'''apport.PackageInfo class implementation for python-apt and dpkg. This is used on Debian and derivatives such as Ubuntu. ''' # Copyright (C) 2007 - 2011 Canonical Ltd. # Author: Martin Pitt # # This program is free software; you can redistribute it and/or modify it # under the terms of the GNU General Public License as published by the # Free Software Foundation; either version 2 of the License, or (at your # option) any later version. See http://www.gnu.org/copyleft/gpl.html for # the full text of the license. import subprocess, os, glob, stat, sys, tempfile, re, shutil, time import hashlib import warnings warnings.filterwarnings('ignore', 'apt API not stable yet', FutureWarning) import apt try: import cPickle as pickle from urllib import urlopen (pickle, urlopen) # pyflakes except ImportError: # python 3 from urllib.request import urlopen import pickle import apport from apport.packaging import PackageInfo class __AptDpkgPackageInfo(PackageInfo): '''Concrete apport.PackageInfo class implementation for python-apt and dpkg, as found on Debian and derivatives such as Ubuntu.''' def __init__(self): self._apt_cache = None self._sandbox_apt_cache = None self._contents_dir = None self._mirror = None self._virtual_mapping_obj = None self.configuration = '/etc/default/apport' def __del__(self): try: if self._contents_dir: shutil.rmtree(self._contents_dir) except AttributeError: pass def _virtual_mapping(self, configdir): if self._virtual_mapping_obj is not None: return self._virtual_mapping_obj mapping_file = os.path.join(configdir, 'virtual_mapping.pickle') if os.path.exists(mapping_file): with open(mapping_file, 'rb') as fp: self._virtual_mapping_obj = pickle.load(fp) else: self._virtual_mapping_obj = {} return self._virtual_mapping_obj def _save_virtual_mapping(self, configdir): mapping_file = os.path.join(configdir, 'virtual_mapping.pickle') if self._virtual_mapping_obj is not None: with open(mapping_file, 'wb') as fp: pickle.dump(self._virtual_mapping_obj, fp) def _cache(self): '''Return apt.Cache() (initialized lazily).''' self._sandbox_apt_cache = None if not self._apt_cache: try: # avoid spewage on stdout progress = apt.progress.base.OpProgress() self._apt_cache = apt.Cache(progress, rootdir='/') except AttributeError: # older python-apt versions do not yet have above argument self._apt_cache = apt.Cache(rootdir='/') return self._apt_cache def _sandbox_cache(self, aptroot, apt_sources, fetchProgress): '''Build apt sandbox and return apt.Cache(rootdir=) (initialized lazily). Clear the package selection on subsequent calls. ''' self._apt_cache = None if not self._sandbox_apt_cache: self._build_apt_sandbox(aptroot, apt_sources) rootdir = os.path.abspath(aptroot) self._sandbox_apt_cache = apt.Cache(rootdir=rootdir) try: # We don't need to update this multiple times. self._sandbox_apt_cache.update(fetchProgress) except apt.cache.FetchFailedException as e: raise SystemError(str(e)) self._sandbox_apt_cache.open() else: self._sandbox_apt_cache.clear() return self._sandbox_apt_cache def _apt_pkg(self, package): '''Return apt.Cache()[package] (initialized lazily). Throw a ValueError if the package does not exist. ''' try: return self._cache()[package] except KeyError: raise ValueError('package %s does not exist' % package) def get_version(self, package): '''Return the installed version of a package.''' pkg = self._apt_pkg(package) inst = pkg.installed if not inst: raise ValueError('package %s does not exist' % package) return inst.version def get_available_version(self, package): '''Return the latest available version of a package.''' return self._apt_pkg(package).candidate.version def get_dependencies(self, package): '''Return a list of packages a package depends on.''' cur_ver = self._apt_pkg(package)._pkg.current_ver if not cur_ver: # happens with virtual packages return [] return [d[0].target_pkg.name for d in cur_ver.depends_list.get('Depends', []) + cur_ver.depends_list.get('PreDepends', []) + cur_ver.depends_list.get('Recommends', [])] def get_source(self, package): '''Return the source package name for a package.''' if self._apt_pkg(package).installed: return self._apt_pkg(package).installed.source_name elif self._apt_pkg(package).candidate: return self._apt_pkg(package).candidate.source_name else: raise ValueError('package %s does not exist' % package) def get_package_origin(self, package): '''Return package origin. Return the repository name from which a package was installed, or None if it cannot be determined. Throw ValueError if package is not installed. ''' pkg = self._apt_pkg(package).installed if not pkg: raise ValueError('package is not installed') for origin in pkg.origins: if origin.origin: return origin.origin return None def is_distro_package(self, package): '''Check if a package is a genuine distro package. Return True for a native distro package, False if it comes from a third-party source. ''' pkg = self._apt_pkg(package) # some PPA packages have installed version None, see LP#252734 if pkg.installed and pkg.installed.version is None: return False distro_name = self.get_os_version()[0] if pkg.candidate and pkg.candidate.origins: # might be None for o in pkg.candidate.origins: if o.origin == distro_name: return True return False def is_native_origin_package(self, package): '''Check if a package originated from a native location Return True for a package which came from an origin which is listed in native-origins.d, False if it comes from a third-party source. ''' pkg = self._apt_pkg(package) # some PPA packages have installed version None, see LP#252734 if pkg.installed and pkg.installed.version is None: return False native_origins = [] for f in glob.glob('/etc/apport/native-origins.d/*'): try: with open(f) as fd: for line in fd: line = line.strip() if line: native_origins.append(line) except IOError: pass if pkg.candidate and pkg.candidate.origins: # might be None for o in pkg.candidate.origins: if o.origin in native_origins: return True return False def get_architecture(self, package): '''Return the architecture of a package. This might differ on multiarch architectures (e. g. an i386 Firefox package on a x86_64 system)''' if self._apt_pkg(package).installed: return self._apt_pkg(package).installed.architecture or 'unknown' elif self._apt_pkg(package).candidate: return self._apt_pkg(package).candidate.architecture or 'unknown' else: raise ValueError('package %s does not exist' % package) def get_files(self, package): '''Return list of files shipped by a package.''' list = self._call_dpkg(['-L', package]) if list is None: return None return [f for f in list.splitlines() if not f.startswith('diverted')] def get_modified_files(self, package): '''Return list of all modified files of a package.''' # get the maximum mtime of package files that we consider unmodified listfile = '/var/lib/dpkg/info/%s:%s.list' % (package, self.get_system_architecture()) if not os.path.exists(listfile): listfile = '/var/lib/dpkg/info/%s.list' % package try: s = os.stat(listfile) if not stat.S_ISREG(s.st_mode): raise OSError max_time = max(s.st_mtime, s.st_ctime) except OSError: return [] # create a list of files with a newer timestamp for md5sum'ing sums = b'' sumfile = '/var/lib/dpkg/info/%s:%s.md5sums' % (package, self.get_system_architecture()) if not os.path.exists(sumfile): sumfile = '/var/lib/dpkg/info/%s.md5sums' % package if not os.path.exists(sumfile): # some packages do not ship md5sums return [] with open(sumfile, 'rb') as fd: for line in fd: try: # ignore lines with NUL bytes (happens, LP#96050) if b'\0' in line: apport.warning('%s contains NUL character, ignoring line', sumfile) continue words = line.split() if not words: apport.warning('%s contains empty line, ignoring line', sumfile) continue s = os.stat(('/' + words[-1].decode('UTF-8')).encode('UTF-8')) if max(s.st_mtime, s.st_ctime) <= max_time: continue except OSError: pass sums += line if sums: return self._check_files_md5(sums) else: return [] def get_modified_conffiles(self, package): '''Return modified configuration files of a package. Return a file name -> file contents map of all configuration files of package. Please note that apport.hookutils.attach_conffiles() is the official user-facing API for this, which will ask for confirmation and allows filtering. ''' dpkg = subprocess.Popen(['dpkg-query', '-W', '--showformat=${Conffiles}', package], stdout=subprocess.PIPE) out = dpkg.communicate()[0].decode() if dpkg.returncode != 0: return {} modified = {} for line in out.splitlines(): if not line: continue # just take the first two fields, to not stumble over obsolete # conffiles path, default_md5sum = line.strip().split()[:2] if os.path.exists(path): try: with open(path, 'rb') as fd: contents = fd.read() m = hashlib.md5() m.update(contents) calculated_md5sum = m.hexdigest() if calculated_md5sum != default_md5sum: modified[path] = contents except IOError as e: modified[path] = '[inaccessible: %s]' % str(e) else: modified[path] = '[deleted]' return modified def __fgrep_files(self, pattern, file_list): '''Call fgrep for a pattern on given file list and return the first matching file, or None if no file matches.''' match = None slice_size = 100 i = 0 while not match and i < len(file_list): p = subprocess.Popen(['fgrep', '-lxm', '1', '--', pattern] + file_list[i:(i + slice_size)], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE) out = p.communicate()[0].decode('UTF-8') if p.returncode == 0: match = out i += slice_size return match def get_file_package(self, file, uninstalled=False, map_cachedir=None, release=None, arch=None): '''Return the package a file belongs to. Return None if the file is not shipped by any package. If uninstalled is True, this will also find files of uninstalled packages; this is very expensive, though, and needs network access and lots of CPU and I/O resources. In this case, map_cachedir can be set to an existing directory which will be used to permanently store the downloaded maps. If it is not set, a temporary directory will be used. Also, release and arch can be set to a foreign release/architecture instead of the one from the current system. ''' # check if the file is a diversion dpkg = subprocess.Popen(['dpkg-divert', '--list', file], stdout=subprocess.PIPE, stderr=subprocess.PIPE) out = dpkg.communicate()[0].decode('UTF-8') if dpkg.returncode == 0 and out: pkg = out.split()[-1] if pkg != 'hardening-wrapper': return pkg fname = os.path.splitext(os.path.basename(file))[0].lower() all_lists = [] likely_lists = [] for f in glob.glob('/var/lib/dpkg/info/*.list'): p = os.path.splitext(os.path.basename(f))[0].lower().split(':')[0] if p in fname or fname in p: likely_lists.append(f) else: all_lists.append(f) # first check the likely packages match = self.__fgrep_files(file, likely_lists) if not match: match = self.__fgrep_files(file, all_lists) if match: return os.path.splitext(os.path.basename(match))[0].split(':')[0] if uninstalled: return self._search_contents(file, map_cachedir, release, arch) else: return None @classmethod def get_system_architecture(klass): '''Return the architecture of the system, in the notation used by the particular distribution.''' dpkg = subprocess.Popen(['dpkg', '--print-architecture'], stdout=subprocess.PIPE) arch = dpkg.communicate()[0].decode().strip() assert dpkg.returncode == 0 assert arch return arch def get_library_paths(self): '''Return a list of default library search paths. The entries should be separated with a colon ':', like for $LD_LIBRARY_PATH. This needs to take any multiarch directories into account. ''' dpkg = subprocess.Popen(['dpkg-architecture', '-qDEB_HOST_MULTIARCH'], stdout=subprocess.PIPE) multiarch_triple = dpkg.communicate()[0].decode().strip() assert dpkg.returncode == 0 return '/lib/%s:/lib' % multiarch_triple def set_mirror(self, url): '''Explicitly set a distribution mirror URL for operations that need to fetch distribution files/packages from the network. By default, the mirror will be read from the system configuration files. ''' self._mirror = url # purge our contents dir cache try: if self._contents_dir: shutil.rmtree(self._contents_dir) self._contents_dir = None except AttributeError: pass def get_source_tree(self, srcpackage, dir, version=None, sandbox=None, apt_update=False): '''Download source package and unpack it into dir. This also has to care about applying patches etc., so that dir will eventually contain the actually compiled source. dir needs to exist and should be empty. If version is given, this particular version will be retrieved. Otherwise this will fetch the latest available version. If sandbox is given, it calls apt-get source in that sandbox, otherwise it uses the system apt configuration. If apt_update is True, it will call apt-get update before apt-get source. This is mostly necessary for freshly created sandboxes. Return the directory that contains the actual source root directory (which might be a subdirectory of dir). Return None if the source is not available. ''' # configure apt for sandbox env = os.environ.copy() if sandbox: f = tempfile.NamedTemporaryFile() f.write(('''Dir "%s"; Debug::NoLocking "true"; ''' % sandbox).encode()) f.flush() env['APT_CONFIG'] = f.name if apt_update: subprocess.call(['apt-get', '-qq', 'update'], env=env) # fetch source tree argv = ['apt-get', '-qq', '--assume-yes', 'source', srcpackage] if version: argv[-1] += '=' + version try: if subprocess.call(argv, cwd=dir, env=env) != 0: return None except OSError: return None # find top level directory root = None for d in glob.glob(os.path.join(dir, srcpackage + '-*')): if os.path.isdir(d): root = d assert root, 'could not determine source tree root directory' # apply patches on a best-effort basis try: subprocess.call('(debian/rules patch || debian/rules apply-patches ' '|| debian/rules apply-dpatches || ' 'debian/rules unpack || debian/rules patch-stamp || ' 'debian/rules setup) >/dev/null 2>&1', shell=True, cwd=root) except OSError: pass return root def get_kernel_package(self): '''Return the actual Linux kernel package name. This is used when the user reports a bug against the "linux" package. ''' # TODO: Ubuntu specific return 'linux-image-' + os.uname()[2] def _install_debug_kernel(self, report): '''Install kernel debug package Ideally this would be just another package but the kernel is special in various ways currently so we can not use the apt method. ''' installed = [] outdated = [] kver = report['Uname'].split()[1] arch = report['Architecture'] ver = report['Package'].split()[1] debug_pkgname = 'linux-image-debug-%s' % kver c = self._cache() if debug_pkgname in c and c[debug_pkgname].isInstalled: #print('kernel ddeb already installed') return (installed, outdated) target_dir = apt.apt_pkg.config.find_dir('Dir::Cache::archives') + '/partial' deb = '%s_%s_%s.ddeb' % (debug_pkgname, ver, arch) # FIXME: this package is currently not in Packages.gz url = 'http://ddebs.ubuntu.com/pool/main/l/linux/%s' % deb out = open(os.path.join(target_dir, deb), 'w') # urlretrieve does not return 404 in the headers so we use urlopen u = urlopen(url) if u.getcode() > 400: return ('', 'linux') while True: block = u.read(8 * 1024) if not block: break out.write(block) out.flush() ret = subprocess.call(['dpkg', '-i', os.path.join(target_dir, deb)]) if ret == 0: installed.append(deb.split('_')[0]) return (installed, outdated) def install_packages(self, rootdir, configdir, release, packages, verbose=False, cache_dir=None, permanent_rootdir=False, architecture=None): '''Install packages into a sandbox (for apport-retrace). In order to work without any special permissions and without touching the running system, this should only download and unpack packages into the given root directory, not install them into the system. configdir points to a directory with by-release configuration files for the packaging system; this is completely dependent on the backend implementation, the only assumption is that this looks into configdir/release/, so that you can use retracing for multiple DistroReleases. As a special case, if configdir is None, it uses the current system configuration, and "release" is ignored. release is the value of the report's 'DistroRelease' field. packages is a list of ('packagename', 'version') tuples. If the version is None, it should install the most current available version. If cache_dir is given, then the downloaded packages will be stored there, to speed up subsequent retraces. If permanent_rootdir is True, then the sandbox created from the downloaded packages will be reused, to speed up subsequent retraces. If architecture is given, the sandbox will be created with packages of the given architecture (as specified in a report's "Architecture" field). If not given it defaults to the host system's architecture. Return a string with outdated packages, or None if all packages were installed. If something is wrong with the environment (invalid configuration, package servers down, etc.), this should raise a SystemError with a meaningful error message. ''' if not configdir: apt_sources = '/etc/apt/sources.list' self.current_release_codename = self.get_distro_codename() else: # support architecture specific config, fall back to global config apt_sources = os.path.join(configdir, release, 'sources.list') if architecture: arch_apt_sources = os.path.join(configdir, release, architecture, 'sources.list') if os.path.exists(arch_apt_sources): apt_sources = arch_apt_sources # set mirror for get_file_package() try: self.set_mirror(self._get_primary_mirror_from_apt_sources(apt_sources)) except SystemError as e: apport.warning('cannot determine mirror: %s' % str(e)) # set current release code name for _distro_release_to_codename with open(os.path.join(configdir, release, 'codename')) as f: self.current_release_codename = f.read().strip() if not os.path.exists(apt_sources): raise SystemError('%s does not exist' % apt_sources) # create apt sandbox if cache_dir: tmp_aptroot = False if configdir: aptroot = os.path.join(cache_dir, release, 'apt') else: aptroot = os.path.join(cache_dir, 'system', 'apt') if not os.path.isdir(aptroot): os.makedirs(aptroot) else: tmp_aptroot = True aptroot = tempfile.mkdtemp() if architecture: apt.apt_pkg.config.set('APT::Architecture', architecture) else: apt.apt_pkg.config.set('APT::Architecture', self.get_system_architecture()) if verbose: fetchProgress = apt.progress.text.AcquireProgress() else: fetchProgress = apt.progress.base.AcquireProgress() if not tmp_aptroot: c = self._sandbox_cache(aptroot, apt_sources, fetchProgress) else: self._build_apt_sandbox(aptroot, apt_sources) c = apt.Cache(rootdir=os.path.abspath(aptroot)) try: c.update(fetchProgress) except apt.cache.FetchFailedException as e: raise SystemError(str(e)) c.open() obsolete = '' src_records = apt.apt_pkg.SourceRecords() # mark packages for installation real_pkgs = set() for (pkg, ver) in packages: try: candidate = c[pkg].candidate except KeyError: candidate = None if not candidate: m = 'package %s does not exist, ignoring' % pkg.replace('%', '%%') obsolete += m + '\n' apport.warning(m) continue if ver and candidate.version != ver: w = '%s version %s required, but %s is available' % (pkg, ver, candidate.version) obsolete += w + '\n' real_pkgs.add(pkg) if permanent_rootdir: virtual_mapping = self._virtual_mapping(aptroot) # Remember all the virtual packages that this package provides, # so that if we encounter that virtual package as a # Conflicts/Replaces later, we know to remove this package from # the cache. for p in candidate.provides: virtual_mapping.setdefault(p, set()).add(pkg) conflicts = [] if 'Conflicts' in candidate.record: conflicts += apt.apt_pkg.parse_depends(candidate.record['Conflicts']) if 'Replaces' in candidate.record: conflicts += apt.apt_pkg.parse_depends(candidate.record['Replaces']) archives = apt.apt_pkg.config.find_dir('Dir::Cache::archives') for conflict in conflicts: # apt_pkg.parse_depends needs to handle the or operator, # but as policy states it is invalid to use that in # Replaces/Depends, we can safely choose the first value # here. conflict = conflict[0] if c.is_virtual_package(conflict[0]): try: providers = virtual_mapping[conflict[0]] except KeyError: # We may not have seen the virtual package that # this conflicts with, so we can assume it's not # unpacked into the sandbox. continue for p in providers: debs = os.path.join(archives, '%s_*.deb' % p) for path in glob.glob(debs): ver = self._deb_version(path) if apt.apt_pkg.check_dep(ver, conflict[2], conflict[1]): os.unlink(path) del providers else: debs = os.path.join(archives, '%s_*.deb' % conflict[0]) for path in glob.glob(debs): ver = self._deb_version(path) if apt.apt_pkg.check_dep(ver, conflict[2], conflict[1]): os.unlink(path) if candidate.architecture != 'all': if pkg + '-dbg' in c: real_pkgs.add(pkg + '-dbg') else: # install all -dbg from the source package if src_records.lookup(candidate.source_name): dbgs = [p for p in src_records.binaries if p.endswith('-dbg') and p in c] else: dbgs = [] if dbgs: for p in dbgs: real_pkgs.add(p) else: if pkg + '-dbgsym' in c: real_pkgs.add(pkg + '-dbgsym') if c[pkg + '-dbgsym'].candidate.version != candidate.version: obsolete += 'outdated debug symbol package for %s: package version %s dbgsym version %s\n' % ( pkg, candidate.version, c[pkg + '-dbgsym'].candidate.version) for p in real_pkgs: c[p].mark_install(False, False) last_written = time.time() # fetch packages fetcher = apt.apt_pkg.Acquire(fetchProgress) try: c.fetch_archives(fetcher=fetcher) except apt.cache.FetchFailedException as e: apport.error('Package download error, try again later: %s', str(e)) sys.exit(99) # transient error # unpack packages if verbose: print('Extracting downloaded debs...') for i in fetcher.items: if not permanent_rootdir or os.path.getctime(i.destfile) > last_written: subprocess.check_call(['dpkg', '-x', i.destfile, rootdir]) real_pkgs.remove(os.path.basename(i.destfile).split('_', 1)[0]) if tmp_aptroot: shutil.rmtree(aptroot) # check bookkeeping that apt fetcher really got everything assert not real_pkgs, 'apt fetcher did not fetch these packages: ' \ + ' '.join(real_pkgs) if permanent_rootdir: self._save_virtual_mapping(aptroot) return obsolete def package_name_glob(self, nameglob): '''Return known package names which match given glob.''' return glob.fnmatch.filter(self._cache().keys(), nameglob) # # Internal helper methods # @classmethod def _call_dpkg(klass, args): '''Call dpkg with given arguments and return output, or return None on error.''' dpkg = subprocess.Popen(['dpkg'] + args, stdout=subprocess.PIPE, stderr=subprocess.PIPE) out = dpkg.communicate(input)[0].decode('UTF-8') if dpkg.returncode == 0: return out else: raise ValueError('package does not exist') def _check_files_md5(self, sumfile): '''Internal function for calling md5sum. This is separate from get_modified_files so that it is automatically testable. ''' if os.path.exists(sumfile): m = subprocess.Popen(['/usr/bin/md5sum', '-c', sumfile], stdout=subprocess.PIPE, stderr=subprocess.PIPE, cwd='/', env={}) out = m.communicate()[0].decode('UTF-8', errors='replace') else: assert type(sumfile) == bytes, 'md5sum list value must be a byte array' m = subprocess.Popen(['/usr/bin/md5sum', '-c'], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE, cwd='/', env={}) out = m.communicate(sumfile)[0].decode('UTF-8', errors='replace') # if md5sum succeeded, don't bother parsing the output if m.returncode == 0: return [] mismatches = [] for l in out.splitlines(): if l.endswith('FAILED'): mismatches.append(l.rsplit(':', 1)[0]) return mismatches @classmethod def _get_primary_mirror_from_apt_sources(klass, apt_sources): '''Heuristically determine primary mirror from an apt sources.list''' with open(apt_sources) as f: for l in f: fields = l.split() if len(fields) >= 3 and fields[0] == 'deb': if fields[1].startswith('['): # options given, mirror is in third field mirror_idx = 2 else: mirror_idx = 1 if fields[mirror_idx].startswith('http://'): return fields[mirror_idx] else: raise SystemError('cannot determine default mirror: %s does not contain a valid deb line' % apt_sources) def _get_mirror(self): '''Return the distribution mirror URL. If it has not been set yet, it will be read from the system configuration.''' if not self._mirror: self._mirror = self._get_primary_mirror_from_apt_sources('/etc/apt/sources.list') return self._mirror def _distro_release_to_codename(self, release): '''Map a DistroRelease: field value to a release code name''' # if we called install_packages() with a configdir, we can read the # codename from there if hasattr(self, 'current_release_codename') and self.current_release_codename is not None: return self.current_release_codename raise NotImplementedError('Cannot map DistroRelease to a code name without install_packages()') def _search_contents(self, file, map_cachedir, release, arch): '''Internal function for searching file in Contents.gz.''' if map_cachedir: dir = map_cachedir else: if not self._contents_dir: self._contents_dir = tempfile.mkdtemp() dir = self._contents_dir if arch is None: arch = self.get_system_architecture() if release is None: release = self.get_distro_codename() else: release = self._distro_release_to_codename(release) for pocket in ['-updates', '-security', '-proposed', '']: map = os.path.join(dir, '%s%s-Contents-%s.gz' % (release, pocket, arch)) # check if map exists and is younger than a day; if not, we need to # refresh it try: st = os.stat(map) age = int(time.time() - st.st_mtime) except OSError: age = None if age is None or age >= 86400: url = '%s/dists/%s%s/Contents-%s.gz' % (self._get_mirror(), release, pocket, arch) try: src = urlopen(url) except IOError: # we ignore non-existing pockets, but we do crash if the # release pocket doesn't exist if pocket == '': raise else: continue with open(map, 'wb') as f: while True: data = src.read(1000000) if not data: break f.write(data) src.close() assert os.path.exists(map) if file.startswith('/'): file = file[1:] # zgrep is magnitudes faster than a 'gzip.open/split() loop' package = None zgrep = subprocess.Popen(['zgrep', '-m1', '^%s[[:space:]]' % file, map], stdout=subprocess.PIPE, stderr=subprocess.PIPE) out = zgrep.communicate()[0].decode('UTF-8') # we do not check the return code, since zgrep -m1 often errors out # with 'stdout: broken pipe' if out: package = out.split()[1].split(',')[0].split('/')[-1] if package: return package return None @classmethod def _build_apt_sandbox(klass, apt_root, apt_sources): # pre-create directories, to avoid apt.Cache() printing "creating..." # messages on stdout if not os.path.exists(os.path.join(apt_root, 'var', 'lib', 'apt')): os.makedirs(os.path.join(apt_root, 'var', 'lib', 'apt', 'lists', 'partial')) os.makedirs(os.path.join(apt_root, 'var', 'cache', 'apt', 'archives', 'partial')) os.makedirs(os.path.join(apt_root, 'var', 'lib', 'dpkg')) os.makedirs(os.path.join(apt_root, 'etc', 'apt', 'apt.conf.d')) os.makedirs(os.path.join(apt_root, 'etc', 'apt', 'preferences.d')) # install apt sources list_d = os.path.join(apt_root, 'etc', 'apt', 'sources.list.d') if os.path.exists(list_d): shutil.rmtree(list_d) if os.path.isdir(apt_sources + '.d'): shutil.copytree(apt_sources + '.d', list_d) else: os.makedirs(list_d) with open(apt_sources) as src: with open(os.path.join(apt_root, 'etc', 'apt', 'sources.list'), 'w') as dest: dest.write(src.read()) # install apt keyrings; prefer the ones from the config dir, fall back # to system trusted_gpg = os.path.join(os.path.dirname(apt_sources), 'trusted.gpg') if os.path.exists(trusted_gpg): shutil.copy(trusted_gpg, os.path.join(apt_root, 'etc', 'apt')) elif os.path.exists('/etc/apt/trusted.gpg'): shutil.copy('/etc/apt/trusted.gpg', os.path.join(apt_root, 'etc', 'apt')) trusted_d = os.path.join(apt_root, 'etc', 'apt', 'trusted.gpg.d') if os.path.exists(trusted_d): shutil.rmtree(trusted_d) if os.path.exists(trusted_gpg + '.d'): shutil.copytree(trusted_gpg + '.d', trusted_d) elif os.path.exists('/etc/apt/trusted.gpg.d'): shutil.copytree('/etc/apt/trusted.gpg.d', trusted_d) else: os.makedirs(trusted_d) @classmethod def _deb_version(klass, pkg): '''Return the version of a .deb file''' dpkg = subprocess.Popen(['dpkg-deb', '-f', pkg, 'Version'], stdout=subprocess.PIPE) out = dpkg.communicate(input)[0].decode('UTF-8') assert dpkg.returncode == 0 assert out return out def compare_versions(self, ver1, ver2): '''Compare two package versions. Return -1 for ver < ver2, 0 for ver1 == ver2, and 1 for ver1 > ver2.''' return apt.apt_pkg.version_compare(ver1, ver2) def enabled(self): '''Return whether Apport should generate crash reports. Signal crashes are controlled by /proc/sys/kernel/core_pattern, but some init script needs to set that value based on a configuration file. This also determines whether Apport generates reports for Python, package, or kernel crashes. Implementations should parse the configuration file which controls Apport (such as /etc/default/apport in Debian/Ubuntu). ''' try: with open(self.configuration) as f: conf = f.read() except IOError: # if the file does not exist, assume it's enabled return True return re.search('^\s*enabled\s*=\s*0\s*$', conf, re.M) is None _distro_codename = None def get_distro_codename(self): '''Get "lsb_release -sc", cache the result.''' if self._distro_codename is None: lsb_release = subprocess.Popen(['lsb_release', '-sc'], stdout=subprocess.PIPE) self._distro_codename = lsb_release.communicate()[0].decode('UTF-8').strip() assert lsb_release.returncode == 0 return self._distro_codename impl = __AptDpkgPackageInfo()