Example #1
0
def main(argv):
    try:
        test_pygraphviz()

        try:
            opts, args = getopt.getopt(argv[1:], 'f:r:R:t:Oo:h')
        except getopt.GetoptError as e:
            usage(str(e))
            sys.exit(1)

        # collect trusted keys
        trusted_keys = []
        for opt, arg in opts:
            if opt == '-t':
                try:
                    tk_str = io.open(arg, 'r', encoding='utf-8').read()
                except IOError as e:
                    logger.error('%s: "%s"' % (e.strerror, arg))
                    sys.exit(3)
                try:
                    trusted_keys.extend(get_trusted_keys(tk_str))
                except dns.exception.DNSException:
                    logger.error(
                        'There was an error parsing the trusted keys file: "%s"'
                        % arg)
                    sys.exit(3)

        opts = dict(opts)
        if '-h' in opts:
            usage()
            sys.exit(0)

        if '-f' in opts and args:
            usage(
                'If -f is used, then domain names may not supplied as command line arguments.'
            )
            sys.exit(1)

        if '-R' in opts:
            try:
                rdtypes = opts['-R'].split(',')
            except ValueError:
                usage('The list of types was invalid: "%s"' % opts['-R'])
                sys.exit(1)
            try:
                rdtypes = [dns.rdatatype.from_text(x) for x in rdtypes]
            except dns.rdatatype.UnknownRdatatype:
                usage('The list of types was invalid: "%s"' % opts['-R'])
                sys.exit(1)
        else:
            rdtypes = None

        if '-o' in opts and '-O' in opts:
            usage('The -o and -O options may not be used together.')
            sys.exit(1)

        if '-r' not in opts or opts['-r'] == '-':
            opt_r = sys.stdin.fileno()
        else:
            opt_r = opts['-r']
        try:
            analysis_str = io.open(opt_r, 'r', encoding='utf-8').read()
        except IOError as e:
            logger.error('%s: "%s"' % (e.strerror, opts.get('-r', '-')))
            sys.exit(3)
        if not analysis_str:
            if opt_r != sys.stdin.fileno():
                logger.error('No input.')
            sys.exit(3)
        try:
            analysis_structured = json.loads(analysis_str)
        except ValueError:
            logger.error('There was an error parsing the JSON input: "%s"' %
                         opts.get('-r', '-'))
            sys.exit(3)

        # check version
        if '_meta._dnsviz.' not in analysis_structured or 'version' not in analysis_structured[
                '_meta._dnsviz.']:
            logger.error('No version information in JSON input.')
            sys.exit(3)
        try:
            major_vers, minor_vers = [
                int(x) for x in str(analysis_structured['_meta._dnsviz.']
                                    ['version']).split('.', 1)
            ]
        except ValueError:
            logger.error('Version of JSON input is invalid: %s' %
                         analysis_structured['_meta._dnsviz.']['version'])
            sys.exit(3)
        # ensure major version is a match and minor version is no greater
        # than the current minor version
        curr_major_vers, curr_minor_vers = [
            int(x) for x in str(DNS_RAW_VERSION).split('.', 1)
        ]
        if major_vers != curr_major_vers or minor_vers > curr_minor_vers:
            logger.error(
                'Version %d.%d of JSON input is incompatible with this software.'
                % (major_vers, minor_vers))
            sys.exit(3)

        names = OrderedDict()
        if '-f' in opts:
            if opts['-f'] == '-':
                opts['-f'] = sys.stdin.fileno()
            try:
                f = io.open(opts['-f'], 'r', encoding='utf-8')
            except IOError as e:
                logger.error('%s: "%s"' % (e.strerror, opts['-f']))
                sys.exit(3)
            for line in f:
                name = line.strip()
                try:
                    name = dns.name.from_text(name)
                except UnicodeDecodeError as e:
                    logger.error('%s: "%s"' % (e, name))
                except dns.exception.DNSException:
                    logger.error('The domain name was invalid: "%s"' % name)
                else:
                    if name not in names:
                        names[name] = None
            f.close()
        else:
            if args:
                # python3/python2 dual compatibility
                if isinstance(args[0], bytes):
                    args = [
                        codecs.decode(x, sys.getfilesystemencoding())
                        for x in args
                    ]
            else:
                try:
                    args = analysis_structured['_meta._dnsviz.']['names']
                except KeyError:
                    logger.error('No names found in JSON input!')
                    sys.exit(3)
            for name in args:
                try:
                    name = dns.name.from_text(name)
                except UnicodeDecodeError as e:
                    logger.error('%s: "%s"' % (e, name))
                except dns.exception.DNSException:
                    logger.error('The domain name was invalid: "%s"' % name)
                else:
                    if name not in names:
                        names[name] = None

        latest_analysis_date = None
        name_objs = []
        cache = {}
        for name in names:
            name_str = lb2s(name.canonicalize().to_text())
            if name_str not in analysis_structured or analysis_structured[
                    name_str].get('stub', True):
                logger.error(
                    'The analysis of "%s" was not found in the input.' %
                    lb2s(name.to_text()))
                continue
            name_obj = TTLAgnosticOfflineDomainNameAnalysis.deserialize(
                name, analysis_structured, cache)
            name_objs.append(name_obj)

            if latest_analysis_date is None or latest_analysis_date > name_obj.analysis_end:
                latest_analysis_date = name_obj.analysis_end

        if not name_objs:
            sys.exit(4)

        if '-t' not in opts:
            trusted_keys = get_default_trusted_keys(latest_analysis_date)

        G = DNSAuthGraph()
        for name_obj in name_objs:
            name_obj.populate_status(trusted_keys)
            for qname, rdtype in name_obj.queries:
                if rdtypes is None:
                    # if rdtypes was not specified, then graph all, with some
                    # exceptions
                    if name_obj.is_zone() and rdtype in (dns.rdatatype.DNSKEY,
                                                         dns.rdatatype.DS,
                                                         dns.rdatatype.DLV):
                        continue
                else:
                    # if rdtypes was specified, then only graph rdtypes that
                    # were specified
                    if qname != name_obj.name or rdtype not in rdtypes:
                        continue
                G.graph_rrset_auth(name_obj, qname, rdtype)

            if rdtypes is not None:
                for rdtype in rdtypes:
                    if (name_obj.name, rdtype) not in name_obj.queries:
                        logger.error(
                            'No query for "%s/%s" was included in the analysis.'
                            % (lb2s(name_obj.name.to_text()),
                               dns.rdatatype.to_text(rdtype)))

            if '-O' in opts:
                if name_obj.name == dns.name.root:
                    name = 'root'
                else:
                    name = lb2s(
                        name_obj.name.canonicalize().to_text()).rstrip('.')
                finish_graph(G, [name_obj], rdtypes, trusted_keys,
                             '%s.txt' % name)
                G = DNSAuthGraph()

        if '-O' not in opts:
            if '-o' not in opts or opts['-o'] == '-':
                finish_graph(G, name_objs, rdtypes, trusted_keys, None)
            else:
                finish_graph(G, name_objs, rdtypes, trusted_keys, opts['-o'])

    except KeyboardInterrupt:
        logger.error('Interrupted.')
        sys.exit(4)
Example #2
0
def main(argv):
    try:
        test_pygraphviz()

        arghelper = build_helper(logger, sys.argv[0], argv[0])
        arghelper.parse_args(argv[1:])
        logger.setLevel(logging.WARNING)

        try:
            arghelper.check_args()
            arghelper.set_buffers()
            arghelper.aggregate_trusted_key_info()
            arghelper.ingest_input()
            arghelper.ingest_names()
        except argparse.ArgumentTypeError as e:
            arghelper.parser.error(str(e))
        except AnalysisInputError as e:
            s = str(e)
            if s:
                logger.error(s)
            sys.exit(3)

        latest_analysis_date = None
        name_objs = []
        cache = {}
        for name in arghelper.names:
            name_str = lb2s(name.canonicalize().to_text())
            if name_str not in arghelper.analysis_structured or arghelper.analysis_structured[
                    name_str].get('stub', True):
                logger.error(
                    'The analysis of "%s" was not found in the input.' %
                    lb2s(name.to_text()))
                continue
            name_obj = TTLAgnosticOfflineDomainNameAnalysis.deserialize(
                name,
                arghelper.analysis_structured,
                cache,
                strict_cookies=arghelper.args.enforce_cookies,
                allow_private=arghelper.args.allow_private)
            name_objs.append(name_obj)

            if latest_analysis_date is None or latest_analysis_date > name_obj.analysis_end:
                latest_analysis_date = name_obj.analysis_end

        if not name_objs:
            sys.exit(4)

        arghelper.update_trusted_key_info(latest_analysis_date)

        G = DNSAuthGraph()
        for name_obj in name_objs:
            name_obj.populate_status(
                arghelper.trusted_keys,
                supported_algs=arghelper.args.algorithms,
                supported_digest_algs=arghelper.args.digest_algorithms,
                validate_prohibited_algs=arghelper.args.
                validate_prohibited_algs)
            for qname, rdtype in name_obj.queries:
                if arghelper.args.rr_types is None:
                    # if rdtypes was not specified, then graph all, with some
                    # exceptions
                    if name_obj.is_zone() and rdtype in (dns.rdatatype.DNSKEY,
                                                         dns.rdatatype.DS,
                                                         dns.rdatatype.DLV):
                        continue
                else:
                    # if rdtypes was specified, then only graph rdtypes that
                    # were specified
                    if qname != name_obj.name or rdtype not in arghelper.args.rr_types:
                        continue
                G.graph_rrset_auth(name_obj, qname, rdtype)

            if arghelper.args.rr_types is not None:
                for rdtype in arghelper.args.rr_types:
                    if (name_obj.name, rdtype) not in name_obj.queries:
                        logger.error(
                            'No query for "%s/%s" was included in the analysis.'
                            % (lb2s(name_obj.name.to_text()),
                               dns.rdatatype.to_text(rdtype)))

            if arghelper.args.derive_filename:
                if name_obj.name == dns.name.root:
                    name = 'root'
                else:
                    name = lb2s(
                        name_obj.name.canonicalize().to_text()).rstrip('.')
                    name = name.replace(os.sep, '--')
                finish_graph(G, [name_obj], arghelper.args.rr_types,
                             arghelper.trusted_keys, arghelper.args.algorithms,
                             '%s.txt' % name)
                G = DNSAuthGraph()

        if not arghelper.args.derive_filename:
            finish_graph(G, name_objs, arghelper.args.rr_types,
                         arghelper.trusted_keys, arghelper.args.algorithms,
                         arghelper.args.output_file.fileno())

    except KeyboardInterrupt:
        logger.error('Interrupted.')
        sys.exit(4)
Example #3
0
def main(argv):
    try:
        test_m2crypto()
        test_pygraphviz()

        try:
            opts, args = getopt.getopt(argv[1:], 'f:r:R:t:Oo:h')
        except getopt.GetoptError as e:
            usage(str(e))
            sys.exit(1)

        # collect trusted keys
        trusted_keys = []
        for opt, arg in opts:
            if opt == '-t':
                try:
                    tk_str = io.open(arg, 'r', encoding='utf-8').read()
                except IOError as e:
                    sys.stderr.write('%s: "%s"\n' % (e.strerror, arg))
                    sys.exit(3)
                try:
                    trusted_keys.extend(get_trusted_keys(tk_str))
                except dns.exception.DNSException:
                    sys.stderr.write('There was an error parsing the trusted keys file: "%s"\n' % arg)
                    sys.exit(3)

        opts = dict(opts)
        if '-h' in opts:
            usage()
            sys.exit(0)

        if '-f' in opts and args:
            usage('If -f is used, then domain names may not supplied as command line arguments.')
            sys.exit(1)

        if '-R' in opts:
            try:
                rdtypes = opts['-R'].split(',')
            except ValueError:
                usage('The list of types was invalid: "%s"' % opts['-R'])
                sys.exit(1)
            try:
                rdtypes = [dns.rdatatype.from_text(x) for x in rdtypes]
            except dns.rdatatype.UnknownRdatatype:
                usage('The list of types was invalid: "%s"' % opts['-R'])
                sys.exit(1)
        else:
            rdtypes = None

        if '-o' in opts and '-O' in opts:
            usage('The -o and -O options may not be used together.')
            sys.exit(1)

        handler = logging.StreamHandler()
        handler.setLevel(logging.WARNING)
        logger.addHandler(handler)
        logger.setLevel(logging.WARNING)

        if '-r' not in opts or opts['-r'] == '-':
            opts['-r'] = sys.stdin.fileno()
        try:
            analysis_str = io.open(opts['-r'], 'r', encoding='utf-8').read()
        except IOError as e:
            logger.error('%s: "%s"' % (e.strerror, opts['-r']))
            sys.exit(3)
        try:
            analysis_structured = json.loads(analysis_str)
        except ValueError:
            logger.error('There was an error parsing the json input: "%s"' % opts.get('-r', '-'))
            sys.exit(3)

        # check version
        if '_meta._dnsviz.' not in analysis_structured or 'version' not in analysis_structured['_meta._dnsviz.']:
            logger.error('No version information in JSON input.')
            sys.exit(3)
        try:
            major_vers, minor_vers = [int(x) for x in str(analysis_structured['_meta._dnsviz.']['version']).split('.', 1)]
        except ValueError:
            logger.error('Version of JSON input is invalid: %s' % analysis_structured['_meta._dnsviz.']['version'])
            sys.exit(3)
        # ensure major version is a match and minor version is no greater
        # than the current minor version
        curr_major_vers, curr_minor_vers = [int(x) for x in str(DNS_RAW_VERSION).split('.', 1)]
        if major_vers != curr_major_vers or minor_vers > curr_minor_vers:
            logger.error('Version %d.%d of JSON input is incompatible with this software.' % (major_vers, minor_vers))
            sys.exit(3)

        names = []
        if '-f' in opts:
            try:
                f = io.open(opts['-f'], 'r', encoding='utf-8')
            except IOError as e:
                logger.error('%s: "%s"' % (e.strerror, opts['-f']))
                sys.exit(3)
            for line in f:
                name = line.strip()
                try:
                    name = dns.name.from_text(name)
                except UnicodeDecodeError as e:
                    logger.error('%s: "%s"' % (e, name))
                except dns.exception.DNSException:
                    logger.error('The domain name was invalid: "%s"' % name)
                else:
                    names.append(name)
            f.close()
        else:
            if args:
                # python3/python2 dual compatibility
                if isinstance(args[0], bytes):
                    args = [codecs.decode(x, sys.getfilesystemencoding()) for x in args]
            else:
                try:
                    args = analysis_structured['_meta._dnsviz.']['names']
                except KeyError:
                    logger.error('No names found in json input!')
                    sys.exit(3)
            for name in args:
                try:
                    name = dns.name.from_text(name)
                except UnicodeDecodeError as e:
                    logger.error('%s: "%s"' % (e, name))
                except dns.exception.DNSException:
                    logger.error('The domain name was invalid: "%s"' % name)
                else:
                    names.append(name)

        if '-t' not in opts:
            try:
                tk_str = io.open(TRUSTED_KEYS_ROOT, 'r', encoding='utf-8').read()
            except IOError as e:
                logger.error('Error reading trusted keys file "%s": %s' % (TRUSTED_KEYS_ROOT, e.strerror))
                sys.exit(3)
            try:
                trusted_keys.extend(get_trusted_keys(tk_str))
            except dns.exception.DNSException:
                logger.error('There was an error parsing the trusted keys file: "%s"' % arg)
                sys.exit(3)

        name_objs = []
        cache = {}
        for name in names:
            name_str = lb2s(name.canonicalize().to_text())
            if name_str not in analysis_structured or analysis_structured[name_str].get('stub', True):
                logger.error('The analysis of "%s" was not found in the input.' % lb2s(name.to_text()))
                continue
            name_objs.append(TTLAgnosticOfflineDomainNameAnalysis.deserialize(name, analysis_structured, cache))

        if not name_objs:
            sys.exit(4)

        G = DNSAuthGraph()
        for name_obj in name_objs:
            name_obj.populate_status(trusted_keys)
            for qname, rdtype in name_obj.queries:
                if rdtypes is None:
                    # if rdtypes was not specified, then graph all, with some
                    # exceptions
                    if name_obj.is_zone() and rdtype in (dns.rdatatype.DNSKEY, dns.rdatatype.DS, dns.rdatatype.DLV):
                        continue
                else:
                    # if rdtypes was specified, then only graph rdtypes that
                    # were specified
                    if qname != name_obj.name or rdtype not in rdtypes:
                        continue
                G.graph_rrset_auth(name_obj, qname, rdtype)

            if rdtypes is not None:
                for rdtype in rdtypes:
                    if (name_obj.name, rdtype) not in name_obj.queries:
                        logger.error('No query for "%s/%s" was included in the analysis.' % (lb2s(name_obj.name.to_text()), dns.rdatatype.to_text(rdtype)))

            if '-O' in opts:
                if name_obj.name == dns.name.root:
                    name = 'root'
                else:
                    name = lb2s(name_obj.name.canonicalize().to_text()).rstrip('.')
                finish_graph(G, [name_obj], rdtypes, trusted_keys, '%s.txt' % name)
                G = DNSAuthGraph()

        if '-O' not in opts:
            if '-o' not in opts or opts['-o'] == '-':
                finish_graph(G, name_objs, rdtypes, trusted_keys, None)
            else:
                finish_graph(G, name_objs, rdtypes, trusted_keys, opts['-o'])

    except KeyboardInterrupt:
        logger.error('Interrupted.')
        sys.exit(4)
Example #4
0
def print_result(analysis_structured):
    latest_analysis_date = None
    name_objs = []
    cache = {}
    names = OrderedDict()

    strict_cookies = False
    allow_private = False
    supported_digest_algs = None
    supported_algs = None
    rdtypes = None

    args = analysis_structured['_meta._dnsviz.']['names']

    for name in args:
        try:
            name = dns.name.from_text(name)
        except UnicodeDecodeError as e:
            logger.error('%s: "%s"' % (e, name))
        except dns.exception.DNSException:
            logger.error('The domain name was invalid: "%s"' % name)
        else:
            if name not in names:
                names[name] = None

    for name in names:
        name_str = lb2s(name.canonicalize().to_text())
        print('* %s' % name_str)
        if name_str not in analysis_structured or analysis_structured[name_str].get('stub', True):
            logger.error('The analysis of "%s" was not found in the input.' % lb2s(name.to_text()))
            continue
        name_obj = TTLAgnosticOfflineDomainNameAnalysis.deserialize(name, analysis_structured, cache, strict_cookies=strict_cookies, allow_private=allow_private)
        name_objs.append(name_obj)

        if latest_analysis_date is None or latest_analysis_date > name_obj.analysis_end:
            latest_analysis_date = name_obj.analysis_end

    if latest_analysis_date is None:
        logger.error('The analysis of "%s" doesn\'t include at least one analysis.' % lb2s(name.to_text()))
        print(names)
        return

    trusted_keys = get_default_trusted_keys(latest_analysis_date)

    G = DNSAuthGraph()
    for name_obj in name_objs:
        name_obj.populate_status(trusted_keys, supported_algs=supported_algs, supported_digest_algs=supported_digest_algs)
        for qname, rdtype in name_obj.queries:
            if rdtypes is None:
                # if rdtypes was not specified, then graph all, with some
                # exceptions
                if name_obj.is_zone() and rdtype in (dns.rdatatype.DNSKEY, dns.rdatatype.DS, dns.rdatatype.DLV):
                    continue
            else:
                # if rdtypes was specified, then only graph rdtypes that
                # were specified
                if qname != name_obj.name or rdtype not in rdtypes:
                    continue
            G.graph_rrset_auth(name_obj, qname, rdtype)

        if rdtypes is not None:
            for rdtype in rdtypes:
                if (name_obj.name, rdtype) not in name_obj.queries:
                    logger.error('No query for "%s/%s" was included in the analysis.' % (lb2s(name_obj.name.to_text()), dns.rdatatype.to_text(rdtype)))

    finish_graph(G, name_objs, rdtypes, trusted_keys, supported_algs, None)
Example #5
0
    def probe(self):
        _log.debug('Starting probing for "{}"'.format(self.domain))
        a = dnsviz.commands.probe.BulkAnalyst(self.rdclass, self.try_ipv4, self.try_ipv6, self.client_ipv4, self.client_ipv6,
                                              self.query_class_mixin, self.ceiling, self.edns_diagnostics,
                                              self.stop_at_explicit, self.cache_level, self.rdtypes,
                                              self.explicit_only, self.dlv_domain)
        names = [self.domain_native]
        name_objs = a.analyze(names)
        name_objs = [x for x in name_objs if x is not None]
        if len(name_objs) > 1:
            raise ValueError('More than one name specified?')
        name_obj = name_objs[0]
        serialized_obj = OrderedDict()
        name_obj.serialize(serialized_obj, False)
        trusted_keys = get_default_trusted_keys(name_obj.analysis_end)
        serialized_obj['_meta._dnsviz.'] = {'version': DNS_RAW_VERSION, 'names': [lb2s(n.to_text()) for n in names]}

        cache = {}

        analysis_obj = TTLAgnosticOfflineDomainNameAnalysis.deserialize(names[0], serialized_obj, cache)
        analysis_obj.populate_status(trusted_keys)

        # These errors are linked to the DS record
        delegation_status = analysis_obj.delegation_status[43]
        delegation_warnings = [w.description for w in analysis_obj.delegation_warnings[43]]
        delegation_errors = [e.description for e in analysis_obj.delegation_errors[43]]

        zone_status = analysis_obj.zone_status
        zone_warnings = [w.description for w in analysis_obj.zone_warnings]
        zone_errors = [e.description for e in analysis_obj.zone_errors]

        dnssec_status = {
            'dnssec': {'status': zone_status, 'warnings': zone_warnings, 'errors': zone_errors},
            'delegation': {'status': delegation_status,
                           'warnings': delegation_warnings,
                           'errors': delegation_errors},
        }
        yield nagiosplugin.Metric('dnssec_status', dnssec_status, context='dnssec')

        rrsig_errors = set()
        rrsig_warnings = set()
        rrsig_expiration = None
        now = int(time.time())
        for _, rrsigs in analysis_obj.rrsig_status.iteritems():
            for rrsig, rrsets in rrsigs.iteritems():
                for keymeta, single_rrsig_status in rrsets.iteritems():
                    if keymeta.name != self.domain_native:
                        continue
                    for w in single_rrsig_status.warnings:
                        rrsig_warnings.add('{}: {}'.format(keymeta, w.description))
                    for e in single_rrsig_status.errors:
                        rrsig_errors.add('{}: {}'.format(keymeta, e.description))
                    expire_seconds = rrsig.expiration - now
                    if rrsig_expiration is None or expire_seconds < rrsig_expiration:
                        rrsig_expiration = expire_seconds
        yield nagiosplugin.Metric('rrsig_status',
                                  {'errors': rrsig_errors,
                                   'warnings': rrsig_warnings},
                                  context='rrsig')
        yield nagiosplugin.Metric('rrsig_expiration',
                                  rrsig_expiration,
                                  context='rrsig_expiration')
Example #6
0
                    'There was an error parsing the trusted keys file: "%s"' %
                    arg)
                sys.exit(3)

        name_objs = []
        cache = {}
        for name in names:
            name_str = name.canonicalize().to_text()
            if name_str not in analysis_structured or analysis_structured[
                    name_str].get('stub', True):
                logger.error(
                    'The analysis of "%s" was not found in the input.' %
                    name.to_text())
                continue
            name_objs.append(
                TTLAgnosticOfflineDomainNameAnalysis.deserialize(
                    name, analysis_structured, cache))

        if not name_objs:
            sys.exit(4)

        G = DNSAuthGraph()
        for name_obj in name_objs:
            name_obj.populate_status(trusted_keys)
            for qname, rdtype in name_obj.queries:
                if rdtypes is None:
                    # if rdtypes was not specified, then graph all, with some
                    # exceptions
                    if name_obj.is_zone() and rdtype in (dns.rdatatype.DNSKEY,
                                                         dns.rdatatype.DS,
                                                         dns.rdatatype.DLV):
                        continue
Example #7
0
                logger.error('Error reading trusted keys file "%s": %s' % (TRUSTED_KEYS_ROOT, e.strerror))
                sys.exit(3)
            try:
                trusted_keys.extend(get_trusted_keys(tk_str))
            except dns.exception.DNSException:
                logger.error('There was an error parsing the trusted keys file: "%s"' % arg)
                sys.exit(3)

        name_objs = []
        cache = {}
        for name in names:
            name_str = name.canonicalize().to_text()
            if name_str not in analysis_structured or analysis_structured[name_str].get('stub', True):
                logger.error('The analysis of "%s" was not found in the input.' % name.to_text())
                continue
            name_objs.append(TTLAgnosticOfflineDomainNameAnalysis.deserialize(name, analysis_structured, cache))

        if not name_objs:
            sys.exit(4)

        G = DNSAuthGraph()
        for name_obj in name_objs:
            name_obj.populate_status(trusted_keys)
            for qname, rdtype in name_obj.queries:
                if rdtypes is None:
                    # if rdtypes was not specified, then graph all, with some
                    # exceptions
                    if name_obj.is_zone() and rdtype in (dns.rdatatype.DNSKEY, dns.rdatatype.DS, dns.rdatatype.DLV):
                        continue
                else:
                    # if rdtypes was specified, then only graph rdtypes that