# # Copyright OpenEmbedded Contributors # # SPDX-License-Identifier: GPL-2.0-only # import errno import fnmatch import itertools import os import pipes import re import glob import stat import mmap import subprocess import oe.cachedpath def runstrip(arg): # Function to strip a single file, called from split_and_strip_files below # A working 'file' (one which works on the target architecture) # # The elftype is a bit pattern (explained in is_elf below) to tell # us what type of file we're processing... # 4 - executable # 8 - shared library # 16 - kernel module if len(arg) == 3: (file, elftype, strip) = arg extra_strip_sections = '' else: (file, elftype, strip, extra_strip_sections) = arg 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) stripcmd = [strip] skip_strip = False # kernel module if elftype & 16: if is_kernel_module_signed(file): bb.debug(1, "Skip strip on signed module %s" % file) skip_strip = True else: stripcmd.extend(["--strip-debug", "--remove-section=.comment", "--remove-section=.note", "--preserve-dates"]) # .so and shared library elif ".so" in file and elftype & 8: stripcmd.extend(["--remove-section=.comment", "--remove-section=.note", "--strip-unneeded"]) # shared or executable: elif elftype & 8 or elftype & 4: stripcmd.extend(["--remove-section=.comment", "--remove-section=.note"]) if extra_strip_sections != '': for section in extra_strip_sections.split(): stripcmd.extend(["--remove-section=" + section]) stripcmd.append(file) bb.debug(1, "runstrip: %s" % stripcmd) if not skip_strip: output = subprocess.check_output(stripcmd, stderr=subprocess.STDOUT) if newmode: os.chmod(file, origmode) # Detect .ko module by searching for "vermagic=" string def is_kernel_module(path): with open(path) as f: return mmap.mmap(f.fileno(), 0, prot=mmap.PROT_READ).find(b"vermagic=") >= 0 # Detect if .ko module is signed def is_kernel_module_signed(path): with open(path, "rb") as f: f.seek(-28, 2) module_tail = f.read() return "Module signature appended" in "".join(chr(c) for c in bytearray(module_tail)) # Return type (bits): # 0 - not elf # 1 - ELF # 2 - stripped # 4 - executable # 8 - shared library # 16 - kernel module def is_elf(path): exec_type = 0 result = subprocess.check_output(["file", "-b", path], stderr=subprocess.STDOUT).decode("utf-8") if "ELF" in result: exec_type |= 1 if "not stripped" not in result: exec_type |= 2 if "executable" in result: exec_type |= 4 if "shared" in result: exec_type |= 8 if "relocatable" in result: if path.endswith(".ko") and path.find("/lib/modules/") != -1 and is_kernel_module(path): exec_type |= 16 return (path, exec_type) def is_static_lib(path): if path.endswith('.a') and not os.path.islink(path): with open(path, 'rb') as fh: # The magic must include the first slash to avoid # matching golang static libraries magic = b'!\x0a/' start = fh.read(len(magic)) return start == magic return False def strip_execs(pn, dstdir, strip_cmd, libdir, base_libdir, d, qa_already_stripped=False): """ Strip executable code (like executables, shared libraries) _in_place_ - Based on sysroot_strip in staging.bbclass :param dstdir: directory in which to strip files :param strip_cmd: Strip command (usually ${STRIP}) :param libdir: ${libdir} - strip .so files in this directory :param base_libdir: ${base_libdir} - strip .so files in this directory :param qa_already_stripped: Set to True if already-stripped' in ${INSANE_SKIP} This is for proper logging and messages only. """ import stat, errno, oe.path, oe.utils elffiles = {} inodes = {} libdir = os.path.abspath(dstdir + os.sep + libdir) base_libdir = os.path.abspath(dstdir + os.sep + base_libdir) exec_mask = stat.S_IXUSR | stat.S_IXGRP | stat.S_IXOTH # # First lets figure out all of the files we may have to process # checkelf = [] inodecache = {} for root, dirs, files in os.walk(dstdir): for f in files: file = os.path.join(root, f) try: ltarget = oe.path.realpath(file, dstdir, False) s = os.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 excutable if s[stat.ST_MODE] & exec_mask \ or ((file.startswith(libdir) or file.startswith(base_libdir)) and ".so" in f) \ or file.endswith('.ko'): # If it's a symlink, and points to an ELF file, we capture the readlink target if os.path.islink(file): continue # It's a file (or hardlink), not a link # ...but is it ELF, and is it already stripped? checkelf.append(file) inodecache[file] = s.st_ino results = oe.utils.multiprocess_launch(is_elf, checkelf, d) for (file, elf_file) in results: #elf_file = is_elf(file) if elf_file & 1: if elf_file & 2: if qa_already_stripped: bb.note("Skipping file %s from %s for already-stripped QA test" % (file[len(dstdir):], pn)) else: bb.warn("File '%s' from %s was already stripped, this will prevent future debugging!" % (file[len(dstdir):], pn)) continue if inodecache[file] in inodes: os.unlink(file) os.link(inodes[inodecache[file]], file) else: # break hardlinks so that we do not strip the original. inodes[inodecache[file]] = file bb.utils.break_hardlinks(file) elffiles[file] = elf_file # # Now strip them (in parallel) # sfiles = [] for file in elffiles: elf_file = int(elffiles[file]) sfiles.append((file, elf_file, strip_cmd)) oe.utils.multiprocess_launch(runstrip, sfiles, d) def file_translate(file): ft = file.replace("@", "@at@") ft = ft.replace(" ", "@space@") ft = ft.replace("\t", "@tab@") ft = ft.replace("[", "@openbrace@") ft = ft.replace("]", "@closebrace@") ft = ft.replace("_", "@underscore@") return ft def filedeprunner(arg): import re, subprocess, shlex (pkg, pkgfiles, rpmdeps, pkgdest) = arg provides = {} requires = {} file_re = re.compile(r'\s+\d+\s(.*)') dep_re = re.compile(r'\s+(\S)\s+(.*)') r = re.compile(r'[<>=]+\s+\S*') def process_deps(pipe, pkg, pkgdest, provides, requires): file = None for line in pipe.split("\n"): m = file_re.match(line) if m: file = m.group(1) file = file.replace(pkgdest + "/" + pkg, "") file = file_translate(file) continue m = dep_re.match(line) if not m or not file: continue type, dep = m.groups() if type == 'R': i = requires elif type == 'P': i = provides else: continue if dep.startswith("python("): continue # Ignore all perl(VMS::...) and perl(Mac::...) dependencies. These # are typically used conditionally from the Perl code, but are # generated as unconditional dependencies. if dep.startswith('perl(VMS::') or dep.startswith('perl(Mac::'): continue # Ignore perl dependencies on .pl files. if dep.startswith('perl(') and dep.endswith('.pl)'): continue # Remove perl versions and perl module versions since they typically # do not make sense when used as package versions. if dep.startswith('perl') and r.search(dep): dep = dep.split()[0] # Put parentheses around any version specifications. dep = r.sub(r'(\g<0>)',dep) if file not in i: i[file] = [] i[file].append(dep) return provides, requires output = subprocess.check_output(shlex.split(rpmdeps) + pkgfiles, stderr=subprocess.STDOUT).decode("utf-8") provides, requires = process_deps(output, pkg, pkgdest, provides, requires) return (pkg, provides, requires) def read_shlib_providers(d): import re shlib_provider = {} shlibs_dirs = d.getVar('SHLIBSDIRS').split() list_re = re.compile(r'^(.*)\.list$') # Go from least to most specific since the last one found wins for dir in reversed(shlibs_dirs): bb.debug(2, "Reading shlib providers in %s" % (dir)) if not os.path.exists(dir): continue for file in sorted(os.listdir(dir)): m = list_re.match(file) if m: dep_pkg = m.group(1) try: fd = open(os.path.join(dir, file)) except IOError: # During a build unrelated shlib files may be deleted, so # handle files disappearing between the listdirs and open. continue lines = fd.readlines() fd.close() for l in lines: s = l.strip().split(":") if s[0] not in shlib_provider: shlib_provider[s[0]] = {} shlib_provider[s[0]][s[1]] = (dep_pkg, s[2]) return shlib_provider # 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 def fixup_perms(d): import pwd, grp cpath = oe.cachedpath.CachedPath() dvar = d.getVar('PKGD') # init using a string with the same format as a line as documented in # the fs-perms.txt file # # link # # __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 oe.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 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 not os.path.exists(conf): continue with open(conf) as f: 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) oe.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) # 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) oe.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)) bb.utils.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) # 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): 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_.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 legitimize_package_name(s): """ Make sure package names are legitimate strings """ def fixutf(m): cp = m.group(1) if cp: return ('\\u%s' % cp).encode('latin-1').decode('unicode_escape') # Handle unicode codepoints encoded as , as in glibc locale files. s = re.sub(r'', fixutf, s) # Remaining package name validity fixes return s.lower().replace('_', '-').replace('@', '+').replace(',', '+').replace('/', '-') def split_locales(d): cpath = oe.cachedpath.CachedPath() 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)) def package_debug_vars(d): # We default to '.debug' style if d.getVar('PACKAGE_DEBUG_SPLIT_STYLE') == 'debug-file-directory': # Single debug-file-directory style debug info debug_vars = { "append": ".debug", "staticappend": "", "dir": "", "staticdir": "", "libdir": "/usr/lib/debug", "staticlibdir": "/usr/lib/debug-static", "srcdir": "/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 debug_vars = { "append": "", "staticappend": "", "dir": "/.debug", "staticdir": "/.debug-static", "libdir": "", "staticlibdir": "", "srcdir": "", } elif d.getVar('PACKAGE_DEBUG_SPLIT_STYLE') == 'debug-with-srcpkg': debug_vars = { "append": "", "staticappend": "", "dir": "/.debug", "staticdir": "/.debug-static", "libdir": "", "staticlibdir": "", "srcdir": "/usr/src/debug", } else: # Original OE-core, a.k.a. ".debug", style debug info debug_vars = { "append": "", "staticappend": "", "dir": "/.debug", "staticdir": "/.debug-static", "libdir": "", "staticlibdir": "", "srcdir": "/usr/src/debug", } return debug_vars 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): 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, dv, 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 src = file[len(dvar):] dest = dv["libdir"] + os.path.dirname(src) + dv["dir"] + "/" + os.path.basename(src) + dv["append"] debugfile = dvar + dest sources = [] if file.endswith(".ko") and file.find("/lib/modules/") != -1: if oe.package.is_kernel_module_signed(file): bb.debug(1, "Skip strip on signed module %s" % file) return (file, 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") 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 dv["srcdir"]: 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 splitstaticdebuginfo(file, dvar, dv, d): # Unlike the function above, there is no way to split a static library # two components. So to get similar results we will copy the unmodified # static library (containing the debug symbols) into a new directory. # We will then strip (preserving symbols) the static library in the # typical location. # # return a mapping of files:debugsources src = file[len(dvar):] dest = dv["staticlibdir"] + os.path.dirname(src) + dv["staticdir"] + "/" + os.path.basename(src) + dv["staticappend"] debugfile = dvar + dest sources = [] # Copy the file... bb.utils.mkdirhier(os.path.dirname(debugfile)) #bb.note("Copy %s -> %s" % (file, debugfile)) dvar = d.getVar('PKGD') 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 dv["srcdir"]: sources = source_info(file, d) bb.utils.mkdirhier(os.path.dirname(debugfile)) # Copy the unmodified item to the debug directory shutil.copy2(file, debugfile) if newmode: os.chmod(file, origmode) return (file, sources) def inject_minidebuginfo(file, dvar, dv, d): # Extract just the symbols from debuginfo into minidebuginfo, # compress it with xz and inject it back into the binary in a .gnu_debugdata section. # https://sourceware.org/gdb/onlinedocs/gdb/MiniDebugInfo.html readelf = d.getVar('READELF') nm = d.getVar('NM') objcopy = d.getVar('OBJCOPY') minidebuginfodir = d.expand('${WORKDIR}/minidebuginfo') src = file[len(dvar):] dest = dv["libdir"] + os.path.dirname(src) + dv["dir"] + "/" + os.path.basename(src) + dv["append"] debugfile = dvar + dest minidebugfile = minidebuginfodir + src + '.minidebug' bb.utils.mkdirhier(os.path.dirname(minidebugfile)) # If we didn't produce debuginfo for any reason, we can't produce minidebuginfo either # so skip it. if not os.path.exists(debugfile): bb.debug(1, 'ELF file {} has no debuginfo, skipping minidebuginfo injection'.format(file)) return # minidebuginfo does not make sense to apply to ELF objects other than # executables and shared libraries, skip applying the minidebuginfo # generation for objects like kernel modules. for line in subprocess.check_output([readelf, '-h', debugfile], universal_newlines=True).splitlines(): if not line.strip().startswith("Type:"): continue elftype = line.split(":")[1].strip() if not any(elftype.startswith(i) for i in ["EXEC", "DYN"]): bb.debug(1, 'ELF file {} is not executable/shared, skipping minidebuginfo injection'.format(file)) return break # Find non-allocated PROGBITS, NOTE, and NOBITS sections in the debuginfo. # We will exclude all of these from minidebuginfo to save space. remove_section_names = [] for line in subprocess.check_output([readelf, '-W', '-S', debugfile], universal_newlines=True).splitlines(): # strip the leading " [ 1]" section index to allow splitting on space if ']' not in line: continue fields = line[line.index(']') + 1:].split() if len(fields) < 7: continue name = fields[0] type = fields[1] flags = fields[6] # .debug_ sections will be removed by objcopy -S so no need to explicitly remove them if name.startswith('.debug_'): continue if 'A' not in flags and type in ['PROGBITS', 'NOTE', 'NOBITS']: remove_section_names.append(name) # List dynamic symbols in the binary. We can exclude these from minidebuginfo # because they are always present in the binary. dynsyms = set() for line in subprocess.check_output([nm, '-D', file, '--format=posix', '--defined-only'], universal_newlines=True).splitlines(): dynsyms.add(line.split()[0]) # Find all function symbols from debuginfo which aren't in the dynamic symbols table. # These are the ones we want to keep in minidebuginfo. keep_symbols_file = minidebugfile + '.symlist' found_any_symbols = False with open(keep_symbols_file, 'w') as f: for line in subprocess.check_output([nm, debugfile, '--format=sysv', '--defined-only'], universal_newlines=True).splitlines(): fields = line.split('|') if len(fields) < 7: continue name = fields[0].strip() type = fields[3].strip() if type == 'FUNC' and name not in dynsyms: f.write('{}\n'.format(name)) found_any_symbols = True if not found_any_symbols: bb.debug(1, 'ELF file {} contains no symbols, skipping minidebuginfo injection'.format(file)) return bb.utils.remove(minidebugfile) bb.utils.remove(minidebugfile + '.xz') subprocess.check_call([objcopy, '-S'] + ['--remove-section={}'.format(s) for s in remove_section_names] + ['--keep-symbols={}'.format(keep_symbols_file), debugfile, minidebugfile]) subprocess.check_call(['xz', '--keep', minidebugfile]) subprocess.check_call([objcopy, '--add-section', '.gnu_debugdata={}.xz'.format(minidebugfile), file]) def copydebugsources(debugsrcdir, sources, d): # The debug src information written out to sourcefile is further processed # and copied to the destination here. cpath = oe.cachedpath.CachedPath() 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") sdir = d.getVar("S") cflags = d.expand("${CFLAGS}") prefixmap = {} for flag in cflags.split(): if not flag.startswith("-fdebug-prefix-map"): continue if "recipe-sysroot" in flag: continue flag = flag.split("=") prefixmap[flag[1]] = flag[2] nosuchdir = [] basepath = dvar for p in debugsrcdir.split("/"): basepath = basepath + "/" + p if not cpath.exists(basepath): nosuchdir.append(basepath) bb.utils.mkdirhier(basepath) cpath.updatecache(basepath) for pmap in prefixmap: # Ignore files from the recipe sysroots (target and native) cmd = "LC_ALL=C ; sort -z -u '%s' | egrep -v -z '((|)$|/.*recipe-sysroot.*/)' | " % sourcefile # We need to ignore files that are not actually ours # we do this by only paying attention to items from this package cmd += "fgrep -zw '%s' | " % prefixmap[pmap] # Remove prefix in the source paths cmd += "sed 's#%s/##g' | " % (prefixmap[pmap]) cmd += "(cd '%s' ; cpio -pd0mlL --no-preserve-owner '%s%s' 2>/dev/null)" % (pmap, dvar, prefixmap[pmap]) 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, prefixmap[pmap], dvar, prefixmap[pmap], pmap, dvar, prefixmap[pmap]) subprocess.check_output(cmd, shell=True, stderr=subprocess.STDOUT) # debugsources.list may be polluted from the host if we used externalsrc, # cpio uses copy-pass and may have just created a directory structure # matching the one from the host, if thats the case move those files to # debugsrcdir to avoid host contamination. # Empty dir structure will be deleted in the next step. # Same check as above for externalsrc if workdir not in sdir: if os.path.exists(dvar + debugsrcdir + sdir): cmd = "mv %s%s%s/* %s%s" % (dvar, debugsrcdir, sdir, 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) def process_split_and_strip_files(d): cpath = oe.cachedpath.CachedPath() dvar = d.getVar('PKGD') pn = d.getVar('PN') hostos = d.getVar('HOST_OS') oldcwd = os.getcwd() os.chdir(dvar) dv = package_debug_vars(d) # # First lets figure out all of the files we may have to process ... do this only once! # elffiles = {} symlinks = {} 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) # Skip debug files if dv["append"] and file.endswith(dv["append"]): continue if dv["dir"] and dv["dir"] in os.path.dirname(file[len(dvar):]): continue if file in skipfiles: continue if oe.package.is_static_lib(file): staticlibs.append(file) 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)) \ or (f.startswith('vmlinux') or ".ko" 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) oe.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) def strip_pkgd_prefix(f): nonlocal dvar if f.startswith(dvar): return f[len(dvar):] return f # # First lets process debug splitting # if (d.getVar('INHIBIT_PACKAGE_DEBUG_SPLIT') != '1'): results = oe.utils.multiprocess_launch(splitdebuginfo, list(elffiles), d, extraargs=(dvar, dv, d)) if dv["srcdir"] and not hostos.startswith("mingw"): if (d.getVar('PACKAGE_DEBUG_STATIC_SPLIT') == '1'): results = oe.utils.multiprocess_launch(splitstaticdebuginfo, staticlibs, d, extraargs=(dvar, dv, d)) else: for file in staticlibs: results.append( (file,source_info(file, d)) ) d.setVar("PKGDEBUGSOURCES", {strip_pkgd_prefix(f): sorted(s) for f, s in results}) 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 = dv["libdir"] + os.path.dirname(src) + dv["dir"] + "/" + os.path.basename(target) + dv["append"] fpath = dvar + dest ftarget = dvar + dv["libdir"] + os.path.dirname(target) + dv["dir"] + "/" + os.path.basename(target) + dv["append"] 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 = dv["libdir"] + os.path.dirname(src) + dv["dir"] + "/" + os.path.basename(src) + dv["append"] 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 + dv["dir"] + "/" ftarget += lbase + dv["append"] 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 dv["srcdir"] if requested... # This copies and places the referenced sources for later debugging... copydebugsources(dv["srcdir"], 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)) if (d.getVar('PACKAGE_STRIP_STATIC') == '1' or d.getVar('PACKAGE_DEBUG_STATIC_SPLIT') == '1'): for f in staticlibs: sfiles.append((f, 16, strip)) oe.utils.multiprocess_launch(oe.package.runstrip, sfiles, d) # Build "minidebuginfo" and reinject it back into the stripped binaries if d.getVar('PACKAGE_MINIDEBUGINFO') == '1': oe.utils.multiprocess_launch(inject_minidebuginfo, list(elffiles), d, extraargs=(dvar, dv, d)) # # End of strip # os.chdir(oldcwd) def populate_packages(d): cpath = oe.cachedpath.CachedPath() 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 oe.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 "/.debug-static/" 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 oe.qa.handle_error("files-invalid", msg, d) filesvar.replace("//", "/") origfiles = filesvar.split() files, symlink_paths = oe.package.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 excluding packages with incompatible licenses package_list = [] for pkg in packages: licenses = d.getVar('_exclude_incompatible-' + pkg) if licenses: msg = "Excluding %s from packaging as it has incompatible license(s): %s" % (pkg, licenses) oe.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)) oe.qa.handle_error("installed-vs-shipped", msg, d) def process_fixsymlinks(pkgfiles, d): cpath = oe.cachedpath.CachedPath() 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)) def process_filedeps(pkgfiles, d): """ 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 """ 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(sorted(requires_files[pkg]))) for pkg in provides_files: d.setVar("FILERPROVIDESFLIST:" + pkg, " ".join(sorted(provides_files[pkg]))) def process_shlibs(pkgfiles, d): cpath = oe.cachedpath.CachedPath() 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$" % d.getVar('baselib')) packages = d.getVar('PACKAGES') shlib_pkgs = [] exclusion_list = d.getVar("EXCLUDE_PACKAGES_FROM_SHLIBS") if exclusion_list: for pkg in packages.split(): if pkg not in exclusion_list.split(): shlib_pkgs.append(pkg) else: bb.note("not generating shlibs for %s" % pkg) else: shlib_pkgs = packages.split() hostos = d.getVar('HOST_OS') workdir = d.getVar('WORKDIR') ver = d.getVar('PKGV') if not ver: msg = "PKGV not defined" oe.qa.handle_error("pkgv-undefined", msg, d) return pkgdest = d.getVar('PKGDEST') shlibswork_dir = d.getVar('SHLIBSWORKDIR') def linux_so(file, pkg, pkgver, d): needs_ldconfig = False needed = set() sonames = set() renames = [] ldir = os.path.dirname(file).replace(pkgdest + "/" + pkg, '') cmd = d.getVar('OBJDUMP') + " -p " + pipes.quote(file) + " 2>/dev/null" fd = os.popen(cmd) lines = fd.readlines() fd.close() rpath = tuple() for l in lines: m = re.match(r"\s+RPATH\s+([^\s]*)", l) if m: rpaths = m.group(1).replace("$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 len([i for i in private_libs if fnmatch.fnmatch(this_soname, i)]) == 0: sonames.add(prov) if libdir_re.match(os.path.dirname(file)): needs_ldconfig = True if needs_ldconfig and 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 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 hostos == "darwin" or hostos == "darwin8": darwin_so(file, needed, sonames, renames, pkgver) elif hostos.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)) bb.utils.rename(old, new) pkgfiles[pkg].remove(old) shlibs_file = os.path.join(shlibswork_dir, pkg + ".list") if len(sonames): with open(shlibs_file, 'w') as fd: for s in sorted(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) if needs_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 len([i for i in private_libs if fnmatch.fnmatch(n[0], i)]) > 0: bb.debug(2, '%s: Dependency %s covered by PRIVATE_LIBS' % (pkg, n[0])) continue if n[0] in shlib_provider.keys(): shlib_provider_map = shlib_provider[n[0]] matches = set() for p in itertools.chain(list(n[2]), sorted(shlib_provider_map.keys()), libsearchpath): if p in shlib_provider_map: matches.add(p) if len(matches) > 1: matchpkgs = ', '.join([shlib_provider_map[match][0] for match in matches]) bb.error("%s: Multiple shlib providers for %s: %s (used by files: %s)" % (pkg, n[0], matchpkgs, n[1])) elif len(matches) == 1: (dep_pkg, ver_needed) = shlib_provider_map[matches.pop()] 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 deps: with open(deps_file, 'w') as fd: for dep in sorted(deps): fd.write(dep + '\n') def process_pkgconfig(pkgfiles, d): 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$') var_re = re.compile(r'(.*)=(.*)') field_re = re.compile(r'(.*): (.*)') pkgconfig_provided = {} pkgconfig_needed = {} for pkg in packages.split(): pkgconfig_provided[pkg] = [] pkgconfig_needed[pkg] = [] for file in sorted(pkgfiles[pkg]): m = pc_re.match(file) if m: pd = bb.data.init() name = m.group(1) pkgconfig_provided[pkg].append(os.path.basename(name)) if not os.access(file, os.R_OK): continue with open(file, 'r') as f: lines = f.readlines() for l in lines: m = var_re.match(l) if m: name = m.group(1) val = m.group(2) pd.setVar(name, pd.expand(val)) continue m = field_re.match(l) if m: hdr = m.group(1) exp = pd.expand(m.group(2)) if hdr == 'Requires': pkgconfig_needed[pkg] += exp.replace(',', ' ').split() for pkg in packages.split(): pkgs_file = os.path.join(shlibswork_dir, pkg + ".pclist") if pkgconfig_provided[pkg] != []: with open(pkgs_file, 'w') as f: for p in sorted(pkgconfig_provided[pkg]): f.write('%s\n' % p) # Go from least to most specific since the last one found wins for dir in reversed(shlibs_dirs): if not os.path.exists(dir): continue for file in sorted(os.listdir(dir)): m = re.match(r'^(.*)\.pclist$', file) if m: pkg = m.group(1) with open(os.path.join(dir, file)) as fd: lines = fd.readlines() 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): with open(deps_file, 'w') as fd: for dep in deps: fd.write(dep + '\n') 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): with open(depsfile) as fd: lines = fd.readlines() 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 def process_depchains(pkgfiles, d): """ 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)