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poky/meta/classes/package.bbclass
Bruce Ashfield 236e36a38e package: check PKG_ variables before executing ontarget postinst 
If a package uses PKG_ variables to map package names to version specific
variants, on target postinstall functionality will be broken.

i.e. something like the following casuses rootfs assembly errors:

  d.setVar('pkg_postinst_ontarget_linux-source', 'cd /usr/src/; ln -sf %s linux-source' % source_pkg)

This breakage is due to the fact that the original package name (as specified by
the PACKAGES variable) is logged by the intercept scripts, but the mapped /
specific version is actually installed to the rootfs (and hence logged by the
package manager).

When the runtime listing of on-target scripts is performed, we get a package
manager error due to a missing package, since it checks the generic version
logged by the intercept scripts.

We can fix this by ensuring that the PKG_ variable mapped package name
is logged by the intercept phase, and hence the package manager can locate
and execute the on target postinst script.

This variable check is consistent with other places in the code, and has
no impact if PKG_ variables are not used.

(From OE-Core rev: a6af0886d1be584974086c0ddb4a5bc566eb7984)

Signed-off-by: Bruce Ashfield <bruce.ashfield@xilinx.com>
Signed-off-by: Richard Purdie <richard.purdie@linuxfoundation.org>
2019-07-11 09:32:50 +01:00

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#
# Packaging process
#
# Executive summary: This class iterates over the functions listed in PACKAGEFUNCS
# Taking D and splitting it up into the packages listed in PACKAGES, placing the
# resulting output in PKGDEST.
#
# There are the following default steps but PACKAGEFUNCS can be extended:
#
# a) package_get_auto_pr - get PRAUTO from remote PR service
#
# b) perform_packagecopy - Copy D into PKGD
#
# c) package_do_split_locales - Split out the locale files, updates FILES and PACKAGES
#
# d) split_and_strip_files - split the files into runtime and debug and strip them.
# Debug files include debug info split, and associated sources that end up in -dbg packages
#
# e) fixup_perms - Fix up permissions in the package before we split it.
#
# f) populate_packages - Split the files in PKGD into separate packages in PKGDEST/<pkgname>
# Also triggers the binary stripping code to put files in -dbg packages.
#
# g) package_do_filedeps - Collect perfile run-time dependency metadata
# The data is stores in FILER{PROVIDES,DEPENDS}_file_pkg variables with
# a list of affected files in FILER{PROVIDES,DEPENDS}FLIST_pkg
#
# h) package_do_shlibs - Look at the shared libraries generated and autotmatically add any
# dependencies found. Also stores the package name so anyone else using this library
# knows which package to depend on.
#
# i) package_do_pkgconfig - Keep track of which packages need and provide which .pc files
#
# j) read_shlibdeps - Reads the stored shlibs information into the metadata
#
# k) package_depchains - Adds automatic dependencies to -dbg and -dev packages
#
# l) emit_pkgdata - saves the packaging data into PKGDATA_DIR for use in later
# packaging steps
inherit packagedata
inherit chrpath
inherit package_pkgdata
# Need the package_qa_handle_error() in insane.bbclass
inherit insane
PKGD = "${WORKDIR}/package"
PKGDEST = "${WORKDIR}/packages-split"
LOCALE_SECTION ?= ''
ALL_MULTILIB_PACKAGE_ARCHS = "${@all_multilib_tune_values(d, 'PACKAGE_ARCHS')}"
# rpm is used for the per-file dependency identification
# dwarfsrcfiles is used to determine the list of debug source files
PACKAGE_DEPENDS += "rpm-native dwarfsrcfiles-native"
# If your postinstall can execute at rootfs creation time rather than on
# target but depends on a native/cross tool in order to execute, you need to
# list that tool in PACKAGE_WRITE_DEPS. Target package dependencies belong
# in the package dependencies as normal, this is just for native/cross support
# tools at rootfs build time.
PACKAGE_WRITE_DEPS ??= ""
def legitimize_package_name(s):
"""
Make sure package names are legitimate strings
"""
import re
def fixutf(m):
cp = m.group(1)
if cp:
return ('\\u%s' % cp).encode('latin-1').decode('unicode_escape')
# Handle unicode codepoints encoded as <U0123>, as in glibc locale files.
s = re.sub(r'<U([0-9A-Fa-f]{1,4})>', fixutf, s)
# Remaining package name validity fixes
return s.lower().replace('_', '-').replace('@', '+').replace(',', '+').replace('/', '-')
def do_split_packages(d, root, file_regex, output_pattern, description, postinst=None, recursive=False, hook=None, extra_depends=None, aux_files_pattern=None, postrm=None, allow_dirs=False, prepend=False, match_path=False, aux_files_pattern_verbatim=None, allow_links=False, summary=None):
"""
Used in .bb files to split up dynamically generated subpackages of a
given package, usually plugins or modules.
Arguments:
root -- the path in which to search
file_regex -- regular expression to match searched files. Use
parentheses () to mark the part of this expression
that should be used to derive the module name (to be
substituted where %s is used in other function
arguments as noted below)
output_pattern -- pattern to use for the package names. Must include %s.
description -- description to set for each package. Must include %s.
postinst -- postinstall script to use for all packages (as a
string)
recursive -- True to perform a recursive search - default False
hook -- a hook function to be called for every match. The
function will be called with the following arguments
(in the order listed):
f: full path to the file/directory match
pkg: the package name
file_regex: as above
output_pattern: as above
modulename: the module name derived using file_regex
extra_depends -- extra runtime dependencies (RDEPENDS) to be set for
all packages. The default value of None causes a
dependency on the main package (${PN}) - if you do
not want this, pass '' for this parameter.
aux_files_pattern -- extra item(s) to be added to FILES for each
package. Can be a single string item or a list of
strings for multiple items. Must include %s.
postrm -- postrm script to use for all packages (as a string)
allow_dirs -- True allow directories to be matched - default False
prepend -- if True, prepend created packages to PACKAGES instead
of the default False which appends them
match_path -- match file_regex on the whole relative path to the
root rather than just the file name
aux_files_pattern_verbatim -- extra item(s) to be added to FILES for
each package, using the actual derived module name
rather than converting it to something legal for a
package name. Can be a single string item or a list
of strings for multiple items. Must include %s.
allow_links -- True to allow symlinks to be matched - default False
summary -- Summary to set for each package. Must include %s;
defaults to description if not set.
"""
dvar = d.getVar('PKGD')
root = d.expand(root)
output_pattern = d.expand(output_pattern)
extra_depends = d.expand(extra_depends)
# If the root directory doesn't exist, don't error out later but silently do
# no splitting.
if not os.path.exists(dvar + root):
return []
ml = d.getVar("MLPREFIX")
if ml:
if not output_pattern.startswith(ml):
output_pattern = ml + output_pattern
newdeps = []
for dep in (extra_depends or "").split():
if dep.startswith(ml):
newdeps.append(dep)
else:
newdeps.append(ml + dep)
if newdeps:
extra_depends = " ".join(newdeps)
packages = d.getVar('PACKAGES').split()
split_packages = set()
if postinst:
postinst = '#!/bin/sh\n' + postinst + '\n'
if postrm:
postrm = '#!/bin/sh\n' + postrm + '\n'
if not recursive:
objs = os.listdir(dvar + root)
else:
objs = []
for walkroot, dirs, files in os.walk(dvar + root):
for file in files:
relpath = os.path.join(walkroot, file).replace(dvar + root + '/', '', 1)
if relpath:
objs.append(relpath)
if extra_depends == None:
extra_depends = d.getVar("PN")
if not summary:
summary = description
for o in sorted(objs):
import re, stat
if match_path:
m = re.match(file_regex, o)
else:
m = re.match(file_regex, os.path.basename(o))
if not m:
continue
f = os.path.join(dvar + root, o)
mode = os.lstat(f).st_mode
if not (stat.S_ISREG(mode) or (allow_links and stat.S_ISLNK(mode)) or (allow_dirs and stat.S_ISDIR(mode))):
continue
on = legitimize_package_name(m.group(1))
pkg = output_pattern % on
split_packages.add(pkg)
if not pkg in packages:
if prepend:
packages = [pkg] + packages
else:
packages.append(pkg)
oldfiles = d.getVar('FILES_' + pkg)
newfile = os.path.join(root, o)
# These names will be passed through glob() so if the filename actually
# contains * or ? (rare, but possible) we need to handle that specially
newfile = newfile.replace('*', '[*]')
newfile = newfile.replace('?', '[?]')
if not oldfiles:
the_files = [newfile]
if aux_files_pattern:
if type(aux_files_pattern) is list:
for fp in aux_files_pattern:
the_files.append(fp % on)
else:
the_files.append(aux_files_pattern % on)
if aux_files_pattern_verbatim:
if type(aux_files_pattern_verbatim) is list:
for fp in aux_files_pattern_verbatim:
the_files.append(fp % m.group(1))
else:
the_files.append(aux_files_pattern_verbatim % m.group(1))
d.setVar('FILES_' + pkg, " ".join(the_files))
else:
d.setVar('FILES_' + pkg, oldfiles + " " + newfile)
if extra_depends != '':
d.appendVar('RDEPENDS_' + pkg, ' ' + extra_depends)
if not d.getVar('DESCRIPTION_' + pkg):
d.setVar('DESCRIPTION_' + pkg, description % on)
if not d.getVar('SUMMARY_' + pkg):
d.setVar('SUMMARY_' + pkg, summary % on)
if postinst:
d.setVar('pkg_postinst_' + pkg, postinst)
if postrm:
d.setVar('pkg_postrm_' + pkg, postrm)
if callable(hook):
hook(f, pkg, file_regex, output_pattern, m.group(1))
d.setVar('PACKAGES', ' '.join(packages))
return list(split_packages)
PACKAGE_DEPENDS += "file-native"
python () {
if d.getVar('PACKAGES') != '':
deps = ""
for dep in (d.getVar('PACKAGE_DEPENDS') or "").split():
deps += " %s:do_populate_sysroot" % dep
d.appendVarFlag('do_package', 'depends', deps)
# shlibs requires any DEPENDS to have already packaged for the *.list files
d.appendVarFlag('do_package', 'deptask', " do_packagedata")
}
# Get a list of files from file vars by searching files under current working directory
# The list contains symlinks, directories and normal files.
def files_from_filevars(filevars):
import os,glob
cpath = oe.cachedpath.CachedPath()
files = []
for f in filevars:
if os.path.isabs(f):
f = '.' + f
if not f.startswith("./"):
f = './' + f
globbed = glob.glob(f)
if globbed:
if [ f ] != globbed:
files += globbed
continue
files.append(f)
symlink_paths = []
for ind, f in enumerate(files):
# Handle directory symlinks. Truncate path to the lowest level symlink
parent = ''
for dirname in f.split('/')[:-1]:
parent = os.path.join(parent, dirname)
if dirname == '.':
continue
if cpath.islink(parent):
bb.warn("FILES contains file '%s' which resides under a "
"directory symlink. Please fix the recipe and use the "
"real path for the file." % f[1:])
symlink_paths.append(f)
files[ind] = parent
f = parent
break
if not cpath.islink(f):
if cpath.isdir(f):
newfiles = [ os.path.join(f,x) for x in os.listdir(f) ]
if newfiles:
files += newfiles
return files, symlink_paths
# Called in package_<rpm,ipk,deb>.bbclass to get the correct list of configuration files
def get_conffiles(pkg, d):
pkgdest = d.getVar('PKGDEST')
root = os.path.join(pkgdest, pkg)
cwd = os.getcwd()
os.chdir(root)
conffiles = d.getVar('CONFFILES_%s' % pkg);
if conffiles == None:
conffiles = d.getVar('CONFFILES')
if conffiles == None:
conffiles = ""
conffiles = conffiles.split()
conf_orig_list = files_from_filevars(conffiles)[0]
# Remove links and directories from conf_orig_list to get conf_list which only contains normal files
conf_list = []
for f in conf_orig_list:
if os.path.isdir(f):
continue
if os.path.islink(f):
continue
if not os.path.exists(f):
continue
conf_list.append(f)
# Remove the leading './'
for i in range(0, len(conf_list)):
conf_list[i] = conf_list[i][1:]
os.chdir(cwd)
return conf_list
def checkbuildpath(file, d):
tmpdir = d.getVar('TMPDIR')
with open(file) as f:
file_content = f.read()
if tmpdir in file_content:
return True
return False
def parse_debugsources_from_dwarfsrcfiles_output(dwarfsrcfiles_output):
debugfiles = {}
for line in dwarfsrcfiles_output.splitlines():
if line.startswith("\t"):
debugfiles[os.path.normpath(line.split()[0])] = ""
return debugfiles.keys()
def source_info(file, d, fatal=True):
import subprocess
cmd = ["dwarfsrcfiles", file]
try:
output = subprocess.check_output(cmd, universal_newlines=True, stderr=subprocess.STDOUT)
retval = 0
except subprocess.CalledProcessError as exc:
output = exc.output
retval = exc.returncode
# 255 means a specific file wasn't fully parsed to get the debug file list, which is not a fatal failure
if retval != 0 and retval != 255:
msg = "dwarfsrcfiles failed with exit code %s (cmd was %s)%s" % (retval, cmd, ":\n%s" % output if output else "")
if fatal:
bb.fatal(msg)
bb.note(msg)
debugsources = parse_debugsources_from_dwarfsrcfiles_output(output)
return list(debugsources)
def splitdebuginfo(file, dvar, debugdir, debuglibdir, debugappend, debugsrcdir, d):
# Function to split a single file into two components, one is the stripped
# target system binary, the other contains any debugging information. The
# two files are linked to reference each other.
#
# return a mapping of files:debugsources
import stat
import subprocess
src = file[len(dvar):]
dest = debuglibdir + os.path.dirname(src) + debugdir + "/" + os.path.basename(src) + debugappend
debugfile = dvar + dest
sources = []
# Split the file...
bb.utils.mkdirhier(os.path.dirname(debugfile))
#bb.note("Split %s -> %s" % (file, debugfile))
# Only store off the hard link reference if we successfully split!
dvar = d.getVar('PKGD')
objcopy = d.getVar("OBJCOPY")
# We ignore kernel modules, we don't generate debug info files.
if file.find("/lib/modules/") != -1 and file.endswith(".ko"):
return (file, sources)
newmode = None
if not os.access(file, os.W_OK) or os.access(file, os.R_OK):
origmode = os.stat(file)[stat.ST_MODE]
newmode = origmode | stat.S_IWRITE | stat.S_IREAD
os.chmod(file, newmode)
# We need to extract the debug src information here...
if debugsrcdir:
sources = source_info(file, d)
bb.utils.mkdirhier(os.path.dirname(debugfile))
subprocess.check_output([objcopy, '--only-keep-debug', file, debugfile], stderr=subprocess.STDOUT)
# Set the debuglink to have the view of the file path on the target
subprocess.check_output([objcopy, '--add-gnu-debuglink', debugfile, file], stderr=subprocess.STDOUT)
if newmode:
os.chmod(file, origmode)
return (file, sources)
def copydebugsources(debugsrcdir, sources, d):
# The debug src information written out to sourcefile is further processed
# and copied to the destination here.
import stat
import subprocess
if debugsrcdir and sources:
sourcefile = d.expand("${WORKDIR}/debugsources.list")
bb.utils.remove(sourcefile)
# filenames are null-separated - this is an artefact of the previous use
# of rpm's debugedit, which was writing them out that way, and the code elsewhere
# is still assuming that.
debuglistoutput = '\0'.join(sources) + '\0'
with open(sourcefile, 'a') as sf:
sf.write(debuglistoutput)
dvar = d.getVar('PKGD')
strip = d.getVar("STRIP")
objcopy = d.getVar("OBJCOPY")
workdir = d.getVar("WORKDIR")
workparentdir = os.path.dirname(os.path.dirname(workdir))
workbasedir = os.path.basename(os.path.dirname(workdir)) + "/" + os.path.basename(workdir)
# If build path exists in sourcefile, it means toolchain did not use
# -fdebug-prefix-map to compile
if checkbuildpath(sourcefile, d):
localsrc_prefix = workparentdir + "/"
else:
localsrc_prefix = "/usr/src/debug/"
nosuchdir = []
basepath = dvar
for p in debugsrcdir.split("/"):
basepath = basepath + "/" + p
if not cpath.exists(basepath):
nosuchdir.append(basepath)
bb.utils.mkdirhier(basepath)
cpath.updatecache(basepath)
# Ignore files from the recipe sysroots (target and native)
processdebugsrc = "LC_ALL=C ; sort -z -u '%s' | egrep -v -z '((<internal>|<built-in>)$|/.*recipe-sysroot.*/)' | "
# We need to ignore files that are not actually ours
# we do this by only paying attention to items from this package
processdebugsrc += "fgrep -zw '%s' | "
# Remove prefix in the source paths
processdebugsrc += "sed 's#%s##g' | "
processdebugsrc += "(cd '%s' ; cpio -pd0mlL --no-preserve-owner '%s%s' 2>/dev/null)"
cmd = processdebugsrc % (sourcefile, workbasedir, localsrc_prefix, workparentdir, dvar, debugsrcdir)
try:
subprocess.check_output(cmd, shell=True, stderr=subprocess.STDOUT)
except subprocess.CalledProcessError:
# Can "fail" if internal headers/transient sources are attempted
pass
# cpio seems to have a bug with -lL together and symbolic links are just copied, not dereferenced.
# Work around this by manually finding and copying any symbolic links that made it through.
cmd = "find %s%s -type l -print0 -delete | sed s#%s%s/##g | (cd '%s' ; cpio -pd0mL --no-preserve-owner '%s%s')" % \
(dvar, debugsrcdir, dvar, debugsrcdir, workparentdir, dvar, debugsrcdir)
subprocess.check_output(cmd, shell=True, stderr=subprocess.STDOUT)
# The copy by cpio may have resulted in some empty directories! Remove these
cmd = "find %s%s -empty -type d -delete" % (dvar, debugsrcdir)
subprocess.check_output(cmd, shell=True, stderr=subprocess.STDOUT)
# Also remove debugsrcdir if its empty
for p in nosuchdir[::-1]:
if os.path.exists(p) and not os.listdir(p):
os.rmdir(p)
#
# Package data handling routines
#
def get_package_mapping (pkg, basepkg, d):
import oe.packagedata
data = oe.packagedata.read_subpkgdata(pkg, d)
key = "PKG_%s" % pkg
if key in data:
# Have to avoid undoing the write_extra_pkgs(global_variants...)
if bb.data.inherits_class('allarch', d) and not d.getVar('MULTILIB_VARIANTS') \
and data[key] == basepkg:
return pkg
return data[key]
return pkg
def get_package_additional_metadata (pkg_type, d):
base_key = "PACKAGE_ADD_METADATA"
for key in ("%s_%s" % (base_key, pkg_type.upper()), base_key):
if d.getVar(key, False) is None:
continue
d.setVarFlag(key, "type", "list")
if d.getVarFlag(key, "separator") is None:
d.setVarFlag(key, "separator", "\\n")
metadata_fields = [field.strip() for field in oe.data.typed_value(key, d)]
return "\n".join(metadata_fields).strip()
def runtime_mapping_rename (varname, pkg, d):
#bb.note("%s before: %s" % (varname, d.getVar(varname)))
new_depends = {}
deps = bb.utils.explode_dep_versions2(d.getVar(varname) or "")
for depend in deps:
new_depend = get_package_mapping(depend, pkg, d)
new_depends[new_depend] = deps[depend]
d.setVar(varname, bb.utils.join_deps(new_depends, commasep=False))
#bb.note("%s after: %s" % (varname, d.getVar(varname)))
#
# Package functions suitable for inclusion in PACKAGEFUNCS
#
python package_get_auto_pr() {
import oe.prservice
import re
# Support per recipe PRSERV_HOST
pn = d.getVar('PN')
host = d.getVar("PRSERV_HOST_" + pn)
if not (host is None):
d.setVar("PRSERV_HOST", host)
pkgv = d.getVar("PKGV")
# PR Server not active, handle AUTOINC
if not d.getVar('PRSERV_HOST'):
if 'AUTOINC' in pkgv:
d.setVar("PKGV", pkgv.replace("AUTOINC", "0"))
return
auto_pr = None
pv = d.getVar("PV")
version = d.getVar("PRAUTOINX")
pkgarch = d.getVar("PACKAGE_ARCH")
checksum = d.getVar("BB_TASKHASH")
if d.getVar('PRSERV_LOCKDOWN'):
auto_pr = d.getVar('PRAUTO_' + version + '_' + pkgarch) or d.getVar('PRAUTO_' + version) or None
if auto_pr is None:
bb.fatal("Can NOT get PRAUTO from lockdown exported file")
d.setVar('PRAUTO',str(auto_pr))
return
try:
conn = d.getVar("__PRSERV_CONN")
if conn is None:
conn = oe.prservice.prserv_make_conn(d)
if conn is not None:
if "AUTOINC" in pkgv:
srcpv = bb.fetch2.get_srcrev(d)
base_ver = "AUTOINC-%s" % version[:version.find(srcpv)]
value = conn.getPR(base_ver, pkgarch, srcpv)
d.setVar("PKGV", pkgv.replace("AUTOINC", str(value)))
auto_pr = conn.getPR(version, pkgarch, checksum)
except Exception as e:
bb.fatal("Can NOT get PRAUTO, exception %s" % str(e))
if auto_pr is None:
bb.fatal("Can NOT get PRAUTO from remote PR service")
d.setVar('PRAUTO',str(auto_pr))
}
LOCALEBASEPN ??= "${PN}"
python package_do_split_locales() {
if (d.getVar('PACKAGE_NO_LOCALE') == '1'):
bb.debug(1, "package requested not splitting locales")
return
packages = (d.getVar('PACKAGES') or "").split()
datadir = d.getVar('datadir')
if not datadir:
bb.note("datadir not defined")
return
dvar = d.getVar('PKGD')
pn = d.getVar('LOCALEBASEPN')
if pn + '-locale' in packages:
packages.remove(pn + '-locale')
localedir = os.path.join(dvar + datadir, 'locale')
if not cpath.isdir(localedir):
bb.debug(1, "No locale files in this package")
return
locales = os.listdir(localedir)
summary = d.getVar('SUMMARY') or pn
description = d.getVar('DESCRIPTION') or ""
locale_section = d.getVar('LOCALE_SECTION')
mlprefix = d.getVar('MLPREFIX') or ""
for l in sorted(locales):
ln = legitimize_package_name(l)
pkg = pn + '-locale-' + ln
packages.append(pkg)
d.setVar('FILES_' + pkg, os.path.join(datadir, 'locale', l))
d.setVar('RRECOMMENDS_' + pkg, '%svirtual-locale-%s' % (mlprefix, ln))
d.setVar('RPROVIDES_' + pkg, '%s-locale %s%s-translation' % (pn, mlprefix, ln))
d.setVar('SUMMARY_' + pkg, '%s - %s translations' % (summary, l))
d.setVar('DESCRIPTION_' + pkg, '%s This package contains language translation files for the %s locale.' % (description, l))
if locale_section:
d.setVar('SECTION_' + pkg, locale_section)
d.setVar('PACKAGES', ' '.join(packages))
# Disabled by RP 18/06/07
# Wildcards aren't supported in debian
# They break with ipkg since glibc-locale* will mean that
# glibc-localedata-translit* won't install as a dependency
# for some other package which breaks meta-toolchain
# Probably breaks since virtual-locale- isn't provided anywhere
#rdep = (d.getVar('RDEPENDS_%s' % pn) or "").split()
#rdep.append('%s-locale*' % pn)
#d.setVar('RDEPENDS_%s' % pn, ' '.join(rdep))
}
python perform_packagecopy () {
import subprocess
dest = d.getVar('D')
dvar = d.getVar('PKGD')
# Start by package population by taking a copy of the installed
# files to operate on
# Preserve sparse files and hard links
cmd = 'tar -cf - -C %s -p -S . | tar -xf - -C %s' % (dest, dvar)
subprocess.check_output(cmd, shell=True, stderr=subprocess.STDOUT)
# replace RPATHs for the nativesdk binaries, to make them relocatable
if bb.data.inherits_class('nativesdk', d) or bb.data.inherits_class('cross-canadian', d):
rpath_replace (dvar, d)
}
perform_packagecopy[cleandirs] = "${PKGD}"
perform_packagecopy[dirs] = "${PKGD}"
# We generate a master list of directories to process, we start by
# seeding this list with reasonable defaults, then load from
# the fs-perms.txt files
python fixup_perms () {
import pwd, grp
# init using a string with the same format as a line as documented in
# the fs-perms.txt file
# <path> <mode> <uid> <gid> <walk> <fmode> <fuid> <fgid>
# <path> link <link target>
#
# __str__ can be used to print out an entry in the input format
#
# if fs_perms_entry.path is None:
# an error occurred
# if fs_perms_entry.link, you can retrieve:
# fs_perms_entry.path = path
# fs_perms_entry.link = target of link
# if not fs_perms_entry.link, you can retrieve:
# fs_perms_entry.path = path
# fs_perms_entry.mode = expected dir mode or None
# fs_perms_entry.uid = expected uid or -1
# fs_perms_entry.gid = expected gid or -1
# fs_perms_entry.walk = 'true' or something else
# fs_perms_entry.fmode = expected file mode or None
# fs_perms_entry.fuid = expected file uid or -1
# fs_perms_entry_fgid = expected file gid or -1
class fs_perms_entry():
def __init__(self, line):
lsplit = line.split()
if len(lsplit) == 3 and lsplit[1].lower() == "link":
self._setlink(lsplit[0], lsplit[2])
elif len(lsplit) == 8:
self._setdir(lsplit[0], lsplit[1], lsplit[2], lsplit[3], lsplit[4], lsplit[5], lsplit[6], lsplit[7])
else:
msg = "Fixup Perms: invalid config line %s" % line
package_qa_handle_error("perm-config", msg, d)
self.path = None
self.link = None
def _setdir(self, path, mode, uid, gid, walk, fmode, fuid, fgid):
self.path = os.path.normpath(path)
self.link = None
self.mode = self._procmode(mode)
self.uid = self._procuid(uid)
self.gid = self._procgid(gid)
self.walk = walk.lower()
self.fmode = self._procmode(fmode)
self.fuid = self._procuid(fuid)
self.fgid = self._procgid(fgid)
def _setlink(self, path, link):
self.path = os.path.normpath(path)
self.link = link
def _procmode(self, mode):
if not mode or (mode and mode == "-"):
return None
else:
return int(mode,8)
# Note uid/gid -1 has special significance in os.lchown
def _procuid(self, uid):
if uid is None or uid == "-":
return -1
elif uid.isdigit():
return int(uid)
else:
return pwd.getpwnam(uid).pw_uid
def _procgid(self, gid):
if gid is None or gid == "-":
return -1
elif gid.isdigit():
return int(gid)
else:
return grp.getgrnam(gid).gr_gid
# Use for debugging the entries
def __str__(self):
if self.link:
return "%s link %s" % (self.path, self.link)
else:
mode = "-"
if self.mode:
mode = "0%o" % self.mode
fmode = "-"
if self.fmode:
fmode = "0%o" % self.fmode
uid = self._mapugid(self.uid)
gid = self._mapugid(self.gid)
fuid = self._mapugid(self.fuid)
fgid = self._mapugid(self.fgid)
return "%s %s %s %s %s %s %s %s" % (self.path, mode, uid, gid, self.walk, fmode, fuid, fgid)
def _mapugid(self, id):
if id is None or id == -1:
return "-"
else:
return "%d" % id
# Fix the permission, owner and group of path
def fix_perms(path, mode, uid, gid, dir):
if mode and not os.path.islink(path):
#bb.note("Fixup Perms: chmod 0%o %s" % (mode, dir))
os.chmod(path, mode)
# -1 is a special value that means don't change the uid/gid
# if they are BOTH -1, don't bother to lchown
if not (uid == -1 and gid == -1):
#bb.note("Fixup Perms: lchown %d:%d %s" % (uid, gid, dir))
os.lchown(path, uid, gid)
# Return a list of configuration files based on either the default
# files/fs-perms.txt or the contents of FILESYSTEM_PERMS_TABLES
# paths are resolved via BBPATH
def get_fs_perms_list(d):
str = ""
bbpath = d.getVar('BBPATH')
fs_perms_tables = d.getVar('FILESYSTEM_PERMS_TABLES') or ""
for conf_file in fs_perms_tables.split():
confpath = bb.utils.which(bbpath, conf_file)
if confpath:
str += " %s" % bb.utils.which(bbpath, conf_file)
else:
bb.warn("cannot find %s specified in FILESYSTEM_PERMS_TABLES" % conf_file)
return str
dvar = d.getVar('PKGD')
fs_perms_table = {}
fs_link_table = {}
# By default all of the standard directories specified in
# bitbake.conf will get 0755 root:root.
target_path_vars = [ 'base_prefix',
'prefix',
'exec_prefix',
'base_bindir',
'base_sbindir',
'base_libdir',
'datadir',
'sysconfdir',
'servicedir',
'sharedstatedir',
'localstatedir',
'infodir',
'mandir',
'docdir',
'bindir',
'sbindir',
'libexecdir',
'libdir',
'includedir',
'oldincludedir' ]
for path in target_path_vars:
dir = d.getVar(path) or ""
if dir == "":
continue
fs_perms_table[dir] = fs_perms_entry(d.expand("%s 0755 root root false - - -" % (dir)))
# Now we actually load from the configuration files
for conf in get_fs_perms_list(d).split():
if os.path.exists(conf):
f = open(conf)
for line in f:
if line.startswith('#'):
continue
lsplit = line.split()
if len(lsplit) == 0:
continue
if len(lsplit) != 8 and not (len(lsplit) == 3 and lsplit[1].lower() == "link"):
msg = "Fixup perms: %s invalid line: %s" % (conf, line)
package_qa_handle_error("perm-line", msg, d)
continue
entry = fs_perms_entry(d.expand(line))
if entry and entry.path:
if entry.link:
fs_link_table[entry.path] = entry
if entry.path in fs_perms_table:
fs_perms_table.pop(entry.path)
else:
fs_perms_table[entry.path] = entry
if entry.path in fs_link_table:
fs_link_table.pop(entry.path)
f.close()
# Debug -- list out in-memory table
#for dir in fs_perms_table:
# bb.note("Fixup Perms: %s: %s" % (dir, str(fs_perms_table[dir])))
#for link in fs_link_table:
# bb.note("Fixup Perms: %s: %s" % (link, str(fs_link_table[link])))
# We process links first, so we can go back and fixup directory ownership
# for any newly created directories
# Process in sorted order so /run gets created before /run/lock, etc.
for entry in sorted(fs_link_table.values(), key=lambda x: x.link):
link = entry.link
dir = entry.path
origin = dvar + dir
if not (cpath.exists(origin) and cpath.isdir(origin) and not cpath.islink(origin)):
continue
if link[0] == "/":
target = dvar + link
ptarget = link
else:
target = os.path.join(os.path.dirname(origin), link)
ptarget = os.path.join(os.path.dirname(dir), link)
if os.path.exists(target):
msg = "Fixup Perms: Unable to correct directory link, target already exists: %s -> %s" % (dir, ptarget)
package_qa_handle_error("perm-link", msg, d)
continue
# Create path to move directory to, move it, and then setup the symlink
bb.utils.mkdirhier(os.path.dirname(target))
#bb.note("Fixup Perms: Rename %s -> %s" % (dir, ptarget))
os.rename(origin, target)
#bb.note("Fixup Perms: Link %s -> %s" % (dir, link))
os.symlink(link, origin)
for dir in fs_perms_table:
origin = dvar + dir
if not (cpath.exists(origin) and cpath.isdir(origin)):
continue
fix_perms(origin, fs_perms_table[dir].mode, fs_perms_table[dir].uid, fs_perms_table[dir].gid, dir)
if fs_perms_table[dir].walk == 'true':
for root, dirs, files in os.walk(origin):
for dr in dirs:
each_dir = os.path.join(root, dr)
fix_perms(each_dir, fs_perms_table[dir].mode, fs_perms_table[dir].uid, fs_perms_table[dir].gid, dir)
for f in files:
each_file = os.path.join(root, f)
fix_perms(each_file, fs_perms_table[dir].fmode, fs_perms_table[dir].fuid, fs_perms_table[dir].fgid, dir)
}
python split_and_strip_files () {
import stat, errno
import subprocess
dvar = d.getVar('PKGD')
pn = d.getVar('PN')
targetos = d.getVar('TARGET_OS')
oldcwd = os.getcwd()
os.chdir(dvar)
# We default to '.debug' style
if d.getVar('PACKAGE_DEBUG_SPLIT_STYLE') == 'debug-file-directory':
# Single debug-file-directory style debug info
debugappend = ".debug"
debugdir = ""
debuglibdir = "/usr/lib/debug"
debugsrcdir = "/usr/src/debug"
elif d.getVar('PACKAGE_DEBUG_SPLIT_STYLE') == 'debug-without-src':
# Original OE-core, a.k.a. ".debug", style debug info, but without sources in /usr/src/debug
debugappend = ""
debugdir = "/.debug"
debuglibdir = ""
debugsrcdir = ""
elif d.getVar('PACKAGE_DEBUG_SPLIT_STYLE') == 'debug-with-srcpkg':
debugappend = ""
debugdir = "/.debug"
debuglibdir = ""
debugsrcdir = "/usr/src/debug"
else:
# Original OE-core, a.k.a. ".debug", style debug info
debugappend = ""
debugdir = "/.debug"
debuglibdir = ""
debugsrcdir = "/usr/src/debug"
#
# First lets figure out all of the files we may have to process ... do this only once!
#
elffiles = {}
symlinks = {}
kernmods = []
staticlibs = []
inodes = {}
libdir = os.path.abspath(dvar + os.sep + d.getVar("libdir"))
baselibdir = os.path.abspath(dvar + os.sep + d.getVar("base_libdir"))
skipfiles = (d.getVar("INHIBIT_PACKAGE_STRIP_FILES") or "").split()
if (d.getVar('INHIBIT_PACKAGE_STRIP') != '1' or \
d.getVar('INHIBIT_PACKAGE_DEBUG_SPLIT') != '1'):
checkelf = {}
checkelflinks = {}
for root, dirs, files in cpath.walk(dvar):
for f in files:
file = os.path.join(root, f)
if file.endswith(".ko") and file.find("/lib/modules/") != -1:
kernmods.append(file)
continue
if oe.package.is_static_lib(file):
staticlibs.append(file)
continue
# Skip debug files
if debugappend and file.endswith(debugappend):
continue
if debugdir and debugdir in os.path.dirname(file[len(dvar):]):
continue
if file in skipfiles:
continue
try:
ltarget = cpath.realpath(file, dvar, False)
s = cpath.lstat(ltarget)
except OSError as e:
(err, strerror) = e.args
if err != errno.ENOENT:
raise
# Skip broken symlinks
continue
if not s:
continue
# Check its an executable
if (s[stat.ST_MODE] & stat.S_IXUSR) or (s[stat.ST_MODE] & stat.S_IXGRP) or (s[stat.ST_MODE] & stat.S_IXOTH) \
or ((file.startswith(libdir) or file.startswith(baselibdir)) and (".so" in f or ".node" in f)):
if cpath.islink(file):
checkelflinks[file] = ltarget
continue
# Use a reference of device ID and inode number to identify files
file_reference = "%d_%d" % (s.st_dev, s.st_ino)
checkelf[file] = (file, file_reference)
results = oe.utils.multiprocess_launch(oe.package.is_elf, checkelflinks.values(), d)
results_map = {}
for (ltarget, elf_file) in results:
results_map[ltarget] = elf_file
for file in checkelflinks:
ltarget = checkelflinks[file]
# If it's a symlink, and points to an ELF file, we capture the readlink target
if results_map[ltarget]:
target = os.readlink(file)
#bb.note("Sym: %s (%d)" % (ltarget, results_map[ltarget]))
symlinks[file] = target
results = oe.utils.multiprocess_launch(oe.package.is_elf, checkelf.keys(), d)
# Sort results by file path. This ensures that the files are always
# processed in the same order, which is important to make sure builds
# are reproducible when dealing with hardlinks
results.sort(key=lambda x: x[0])
for (file, elf_file) in results:
# It's a file (or hardlink), not a link
# ...but is it ELF, and is it already stripped?
if elf_file & 1:
if elf_file & 2:
if 'already-stripped' in (d.getVar('INSANE_SKIP_' + pn) or "").split():
bb.note("Skipping file %s from %s for already-stripped QA test" % (file[len(dvar):], pn))
else:
msg = "File '%s' from %s was already stripped, this will prevent future debugging!" % (file[len(dvar):], pn)
package_qa_handle_error("already-stripped", msg, d)
continue
# At this point we have an unstripped elf file. We need to:
# a) Make sure any file we strip is not hardlinked to anything else outside this tree
# b) Only strip any hardlinked file once (no races)
# c) Track any hardlinks between files so that we can reconstruct matching debug file hardlinks
# Use a reference of device ID and inode number to identify files
file_reference = checkelf[file][1]
if file_reference in inodes:
os.unlink(file)
os.link(inodes[file_reference][0], file)
inodes[file_reference].append(file)
else:
inodes[file_reference] = [file]
# break hardlink
bb.utils.break_hardlinks(file)
elffiles[file] = elf_file
# Modified the file so clear the cache
cpath.updatecache(file)
#
# First lets process debug splitting
#
if (d.getVar('INHIBIT_PACKAGE_DEBUG_SPLIT') != '1'):
results = oe.utils.multiprocess_launch(splitdebuginfo, list(elffiles), d, extraargs=(dvar, debugdir, debuglibdir, debugappend, debugsrcdir, d))
if debugsrcdir and not targetos.startswith("mingw"):
for file in staticlibs:
results.extend(source_info(file, d, fatal=False))
sources = set()
for r in results:
sources.update(r[1])
# Hardlink our debug symbols to the other hardlink copies
for ref in inodes:
if len(inodes[ref]) == 1:
continue
target = inodes[ref][0][len(dvar):]
for file in inodes[ref][1:]:
src = file[len(dvar):]
dest = debuglibdir + os.path.dirname(src) + debugdir + "/" + os.path.basename(target) + debugappend
fpath = dvar + dest
ftarget = dvar + debuglibdir + os.path.dirname(target) + debugdir + "/" + os.path.basename(target) + debugappend
bb.utils.mkdirhier(os.path.dirname(fpath))
# Only one hardlink of separated debug info file in each directory
if not os.access(fpath, os.R_OK):
#bb.note("Link %s -> %s" % (fpath, ftarget))
os.link(ftarget, fpath)
# Create symlinks for all cases we were able to split symbols
for file in symlinks:
src = file[len(dvar):]
dest = debuglibdir + os.path.dirname(src) + debugdir + "/" + os.path.basename(src) + debugappend
fpath = dvar + dest
# Skip it if the target doesn't exist
try:
s = os.stat(fpath)
except OSError as e:
(err, strerror) = e.args
if err != errno.ENOENT:
raise
continue
ltarget = symlinks[file]
lpath = os.path.dirname(ltarget)
lbase = os.path.basename(ltarget)
ftarget = ""
if lpath and lpath != ".":
ftarget += lpath + debugdir + "/"
ftarget += lbase + debugappend
if lpath.startswith(".."):
ftarget = os.path.join("..", ftarget)
bb.utils.mkdirhier(os.path.dirname(fpath))
#bb.note("Symlink %s -> %s" % (fpath, ftarget))
os.symlink(ftarget, fpath)
# Process the debugsrcdir if requested...
# This copies and places the referenced sources for later debugging...
copydebugsources(debugsrcdir, sources, d)
#
# End of debug splitting
#
#
# Now lets go back over things and strip them
#
if (d.getVar('INHIBIT_PACKAGE_STRIP') != '1'):
strip = d.getVar("STRIP")
sfiles = []
for file in elffiles:
elf_file = int(elffiles[file])
#bb.note("Strip %s" % file)
sfiles.append((file, elf_file, strip))
for f in kernmods:
sfiles.append((f, 16, strip))
oe.utils.multiprocess_launch(oe.package.runstrip, sfiles, d)
#
# End of strip
#
os.chdir(oldcwd)
}
python populate_packages () {
import glob, re
workdir = d.getVar('WORKDIR')
outdir = d.getVar('DEPLOY_DIR')
dvar = d.getVar('PKGD')
packages = d.getVar('PACKAGES').split()
pn = d.getVar('PN')
bb.utils.mkdirhier(outdir)
os.chdir(dvar)
autodebug = not (d.getVar("NOAUTOPACKAGEDEBUG") or False)
split_source_package = (d.getVar('PACKAGE_DEBUG_SPLIT_STYLE') == 'debug-with-srcpkg')
# If debug-with-srcpkg mode is enabled then add the source package if it
# doesn't exist and add the source file contents to the source package.
if split_source_package:
src_package_name = ('%s-src' % d.getVar('PN'))
if not src_package_name in packages:
packages.append(src_package_name)
d.setVar('FILES_%s' % src_package_name, '/usr/src/debug')
# Sanity check PACKAGES for duplicates
# Sanity should be moved to sanity.bbclass once we have the infrastructure
package_dict = {}
for i, pkg in enumerate(packages):
if pkg in package_dict:
msg = "%s is listed in PACKAGES multiple times, this leads to packaging errors." % pkg
package_qa_handle_error("packages-list", msg, d)
# Ensure the source package gets the chance to pick up the source files
# before the debug package by ordering it first in PACKAGES. Whether it
# actually picks up any source files is controlled by
# PACKAGE_DEBUG_SPLIT_STYLE.
elif pkg.endswith("-src"):
package_dict[pkg] = (10, i)
elif autodebug and pkg.endswith("-dbg"):
package_dict[pkg] = (30, i)
else:
package_dict[pkg] = (50, i)
packages = sorted(package_dict.keys(), key=package_dict.get)
d.setVar('PACKAGES', ' '.join(packages))
pkgdest = d.getVar('PKGDEST')
seen = []
# os.mkdir masks the permissions with umask so we have to unset it first
oldumask = os.umask(0)
debug = []
for root, dirs, files in cpath.walk(dvar):
dir = root[len(dvar):]
if not dir:
dir = os.sep
for f in (files + dirs):
path = "." + os.path.join(dir, f)
if "/.debug/" in path or path.endswith("/.debug"):
debug.append(path)
for pkg in packages:
root = os.path.join(pkgdest, pkg)
bb.utils.mkdirhier(root)
filesvar = d.getVar('FILES_%s' % pkg) or ""
if "//" in filesvar:
msg = "FILES variable for package %s contains '//' which is invalid. Attempting to fix this but you should correct the metadata.\n" % pkg
package_qa_handle_error("files-invalid", msg, d)
filesvar.replace("//", "/")
origfiles = filesvar.split()
files, symlink_paths = files_from_filevars(origfiles)
if autodebug and pkg.endswith("-dbg"):
files.extend(debug)
for file in files:
if (not cpath.islink(file)) and (not cpath.exists(file)):
continue
if file in seen:
continue
seen.append(file)
def mkdir(src, dest, p):
src = os.path.join(src, p)
dest = os.path.join(dest, p)
fstat = cpath.stat(src)
os.mkdir(dest)
os.chmod(dest, fstat.st_mode)
os.chown(dest, fstat.st_uid, fstat.st_gid)
if p not in seen:
seen.append(p)
cpath.updatecache(dest)
def mkdir_recurse(src, dest, paths):
if cpath.exists(dest + '/' + paths):
return
while paths.startswith("./"):
paths = paths[2:]
p = "."
for c in paths.split("/"):
p = os.path.join(p, c)
if not cpath.exists(os.path.join(dest, p)):
mkdir(src, dest, p)
if cpath.isdir(file) and not cpath.islink(file):
mkdir_recurse(dvar, root, file)
continue
mkdir_recurse(dvar, root, os.path.dirname(file))
fpath = os.path.join(root,file)
if not cpath.islink(file):
os.link(file, fpath)
continue
ret = bb.utils.copyfile(file, fpath)
if ret is False or ret == 0:
bb.fatal("File population failed")
# Check if symlink paths exist
for file in symlink_paths:
if not os.path.exists(os.path.join(root,file)):
bb.fatal("File '%s' cannot be packaged into '%s' because its "
"parent directory structure does not exist. One of "
"its parent directories is a symlink whose target "
"directory is not included in the package." %
(file, pkg))
os.umask(oldumask)
os.chdir(workdir)
# Handle LICENSE_EXCLUSION
package_list = []
for pkg in packages:
if d.getVar('LICENSE_EXCLUSION-' + pkg):
msg = "%s has an incompatible license. Excluding from packaging." % pkg
package_qa_handle_error("incompatible-license", msg, d)
else:
package_list.append(pkg)
d.setVar('PACKAGES', ' '.join(package_list))
unshipped = []
for root, dirs, files in cpath.walk(dvar):
dir = root[len(dvar):]
if not dir:
dir = os.sep
for f in (files + dirs):
path = os.path.join(dir, f)
if ('.' + path) not in seen:
unshipped.append(path)
if unshipped != []:
msg = pn + ": Files/directories were installed but not shipped in any package:"
if "installed-vs-shipped" in (d.getVar('INSANE_SKIP_' + pn) or "").split():
bb.note("Package %s skipping QA tests: installed-vs-shipped" % pn)
else:
for f in unshipped:
msg = msg + "\n " + f
msg = msg + "\nPlease set FILES such that these items are packaged. Alternatively if they are unneeded, avoid installing them or delete them within do_install.\n"
msg = msg + "%s: %d installed and not shipped files." % (pn, len(unshipped))
package_qa_handle_error("installed-vs-shipped", msg, d)
}
populate_packages[dirs] = "${D}"
python package_fixsymlinks () {
import errno
pkgdest = d.getVar('PKGDEST')
packages = d.getVar("PACKAGES", False).split()
dangling_links = {}
pkg_files = {}
for pkg in packages:
dangling_links[pkg] = []
pkg_files[pkg] = []
inst_root = os.path.join(pkgdest, pkg)
for path in pkgfiles[pkg]:
rpath = path[len(inst_root):]
pkg_files[pkg].append(rpath)
rtarget = cpath.realpath(path, inst_root, True, assume_dir = True)
if not cpath.lexists(rtarget):
dangling_links[pkg].append(os.path.normpath(rtarget[len(inst_root):]))
newrdepends = {}
for pkg in dangling_links:
for l in dangling_links[pkg]:
found = False
bb.debug(1, "%s contains dangling link %s" % (pkg, l))
for p in packages:
if l in pkg_files[p]:
found = True
bb.debug(1, "target found in %s" % p)
if p == pkg:
break
if pkg not in newrdepends:
newrdepends[pkg] = []
newrdepends[pkg].append(p)
break
if found == False:
bb.note("%s contains dangling symlink to %s" % (pkg, l))
for pkg in newrdepends:
rdepends = bb.utils.explode_dep_versions2(d.getVar('RDEPENDS_' + pkg) or "")
for p in newrdepends[pkg]:
if p not in rdepends:
rdepends[p] = []
d.setVar('RDEPENDS_' + pkg, bb.utils.join_deps(rdepends, commasep=False))
}
python package_package_name_hook() {
"""
A package_name_hook function can be used to rewrite the package names by
changing PKG. For an example, see debian.bbclass.
"""
pass
}
EXPORT_FUNCTIONS package_name_hook
PKGDESTWORK = "${WORKDIR}/pkgdata"
PKGDATA_VARS = "PN PE PV PR PKGE PKGV PKGR LICENSE DESCRIPTION SUMMARY RDEPENDS RPROVIDES RRECOMMENDS RSUGGESTS RREPLACES RCONFLICTS SECTION PKG ALLOW_EMPTY FILES CONFFILES FILES_INFO pkg_postinst pkg_postrm pkg_preinst pkg_prerm"
python emit_pkgdata() {
from glob import glob
import json
def process_postinst_on_target(pkg, mlprefix):
pkgval = d.getVar('PKG_%s' % pkg)
if pkgval is None:
pkgval = pkg
defer_fragment = """
if [ -n "$D" ]; then
$INTERCEPT_DIR/postinst_intercept delay_to_first_boot %s mlprefix=%s
exit 0
fi
""" % (pkgval, mlprefix)
postinst = d.getVar('pkg_postinst_%s' % pkg)
postinst_ontarget = d.getVar('pkg_postinst_ontarget_%s' % pkg)
if postinst_ontarget:
bb.debug(1, 'adding deferred pkg_postinst_ontarget() to pkg_postinst() for %s' % pkg)
if not postinst:
postinst = '#!/bin/sh\n'
postinst += defer_fragment
postinst += postinst_ontarget
d.setVar('pkg_postinst_%s' % pkg, postinst)
def add_set_e_to_scriptlets(pkg):
for scriptlet_name in ('pkg_preinst', 'pkg_postinst', 'pkg_prerm', 'pkg_postrm'):
scriptlet = d.getVar('%s_%s' % (scriptlet_name, pkg))
if scriptlet:
scriptlet_split = scriptlet.split('\n')
if scriptlet_split[0].startswith("#!"):
scriptlet = scriptlet_split[0] + "\nset -e\n" + "\n".join(scriptlet_split[1:])
else:
scriptlet = "set -e\n" + "\n".join(scriptlet_split[0:])
d.setVar('%s_%s' % (scriptlet_name, pkg), scriptlet)
def write_if_exists(f, pkg, var):
def encode(str):
import codecs
c = codecs.getencoder("unicode_escape")
return c(str)[0].decode("latin1")
val = d.getVar('%s_%s' % (var, pkg))
if val:
f.write('%s_%s: %s\n' % (var, pkg, encode(val)))
return val
val = d.getVar('%s' % (var))
if val:
f.write('%s: %s\n' % (var, encode(val)))
return val
def write_extra_pkgs(variants, pn, packages, pkgdatadir):
for variant in variants:
with open("%s/%s-%s" % (pkgdatadir, variant, pn), 'w') as fd:
fd.write("PACKAGES: %s\n" % ' '.join(
map(lambda pkg: '%s-%s' % (variant, pkg), packages.split())))
def write_extra_runtime_pkgs(variants, packages, pkgdatadir):
for variant in variants:
for pkg in packages.split():
ml_pkg = "%s-%s" % (variant, pkg)
subdata_file = "%s/runtime/%s" % (pkgdatadir, ml_pkg)
with open(subdata_file, 'w') as fd:
fd.write("PKG_%s: %s" % (ml_pkg, pkg))
packages = d.getVar('PACKAGES')
pkgdest = d.getVar('PKGDEST')
pkgdatadir = d.getVar('PKGDESTWORK')
data_file = pkgdatadir + d.expand("/${PN}" )
f = open(data_file, 'w')
f.write("PACKAGES: %s\n" % packages)
f.close()
pn = d.getVar('PN')
global_variants = (d.getVar('MULTILIB_GLOBAL_VARIANTS') or "").split()
variants = (d.getVar('MULTILIB_VARIANTS') or "").split()
if bb.data.inherits_class('kernel', d) or bb.data.inherits_class('module-base', d):
write_extra_pkgs(variants, pn, packages, pkgdatadir)
if bb.data.inherits_class('allarch', d) and not variants \
and not bb.data.inherits_class('packagegroup', d):
write_extra_pkgs(global_variants, pn, packages, pkgdatadir)
workdir = d.getVar('WORKDIR')
for pkg in packages.split():
pkgval = d.getVar('PKG_%s' % pkg)
if pkgval is None:
pkgval = pkg
d.setVar('PKG_%s' % pkg, pkg)
pkgdestpkg = os.path.join(pkgdest, pkg)
files = {}
total_size = 0
seen = set()
for f in pkgfiles[pkg]:
relpth = os.path.relpath(f, pkgdestpkg)
fstat = os.lstat(f)
files[os.sep + relpth] = fstat.st_size
if fstat.st_ino not in seen:
seen.add(fstat.st_ino)
total_size += fstat.st_size
d.setVar('FILES_INFO', json.dumps(files, sort_keys=True))
process_postinst_on_target(pkg, d.getVar("MLPREFIX"))
add_set_e_to_scriptlets(pkg)
subdata_file = pkgdatadir + "/runtime/%s" % pkg
with open(subdata_file, 'w') as sf:
for var in (d.getVar('PKGDATA_VARS') or "").split():
val = write_if_exists(sf, pkg, var)
write_if_exists(sf, pkg, 'FILERPROVIDESFLIST')
for dfile in (d.getVar('FILERPROVIDESFLIST_' + pkg) or "").split():
write_if_exists(sf, pkg, 'FILERPROVIDES_' + dfile)
write_if_exists(sf, pkg, 'FILERDEPENDSFLIST')
for dfile in (d.getVar('FILERDEPENDSFLIST_' + pkg) or "").split():
write_if_exists(sf, pkg, 'FILERDEPENDS_' + dfile)
sf.write('%s_%s: %d\n' % ('PKGSIZE', pkg, total_size))
# Symlinks needed for rprovides lookup
rprov = d.getVar('RPROVIDES_%s' % pkg) or d.getVar('RPROVIDES')
if rprov:
for p in rprov.strip().split():
subdata_sym = pkgdatadir + "/runtime-rprovides/%s/%s" % (p, pkg)
bb.utils.mkdirhier(os.path.dirname(subdata_sym))
oe.path.symlink("../../runtime/%s" % pkg, subdata_sym, True)
allow_empty = d.getVar('ALLOW_EMPTY_%s' % pkg)
if not allow_empty:
allow_empty = d.getVar('ALLOW_EMPTY')
root = "%s/%s" % (pkgdest, pkg)
os.chdir(root)
g = glob('*')
if g or allow_empty == "1":
# Symlinks needed for reverse lookups (from the final package name)
subdata_sym = pkgdatadir + "/runtime-reverse/%s" % pkgval
oe.path.symlink("../runtime/%s" % pkg, subdata_sym, True)
packagedfile = pkgdatadir + '/runtime/%s.packaged' % pkg
open(packagedfile, 'w').close()
if bb.data.inherits_class('kernel', d) or bb.data.inherits_class('module-base', d):
write_extra_runtime_pkgs(variants, packages, pkgdatadir)
if bb.data.inherits_class('allarch', d) and not variants \
and not bb.data.inherits_class('packagegroup', d):
write_extra_runtime_pkgs(global_variants, packages, pkgdatadir)
}
emit_pkgdata[dirs] = "${PKGDESTWORK}/runtime ${PKGDESTWORK}/runtime-reverse ${PKGDESTWORK}/runtime-rprovides"
ldconfig_postinst_fragment() {
if [ x"$D" = "x" ]; then
if [ -x /sbin/ldconfig ]; then /sbin/ldconfig ; fi
fi
}
RPMDEPS = "${STAGING_LIBDIR_NATIVE}/rpm/rpmdeps --alldeps"
# Collect perfile run-time dependency metadata
# Output:
# FILERPROVIDESFLIST_pkg - list of all files w/ deps
# FILERPROVIDES_filepath_pkg - per file dep
#
# FILERDEPENDSFLIST_pkg - list of all files w/ deps
# FILERDEPENDS_filepath_pkg - per file dep
python package_do_filedeps() {
if d.getVar('SKIP_FILEDEPS') == '1':
return
pkgdest = d.getVar('PKGDEST')
packages = d.getVar('PACKAGES')
rpmdeps = d.getVar('RPMDEPS')
def chunks(files, n):
return [files[i:i+n] for i in range(0, len(files), n)]
pkglist = []
for pkg in packages.split():
if d.getVar('SKIP_FILEDEPS_' + pkg) == '1':
continue
if pkg.endswith('-dbg') or pkg.endswith('-doc') or pkg.find('-locale-') != -1 or pkg.find('-localedata-') != -1 or pkg.find('-gconv-') != -1 or pkg.find('-charmap-') != -1 or pkg.startswith('kernel-module-') or pkg.endswith('-src'):
continue
for files in chunks(pkgfiles[pkg], 100):
pkglist.append((pkg, files, rpmdeps, pkgdest))
processed = oe.utils.multiprocess_launch(oe.package.filedeprunner, pkglist, d)
provides_files = {}
requires_files = {}
for result in processed:
(pkg, provides, requires) = result
if pkg not in provides_files:
provides_files[pkg] = []
if pkg not in requires_files:
requires_files[pkg] = []
for file in sorted(provides):
provides_files[pkg].append(file)
key = "FILERPROVIDES_" + file + "_" + pkg
d.appendVar(key, " " + " ".join(provides[file]))
for file in sorted(requires):
requires_files[pkg].append(file)
key = "FILERDEPENDS_" + file + "_" + pkg
d.appendVar(key, " " + " ".join(requires[file]))
for pkg in requires_files:
d.setVar("FILERDEPENDSFLIST_" + pkg, " ".join(requires_files[pkg]))
for pkg in provides_files:
d.setVar("FILERPROVIDESFLIST_" + pkg, " ".join(provides_files[pkg]))
}
SHLIBSDIRS = "${WORKDIR_PKGDATA}/${MLPREFIX}shlibs2"
SHLIBSWORKDIR = "${PKGDESTWORK}/${MLPREFIX}shlibs2"
python package_do_shlibs() {
import re, pipes
import subprocess
exclude_shlibs = d.getVar('EXCLUDE_FROM_SHLIBS', False)
if exclude_shlibs:
bb.note("not generating shlibs")
return
lib_re = re.compile(r"^.*\.so")
libdir_re = re.compile(r".*/%s$" % d.getVar('baselib'))
packages = d.getVar('PACKAGES')
shlib_pkgs = []
exclusion_list = d.getVar("EXCLUDE_PACKAGES_FROM_SHLIBS")
if exclusion_list:
for pkg in packages.split():
if pkg not in exclusion_list.split():
shlib_pkgs.append(pkg)
else:
bb.note("not generating shlibs for %s" % pkg)
else:
shlib_pkgs = packages.split()
targetos = d.getVar('TARGET_OS')
workdir = d.getVar('WORKDIR')
ver = d.getVar('PKGV')
if not ver:
msg = "PKGV not defined"
package_qa_handle_error("pkgv-undefined", msg, d)
return
pkgdest = d.getVar('PKGDEST')
shlibswork_dir = d.getVar('SHLIBSWORKDIR')
def linux_so(file, pkg, pkgver, d):
needs_ldconfig = False
needed = set()
sonames = set()
renames = []
ldir = os.path.dirname(file).replace(pkgdest + "/" + pkg, '')
cmd = d.getVar('OBJDUMP') + " -p " + pipes.quote(file) + " 2>/dev/null"
fd = os.popen(cmd)
lines = fd.readlines()
fd.close()
rpath = tuple()
for l in lines:
m = re.match(r"\s+RPATH\s+([^\s]*)", l)
if m:
rpaths = m.group(1).replace("$ORIGIN", ldir).split(":")
rpath = tuple(map(os.path.normpath, rpaths))
for l in lines:
m = re.match(r"\s+NEEDED\s+([^\s]*)", l)
if m:
dep = m.group(1)
if dep not in needed:
needed.add((dep, file, rpath))
m = re.match(r"\s+SONAME\s+([^\s]*)", l)
if m:
this_soname = m.group(1)
prov = (this_soname, ldir, pkgver)
if not prov in sonames:
# if library is private (only used by package) then do not build shlib for it
if not private_libs or this_soname not in private_libs:
sonames.add(prov)
if libdir_re.match(os.path.dirname(file)):
needs_ldconfig = True
if snap_symlinks and (os.path.basename(file) != this_soname):
renames.append((file, os.path.join(os.path.dirname(file), this_soname)))
return (needs_ldconfig, needed, sonames, renames)
def darwin_so(file, needed, sonames, renames, pkgver):
if not os.path.exists(file):
return
ldir = os.path.dirname(file).replace(pkgdest + "/" + pkg, '')
def get_combinations(base):
#
# Given a base library name, find all combinations of this split by "." and "-"
#
combos = []
options = base.split(".")
for i in range(1, len(options) + 1):
combos.append(".".join(options[0:i]))
options = base.split("-")
for i in range(1, len(options) + 1):
combos.append("-".join(options[0:i]))
return combos
if (file.endswith('.dylib') or file.endswith('.so')) and not pkg.endswith('-dev') and not pkg.endswith('-dbg') and not pkg.endswith('-src'):
# Drop suffix
name = os.path.basename(file).rsplit(".",1)[0]
# Find all combinations
combos = get_combinations(name)
for combo in combos:
if not combo in sonames:
prov = (combo, ldir, pkgver)
sonames.add(prov)
if file.endswith('.dylib') or file.endswith('.so'):
rpath = []
p = subprocess.Popen([d.expand("${HOST_PREFIX}otool"), '-l', file], stdout=subprocess.PIPE, stderr=subprocess.PIPE)
out, err = p.communicate()
# If returned successfully, process stdout for results
if p.returncode == 0:
for l in out.split("\n"):
l = l.strip()
if l.startswith('path '):
rpath.append(l.split()[1])
p = subprocess.Popen([d.expand("${HOST_PREFIX}otool"), '-L', file], stdout=subprocess.PIPE, stderr=subprocess.PIPE)
out, err = p.communicate()
# If returned successfully, process stdout for results
if p.returncode == 0:
for l in out.split("\n"):
l = l.strip()
if not l or l.endswith(":"):
continue
if "is not an object file" in l:
continue
name = os.path.basename(l.split()[0]).rsplit(".", 1)[0]
if name and name not in needed[pkg]:
needed[pkg].add((name, file, tuple()))
def mingw_dll(file, needed, sonames, renames, pkgver):
if not os.path.exists(file):
return
if file.endswith(".dll"):
# assume all dlls are shared objects provided by the package
sonames.add((os.path.basename(file), os.path.dirname(file).replace(pkgdest + "/" + pkg, ''), pkgver))
if (file.endswith(".dll") or file.endswith(".exe")):
# use objdump to search for "DLL Name: .*\.dll"
p = subprocess.Popen([d.expand("${HOST_PREFIX}objdump"), "-p", file], stdout=subprocess.PIPE, stderr=subprocess.PIPE)
out, err = p.communicate()
# process the output, grabbing all .dll names
if p.returncode == 0:
for m in re.finditer(r"DLL Name: (.*?\.dll)$", out.decode(), re.MULTILINE | re.IGNORECASE):
dllname = m.group(1)
if dllname:
needed[pkg].add((dllname, file, tuple()))
if d.getVar('PACKAGE_SNAP_LIB_SYMLINKS') == "1":
snap_symlinks = True
else:
snap_symlinks = False
use_ldconfig = bb.utils.contains('DISTRO_FEATURES', 'ldconfig', True, False, d)
needed = {}
shlib_provider = oe.package.read_shlib_providers(d)
for pkg in shlib_pkgs:
private_libs = d.getVar('PRIVATE_LIBS_' + pkg) or d.getVar('PRIVATE_LIBS') or ""
private_libs = private_libs.split()
needs_ldconfig = False
bb.debug(2, "calculating shlib provides for %s" % pkg)
pkgver = d.getVar('PKGV_' + pkg)
if not pkgver:
pkgver = d.getVar('PV_' + pkg)
if not pkgver:
pkgver = ver
needed[pkg] = set()
sonames = set()
renames = []
linuxlist = []
for file in pkgfiles[pkg]:
soname = None
if cpath.islink(file):
continue
if targetos == "darwin" or targetos == "darwin8":
darwin_so(file, needed, sonames, renames, pkgver)
elif targetos.startswith("mingw"):
mingw_dll(file, needed, sonames, renames, pkgver)
elif os.access(file, os.X_OK) or lib_re.match(file):
linuxlist.append(file)
if linuxlist:
results = oe.utils.multiprocess_launch(linux_so, linuxlist, d, extraargs=(pkg, pkgver, d))
for r in results:
ldconfig = r[0]
needed[pkg] |= r[1]
sonames |= r[2]
renames.extend(r[3])
needs_ldconfig = needs_ldconfig or ldconfig
for (old, new) in renames:
bb.note("Renaming %s to %s" % (old, new))
os.rename(old, new)
pkgfiles[pkg].remove(old)
shlibs_file = os.path.join(shlibswork_dir, pkg + ".list")
if len(sonames):
fd = open(shlibs_file, 'w')
for s in sonames:
if s[0] in shlib_provider and s[1] in shlib_provider[s[0]]:
(old_pkg, old_pkgver) = shlib_provider[s[0]][s[1]]
if old_pkg != pkg:
bb.warn('%s-%s was registered as shlib provider for %s, changing it to %s-%s because it was built later' % (old_pkg, old_pkgver, s[0], pkg, pkgver))
bb.debug(1, 'registering %s-%s as shlib provider for %s' % (pkg, pkgver, s[0]))
fd.write(s[0] + ':' + s[1] + ':' + s[2] + '\n')
if s[0] not in shlib_provider:
shlib_provider[s[0]] = {}
shlib_provider[s[0]][s[1]] = (pkg, pkgver)
fd.close()
if needs_ldconfig and use_ldconfig:
bb.debug(1, 'adding ldconfig call to postinst for %s' % pkg)
postinst = d.getVar('pkg_postinst_%s' % pkg)
if not postinst:
postinst = '#!/bin/sh\n'
postinst += d.getVar('ldconfig_postinst_fragment')
d.setVar('pkg_postinst_%s' % pkg, postinst)
bb.debug(1, 'LIBNAMES: pkg %s sonames %s' % (pkg, sonames))
assumed_libs = d.getVar('ASSUME_SHLIBS')
if assumed_libs:
libdir = d.getVar("libdir")
for e in assumed_libs.split():
l, dep_pkg = e.split(":")
lib_ver = None
dep_pkg = dep_pkg.rsplit("_", 1)
if len(dep_pkg) == 2:
lib_ver = dep_pkg[1]
dep_pkg = dep_pkg[0]
if l not in shlib_provider:
shlib_provider[l] = {}
shlib_provider[l][libdir] = (dep_pkg, lib_ver)
libsearchpath = [d.getVar('libdir'), d.getVar('base_libdir')]
for pkg in shlib_pkgs:
bb.debug(2, "calculating shlib requirements for %s" % pkg)
private_libs = d.getVar('PRIVATE_LIBS_' + pkg) or d.getVar('PRIVATE_LIBS') or ""
private_libs = private_libs.split()
deps = list()
for n in needed[pkg]:
# if n is in private libraries, don't try to search provider for it
# this could cause problem in case some abc.bb provides private
# /opt/abc/lib/libfoo.so.1 and contains /usr/bin/abc depending on system library libfoo.so.1
# but skipping it is still better alternative than providing own
# version and then adding runtime dependency for the same system library
if private_libs and n[0] in private_libs:
bb.debug(2, '%s: Dependency %s covered by PRIVATE_LIBS' % (pkg, n[0]))
continue
if n[0] in shlib_provider.keys():
shlib_provider_path = []
for k in shlib_provider[n[0]].keys():
shlib_provider_path.append(k)
match = None
for p in list(n[2]) + shlib_provider_path + libsearchpath:
if p in shlib_provider[n[0]]:
match = p
break
if match:
(dep_pkg, ver_needed) = shlib_provider[n[0]][match]
bb.debug(2, '%s: Dependency %s requires package %s (used by files: %s)' % (pkg, n[0], dep_pkg, n[1]))
if dep_pkg == pkg:
continue
if ver_needed:
dep = "%s (>= %s)" % (dep_pkg, ver_needed)
else:
dep = dep_pkg
if not dep in deps:
deps.append(dep)
continue
bb.note("Couldn't find shared library provider for %s, used by files: %s" % (n[0], n[1]))
deps_file = os.path.join(pkgdest, pkg + ".shlibdeps")
if os.path.exists(deps_file):
os.remove(deps_file)
if len(deps):
fd = open(deps_file, 'w')
for dep in sorted(deps):
fd.write(dep + '\n')
fd.close()
}
python package_do_pkgconfig () {
import re
packages = d.getVar('PACKAGES')
workdir = d.getVar('WORKDIR')
pkgdest = d.getVar('PKGDEST')
shlibs_dirs = d.getVar('SHLIBSDIRS').split()
shlibswork_dir = d.getVar('SHLIBSWORKDIR')
pc_re = re.compile(r'(.*)\.pc$')
var_re = re.compile(r'(.*)=(.*)')
field_re = re.compile(r'(.*): (.*)')
pkgconfig_provided = {}
pkgconfig_needed = {}
for pkg in packages.split():
pkgconfig_provided[pkg] = []
pkgconfig_needed[pkg] = []
for file in pkgfiles[pkg]:
m = pc_re.match(file)
if m:
pd = bb.data.init()
name = m.group(1)
pkgconfig_provided[pkg].append(name)
if not os.access(file, os.R_OK):
continue
f = open(file, 'r')
lines = f.readlines()
f.close()
for l in lines:
m = var_re.match(l)
if m:
name = m.group(1)
val = m.group(2)
pd.setVar(name, pd.expand(val))
continue
m = field_re.match(l)
if m:
hdr = m.group(1)
exp = pd.expand(m.group(2))
if hdr == 'Requires':
pkgconfig_needed[pkg] += exp.replace(',', ' ').split()
for pkg in packages.split():
pkgs_file = os.path.join(shlibswork_dir, pkg + ".pclist")
if pkgconfig_provided[pkg] != []:
f = open(pkgs_file, 'w')
for p in pkgconfig_provided[pkg]:
f.write('%s\n' % p)
f.close()
# Go from least to most specific since the last one found wins
for dir in reversed(shlibs_dirs):
if not os.path.exists(dir):
continue
for file in os.listdir(dir):
m = re.match(r'^(.*)\.pclist$', file)
if m:
pkg = m.group(1)
fd = open(os.path.join(dir, file))
lines = fd.readlines()
fd.close()
pkgconfig_provided[pkg] = []
for l in lines:
pkgconfig_provided[pkg].append(l.rstrip())
for pkg in packages.split():
deps = []
for n in pkgconfig_needed[pkg]:
found = False
for k in pkgconfig_provided.keys():
if n in pkgconfig_provided[k]:
if k != pkg and not (k in deps):
deps.append(k)
found = True
if found == False:
bb.note("couldn't find pkgconfig module '%s' in any package" % n)
deps_file = os.path.join(pkgdest, pkg + ".pcdeps")
if len(deps):
fd = open(deps_file, 'w')
for dep in deps:
fd.write(dep + '\n')
fd.close()
}
def read_libdep_files(d):
pkglibdeps = {}
packages = d.getVar('PACKAGES').split()
for pkg in packages:
pkglibdeps[pkg] = {}
for extension in ".shlibdeps", ".pcdeps", ".clilibdeps":
depsfile = d.expand("${PKGDEST}/" + pkg + extension)
if os.access(depsfile, os.R_OK):
fd = open(depsfile)
lines = fd.readlines()
fd.close()
for l in lines:
l.rstrip()
deps = bb.utils.explode_dep_versions2(l)
for dep in deps:
if not dep in pkglibdeps[pkg]:
pkglibdeps[pkg][dep] = deps[dep]
return pkglibdeps
python read_shlibdeps () {
pkglibdeps = read_libdep_files(d)
packages = d.getVar('PACKAGES').split()
for pkg in packages:
rdepends = bb.utils.explode_dep_versions2(d.getVar('RDEPENDS_' + pkg) or "")
for dep in sorted(pkglibdeps[pkg]):
# Add the dep if it's not already there, or if no comparison is set
if dep not in rdepends:
rdepends[dep] = []
for v in pkglibdeps[pkg][dep]:
if v not in rdepends[dep]:
rdepends[dep].append(v)
d.setVar('RDEPENDS_' + pkg, bb.utils.join_deps(rdepends, commasep=False))
}
python package_depchains() {
"""
For a given set of prefix and postfix modifiers, make those packages
RRECOMMENDS on the corresponding packages for its RDEPENDS.
Example: If package A depends upon package B, and A's .bb emits an
A-dev package, this would make A-dev Recommends: B-dev.
If only one of a given suffix is specified, it will take the RRECOMMENDS
based on the RDEPENDS of *all* other packages. If more than one of a given
suffix is specified, its will only use the RDEPENDS of the single parent
package.
"""
packages = d.getVar('PACKAGES')
postfixes = (d.getVar('DEPCHAIN_POST') or '').split()
prefixes = (d.getVar('DEPCHAIN_PRE') or '').split()
def pkg_adddeprrecs(pkg, base, suffix, getname, depends, d):
#bb.note('depends for %s is %s' % (base, depends))
rreclist = bb.utils.explode_dep_versions2(d.getVar('RRECOMMENDS_' + pkg) or "")
for depend in sorted(depends):
if depend.find('-native') != -1 or depend.find('-cross') != -1 or depend.startswith('virtual/'):
#bb.note("Skipping %s" % depend)
continue
if depend.endswith('-dev'):
depend = depend[:-4]
if depend.endswith('-dbg'):
depend = depend[:-4]
pkgname = getname(depend, suffix)
#bb.note("Adding %s for %s" % (pkgname, depend))
if pkgname not in rreclist and pkgname != pkg:
rreclist[pkgname] = []
#bb.note('setting: RRECOMMENDS_%s=%s' % (pkg, ' '.join(rreclist)))
d.setVar('RRECOMMENDS_%s' % pkg, bb.utils.join_deps(rreclist, commasep=False))
def pkg_addrrecs(pkg, base, suffix, getname, rdepends, d):
#bb.note('rdepends for %s is %s' % (base, rdepends))
rreclist = bb.utils.explode_dep_versions2(d.getVar('RRECOMMENDS_' + pkg) or "")
for depend in sorted(rdepends):
if depend.find('virtual-locale-') != -1:
#bb.note("Skipping %s" % depend)
continue
if depend.endswith('-dev'):
depend = depend[:-4]
if depend.endswith('-dbg'):
depend = depend[:-4]
pkgname = getname(depend, suffix)
#bb.note("Adding %s for %s" % (pkgname, depend))
if pkgname not in rreclist and pkgname != pkg:
rreclist[pkgname] = []
#bb.note('setting: RRECOMMENDS_%s=%s' % (pkg, ' '.join(rreclist)))
d.setVar('RRECOMMENDS_%s' % pkg, bb.utils.join_deps(rreclist, commasep=False))
def add_dep(list, dep):
if dep not in list:
list.append(dep)
depends = []
for dep in bb.utils.explode_deps(d.getVar('DEPENDS') or ""):
add_dep(depends, dep)
rdepends = []
for pkg in packages.split():
for dep in bb.utils.explode_deps(d.getVar('RDEPENDS_' + pkg) or ""):
add_dep(rdepends, dep)
#bb.note('rdepends is %s' % rdepends)
def post_getname(name, suffix):
return '%s%s' % (name, suffix)
def pre_getname(name, suffix):
return '%s%s' % (suffix, name)
pkgs = {}
for pkg in packages.split():
for postfix in postfixes:
if pkg.endswith(postfix):
if not postfix in pkgs:
pkgs[postfix] = {}
pkgs[postfix][pkg] = (pkg[:-len(postfix)], post_getname)
for prefix in prefixes:
if pkg.startswith(prefix):
if not prefix in pkgs:
pkgs[prefix] = {}
pkgs[prefix][pkg] = (pkg[:-len(prefix)], pre_getname)
if "-dbg" in pkgs:
pkglibdeps = read_libdep_files(d)
pkglibdeplist = []
for pkg in pkglibdeps:
for k in pkglibdeps[pkg]:
add_dep(pkglibdeplist, k)
dbgdefaultdeps = ((d.getVar('DEPCHAIN_DBGDEFAULTDEPS') == '1') or (bb.data.inherits_class('packagegroup', d)))
for suffix in pkgs:
for pkg in pkgs[suffix]:
if d.getVarFlag('RRECOMMENDS_' + pkg, 'nodeprrecs'):
continue
(base, func) = pkgs[suffix][pkg]
if suffix == "-dev":
pkg_adddeprrecs(pkg, base, suffix, func, depends, d)
elif suffix == "-dbg":
if not dbgdefaultdeps:
pkg_addrrecs(pkg, base, suffix, func, pkglibdeplist, d)
continue
if len(pkgs[suffix]) == 1:
pkg_addrrecs(pkg, base, suffix, func, rdepends, d)
else:
rdeps = []
for dep in bb.utils.explode_deps(d.getVar('RDEPENDS_' + base) or ""):
add_dep(rdeps, dep)
pkg_addrrecs(pkg, base, suffix, func, rdeps, d)
}
# Since bitbake can't determine which variables are accessed during package
# iteration, we need to list them here:
PACKAGEVARS = "FILES RDEPENDS RRECOMMENDS SUMMARY DESCRIPTION RSUGGESTS RPROVIDES RCONFLICTS PKG ALLOW_EMPTY pkg_postinst pkg_postrm pkg_postinst_ontarget INITSCRIPT_NAME INITSCRIPT_PARAMS DEBIAN_NOAUTONAME ALTERNATIVE PKGE PKGV PKGR USERADD_PARAM GROUPADD_PARAM CONFFILES SYSTEMD_SERVICE LICENSE SECTION pkg_preinst pkg_prerm RREPLACES GROUPMEMS_PARAM SYSTEMD_AUTO_ENABLE SKIP_FILEDEPS PRIVATE_LIBS"
def gen_packagevar(d):
ret = []
pkgs = (d.getVar("PACKAGES") or "").split()
vars = (d.getVar("PACKAGEVARS") or "").split()
for p in pkgs:
for v in vars:
ret.append(v + "_" + p)
# Ensure that changes to INCOMPATIBLE_LICENSE re-run do_package for
# affected recipes.
ret.append('LICENSE_EXCLUSION-%s' % p)
return " ".join(ret)
PACKAGE_PREPROCESS_FUNCS ?= ""
# Functions for setting up PKGD
PACKAGEBUILDPKGD ?= " \
package_prepare_pkgdata \
perform_packagecopy \
${PACKAGE_PREPROCESS_FUNCS} \
split_and_strip_files \
fixup_perms \
"
# Functions which split PKGD up into separate packages
PACKAGESPLITFUNCS ?= " \
package_do_split_locales \
populate_packages"
# Functions which process metadata based on split packages
PACKAGEFUNCS += " \
package_fixsymlinks \
package_name_hook \
package_do_filedeps \
package_do_shlibs \
package_do_pkgconfig \
read_shlibdeps \
package_depchains \
emit_pkgdata"
python do_package () {
# Change the following version to cause sstate to invalidate the package
# cache. This is useful if an item this class depends on changes in a
# way that the output of this class changes. rpmdeps is a good example
# as any change to rpmdeps requires this to be rerun.
# PACKAGE_BBCLASS_VERSION = "2"
# Init cachedpath
global cpath
cpath = oe.cachedpath.CachedPath()
###########################################################################
# Sanity test the setup
###########################################################################
packages = (d.getVar('PACKAGES') or "").split()
if len(packages) < 1:
bb.debug(1, "No packages to build, skipping do_package")
return
workdir = d.getVar('WORKDIR')
outdir = d.getVar('DEPLOY_DIR')
dest = d.getVar('D')
dvar = d.getVar('PKGD')
pn = d.getVar('PN')
if not workdir or not outdir or not dest or not dvar or not pn:
msg = "WORKDIR, DEPLOY_DIR, D, PN and PKGD all must be defined, unable to package"
package_qa_handle_error("var-undefined", msg, d)
return
bb.build.exec_func("package_get_auto_pr", d)
###########################################################################
# Optimisations
###########################################################################
# Continually expanding complex expressions is inefficient, particularly
# when we write to the datastore and invalidate the expansion cache. This
# code pre-expands some frequently used variables
def expandVar(x, d):
d.setVar(x, d.getVar(x))
for x in 'PN', 'PV', 'BPN', 'TARGET_SYS', 'EXTENDPRAUTO':
expandVar(x, d)
###########################################################################
# Setup PKGD (from D)
###########################################################################
for f in (d.getVar('PACKAGEBUILDPKGD') or '').split():
bb.build.exec_func(f, d)
###########################################################################
# Split up PKGD into PKGDEST
###########################################################################
cpath = oe.cachedpath.CachedPath()
for f in (d.getVar('PACKAGESPLITFUNCS') or '').split():
bb.build.exec_func(f, d)
###########################################################################
# Process PKGDEST
###########################################################################
# Build global list of files in each split package
global pkgfiles
pkgfiles = {}
packages = d.getVar('PACKAGES').split()
pkgdest = d.getVar('PKGDEST')
for pkg in packages:
pkgfiles[pkg] = []
for walkroot, dirs, files in cpath.walk(pkgdest + "/" + pkg):
for file in files:
pkgfiles[pkg].append(walkroot + os.sep + file)
for f in (d.getVar('PACKAGEFUNCS') or '').split():
bb.build.exec_func(f, d)
qa_sane = d.getVar("QA_SANE")
if not qa_sane:
bb.fatal("Fatal QA errors found, failing task.")
}
do_package[dirs] = "${SHLIBSWORKDIR} ${PKGDESTWORK} ${D}"
do_package[vardeps] += "${PACKAGEBUILDPKGD} ${PACKAGESPLITFUNCS} ${PACKAGEFUNCS} ${@gen_packagevar(d)}"
addtask package after do_install
SSTATETASKS += "do_package"
do_package[cleandirs] = "${PKGDEST} ${PKGDESTWORK}"
do_package[sstate-plaindirs] = "${PKGD} ${PKGDEST} ${PKGDESTWORK}"
do_package_setscene[dirs] = "${STAGING_DIR}"
python do_package_setscene () {
sstate_setscene(d)
}
addtask do_package_setscene
do_packagedata () {
:
}
addtask packagedata before do_build after do_package
SSTATETASKS += "do_packagedata"
do_packagedata[sstate-inputdirs] = "${PKGDESTWORK}"
do_packagedata[sstate-outputdirs] = "${PKGDATA_DIR}"
do_packagedata[stamp-extra-info] = "${MACHINE_ARCH}"
python do_packagedata_setscene () {
sstate_setscene(d)
}
addtask do_packagedata_setscene
#
# Helper functions for the package writing classes
#
def mapping_rename_hook(d):
"""
Rewrite variables to account for package renaming in things
like debian.bbclass or manual PKG variable name changes
"""
pkg = d.getVar("PKG")
runtime_mapping_rename("RDEPENDS", pkg, d)
runtime_mapping_rename("RRECOMMENDS", pkg, d)
runtime_mapping_rename("RSUGGESTS", pkg, d)
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