inherit package IMAGE_PKGTYPE ?= "ipk" IPKGCONF_TARGET = "${WORKDIR}/opkg.conf" IPKGCONF_SDK = "${WORKDIR}/opkg-sdk.conf" PKGWRITEDIRIPK = "${WORKDIR}/deploy-ipks" python package_ipk_fn () { bb.data.setVar('PKGFN', bb.data.getVar('PKG',d), d) } python package_ipk_install () { pkg = bb.data.getVar('PKG', d, 1) pkgfn = bb.data.getVar('PKGFN', d, 1) rootfs = bb.data.getVar('IMAGE_ROOTFS', d, 1) ipkdir = bb.data.getVar('DEPLOY_DIR_IPK', d, 1) stagingdir = bb.data.getVar('STAGING_DIR', d, 1) tmpdir = bb.data.getVar('TMPDIR', d, 1) if None in (pkg,pkgfn,rootfs): raise bb.build.FuncFailed("missing variables (one or more of PKG, PKGFN, IMAGEROOTFS)") try: bb.mkdirhier(rootfs) os.chdir(rootfs) except OSError: import sys (type, value, traceback) = sys.exc_info() print value raise bb.build.FuncFailed # Generate ipk.conf if it or the stamp doesnt exist conffile = os.path.join(stagingdir,"ipkg.conf") if not os.access(conffile, os.R_OK): ipkg_archs = bb.data.getVar('PACKAGE_ARCHS',d) if ipkg_archs is None: bb.error("PACKAGE_ARCHS missing") raise FuncFailed ipkg_archs = ipkg_archs.split() arch_priority = 1 f = open(conffile,"w") for arch in ipkg_archs: f.write("arch %s %s\n" % ( arch, arch_priority )) arch_priority += 1 f.write("src local file:%s" % ipkdir) f.close() if not os.access(os.path.join(ipkdir,"Packages"), os.R_OK) or not os.access(os.path.join(tmpdir, "stamps", "IPK_PACKAGE_INDEX_CLEAN"),os.R_OK): ret = os.system('opkg-make-index -p %s %s ' % (os.path.join(ipkdir, "Packages"), ipkdir)) if (ret != 0 ): raise bb.build.FuncFailed f = open(os.path.join(tmpdir, "stamps", "IPK_PACKAGE_INDEX_CLEAN"),"w") f.close() ret = os.system('opkg-cl -o %s -f %s update' % (rootfs, conffile)) ret = os.system('opkg-cl -o %s -f %s install %s' % (rootfs, conffile, pkgfn)) if (ret != 0 ): raise bb.build.FuncFailed } package_tryout_install_multilib_ipk() { #try install multilib multilib_tryout_dirs="" for item in ${MULTILIB_VARIANTS}; do local target_rootfs="${MULTILIB_TEMP_ROOTFS}/${item}" local ipkg_args="-f ${INSTALL_CONF_IPK} -o ${target_rootfs} --force_overwrite" local selected_pkg="" local pkgname_prefix="${item}-" for pkg in ${INSTALL_PACKAGES_MULTILIB_IPK}; do if [ ${pkg:0:${#pkgname_prefix}} == ${pkgname_prefix} ]; then selected_pkg="${selected_pkg} ${pkg}" fi done if [ ! -z "${selected_pkg}" ]; then rm -f ${target_rootfs} mkdir -p ${target_rootfs}/${opkglibdir} opkg-cl ${ipkg_args} update opkg-cl ${ipkg_args} install ${selected_pkg} multilib_tryout_dirs="${multilib_tryout_dirs} ${target_rootfs}" fi done } # # install a bunch of packages using opkg # the following shell variables needs to be set before calling this func: # INSTALL_ROOTFS_IPK - install root dir # INSTALL_CONF_IPK - configuration file # INSTALL_PACKAGES_NORMAL_IPK - packages to be installed # INSTALL_PACKAGES_ATTEMPTONLY_IPK - packages attemped to be installed only # INSTALL_PACKAGES_LINGUAS_IPK - additional packages for uclibc # INSTALL_TASK_IPK - task name package_install_internal_ipk() { local target_rootfs="${INSTALL_ROOTFS_IPK}" local conffile="${INSTALL_CONF_IPK}" local package_to_install="${INSTALL_PACKAGES_NORMAL_IPK}" local package_attemptonly="${INSTALL_PACKAGES_ATTEMPTONLY_IPK}" local package_linguas="${INSTALL_PACKAGES_LINGUAS_IPK}" local package_multilib="${INSTALL_PACKAGES_MULTILIB_IPK}" local task="${INSTALL_TASK_IPK}" mkdir -p ${target_rootfs}${localstatedir}/lib/opkg/ local ipkg_args="-f ${conffile} -o ${target_rootfs} --force-overwrite" opkg-cl ${ipkg_args} update # Uclibc builds don't provide this stuff... if [ x${TARGET_OS} = "xlinux" ] || [ x${TARGET_OS} = "xlinux-gnueabi" ] ; then if [ ! -z "${package_linguas}" ]; then for i in ${package_linguas}; do opkg-cl ${ipkg_args} install $i done fi fi if [ ! -z "${package_to_install}" ]; then opkg-cl ${ipkg_args} install ${package_to_install} fi if [ ! -z "${package_attemptonly}" ]; then opkg-cl ${ipkg_args} install ${package_attemptonly} > "${WORKDIR}/temp/log.do_${task}_attemptonly.${PID}" || true fi package_tryout_install_multilib_ipk if [ ! -z "${MULTILIB_CHECK_FILE}" ]; then #sanity check multilib_sanity_check ${target_rootfs} ${multilib_tryout_dirs} || exit 1 fi if [ ! -z "${package_multilib}" ]; then opkg-cl ${ipkg_args} install ${package_multilib} fi } ipk_log_check() { target="$1" lf_path="$2" lf_txt="`cat $lf_path`" for keyword_die in "exit 1" "Collected errors" ERR Fail do if (echo "$lf_txt" | grep -v log_check | grep "$keyword_die") >/dev/null 2>&1 then echo "log_check: There were error messages in the logfile" echo -e "log_check: Matched keyword: [$keyword_die]\n" echo "$lf_txt" | grep -v log_check | grep -C 5 -i "$keyword_die" echo "" do_exit=1 fi done test "$do_exit" = 1 && exit 1 true } # # Update the Packages index files in ${DEPLOY_DIR_IPK} # package_update_index_ipk () { set -x ipkgarchs="${ALL_MULTILIB_PACKAGE_ARCHS} ${SDK_PACKAGE_ARCHS}" if [ ! -z "${DEPLOY_KEEP_PACKAGES}" ]; then return fi packagedirs="${DEPLOY_DIR_IPK}" for arch in $ipkgarchs; do packagedirs="$packagedirs ${DEPLOY_DIR_IPK}/$arch" done multilib_archs="${MULTILIB_ARCHS}" for arch in $multilib_archs; do packagedirs="$packagedirs ${DEPLOY_DIR_IPK}/$arch" done for pkgdir in $packagedirs; do if [ -e $pkgdir/ ]; then touch $pkgdir/Packages flock $pkgdir/Packages.flock -c "opkg-make-index -r $pkgdir/Packages -p $pkgdir/Packages -l $pkgdir/Packages.filelist -m $pkgdir/" fi done } # # Generate an ipkg conf file ${IPKGCONF_TARGET} suitable for use against # the target system and an ipkg conf file ${IPKGCONF_SDK} suitable for # use against the host system in sdk builds # package_generate_ipkg_conf () { package_generate_archlist echo "src oe file:${DEPLOY_DIR_IPK}" >> ${IPKGCONF_SDK} ipkgarchs="${SDK_PACKAGE_ARCHS}" for arch in $ipkgarchs; do if [ -e ${DEPLOY_DIR_IPK}/$arch/Packages ] ; then echo "src oe-$arch file:${DEPLOY_DIR_IPK}/$arch" >> ${IPKGCONF_SDK} fi done echo "src oe file:${DEPLOY_DIR_IPK}" >> ${IPKGCONF_TARGET} ipkgarchs="${ALL_MULTILIB_PACKAGE_ARCHS}" for arch in $ipkgarchs; do if [ -e ${DEPLOY_DIR_IPK}/$arch/Packages ] ; then echo "src oe-$arch file:${DEPLOY_DIR_IPK}/$arch" >> ${IPKGCONF_TARGET} fi done } package_generate_archlist () { ipkgarchs="${SDK_PACKAGE_ARCHS}" priority=1 for arch in $ipkgarchs; do echo "arch $arch $priority" >> ${IPKGCONF_SDK} priority=$(expr $priority + 5) done ipkgarchs="${ALL_MULTILIB_PACKAGE_ARCHS}" priority=1 for arch in $ipkgarchs; do echo "arch $arch $priority" >> ${IPKGCONF_TARGET} priority=$(expr $priority + 5) done } python do_package_ipk () { import re, copy import textwrap workdir = bb.data.getVar('WORKDIR', d, True) outdir = bb.data.getVar('PKGWRITEDIRIPK', d, True) tmpdir = bb.data.getVar('TMPDIR', d, True) pkgdest = bb.data.getVar('PKGDEST', d, True) if not workdir or not outdir or not tmpdir: bb.error("Variables incorrectly set, unable to package") return packages = bb.data.getVar('PACKAGES', d, True) if not packages or packages == '': bb.debug(1, "No packages; nothing to do") return # We're about to add new packages so the index needs to be checked # so remove the appropriate stamp file. if os.access(os.path.join(tmpdir, "stamps", "IPK_PACKAGE_INDEX_CLEAN"), os.R_OK): os.unlink(os.path.join(tmpdir, "stamps", "IPK_PACKAGE_INDEX_CLEAN")) for pkg in packages.split(): localdata = bb.data.createCopy(d) root = "%s/%s" % (pkgdest, pkg) lf = bb.utils.lockfile(root + ".lock") bb.data.setVar('ROOT', '', localdata) bb.data.setVar('ROOT_%s' % pkg, root, localdata) pkgname = bb.data.getVar('PKG_%s' % pkg, localdata, 1) if not pkgname: pkgname = pkg bb.data.setVar('PKG', pkgname, localdata) bb.data.setVar('OVERRIDES', pkg, localdata) bb.data.update_data(localdata) basedir = os.path.join(os.path.dirname(root)) arch = bb.data.getVar('PACKAGE_ARCH', localdata, 1) pkgoutdir = "%s/%s" % (outdir, arch) bb.mkdirhier(pkgoutdir) os.chdir(root) from glob import glob g = glob('*') try: del g[g.index('CONTROL')] del g[g.index('./CONTROL')] except ValueError: pass if not g and bb.data.getVar('ALLOW_EMPTY', localdata) != "1": bb.note("Not creating empty archive for %s-%s-%s" % (pkg, bb.data.getVar('PKGV', localdata, 1), bb.data.getVar('PKGR', localdata, 1))) bb.utils.unlockfile(lf) continue controldir = os.path.join(root, 'CONTROL') bb.mkdirhier(controldir) try: ctrlfile = file(os.path.join(controldir, 'control'), 'w') except OSError: bb.utils.unlockfile(lf) raise bb.build.FuncFailed("unable to open control file for writing.") fields = [] pe = bb.data.getVar('PKGE', d, 1) if pe and int(pe) > 0: fields.append(["Version: %s:%s-%s\n", ['PKGE', 'PKGV', 'PKGR']]) else: fields.append(["Version: %s-%s\n", ['PKGV', 'PKGR']]) fields.append(["Description: %s\n", ['DESCRIPTION']]) fields.append(["Section: %s\n", ['SECTION']]) fields.append(["Priority: %s\n", ['PRIORITY']]) fields.append(["Maintainer: %s\n", ['MAINTAINER']]) fields.append(["License: %s\n", ['LICENSE']]) fields.append(["Architecture: %s\n", ['PACKAGE_ARCH']]) fields.append(["OE: %s\n", ['PN']]) fields.append(["Homepage: %s\n", ['HOMEPAGE']]) def pullData(l, d): l2 = [] for i in l: l2.append(bb.data.getVar(i, d, 1)) return l2 ctrlfile.write("Package: %s\n" % pkgname) # check for required fields try: for (c, fs) in fields: for f in fs: if bb.data.getVar(f, localdata) is None: raise KeyError(f) # Special behavior for description... if 'DESCRIPTION' in fs: summary = bb.data.getVar('SUMMARY', localdata, True) or bb.data.getVar('DESCRIPTION', localdata, True) or "." description = bb.data.getVar('DESCRIPTION', localdata, True) or "." description = textwrap.dedent(description).strip() ctrlfile.write('Description: %s\n' % summary) ctrlfile.write('%s\n' % textwrap.fill(description, width=74, initial_indent=' ', subsequent_indent=' ')) else: ctrlfile.write(c % tuple(pullData(fs, localdata))) except KeyError: import sys (type, value, traceback) = sys.exc_info() ctrlfile.close() bb.utils.unlockfile(lf) raise bb.build.FuncFailed("Missing field for ipk generation: %s" % value) # more fields bb.build.exec_func("mapping_rename_hook", localdata) rdepends = bb.utils.explode_dep_versions(bb.data.getVar("RDEPENDS", localdata, 1) or "") rrecommends = bb.utils.explode_dep_versions(bb.data.getVar("RRECOMMENDS", localdata, 1) or "") rsuggests = bb.utils.explode_dep_versions(bb.data.getVar("RSUGGESTS", localdata, 1) or "") rprovides = bb.utils.explode_dep_versions(bb.data.getVar("RPROVIDES", localdata, 1) or "") rreplaces = bb.utils.explode_dep_versions(bb.data.getVar("RREPLACES", localdata, 1) or "") rconflicts = bb.utils.explode_dep_versions(bb.data.getVar("RCONFLICTS", localdata, 1) or "") if rdepends: ctrlfile.write("Depends: %s\n" % bb.utils.join_deps(rdepends)) if rsuggests: ctrlfile.write("Suggests: %s\n" % bb.utils.join_deps(rsuggests)) if rrecommends: ctrlfile.write("Recommends: %s\n" % bb.utils.join_deps(rrecommends)) if rprovides: ctrlfile.write("Provides: %s\n" % bb.utils.join_deps(rprovides)) if rreplaces: ctrlfile.write("Replaces: %s\n" % bb.utils.join_deps(rreplaces)) if rconflicts: ctrlfile.write("Conflicts: %s\n" % bb.utils.join_deps(rconflicts)) src_uri = bb.data.getVar("SRC_URI", localdata, 1) if src_uri: src_uri = re.sub("\s+", " ", src_uri) ctrlfile.write("Source: %s\n" % " ".join(src_uri.split())) ctrlfile.close() for script in ["preinst", "postinst", "prerm", "postrm"]: scriptvar = bb.data.getVar('pkg_%s' % script, localdata, 1) if not scriptvar: continue try: scriptfile = file(os.path.join(controldir, script), 'w') except OSError: bb.utils.unlockfile(lf) raise bb.build.FuncFailed("unable to open %s script file for writing." % script) scriptfile.write(scriptvar) scriptfile.close() os.chmod(os.path.join(controldir, script), 0755) conffiles_str = bb.data.getVar("CONFFILES", localdata, 1) if conffiles_str: try: conffiles = file(os.path.join(controldir, 'conffiles'), 'w') except OSError: bb.utils.unlockfile(lf) raise bb.build.FuncFailed("unable to open conffiles for writing.") for f in conffiles_str.split(): conffiles.write('%s\n' % f) conffiles.close() os.chdir(basedir) ret = os.system("PATH=\"%s\" %s %s %s" % (bb.data.getVar("PATH", localdata, 1), bb.data.getVar("OPKGBUILDCMD",d,1), pkg, pkgoutdir)) if ret != 0: bb.utils.unlockfile(lf) raise bb.build.FuncFailed("opkg-build execution failed") bb.utils.prunedir(controldir) bb.utils.unlockfile(lf) } SSTATETASKS += "do_package_write_ipk" do_package_write_ipk[sstate-name] = "deploy-ipk" do_package_write_ipk[sstate-inputdirs] = "${PKGWRITEDIRIPK}" do_package_write_ipk[sstate-outputdirs] = "${DEPLOY_DIR_IPK}" python do_package_write_ipk_setscene () { sstate_setscene(d) } addtask do_package_write_ipk_setscene python () { if bb.data.getVar('PACKAGES', d, True) != '': deps = (bb.data.getVarFlag('do_package_write_ipk', 'depends', d) or "").split() deps.append('opkg-utils-native:do_populate_sysroot') deps.append('virtual/fakeroot-native:do_populate_sysroot') bb.data.setVarFlag('do_package_write_ipk', 'depends', " ".join(deps), d) bb.data.setVarFlag('do_package_write_ipk', 'fakeroot', "1", d) bb.data.setVarFlag('do_package_write_ipk_setscene', 'fakeroot', "1", d) } python do_package_write_ipk () { bb.build.exec_func("read_subpackage_metadata", d) bb.build.exec_func("do_package_ipk", d) } do_package_write_ipk[dirs] = "${PKGWRITEDIRIPK}" addtask package_write_ipk before do_package_write after do_package PACKAGEINDEXES += "package_update_index_ipk;" PACKAGEINDEXDEPS += "opkg-utils-native:do_populate_sysroot" PACKAGEINDEXDEPS += "opkg-native:do_populate_sysroot"