示例#1
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 def _populate_states(self, oval_file_id, states):
     self.oval_state_map = self._prepare_table_map(cols=["file_id", "oval_id"],
                                                   to_cols=["id", "evr_id", "evr_operation_id", "version"],
                                                   table="oval_rpminfo_state",
                                                   where=f"file_id = {oval_file_id}")
     # Parse EVR first
     for state in states:
         if state['evr'] is not None:
             # FIXME: as an input to common.rpm.parse_rpm_name, we don't have function to parse evr only
             fake_nevra = f"pn-{state['evr']}.noarch"
             _, epoch, version, release, _ = parse_rpm_name(fake_nevra)
             state['evr'] = (epoch, version, release)
     # Populate missing EVRs
     self.package_store.populate_evrs({state['evr'] for state in states if state['evr'] is not None})
     # Insert/update data
     self._populate_data("states", oval_file_id, states, self._state_import_check, "oval_rpminfo_state",
                         ["file_id", "oval_id", "evr_id", "evr_operation_id", "version"], self._state_refresh_maps,
                         self._states_to_delete, "(%s::int, %s::int, %s, %s::int, %s::int, %s::int)")
     for state in states:
         if state["arch_operation"] is not None and state["arch_operation"] not in self.SUPPORTED_ARCH_OPERATIONS:
             self.logger.warning("Unsupported arch operation: %s", state["arch_operation"])
             continue
         if (oval_file_id, state["id"]) in self.oval_state_map:  # Make sure state is imported
             # Simplified logic, can contain any regex but RH oval files contains only logical OR
             archs = []
             if state["arch"] is not None:
                 archs.extend([{"id": arch} for arch in state["arch"].split("|")])
             self._populate_associations("state", "archs", "rpminfo_state_id", "arch_id",
                                         "oval_rpminfo_state_arch",
                                         self.oval_state_map[(oval_file_id, state["id"])][0],
                                         archs, self.package_store.arch_map)
示例#2
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 def test_parse_3_epoch(self):
     """Test parsing valid rpm name with epoch preceeding package name."""
     name, epoch, ver, rel, arch = rpm_utils.parse_rpm_name(
         '3:Agda-2.5.2-9.fc27.x86_64.rpm')
     self.assertEqual("3", epoch)
     self.assertEqual("Agda", name)
     self.assertEqual("2.5.2", ver)
     self.assertEqual("9.fc27", rel)
     self.assertEqual("x86_64", arch)
示例#3
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 def test_parse_4_epoch(self):
     """Test parsing valid rpm name with epoch preceeding version."""
     name, epoch, ver, rel, arch = rpm_utils.parse_rpm_name(
         'perl-DBD-Pg-2:3.7.4-2.module+el8+2517+b1471f1c.x86_64')
     self.assertEqual("2", epoch)
     self.assertEqual("perl-DBD-Pg", name)
     self.assertEqual("3.7.4", ver)
     self.assertEqual("2.module+el8+2517+b1471f1c", rel)
     self.assertEqual("x86_64", arch)
示例#4
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 def test_parse_5_epoch(self):
     """Test parsing valid rpm name with no epoch and specify default epoch"""
     name, epoch, ver, rel, arch = rpm_utils.parse_rpm_name(
         '389-ds-base-1.3.7.8-1.fc27.src.rpm', default_epoch="1")
     self.assertEqual("1", epoch)
     self.assertEqual("389-ds-base", name)
     self.assertEqual("1.3.7.8", ver)
     self.assertEqual("1.fc27", rel)
     self.assertEqual("src", arch)
示例#5
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 def test_split_packagename(self):
     """Test splitting package name into N,E,V,R,A."""
     pkg_name = "bash-0:4.2.46-20.el7_2.x86_64.rpm"
     name, epoch, version, release, arch = rpm_utils.parse_rpm_name(pkg_name, default_epoch='0')
     assert name == "bash"
     assert epoch == "0"
     assert version == "4.2.46"
     assert release == "20.el7_2"
     assert arch == "x86_64"
示例#6
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 def test_parse_2_rpm(self):
     """Test parsing valid rpm name."""
     name, epoch, ver, rel, arch = rpm_utils.parse_rpm_name(
         'Agda-2.5.2-9.fc27.x86_64.rpm')
     self.assertEqual(None, epoch)
     self.assertEqual("Agda", name)
     self.assertEqual("2.5.2", ver)
     self.assertEqual("9.fc27", rel)
     self.assertEqual("x86_64", arch)
示例#7
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 def test_parse_1_srpm(self):
     """Test parsing valid srpm name."""
     name, epoch, ver, rel, arch = rpm_utils.parse_rpm_name(
         '389-ds-base-1.3.7.8-1.fc27.src.rpm')
     self.assertEqual(None, epoch)
     self.assertEqual("389-ds-base", name)
     self.assertEqual("1.3.7.8", ver)
     self.assertEqual("1.fc27", rel)
     self.assertEqual("src", arch)
示例#8
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 def test_parse_6_invalid_rpmname(self):
     """Test parsing invalid rpm name."""
     with self.assertRaises(rpm_utils.RPMParseException):
         rpm_utils.parse_rpm_name('foo', raise_exception=True)
     with self.assertRaises(rpm_utils.RPMParseException):
         rpm_utils.parse_rpm_name('foo.rpm', raise_exception=True)
     with self.assertRaises(rpm_utils.RPMParseException):
         rpm_utils.parse_rpm_name('foo-1.3.x86.rpm', raise_exception=True)
     with self.assertRaises(rpm_utils.RPMParseException):
         rpm_utils.parse_rpm_name('2:389-ds-base-4:1.3.7.8-1.fc27.src.rpm',
                                  raise_exception=True)
示例#9
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 def _get_source_package_id(self, pkg):
     source_package_id = None
     if pkg["srpm"]:
         name, epoch, ver, rel, arch = rpm_utils.parse_rpm_name(pkg["srpm"], default_epoch=pkg["epoch"],
                                                          raise_exception=True)
         name_id = self.package_name_map[name]
         evr_id = self.evr_map[(epoch, ver, rel)]
         arch_id = self.arch_map[arch]
         source_package_id = self.package_map[(name_id, evr_id, arch_id)]
     return source_package_id
示例#10
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 def _get_source_packages(packages):
     unique_source_packages = set()
     for pkg in packages:
         if pkg["srpm"]:
             unique_source_packages.add(rpm_utils.parse_rpm_name(pkg["srpm"], default_epoch=pkg["epoch"],
                                                           raise_exception=True))
     source_packages = []
     for name, epoch, ver, rel, arch in unique_source_packages:
         source_packages.append(dict(name=name, epoch=epoch, ver=ver, rel=rel, arch=arch,
                                     srpm=None, summary=None, description=None))
     return source_packages
示例#11
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 def test_parse_7_invalid_noraise(self):
     """Test parsing invalid rpm name."""
     for name in [
             'foo',
             'foo.rpm',
             'foo-1.3.x86.rpm',
             '2:389-ds-base-4:1.3.7.8-1.fc27.src.rpm',
     ]:
         name, epoch, ver, rel, arch = rpm_utils.parse_rpm_name(name)
         self.assertEqual(None, epoch)
         self.assertEqual("", name)
         self.assertEqual("", ver)
         self.assertEqual("", rel)
         self.assertEqual("", arch)
示例#12
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 def process_input_packages(self, data: dict) -> (dict, dict):
     """Parse input NEVRAs and filter out unknown (or without updates) package names."""
     latest_only = data.get("latest_only", False)
     packages_to_process = filter_package_list(data.get('package_list', None), latest_only)
     filtered_packages_to_process = {}
     update_list = {}
     if packages_to_process is not None:
         for pkg in packages_to_process:
             update_list[pkg] = {}
             name, epoch, ver, rel, arch = parse_rpm_name(pkg, default_epoch='0')
             if name in self.db_cache.packagename2id:
                 if self.db_cache.packagename2id[name] in self.db_cache.updates_index:
                     filtered_packages_to_process[pkg] = {'parsed_nevra': (name, epoch, ver, rel, arch)}
     return filtered_packages_to_process, update_list
示例#13
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    def process_list(self, data):
        """ Processes whole package_list and returns info. """
        packages = data.get("package_list")
        response = {"package_list": {}}

        db_connection = self.db_pool.get_connection()
        with db_connection.get_cursor() as cursor:
            for package in packages:
                name, epoch, version, release, arch = parse_rpm_name(package, default_epoch='0')
                cursor.execute("""select distinct p.summary, p.description,
                                  pn2.name, evr2.epoch, evr2.version, evr2.release, a2.name,
                                  cs.label, cs.name, a.name, r.releasever,
                                  pn3.name
                                  from package p
                                  left join package_name pn on pn.id = p.name_id 
                                  left join arch ap on p.arch_id = ap.id 
                                  left join evr on p.evr_id = evr.id 
                                  left join package p2 on p2.id = p.source_package_id 
                                  left join package_name pn2 on p2.name_id = pn2.id
                                  left join evr evr2 on p2.evr_id = evr2.id 
                                  left join arch a2 on p2.arch_id = a2.id
                                  left join pkg_repo pr on pr.pkg_id = p.id 
                                  left join repo r on r.id = pr.repo_id 
                                  left join content_set cs on cs.id = r.content_set_id 
                                  left join arch a on a.id = r.basearch_id
                                  left join package p3 on p3.source_package_id = p.id
                                  left join package_name pn3 on p3.name_id = pn3.id
                                  where pn.name = '%s' 
                                  and ap.name = '%s' 
                                  and evr.epoch = '%s' 
                                  and evr.version = '%s' 
                                  and evr.release = '%s'
                               """ % (name, arch, epoch, version, release))
                query = cursor.fetchall()
                pkgs = {}
                pkgs[package] = {}
                for item in query:
                    pkgs[package] = {"summary": item[PACKAGE_SUMMARY],
                                     "description": item[PACKAGE_DESCRIPTION],
                                     "source_package": join_rpm_name(item[SOURCE_PACKAGE_NAME],
                                                                     item[SOURCE_PACKAGE_EPOCH],
                                                                     item[SOURCE_PACKAGE_VERSION],
                                                                     item[SOURCE_PACKAGE_RELEASE],
                                                                     item[SOURCE_PACKAGE_ARCH]),
                                     "repositories": self._build_repositories(query),
                                     "binary_package_list": self._build_binary_packages(query)
                                    }
                response["package_list"].update(pkgs)
        self.db_pool.return_connection(db_connection)
        return response
示例#14
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 def _populate_rpm_artifacts(self, modules, repo_id):
     cur = self.conn.cursor()
     try:  # pylint: disable=too-many-nested-blocks
         nevras_in_repo = self._get_nevras_in_repo(repo_id)
         to_associate = set()
         for module in modules:
             if 'artifacts' in module:
                 for artifact in module['artifacts']:
                     split_pkg_name = rpm_utils.parse_rpm_name(
                         artifact, default_epoch='0', raise_exception=True)
                     if split_pkg_name in nevras_in_repo:
                         to_associate.add((
                             nevras_in_repo[split_pkg_name],
                             module['stream_id'],
                         ))
                     else:
                         self.logger.debug('Nevra %s missing in repo %s',
                                           artifact, repo_id)
         if to_associate:
             execute_values(
                 cur,
                 """select pkg_id, stream_id from module_rpm_artifact
                                inner join (values %s) t(pkg_id, stream_id)
                                using (pkg_id, stream_id)
                            """,
                 list(to_associate),
                 page_size=len(to_associate))
             for r_pkg_id, r_stream_id in cur.fetchall():
                 to_associate.remove((
                     r_pkg_id,
                     r_stream_id,
                 ))
         if to_associate:
             execute_values(
                 cur,
                 """insert into module_rpm_artifact (pkg_id, stream_id)
                               values %s""",
                 list(to_associate),
                 page_size=len(to_associate))
         self.conn.commit()
     except Exception:  # pylint: disable=broad-except
         self.logger.exception("Failure while populating rpm artifacts")
         self.conn.rollback()
     finally:
         cur.close()
示例#15
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def filter_package_list(package_list, latest_only=False):
    """
    Filter packages with latest NEVRA
    :param package_list: list of package NEVRAs
    :param latest_only: boolean switch to return only latest NEVRA for given name.arch
    :return: filtered list of NEVRAs
    """
    if not latest_only:
        return package_list
    latest_pkgs = {}
    for pkg in package_list:
        name, epoch, ver, rel, arch = parse_rpm_name(pkg)
        if (name, arch) in latest_pkgs:
            latest = latest_pkgs[(name, arch)][0:3]
            if rpm.labelCompare((epoch, ver, rel), latest) < 1:  # pylint: disable=no-member
                continue
        latest_pkgs[(name, arch)] = (epoch, ver, rel, pkg)
    return [val[3] for val in latest_pkgs.values()]
示例#16
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    def process_nevras(self, data):
        """ Method returns the list of repositories where packages belongs. """
        packages = data.get("package_list")
        response = {"data": {}}

        db_connection = self.db_pool.get_connection()
        with db_connection.get_cursor() as cursor:
            for package in packages:
                name, epoch, version, release, arch = parse_rpm_name(
                    package, default_epoch='0')
                cursor.execute("""select distinct cs.name, cs.label
                                  from package p
                                  left join package_name pn on p.name_id = pn.id
                                  left join evr e on p.evr_id = e.id
                                  left join arch a on p.arch_id = a.id
                                  left join pkg_repo pr on p.id = pr.pkg_id
                                  left join repo r on r.id = pr.repo_id
                                  left join content_set cs on cs.id = r.content_set_id
                                  where pn.name = '%s'
                                  and a.name = '%s'
                                  and e.epoch = '%s'
                                  and e.version = '%s'
                                  and e.release = '%s'
                               """ % (name, arch, epoch, version, release))

                response["data"][package] = []
                for repository_query in cursor:
                    repository_data = {}
                    if repository_query[REPOSITORY_NAME] is not None:
                        repository_data["repo_name"] = repository_query[
                            REPOSITORY_NAME]
                    if repository_query[REPOSITORY_LABEL] is not None:
                        repository_data["repo_label"] = repository_query[
                            REPOSITORY_LABEL]
                    if repository_data:
                        response["data"][package].append(repository_data)

        return response
示例#17
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    def process_list(self, api_version, data):  # pylint: disable=unused-argument
        """
        Returns package details.

        :param data: json request parsed into data structure

        :returns: json response with package details
        """
        packages = data.get('package_list', None)
        # By default, don't include third party data
        want_third_party = data.get('third_party', False)

        packagelist = {}

        response = {
            'last_change':
            utils.format_datetime(self.cache.dbchange['last_change'])
        }

        if not packages:
            response['package_list'] = packagelist
            return response

        for pkg in packages:
            packagedata = packagelist.setdefault(pkg, {})
            is_third_party = False

            name, epoch, ver, rel, arch = parse_rpm_name(pkg,
                                                         default_epoch='0')
            if name in self.cache.packagename2id \
                    and (epoch, ver, rel) in self.cache.evr2id \
                    and arch in self.cache.arch2id:
                name_id = self.cache.packagename2id[name]
                evr_id = self.cache.evr2id[(epoch, ver, rel)]
                arch_id = self.cache.arch2id[arch]
                pkg_id = self.cache.nevra2pkgid.get((name_id, evr_id, arch_id),
                                                    None)
                if pkg_id:
                    pkg_detail = self.cache.package_details[pkg_id]
                    packagedata['summary'] = self.cache.strings.get(
                        pkg_detail[PKG_SUMMARY_ID], None)
                    packagedata['description'] = self.cache.strings.get(
                        pkg_detail[PKG_DESC_ID], None)
                    packagedata['source_package'] = self._get_source_package(
                        pkg_detail)
                    packagedata['repositories'] = []
                    packagedata[
                        'package_list'] = self._get_built_binary_packages(
                            pkg_id)
                    if pkg_id in self.cache.pkgid2repoids:
                        for repo_id in self.cache.pkgid2repoids[pkg_id]:
                            repodetail = self.cache.repo_detail[repo_id]
                            is_third_party = is_third_party or bool(
                                repodetail[REPO_THIRD_PARTY])
                            repodata = {
                                'label':
                                repodetail[REPO_LABEL],
                                'name':
                                repodetail[REPO_NAME],
                                'basearch':
                                utils.none2empty(repodetail[REPO_BASEARCH]),
                                'releasever':
                                utils.none2empty(repodetail[REPO_RELEASEVER]),
                            }
                            packagedata['repositories'].append(repodata)

            # If the package is third party, then remove it from result
            if not want_third_party and is_third_party:
                packagelist[pkg] = {}

        response['package_list'] = packagelist
        return response