%PDF- %PDF-
Direktori : /proc/thread-self/root/proc/self/root/lib/python3.6/site-packages/dnf-plugins/ |
Current File : //proc/thread-self/root/proc/self/root/lib/python3.6/site-packages/dnf-plugins/repomanage.py |
# repomanage.py # DNF plugin adding a command to manage rpm packages from given directory. # # Copyright (C) 2015 Igor Gnatenko # # This copyrighted material is made available to anyone wishing to use, # modify, copy, or redistribute it subject to the terms and conditions of # the GNU General Public License v.2, or (at your option) any later version. # This program is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY expressed or implied, including the implied warranties of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General # Public License for more details. You should have received a copy of the # GNU General Public License along with this program; if not, write to the # Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA # 02110-1301, USA. Any Red Hat trademarks that are incorporated in the # source code or documentation are not subject to the GNU General Public # License and may only be used or replicated with the express permission of # Red Hat, Inc. # from __future__ import absolute_import from __future__ import unicode_literals from dnfpluginscore import _, logger import dnf import dnf.cli import logging import os import hawkey class RepoManage(dnf.Plugin): name = "repomanage" def __init__(self, base, cli): super(RepoManage, self).__init__(base, cli) if cli is None: return cli.register_command(RepoManageCommand) class RepoManageCommand(dnf.cli.Command): aliases = ("repomanage",) summary = _("Manage a directory of rpm packages") def pre_configure(self): if not self.opts.verbose and not self.opts.quiet: self.cli.redirect_logger(stdout=logging.WARNING, stderr=logging.INFO) def configure(self): if not self.opts.verbose and not self.opts.quiet: self.cli.redirect_repo_progress() demands = self.cli.demands demands.sack_activation = True def run(self): if self.opts.new and self.opts.old: raise dnf.exceptions.Error(_("Pass either --old or --new, not both!")) if self.opts.new and self.opts.oldonly: raise dnf.exceptions.Error(_("Pass either --oldonly or --new, not both!")) if self.opts.old and self.opts.oldonly: raise dnf.exceptions.Error(_("Pass either --old or --oldonly, not both!")) if not self.opts.old and not self.opts.oldonly: self.opts.new = True verfile = {} pkgdict = {} module_dict = {} # {NameStream: {Version: [modules]}} all_modular_artifacts = set() keepnum = int(self.opts.keep) # the number of items to keep try: REPOMANAGE_REPOID = "repomanage_repo" repo_conf = self.base.repos.add_new_repo(REPOMANAGE_REPOID, self.base.conf, baseurl=[self.opts.path]) # Always expire the repo, otherwise repomanage could use cached metadata and give identical results # for multiple runs even if the actual repo changed in the meantime repo_conf._repo.expire() self.base._add_repo_to_sack(repo_conf) if dnf.base.WITH_MODULES: self.base._setup_modular_excludes() # Prepare modules module_packages = self.base._moduleContainer.getModulePackages() for module_package in module_packages: # Even though we load only REPOMANAGE_REPOID other modules can be loaded from system # failsafe data automatically, we don't want them affecting repomanage results so ONLY # use modules from REPOMANAGE_REPOID. if module_package.getRepoID() == REPOMANAGE_REPOID: all_modular_artifacts.update(module_package.getArtifacts()) module_dict.setdefault(module_package.getNameStream(), {}).setdefault( module_package.getVersionNum(), []).append(module_package) except dnf.exceptions.RepoError: rpm_list = [] rpm_list = self._get_file_list(self.opts.path, ".rpm") if len(rpm_list) == 0: raise dnf.exceptions.Error(_("No files to process")) self.base.reset(sack=True, repos=True) self.base.fill_sack(load_system_repo=False, load_available_repos=False) try: self.base.add_remote_rpms(rpm_list, progress=self.base.output.progress) except IOError: logger.warning(_("Could not open {}").format(', '.join(rpm_list))) # Prepare regular packages query = self.base.sack.query(flags=hawkey.IGNORE_MODULAR_EXCLUDES).available() packages = [x for x in query.filter(pkg__neq=query.filter(nevra_strict=all_modular_artifacts)).available()] packages.sort() for pkg in packages: na = (pkg.name, pkg.arch) if na in pkgdict: if pkg not in pkgdict[na]: pkgdict[na].append(pkg) else: pkgdict[na] = [pkg] nevra = self._package_to_nevra(pkg) if nevra in verfile: verfile[nevra].append(self._package_to_path(pkg)) else: verfile[nevra] = [self._package_to_path(pkg)] outputpackages = [] # modular packages keepnum_latest_stream_artifacts = set() if self.opts.new: # regular packages for (n, a) in pkgdict.keys(): evrlist = pkgdict[(n, a)] newevrs = evrlist[-keepnum:] for package in newevrs: nevra = self._package_to_nevra(package) for fpkg in verfile[nevra]: outputpackages.append(fpkg) # modular packages for streams_by_version in module_dict.values(): sorted_stream_versions = sorted(streams_by_version.keys()) new_sorted_stream_versions = sorted_stream_versions[-keepnum:] for i in new_sorted_stream_versions: for stream in streams_by_version[i]: keepnum_latest_stream_artifacts.update(set(stream.getArtifacts())) if self.opts.old: # regular packages for (n, a) in pkgdict.keys(): evrlist = pkgdict[(n, a)] oldevrs = evrlist[:-keepnum] for package in oldevrs: nevra = self._package_to_nevra(package) for fpkg in verfile[nevra]: outputpackages.append(fpkg) # modular packages for streams_by_version in module_dict.values(): sorted_stream_versions = sorted(streams_by_version.keys()) old_sorted_stream_versions = sorted_stream_versions[:-keepnum] for i in old_sorted_stream_versions: for stream in streams_by_version[i]: keepnum_latest_stream_artifacts.update(set(stream.getArtifacts())) if self.opts.oldonly: # regular packages for (n, a) in pkgdict.keys(): evrlist = pkgdict[(n, a)] oldevrs = evrlist[:-keepnum] for package in oldevrs: nevra = self._package_to_nevra(package) for fpkg in verfile[nevra]: outputpackages.append(fpkg) # modular packages keepnum_newer_stream_artifacts = set() for streams_by_version in module_dict.values(): sorted_stream_versions = sorted(streams_by_version.keys()) new_sorted_stream_versions = sorted_stream_versions[-keepnum:] for i in new_sorted_stream_versions: for stream in streams_by_version[i]: keepnum_newer_stream_artifacts.update(set(stream.getArtifacts())) for streams_by_version in module_dict.values(): sorted_stream_versions = sorted(streams_by_version.keys()) old_sorted_stream_versions = sorted_stream_versions[:-keepnum] for i in old_sorted_stream_versions: for stream in streams_by_version[i]: for artifact in stream.getArtifacts(): if artifact not in keepnum_newer_stream_artifacts: keepnum_latest_stream_artifacts.add(artifact) modular_packages = [self._package_to_path(x) for x in query.filter(pkg__eq=query.filter(nevra_strict=keepnum_latest_stream_artifacts)).available()] outputpackages = outputpackages + modular_packages outputpackages.sort() if self.opts.space: print(" ".join(outputpackages)) else: for pkg in outputpackages: print(pkg) @staticmethod def set_argparser(parser): parser.add_argument("-o", "--old", action="store_true", help=_("Print the older packages")) parser.add_argument("-O", "--oldonly", action="store_true", help=_("Print the older packages. Exclude the newest packages.")) parser.add_argument("-n", "--new", action="store_true", help=_("Print the newest packages")) parser.add_argument("-s", "--space", action="store_true", help=_("Space separated output, not newline")) parser.add_argument("-k", "--keep", action="store", metavar="KEEP", help=_("Newest N packages to keep - defaults to 1"), default=1, type=int) parser.add_argument("path", action="store", help=_("Path to directory")) @staticmethod def _get_file_list(path, ext): """Return all files in path matching ext return list object """ filelist = [] for root, dirs, files in os.walk(path): for f in files: if os.path.splitext(f)[1].lower() == str(ext): filelist.append(os.path.join(root, f)) return filelist def _package_to_path(self, pkg): if len(self.base.repos): return os.path.join(self.opts.path, pkg.location) else: return pkg.location @staticmethod def _package_to_nevra(pkg): return (pkg.name, pkg.epoch, pkg.version, pkg.release, pkg.arch)