# Authors: # Martin Kosek # Pavel Zuna # # Copyright (C) 2010 Red Hat # see file 'COPYING' for use and warranty information # # 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 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty 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, see . import netaddr import time import re from ipalib.request import context from ipalib import api, errors, output from ipalib import Command from ipalib.parameters import Flag, Bool, Int, Float, Str, StrEnum from ipalib.plugins.baseldap import * from ipalib import _, ngettext from ipalib.util import validate_zonemgr, normalize_zonemgr, validate_hostname from ipapython import dnsclient from ipapython.ipautil import valid_ip from ldap import explode_dn __doc__ = _(""" Domain Name System (DNS) Manage DNS zone and resource records. EXAMPLES: Add new zone: ipa dnszone-add example.com --name-server nameserver.example.com --admin-email admin@example.com Modify the zone to allow dynamic updates for hosts own records in realm EXAMPLE.COM: ipa dnszone-mod example.com --dynamic-update=TRUE \\ --update-policy="grant EXAMPLE.COM krb5-self * A; grant EXAMPLE.COM krb5-self * AAAA;" Add new reverse zone specified by network IP address: ipa dnszone-add --name-from-ip 80.142.15.0/24 --name-server nameserver.example.com Add second nameserver for example.com: ipa dnsrecord-add example.com @ --ns-rec nameserver2.example.com Add a mail server for example.com: ipa dnsrecord-add example.com @ --mx-rec="10 mail2" Delete previously added nameserver from example.com: ipa dnsrecord-del example.com @ --ns-rec nameserver2.example.com Add LOC record for example.com: ipa dnsrecord-add example.com @ --loc-rec "49 11 42.4 N 16 36 29.6 E 227.64m" Add new A record for www.example.com: (random IP) ipa dnsrecord-add example.com www --a-rec 80.142.15.2 Add new PTR record for www.example.com ipa dnsrecord-add 15.142.80.in-addr.arpa. 2 --ptr-rec www.example.com. Add new SRV records for LDAP servers. Three quarters of the requests should go to fast.example.com, one quarter to slow.example.com. If neither is available, switch to backup.example.com. ipa dnsrecord-add example.com _ldap._tcp --srv-rec="0 3 389 fast.example.com" ipa dnsrecord-add example.com _ldap._tcp --srv-rec="0 1 389 slow.example.com" ipa dnsrecord-add example.com _ldap._tcp --srv-rec="1 1 389 backup.example.com" When dnsrecord-add command is executed with no option to add a specific record an interactive mode is started. The mode interactively prompts for the most typical record types for the respective zone: ipa dnsrecord-add example.com www [A record]: 1.2.3.4,11.22.33.44 (2 interactively entered random IPs) [AAAA record]: (no AAAA address entered) Record name: www A record: 1.2.3.4, 11.22.33.44 The interactive mode can also be used for deleting the DNS records: ipa dnsrecord-del example.com www No option to delete specific record provided. Delete all? Yes/No (default No): (do not delete all records) Current DNS record contents: A record: 1.2.3.4, 11.22.33.44 Delete A record '1.2.3.4'? Yes/No (default No): Delete A record '11.22.33.44'? Yes/No (default No): y Record name: www A record: 1.2.3.4 (A record 11.22.33.44 has been deleted) Show zone example.com: ipa dnszone-show example.com Find zone with "example" in its domain name: ipa dnszone-find example Find records for resources with "www" in their name in zone example.com: ipa dnsrecord-find example.com www Find A records with value 10.10.0.1 in zone example.com ipa dnsrecord-find example.com --a-rec 10.10.0.1 Show records for resource www in zone example.com ipa dnsrecord-show example.com www Delete zone example.com with all resource records: ipa dnszone-del example.com Resolve a host name to see if it exists (will add default IPA domain if one is not included): ipa dns-resolve www.example.com ipa dns-resolve www """) # supported resource record types _record_types = ( u'A', u'AAAA', u'A6', u'AFSDB', u'APL', u'CERT', u'CNAME', u'DHCID', u'DLV', u'DNAME', u'DNSKEY', u'DS', u'HIP', u'IPSECKEY', u'KEY', u'KX', u'LOC', u'MX', u'NAPTR', u'NS', u'NSEC', u'NSEC3', u'NSEC3PARAM', u'PTR', u'RRSIG', u'RP', u'SIG', u'SPF', u'SRV', u'SSHFP', u'TA', u'TKEY', u'TSIG', u'TXT', ) # DNS zone record identificator _dns_zone_record = u'@' # most used record types, always ask for those in interactive prompt _top_record_types = ('A', 'AAAA', ) _rev_top_record_types = ('PTR', ) _zone_top_record_types = ('NS', 'MX', 'LOC', ) # attributes derived from record types _record_attributes = [str('%srecord' % t.lower()) for t in _record_types] # supported DNS classes, IN = internet, rest is almost never used _record_classes = (u'IN', u'CS', u'CH', u'HS') def _rname_validator(ugettext, zonemgr): try: validate_zonemgr(zonemgr) except ValueError, e: return unicode(e) return None def _create_zone_serial(**kwargs): """Generate serial number for zones.""" return int('%s01' % time.strftime('%Y%d%m')) def _reverse_zone_name(netstr): net = netaddr.IPNetwork(netstr) items = net.ip.reverse_dns.split('.') if net.version == 4: return u'.'.join(items[4 - net.prefixlen / 8:]) elif net.version == 6: return u'.'.join(items[32 - net.prefixlen / 4:]) else: return None def _validate_ipaddr(ugettext, ipaddr, ip_version=None): try: ip = netaddr.IPAddress(ipaddr) if ip_version is not None: if ip.version != ip_version: return _('invalid IP address version (is %(value)d, must be %(required_value)d)!') \ % dict(value=ip.version, required_value=ip_version) except (netaddr.AddrFormatError, ValueError): return _('invalid IP address format') return None def _validate_ip4addr(ugettext, ipaddr): return _validate_ipaddr(ugettext, ipaddr, 4) def _validate_ip6addr(ugettext, ipaddr): return _validate_ipaddr(ugettext, ipaddr, 6) def _validate_ipnet(ugettext, ipnet): try: net = netaddr.IPNetwork(ipnet) except (netaddr.AddrFormatError, ValueError, UnboundLocalError): return _('invalid IP network format') return None def _domain_name_validator(ugettext, value): try: # Allow domain name which is not fully qualified. These are supported # in bind and then translated as .. validate_hostname(value, check_fqdn=False) except ValueError, e: return _('invalid domain-name: %s') \ % unicode(e) return None def _hostname_validator(ugettext, value): try: validate_hostname(value) except ValueError, e: return _('invalid domain-name: %s') \ % unicode(e) return None def _normalize_hostname(domain_name): """Make it fully-qualified""" if domain_name[-1] != '.': return domain_name + '.' else: return domain_name class DNSRecord(Str): parts = None supported = True # supported RR types: https://fedorahosted.org/bind-dyndb-ldap/browser/doc/schema label_format = _("%s record") part_label_format = "%s %s" doc_format = _('Comma-separated list of raw %s records') option_group_format = _('%s Record') see_rfc_msg = _("(see RFC %s for details)") part_name_format = "%s_part_%s" cli_name_format = "%s_%s" format_error_msg = None kwargs = Str.kwargs + ( ('validatedns', bool, True), ('normalizedns', bool, True), ) # should be replaced in subclasses rrtype = None rfc = None def __init__(self, name=None, *rules, **kw): if self.rrtype not in _record_types: raise ValueError("Unknown RR type: %s. Must be one of %s" % \ (str(self.rrtype), ", ".join(_record_types))) if not name: name = "%srecord*" % self.rrtype.lower() kw.setdefault('cli_name', '%s_rec' % self.rrtype.lower()) kw.setdefault('label', self.label_format % self.rrtype) kw.setdefault('doc', self.doc_format % self.rrtype) kw['csv'] = True if not self.supported: kw['flags'] = ('no_option',) super(DNSRecord, self).__init__(name, *rules, **kw) def _get_part_values(self, value): values = value.split() if len(values) != len(self.parts): return None return tuple(values) def _convert_scalar(self, value, index=None): if isinstance(value, (tuple, list)): # convert parsed values to the string if len(value) != len(self.parts): raise errors.ConversionError(name=self.name, index=index, error=_("Invalid number of parts!")) return u" ".join(super(DNSRecord, self)._convert_scalar(v, index) \ for v in value if v is not None) return super(DNSRecord, self)._convert_scalar(value, index) def normalize(self, value): if self.normalizedns: #pylint: disable=E1101 if isinstance(value, (tuple, list)): value = tuple( self._normalize_parts(v) for v in value \ if v is not None ) elif value is not None: value = (self._normalize_parts(value),) return super(DNSRecord, self).normalize(value) def _normalize_parts(self, value): """ Normalize a DNS record value using normalizers for its parts. """ if self.parts is None: return value try: values = self._get_part_values(value) if not values: return value new_values = [ part.normalize(values[part_id]) \ for part_id, part in enumerate(self.parts) ] value = self._convert_scalar(new_values) except Exception: # cannot normalize, rather return original value than fail pass return value def _rule_validatedns(self, _, value): if not self.validatedns: #pylint: disable=E1101 return if value is None: return if not self.supported: return _('DNS RR type "%s" is not supported by bind-dyndb-ldap plugin') \ % self.rrtype if self.parts is None: return # validate record format values = self._get_part_values(value) if not values: if not self.format_error_msg: part_names = [part.name.upper() for part in self.parts] if self.rfc: see_rfc_msg = " " + self.see_rfc_msg % self.rfc else: see_rfc_msg = "" return _('format must be specified as "%(format)s" %(rfcs)s') \ % dict(format=" ".join(part_names), rfcs=see_rfc_msg) else: return self.format_error_msg # validate every part for part_id, part in enumerate(self.parts): val = part.normalize(values[part_id]) val = part.convert(val) part.validate(val) return None class ARecord(DNSRecord): rrtype = 'A' rfc = 1035 parts = ( Str('ip_address', _validate_ip4addr, label=_('IP Address'), ), ) class A6Record(DNSRecord): rrtype = 'A6' rfc = 3226 parts = None # experimental rr type class AAAARecord(DNSRecord): rrtype = 'AAAA' rfc = 3596 parts = ( Str('ip_address', _validate_ip6addr, label=_('IP Address'), ), ) class AFSDBRecord(DNSRecord): rrtype = 'AFSDB' rfc = 1183 parts = ( Int('subtype?', label=_('Subtype'), minvalue=0, maxvalue=65535, ), Str('hostname', _domain_name_validator, label=_('Hostname'), ), ) class APLRecord(DNSRecord): rrtype = 'APL' rfc = 3123 supported = False class CERTRecord(DNSRecord): rrtype = 'CERT' rfc = 4398 parts = ( Int('type', label=_('Certificate Type'), minvalue=0, maxvalue=65535, ), Int('key_tag', label=_('Key Tag'), minvalue=0, maxvalue=65535, ), Int('algorithm', label=_('Algorithm'), minvalue=0, maxvalue=255, ), Str('certificate_or_crl', label=_('Certificate/CRL'), ), ) class CNAMERecord(DNSRecord): rrtype = 'CNAME' rfc = 1035 parts = ( Str('hostname', _domain_name_validator, label=_('Hostname'), doc=_('A hostname which this alias hostname points to'), ), ) class DHCIDRecord(DNSRecord): rrtype = 'DHCID' rfc = 4701 supported = False class DLVRecord(DNSRecord): rrtype = 'DLV' rfc = 4431 supported = False class DNAMERecord(DNSRecord): rrtype = 'DNAME' rfc = 2672 parts = ( Str('target', _domain_name_validator, label=_('Target'), ), ) class DNSKEYRecord(DNSRecord): rrtype = 'DNSKEY' rfc = 4034 supported = False class DSRecord(DNSRecord): rrtype = 'DS' rfc = 4034 parts = ( Int('key_tag', label=_('Key Tag'), minvalue=0, maxvalue=65535, ), Int('algorithm', label=_('Algorithm'), minvalue=0, maxvalue=255, ), Int('digest_type', label=_('Digest Type'), minvalue=0, maxvalue=255, ), Str('digest', label=_('Digest'), ), ) class HIPRecord(DNSRecord): rrtype = 'HIP' rfc = 5205 supported = False class KEYRecord(DNSRecord): rrtype = 'KEY' rfc = 2535 parts = ( Int('flags', label=_('Flags'), minvalue=0, maxvalue=65535, ), Int('protocol', label=_('Protocol'), minvalue=0, maxvalue=255, ), Int('algorithm', label=_('Algorithm'), minvalue=0, maxvalue=255, ), Str('public_key', label=_('Public Key'), ), ) class IPSECKEYRecord(DNSRecord): rrtype = 'IPSECKEY' rfc = 4025 supported = False class KXRecord(DNSRecord): rrtype = 'KX' rfc = 2230 parts = ( Int('preference', label=_('Preference'), doc=_('Preference given to this exchanger. Lower values are more preferred'), minvalue=0, maxvalue=65535, ), Str('exchanger', _domain_name_validator, label=_('Exchanger'), doc=_('A host willing to act as a key exchanger'), ), ) class LOCRecord(DNSRecord): rrtype = 'LOC' rfc = 1876 parts = ( Int('lat_deg', label=_('Degrees Latitude'), minvalue=0, maxvalue=90, ), Int('lat_min?', label=_('Minutes Latitude'), minvalue=0, maxvalue=59, ), Float('lat_sec?', label=_('Seconds Latitude'), minvalue=0.0, maxvalue=59.999, ), StrEnum('lat_dir', label=_('Direction Latitude'), values=(u'N', u'S',), ), Int('lon_deg', label=_('Degrees Longtitude'), minvalue=0, maxvalue=180, ), Int('lon_min?', label=_('Minutes Longtitude'), minvalue=0, maxvalue=59, ), Float('lon_sec?', label=_('Seconds Longtitude'), minvalue=0.0, maxvalue=59.999, ), StrEnum('lon_dir', label=_('Direction Longtitude'), values=(u'E', u'W',), ), Float('altitude', label=_('Altitude'), minvalue=-100000.00, maxvalue=42849672.95, ), Float('size?', label=_('Size'), minvalue=0.0, maxvalue=90000000.00, ), Float('h_precision?', label=_('Horizontal Precision'), minvalue=0.0, maxvalue=90000000.00, ), Float('v_precision?', label=_('Vertical Precision'), minvalue=0.0, maxvalue=90000000.00, ), ) format_error_msg = _("""format must be specified as "d1 [m1 [s1]] {"N"|"S"} d2 [m2 [s2]] {"E"|"W"} alt["m"] [siz["m"] [hp["m"] [vp["m"]]]]" where: d1: [0 .. 90] (degrees latitude) d2: [0 .. 180] (degrees longitude) m1, m2: [0 .. 59] (minutes latitude/longitude) s1, s2: [0 .. 59.999] (seconds latitude/longitude) alt: [-100000.00 .. 42849672.95] BY .01 (altitude in meters) siz, hp, vp: [0 .. 90000000.00] (size/precision in meters) See RFC 1876 for details""") def _get_part_values(self, value): regex = re.compile(\ r'(?P\d{1,2}\s+)(?P\d{1,2}\s+)?(?P\d{1,2}\.?\d{1,3}?\s+)?'\ r'(?P[N|S])\s+'\ r'(?P\d{1,3}\s+)(?P\d{1,2}\s+)?(?P\d{1,2}\.?\d{1,3}?\s+)?'\ r'(?P[W|E])\s+'\ r'(?P-?\d{1,8}\.?\d{1,2}?)m?\s*'\ r'(?P\d{1,8}\.?\d{1,2}?)?m?\s*'\ r'(?P\d{1,8}\.?\d{1,2}?)?m?\s*(?P\d{1,8}\.?\d{1,2}?)?m?\s*$') m = regex.match(value) if m is None: return None return tuple(x.strip() if x is not None else x for x in m.groups()) class MXRecord(DNSRecord): rrtype = 'MX' rfc = 1035 parts = ( Int('preference', label=_('Preference'), doc=_('Preference given to this exchanger. Lower values are more preferred'), minvalue=0, maxvalue=65535, ), Str('exchanger', _domain_name_validator, label=_('Exchanger'), doc=_('A host willing to act as a mail exchanger'), ), ) class NSRecord(DNSRecord): rrtype = 'NS' rfc = 1035 parts = ( Str('hostname', _domain_name_validator, label=_('Hostname'), ), ) class NSECRecord(DNSRecord): rrtype = 'NSEC' rfc = 4034 format_error_msg = _('format must be specified as "NEXT TYPE1 '\ '[TYPE2 [TYPE3 [...]]]" (see RFC 4034 for details)') _allowed_types = (u'SOA',) + _record_types parts = ( Str('next', _domain_name_validator, label=_('Next Domain Name'), ), StrEnum('types', label=_('Type Map'), multivalue=True, values=_allowed_types, ), ) def _get_part_values(self, value): values = value.split() if len(values) < 2: return None return (values[0], tuple(values[1:])) class NSEC3Record(DNSRecord): rrtype = 'NSEC3' rfc = 5155 supported = False class NSEC3PARAMRecord(DNSRecord): rrtype = 'NSEC3PARAM' rfc = 5155 supported = False def _validate_naptr_flags(ugettext, flags): allowed_flags = u'SAUP' flags = flags.replace('"','').replace('\'','') for flag in flags: if flag not in allowed_flags: return _('flags must be one of "S", "A", "U", or "P"') class NAPTRRecord(DNSRecord): rrtype = 'NAPTR' rfc = 2915 parts = ( Int('order', label=_('Order'), minvalue=0, maxvalue=65535, ), Int('preference', label=_('Preference'), minvalue=0, maxvalue=65535, ), Str('flags', _validate_naptr_flags, label=_('Flags'), normalizer=lambda x:x.upper() ), Str('service', label=_('Service'), ), Str('regexp', label=_('Regular Expression'), ), Str('replacement', label=_('Replacement'), ), ) class PTRRecord(DNSRecord): rrtype = 'PTR' rfc = 1035 parts = ( Str('hostname', _hostname_validator, normalizer=_normalize_hostname, label=_('Hostname'), doc=_('The hostname this reverse record points to'), ), ) class RPRecord(DNSRecord): rrtype = 'RP' rfc = 1183 supported = False class SRVRecord(DNSRecord): rrtype = 'SRV' rfc = 2782 parts = ( Int('priority', label=_('Priority'), minvalue=0, maxvalue=65535, ), Int('weight', label=_('Weight'), minvalue=0, maxvalue=65535, ), Int('port', label=_('Port'), minvalue=0, maxvalue=65535, ), Str('target', label=_('Target'), doc=_('The domain name of the target host or \'.\' if the service is decidedly not available at this domain'), ), ) def _sig_time_validator(ugettext, value): time_format = "%Y%m%d%H%M%S" try: time.strptime(value, time_format) except ValueError: return _('the value does not follow "YYYYMMDDHHMMSS" time format') class SIGRecord(DNSRecord): rrtype = 'SIG' rfc = 2535 _allowed_types = tuple([u'SOA'] + [x for x in _record_types if x != u'SIG']) parts = ( StrEnum('type_covered', label=_('Type Covered'), values=_allowed_types, ), Int('algorithm', label=_('Algorithm'), minvalue=0, maxvalue=255, ), Int('labels', label=_('Labels'), minvalue=0, maxvalue=255, ), Int('original_ttl', label=_('Original TTL'), minvalue=0, maxvalue=4294967295, ), Str('signature_expiration', _sig_time_validator, label=_('Signature Expiration'), ), Str('signature_inception', _sig_time_validator, label=_('Signature Inception'), ), Int('key_tag', label=_('Key Tag'), minvalue=0, maxvalue=65535, ), Str('signers_name', label=_('Signer\'s Name'), ), Str('signature', label=_('Signature'), ), ) class SPFRecord(DNSRecord): rrtype = 'SPF' rfc = 4408 supported = False class RRSIGRecord(SIGRecord): rrtype = 'RRSIG' rfc = 4034 class SSHFPRecord(DNSRecord): rrtype = 'SSHFP' rfc = 4255 parts = ( Int('algorithm', label=_('Algorithm'), minvalue=0, maxvalue=255, ), Int('fp_type', label=_('Fingerprint Type'), minvalue=0, maxvalue=255, ), Str('fingerprint', label=_('Fingerprint'), ), ) class TARecord(DNSRecord): rrtype = 'TA' supported = False class TKEYRecord(DNSRecord): rrtype = 'TKEY' supported = False class TSIGRecord(DNSRecord): rrtype = 'TSIG' supported = False class TXTRecord(DNSRecord): rrtype = 'TXT' rfc = 1035 parts = ( Str('data', label=_('Text Data'), ), ) _dns_record_options = ( ARecord(), AAAARecord(), A6Record(), AFSDBRecord(), APLRecord(), CERTRecord(), CNAMERecord(), DHCIDRecord(), DLVRecord(), DNAMERecord(), DNSKEYRecord(), DSRecord(), HIPRecord(), IPSECKEYRecord(), KEYRecord(), KXRecord(), LOCRecord(), MXRecord(), NAPTRRecord(), NSRecord(), NSECRecord(), NSEC3Record(), NSEC3PARAMRecord(), PTRRecord(), RRSIGRecord(), RPRecord(), SIGRecord(), SPFRecord(), SRVRecord(), SSHFPRecord(), TARecord(), TKEYRecord(), TSIGRecord(), TXTRecord(), ) # dictionary of valid reverse zone -> number of address components _valid_reverse_zones = { '.in-addr.arpa.' : 4, '.ip6.arpa.' : 32, } def zone_is_reverse(zone_name): for rev_zone_name in _valid_reverse_zones.keys(): if zone_name.endswith(rev_zone_name): return True return False def is_ns_rec_resolvable(name): try: return api.Command['dns_resolve'](name) except errors.NotFound: raise errors.NotFound( reason=_('Nameserver \'%(host)s\' does not have a corresponding A/AAAA record') % {'host': name} ) def add_forward_record(zone, name, str_address): addr = netaddr.IPAddress(str_address) try: if addr.version == 4: api.Command['dnsrecord_add'](zone, name, arecord=str_address) elif addr.version == 6: api.Command['dnsrecord_add'](zone, name, aaaarecord=str_address) else: raise ValueError('Invalid address family') except errors.EmptyModlist: pass # the entry already exists and matches def dns_container_exists(ldap): try: ldap.get_entry(api.env.container_dns, []) except errors.NotFound: return False return True class dnszone(LDAPObject): """ DNS Zone, container for resource records. """ container_dn = api.env.container_dns object_name = _('DNS zone') object_name_plural = _('DNS zones') object_class = ['top', 'idnsrecord', 'idnszone'] default_attributes = [ 'idnsname', 'idnszoneactive', 'idnssoamname', 'idnssoarname', 'idnssoaserial', 'idnssoarefresh', 'idnssoaretry', 'idnssoaexpire', 'idnssoaminimum' ] + _record_attributes label = _('DNS Zones') label_singular = _('DNS Zone') takes_params = ( Str('idnsname', cli_name='name', label=_('Zone name'), doc=_('Zone name (FQDN)'), default_from=lambda name_from_ip: _reverse_zone_name(name_from_ip), normalizer=lambda value: value.lower(), primary_key=True, ), Str('name_from_ip?', _validate_ipnet, label=_('Reverse zone IP network'), doc=_('IP network to create reverse zone name from'), flags=('virtual_attribute',), ), Str('idnssoamname', cli_name='name_server', label=_('Authoritative nameserver'), doc=_('Authoritative nameserver domain name'), ), Str('idnssoarname', _rname_validator, cli_name='admin_email', label=_('Administrator e-mail address'), doc=_('Administrator e-mail address'), default_from=lambda idnsname: 'hostmaster.%s' % idnsname, normalizer=normalize_zonemgr, ), Int('idnssoaserial', cli_name='serial', label=_('SOA serial'), doc=_('SOA record serial number'), minvalue=1, create_default=_create_zone_serial, autofill=True, ), Int('idnssoarefresh', cli_name='refresh', label=_('SOA refresh'), doc=_('SOA record refresh time'), minvalue=0, default=3600, autofill=True, ), Int('idnssoaretry', cli_name='retry', label=_('SOA retry'), doc=_('SOA record retry time'), minvalue=0, default=900, autofill=True, ), Int('idnssoaexpire', cli_name='expire', label=_('SOA expire'), doc=_('SOA record expire time'), default=1209600, minvalue=0, autofill=True, ), Int('idnssoaminimum', cli_name='minimum', label=_('SOA minimum'), doc=_('How long should negative responses be cached'), default=3600, minvalue=0, maxvalue=10800, autofill=True, ), Int('dnsttl?', cli_name='ttl', label=_('SOA time to live'), doc=_('SOA record time to live'), ), StrEnum('dnsclass?', cli_name='class', label=_('SOA class'), doc=_('SOA record class'), values=_record_classes, ), Str('idnsupdatepolicy?', cli_name='update_policy', label=_('BIND update policy'), doc=_('BIND update policy'), ), Bool('idnszoneactive?', cli_name='zone_active', label=_('Active zone'), doc=_('Is zone active?'), flags=['no_create', 'no_update'], attribute=True, ), Bool('idnsallowdynupdate?', cli_name='dynamic_update', label=_('Dynamic update'), doc=_('Allow dynamic updates.'), attribute=True, default=False, autofill=True ), ) api.register(dnszone) class dnszone_add(LDAPCreate): __doc__ = _('Create new DNS zone (SOA record).') takes_options = LDAPCreate.takes_options + ( Flag('force', label=_('Force'), doc=_('Force DNS zone creation even if nameserver not in DNS.'), ), Str('ip_address?', _validate_ipaddr, doc=_('Add the nameserver to DNS with this IP address'), ), ) def args_options_2_params(self, *args, **options): # FIXME: Check if name_from_ip is valid. The framework should do that, # but it does not. Before it's fixed, this should suffice. if 'name_from_ip' in options: self.obj.params['name_from_ip'](unicode(options['name_from_ip'])) return super(dnszone_add, self).args_options_2_params(*args, **options) def pre_callback(self, ldap, dn, entry_attrs, *keys, **options): if not dns_container_exists(self.api.Backend.ldap2): raise errors.NotFound(reason=_('DNS is not configured')) entry_attrs['idnszoneactive'] = 'TRUE' # Check nameserver has a forward record nameserver = entry_attrs['idnssoamname'] # NS record must contain domain name if valid_ip(nameserver): raise errors.ValidationError(name='name-server', error=unicode(_("Nameserver address is not a fully qualified domain name"))) if not 'ip_address' in options and not options['force']: is_ns_rec_resolvable(nameserver) if nameserver[-1] != '.': nameserver += '.' entry_attrs['nsrecord'] = nameserver entry_attrs['idnssoamname'] = nameserver return dn def post_callback(self, ldap, dn, entry_attrs, *keys, **options): if 'ip_address' in options: nameserver = entry_attrs['idnssoamname'][0][:-1] # ends with a dot nsparts = nameserver.split('.') add_forward_record('.'.join(nsparts[1:]), nsparts[0], options['ip_address']) return dn api.register(dnszone_add) class dnszone_del(LDAPDelete): __doc__ = _('Delete DNS zone (SOA record).') api.register(dnszone_del) class dnszone_mod(LDAPUpdate): __doc__ = _('Modify DNS zone (SOA record).') def args_options_2_params(self, *args, **options): # FIXME: Check if name_from_ip is valid. The framework should do that, # but it does not. Before it's fixed, this should suffice. if 'name_from_ip' in options: self.obj.params['name_from_ip'](unicode(options['name_from_ip'])) return super(dnszone_mod, self).args_options_2_params(*args, **options) api.register(dnszone_mod) class dnszone_find(LDAPSearch): __doc__ = _('Search for DNS zones (SOA records).') def args_options_2_params(self, *args, **options): # FIXME: Check if name_from_ip is valid. The framework should do that, # but it does not. Before it's fixed, this should suffice. if 'name_from_ip' in options: self.obj.params['name_from_ip'](unicode(options['name_from_ip'])) return super(dnszone_find, self).args_options_2_params(*args, **options) def args_options_2_entry(self, *args, **options): if 'name_from_ip' in options: if 'idnsname' not in options: options['idnsname'] = self.obj.params['idnsname'].get_default(**options) del options['name_from_ip'] return super(dnszone_find, self).args_options_2_entry(*args, **options) takes_options = LDAPSearch.takes_options + ( Flag('forward_only', label=_('Forward zones only'), cli_name='forward_only', doc=_('Search for forward zones only'), ), ) def pre_callback(self, ldap, filter, attrs_list, base_dn, scope, *args, **options): if options.get('forward_only', False): search_kw = {} search_kw['idnsname'] = _valid_reverse_zones.keys() rev_zone_filter = ldap.make_filter(search_kw, rules=ldap.MATCH_NONE, exact=False, trailing_wildcard=False) filter = ldap.combine_filters((rev_zone_filter, filter), rules=ldap.MATCH_ALL) return (filter, base_dn, scope) api.register(dnszone_find) class dnszone_show(LDAPRetrieve): __doc__ = _('Display information about a DNS zone (SOA record).') api.register(dnszone_show) class dnszone_disable(LDAPQuery): __doc__ = _('Disable DNS Zone.') has_output = output.standard_value msg_summary = _('Disabled DNS zone "%(value)s"') def execute(self, *keys, **options): ldap = self.obj.backend dn = self.obj.get_dn(*keys, **options) try: ldap.update_entry(dn, {'idnszoneactive': 'FALSE'}) except errors.EmptyModlist: pass return dict(result=True, value=keys[-1]) api.register(dnszone_disable) class dnszone_enable(LDAPQuery): __doc__ = _('Enable DNS Zone.') has_output = output.standard_value msg_summary = _('Enabled DNS zone "%(value)s"') def execute(self, *keys, **options): ldap = self.obj.backend dn = self.obj.get_dn(*keys, **options) try: ldap.update_entry(dn, {'idnszoneactive': 'TRUE'}) except errors.EmptyModlist: pass return dict(result=True, value=keys[-1]) api.register(dnszone_enable) class dnsrecord(LDAPObject): """ DNS record. """ parent_object = 'dnszone' container_dn = api.env.container_dns object_name = _('DNS resource record') object_name_plural = _('DNS resource records') object_class = ['top', 'idnsrecord'] default_attributes = ['idnsname'] + _record_attributes label = _('DNS Resource Records') label_singular = _('DNS Resource Record') takes_params = ( Str('idnsname', cli_name='name', label=_('Record name'), doc=_('Record name'), primary_key=True, ), Int('dnsttl?', cli_name='ttl', label=_('Time to live'), doc=_('Time to live'), ), StrEnum('dnsclass?', cli_name='class', label=_('Class'), doc=_('DNS class'), values=_record_classes, ), ) + _dns_record_options def _nsrecord_pre_callback(self, ldap, dn, entry_attrs, *keys, **options): if options.get('force', False): return dn for ns in options['nsrecord']: is_ns_rec_resolvable(ns) return dn def _ptrrecord_pre_callback(self, ldap, dn, entry_attrs, *keys, **options): components = dn.split(',',2) addr = components[0].split('=')[1] zone = components[1].split('=')[1] zone_len = 0 for valid_zone in _valid_reverse_zones: if zone.find(valid_zone) != -1: zone = zone.replace(valid_zone,'') zone_name = valid_zone zone_len = _valid_reverse_zones[valid_zone] if not zone_len: allowed_zones = ', '.join(_valid_reverse_zones) raise errors.ValidationError(name='cn', error=unicode(_('Reverse zone for PTR record should be a sub-zone of one the following fully qualified domains: %s') % allowed_zones)) ip_addr_comp_count = len(addr.split('.')) + len(zone.split('.')) if ip_addr_comp_count != zone_len: raise errors.ValidationError(name='cn', error=unicode(_('Reverse zone %(name)s requires exactly %(count)d IP address components, %(user_count)d given') % dict(name=zone_name, count=zone_len, user_count=ip_addr_comp_count))) return dn def is_pkey_zone_record(self, *keys): idnsname = keys[-1] if idnsname == str(_dns_zone_record) or idnsname == ('%s.' % keys[-2]): return True return False def get_dn(self, *keys, **options): if self.is_pkey_zone_record(*keys): return self.api.Object[self.parent_object].get_dn(*keys[:-1], **options) return super(dnsrecord, self).get_dn(*keys, **options) def attr_to_cli(self, attr): try: cliname = attr[:-len('record')].upper() except IndexError: cliname = attr return cliname def get_dns_masters(self): ldap = self.api.Backend.ldap2 base_dn = 'cn=masters,cn=ipa,cn=etc,%s' % self.api.env.basedn ldap_filter = '(&(objectClass=ipaConfigObject)(cn=DNS))' dns_masters = [] try: entries = ldap.find_entries(filter=ldap_filter, base_dn=base_dn)[0] for entry in entries: master_dn = entry[0] if master_dn.startswith('cn='): master = explode_dn(master_dn)[1].replace('cn=','') dns_masters.append(master) except errors.NotFound: return [] return dns_masters def has_cli_options(self, options, no_option_msg, allow_empty_attrs=False): if any(k in options for k in ('setattr', 'addattr', 'delattr')): return has_options = False for attr in options.keys(): if attr in self.params and not self.params[attr].primary_key: if options[attr] or allow_empty_attrs: has_options = True break if not has_options: raise errors.OptionError(no_option_msg) def get_record_option(self, rec_type): name = '%srecord' % rec_type.lower() if name in self.params: return self.params[name] else: return None def get_record_entry_attrs(self, entry_attrs): return dict((attr, val) for attr,val in entry_attrs.iteritems() \ if attr in self.params and not self.params[attr].primary_key) def prompt_record_options(self, rec_type_list): user_options = {} # ask for all usual record types for rec_type in rec_type_list: rec_option = self.get_record_option(rec_type) if rec_option is None: continue raw = self.Backend.textui.prompt(rec_option.label,optional=True) rec_value = rec_option(raw) if rec_value is not None: user_options[rec_option.name] = rec_value return user_options api.register(dnsrecord) class dnsrecord_add(LDAPCreate): __doc__ = _('Add new DNS resource record.') no_option_msg = 'No options to add a specific record provided.\n' \ "Command help may be consulted for all supported record types." takes_options = LDAPCreate.takes_options + ( Flag('force', label=_('Force'), flags=['no_option', 'no_output'], doc=_('force NS record creation even if its hostname is not in DNS'), ), ) def args_options_2_entry(self, *keys, **options): self.obj.has_cli_options(options, self.no_option_msg) return super(dnsrecord_add, self).args_options_2_entry(*keys, **options) def interactive_prompt_callback(self, kw): try: self.obj.has_cli_options(kw, self.no_option_msg) except errors.OptionError: pass else: # some record type entered, skip this helper return # check zone type if kw['idnsname'] == _dns_zone_record: top_record_types = _zone_top_record_types elif zone_is_reverse(kw['dnszoneidnsname']): top_record_types = _rev_top_record_types else: top_record_types = _top_record_types # ask for all usual record types user_options = self.obj.prompt_record_options(top_record_types) kw.update(user_options) def pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys, **options): for rtype in options: rtype_cb = '_%s_pre_callback' % rtype if hasattr(self.obj, rtype_cb): dn = getattr(self.obj, rtype_cb)(ldap, dn, entry_attrs, *keys, **options) try: (dn_, old_entry) = ldap.get_entry( dn, entry_attrs.keys(), normalize=self.obj.normalize_dn) for attr in old_entry.keys(): if attr not in _record_attributes: continue if not isinstance(entry_attrs[attr], (tuple, list)): vals = [entry_attrs[attr]] else: vals = list(entry_attrs[attr]) entry_attrs[attr] = list(set(old_entry[attr] + vals)) except errors.NotFound: pass return dn def exc_callback(self, keys, options, exc, call_func, *call_args, **call_kwargs): if call_func.func_name == 'add_entry': if isinstance(exc, errors.DuplicateEntry): # A new record is being added to existing LDAP DNS object # Update can be safely run as old record values has been # already merged in pre_callback ldap = self.obj.backend dn = call_args[0] entry_attrs = self.obj.get_record_entry_attrs(call_args[1]) ldap.update_entry(dn, entry_attrs, **call_kwargs) return raise exc api.register(dnsrecord_add) class dnsrecord_mod(LDAPUpdate): __doc__ = _('Modify a DNS resource record.') no_option_msg = 'No options to modify a specific record provided.' def args_options_2_entry(self, *keys, **options): self.obj.has_cli_options(options, self.no_option_msg, True) return super(dnsrecord_mod, self).args_options_2_entry(*keys, **options) def pre_callback(self, ldap, dn, entry_attrs, *keys, **options): for rtype in options: rtype_cb = '_%s_pre_callback' % rtype if options[rtype] is None and rtype in _record_attributes: options[rtype] = [] if hasattr(self.obj, rtype_cb): dn = getattr(self.obj, rtype_cb)(ldap, dn, entry_attrs, *keys, **options) return dn def execute(self, *keys, **options): result = super(dnsrecord_mod, self).execute(*keys, **options) # remove if empty if not self.obj.is_pkey_zone_record(*keys): dn = self.obj.get_dn(*keys, **options) ldap = self.obj.backend (dn_, old_entry) = ldap.get_entry( dn, _record_attributes, normalize=self.obj.normalize_dn) del_all = True for attr in old_entry: if old_entry[attr]: del_all = False break if del_all: return self.obj.methods.delentry(*keys) return result api.register(dnsrecord_mod) class dnsrecord_delentry(LDAPDelete): """ Delete DNS record entry. """ msg_summary = _('Deleted record "%(value)s"') NO_CLI = True api.register(dnsrecord_delentry) class dnsrecord_del(LDAPUpdate): __doc__ = _('Delete DNS resource record.') no_option_msg = _('Neither --del-all nor options to delete a specific record provided.\n'\ "Command help may be consulted for all supported record types.") takes_options = ( Flag('del_all', default=False, label=_('Delete all associated records'), ), ) def pre_callback(self, ldap, dn, entry_attrs, *keys, **options): try: (dn_, old_entry) = ldap.get_entry( dn, _record_attributes, normalize=self.obj.normalize_dn) except errors.NotFound: self.obj.handle_not_found(*keys) for attr in entry_attrs.keys(): if attr not in _record_attributes: continue if not isinstance(entry_attrs[attr], (tuple, list)): vals = [entry_attrs[attr]] else: vals = entry_attrs[attr] for val in vals: try: old_entry[attr].remove(val) except (KeyError, ValueError): raise errors.AttrValueNotFound(attr=attr, value=val) entry_attrs[attr] = list(set(old_entry[attr])) if not self.obj.is_pkey_zone_record(*keys): del_all = True for attr in old_entry: if old_entry[attr]: del_all = False break setattr(context, 'del_all', del_all) return dn def execute(self, *keys, **options): if options.get('del_all', False): if self.obj.is_pkey_zone_record(*keys): raise errors.ValidationError( name='del_all', error=_('Zone record \'%s\' cannot be deleted') \ % _dns_zone_record ) return self.obj.methods.delentry(*keys) result = super(dnsrecord_del, self).execute(*keys, **options) if getattr(context, 'del_all', False): return self.obj.methods.delentry(*keys) return result def args_options_2_entry(self, *keys, **options): self.obj.has_cli_options(options, self.no_option_msg) return super(dnsrecord_del, self).args_options_2_entry(*keys, **options) def interactive_prompt_callback(self, kw): if kw.get('del_all', False): return try: self.obj.has_cli_options(kw, self.no_option_msg) except errors.OptionError: pass else: # some record type entered, skip this helper return # get DNS record first so that the NotFound exception is raised # before the helper would start dns_record = api.Command['dnsrecord_show'](kw['dnszoneidnsname'], kw['idnsname'])['result'] rec_types = [rec_type for rec_type in dns_record if rec_type in _record_attributes] self.Backend.textui.print_plain(_("No option to delete specific record provided.")) user_del_all = self.Backend.textui.prompt_yesno(_("Delete all?"), default=False) if user_del_all is True: kw['del_all'] = True return # ask user for records to be removed self.Backend.textui.print_plain(_(u'Current DNS record contents:\n')) present_params = [] for param in self.params: if param.name in _record_attributes and param.name in dns_record: present_params.append(param) rec_type_content = u', '.join(dns_record[param.name]) self.Backend.textui.print_plain(u'%s: %s' % (param.label, rec_type_content)) self.Backend.textui.print_plain(u'') # ask what records to remove for param in present_params: deleted_values = [] for rec_value in dns_record[param.name]: user_del_value = self.Backend.textui.prompt_yesno( _("Delete %(name)s '%(value)s'?") \ % dict(name=param.label, value=rec_value), default=False) if user_del_value is True: deleted_values.append(rec_value) if deleted_values: deleted_list = u','.join(deleted_values) kw[param.name] = param(deleted_list) api.register(dnsrecord_del) class dnsrecord_show(LDAPRetrieve): __doc__ = _('Display DNS resource.') def post_callback(self, ldap, dn, entry_attrs, *keys, **options): if self.obj.is_pkey_zone_record(*keys): entry_attrs[self.obj.primary_key.name] = [_dns_zone_record] return dn api.register(dnsrecord_show) class dnsrecord_find(LDAPSearch): __doc__ = _('Search for DNS resources.') def pre_callback(self, ldap, filter, attrs_list, base_dn, scope, *args, **options): # include zone record (root entry) in the search return (filter, base_dn, ldap.SCOPE_SUBTREE) def post_callback(self, ldap, entries, truncated, *args, **options): if entries: zone_obj = self.api.Object[self.obj.parent_object] zone_dn = zone_obj.get_dn(args[0]) if entries[0][0] == zone_dn: entries[0][1][zone_obj.primary_key.name] = [_dns_zone_record] api.register(dnsrecord_find) class dns_resolve(Command): __doc__ = _('Resolve a host name in DNS.') has_output = output.standard_value msg_summary = _('Found \'%(value)s\'') takes_args = ( Str('hostname', label=_('Hostname'), ), ) def execute(self, *args, **options): query=args[0] if query.find(api.env.domain) == -1 and query.find('.') == -1: query = '%s.%s.' % (query, api.env.domain) if query[-1] != '.': query = query + '.' reca = dnsclient.query(query, dnsclient.DNS_C_IN, dnsclient.DNS_T_A) rec6 = dnsclient.query(query, dnsclient.DNS_C_IN, dnsclient.DNS_T_AAAA) records = reca + rec6 found = False for rec in records: if rec.dns_type == dnsclient.DNS_T_A or \ rec.dns_type == dnsclient.DNS_T_AAAA: found = True break if not found: raise errors.NotFound( reason=_('Host \'%(host)s\' not found') % {'host': query} ) return dict(result=True, value=query) api.register(dns_resolve) class dns_is_enabled(Command): """ Checks if any of the servers has the DNS service enabled. """ NO_CLI = True has_output = output.standard_value base_dn = 'cn=masters,cn=ipa,cn=etc,%s' % api.env.basedn filter = '(&(objectClass=ipaConfigObject)(cn=DNS))' def execute(self, *args, **options): ldap = self.api.Backend.ldap2 dns_enabled = False try: ent = ldap.find_entries(filter=self.filter, base_dn=self.base_dn) if len(ent): dns_enabled = True except Exception, e: pass return dict(result=dns_enabled, value=u'') api.register(dns_is_enabled)