar # such call will fall into this case (-e ${jar}) and will # record paths with ${D} in package.env java-pkg_append_ JAVA_PKG_CLASSPATH "${jar#${D}}" else if [[ ${jar} = *\** ]]; then eerror "The argument ${jar} to ${FUNCNAME}" eerror "has * in it. If you want it to glob in" eerror '${D} add ${D} to the argument.' fi debug-print "${jar} or ${D}${jar} not found" die "${jar} does not exist" fi done java-pkg_do_write_ } # @FUNCTION: java-pkg_newjar # @USAGE: [] # @DESCRIPTION: # Installs a jar with a new name (defaults to $PN.jar) # # For example, installs a versioned jar without the version java-pkg_newjar() { debug-print-function ${FUNCNAME} $* local original_jar="${1}" local new_jar="${2:-${PN}.jar}" local new_jar_dest="${T}/${new_jar}" [[ -z ${original_jar} ]] && die "Must specify a jar to install" [[ ! -f ${original_jar} ]] \ && die "${original_jar} does not exist or is not a file!" rm -f "${new_jar_dest}" || die "Failed to remove ${new_jar_dest}" cp "${original_jar}" "${new_jar_dest}" \ || die "Failed to copy ${original_jar} to ${new_jar_dest}" java-pkg_dojar "${new_jar_dest}" } # @FUNCTION: java-pkg_addcp # @USAGE: # @DESCRIPTION: # Add something to the package's classpath. For jars, you should use dojar, # newjar, or regjar. This is typically used to add directories to the classpath. # The parameters of this function are appended to JAVA_PKG_CLASSPATH java-pkg_addcp() { java-pkg_append_ JAVA_PKG_CLASSPATH "${@}" java-pkg_do_write_ } # @FUNCTION: java-pkg_doso # @USAGE: [...] # @DESCRIPTION: # Installs any number of JNI libraries # They will be installed into /usr/lib by default, but java-pkg_sointo # can be used change this path # # @CODE # Example: # java-pkg_doso *.so # @CODE java-pkg_doso() { debug-print-function ${FUNCNAME} $* java-pkg_check-phase install [[ ${#} -lt 1 ]] && die "${FUNCNAME} requires at least one argument" java-pkg_init_paths_ local lib # for each lib for lib in "$@" ; do # if the lib exists... if [[ -e "${lib}" ]] ; then # install if it isn't a symlink if [[ ! -L "${lib}" ]] ; then INSDESTTREE="${JAVA_PKG_LIBDEST}" \ INSOPTIONS="${LIBOPTIONS}" \ doins "${lib}" || die "failed to install ${lib}" java-pkg_append_ JAVA_PKG_LIBRARY "${JAVA_PKG_LIBDEST}" debug-print "Installing ${lib} to ${JAVA_PKG_LIBDEST}" # otherwise make a symlink to the symlink's origin else dosym "$(readlink "${lib}")" "${JAVA_PKG_LIBDEST}/${lib##*/}" debug-print "${lib} is a symlink, linking accordantly" fi # otherwise die else die "${lib} does not exist" fi done java-pkg_do_write_ } # @FUNCTION: java-pkg_regso # @USAGE: [...] # @DESCRIPTION: # Registers an already installed JNI library in package.env. # # @CODE # Parameters: # $@ - JNI libraries to register # # Example: # java-pkg_regso *.so /path/*.so # @CODE java-pkg_regso() { debug-print-function ${FUNCNAME} $* java-pkg_check-phase install [[ ${#} -lt 1 ]] && die "${FUNCNAME} requires at least one argument" java-pkg_init_paths_ local lib target_dir for lib in "$@" ; do # Check the absolute path of the lib if [[ -e "${lib}" ]] ; then target_dir="$(java-pkg_expand_dir_ ${lib})" java-pkg_append_ JAVA_PKG_LIBRARY "/${target_dir#${D}}" # Check the path of the lib relative to ${D} elif [[ -e "${D}${lib}" ]]; then target_dir="$(java-pkg_expand_dir_ ${D}${lib})" java-pkg_append_ JAVA_PKG_LIBRARY "${target_dir}" else die "${lib} does not exist" fi done java-pkg_do_write_ } # @FUNCTION: java-pkg_jarinto # @USAGE: # @DESCRIPTION: # Changes the path jars are installed into via subsequent java-pkg_dojar calls. java-pkg_jarinto() { debug-print-function ${FUNCNAME} $* JAVA_PKG_JARDEST="${1}" } # @FUNCTION: java-pkg_sointo # @USAGE: # @DESCRIPTION: # Changes the path that JNI libraries are installed into via subsequent # java-pkg_doso calls. java-pkg_sointo() { debug-print-function ${FUNCNAME} $* JAVA_PKG_LIBDEST="${1}" } # @FUNCTION: java-pkg_dohtml # @USAGE: [...] # @DESCRIPTION: # Install Javadoc HTML documentation. Usage of java-pkg_dojavadoc is preferred. # # @CODE # java-pkg_dohtml dist/docs/ # @CODE java-pkg_dohtml() { debug-print-function ${FUNCNAME} $* [[ ${#} -lt 1 ]] && die "At least one argument required for ${FUNCNAME}" # from /usr/lib/portage/bin/dohtml -h # -f Set list of allowed extensionless file names. dohtml -f package-list "$@" # this probably shouldn't be here but it provides # a reasonable way to catch # docs for all of the # old ebuilds. java-pkg_recordjavadoc } # @FUNCTION: java-pkg_dojavadoc # @USAGE: [--symlink destination] # @DESCRIPTION: # Installs javadoc documentation. This should be controlled by the doc use flag. # # @CODE # Parameters: # $1: optional --symlink creates to symlink like this for html # documentation bundles. # $2: - The javadoc root directory. # # Examples: # java-pkg_dojavadoc docs/api # java-pkg_dojavadoc --symlink apidocs docs/api # @CODE java-pkg_dojavadoc() { debug-print-function ${FUNCNAME} $* # For html documentation bundles that link to Javadoc local symlink if [[ ${1} = --symlink ]]; then symlink=${2} shift 2 fi local dir="$1" local dest=/usr/share/doc/${PF}/html # QA checks java-pkg_check-phase install java-pkg_init_paths_ [[ -z "${dir}" ]] && die "Must specify a directory!" [[ ! -d "${dir}" ]] && die "${dir} does not exist, or isn't a directory!" if [[ ! -e "${dir}/index.html" ]]; then local msg="No index.html in javadoc directory" ewarn "${msg}" is-java-strict && die "${msg}" fi if [[ -e ${D}/${dest}/api ]]; then eerror "${dest} already exists. Will not overwrite." die "${dest}" fi # Renaming to match our directory layout local dir_to_install="${dir}" if [[ "$(basename "${dir}")" != "api" ]]; then dir_to_install="${T}/api" # TODO use doins cp -r "${dir}" "${dir_to_install}" || die "cp failed" fi # Actual installation java-pkg_dohtml -r "${dir_to_install}" # Let's make a symlink to the directory we have everything else under dosym ${dest}/api "${JAVA_PKG_SHAREPATH}/api" || die if [[ ${symlink} ]]; then debug-print "symlinking ${dest}/{api,${symlink}}" dosym ${dest}/{api,${symlink}} || die fi } # @FUNCTION: java-pkg_dosrc # @USAGE: [...] # @DESCRIPTION: # Installs a zip containing the source for a package, so it can used in # from IDEs like eclipse and netbeans. # Ebuild needs to DEPEND on app-arch/zip to use this. It also should be controlled by USE=source. # # @CODE # Example: # java-pkg_dosrc src/* # @CODE # TODO change so it the arguments it takes are the base directories containing # source -nichoj # # TODO should we be able to handle multiple calls to dosrc? -nichoj # # TODO maybe we can take an existing zip/jar? -nichoj # # FIXME apparently this fails if you give it an empty directories java-pkg_dosrc() { debug-print-function ${FUNCNAME} $* [ ${#} -lt 1 ] && die "At least one argument needed" java-pkg_check-phase install [[ ${#} -lt 1 ]] && die "At least one argument needed" if ! [[ ${DEPEND} = *app-arch/zip* ]]; then local msg="${FUNCNAME} called without app-arch/zip in DEPEND" java-pkg_announce-qa-violation ${msg} fi java-pkg_init_paths_ local zip_name="${PN}-src.zip" local zip_path="${T}/${zip_name}" local dir for dir in "${@}"; do local dir_parent=$(dirname "${dir}") local dir_name=$(basename "${dir}") pushd ${dir_parent} > /dev/null || die "problem entering ${dir_parent}" zip -q -r ${zip_path} ${dir_name} -i '*.java' local result=$? # 12 means zip has nothing to do if [[ ${result} != 12 && ${result} != 0 ]]; then die "failed to zip ${dir_name}" fi popd >/dev/null done # Install the zip INSDESTTREE=${JAVA_PKG_SOURCESPATH} \ doins ${zip_path} || die "Failed to install source" JAVA_SOURCES="${JAVA_PKG_SOURCESPATH}/${zip_name}" java-pkg_do_write_ } # @FUNCTION: java-pkg_dolauncher # @USAGE: [options] # @DESCRIPTION: # Make a wrapper script to lauch/start this package # If necessary, the wrapper will switch to the appropriate VM. # # Can be called without parameters if the package installs only one jar # that has the Main-class attribute set. The wrapper will be named ${PN}. # # @CODE # Parameters: # $1 - filename of launcher to create # $2 - options, as follows: # --main the.main.class.to.start # --jar /the/jar/too/launch.jar or just .jar # --java_args 'Extra arguments to pass to java' # --pkg_args 'Extra arguments to pass to the package' # --pwd Directory the launcher changes to before executing java # -into Directory to install the launcher to, instead of /usr/bin # -pre Prepend contents of this file to the launcher # @CODE java-pkg_dolauncher() { debug-print-function ${FUNCNAME} $* java-pkg_check-phase install java-pkg_init_paths_ if [[ ${#} = 0 ]]; then local name="${PN}" else local name="${1}" shift fi # TODO rename to launcher local target="${T}/${name}" local var_tmp="${T}/launcher_variables_tmp" local target_dir pre # Process the other the rest of the arguments while [[ -n "${1}" && -n "${2}" ]]; do local var="${1}" value="${2}" if [[ "${var:0:2}" == "--" ]]; then local var=${var:2} echo "gjl_${var}=\"${value}\"" >> "${var_tmp}" local gjl_${var}="${value}" elif [[ "${var}" == "-into" ]]; then target_dir="${value}" elif [[ "${var}" == "-pre" ]]; then pre="${value}" fi shift 2 done # Test if no --jar and --main arguments were given and # in that case check if the package only installs one jar # and use that jar. if [[ -z "${gjl_jar}" && -z "${gjl_main}" ]]; then local cp="${JAVA_PKG_CLASSPATH}" if [[ "${cp/:}" = "${cp}" && "${cp%.jar}" != "${cp}" ]]; then echo "gjl_jar=\"${JAVA_PKG_CLASSPATH}\"" >> "${var_tmp}" else local msg="Not enough information to create a launcher given." msg="${msg} Please give --jar or --main argument to ${FUNCNAME}." die "${msg}" fi fi # Write the actual script echo "#!/bin/bash" > "${target}" if [[ -n "${pre}" ]]; then if [[ -f "${pre}" ]]; then cat "${pre}" >> "${target}" else die "-pre specified file '${pre}' does not exist" fi fi echo "gjl_package=${JAVA_PKG_NAME}" >> "${target}" cat "${var_tmp}" >> "${target}" rm -f "${var_tmp}" echo "source /usr/share/java-config-2/launcher/launcher.bash" >> "${target}" if [[ -n "${target_dir}" ]]; then DESTTREE="${target_dir}" dobin "${target}" local ret=$? return ${ret} else dobin "${target}" fi } # @FUNCTION: java-pkg_dowar # @DESCRIPTION: # Install war files. # TODO document java-pkg_dowar() { debug-print-function ${FUNCNAME} $* # Check for arguments [[ ${#} -lt 1 ]] && die "At least one argument needed" java-pkg_check-phase install java-pkg_init_paths_ local war for war in $* ; do local warpath # TODO evaluate if we want to handle symlinks differently -nichoj # Check for symlink if [[ -L "${war}" ]] ; then cp "${war}" "${T}" warpath="${T}$(basename "${war}")" # Check for directory # TODO evaluate if we want to handle directories differently -nichoj elif [[ -d "${war}" ]] ; then echo "dowar: warning, skipping directory ${war}" continue else warpath="${war}" fi # Install those files like you mean it INSOPTIONS="-m 0644" \ INSDESTTREE=${JAVA_PKG_WARDEST} \ doins ${warpath} done } # @FUNCTION: java-pkg_recordjavadoc # @INTERNAL # @DESCRIPTION: # Scan for JavaDocs, and record their existence in the package.env file # TODO make sure this in the proper section java-pkg_recordjavadoc() { debug-print-function ${FUNCNAME} $* # the find statement is important # as some packages include multiple trees of javadoc JAVADOC_PATH="$(find ${D}/usr/share/doc/ -name allclasses-frame.html -printf '%h:')" # remove $D - TODO: check this is ok with all cases of the above JAVADOC_PATH="${JAVADOC_PATH//${D}}" if [[ -n "${JAVADOC_PATH}" ]] ; then debug-print "javadocs found in ${JAVADOC_PATH%:}" java-pkg_do_write_ else debug-print "No javadocs found" fi } # @FUNCTION: java-pkg_jar-from # @USAGE: [--build-only] [--with-dependencies] [--virtual] [--into dir] [] [] # @DESCRIPTION: # Makes a symlink to a jar from a certain package # A lot of java packages include dependencies in a lib/ directory # You can use this function to replace these bundled dependencies. # The dependency is recorded into package.env DEPEND line, unless "--build-only" # is passed as the very first argument, for jars that have to be present only # at build time and are not needed on runtime (junit testing etc). # # @CODE # Example: get all jars from xerces slot 2 # java-pkg_jar-from xerces-2 # # Example: get a specific jar from xerces slot 2 # java-pkg_jar-from xerces-2 xml-apis.jar # # Example: get a specific jar from xerces slot 2, and name it diffrently # java-pkg_jar-from xerces-2 xml-apis.jar xml.jar # # Example: get junit.jar which is needed only for building # java-pkg_jar-from --build-only junit junit.jar # @CODE # # @CODE # Parameters # --build-only - makes the jar(s) not added into package.env DEPEND line. # (assumed automatically when called inside src_test) # --with-dependencies - get jars also from requested package's dependencies # transitively. # --virtual - Packages passed to this function are to be handled as virtuals # and will not have individual jar dependencies recorded. # --into $dir - symlink jar(s) into $dir (must exist) instead of . # $1 - Package to get jars from, or comma-separated list of packages in # case other parameters are not used. # $2 - jar from package. If not specified, all jars will be used. # $3 - When a single jar is specified, destination filename of the # symlink. Defaults to the name of the jar. # @CODE # TODO could probably be cleaned up a little java-pkg_jar-from() { debug-print-function ${FUNCNAME} $* local build_only="" local destdir="." local deep="" local virtual="" local record_jar="" [[ "${EBUILD_PHASE}" == "test" ]] && build_only="build" while [[ "${1}" == --* ]]; do if [[ "${1}" = "--build-only" ]]; then build_only="build" elif [[ "${1}" = "--with-dependencies" ]]; then deep="--with-dependencies" elif [[ "${1}" = "--virtual" ]]; then virtual="true" elif [[ "${1}" = "--into" ]]; then destdir="${2}" shift else die "java-pkg_jar-from called with unknown parameter: ${1}" fi shift done local target_pkg="${1}" target_jar="${2}" destjar="${3}" [[ -z ${target_pkg} ]] && die "Must specify a package" if [[ "${EAPI}" == "1" ]]; then target_pkg="${target_pkg//:/-}" fi # default destjar to the target jar [[ -z "${destjar}" ]] && destjar="${target_jar}" local error_msg="There was a problem getting the classpath for ${target_pkg}." local classpath classpath="$(java-config ${deep} --classpath=${target_pkg})" [[ $? != 0 ]] && die ${error_msg} # When we have commas this functions is called to bring jars from multiple # packages. This affects recording of dependencencies performed later # which expects one package only, so we do it here. if [[ ${target_pkg} = *,* ]]; then for pkg in ${target_pkg//,/ }; do java-pkg_ensure-dep "${build_only}" "${pkg}" [[ -z "${build_only}" ]] && java-pkg_record-jar_ "${pkg}" done # setting this disables further record-jar_ calls later record_jar="true" else java-pkg_ensure-dep "${build_only}" "${target_pkg}" fi # Record the entire virtual as a dependency so that # no jars are missed. if [[ -z "${build_only}" && -n "${virtual}" ]]; then java-pkg_record-jar_ "${target_pkg}" # setting this disables further record-jars_ calls later record_jar="true" fi pushd ${destdir} > /dev/null \ || die "failed to change directory to ${destdir}" local jar for jar in ${classpath//:/ }; do local jar_name=$(basename "${jar}") if [[ ! -f "${jar}" ]] ; then debug-print "${jar} from ${target_pkg} does not exist" die "Installation problems with jars in ${target_pkg} - is it installed?" fi # If no specific target jar was indicated, link it if [[ -z "${target_jar}" ]] ; then [[ -f "${target_jar}" ]] && rm "${target_jar}" ln -snf "${jar}" \ || die "Failed to make symlink from ${jar} to ${jar_name}" if [[ -z "${record_jar}" ]]; then if [[ -z "${build_only}" ]]; then java-pkg_record-jar_ "${target_pkg}" "${jar}" else java-pkg_record-jar_ --build-only "${target_pkg}" "${jar}" fi fi # otherwise, if the current jar is the target jar, link it elif [[ "${jar_name}" == "${target_jar}" ]] ; then [[ -f "${destjar}" ]] && rm "${destjar}" ln -snf "${jar}" "${destjar}" \ || die "Failed to make symlink from ${jar} to ${destjar}" if [[ -z "${record_jar}" ]]; then if [[ -z "${build_only}" ]]; then java-pkg_record-jar_ "${target_pkg}" "${jar}" else java-pkg_record-jar_ --build-only "${target_jar}" "${jar}" fi fi popd > /dev/null return 0 fi done popd > /dev/null # if no target was specified, we're ok if [[ -z "${target_jar}" ]] ; then return 0 # otherwise, die bitterly else die "Failed to find ${target_jar:-jar} in ${target_pkg}" fi } # @FUNCTION: java-pkg_jarfrom # @DESCRIPTION: # See java-pkg_jar-from java-pkg_jarfrom() { java-pkg_jar-from "$@" } # @FUNCTION: java-pkg_getjars # @USAGE: [--build-only] [--with-dependencies] [,...] # @DESCRIPTION: # Get the classpath provided by any number of packages # Among other things, this can be passed to 'javac -classpath' or 'ant -lib'. # The providing packages are recorded as dependencies into package.env DEPEND # line, unless "--build-only" is passed as the very first argument, for jars # that have to be present only at build time and are not needed on runtime # (junit testing etc). # # @CODE # Example: Get the classpath for xerces-2 and xalan, # java-pkg_getjars xerces-2,xalan # # Example Return: # /usr/share/xerces-2/lib/xml-apis.jar:/usr/share/xerces-2/lib/xmlParserAPIs.jar:/usr/share/xalan/lib/xalan.jar # # # Parameters: # --build-only - makes the jar(s) not added into package.env DEPEND line. # (assumed automatically when called inside src_test) # --with-dependencies - get jars also from requested package's dependencies # transitively. # $1 - list of packages to get jars from # (passed to java-config --classpath) # @CODE java-pkg_getjars() { debug-print-function ${FUNCNAME} $* local build_only="" local deep="" [[ "${EBUILD_PHASE}" == "test" ]] && build_only="build" while [[ "${1}" == --* ]]; do if [[ "${1}" = "--build-only" ]]; then build_only="build" elif [[ "${1}" = "--with-dependencies" ]]; then deep="--with-dependencies" else die "java-pkg_jar-from called with unknown parameter: ${1}" fi shift done [[ ${#} -ne 1 ]] && die "${FUNCNAME} takes only one argument besides --*" local pkgs="${1}" if [[ "${EAPI}" == "1" ]]; then pkgs="${pkgs//:/-}" fi jars="$(java-config ${deep} --classpath=${pkgs})" [[ $? != 0 ]] && die "java-config --classpath=${pkgs} failed" debug-print "${pkgs}:${jars}" for pkg in ${pkgs//,/ }; do java-pkg_ensure-dep "${build_only}" "${pkg}" done for pkg in ${pkgs//,/ }; do if [[ -z "${build_only}" ]]; then java-pkg_record-jar_ "${pkg}" else java-pkg_record-jar_ --build-only "${pkg}" fi done echo "${jars}" } # @FUNCTION: java-pkg_getjar # @USAGE: [--build-only] [--virtual] # @DESCRIPTION: # Get the complete path of a single jar from a package # The providing package is recorded as runtime dependency into package.env # DEPEND line, unless "--build-only" is passed as the very first argument, for # jars that have to be present only at build time and are not needed on runtime # (junit testing etc). # # @CODE # Example: # java-pkg_getjar xerces-2 xml-apis.jar # returns # /usr/share/xerces-2/lib/xml-apis.jar # # Parameters: # --build-only - makes the jar not added into package.env DEPEND line. # --virtual - Packages passed to this function are to be handled as virtuals # and will not have individual jar dependencies recorded. # $1 - package to use # $2 - jar to get # @CODE java-pkg_getjar() { debug-print-function ${FUNCNAME} $* local build_only="" local virtual="" local record_jar="" [[ "${EBUILD_PHASE}" == "test" ]] && build_only="build" while [[ "${1}" == --* ]]; do if [[ "${1}" = "--build-only" ]]; then build_only="build" elif [[ "${1}" == "--virtual" ]]; then virtual="true" else die "java-pkg_getjar called with unknown parameter: ${1}" fi shift done [[ ${#} -ne 2 ]] && die "${FUNCNAME} takes only two arguments besides --*" local pkg="${1}" target_jar="${2}" jar if [[ "${EAPI}" == "1" ]]; then pkg="${pkg//:/-}" fi [[ -z ${pkg} ]] && die "Must specify package to get a jar from" [[ -z ${target_jar} ]] && die "Must specify jar to get" local error_msg="Could not find classpath for ${pkg}. Are you sure its installed?" local classpath classpath=$(java-config --classpath=${pkg}) [[ $? != 0 ]] && die ${error_msg} java-pkg_ensure-dep "${build_only}" "${pkg}" # Record the package(Virtual) as a dependency and then set build_only # So that individual jars are not recorded. if [[ -n "${virtual}" ]]; then if [[ -z "${build_only}" ]]; then java-pkg_record-jar_ "${pkg}" else java-pkg_record-jar_ --build-only "${pkg}" fi record_jar="true" fi for jar in ${classpath//:/ }; do if [[ ! -f "${jar}" ]] ; then die "Installation problem with jar ${jar} in ${pkg} - is it installed?" fi if [[ "$(basename ${jar})" == "${target_jar}" ]] ; then # Only record jars that aren't build-only if [[ -z "${record_jar}" ]]; then if [[ -z "${build_only}" ]]; then java-pkg_record-jar_ "${pkg}" "${jar}" else java-pkg_record-jar_ --build-only "${pkg}" "${jar}" fi fi echo "${jar}" return 0 fi done die "Could not find ${target_jar} in ${pkg}" return 1 } # @FUNCTION: java-pkg_register-dependency # @USAGE: [,...] [] # @DESCRIPTION: # Registers runtime dependency on a package, list of packages, or a single jar # from a package, into package.env DEPEND line. Can only be called in # src_install phase. # Intended for binary packages where you don't need to symlink the jars or get # their classpath during build. As such, the dependencies only need to be # specified in ebuild's RDEPEND, and should be omitted in DEPEND. # # @CODE # Parameters: # $1 - comma-separated list of packages, or a single package # $2 - if param $1 is a single package, optionally specify the jar # to depend on # # Examples: # Record the dependency on whole xerces-2 and xalan, # java-pkg_register-dependency xerces-2,xalan # # Record the dependency on ant.jar from ant-core # java-pkg_register-dependency ant-core ant.jar # @CODE # # Note: Passing both list of packages as the first parameter AND specifying the # jar as the second is not allowed and will cause the function to die. We assume # that there's more chance one passes such combination as a mistake, than that # there are more packages providing identically named jar without class # collisions. java-pkg_register-dependency() { debug-print-function ${FUNCNAME} $* java-pkg_check-phase install [[ ${#} -gt 2 ]] && die "${FUNCNAME} takes at most two arguments" local pkgs="${1}" local jar="${2}" [[ -z "${pkgs}" ]] && die "${FUNCNAME} called with no package(s) specified" if [[ "${EAPI}" == "1" ]]; then pkgs="${pkgs//:/-}" fi if [[ -z "${jar}" ]]; then for pkg in ${pkgs//,/ }; do java-pkg_ensure-dep runtime "${pkg}" java-pkg_record-jar_ "${pkg}" done else [[ ${pkgs} == *,* ]] && \ die "${FUNCNAME} called with both package list and jar name" java-pkg_ensure-dep runtime "${pkgs}" java-pkg_record-jar_ "${pkgs}" "${jar}" fi java-pkg_do_write_ } # @FUNCTION: java-pkg_register-optional-dependency # @USAGE: [,...] [] # @DESCRIPTION: # Registers optional runtime dependency on a package, list of packages, or a # single jar from a package, into package.env OPTIONAL_DEPEND line. Can only be # called in src_install phase. # Intended for packages that can use other packages when those are in classpath. # Will be put on classpath by launcher if they are installed. Typical case is # JDBC implementations for various databases. It's better than having USE flag # for each implementation triggering hard dependency. # # @CODE # Parameters: # $1 - comma-separated list of packages, or a single package # $2 - if param $1 is a single package, optionally specify the jar to depend on # # Example: # Record the optional dependency on some jdbc providers # java-pkg_register-optional-dependency jdbc-jaybird,jtds-1.2,jdbc-mysql # @CODE # # Note: Passing both list of packages as the first parameter AND specifying the # jar as the second is not allowed and will cause the function to die. We assume # that there's more chance one passes such combination as a mistake, than that # there are more packages providing identically named jar without class # collisions. java-pkg_register-optional-dependency() { debug-print-function ${FUNCNAME} $* java-pkg_check-phase install [[ ${#} -gt 2 ]] && die "${FUNCNAME} takes at most two arguments" local pkgs="${1}" local jar="${2}" [[ -z "${pkgs}" ]] && die "${FUNCNAME} called with no package(s) specified" if [[ "${EAPI}" == "1" ]]; then pkgs="${pkgs//:/-}" fi if [[ -z "${jar}" ]]; then for pkg in ${pkgs//,/ }; do java-pkg_record-jar_ --optional "${pkg}" done else [[ ${pkgs} == *,* ]] && \ die "${FUNCNAME} called with both package list and jar name" java-pkg_record-jar_ --optional "${pkgs}" "${jar}" fi java-pkg_do_write_ } # @FUNCTION: java-pkg_register-environment-variable # @USAGE: # @DESCRIPTION: # Register an arbitrary environment variable into package.env. The gjl launcher # for this package or any package depending on this will export it into # environement before executing java command. # Must only be called in src_install phase. JAVA_PKG_EXTRA_ENV="${T}/java-pkg-extra-env" JAVA_PKG_EXTRA_ENV_VARS="" java-pkg_register-environment-variable() { debug-print-function ${FUNCNAME} $* java-pkg_check-phase install [[ ${#} != 2 ]] && die "${FUNCNAME} takes two arguments" echo "${1}=\"${2}\"" >> ${JAVA_PKG_EXTRA_ENV} JAVA_PKG_EXTRA_ENV_VARS="${JAVA_PKG_EXTRA_ENV_VARS} ${1}" java-pkg_do_write_ } # @FUNCTION: java-pkg_get-bootclasspath # @USAGE: # @DESCRIPTION: # Returns classpath of a given bootclasspath-providing package version. # # @param $1 - the version of bootclasspath (e.g. 1.5), 'auto' for bootclasspath # of the current JDK java-pkg_get-bootclasspath() { local version="${1}" local bcp case "${version}" in auto) bcp="$(java-config -g BOOTCLASSPATH)" ;; 1.5) bcp="$(java-pkg_getjars --build-only gnu-classpath-0.98)" ;; *) eerror "unknown parameter of java-pkg_get-bootclasspath" die "unknown parameter of java-pkg_get-bootclasspath" ;; esac echo "${bcp}" } # This function reads stdin, and based on that input, figures out how to # populate jars from the filesystem. # Need to figure out a good way of making use of this, ie be able to use a # string that was built instead of stdin # NOTE: this isn't quite ready for primetime. #java-pkg_populate-jars() { # local line # # read line # while [[ -n "${line}" ]]; do # # Ignore comments # [[ ${line%%#*} == "" ]] && continue # # # get rid of any spaces # line="${line// /}" # # # format: path=jarinfo # local path=${line%%=*} # local jarinfo=${line##*=} # # # format: jar@package # local jar=${jarinfo%%@*}.jar # local package=${jarinfo##*@} # if [[ -n ${replace_only} ]]; then # [[ ! -f $path ]] && die "No jar exists at ${path}" # fi # if [[ -n ${create_parent} ]]; then # local parent=$(dirname ${path}) # mkdir -p "${parent}" # fi # java-pkg_jar-from "${package}" "${jar}" "${path}" # # read line # done #} # @FUNCTION: java-pkg_find-normal-jars # @USAGE: [] # @DESCRIPTION: # Find the files with suffix .jar file in the given directory (default: $WORKDIR) java-pkg_find-normal-jars() { local dir=$1 [[ "${dir}" ]] || dir="${WORKDIR}" local found for jar in $(find "${dir}" -name "*.jar" -type f); do echo "${jar}" found="true" done [[ "${found}" ]] return $? } # @FUNCTION: java-pkg_ensure-no-bundled-jars # @DESCRIPTION: # Try to locate bundled jar files in ${WORKDIR} and die if found. # This function should be called after WORKDIR has been populated with symlink # to system jar files or bundled jars removed. java-pkg_ensure-no-bundled-jars() { debug-print-function ${FUNCNAME} $* local bundled_jars=$(java-pkg_find-normal-jars) if [[ -n ${bundled_jars} ]]; then echo "Bundled jars found:" local jar for jar in ${bundled_jars}; do echo $(pwd)${jar/./} done die "Bundled jars found!" fi } # @FUNCTION: java-pkg_ensure-vm-version-sufficient # @INTERNAL # @DESCRIPTION: # Checks if we have a sufficient VM and dies if we don't. java-pkg_ensure-vm-version-sufficient() { debug-print-function ${FUNCNAME} $* if ! java-pkg_is-vm-version-sufficient; then debug-print "VM is not suffient" eerror "Current Java VM cannot build this package" einfo "Please use java-config -S to set the correct one" die "Active Java VM cannot build this package" fi } # @FUNCTION: java-pkg_is-vm-version-sufficient # @INTERNAL # @DESCRIPTION: # @RETURN: zero - VM is sufficient; non-zero - VM is not sufficient java-pkg_is-vm-version-sufficient() { debug-print-function ${FUNCNAME} $* depend-java-query --is-sufficient "${DEPEND}" > /dev/null return $? } # @FUNCTION: java-pkg_ensure-vm-version-eq # @INTERNAL # @DESCRIPTION: # Die if the current VM is not equal to the argument passed. # # @param $@ - Desired VM version to ensure java-pkg_ensure-vm-version-eq() { debug-print-function ${FUNCNAME} $* if ! java-pkg_is-vm-version-eq $@ ; then debug-print "VM is not suffient" eerror "This package requires a Java VM version = $@" einfo "Please use java-config -S to set the correct one" die "Active Java VM too old" fi } # @FUNCTION: java-pkg_is-vm-version-eq # @USAGE: # @INTERNAL # @RETURN: zero - VM versions are equal; non-zero - VM version are not equal java-pkg_is-vm-version-eq() { debug-print-function ${FUNCNAME} $* local needed_version="$@" [[ -z "${needed_version}" ]] && die "need an argument" local vm_version="$(java-pkg_get-vm-version)" vm_version="$(get_version_component_range 1-2 "${vm_version}")" needed_version="$(get_version_component_range 1-2 "${needed_version}")" if [[ -z "${vm_version}" ]]; then debug-print "Could not get JDK version from DEPEND" return 1 else if [[ "${vm_version}" == "${needed_version}" ]]; then debug-print "Detected a JDK(${vm_version}) = ${needed_version}" return 0 else debug-print "Detected a JDK(${vm_version}) != ${needed_version}" return 1 fi fi } # @FUNCTION: java-pkg_ensure-vm-version-ge # @INTERNAL # @DESCRIPTION: # Die if the current VM is not greater than the desired version # # @param $@ - VM version to compare current to java-pkg_ensure-vm-version-ge() { debug-print-function ${FUNCNAME} $* if ! java-pkg_is-vm-version-ge "$@" ; then debug-print "vm is not suffient" eerror "This package requires a Java VM version >= $@" einfo "Please use java-config -S to set the correct one" die "Active Java VM too old" fi } # @FUNCTION: java-pkg_is-vm-version-ge # @INTERNAL # @DESCRIPTION: # @CODE # Parameters: # $@ - VM version to compare current VM to # @CODE # @RETURN: zero - current VM version is greater than checked version; # non-zero - current VM version is not greater than checked version java-pkg_is-vm-version-ge() { debug-print-function ${FUNCNAME} $* local needed_version=$@ local vm_version=$(java-pkg_get-vm-version) if [[ -z "${vm_version}" ]]; then debug-print "Could not get JDK version from DEPEND" return 1 else if version_is_at_least "${needed_version}" "${vm_version}"; then debug-print "Detected a JDK(${vm_version}) >= ${needed_version}" return 0 else debug-print "Detected a JDK(${vm_version}) < ${needed_version}" return 1 fi fi } java-pkg_set-current-vm() { export GENTOO_VM=${1} } java-pkg_get-current-vm() { echo ${GENTOO_VM} } java-pkg_current-vm-matches() { has $(java-pkg_get-current-vm) ${@} return $? } # @FUNCTION: java-pkg_get-source # @DESCRIPTION: # Determines what source version should be used, for passing to -source. # Unless you want to break things you probably shouldn't set _WANT_SOURCE # # @RETURN: string - Either the lowest possible source, or JAVA_PKG_WANT_SOURCE java-pkg_get-source() { echo ${JAVA_PKG_WANT_SOURCE:-$(depend-java-query --get-lowest "${DEPEND} ${RDEPEND}")} } # @FUNCTION: java-pkg_get-target # @DESCRIPTION: # Determines what target version should be used, for passing to -target. # If you don't care about lower versions, you can set _WANT_TARGET to the # version of your JDK. # # @RETURN: string - Either the lowest possible target, or JAVA_PKG_WANT_TARGET java-pkg_get-target() { echo ${JAVA_PKG_WANT_TARGET:-$(depend-java-query --get-lowest "${DEPEND} ${RDEPEND}")} } # @FUNCTION: java-pkg_get-javac # @DESCRIPTION: # Returns the compiler executable java-pkg_get-javac() { debug-print-function ${FUNCNAME} $* local compiler="${GENTOO_COMPILER}" local compiler_executable if [[ "${compiler}" = "javac" ]]; then # nothing fancy needs to be done for javac compiler_executable="javac" else # for everything else, try to determine from an env file local compiler_env="/usr/share/java-config-2/compiler/${compiler}" if [[ -f ${compiler_env} ]]; then local old_javac=${JAVAC} unset JAVAC # try to get value of JAVAC compiler_executable="$(source ${compiler_env} 1>/dev/null 2>&1; echo ${JAVAC})" export JAVAC=${old_javac} if [[ -z ${compiler_executable} ]]; then echo "JAVAC is empty or undefined in ${compiler_env}" return 1 fi # check that it's executable if [[ ! -x ${compiler_executable} ]]; then echo "${compiler_executable} doesn't exist, or isn't executable" return 1 fi else echo "Could not find environment file for ${compiler}" return 1 fi fi echo ${compiler_executable} } # @FUNCTION: java-pkg_javac-args # @DESCRIPTION: # If an ebuild uses javac directly, instead of using ejavac, it should call this # to know what -source/-target to use. # # @RETURN: string - arguments to pass to javac, complete with -target and -source java-pkg_javac-args() { debug-print-function ${FUNCNAME} $* local want_source="$(java-pkg_get-source)" local want_target="$(java-pkg_get-target)" local source_str="-source ${want_source}" local target_str="-target ${want_target}" debug-print "want source: ${want_source}" debug-print "want target: ${want_target}" if [[ -z "${want_source}" || -z "${want_target}" ]]; then debug-print "could not find valid -source/-target values for javac" echo "Could not find valid -source/-target values for javac" return 1 else if java-pkg_is-vm-version-ge "1.4"; then echo "${source_str} ${target_str}" else echo "${target_str}" fi fi } # @FUNCTION: java-pkg_get-jni-cflags # @DESCRIPTION: # Echos the CFLAGS for JNI compilations java-pkg_get-jni-cflags() { local flags="-I${JAVA_HOME}/include" local platform="linux" use elibc_FreeBSD && platform="freebsd" # TODO do a check that the directories are valid flags="${flags} -I${JAVA_HOME}/include/${platform}" echo ${flags} } java-pkg_ensure-gcj() { # was enforcing sys-devel/gcc[gcj] die "${FUNCNAME} was removed. Use use-deps available as of EAPI 2 instead. #261562" } java-pkg_ensure-test() { # was enforcing USE=test if FEATURES=test die "${FUNCNAME} was removed. Package mangers handle this already. #278965" } # @FUNCTION: java-pkg_register-ant-task # @USAGE: [--version x.y] [] # @DESCRIPTION: # Register this package as ant task, so that ant will load it when no specific # ANT_TASKS are specified. Note that even without this registering, all packages # specified in ANT_TASKS will be loaded. Mostly used by the actual ant tasks # packages, but can be also used by other ebuilds that used to symlink their # .jar into /usr/share/ant-core/lib to get autoloaded, for backwards # compatibility. # # @CODE # Parameters # --version x.y Register only for ant version x.y (otherwise for any ant # version). Used by the ant-* packages to prevent loading of mismatched # ant-core ant tasks after core was updated, before the tasks are updated, # without a need for blockers. # $1 Name to register as. Defaults to JAVA_PKG_NAME ($PN[-$SLOT]) # @CODE java-pkg_register-ant-task() { local TASKS_DIR="tasks" # check for --version x.y parameters while [[ -n "${1}" && -n "${2}" ]]; do local var="${1#--}" local val="${2}" if [[ "${var}" == "version" ]]; then TASKS_DIR="tasks-${val}" else die "Unknown parameter passed to java-pkg_register-ant-tasks: ${1} ${2}" fi shift 2 done local TASK_NAME="${1:-${JAVA_PKG_NAME}}" dodir /usr/share/ant/${TASKS_DIR} touch "${D}/usr/share/ant/${TASKS_DIR}/${TASK_NAME}" } # @FUNCTION: java-pkg_ant-tasks-depend # @INTERNAL # @DESCRIPTION: # Translates the WANT_ANT_TASKS variable into valid dependencies. java-pkg_ant-tasks-depend() { debug-print-function ${FUNCNAME} ${WANT_ANT_TASKS} if [[ -n "${WANT_ANT_TASKS}" ]]; then local DEP="" for i in ${WANT_ANT_TASKS} do if [[ ${i} = ant-* ]]; then DEP="${DEP}dev-java/${i} " elif [[ ${i} = */*:* ]]; then DEP="${DEP}${i} " else echo "Invalid atom in WANT_ANT_TASKS: ${i}" return 1 fi done echo ${DEP} return 0 else return 0 fi } # @FUNCTION: ejunit_ # @INTERNAL # @DESCRIPTION: # Internal Junit wrapper function. Makes it easier to run the tests and checks for # dev-java/junit in DEPEND. Launches the tests using junit.textui.TestRunner. # @CODE # Parameters: # $1 - junit package (junit or junit-4) # $2 - -cp or -classpath # $3 - classpath; junit and recorded dependencies get appended # $@ - the rest of the parameters are passed to java # @CODE ejunit_() { debug-print-function ${FUNCNAME} $* local pkgs if [[ -f ${JAVA_PKG_DEPEND_FILE} ]]; then for atom in $(cat ${JAVA_PKG_DEPEND_FILE} | tr : ' '); do pkgs=${pkgs},$(echo ${atom} | sed -re "s/^.*@//") done fi local junit=${1} shift 1 local cp=$(java-pkg_getjars --with-dependencies ${junit}${pkgs}) if [[ ${1} = -cp || ${1} = -classpath ]]; then cp="${2}:${cp}" shift 2 else cp=".:${cp}" fi local runner=junit.textui.TestRunner if [[ "${junit}" == "junit-4" ]] ; then runner=org.junit.runner.JUnitCore fi debug-print "Calling: java -cp \"${cp}\" -Djava.awt.headless=true ${runner} ${@}" java -cp "${cp}" -Djava.awt.headless=true ${runner} "${@}" || die "Running junit failed" } # @FUNCTION: ejunit # @DESCRIPTION: # Junit wrapper function. Makes it easier to run the tests and checks for # dev-java/junit in DEPEND. Launches the tests using org.junit.runner.JUnitCore. # # @CODE # Parameters: # $1 - -cp or -classpath # $2 - classpath; junit and recorded dependencies get appended # $@ - the rest of the parameters are passed to java # # Examples: # ejunit -cp build/classes org.blinkenlights.jid3.test.AllTests # ejunit org.blinkenlights.jid3.test.AllTests # ejunit org.blinkenlights.jid3.test.FirstTest org.blinkenlights.jid3.test.SecondTest # @CODE ejunit() { debug-print-function ${FUNCNAME} $* ejunit_ "junit" "${@}" } # @FUNCTION: ejunit4 # @DESCRIPTION: # Junit4 wrapper function. Makes it easier to run the tests and checks for # dev-java/junit:4 in DEPEND. Launches the tests using junit.textui.TestRunner. # # @CODE # Parameters: # $1 - -cp or -classpath # $2 - classpath; junit and recorded dependencies get appended # $@ - the rest of the parameters are passed to java # # Examples: # ejunit4 -cp build/classes org.blinkenlights.jid3.test.AllTests # ejunit4 org.blinkenlights.jid3.test.AllTests # ejunit4 org.blinkenlights.jid3.test.FirstTest \ # org.blinkenlights.jid3.test.SecondTest # @CODE ejunit4() { debug-print-function ${FUNCNAME} $* ejunit_ "junit-4" "${@}" } # @FUNCTION: java-utils-2_src_prepare # @DESCRIPTION: # src_prepare Searches for bundled jars # Don't call directly, but via java-pkg-2_src_prepare! java-utils-2_src_prepare() { [[ ${EBUILD_PHASE} == prepare ]] && java-pkg_func-exists java_prepare && java_prepare # Remember that eant will call this unless called via Portage if [[ ! -e "${T}/java-utils-2_src_prepare-run" ]] && is-java-strict; then echo "Searching for bundled jars:" java-pkg_find-normal-jars || echo "None found." echo "Searching for bundled classes (no output if none found):" find "${WORKDIR}" -name "*.class" echo "Search done." fi touch "${T}/java-utils-2_src_prepare-run" } # @FUNCTION: java-utils-2_pkg_preinst # @DESCRIPTION: # pkg_preinst Searches for missing and unneeded dependencies # Don't call directly, but via java-pkg-2_pkg_preinst! java-utils-2_pkg_preinst() { if is-java-strict; then if has_version dev-java/java-dep-check; then [[ -e "${JAVA_PKG_ENV}" ]] || return local output=$(GENTOO_VM= java-dep-check --image "${D}" "${JAVA_PKG_ENV}") if [[ ${output} && has_version <=dev-java/java-dep-check-0.2 ]]; then ewarn "Possibly unneeded dependencies found in package.env:" for dep in ${output}; do ewarn "\t${dep}" done fi if [[ ${output} && has_version >dev-java/java-dep-check-0.2 ]]; then ewarn "${output}" fi else eerror "Install dev-java/java-dep-check for dependency checking" fi fi } # @FUNCTION: eant # @USAGE: # @DESCRIPTION: # Ant wrapper function. Will use the appropriate compiler, based on user-defined # compiler. Will also set proper ANT_TASKS from the variable ANT_TASKS, # variables: # # @CODE # Variables: # EANT_GENTOO_CLASSPATH - calls java-pkg_getjars for the value and adds to the # gentoo.classpath property. Be sure to call java-ant_rewrite-classpath in src_unpack. # EANT_NEEDS_TOOLS - add tools.jar to the gentoo.classpath. Should only be used # for build-time purposes, the dependency is not recorded to # package.env! # ANT_TASKS - used to determine ANT_TASKS before calling Ant. # @CODE eant() { debug-print-function ${FUNCNAME} $* if [[ ${EBUILD_PHASE} = compile ]]; then java-ant-2_src_configure java-utils-2_src_prepare fi if ! has java-ant-2 ${INHERITED}; then local msg="You should inherit java-ant-2 when using eant" java-pkg_announce-qa-violation "${msg}" fi local antflags="-Dnoget=true -Dmaven.mode.offline=true -Dbuild.sysclasspath=ignore" java-pkg_init-compiler_ local compiler="${GENTOO_COMPILER}" local compiler_env="${JAVA_PKG_COMPILER_DIR}/${compiler}" local build_compiler="$(source ${compiler_env} 1>/dev/null 2>&1; echo ${ANT_BUILD_COMPILER})" if [[ "${compiler}" != "javac" && -z "${build_compiler}" ]]; then die "ANT_BUILD_COMPILER undefined in ${compiler_env}" fi if [[ ${compiler} != "javac" ]]; then antflags="${antflags} -Dbuild.compiler=${build_compiler}" # Figure out any extra stuff to put on the classpath for compilers aside # from javac # ANT_BUILD_COMPILER_DEPS should be something that could be passed to # java-config -p local build_compiler_deps="$(source ${JAVA_PKG_COMPILER_DIR}/${compiler} 1>/dev/null 2>&1; echo ${ANT_BUILD_COMPILER_DEPS})" if [[ -n ${build_compiler_deps} ]]; then antflags="${antflags} -lib $(java-config -p ${build_compiler_deps})" fi fi for arg in "${@}"; do if [[ ${arg} = -lib ]]; then if is-java-strict; then eerror "You should not use the -lib argument to eant because it will fail" eerror "with JAVA_PKG_STRICT. Please use for example java-pkg_jar-from" eerror "or ant properties to make dependencies available." eerror "For ant tasks use WANT_ANT_TASKS or ANT_TASKS from." eerror "split ant (>=dev-java/ant-core-1.7)." die "eant -lib is deprecated/forbidden" else echo "eant -lib is deprecated. Turn JAVA_PKG_STRICT on for" echo "more info." fi fi done # parse WANT_ANT_TASKS for atoms local want_ant_tasks for i in ${WANT_ANT_TASKS}; do if [[ ${i} = */*:* ]]; then i=${i#*/} i=${i%:0} want_ant_tasks+="${i/:/-} " else want_ant_tasks+="${i} " fi done # default ANT_TASKS to WANT_ANT_TASKS, if ANT_TASKS is not set explicitly ANT_TASKS="${ANT_TASKS:-${want_ant_tasks% }}" # override ANT_TASKS with JAVA_PKG_FORCE_ANT_TASKS if it's set ANT_TASKS="${JAVA_PKG_FORCE_ANT_TASKS:-${ANT_TASKS}}" # if ant-tasks is not set by ebuild or forced, use none ANT_TASKS="${ANT_TASKS:-none}" # at this point, ANT_TASKS should be "all", "none" or explicit list if [[ "${ANT_TASKS}" == "all" ]]; then einfo "Using all available ANT_TASKS" elif [[ "${ANT_TASKS}" == "none" ]]; then einfo "Disabling all optional ANT_TASKS" else einfo "Using following ANT_TASKS: ${ANT_TASKS}" fi export ANT_TASKS [[ -n ${JAVA_PKG_DEBUG} ]] && antflags="${antflags} --execdebug -debug" [[ -n ${PORTAGE_QUIET} ]] && antflags="${antflags} -q" local gcp="${EANT_GENTOO_CLASSPATH}" local getjarsarg="" if [[ ${EBUILD_PHASE} = "test" ]]; then antflags="${antflags} -DJunit.present=true" [[ ${ANT_TASKS} = *ant-junit* ]] && gcp="${gcp} junit" getjarsarg="--with-dependencies" else antflags="${antflags} -Dmaven.test.skip=true" fi local cp for atom in ${gcp}; do cp="${cp}:$(java-pkg_getjars ${getjarsarg} ${atom})" done [[ -n "${EANT_NEEDS_TOOLS}" ]] && cp="${cp}:$(java-config --tools)" if [[ ${cp} ]]; then # It seems ant does not like single quotes around ${cp} cp=${cp#:} [[ ${EANT_GENTOO_CLASSPATH_EXTRA} ]] && \ cp="${cp}:${EANT_GENTOO_CLASSPATH_EXTRA}" antflags="${antflags} -Dgentoo.classpath=\"${cp}\"" fi [[ -n ${JAVA_PKG_DEBUG} ]] && echo ant ${antflags} "${@}" debug-print "Calling ant (GENTOO_VM: ${GENTOO_VM}): ${antflags} ${@}" ant ${antflags} "${@}" || die "eant failed" } # @FUNCTION: ejavac # @USAGE: # @DESCRIPTION: # Javac wrapper function. Will use the appropriate compiler, based on # /etc/java-config/compilers.conf ejavac() { debug-print-function ${FUNCNAME} $* java-pkg_init-compiler_ local compiler_executable compiler_executable=$(java-pkg_get-javac) if [[ ${?} != 0 ]]; then eerror "There was a problem determining compiler: ${compiler_executable}" die "get-javac failed" fi local javac_args javac_args="$(java-pkg_javac-args)" if [[ ${?} != 0 ]]; then eerror "There was a problem determining JAVACFLAGS: ${javac_args}" die "java-pkg_javac-args failed" fi [[ -n ${JAVA_PKG_DEBUG} ]] && echo ${compiler_executable} ${javac_args} "${@}" ${compiler_executable} ${javac_args} "${@}" || die "ejavac failed" } # @FUNCTION: ejavadoc # @USAGE: # @DESCRIPTION: # javadoc wrapper function. Will set some flags based on the VM version # due to strict javadoc rules in 1.8. ejavadoc() { debug-print-function ${FUNCNAME} $* local javadoc_args="" if java-pkg_is-vm-version-ge "1.8" ; then javadoc_args="-Xdoclint:none" fi javadoc ${javadoc_args} "${@}" || die "ejavadoc failed" } # @FUNCTION: java-pkg_filter-compiler # @USAGE: # @DESCRIPTION: # Used to prevent the use of some compilers. Should be used in src_compile. # Basically, it just appends onto JAVA_PKG_FILTER_COMPILER java-pkg_filter-compiler() { JAVA_PKG_FILTER_COMPILER="${JAVA_PKG_FILTER_COMPILER} $@" } # @FUNCTION: java-pkg_force-compiler # @USAGE: # @DESCRIPTION: # Used to force the use of particular compilers. Should be used in src_compile. # A common use of this would be to force ecj-3.1 to be used on amd64, to avoid # OutOfMemoryErrors that may come up. java-pkg_force-compiler() { JAVA_PKG_FORCE_COMPILER="$@" } # @FUNCTION: use_doc # @DESCRIPTION: # # Helper function for getting ant to build javadocs. If the user has USE=doc, # then 'javadoc' or the argument are returned. Otherwise, there is no return. # # The output of this should be passed to ant. # @CODE # Parameters: # $@ - Option value to return. Defaults to 'javadoc' # # Examples: # build javadocs by calling 'javadoc' target # eant $(use_doc) # # build javadocs by calling 'apidoc' target # eant $(use_doc apidoc) # @CODE # @RETURN string - Name of the target to create javadocs use_doc() { use doc && echo ${@:-javadoc} } # @FUNCTION: java-pkg_init # @INTERNAL # @DESCRIPTION: # The purpose of this function, as the name might imply, is to initialize the # Java environment. It ensures that that there aren't any environment variables # that'll muss things up. It initializes some variables, which are used # internally. And most importantly, it'll switch the VM if necessary. # # This shouldn't be used directly. Instead, java-pkg and java-pkg-opt will # call it during each of the phases of the merge process. java-pkg_init() { debug-print-function ${FUNCNAME} $* # Don't set up build environment if installing from binary. #206024 #258423 [[ "${MERGE_TYPE}" == "binary" ]] && return # Also try Portage's nonstandard EMERGE_FROM for old EAPIs, if it doesn't # work nothing is lost. has ${EAPI:-0} 0 1 2 3 && [[ "${EMERGE_FROM}" == "binary" ]] && return unset JAVAC unset JAVA_HOME java-config --help >/dev/null || { eerror "" eerror "Can't run java-config --help" eerror "Have you upgraded python recently but haven't" eerror "run python-updater yet?" die "Can't run java-config --help" } # People do all kinds of weird things. # http://forums.gentoo.org/viewtopic-p-3943166.html local silence="${SILENCE_JAVA_OPTIONS_WARNING}" local accept="${I_WANT_GLOBAL_JAVA_OPTIONS}" if [[ -n ${_JAVA_OPTIONS} && -z ${accept} && -z ${silence} ]]; then ewarn "_JAVA_OPTIONS changes what java -version outputs at least for" ewarn "sun-jdk vms and and as such break configure scripts that" ewarn "use it (for example app-office/openoffice) so we filter it out." ewarn "Use SILENCE_JAVA_OPTIONS_WARNING=true in the environment (use" ewarn "make.conf for example) to silence this warning or" ewarn "I_WANT_GLOBAL_JAVA_OPTIONS to not filter it." fi if [[ -z ${accept} ]]; then # export _JAVA_OPTIONS= doesn't work because it will show up in java # -version output unset _JAVA_OPTIONS # phase hooks make this run many times without this I_WANT_GLOBAL_JAVA_OPTIONS="true" fi if java-pkg_func-exists ant_src_unpack; then java-pkg_announce-qa-violation "Using old ant_src_unpack. Should be src_unpack" fi java-pkg_switch-vm PATH=${JAVA_HOME}/bin:${PATH} # TODO we will probably want to set JAVAC and JAVACFLAGS # Do some QA checks java-pkg_check-jikes # Can't use unset here because Portage does not save the unset # see https://bugs.gentoo.org/show_bug.cgi?id=189417#c11 # When users have crazy classpaths some packages can fail to compile. # and everything should work with empty CLASSPATH. # This also helps prevent unexpected dependencies on random things # from the CLASSPATH. export CLASSPATH= # Unset external ANT_ stuff export ANT_TASKS= export ANT_OPTS= export ANT_RESPECT_JAVA_HOME= } # @FUNCTION: java-pkg-init-compiler_ # @INTERNAL # @DESCRIPTION: # This function attempts to figure out what compiler should be used. It does # this by reading the file at JAVA_PKG_COMPILERS_CONF, and checking the # COMPILERS variable defined there. # This can be overridden by a list in JAVA_PKG_FORCE_COMPILER # # It will go through the list of compilers, and verify that it supports the # target and source that are needed. If it is not suitable, then the next # compiler is checked. When JAVA_PKG_FORCE_COMPILER is defined, this checking # isn't done. # # Once the which compiler to use has been figured out, it is set to # GENTOO_COMPILER. # # If you hadn't guessed, JAVA_PKG_FORCE_COMPILER is for testing only. # # If the user doesn't defined anything in JAVA_PKG_COMPILERS_CONF, or no # suitable compiler was found there, then the default is to use javac provided # by the current VM. # # # @RETURN name of the compiler to use java-pkg_init-compiler_() { debug-print-function ${FUNCNAME} $* if [[ -n ${GENTOO_COMPILER} ]]; then debug-print "GENTOO_COMPILER already set" return fi local compilers; if [[ -z ${JAVA_PKG_FORCE_COMPILER} ]]; then compilers="$(source ${JAVA_PKG_COMPILERS_CONF} 1>/dev/null 2>&1; echo ${COMPILERS})" else compilers=${JAVA_PKG_FORCE_COMPILER} fi debug-print "Read \"${compilers}\" from ${JAVA_PKG_COMPILERS_CONF}" # Figure out if we should announce what compiler we're using local compiler for compiler in ${compilers}; do debug-print "Checking ${compiler}..." # javac should always be alright if [[ ${compiler} = "javac" ]]; then debug-print "Found javac... breaking" export GENTOO_COMPILER="javac" break fi if has ${compiler} ${JAVA_PKG_FILTER_COMPILER}; then if [[ -z ${JAVA_PKG_FORCE_COMPILER} ]]; then einfo "Filtering ${compiler}" continue fi fi # for non-javac, we need to make sure it supports the right target and # source local compiler_env="${JAVA_PKG_COMPILER_DIR}/${compiler}" if [[ -f ${compiler_env} ]]; then local desired_target="$(java-pkg_get-target)" local desired_source="$(java-pkg_get-source)" # Verify that the compiler supports target local supported_target=$(source ${compiler_env} 1>/dev/null 2>&1; echo ${SUPPORTED_TARGET}) if ! has ${desired_target} ${supported_target}; then ewarn "${compiler} does not support -target ${desired_target}, skipping" continue fi # -source was introduced in 1.3, so only check 1.3 and on if version_is_at_least "${desired_soure}" "1.3"; then # Verify that the compiler supports source local supported_source=$(source ${compiler_env} 1>/dev/null 2>&1; echo ${SUPPORTED_SOURCE}) if ! has ${desired_source} ${supported_source}; then ewarn "${compiler} does not support -source ${desired_source}, skipping" continue fi fi # if you get here, then the compiler should be good to go export GENTOO_COMPILER="${compiler}" break else ewarn "Could not find configuration for ${compiler}, skipping" ewarn "Perhaps it is not installed?" continue fi done # If it hasn't been defined already, default to javac if [[ -z ${GENTOO_COMPILER} ]]; then if [[ -n ${compilers} ]]; then einfo "No suitable compiler found: defaulting to JDK default for compilation" else # probably don't need to notify users about the default. :;#einfo "Defaulting to javac for compilation" fi if java-config -g GENTOO_COMPILER 2> /dev/null; then export GENTOO_COMPILER=$(java-config -g GENTOO_COMPILER) else export GENTOO_COMPILER=javac fi else einfo "Using ${GENTOO_COMPILER} for compilation" fi } # @FUNCTION: init_paths_ # @INTERNAL # @DESCRIPTION: # Initializes some variables that will be used. These variables are mostly used # to determine where things will eventually get installed. java-pkg_init_paths_() { debug-print-function ${FUNCNAME} $* local pkg_name if [[ "${SLOT%/*}" == "0" ]] ; then JAVA_PKG_NAME="${PN}" else JAVA_PKG_NAME="${PN}-${SLOT%/*}" fi JAVA_PKG_SHAREPATH="${DESTTREE}/share/${JAVA_PKG_NAME}" JAVA_PKG_SOURCESPATH="${JAVA_PKG_SHAREPATH}/sources/" JAVA_PKG_ENV="${D}${JAVA_PKG_SHAREPATH}/package.env" JAVA_PKG_VIRTUALS_PATH="${DESTTREE}/share/java-config-2/virtuals" JAVA_PKG_VIRTUAL_PROVIDER="${D}/${JAVA_PKG_VIRTUALS_PATH}/${JAVA_PKG_NAME}" [[ -z "${JAVA_PKG_JARDEST}" ]] && JAVA_PKG_JARDEST="${JAVA_PKG_SHAREPATH}/lib" [[ -z "${JAVA_PKG_LIBDEST}" ]] && JAVA_PKG_LIBDEST="${DESTTREE}/$(get_libdir)/${JAVA_PKG_NAME}" [[ -z "${JAVA_PKG_WARDEST}" ]] && JAVA_PKG_WARDEST="${JAVA_PKG_SHAREPATH}/webapps" # TODO maybe only print once? debug-print "JAVA_PKG_SHAREPATH: ${JAVA_PKG_SHAREPATH}" debug-print "JAVA_PKG_ENV: ${JAVA_PKG_ENV}" debug-print "JAVA_PKG_JARDEST: ${JAVA_PKG_JARDEST}" debug-print "JAVA_PKG_LIBDEST: ${JAVA_PKG_LIBDEST}" debug-print "JAVA_PKG_WARDEST: ${JAVA_PKG_WARDEST}" } # @FUNCTION: java-pkg_do_write_ # @INTERNAL # @DESCRIPTION: # Writes the package.env out to disk. # # TODO change to do-write, to match everything else java-pkg_do_write_() { debug-print-function ${FUNCNAME} $* java-pkg_init_paths_ # Create directory for package.env dodir "${JAVA_PKG_SHAREPATH}" if [[ -n "${JAVA_PKG_CLASSPATH}" || -n "${JAVA_PKG_LIBRARY}" || -f \ "${JAVA_PKG_DEPEND_FILE}" || -f \ "${JAVA_PKG_OPTIONAL_DEPEND_FILE}" ]]; then # Create package.env ( echo "DESCRIPTION=\"${DESCRIPTION}\"" echo "GENERATION=\"2\"" echo "SLOT=\"${SLOT}\"" echo "CATEGORY=\"${CATEGORY}\"" echo "PVR=\"${PVR}\"" [[ -n "${JAVA_PKG_CLASSPATH}" ]] && echo "CLASSPATH=\"${JAVA_PKG_CLASSPATH}\"" [[ -n "${JAVA_PKG_LIBRARY}" ]] && echo "LIBRARY_PATH=\"${JAVA_PKG_LIBRARY}\"" [[ -n "${JAVA_PROVIDE}" ]] && echo "PROVIDES=\"${JAVA_PROVIDE}\"" [[ -f "${JAVA_PKG_DEPEND_FILE}" ]] \ && echo "DEPEND=\"$(sort -u "${JAVA_PKG_DEPEND_FILE}" | tr '\n' ':')\"" [[ -f "${JAVA_PKG_OPTIONAL_DEPEND_FILE}" ]] \ && echo "OPTIONAL_DEPEND=\"$(sort -u "${JAVA_PKG_OPTIONAL_DEPEND_FILE}" | tr '\n' ':')\"" echo "VM=\"$(echo ${RDEPEND} ${DEPEND} | sed -e 's/ /\n/g' | sed -n -e '/virtual\/\(jre\|jdk\)/ { p;q }')\"" # TODO cleanup ! [[ -f "${JAVA_PKG_BUILD_DEPEND_FILE}" ]] \ && echo "BUILD_DEPEND=\"$(sort -u "${JAVA_PKG_BUILD_DEPEND_FILE}" | tr '\n' ':')\"" ) > "${JAVA_PKG_ENV}" # register target/source local target="$(java-pkg_get-target)" local source="$(java-pkg_get-source)" [[ -n ${target} ]] && echo "TARGET=\"${target}\"" >> "${JAVA_PKG_ENV}" [[ -n ${source} ]] && echo "SOURCE=\"${source}\"" >> "${JAVA_PKG_ENV}" # register javadoc info [[ -n ${JAVADOC_PATH} ]] && echo "JAVADOC_PATH=\"${JAVADOC_PATH}\"" \ >> ${JAVA_PKG_ENV} # register source archives [[ -n ${JAVA_SOURCES} ]] && echo "JAVA_SOURCES=\"${JAVA_SOURCES}\"" \ >> ${JAVA_PKG_ENV} echo "MERGE_VM=\"${GENTOO_VM}\"" >> "${JAVA_PKG_ENV}" [[ -n ${GENTOO_COMPILER} ]] && echo "MERGE_COMPILER=\"${GENTOO_COMPILER}\"" >> "${JAVA_PKG_ENV}" # extra env variables if [[ -n "${JAVA_PKG_EXTRA_ENV_VARS}" ]]; then cat "${JAVA_PKG_EXTRA_ENV}" >> "${JAVA_PKG_ENV}" || die # nested echo to remove leading/trailing spaces echo "ENV_VARS=\"$(echo ${JAVA_PKG_EXTRA_ENV_VARS})\"" \ >> "${JAVA_PKG_ENV}" || die fi # Strip unnecessary leading and trailing colons # TODO try to cleanup if possible sed -e "s/=\":/=\"/" -e "s/:\"$/\"/" -i "${JAVA_PKG_ENV}" || die "Did you forget to call java_init ?" else debug-print "JAVA_PKG_CLASSPATH, JAVA_PKG_LIBRARY, JAVA_PKG_DEPEND_FILE" debug-print "or JAVA_PKG_OPTIONAL_DEPEND_FILE not defined so can't" debug-print "write package.env." fi } # @FUNCTION: java-pkg_record-jar_ # @INTERNAL # @DESCRIPTION: # Record an (optional) dependency to the package.env # @CODE # Parameters: # --optional - record dependency as optional # --build - record dependency as build_only # $1 - package to record # $2 - (optional) jar of package to record # @CODE JAVA_PKG_DEPEND_FILE="${T}/java-pkg-depend" JAVA_PKG_OPTIONAL_DEPEND_FILE="${T}/java-pkg-optional-depend" JAVA_PKG_BUILD_DEPEND_FILE="${T}/java-pkg-build-depend" java-pkg_record-jar_() { debug-print-function ${FUNCNAME} $* local depend_file="${JAVA_PKG_DEPEND_FILE}" case "${1}" in "--optional") depend_file="${JAVA_PKG_OPTIONAL_DEPEND_FILE}"; shift;; "--build-only") depend_file="${JAVA_PKG_BUILD_DEPEND_FILE}"; shift;; esac local pkg=${1} jar=${2} append if [[ -z "${jar}" ]]; then append="${pkg}" else append="$(basename ${jar})@${pkg}" fi echo "${append}" >> "${depend_file}" } # @FUNCTION: java-pkg_append_ # @INTERNAL # @DESCRIPTION: # Appends a value to a variable # # @CODE # Parameters: # $1 variable name to modify # $2 value to append # # Examples: # java-pkg_append_ CLASSPATH foo.jar # @CODE java-pkg_append_() { debug-print-function ${FUNCNAME} $* local var="${1}" value="${2}" if [[ -z "${!var}" ]] ; then export ${var}="${value}" else local oldIFS=${IFS} cur haveit IFS=':' for cur in ${!var}; do if [[ ${cur} == ${value} ]]; then haveit="yes" break fi done [[ -z ${haveit} ]] && export ${var}="${!var}:${value}" IFS=${oldIFS} fi } # @FUNCTION: java-pkg_expand_dir_ # @INTERNAL # @DESCRIPTION: # Gets the full path of the file/directory's parent. # @CODE # Parameters: # $1 - file/directory to find parent directory for # @CODE # @RETURN: path to $1's parent directory java-pkg_expand_dir_() { pushd "$(dirname "${1}")" >/dev/null 2>&1 pwd popd >/dev/null 2>&1 } # @FUNCTION: java-pkg_func-exists # @INTERNAL # @DESCRIPTION: # Does the indicated function exist? # @RETURN: 0 - function is declared, 1 - function is undeclared java-pkg_func-exists() { declare -F ${1} > /dev/null } # @FUNCTION: java-pkg_setup-vm # @INTERNAL # @DESCRIPTION: # Sets up the environment for a specific VM java-pkg_setup-vm() { debug-print-function ${FUNCNAME} $* local vendor="$(java-pkg_get-vm-vendor)" if [[ "${vendor}" == "sun" ]] && java-pkg_is-vm-version-ge "1.5" ; then addpredict "/dev/random" elif [[ "${vendor}" == "ibm" ]]; then addpredict "/proc/self/maps" addpredict "/proc/cpuinfo" addpredict "/proc/self/coredump_filter" elif [[ "${vendor}" == "oracle" ]]; then addpredict "/dev/random" addpredict "/proc/self/coredump_filter" elif [[ "${vendor}" == icedtea* ]] && java-pkg_is-vm-version-ge "1.7" ; then addpredict "/dev/random" addpredict "/proc/self/coredump_filter" elif [[ "${vendor}" == "jrockit" ]]; then addpredict "/proc/cpuinfo" fi } # @FUNCTION: java-pkg_needs-vm # @INTERNAL # @DESCRIPTION: # Does the current package depend on virtual/jdk or does it set # JAVA_PKG_WANT_BUILD_VM? # # @RETURN: 0 - Package depends on virtual/jdk; 1 - Package does not depend on virtual/jdk java-pkg_needs-vm() { debug-print-function ${FUNCNAME} $* if [[ -n "$(echo ${JAVA_PKG_NV_DEPEND:-${DEPEND}} | sed -e '\:virtual/jdk:!d')" ]]; then return 0 fi [[ -n "${JAVA_PKG_WANT_BUILD_VM}" ]] && return 0 return 1 } # @FUNCTION: java-pkg_get-current-vm # @INTERNAL # @RETURN - The current VM being used java-pkg_get-current-vm() { java-config -f } # @FUNCTION: java-pkg_get-vm-vendor # @INTERNAL # @RETURN - The vendor of the current VM java-pkg_get-vm-vendor() { debug-print-function ${FUNCNAME} $* local vm="$(java-pkg_get-current-vm)" vm="${vm/-*/}" echo "${vm}" } # @FUNCTION: java-pkg_get-vm-version # @INTERNAL # @RETURN - The version of the current VM java-pkg_get-vm-version() { debug-print-function ${FUNCNAME} $* java-config -g PROVIDES_VERSION } # @FUNCTION: java-pkg_build-vm-from-handle # @INTERNAL # @DESCRIPTION: # Selects a build vm from a list of vm handles. First checks for the system-vm # beeing usable, then steps through the listed handles till a suitable vm is # found. # # @RETURN - VM handle of an available JDK java-pkg_build-vm-from-handle() { debug-print-function ${FUNCNAME} "$*" local vm vm=$(java-pkg_get-current-vm 2>/dev/null) if [[ $? -eq 0 ]]; then if has ${vm} ${JAVA_PKG_WANT_BUILD_VM}; then echo ${vm} return 0 fi fi for vm in ${JAVA_PKG_WANT_BUILD_VM}; do if java-config-2 --select-vm=${vm} 2>/dev/null; then echo ${vm} return 0 fi done eerror "${FUNCNAME}: No vm found for handles: ${JAVA_PKG_WANT_BUILD_VM}" return 1 } # @FUNCTION: java-pkg_switch-vm # @INTERNAL # @DESCRIPTION: # Switch VM if we're allowed to (controlled by JAVA_PKG_ALLOW_VM_CHANGE), and # verify that the current VM is sufficient. # Setup the environment for the VM being used. java-pkg_switch-vm() { debug-print-function ${FUNCNAME} $* if java-pkg_needs-vm; then # Use the VM specified by JAVA_PKG_FORCE_VM if [[ -n "${JAVA_PKG_FORCE_VM}" ]]; then # If you're forcing the VM, I hope you know what your doing... debug-print "JAVA_PKG_FORCE_VM used: ${JAVA_PKG_FORCE_VM}" export GENTOO_VM="${JAVA_PKG_FORCE_VM}" # if we're allowed to switch the vm... elif [[ "${JAVA_PKG_ALLOW_VM_CHANGE}" == "yes" ]]; then # if there is an explicit list of handles to choose from if [[ -n "${JAVA_PKG_WANT_BUILD_VM}" ]]; then debug-print "JAVA_PKG_WANT_BUILD_VM used: ${JAVA_PKG_WANT_BUILD_VM}" GENTOO_VM=$(java-pkg_build-vm-from-handle) if [[ $? != 0 ]]; then eerror "${FUNCNAME}: No VM found for handles: ${JAVA_PKG_WANT_BUILD_VM}" die "${FUNCNAME}: Failed to determine VM for building" fi # JAVA_PKG_WANT_SOURCE and JAVA_PKG_WANT_TARGET are required as # they can't be deduced from handles. if [[ -z "${JAVA_PKG_WANT_SOURCE}" ]]; then eerror "JAVA_PKG_WANT_BUILD_VM specified but not JAVA_PKG_WANT_SOURCE" die "Specify JAVA_PKG_WANT_SOURCE" fi if [[ -z "${JAVA_PKG_WANT_TARGET}" ]]; then eerror "JAVA_PKG_WANT_BUILD_VM specified but not JAVA_PKG_WANT_TARGET" die "Specify JAVA_PKG_WANT_TARGET" fi # otherwise determine a vm from dep string else debug-print "depend-java-query: NV_DEPEND: ${JAVA_PKG_NV_DEPEND:-${DEPEND}}" GENTOO_VM="$(depend-java-query --get-vm "${JAVA_PKG_NV_DEPEND:-${DEPEND}}")" if [[ -z "${GENTOO_VM}" || "${GENTOO_VM}" == "None" ]]; then eerror "Unable to determine VM for building from dependencies:" echo "NV_DEPEND: ${JAVA_PKG_NV_DEPEND:-${DEPEND}}" die "Failed to determine VM for building." fi fi export GENTOO_VM # otherwise just make sure the current VM is sufficient else java-pkg_ensure-vm-version-sufficient fi debug-print "Using: $(java-config -f)" java-pkg_setup-vm export JAVA=$(java-config --java) export JAVAC=$(java-config --javac) JAVACFLAGS="$(java-pkg_javac-args)" if [[ ${?} != 0 ]]; then eerror "There was a problem determining JAVACFLAGS: ${JAVACFLAGS}" die "java-pkg_javac-args failed" fi [[ -n ${JAVACFLAGS_EXTRA} ]] && JAVACFLAGS="${JAVACFLAGS_EXTRA} ${JAVACFLAGS}" export JAVACFLAGS export JAVA_HOME="$(java-config -g JAVA_HOME)" export JDK_HOME=${JAVA_HOME} #TODO If you know a better solution let us know. java-pkg_append_ LD_LIBRARY_PATH "$(java-config -g LDPATH)" local tann="${T}/announced-vm" # With the hooks we should only get here once from pkg_setup but better safe than sorry # if people have for example modified eclasses some where if [[ -n "${JAVA_PKG_DEBUG}" ]] || [[ ! -f "${tann}" ]] ; then einfo "Using: $(java-config -f)" [[ ! -f "${tann}" ]] && touch "${tann}" fi else [[ -n "${JAVA_PKG_DEBUG}" ]] && ewarn "!!! This package inherits java-pkg but doesn't depend on a JDK. -bin or broken dependency!!!" fi } # @FUNCTION: java-pkg_die # @INTERNAL # @DESCRIPTION: # Enhanced die for Java packages, which displays some information that may be # useful for debugging bugs on bugzilla. #register_die_hook java-pkg_die if ! has java-pkg_die ${EBUILD_DEATH_HOOKS}; then EBUILD_DEATH_HOOKS="${EBUILD_DEATH_HOOKS} java-pkg_die" fi java-pkg_die() { echo "!!! When you file a bug report, please include the following information:" >&2 echo "GENTOO_VM=${GENTOO_VM} CLASSPATH=\"${CLASSPATH}\" JAVA_HOME=\"${JAVA_HOME}\"" >&2 echo "JAVACFLAGS=\"${JAVACFLAGS}\" COMPILER=\"${GENTOO_COMPILER}\"" >&2 echo "and of course, the output of emerge --info =${P}" >&2 } # TODO document # List jars in the source directory, ${S} java-pkg_jar-list() { if [[ -n "${JAVA_PKG_DEBUG}" ]]; then einfo "Linked Jars" find "${S}" -type l -name '*.jar' -print0 | xargs -0 -r -n 500 ls -ald | sed -e "s,${WORKDIR},\${WORKDIR}," einfo "Jars" find "${S}" -type f -name '*.jar' -print0 | xargs -0 -r -n 500 ls -ald | sed -e "s,${WORKDIR},\${WORKDIR}," einfo "Classes" find "${S}" -type f -name '*.class' -print0 | xargs -0 -r -n 500 ls -ald | sed -e "s,${WORKDIR},\${WORKDIR}," fi } # @FUNCTION: java-pkg_verify-classes # @INTERNAL # @DESCRIPTION: # Verify that the classes were compiled for the right source / target. Dies if # not. # @CODE # $1 (optional) - the file to check, otherwise checks whole ${D} # @CODE java-pkg_verify-classes() { #$(find ${D} -type f -name '*.jar' -o -name '*.class') local version_verify="/usr/bin/class-version-verify.py" if [[ ! -x "${version_verify}" ]]; then version_verify="/usr/$(get_libdir)/javatoolkit/bin/class-version-verify.py" fi if [[ ! -x "${version_verify}" ]]; then ewarn "Unable to perform class version checks as" ewarn "class-version-verify.py is unavailable" ewarn "Please install dev-java/javatoolkit." return fi local target=$(java-pkg_get-target) local result local log="${T}/class-version-verify.log" if [[ -n "${1}" ]]; then ${version_verify} -v -t ${target} "${1}" > "${log}" result=$? else ebegin "Verifying java class versions (target: ${target})" ${version_verify} -v -t ${target} -r "${D}" > "${log}" result=$? eend ${result} fi [[ -n ${JAVA_PKG_DEBUG} ]] && cat "${log}" if [[ ${result} != 0 ]]; then eerror "Incorrect bytecode version found" [[ -n "${1}" ]] && eerror "in file: ${1}" eerror "See ${log} for more details." die "Incorrect bytecode found" fi } # @FUNCTION: java-pkg_ensure-dep # @INTERNAL # @DESCRIPTION: # Check that a package being used in jarfrom, getjars and getjar is contained # within DEPEND or RDEPEND. # @CODE # Parameters: # $1 - empty - check both vars; "runtime" or "build" - check only # RDEPEND, resp. DEPEND # $2 - Package name and slot. # @CODE java-pkg_ensure-dep() { debug-print-function ${FUNCNAME} $* local limit_to="${1}" local target_pkg="${2}" local dev_error="" # remove the version specification, which may include globbing (* and [123]) local stripped_pkg=$(echo "${target_pkg}" | sed \ 's/-\([0-9*]*\(\[[0-9]*\]\)*\)*\(\.\([0-9*]*\(\[[0-9]*\]\)*\)*\)*$//') debug-print "Matching against: ${stripped_pkg}" if [[ ${limit_to} != runtime && ! ( "${DEPEND}" =~ "$stripped_pkg" ) ]]; then dev_error="The ebuild is attempting to use ${target_pkg} that is not" dev_error="${dev_error} declared in DEPEND." if is-java-strict; then eerror "${dev_error}" die "${dev_error}" elif [[ ${BASH_SUBSHELL} = 0 ]]; then eerror "${dev_error}" elog "Because you have this package installed the package will" elog "build without problems, but please report this to" elog "http://bugs.gentoo.org" fi fi if [[ ${limit_to} != build ]]; then if [[ ! ( ${RDEPEND} =~ "${stripped_pkg}" ) ]]; then if [[ ! ( ${PDEPEND} =~ "${stripped_pkg}" ) ]]; then dev_error="The ebuild is attempting to use ${target_pkg}," dev_error="${dev_error} without specifying --build-only, that is not declared in RDEPEND" dev_error="${dev_error} or PDEPEND." if is-java-strict; then eerror "${dev_error}" die "${dev_error}" elif [[ ${BASH_SUBSHELL} = 0 ]]; then eerror "${dev_error}" elog "The package will build without problems, but may fail to run" elog "if you don't have ${target_pkg} installed, so please report" elog "this to http://bugs.gentoo.org" fi fi fi fi } java-pkg_check-phase() { local phase=${1} local funcname=${FUNCNAME[1]} if [[ ${EBUILD_PHASE} != ${phase} ]]; then local msg="${funcname} used outside of src_${phase}" java-pkg_announce-qa-violation "${msg}" fi } java-pkg_check-versioned-jar() { local jar=${1} if [[ ${jar} =~ ${PV} ]]; then java-pkg_announce-qa-violation "installing versioned jar '${jar}'" fi } java-pkg_check-jikes() { if has jikes ${IUSE}; then java-pkg_announce-qa-violation "deprecated USE flag 'jikes' in IUSE" fi } java-pkg_announce-qa-violation() { local nodie if [[ ${1} == "--nodie" ]]; then nodie="true" shift fi echo "Java QA Notice: $@" >&2 increment-qa-violations [[ -z "${nodie}" ]] && is-java-strict && die "${@}" } increment-qa-violations() { let "JAVA_PKG_QA_VIOLATIONS+=1" export JAVA_PKG_QA_VIOLATIONS } is-java-strict() { [[ -n ${JAVA_PKG_STRICT} ]] return $? }