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#
# This class knows how to package up [e]glibc. Its shared since prebuild binary toolchains
# may need packaging and its pointless to duplicate this code.
#
# Caller should set GLIBC_INTERNAL_USE_BINARY_LOCALE to one of:
# "compile" - Use QEMU to generate the binary locale files
# "precompiled" - The binary locale files are pregenerated and already present
# "ondevice" - The device will build the locale files upon first boot through the postinst
GLIBC_INTERNAL_USE_BINARY_LOCALE ?= "ondevice"
inherit qemu
def get_libc_fpu_setting(bb, d):
if bb.data.getVar('TARGET_FPU', d, 1) in [ 'soft' ]:
return "--without-fp"
return ""
OVERRIDES_append = ":${TARGET_ARCH}-${TARGET_OS}"
do_configure_prepend() {
sed -e "s#@BASH@#/bin/sh#" -i ${S}/elf/ldd.bash.in
}
# indentation removed on purpose
locale_base_postinst() {
#!/bin/sh
if [ "x$D" != "x" ]; then
exit 1
fi
rm -rf ${TMP_LOCALE}
mkdir -p ${TMP_LOCALE}
if [ -f ${libdir}/locale/locale-archive ]; then
cp ${libdir}/locale/locale-archive ${TMP_LOCALE}/
fi
localedef --inputfile=${datadir}/i18n/locales/%s --charmap=%s --prefix=/tmp/locale %s
mkdir -p ${libdir}/locale/
mv ${TMP_LOCALE}/locale-archive ${libdir}/locale/
rm -rf ${TMP_LOCALE}
}
# indentation removed on purpose
locale_base_postrm() {
#!/bin/sh
rm -rf ${TMP_LOCALE}
mkdir -p ${TMP_LOCALE}
if [ -f ${libdir}/locale/locale-archive ]; then
cp ${libdir}/locale/locale-archive ${TMP_LOCALE}/
fi
localedef --delete-from-archive --inputfile=${datadir}/locales/%s --charmap=%s --prefix=/tmp/locale %s
mv ${TMP_LOCALE}/locale-archive ${libdir}/locale/
rm -rf ${TMP_LOCALE}
}
do_install() {
oe_runmake install_root=${D} install
for r in ${rpcsvc}; do
h=`echo $r|sed -e's,\.x$,.h,'`
install -m 0644 ${S}/sunrpc/rpcsvc/$h ${D}/${includedir}/rpcsvc/
done
install -m 0644 ${WORKDIR}/etc/ld.so.conf ${D}/${sysconfdir}/
install -d ${D}${libdir}/locale
make -f ${WORKDIR}/generate-supported.mk IN="${S}/localedata/SUPPORTED" OUT="${WORKDIR}/SUPPORTED"
# get rid of some broken files...
for i in ${GLIBC_BROKEN_LOCALES}; do
grep -v $i ${WORKDIR}/SUPPORTED > ${WORKDIR}/SUPPORTED.tmp
mv ${WORKDIR}/SUPPORTED.tmp ${WORKDIR}/SUPPORTED
done
rm -f ${D}{sysconfdir}/rpc
rm -f ${D}${includedir}/scsi/sg.h
rm -f ${D}${includedir}/scsi/scsi_ioctl.h
rm -f ${D}${includedir}/scsi/scsi.h
rm -rf ${D}${datadir}/zoneinfo
rm -rf ${D}${libexecdir}/getconf
}
TMP_LOCALE="/tmp/locale${libdir}/locale"
do_prep_locale_tree() {
treedir=${WORKDIR}/locale-tree
rm -rf $treedir
mkdir -p $treedir/bin $treedir/lib $treedir/${datadir} $treedir/${libdir}/locale
cp -pPR ${PKGD}${datadir}/i18n $treedir/${datadir}/i18n
# unzip to avoid parsing errors
for i in $treedir/${datadir}/i18n/charmaps/*gz; do
gunzip $i
done
cp -pPR ${PKGD}${base_libdir}/* $treedir/lib
if [ -f ${STAGING_DIR_NATIVE}${prefix_native}/lib/libgcc_s.* ]; then
cp -pPR ${STAGING_DIR_NATIVE}/${prefix_native}/lib/libgcc_s.* $treedir/lib
fi
install -m 0755 ${PKGD}${bindir}/localedef $treedir/bin
}
do_collect_bins_from_locale_tree() {
treedir=${WORKDIR}/locale-tree
mkdir -p ${PKGD}${libdir}
cp -pPR $treedir/${libdir}/locale ${PKGD}${libdir}
}
python package_do_split_gconvs () {
import os, re
if (bb.data.getVar('PACKAGE_NO_GCONV', d, 1) == '1'):
bb.note("package requested not splitting gconvs")
return
if not bb.data.getVar('PACKAGES', d, 1):
return
bpn = bb.data.getVar('BPN', d, 1)
libdir = bb.data.getVar('libdir', d, 1)
if not libdir:
bb.error("libdir not defined")
return
datadir = bb.data.getVar('datadir', d, 1)
if not datadir:
bb.error("datadir not defined")
return
gconv_libdir = base_path_join(libdir, "gconv")
charmap_dir = base_path_join(datadir, "i18n", "charmaps")
locales_dir = base_path_join(datadir, "i18n", "locales")
binary_locales_dir = base_path_join(libdir, "locale")
def calc_gconv_deps(fn, pkg, file_regex, output_pattern, group):
deps = []
f = open(fn, "r")
c_re = re.compile('^copy "(.*)"')
i_re = re.compile('^include "(\w+)".*')
for l in f.readlines():
m = c_re.match(l) or i_re.match(l)
if m:
dp = legitimize_package_name('%s-gconv-%s' % (bpn, m.group(1)))
if not dp in deps:
deps.append(dp)
f.close()
if deps != []:
bb.data.setVar('RDEPENDS_%s' % pkg, " ".join(deps), d)
if bpn != 'glibc':
bb.data.setVar('RPROVIDES_%s' % pkg, pkg.replace(bpn, 'glibc'), d)
do_split_packages(d, gconv_libdir, file_regex='^(.*)\.so$', output_pattern=bpn+'-gconv-%s', \
description='gconv module for character set %s', hook=calc_gconv_deps, \
extra_depends=bpn+'-gconv')
def calc_charmap_deps(fn, pkg, file_regex, output_pattern, group):
deps = []
f = open(fn, "r")
c_re = re.compile('^copy "(.*)"')
i_re = re.compile('^include "(\w+)".*')
for l in f.readlines():
m = c_re.match(l) or i_re.match(l)
if m:
dp = legitimize_package_name('%s-charmap-%s' % (bpn, m.group(1)))
if not dp in deps:
deps.append(dp)
f.close()
if deps != []:
bb.data.setVar('RDEPENDS_%s' % pkg, " ".join(deps), d)
if bpn != 'glibc':
bb.data.setVar('RPROVIDES_%s' % pkg, pkg.replace(bpn, 'glibc'), d)
do_split_packages(d, charmap_dir, file_regex='^(.*)\.gz$', output_pattern=bpn+'-charmap-%s', \
description='character map for %s encoding', hook=calc_charmap_deps, extra_depends='')
def calc_locale_deps(fn, pkg, file_regex, output_pattern, group):
deps = []
f = open(fn, "r")
c_re = re.compile('^copy "(.*)"')
i_re = re.compile('^include "(\w+)".*')
for l in f.readlines():
m = c_re.match(l) or i_re.match(l)
if m:
dp = legitimize_package_name(bpn+'-localedata-%s' % m.group(1))
if not dp in deps:
deps.append(dp)
f.close()
if deps != []:
bb.data.setVar('RDEPENDS_%s' % pkg, " ".join(deps), d)
if bpn != 'glibc':
bb.data.setVar('RPROVIDES_%s' % pkg, pkg.replace(bpn, 'glibc'), d)
do_split_packages(d, locales_dir, file_regex='(.*)', output_pattern=bpn+'-localedata-%s', \
description='locale definition for %s', hook=calc_locale_deps, extra_depends='')
bb.data.setVar('PACKAGES', bb.data.getVar('PACKAGES', d) + ' ' + bpn + '-gconv', d)
use_bin = bb.data.getVar("GLIBC_INTERNAL_USE_BINARY_LOCALE", d, 1)
dot_re = re.compile("(.*)\.(.*)")
#GLIBC_GENERATE_LOCALES var specifies which locales to be supported, empty or "all" means all locales
if use_bin != "precompiled":
supported = bb.data.getVar('GLIBC_GENERATE_LOCALES', d, 1)
if not supported or supported == "all":
f = open(base_path_join(bb.data.getVar('WORKDIR', d, 1), "SUPPORTED"), "r")
supported = f.readlines()
f.close()
else:
supported = supported.split()
supported = map(lambda s:s.replace(".", " ") + "\n", supported)
else:
supported = []
full_bin_path = bb.data.getVar('PKGD', d, True) + binary_locales_dir
for dir in os.listdir(full_bin_path):
dbase = dir.split(".")
d2 = " "
if len(dbase) > 1:
d2 = "." + dbase[1].upper() + " "
supported.append(dbase[0] + d2)
# Collate the locales by base and encoding
utf8_only = int(bb.data.getVar('LOCALE_UTF8_ONLY', d, 1) or 0)
encodings = {}
for l in supported:
l = l[:-1]
(locale, charset) = l.split(" ")
if utf8_only and charset != 'UTF-8':
continue
m = dot_re.match(locale)
if m:
locale = m.group(1)
if not encodings.has_key(locale):
encodings[locale] = []
encodings[locale].append(charset)
def output_locale_source(name, pkgname, locale, encoding):
bb.data.setVar('RDEPENDS_%s' % pkgname, 'localedef %s-localedata-%s %s-charmap-%s' % \
(bpn, legitimize_package_name(locale), bpn, legitimize_package_name(encoding)), d)
bb.data.setVar('pkg_postinst_%s' % pkgname, bb.data.getVar('locale_base_postinst', d, 1) \
% (locale, encoding, locale), d)
bb.data.setVar('pkg_postrm_%s' % pkgname, bb.data.getVar('locale_base_postrm', d, 1) % \
(locale, encoding, locale), d)
def output_locale_binary_rdepends(name, pkgname, locale, encoding):
m = re.match("(.*)_(.*)", name)
if m:
libc_name = "%s.%s" % (m.group(1), m.group(2).lower().replace("-",""))
else:
libc_name = name
bb.data.setVar('RDEPENDS_%s' % pkgname, legitimize_package_name('%s-binary-localedata-%s' \
% (bpn, libc_name)), d)
rprovides = (bb.data.getVar('RPROVIDES_%s' % pkgname, d, True) or "").split()
rprovides.append(legitimize_package_name('%s-binary-localedata-%s' % (bpn, libc_name)))
bb.data.setVar('RPROVIDES_%s' % pkgname, " ".join(rprovides), d)
def output_locale_binary(name, pkgname, locale, encoding):
qemu = qemu_target_binary(d)
treedir = base_path_join(bb.data.getVar("WORKDIR", d, 1), "locale-tree")
ldlibdir = "%s/lib" % treedir
path = bb.data.getVar("PATH", d, 1)
i18npath = base_path_join(treedir, datadir, "i18n")
localedef_opts = "--force --old-style --no-archive --prefix=%s \
--inputfile=%s/i18n/locales/%s --charmap=%s %s" \
% (treedir, datadir, locale, encoding, name)
qemu_options = bb.data.getVar("QEMU_OPTIONS_%s" % bb.data.getVar('PACKAGE_ARCH', d, 1), d, 1)
if not qemu_options:
qemu_options = bb.data.getVar('QEMU_OPTIONS', d, 1)
cmd = "PSEUDO_RELOADED=YES PATH=\"%s\" I18NPATH=\"%s\" %s -L %s \
-E LD_LIBRARY_PATH=%s %s %s/bin/localedef %s" % \
(path, i18npath, qemu, treedir, ldlibdir, qemu_options, treedir, localedef_opts)
bb.note("generating locale %s (%s)" % (locale, encoding))
import subprocess
process = subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
if process.wait() != 0:
bb.note("cmd:")
bb.note(cmd)
bb.note("stdout:")
bb.note(process.stdout.read())
bb.note("stderr:")
bb.note(process.stderr.read())
raise bb.build.FuncFailed("localedef returned an error")
def output_locale(name, locale, encoding):
pkgname = 'locale-base-' + legitimize_package_name(name)
bb.data.setVar('ALLOW_EMPTY_%s' % pkgname, '1', d)
bb.data.setVar('PACKAGES', '%s %s' % (pkgname, bb.data.getVar('PACKAGES', d, 1)), d)
rprovides = ' virtual-locale-%s' % legitimize_package_name(name)
m = re.match("(.*)_(.*)", name)
if m:
rprovides += ' virtual-locale-%s' % m.group(1)
bb.data.setVar('RPROVIDES_%s' % pkgname, rprovides, d)
if use_bin == "compile":
output_locale_binary_rdepends(name, pkgname, locale, encoding)
output_locale_binary(name, pkgname, locale, encoding)
elif use_bin == "precompiled":
output_locale_binary_rdepends(name, pkgname, locale, encoding)
else:
output_locale_source(name, pkgname, locale, encoding)
if use_bin == "compile":
bb.note("preparing tree for binary locale generation")
bb.build.exec_func("do_prep_locale_tree", d)
# Reshuffle names so that UTF-8 is preferred over other encodings
non_utf8 = []
for l in encodings.keys():
if len(encodings[l]) == 1:
output_locale(l, l, encodings[l][0])
if encodings[l][0] != "UTF-8":
non_utf8.append(l)
else:
if "UTF-8" in encodings[l]:
output_locale(l, l, "UTF-8")
encodings[l].remove("UTF-8")
else:
non_utf8.append(l)
for e in encodings[l]:
output_locale('%s.%s' % (l, e), l, e)
if non_utf8 != [] and use_bin != "precompiled":
bb.note("the following locales are supported only in legacy encodings:")
bb.note(" " + " ".join(non_utf8))
if use_bin == "compile":
bb.note("collecting binary locales from locale tree")
bb.build.exec_func("do_collect_bins_from_locale_tree", d)
do_split_packages(d, binary_locales_dir, file_regex='(.*)', \
output_pattern=bpn+'-binary-localedata-%s', \
description='binary locale definition for %s', extra_depends='', allow_dirs=True)
elif use_bin == "precompiled":
do_split_packages(d, binary_locales_dir, file_regex='(.*)', \
output_pattern=bpn+'-binary-localedata-%s', \
description='binary locale definition for %s', extra_depends='', allow_dirs=True)
else:
bb.note("generation of binary locales disabled. this may break i18n!")
}
# We want to do this indirection so that we can safely 'return'
# from the called function even though we're prepending
python populate_packages_prepend () {
if bb.data.getVar('DEBIAN_NAMES', d, 1):
bpn = bb.data.getVar('BPN', d, 1)
bb.data.setVar('PKG_'+bpn, 'libc6', d)
bb.data.setVar('PKG_'+bpn+'-dev', 'libc6-dev', d)
bb.build.exec_func('package_do_split_gconvs', d)
}
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