def machine_paths(d): """List any existing machine specific filespath directories""" machine = d.getVar("MACHINE") filespathpkg = d.getVar("FILESPATHPKG").split(":") for basepath in d.getVar("FILESPATHBASE").split(":"): for pkgpath in filespathpkg: machinepath = os.path.join(basepath, pkgpath, machine) if os.path.isdir(machinepath): yield machinepath def is_machine_specific(d): """Determine whether the current recipe is machine specific""" machinepaths = set(machine_paths(d)) srcuri = d.getVar("SRC_URI").split() for url in srcuri: fetcher = bb.fetch2.Fetch([srcuri], d) if url.startswith("file://"): if any(fetcher.localpath(url).startswith(mp + "/") for mp in machinepaths): return True 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="" staging_install="" 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 if echo "$destpath/" | egrep '^${STAGING_LIBDIR}/' >/dev/null then staging_install=1 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" } oe_machinstall() { # Purpose: Install machine dependent files, if available # If not available, check if there is a default # If no default, just touch the destination # Example: # $1 $2 $3 $4 # oe_machinstall -m 0644 fstab ${D}/etc/fstab # # TODO: Check argument number? # filename=`basename $3` dirname=`dirname $3` for o in `echo ${OVERRIDES} | tr ':' ' '`; do if [ -e $dirname/$o/$filename ]; then bbnote $dirname/$o/$filename present, installing to $4 install $1 $2 $dirname/$o/$filename $4 return fi done # bbnote overrides specific file NOT present, trying default=$3... if [ -e $3 ]; then bbnote $3 present, installing to $4 install $1 $2 $3 $4 else bbnote $3 NOT present, touching empty $4 touch $4 fi } 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 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/$relpath:g"` fi cat <$cmd #!/bin/bash realpath=\`readlink -fn \$0\` realdir=\`dirname \$realpath\` exec -a \`dirname \$realpath\`/$cmdname \`dirname \$realpath\`/$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/$relpath:g"` fi cat <$cmd #!/bin/bash realpath=\`readlink -fn \$0\` realdir=\`dirname \$realpath\` export $exportstring exec -a \`dirname \$realpath\`/$cmdname \`dirname \$realpath\`/$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 = [] value = d.getVar(var) or "" if value != "": if need_split: for item in value.split(delim): values.append(item) else: values.append(value) variants = d.getVar("MULTILIB_VARIANTS") or "" for item in variants.split(): 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 ${VAR} for each variable VAR in vars from each multilib tune configuration. Is safe to be called from a multilib recipe/context as it can figure out the original tune and remove the multilib overrides. """ values = {} for v in vars: values[v] = [] localdata = bb.data.createCopy(d) overrides = localdata.getVar("OVERRIDES", False).split(":") newoverrides = [] for o in overrides: if not o.startswith("virtclass-multilib-"): newoverrides.append(o) localdata.setVar("OVERRIDES", ":".join(newoverrides)) localdata.setVar("MLPREFIX", "") origdefault = localdata.getVar("DEFAULTTUNE_MULTILIB_ORIGINAL") if origdefault: localdata.setVar("DEFAULTTUNE", origdefault) values['ml'] = [''] for v in vars: values[v].append(localdata.getVar(v)) variants = d.getVar("MULTILIB_VARIANTS") or "" for item in variants.split(): localdata = get_multilib_datastore(item, d) values[v].append(localdata.getVar(v)) values['ml'].append(item) return values all_multilib_tune_list[vardepsexclude] = "OVERRIDES" # If the user hasn't set up their name/email, set some defaults check_git_config() { if ! git config user.email > /dev/null ; then git config --local user.email "${PATCH_GIT_USER_EMAIL}" fi if ! git config user.name > /dev/null ; then git config --local user.name "${PATCH_GIT_USER_NAME}" fi }