blob: e6f7f95d801ec8d7839e213efc0f0e5e3a956e1c [file] [log] [blame]
oe_soinstall() {
# Purpose: Install shared library file and
# create the necessary links
# Example: oe_soinstall libfoo.so.1.2.3 ${D}${libdir}
libname=`basename $1`
case "$libname" in
*.so)
bbfatal "oe_soinstall: Shared library must haved versioned filename (e.g. libfoo.so.1.2.3)"
;;
esac
install -m 755 $1 $2/$libname
sonamelink=`${HOST_PREFIX}readelf -d $1 |grep 'Library soname:' |sed -e 's/.*\[\(.*\)\].*/\1/'`
if [ -z $sonamelink ]; then
bbfatal "oe_soinstall: $libname is missing ELF tag 'SONAME'."
fi
solink=`echo $libname | sed -e 's/\.so\..*/.so/'`
ln -sf $libname $2/$sonamelink
ln -sf $libname $2/$solink
}
oe_libinstall() {
# Purpose: Install a library, in all its forms
# Example
#
# oe_libinstall libltdl ${STAGING_LIBDIR}/
# oe_libinstall -C src/libblah libblah ${D}/${libdir}/
dir=""
libtool=""
silent=""
require_static=""
require_shared=""
while [ "$#" -gt 0 ]; do
case "$1" in
-C)
shift
dir="$1"
;;
-s)
silent=1
;;
-a)
require_static=1
;;
-so)
require_shared=1
;;
-*)
bbfatal "oe_libinstall: unknown option: $1"
;;
*)
break;
;;
esac
shift
done
libname="$1"
shift
destpath="$1"
if [ -z "$destpath" ]; then
bbfatal "oe_libinstall: no destination path specified"
fi
__runcmd () {
if [ -z "$silent" ]; then
echo >&2 "oe_libinstall: $*"
fi
$*
}
if [ -z "$dir" ]; then
dir=`pwd`
fi
dotlai=$libname.lai
# Sanity check that the libname.lai is unique
number_of_files=`(cd $dir; find . -name "$dotlai") | wc -l`
if [ $number_of_files -gt 1 ]; then
bbfatal "oe_libinstall: $dotlai is not unique in $dir"
fi
dir=$dir`(cd $dir;find . -name "$dotlai") | sed "s/^\.//;s/\/$dotlai\$//;q"`
olddir=`pwd`
__runcmd cd $dir
lafile=$libname.la
# If such file doesn't exist, try to cut version suffix
if [ ! -f "$lafile" ]; then
libname1=`echo "$libname" | sed 's/-[0-9.]*$//'`
lafile1=$libname.la
if [ -f "$lafile1" ]; then
libname=$libname1
lafile=$lafile1
fi
fi
if [ -f "$lafile" ]; then
# libtool archive
eval `cat $lafile|grep "^library_names="`
libtool=1
else
library_names="$libname.so* $libname.dll.a $libname.*.dylib"
fi
__runcmd install -d $destpath/
dota=$libname.a
if [ -f "$dota" -o -n "$require_static" ]; then
rm -f $destpath/$dota
__runcmd install -m 0644 $dota $destpath/
fi
if [ -f "$dotlai" -a -n "$libtool" ]; then
rm -f $destpath/$libname.la
__runcmd install -m 0644 $dotlai $destpath/$libname.la
fi
for name in $library_names; do
files=`eval echo $name`
for f in $files; do
if [ ! -e "$f" ]; then
if [ -n "$libtool" ]; then
bbfatal "oe_libinstall: $dir/$f not found."
fi
elif [ -L "$f" ]; then
__runcmd cp -P "$f" $destpath/
elif [ ! -L "$f" ]; then
libfile="$f"
rm -f $destpath/$libfile
__runcmd install -m 0755 $libfile $destpath/
fi
done
done
if [ -z "$libfile" ]; then
if [ -n "$require_shared" ]; then
bbfatal "oe_libinstall: unable to locate shared library"
fi
elif [ -z "$libtool" ]; then
# special case hack for non-libtool .so.#.#.# links
baselibfile=`basename "$libfile"`
if (echo $baselibfile | grep -qE '^lib.*\.so\.[0-9.]*$'); then
sonamelink=`${HOST_PREFIX}readelf -d $libfile |grep 'Library soname:' |sed -e 's/.*\[\(.*\)\].*/\1/'`
solink=`echo $baselibfile | sed -e 's/\.so\..*/.so/'`
if [ -n "$sonamelink" -a x"$baselibfile" != x"$sonamelink" ]; then
__runcmd ln -sf $baselibfile $destpath/$sonamelink
fi
__runcmd ln -sf $baselibfile $destpath/$solink
fi
fi
__runcmd cd "$olddir"
}
create_cmdline_wrapper () {
# Create a wrapper script where commandline options are needed
#
# These are useful to work around relocation issues, by passing extra options
# to a program
#
# Usage: create_cmdline_wrapper FILENAME <extra-options>
cmd=$1
shift
echo "Generating wrapper script for $cmd"
mv $cmd $cmd.real
cmdname=`basename $cmd`
dirname=`dirname $cmd`
cmdoptions=$@
if [ "${base_prefix}" != "" ]; then
relpath=`python3 -c "import os; print(os.path.relpath('${D}${base_prefix}', '$dirname'))"`
cmdoptions=`echo $@ | sed -e "s:${base_prefix}:\\$realdir/$relpath:g"`
fi
cat <<END >$cmd
#!/bin/bash
realpath=\`readlink -fn \$0\`
realdir=\`dirname \$realpath\`
exec -a \$realdir/$cmdname \$realdir/$cmdname.real $cmdoptions "\$@"
END
chmod +x $cmd
}
create_cmdline_shebang_wrapper () {
# Create a wrapper script where commandline options are needed
#
# These are useful to work around shebang relocation issues, where shebangs are too
# long or have arguments in them, thus preventing them from using the /usr/bin/env
# shebang
#
# Usage: create_cmdline_wrapper FILENAME <extra-options>
cmd=$1
shift
echo "Generating wrapper script for $cmd"
# Strip #! and get remaining interpreter + arg
argument="$(sed -ne 's/^#! *//p;q' $cmd)"
# strip the shebang from the real script as we do not want it to be usable anyway
tail -n +2 $cmd > $cmd.real
chown --reference=$cmd $cmd.real
chmod --reference=$cmd $cmd.real
rm -f $cmd
cmdname=$(basename $cmd)
dirname=$(dirname $cmd)
cmdoptions=$@
if [ "${base_prefix}" != "" ]; then
relpath=`python3 -c "import os; print(os.path.relpath('${D}${base_prefix}', '$dirname'))"`
cmdoptions=`echo $@ | sed -e "s:${base_prefix}:\\$realdir/$relpath:g"`
fi
cat <<END >$cmd
#!/usr/bin/env bash
realpath=\`readlink -fn \$0\`
realdir=\`dirname \$realpath\`
exec -a \$realdir/$cmdname $argument \$realdir/$cmdname.real $cmdoptions "\$@"
END
chmod +x $cmd
}
create_wrapper () {
# Create a wrapper script where extra environment variables are needed
#
# These are useful to work around relocation issues, by setting environment
# variables which point to paths in the filesystem.
#
# Usage: create_wrapper FILENAME [[VAR=VALUE]..]
cmd=$1
shift
echo "Generating wrapper script for $cmd"
mv $cmd $cmd.real
cmdname=`basename $cmd`
dirname=`dirname $cmd`
exportstring=$@
if [ "${base_prefix}" != "" ]; then
relpath=`python3 -c "import os; print(os.path.relpath('${D}${base_prefix}', '$dirname'))"`
exportstring=`echo $@ | sed -e "s:${base_prefix}:\\$realdir/$relpath:g"`
fi
cat <<END >$cmd
#!/bin/bash
realpath=\`readlink -fn \$0\`
realdir=\`dirname \$realpath\`
export $exportstring
exec -a "\$0" \$realdir/$cmdname.real "\$@"
END
chmod +x $cmd
}
# Copy files/directories from $1 to $2 but using hardlinks
# (preserve symlinks)
hardlinkdir () {
from=$1
to=$2
(cd $from; find . -print0 | cpio --null -pdlu $to)
}
def check_app_exists(app, d):
app = d.expand(app).split()[0].strip()
path = d.getVar('PATH')
return bool(bb.utils.which(path, app))
def explode_deps(s):
return bb.utils.explode_deps(s)
def base_set_filespath(path, d):
filespath = []
extrapaths = (d.getVar("FILESEXTRAPATHS") or "")
# Remove default flag which was used for checking
extrapaths = extrapaths.replace("__default:", "")
# Don't prepend empty strings to the path list
if extrapaths != "":
path = extrapaths.split(":") + path
# The ":" ensures we have an 'empty' override
overrides = (":" + (d.getVar("FILESOVERRIDES") or "")).split(":")
overrides.reverse()
for o in overrides:
for p in path:
if p != "":
filespath.append(os.path.join(p, o))
return ":".join(filespath)
def extend_variants(d, var, extend, delim=':'):
"""Return a string of all bb class extend variants for the given extend"""
variants = []
whole = d.getVar(var) or ""
for ext in whole.split():
eext = ext.split(delim)
if len(eext) > 1 and eext[0] == extend:
variants.append(eext[1])
return " ".join(variants)
def multilib_pkg_extend(d, pkg):
variants = (d.getVar("MULTILIB_VARIANTS") or "").split()
if not variants:
return pkg
pkgs = pkg
for v in variants:
pkgs = pkgs + " " + v + "-" + pkg
return pkgs
def get_multilib_datastore(variant, d):
return oe.utils.get_multilib_datastore(variant, d)
def all_multilib_tune_values(d, var, unique = True, need_split = True, delim = ' '):
"""Return a string of all ${var} in all multilib tune configuration"""
values = []
variants = (d.getVar("MULTILIB_VARIANTS") or "").split() + ['']
for item in variants:
localdata = get_multilib_datastore(item, d)
# We need WORKDIR to be consistent with the original datastore
localdata.setVar("WORKDIR", d.getVar("WORKDIR"))
value = localdata.getVar(var) or ""
if value != "":
if need_split:
for item in value.split(delim):
values.append(item)
else:
values.append(value)
if unique:
#we do this to keep order as much as possible
ret = []
for value in values:
if not value in ret:
ret.append(value)
else:
ret = values
return " ".join(ret)
def all_multilib_tune_list(vars, d):
"""
Return a list of ${VAR} for each variable VAR in vars from each
multilib tune configuration.
Is safe to be called from a multilib recipe/context as it can
figure out the original tune and remove the multilib overrides.
"""
values = {}
for v in vars:
values[v] = []
values['ml'] = ['']
variants = (d.getVar("MULTILIB_VARIANTS") or "").split() + ['']
for item in variants:
localdata = get_multilib_datastore(item, d)
values[v].append(localdata.getVar(v))
values['ml'].append(item)
return values
all_multilib_tune_list[vardepsexclude] = "OVERRIDES"
# If the user hasn't set up their name/email, set some defaults
check_git_config() {
if ! git config user.email > /dev/null ; then
git config --local user.email "${PATCH_GIT_USER_EMAIL}"
fi
if ! git config user.name > /dev/null ; then
git config --local user.name "${PATCH_GIT_USER_NAME}"
fi
}