# 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 . from __future__ import absolute_import import netaddr import time import re import dns.name import dns.exception import dns.resolver import encodings.idna from ipalib.request import context from ipalib import api, errors, output from ipalib import Command from ipalib.parameters import (Flag, Bool, Int, Decimal, Str, StrEnum, Any, DeprecatedParam, DNSNameParam) from ipalib.plugable import Registry from ipalib.plugins.baseldap import * from ipalib import _, ngettext from ipalib.util import (validate_zonemgr, normalize_zonemgr, get_dns_forward_zone_update_policy, get_dns_reverse_zone_update_policy, get_reverse_zone_default, REVERSE_DNS_ZONES) from ipapython.ipautil import valid_ip, CheckedIPAddress, is_host_resolvable from ipapython.dnsutil import DNSName __doc__ = _(""" Domain Name System (DNS) Manage DNS zone and resource records. USING STRUCTURED PER-TYPE OPTIONS There are many structured DNS RR types where DNS data stored in LDAP server is not just a scalar value, for example an IP address or a domain name, but a data structure which may be often complex. A good example is a LOC record [RFC1876] which consists of many mandatory and optional parts (degrees, minutes, seconds of latitude and longitude, altitude or precision). It may be difficult to manipulate such DNS records without making a mistake and entering an invalid value. DNS module provides an abstraction over these raw records and allows to manipulate each RR type with specific options. For each supported RR type, DNS module provides a standard option to manipulate a raw records with format ---rec, e.g. --mx-rec, and special options for every part of the RR structure with format ---, e.g. --mx-preference and --mx-exchanger. When adding a record, either RR specific options or standard option for a raw value can be used, they just should not be combined in one add operation. When modifying an existing entry, new RR specific options can be used to change one part of a DNS record, where the standard option for raw value is used to specify the modified value. The following example demonstrates a modification of MX record preference from 0 to 1 in a record without modifying the exchanger: ipa dnsrecord-mod --mx-rec="0 mx.example.com." --mx-preference=1 EXAMPLES: Add new zone: ipa dnszone-add example.com --name-server=ns \\ --admin-email=admin@example.com \\ --ip-address=10.0.0.1 Add system permission that can be used for per-zone privilege delegation: ipa dnszone-add-permission 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 This is the equivalent of: ipa dnszone-mod example.com --dynamic-update=TRUE \\ --update-policy="grant EXAMPLE.COM krb5-self * A; grant EXAMPLE.COM krb5-self * AAAA; grant EXAMPLE.COM krb5-self * SSHFP;" Modify the zone to allow zone transfers for local network only: ipa dnszone-mod example.com --allow-transfer=10.0.0.0/8 Add new reverse zone specified by network IP address: ipa dnszone-add --name-from-ip=80.142.15.0/24 \\ --name-server=ns.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 mail1" Add another record using MX record specific options: ipa dnsrecord-add example.com @ --mx-preference=20 --mx-exchanger=mail2 Add another record using interactive mode (started when dnsrecord-add, dnsrecord-mod, or dnsrecord-del are executed with no options): ipa dnsrecord-add example.com @ Please choose a type of DNS resource record to be added The most common types for this type of zone are: NS, MX, LOC DNS resource record type: MX MX Preference: 30 MX Exchanger: mail3 Record name: example.com MX record: 10 mail1, 20 mail2, 30 mail3 NS record: nameserver.example.com., nameserver2.example.com. 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. Create a reverse record in appropriate reverse zone as well. In this case a PTR record "2" pointing to www.example.com will be created in zone 15.142.80.in-addr.arpa. ipa dnsrecord-add example.com www --a-rec=80.142.15.2 --a-create-reverse 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" The interactive mode can be used for easy modification: ipa dnsrecord-mod example.com _ldap._tcp No option to modify specific record provided. Current DNS record contents: SRV record: 0 3 389 fast.example.com, 0 1 389 slow.example.com, 1 1 389 backup.example.com Modify SRV record '0 3 389 fast.example.com'? Yes/No (default No): Modify SRV record '0 1 389 slow.example.com'? Yes/No (default No): y SRV Priority [0]: (keep the default value) SRV Weight [1]: 2 (modified value) SRV Port [389]: (keep the default value) SRV Target [slow.example.com]: (keep the default value) 1 SRV record skipped. Only one value per DNS record type can be modified at one time. Record name: _ldap._tcp SRV record: 0 3 389 fast.example.com, 1 1 389 backup.example.com, 0 2 389 slow.example.com After this modification, three fifths of the requests should go to fast.example.com and two fifths to slow.example.com. An example of the interactive mode for dnsrecord-del command: 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 Delegate zone sub.example to another nameserver: ipa dnsrecord-add example.com ns.sub --a-rec=10.0.100.5 ipa dnsrecord-add example.com sub --ns-rec=ns.sub.example.com. If global forwarder is configured, all requests to sub.example.com will be routed through the global forwarder. To change the behavior for example.com zone only and forward the request directly to ns.sub.example.com., global forwarding may be disabled per-zone: ipa dnszone-mod example.com --forward-policy=none Forward all requests for the zone external.com to another nameserver using a "first" policy (it will send the queries to the selected forwarder and if not answered it will use global resolvers): ipa dnszone-add external.com ipa dnszone-mod external.com --forwarder=10.20.0.1 \\ --forward-policy=first 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 GLOBAL DNS CONFIGURATION DNS configuration passed to command line install script is stored in a local configuration file on each IPA server where DNS service is configured. These local settings can be overridden with a common configuration stored in LDAP server: Show global DNS configuration: ipa dnsconfig-show Modify global DNS configuration and set a list of global forwarders: ipa dnsconfig-mod --forwarder=10.0.0.1 """) register = Registry() # 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 = DNSName.empty # 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') # IN record class _IN = dns.rdataclass.IN # NS record type _NS = dns.rdatatype.from_text('NS') _output_permissions = ( output.summary, output.Output('result', bool, _('True means the operation was successful')), output.Output('value', unicode, _('Permission value')), ) def _rname_validator(ugettext, zonemgr): try: validate_zonemgr(zonemgr) except (ValueError, dns.exception.SyntaxError), e: return unicode(e) return None def _create_zone_serial(): """ Generate serial number for zones. bind-dyndb-ldap expects unix time in to be used for SOA serial. SOA serial in a date format would also work, but it may be set to far future when many DNS updates are done per day (more than 100). Unix timestamp is more resilient to this issue. """ return int(time.time()) def _reverse_zone_name(netstr): try: netaddr.IPAddress(str(netstr)) except (netaddr.AddrFormatError, ValueError): pass else: # use more sensible default prefix than netaddr default return unicode(get_reverse_zone_default(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(str(ipaddr), flags=netaddr.INET_PTON) 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 _validate_bind_aci(ugettext, bind_acis): if not bind_acis: return bind_acis = bind_acis.split(';') if bind_acis[-1]: return _('each ACL element must be terminated with a semicolon') else: bind_acis.pop(-1) for bind_aci in bind_acis: if bind_aci in ("any", "none", "localhost", "localnets"): continue if bind_aci.startswith('!'): bind_aci = bind_aci[1:] try: ip = CheckedIPAddress(bind_aci, parse_netmask=True, allow_network=True, allow_loopback=True) except (netaddr.AddrFormatError, ValueError), e: return unicode(e) except UnboundLocalError: return _(u"invalid address format") def _normalize_bind_aci(bind_acis): if not bind_acis: return bind_acis = bind_acis.split(';') normalized = [] for bind_aci in bind_acis: if not bind_aci: continue if bind_aci in ("any", "none", "localhost", "localnets"): normalized.append(bind_aci) continue prefix = "" if bind_aci.startswith('!'): bind_aci = bind_aci[1:] prefix = "!" try: ip = CheckedIPAddress(bind_aci, parse_netmask=True, allow_network=True, allow_loopback=True) if '/' in bind_aci: # addr with netmask netmask = "/%s" % ip.prefixlen else: netmask = "" normalized.append(u"%s%s%s" % (prefix, str(ip), netmask)) continue except: normalized.append(bind_aci) continue acis = u';'.join(normalized) acis += u';' return acis def _validate_bind_forwarder(ugettext, forwarder): ip_address, sep, port = forwarder.partition(u' port ') ip_address_validation = _validate_ipaddr(ugettext, ip_address) if ip_address_validation is not None: return ip_address_validation if sep: try: port = int(port) if port < 0 or port > 65535: raise ValueError() except ValueError: return _('%(port)s is not a valid port' % dict(port=port)) return None def _hostname_validator(ugettext, value): assert isinstance(value, DNSName) if len(value.make_absolute().labels) < 3: return _('invalid domain-name: not fully qualified') return None def is_forward_record(zone, str_address): addr = netaddr.IPAddress(str_address) if addr.version == 4: result = api.Command['dnsrecord_find'](zone, arecord=str_address) elif addr.version == 6: result = api.Command['dnsrecord_find'](zone, aaaarecord=str_address) else: raise ValueError('Invalid address family') return result['count'] > 0 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 get_reverse_zone(ipaddr, prefixlen=None): ip = netaddr.IPAddress(str(ipaddr)) revdns = DNSName(unicode(ip.reverse_dns)) if prefixlen is None: revzone = None result = api.Command['dnszone_find']()['result'] for zone in result: zonename = zone['idnsname'][0] if (revdns.is_subdomain(zonename.make_absolute()) and (revzone is None or zonename.is_subdomain(revzone))): revzone = zonename else: if ip.version == 4: pos = 4 - prefixlen / 8 elif ip.version == 6: pos = 32 - prefixlen / 4 items = ip.reverse_dns.split('.') revzone = DNSName(items[pos:]) try: api.Command['dnszone_show'](revzone) except errors.NotFound: revzone = None if revzone is None: raise errors.NotFound( reason=_('DNS reverse zone for IP address %(addr)s not found') % dict(addr=ipaddr) ) revname = revdns.relativize(revzone) return revzone, revname def add_records_for_host_validation(option_name, host, domain, ip_addresses, check_forward=True, check_reverse=True): assert isinstance(host, DNSName) assert isinstance(domain, DNSName) try: api.Command['dnszone_show'](domain)['result'] except errors.NotFound: raise errors.NotFound( reason=_('DNS zone %(zone)s not found') % dict(zone=domain) ) if not isinstance(ip_addresses, (tuple, list)): ip_addresses = [ip_addresses] for ip_address in ip_addresses: try: ip = CheckedIPAddress(ip_address, match_local=False) except Exception, e: raise errors.ValidationError(name=option_name, error=unicode(e)) if check_forward: if is_forward_record(domain, unicode(ip)): raise errors.DuplicateEntry( message=_(u'IP address %(ip)s is already assigned in domain %(domain)s.')\ % dict(ip=str(ip), domain=domain)) if check_reverse: try: prefixlen = None if not ip.defaultnet: prefixlen = ip.prefixlen # we prefer lookup of the IP through the reverse zone revzone, revname = get_reverse_zone(ip, prefixlen) reverse = api.Command['dnsrecord_find'](revzone, idnsname=revname) if reverse['count'] > 0: raise errors.DuplicateEntry( message=_(u'Reverse record for IP address %(ip)s already exists in reverse zone %(zone)s.')\ % dict(ip=str(ip), zone=revzone)) except errors.NotFound: pass def add_records_for_host(host, domain, ip_addresses, add_forward=True, add_reverse=True): assert isinstance(host, DNSName) assert isinstance(domain, DNSName) if not isinstance(ip_addresses, (tuple, list)): ip_addresses = [ip_addresses] for ip_address in ip_addresses: ip = CheckedIPAddress(ip_address, match_local=False) if add_forward: add_forward_record(domain, host, unicode(ip)) if add_reverse: try: prefixlen = None if not ip.defaultnet: prefixlen = ip.prefixlen revzone, revname = get_reverse_zone(ip, prefixlen) addkw = {'ptrrecord': host.derelativize(domain).ToASCII()} api.Command['dnsrecord_add'](revzone, revname, **addkw) except errors.EmptyModlist: # the entry already exists and matches pass def _dns_name_to_string(value, raw=False): if isinstance(value, unicode): try: value = DNSName(value) except Exception: return value assert isinstance(value, DNSName) if raw: return value.ToASCII() else: return unicode(value) class DNSRecord(Str): # a list of parts that create the actual raw DNS record parts = None # an optional list of parameters used in record-specific operations extra = 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 = _('Raw %s records') option_group_format = _('%s Record') see_rfc_msg = _("(see RFC %s for details)") part_name_format = "%s_part_%s" extra_name_format = "%s_extra_%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.setdefault('option_group', self.option_group_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 _part_values_to_string(self, values, index, idna=True): self._validate_parts(values) parts = [] for v in values: if v is None: continue elif isinstance(v, DNSName) and idna: v = v.ToASCII() elif not isinstance(v, unicode): v = unicode(v) parts.append(v) return u" ".join(parts) def get_parts_from_kw(self, kw, raise_on_none=True): part_names = tuple(self.part_name_format % (self.rrtype.lower(), part.name) \ for part in self.parts) vals = tuple(kw.get(part_name) for part_name in part_names) if all(val is None for val in vals): return if raise_on_none: for val_id,val in enumerate(vals): if val is None and self.parts[val_id].required: cli_name = self.cli_name_format % (self.rrtype.lower(), self.parts[val_id].name) raise errors.ConversionError(name=self.name, error=_("'%s' is a required part of DNS record") % cli_name) return vals def _validate_parts(self, parts): if len(parts) != len(self.parts): raise errors.ValidationError(name=self.name, error=_("Invalid number of parts!")) def _convert_scalar(self, value, index=None): if isinstance(value, (tuple, list)): return self._part_values_to_string(value, index) return super(DNSRecord, self)._convert_scalar(value, index) def normalize(self, value): if self.normalizedns: 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 converted_values = [ part._convert_scalar(values[part_id]) \ if values[part_id] is not None else None for part_id, part in enumerate(self.parts) ] new_values = [ part.normalize(converted_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: return if value is None: 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 def _convert_dnsrecord_part(self, part): """ All parts of DNSRecord need to be processed and modified before they can be added to global DNS API. For example a prefix need to be added before part name so that the name is unique in the global namespace. """ name = self.part_name_format % (self.rrtype.lower(), part.name) cli_name = self.cli_name_format % (self.rrtype.lower(), part.name) label = self.part_label_format % (self.rrtype, unicode(part.label)) option_group = self.option_group_format % self.rrtype flags = list(part.flags) + ['dnsrecord_part', 'virtual_attribute',] if not part.required: flags.append('dnsrecord_optional') return part.clone_rename(name, cli_name=cli_name, label=label, required=False, option_group=option_group, flags=flags, hint=self.name,) # name of parent RR param def _convert_dnsrecord_extra(self, extra): """ Parameters for special per-type behavior need to be processed in the same way as record parts in _convert_dnsrecord_part(). """ name = self.extra_name_format % (self.rrtype.lower(), extra.name) cli_name = self.cli_name_format % (self.rrtype.lower(), extra.name) label = self.part_label_format % (self.rrtype, unicode(extra.label)) option_group = self.option_group_format % self.rrtype flags = list(extra.flags) + ['dnsrecord_extra', 'virtual_attribute',] return extra.clone_rename(name, cli_name=cli_name, label=label, required=False, option_group=option_group, flags=flags, hint=self.name,) # name of parent RR param def get_parts(self): if self.parts is None: return tuple() return tuple(self._convert_dnsrecord_part(part) for part in self.parts) def get_extra(self): if self.extra is None: return tuple() return tuple(self._convert_dnsrecord_extra(extra) for extra in self.extra) def __get_part_param(self, cmd, part, output_kw, default=None): name = self.part_name_format % (self.rrtype.lower(), part.name) label = self.part_label_format % (self.rrtype, unicode(part.label)) optional = not part.required output_kw[name] = cmd.prompt_param(part, optional=optional, label=label) def prompt_parts(self, cmd, mod_dnsvalue=None): mod_parts = None if mod_dnsvalue is not None: mod_parts = self._get_part_values(mod_dnsvalue) user_options = {} if self.parts is None: return user_options for part_id, part in enumerate(self.parts): if mod_parts: default = mod_parts[part_id] else: default = None self.__get_part_param(cmd, part, user_options, default) return user_options def prompt_missing_parts(self, cmd, kw, prompt_optional=False): user_options = {} if self.parts is None: return user_options for part in self.parts: name = self.part_name_format % (self.rrtype.lower(), part.name) if name in kw: continue optional = not part.required if optional and not prompt_optional: continue default = part.get_default(**kw) self.__get_part_param(cmd, part, user_options, default) return user_options # callbacks for per-type special record behavior def dnsrecord_add_pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys, **options): assert isinstance(dn, DN) def dnsrecord_add_post_callback(self, ldap, dn, entry_attrs, *keys, **options): assert isinstance(dn, DN) class ForwardRecord(DNSRecord): extra = ( Flag('create_reverse?', label=_('Create reverse'), doc=_('Create reverse record for this IP Address'), flags=['no_update'] ), ) def dnsrecord_add_pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys, **options): assert isinstance(dn, DN) reverse_option = self._convert_dnsrecord_extra(self.extra[0]) if options.get(reverse_option.name): records = entry_attrs.get(self.name, []) if not records: # ---create-reverse is set, but there are not records raise errors.RequirementError(name=self.name) for record in records: add_records_for_host_validation(self.name, keys[-1], keys[-2], record, check_forward=False, check_reverse=True) setattr(context, '%s_reverse' % self.name, entry_attrs.get(self.name)) def dnsrecord_add_post_callback(self, ldap, dn, entry_attrs, *keys, **options): assert isinstance(dn, DN) rev_records = getattr(context, '%s_reverse' % self.name, []) if rev_records: # make sure we don't run this post callback action again in nested # commands, line adding PTR record in add_records_for_host delattr(context, '%s_reverse' % self.name) for record in rev_records: try: add_records_for_host(keys[-1], keys[-2], record, add_forward=False, add_reverse=True) except Exception, e: raise errors.NonFatalError( reason=_('Cannot create reverse record for "%(value)s": %(exc)s') \ % dict(value=record, exc=unicode(e))) class ARecord(ForwardRecord): rrtype = 'A' rfc = 1035 parts = ( Str('ip_address', _validate_ip4addr, label=_('IP Address'), ), ) class A6Record(DNSRecord): rrtype = 'A6' rfc = 3226 parts = ( Str('data', label=_('Record data'), ), ) def _get_part_values(self, value): # A6 RR type is obsolete and only a raw interface is provided return (value,) class AAAARecord(ForwardRecord): 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, ), DNSNameParam('hostname', 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 = ( DNSNameParam('hostname', 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 = ( DNSNameParam('target', 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, ), DNSNameParam('exchanger', 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, ), Decimal('lat_sec?', label=_('Seconds Latitude'), minvalue='0.0', maxvalue='59.999', precision=3, ), StrEnum('lat_dir', label=_('Direction Latitude'), values=(u'N', u'S',), ), Int('lon_deg', label=_('Degrees Longitude'), minvalue=0, maxvalue=180, ), Int('lon_min?', label=_('Minutes Longitude'), minvalue=0, maxvalue=59, ), Decimal('lon_sec?', label=_('Seconds Longitude'), minvalue='0.0', maxvalue='59.999', precision=3, ), StrEnum('lon_dir', label=_('Direction Longitude'), values=(u'E', u'W',), ), Decimal('altitude', label=_('Altitude'), minvalue='-100000.00', maxvalue='42849672.95', precision=2, ), Decimal('size?', label=_('Size'), minvalue='0.0', maxvalue='90000000.00', precision=2, ), Decimal('h_precision?', label=_('Horizontal Precision'), minvalue='0.0', maxvalue='90000000.00', precision=2, ), Decimal('v_precision?', label=_('Vertical Precision'), minvalue='0.0', maxvalue='90000000.00', precision=2, ), ) 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+)' r'(?:(?P\d{1,2}\s+)' r'(?P\d{1,2}(?:\.\d{1,3})?\s+)?)?' r'(?P[NS])\s+' r'(?P\d{1,3}\s+)' r'(?:(?P\d{1,2}\s+)' r'(?P\d{1,2}(?:\.\d{1,3})?\s+)?)?' r'(?P[WE])\s+' r'(?P-?\d{1,8}(?:\.\d{1,2})?)m?' r'(?:\s+(?P\d{1,8}(?:\.\d{1,2})?)m?' r'(?:\s+(?P\d{1,8}(?:\.\d{1,2})?)m?' r'(?:\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()) def _validate_parts(self, parts): super(LOCRecord, self)._validate_parts(parts) # create part_name -> part_id map first part_name_map = dict((part.name, part_id) \ for part_id,part in enumerate(self.parts)) requirements = ( ('lat_sec', 'lat_min'), ('lon_sec', 'lon_min'), ('h_precision', 'size'), ('v_precision', 'h_precision', 'size') ) for req in requirements: target_part = req[0] if parts[part_name_map[target_part]] is not None: required_parts = req[1:] if any(parts[part_name_map[part]] is None for part in required_parts): target_cli_name = self.cli_name_format % (self.rrtype.lower(), req[0]) required_cli_names = [ self.cli_name_format % (self.rrtype.lower(), part) for part in req[1:] ] error = _("'%(required)s' must not be empty when '%(name)s' is set") % \ dict(required=', '.join(required_cli_names), name=target_cli_name) raise errors.ValidationError(name=self.name, error=error) 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, ), DNSNameParam('exchanger', label=_('Exchanger'), doc=_('A host willing to act as a mail exchanger'), ), ) class NSRecord(DNSRecord): rrtype = 'NS' rfc = 1035 parts = ( DNSNameParam('hostname', 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 = ( DNSNameParam('next', label=_('Next Domain Name'), ), StrEnum('types+', label=_('Type Map'), values=_allowed_types, csv=True, ), ) def _get_part_values(self, value): values = value.split() if len(values) < 2: return None return (values[0], tuple(values[1:])) def _part_values_to_string(self, values, index, idna=True): self._validate_parts(values) if idna: val = values[0].ToASCII() else: val = unicode(values[0]) values_flat = [val, ] # add "next" part types = values[1] if not isinstance(types, (list, tuple)): types = [types,] values_flat.extend(types) return u" ".join(Str._convert_scalar(self, v, index) \ for v in values_flat if v is not None) 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 = ( DNSNameParam('hostname', #RFC 2317 section 5.2 -- can be relative 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, ), DNSNameParam('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, ), 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'), ), ) def _get_part_values(self, value): # ignore any space in TXT record return (value,) _dns_records = ( 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(), ) def __dns_record_options_iter(): for opt in (Any('dnsrecords?', label=_('Records'), flags=['no_create', 'no_search', 'no_update'],), Str('dnstype?', label=_('Record type'), flags=['no_create', 'no_search', 'no_update'],), Str('dnsdata?', label=_('Record data'), flags=['no_create', 'no_search', 'no_update'],)): # These 3 options are used in --structured format. They are defined # rather in takes_params than has_output_params because of their # order - they should be printed to CLI before any DNS part param yield opt for option in _dns_records: yield option for part in option.get_parts(): yield part for extra in option.get_extra(): yield extra _dns_record_options = tuple(__dns_record_options_iter()) _dns_supported_record_types = tuple(record.rrtype for record in _dns_records \ if record.supported) def check_ns_rec_resolvable(zone, name): assert isinstance(zone, DNSName) assert isinstance(name, DNSName) if name.is_empty(): name = zone.make_absolute() elif not name.is_absolute(): # this is a DNS name relative to the zone name = name.derelativize(zone.make_absolute()) try: return api.Command['dns_resolve'](unicode(name)) except errors.NotFound: raise errors.NotFound( reason=_('Nameserver \'%(host)s\' does not have a corresponding ' 'A/AAAA record') % {'host': name} ) def dns_container_exists(ldap): try: ldap.get_entry(DN(api.env.container_dns, api.env.basedn), []) except errors.NotFound: return False return True def default_zone_update_policy(zone): if zone.is_reverse(): return get_dns_reverse_zone_update_policy(api.env.realm, zone.ToASCII()) else: return get_dns_forward_zone_update_policy(api.env.realm) dnszone_output_params = ( Str('managedby', label=_('Managedby permission'), ), ) def _convert_to_idna(value): """ Function converts a unicode value to idna, without extra validation. If conversion fails, None is returned """ assert isinstance(value, unicode) try: idna_val = value start_dot = u'' end_dot = u'' if idna_val.startswith(u'.'): idna_val = idna_val[1:] start_dot = u'.' if idna_val.endswith(u'.'): idna_val = idna_val[:-1] end_dot = u'.' idna_val = encodings.idna.nameprep(idna_val) idna_val = re.split(r'(? 1: f = ldap.make_filter({attr: value}, rules=ldap.MATCH_ANY) attr_extra_filters.append(f) else: search_kw[attr] = value if cmd.obj.search_attributes: search_attrs = cmd.obj.search_attributes else: search_attrs = cmd.obj.default_attributes if cmd.obj.search_attributes_config: config = ldap.get_ipa_config() config_attrs = config.get(cmd.obj.search_attributes_config, []) if len(config_attrs) == 1 and (isinstance(config_attrs[0], basestring)): search_attrs = config_attrs[0].split(',') search_kw['objectclass'] = cmd.obj.object_class attr_filter = ldap.make_filter(search_kw, rules=ldap.MATCH_ALL) if attr_extra_filters: #combine filter if there is any idna value attr_extra_filters.append(attr_filter) attr_filter = ldap.combine_filters(attr_extra_filters, rules=ldap.MATCH_ALL) search_kw = {} for a in search_attrs: search_kw[a] = term term_filter = ldap.make_filter(search_kw, exact=False) member_filter = cmd.get_member_filter(ldap, **options) filter = ldap.combine_filters( (term_filter, attr_filter, member_filter), rules=ldap.MATCH_ALL ) return filter map_names_to_records = {"%srecord" % record.rrtype.lower(): record for record in _dns_records if record.supported} def _records_idn_postprocess(record, **options): for attr in record.keys(): attr = attr.lower() try: param = map_names_to_records[attr] except KeyError: continue if not isinstance(param, DNSRecord): continue part_params = param.get_parts() rrs = [] for dnsvalue in record[attr]: parts = param._get_part_values(dnsvalue) if parts is None: continue parts = list(parts) try: for (i, p) in enumerate(parts): if isinstance(part_params[i], DNSNameParam): parts[i] = DNSName(p) rrs.append(param._part_values_to_string(parts, None, idna=options.get('raw', False))) except (errors.ValidationError, errors.ConversionError): rrs.append(dnsvalue) record[attr] = rrs @register() 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'] possible_objectclasses = ['ipadnszone'] default_attributes = [ 'idnsname', 'idnszoneactive', 'idnssoamname', 'idnssoarname', 'idnssoaserial', 'idnssoarefresh', 'idnssoaretry', 'idnssoaexpire', 'idnssoaminimum', 'idnsallowquery', 'idnsallowtransfer', 'idnsforwarders', 'idnsforwardpolicy', 'idnssecinlinesigning', ] + _record_attributes label = _('DNS Zones') label_singular = _('DNS Zone') takes_params = ( DNSNameParam('idnsname', only_absolute=True, cli_name='name', label=_('Zone name'), doc=_('Zone name (FQDN)'), default_from=lambda name_from_ip: _reverse_zone_name(name_from_ip), 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',), ), DNSNameParam('idnssoamname', cli_name='name_server', label=_('Authoritative nameserver'), doc=_('Authoritative nameserver domain name'), ), DNSNameParam('idnssoarname', _rname_validator, only_absolute=True, cli_name='admin_email', label=_('Administrator e-mail address'), doc=_('Administrator e-mail address'), default_from=lambda idnsname: DNSName(('hostmaster')).derelativize(idnsname), normalizer=normalize_zonemgr, ), Int('idnssoaserial', cli_name='serial', label=_('SOA serial'), doc=_('SOA record serial number'), minvalue=1, maxvalue=4294967295L, default_from=_create_zone_serial, autofill=True, ), Int('idnssoarefresh', cli_name='refresh', label=_('SOA refresh'), doc=_('SOA record refresh time'), minvalue=0, maxvalue=2147483647, default=3600, autofill=True, ), Int('idnssoaretry', cli_name='retry', label=_('SOA retry'), doc=_('SOA record retry time'), minvalue=0, maxvalue=2147483647, default=900, autofill=True, ), Int('idnssoaexpire', cli_name='expire', label=_('SOA expire'), doc=_('SOA record expire time'), default=1209600, minvalue=0, maxvalue=2147483647, autofill=True, ), Int('idnssoaminimum', cli_name='minimum', label=_('SOA minimum'), doc=_('How long should negative responses be cached'), default=3600, minvalue=0, maxvalue=2147483647, autofill=True, ), Int('dnsttl?', cli_name='ttl', label=_('Time to live'), doc=_('Time to live for records at zone apex'), minvalue=0, maxvalue=2147483647, # see RFC 2181 ), 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'), default_from=lambda idnsname: default_zone_update_policy(idnsname), autofill=True ), 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 ), Str('idnsallowquery?', _validate_bind_aci, normalizer=_normalize_bind_aci, cli_name='allow_query', label=_('Allow query'), doc=_('Semicolon separated list of IP addresses or networks which are allowed to issue queries'), default=u'any;', # anyone can issue queries by default autofill=True, ), Str('idnsallowtransfer?', _validate_bind_aci, normalizer=_normalize_bind_aci, cli_name='allow_transfer', label=_('Allow transfer'), doc=_('Semicolon separated list of IP addresses or networks which are allowed to transfer the zone'), default=u'none;', # no one can issue queries by default autofill=True, ), Str('idnsforwarders*', _validate_bind_forwarder, cli_name='forwarder', label=_('Zone forwarders'), doc=_('Per-zone forwarders. A custom port can be specified ' 'for each forwarder using a standard format "IP_ADDRESS port PORT"'), csv=True, ), StrEnum('idnsforwardpolicy?', cli_name='forward_policy', label=_('Forward policy'), doc=_('Per-zone conditional forwarding policy. Set to "none" to ' 'disable forwarding to global forwarder for this zone. In ' 'that case, conditional zone forwarders are disregarded.'), values=(u'only', u'first', u'none'), ), Bool('idnsallowsyncptr?', cli_name='allow_sync_ptr', label=_('Allow PTR sync'), doc=_('Allow synchronization of forward (A, AAAA) and reverse (PTR) records in the zone'), ), Bool('idnssecinlinesigning?', cli_name='dnssec', default=False, label=_('Allow in-line DNSSEC signing'), doc=_('Allow inline DNSSEC signing of records in the zone'), ), ) def get_dn(self, *keys, **options): zone = keys[-1] assert isinstance(zone, DNSName) assert zone.is_absolute() zone = zone.ToASCII() #try first relative name, a new zone has to be added as absolute #otherwise ObjectViolation is raised zone = zone[:-1] dn = super(dnszone, self).get_dn(zone, **options) try: self.backend.get_entry(dn, ['']) except errors.NotFound: zone = u"%s." % zone dn = super(dnszone, self).get_dn(zone, **options) return dn def permission_name(self, zone): assert isinstance(zone, DNSName) return u"Manage DNS zone %s" % zone.ToASCII() def get_name_in_zone(self, zone, hostname): """ Get name of a record that is to be added to a new zone. I.e. when we want to add record "ipa.lab.example.com" in a zone "example.com", this function should return "ipa.lab". Returns None when record cannot be added to a zone. Returns '@' when the hostname is the zone record. """ assert isinstance(zone, DNSName) assert zone.is_absolute() assert isinstance(hostname, DNSName) if not hostname.is_absolute(): return hostname if hostname.is_subdomain(zone): return hostname.relativize(zone) return None def _rr_zone_postprocess(self, record, **options): #Decode IDN ACE form to Unicode, raw records are passed directly from LDAP if options.get('raw', False): return _records_idn_postprocess(record, **options) @register() class dnszone_add(LDAPCreate): __doc__ = _('Create new DNS zone (SOA record).') has_output_params = LDAPCreate.has_output_params + dnszone_output_params takes_options = LDAPCreate.takes_options + ( Flag('force', label=_('Force'), doc=_('Force DNS zone creation even if nameserver is not resolvable.'), ), Str('ip_address?', _validate_ipaddr, doc=_('Add forward record for nameserver located in the created zone'), label=_('Nameserver IP address'), ), ) def interactive_prompt_callback(self, kw): """ Interactive mode should prompt for nameserver IP address only if all of the following conditions are true: * New zone is a forward zone * NS is defined inside the new zone (NS can be given either in the form of absolute or relative name) """ if kw.get('ip_address', None): return try: zone = DNSName(kw['idnsname']).make_absolute() except Exception, e: raise errors.ValidationError(name='idnsname', error=unicode(e)) try: ns = DNSName(kw['idnssoamname']) except Exception, e: raise errors.ValidationError(name='idnssoamname', error=unicode(e)) relative_ns = not ns.is_absolute() ns_in_zone = self.obj.get_name_in_zone(zone, ns) if not zone.is_reverse() and (relative_ns or ns_in_zone): ip_address = self.Backend.textui.prompt(_(u'Nameserver IP address')) kw['ip_address'] = ip_address def pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys, **options): assert isinstance(dn, DN) 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=_("Nameserver address is not a domain name")) nameserver_ip_address = options.get('ip_address') zone = keys[-1] if nameserver.is_absolute(): record_in_zone = self.obj.get_name_in_zone(keys[-1], nameserver) else: record_in_zone = nameserver if zone.is_reverse(): if not nameserver.is_absolute(): raise errors.ValidationError(name='name-server', error=_("Nameserver for reverse zone cannot be " "a relative DNS name")) elif nameserver_ip_address: raise errors.ValidationError(name='ip_address', error=_("Nameserver DNS record is created for " "for forward zones only")) elif (nameserver_ip_address and nameserver.is_absolute() and record_in_zone is None): raise errors.ValidationError(name='ip_address', error=_("Nameserver DNS record is created only for " "nameservers in current zone")) if not nameserver_ip_address and not options['force']: check_ns_rec_resolvable(keys[0], nameserver) entry_attrs['nsrecord'] = nameserver entry_attrs['idnssoamname'] = nameserver return dn def post_callback(self, ldap, dn, entry_attrs, *keys, **options): assert isinstance(dn, DN) nameserver_ip_address = options.get('ip_address') if nameserver_ip_address: nameserver = entry_attrs['idnssoamname'][0] if nameserver.is_absolute(): dns_record = self.obj.get_name_in_zone(keys[-1], nameserver) else: dns_record = nameserver add_forward_record(keys[-1], dns_record, nameserver_ip_address) # Add entry to realmdomains # except for our own domain, forwarded zones and reverse zones zone = keys[0] if (zone != DNSName(api.env.domain).make_absolute() and not options.get('idnsforwarders') and not zone.is_reverse()): try: api.Command['realmdomains_mod'](add_domain=unicode(zone), force=True) except (errors.EmptyModlist, errors.ValidationError): pass self.obj._rr_zone_postprocess(entry_attrs, **options) return dn @register() class dnszone_del(LDAPDelete): __doc__ = _('Delete DNS zone (SOA record).') msg_summary = _('Deleted DNS zone "%(value)s"') def post_callback(self, ldap, dn, *keys, **options): try: api.Command['permission_del'](self.obj.permission_name(keys[-1]), force=True) except errors.NotFound: pass # Delete entry from realmdomains # except for our own domain zone = keys[0].make_absolute() if (zone != DNSName(api.env.domain).make_absolute() and not zone.is_reverse()): try: api.Command['realmdomains_mod'](del_domain=unicode(zone), force=True) except (errors.AttrValueNotFound, errors.ValidationError): pass return True @register() class dnszone_mod(LDAPUpdate): __doc__ = _('Modify DNS zone (SOA record).') takes_options = LDAPUpdate.takes_options + ( Flag('force', label=_('Force'), doc=_('Force nameserver change even if nameserver not in DNS'), ), ) has_output_params = LDAPUpdate.has_output_params + dnszone_output_params def pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys, **options): nameserver = entry_attrs.get('idnssoamname') if nameserver and not nameserver.is_empty() and not options['force']: check_ns_rec_resolvable(keys[0], nameserver) return dn def post_callback(self, ldap, dn, entry_attrs, *keys, **options): assert isinstance(dn, DN) self.obj._rr_zone_postprocess(entry_attrs, **options) return dn @register() class dnszone_find(LDAPSearch): __doc__ = _('Search for DNS zones (SOA records).') has_output_params = LDAPSearch.has_output_params + dnszone_output_params def args_options_2_params(self, *args, **options): # FIXME: Check that name_from_ip is valid. This is necessary because # custom validation rules, including _validate_ipnet, are not # used when doing a search. Once we have a parameter type for # IP network objects, this will no longer be necessary, as the # parameter type will handle the validation itself (see # ). 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'] search_kw = super(dnszone_find, self).args_options_2_entry(*args, **options) name = search_kw.get('idnsname') if name: search_kw['idnsname'] = [name, name.relativize(DNSName.root)] return search_kw 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): assert isinstance(base_dn, DN) filter = _create_idn_filter(self, ldap, *args, **options) if options.get('forward_only', False): search_kw = {} search_kw['idnsname'] = [revzone.ToASCII() for revzone in REVERSE_DNS_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) def post_callback(self, ldap, entries, truncated, *args, **options): for entry_attrs in entries: self.obj._rr_zone_postprocess(entry_attrs, **options) return truncated @register() class dnszone_show(LDAPRetrieve): __doc__ = _('Display information about a DNS zone (SOA record).') has_output_params = LDAPRetrieve.has_output_params + dnszone_output_params def post_callback(self, ldap, dn, entry_attrs, *keys, **options): assert isinstance(dn, DN) self.obj._rr_zone_postprocess(entry_attrs, **options) return dn @register() 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) entry = ldap.get_entry(dn, ['idnszoneactive']) entry['idnszoneactive'] = ['FALSE'] try: ldap.update_entry(entry) except errors.EmptyModlist: pass return dict(result=True, value=pkey_to_value(keys[-1], options)) @register() 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) entry = ldap.get_entry(dn, ['idnszoneactive']) entry['idnszoneactive'] = ['TRUE'] try: ldap.update_entry(entry) except errors.EmptyModlist: pass return dict(result=True, value=pkey_to_value(keys[-1], options)) @register() class dnszone_add_permission(LDAPQuery): __doc__ = _('Add a permission for per-zone access delegation.') has_output = _output_permissions msg_summary = _('Added system permission "%(value)s"') def execute(self, *keys, **options): ldap = self.obj.backend dn = self.obj.get_dn(*keys, **options) try: entry_attrs = ldap.get_entry(dn, ['objectclass']) except errors.NotFound: self.obj.handle_not_found(*keys) permission_name = self.obj.permission_name(keys[-1]) permission = api.Command['permission_add_noaci'](permission_name, ipapermissiontype=u'SYSTEM' )['result'] dnszone_ocs = entry_attrs.get('objectclass') if dnszone_ocs: for oc in dnszone_ocs: if oc.lower() == 'ipadnszone': break else: dnszone_ocs.append('ipadnszone') entry_attrs['managedby'] = [permission['dn']] ldap.update_entry(entry_attrs) return dict( result=True, value=pkey_to_value(permission_name, options), ) @register() class dnszone_remove_permission(LDAPQuery): __doc__ = _('Remove a permission for per-zone access delegation.') has_output = _output_permissions msg_summary = _('Removed system permission "%(value)s"') def execute(self, *keys, **options): ldap = self.obj.backend dn = self.obj.get_dn(*keys, **options) try: entry = ldap.get_entry(dn, ['managedby']) except errors.NotFound: self.obj.handle_not_found(*keys) entry['managedby'] = None try: ldap.update_entry(entry) except errors.EmptyModlist: # managedBy attribute is clean, lets make sure there is also no # dangling DNS zone permission pass permission_name = self.obj.permission_name(keys[-1]) api.Command['permission_del'](permission_name, force=True) return dict( result=True, value=pkey_to_value(permission_name, options), ) @register() 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'] permission_filter_objectclasses = ['idnsrecord'] default_attributes = ['idnsname'] + _record_attributes rdn_is_primary_key = True label = _('DNS Resource Records') label_singular = _('DNS Resource Record') takes_params = ( DNSNameParam('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 structured_flag = Flag('structured', label=_('Structured'), doc=_('Parse all raw DNS records and return them in a structured way'), ) def _nsrecord_pre_callback(self, ldap, dn, entry_attrs, *keys, **options): assert isinstance(dn, DN) nsrecords = entry_attrs.get('nsrecord') if options.get('force', False) or nsrecords is None: return for nsrecord in nsrecords: check_ns_rec_resolvable(keys[0], DNSName(nsrecord)) def _idnsname_pre_callback(self, ldap, dn, entry_attrs, *keys, **options): assert isinstance(dn, DN) if keys[-1].is_absolute(): if keys[-1].is_subdomain(keys[-2]): entry_attrs['idnsname'] = [keys[-1].relativize(keys[-2])] elif not self.is_pkey_zone_record(*keys): raise errors.ValidationError(name='idnsname', error=unicode(_('out-of-zone data: record name must ' 'be a subdomain of the zone or a ' 'relative name'))) def _ptrrecord_pre_callback(self, ldap, dn, entry_attrs, *keys, **options): assert isinstance(dn, DN) ptrrecords = entry_attrs.get('ptrrecord') if ptrrecords is None: return zone = keys[-2] if self.is_pkey_zone_record(*keys): addr = _dns_zone_record else: addr = keys[-1] zone_len = 0 for valid_zone in REVERSE_DNS_ZONES: if zone.is_subdomain(valid_zone): zone = zone.relativize(valid_zone) zone_name = valid_zone zone_len = REVERSE_DNS_ZONES[valid_zone] if not zone_len: allowed_zones = ', '.join([unicode(revzone) for revzone in REVERSE_DNS_ZONES.keys()]) raise errors.ValidationError(name='ptrrecord', error=unicode(_('Reverse zone for PTR record should be a sub-zone of one the following fully qualified domains: %s') % allowed_zones)) addr_len = len(addr.labels) #Classless zones (0/25.0.0.10.in-addr.arpa.) -> skip check #zone has to be checked without reverse domain suffix (in-addr.arpa.) for sign in ('/', '-'): for name in (zone, addr): for label in name.labels: if sign in label: return ip_addr_comp_count = addr_len + len(zone.labels) if ip_addr_comp_count != zone_len: raise errors.ValidationError(name='ptrrecord', 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))) def run_precallback_validators(self, dn, entry_attrs, *keys, **options): assert isinstance(dn, DN) ldap = self.api.Backend.ldap2 for rtype in entry_attrs.keys(): rtype_cb = getattr(self, '_%s_pre_callback' % rtype, None) if rtype_cb: rtype_cb(ldap, dn, entry_attrs, *keys, **options) def is_pkey_zone_record(self, *keys): assert isinstance(keys[-1], DNSName) assert isinstance(keys[-2], DNSName) idnsname = keys[-1] zonename = keys[-2] if idnsname.is_empty() or idnsname == zonename: return True return False def get_dn(self, *keys, **options): if self.is_pkey_zone_record(*keys): parent_object = self.api.Object[self.parent_object] dn = parent_object.get_dn(*keys[:-1], **options) # zone must exist ldap = self.api.Backend.ldap2 try: ldap.get_entry(dn, []) except errors.NotFound: parent_object.handle_not_found(*keys[:-1]) return dn #Make RR name relative if possible relative_name = keys[-1].relativize(keys[-2]).ToASCII() keys = keys[:-1] + (relative_name,) 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 = DN(('cn', 'masters'), ('cn', 'ipa'), ('cn', 'etc'), 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: try: master = entry.dn[1]['cn'] dns_masters.append(master) except (IndexError, KeyError): pass 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', 'rename')): 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_entry_attrs(self, entry_attrs): entry_attrs = entry_attrs.copy() for attr in entry_attrs.keys(): if attr not in self.params or self.params[attr].primary_key: del entry_attrs[attr] return entry_attrs def postprocess_record(self, record, **options): if options.get('structured', False): for attr in record.keys(): # attributes in LDAPEntry may not be normalized attr = attr.lower() try: param = self.params[attr] except KeyError: continue if not isinstance(param, DNSRecord): continue parts_params = param.get_parts() for dnsvalue in record[attr]: dnsentry = { u'dnstype' : unicode(param.rrtype), u'dnsdata' : dnsvalue } values = param._get_part_values(dnsvalue) if values is None: continue for val_id, val in enumerate(values): if val is not None: #decode IDN if isinstance(parts_params[val_id], DNSNameParam): dnsentry[parts_params[val_id].name] = \ _dns_name_to_string(val, options.get('raw', False)) else: dnsentry[parts_params[val_id].name] = val record.setdefault('dnsrecords', []).append(dnsentry) del record[attr] elif not options.get('raw', False): #Decode IDN ACE form to Unicode, raw records are passed directly from LDAP _records_idn_postprocess(record, **options) def get_rrparam_from_part(self, part_name): """ Get an instance of DNSRecord parameter that has part_name as its part. If such parameter is not found, None is returned :param part_name Part parameter name """ try: param = self.params[part_name] if not any(flag in param.flags for flag in \ ('dnsrecord_part', 'dnsrecord_extra')): return None # All DNS record part or extra parameters contain a name of its # parent RR parameter in its hint attribute rrparam = self.params[param.hint] except (KeyError, AttributeError): return None return rrparam def iterate_rrparams_by_parts(self, kw, skip_extra=False): """ Iterates through all DNSRecord instances that has at least one of its parts or extra options in given dictionary. It returns the DNSRecord instance only for the first occurence of part/extra option. :param kw Dictionary with DNS record parts or extra options :param skip_extra Skip DNS record extra options, yield only DNS records with a real record part """ processed = [] for opt in kw: rrparam = self.get_rrparam_from_part(opt) if rrparam is None: continue if skip_extra and 'dnsrecord_extra' in self.params[opt].flags: continue if rrparam.name not in processed: processed.append(rrparam.name) yield rrparam def check_record_type_collisions(self, keys, old_entry, entry_attrs): # Test that only allowed combination of record types was created rrattrs = {} if old_entry is not None: old_rrattrs = dict((key, value) for key, value in old_entry.iteritems() if key in self.params and isinstance(self.params[key], DNSRecord)) rrattrs.update(old_rrattrs) new_rrattrs = dict((key, value) for key, value in entry_attrs.iteritems() if key in self.params and isinstance(self.params[key], DNSRecord)) rrattrs.update(new_rrattrs) # CNAME record validation try: cnames = rrattrs['cnamerecord'] except KeyError: pass else: if cnames is not None: if len(cnames) > 1: raise errors.ValidationError(name='cnamerecord', error=_('only one CNAME record is allowed per name ' '(RFC 2136, section 1.1.5)')) if any(rrvalue is not None and rrattr != 'cnamerecord' for rrattr, rrvalue in rrattrs.iteritems()): raise errors.ValidationError(name='cnamerecord', error=_('CNAME record is not allowed to coexist ' 'with any other record (RFC 1034, section 3.6.2)')) # DNAME record validation try: dnames = rrattrs['dnamerecord'] except KeyError: pass else: if dnames is not None: if len(dnames) > 1: raise errors.ValidationError(name='dnamerecord', error=_('only one DNAME record is allowed per name ' '(RFC 6672, section 2.4)')) # DNAME must not coexist with CNAME, but this is already checked earlier if rrattrs.get('nsrecord') and not keys[1].is_empty(): raise errors.ValidationError(name='dnamerecord', error=_('DNAME record is not allowed to coexist with an ' 'NS record except when located in a zone root ' 'record (RFC 6672, section 2.3)')) def _entry2rrsets(self, entry_attrs, dns_name, dns_domain): '''Convert entry_attrs to a dictionary {rdtype: rrset}. :returns: None if entry_attrs is None {rdtype: None} if RRset of given type is empty {rdtype: RRset} if RRset of given type is non-empty ''' record_attr_suf = 'record' ldap_rrsets = {} if not entry_attrs: # all records were deleted => name should not exist in DNS return None for attr, value in entry_attrs.iteritems(): if not attr.endswith(record_attr_suf): continue rdtype = dns.rdatatype.from_text(attr[0:-len(record_attr_suf)]) if not value: ldap_rrsets[rdtype] = None # RRset is empty continue try: # TTL here can be arbitrary value because it is ignored # during comparison ldap_rrset = dns.rrset.from_text( dns_name, 86400, dns.rdataclass.IN, rdtype, *map(str, value)) # make sure that all names are absolute so RRset # comparison will work for ldap_rr in ldap_rrset: ldap_rr.choose_relativity(origin=dns_domain, relativize=False) ldap_rrsets[rdtype] = ldap_rrset except dns.exception.SyntaxError as e: self.log.error('DNS syntax error: %s %s %s: %s', dns_name, dns.rdatatype.to_text(rdtype), value, e) raise return ldap_rrsets def wait_for_modified_attr(self, ldap_rrset, rdtype, dns_name): '''Wait until DNS resolver returns up-to-date answer for given RRset or until the maximum number of attempts is reached. Number of attempts is controlled by self.api.env['wait_for_dns']. :param ldap_rrset: None if given rdtype should not exist or dns.rrset.RRset to match against data in DNS. :param dns_name: FQDN to query :type dns_name: dns.name.Name :return: None if data in DNS and LDAP match :raises errors.DNSDataMismatch: if data in DNS and LDAP doesn't match :raises dns.exception.DNSException: if DNS resolution failed ''' resolver = dns.resolver.Resolver() resolver.set_flags(0) # disable recursion (for NS RR checks) max_attempts = int(self.api.env['wait_for_dns']) warn_attempts = max_attempts / 2 period = 1 # second attempt = 0 log_fn = self.log.debug log_fn('querying DNS server: expecting answer {%s}', ldap_rrset) wait_template = 'waiting for DNS answer {%s}: got {%s} (attempt %s); '\ 'waiting %s seconds before next try' while attempt < max_attempts: if attempt >= warn_attempts: log_fn = self.log.warn attempt += 1 try: dns_answer = resolver.query(dns_name, rdtype, dns.rdataclass.IN, raise_on_no_answer=False) dns_rrset = None if rdtype == _NS: # NS records can be in Authority section (sometimes) dns_rrset = dns_answer.response.get_rrset( dns_answer.response.authority, dns_name, _IN, rdtype) if not dns_rrset: # Look for NS and other data in Answer section dns_rrset = dns_answer.rrset if dns_rrset == ldap_rrset: log_fn('DNS answer matches expectations (attempt %s)', attempt) return log_msg = wait_template % (ldap_rrset, dns_answer.response, attempt, period) except (dns.resolver.NXDOMAIN, dns.resolver.YXDOMAIN, dns.resolver.NoNameservers, dns.resolver.Timeout) as e: if attempt >= max_attempts: raise else: log_msg = wait_template % (ldap_rrset, type(e), attempt, period) log_fn(log_msg) time.sleep(period) # Maximum number of attempts was reached else: raise errors.DNSDataMismatch(expected=ldap_rrset, got=dns_rrset) def wait_for_modified_attrs(self, entry_attrs, dns_name, dns_domain): '''Wait until DNS resolver returns up-to-date answer for given entry or until the maximum number of attempts is reached. :param entry_attrs: None if the entry was deleted from LDAP or LDAPEntry instance containing at least all modified attributes. :param dns_name: FQDN :type dns_name: dns.name.Name :raises errors.DNSDataMismatch: if data in DNS and LDAP doesn't match ''' # represent data in LDAP as dictionary rdtype => rrset ldap_rrsets = self._entry2rrsets(entry_attrs, dns_name, dns_domain) nxdomain = ldap_rrsets is None if nxdomain: # name should not exist => ask for A record and check result ldap_rrsets = {dns.rdatatype.from_text('A'): None} for rdtype, ldap_rrset in ldap_rrsets.iteritems(): try: self.wait_for_modified_attr(ldap_rrset, rdtype, dns_name) except dns.resolver.NXDOMAIN as e: if nxdomain: continue else: e = errors.DNSDataMismatch(expected=ldap_rrset, got="NXDOMAIN") self.log.error(e) raise e except dns.resolver.NoNameservers as e: # Do not raise exception if we have got SERVFAILs. # Maybe the user has created an invalid zone intentionally. self.log.warn('waiting for DNS answer {%s}: got {%s}; ' 'ignoring', ldap_rrset, type(e)) continue except dns.exception.DNSException as e: err_desc = str(type(e)) err_str = str(e) if err_str: err_desc += ": %s" % err_str e = errors.DNSDataMismatch(expected=ldap_rrset, got=err_desc) self.log.error(e) raise e def wait_for_modified_entries(self, entries): '''Call wait_for_modified_attrs for all entries in given dict. :param entries: Dict {(dns_domain, dns_name): entry_for_wait_for_modified_attrs} ''' for entry_name, entry in entries.iteritems(): dns_domain = entry_name[0] dns_name = entry_name[1].derelativize(dns_domain) self.wait_for_modified_attrs(entry, dns_name, dns_domain) @register() 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'), ), dnsrecord.structured_flag, ) 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) # Some DNS records were entered, do not use full interactive help # We should still ask user for required parts of DNS parts he is # trying to add in the same way we do for standard LDAP parameters # # Do not ask for required parts when any "extra" option is used, # it can be used to fill all required params by itself new_kw = {} for rrparam in self.obj.iterate_rrparams_by_parts(kw, skip_extra=True): user_options = rrparam.prompt_missing_parts(self, kw, prompt_optional=False) new_kw.update(user_options) kw.update(new_kw) return except errors.OptionError: pass try: idnsname = DNSName(kw['idnsname']) except Exception, e: raise errors.ValidationError(name='idnsname', error=unicode(e)) try: zonename = DNSName(kw['dnszoneidnsname']) except Exception, e: raise errors.ValidationError(name='dnszoneidnsname', error=unicode(e)) # check zone type if idnsname.is_empty(): common_types = u', '.join(_zone_top_record_types) elif zonename.is_reverse(): common_types = u', '.join(_rev_top_record_types) else: common_types = u', '.join(_top_record_types) self.Backend.textui.print_plain(_(u'Please choose a type of DNS resource record to be added')) self.Backend.textui.print_plain(_(u'The most common types for this type of zone are: %s\n') %\ common_types) ok = False while not ok: rrtype = self.Backend.textui.prompt(_(u'DNS resource record type')) if rrtype is None: return try: name = '%srecord' % rrtype.lower() param = self.params[name] if not isinstance(param, DNSRecord): raise ValueError() if not param.supported: raise ValueError() except (KeyError, ValueError): all_types = u', '.join(_dns_supported_record_types) self.Backend.textui.print_plain(_(u'Invalid or unsupported type. Allowed values are: %s') % all_types) continue ok = True user_options = param.prompt_parts(self) kw.update(user_options) def pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys, **options): assert isinstance(dn, DN) precallback_attrs = [] processed_attrs = [] for option in options: try: param = self.params[option] except KeyError: continue rrparam = self.obj.get_rrparam_from_part(option) if rrparam is None: continue if 'dnsrecord_part' in param.flags: if rrparam.name in processed_attrs: # this record was already entered continue if rrparam.name in entry_attrs: # this record is entered both via parts and raw records raise errors.ValidationError(name=param.cli_name or param.name, error=_('Raw value of a DNS record was already set by "%(name)s" option') \ % dict(name=rrparam.cli_name or rrparam.name)) parts = rrparam.get_parts_from_kw(options) dnsvalue = [rrparam._convert_scalar(parts)] entry_attrs[rrparam.name] = dnsvalue processed_attrs.append(rrparam.name) continue if 'dnsrecord_extra' in param.flags: # do not run precallback for unset flags if isinstance(param, Flag) and not options[option]: continue # extra option is passed, run per-type pre_callback for given RR type precallback_attrs.append(rrparam.name) # Run pre_callback validators self.obj.run_precallback_validators(dn, entry_attrs, *keys, **options) # run precallback also for all new RR type attributes in entry_attrs for attr in entry_attrs.keys(): try: param = self.params[attr] except KeyError: continue if not isinstance(param, DNSRecord): continue precallback_attrs.append(attr) precallback_attrs = list(set(precallback_attrs)) for attr in precallback_attrs: # run per-type try: param = self.params[attr] except KeyError: continue param.dnsrecord_add_pre_callback(ldap, dn, entry_attrs, attrs_list, *keys, **options) # Store all new attrs so that DNSRecord post callback is called for # new attributes only and not for all attributes in the LDAP entry setattr(context, 'dnsrecord_precallback_attrs', precallback_attrs) # We always want to retrieve all DNS record attributes to test for # record type collisions (#2601) try: old_entry = ldap.get_entry(dn, _record_attributes) except errors.NotFound: old_entry = None else: for attr in entry_attrs.keys(): if attr not in _record_attributes: continue if entry_attrs[attr] is None: entry_attrs[attr] = [] 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.get(attr, []) + vals)) self.obj.check_record_type_collisions(keys, old_entry, entry_attrs) context.dnsrecord_entry_mods = getattr(context, 'dnsrecord_entry_mods', {}) context.dnsrecord_entry_mods[(keys[0], keys[1])] = entry_attrs.copy() 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 entry_attrs = self.obj.get_record_entry_attrs(call_args[0]) update = ldap.get_entry(entry_attrs.dn, entry_attrs.keys()) update.update(entry_attrs) ldap.update_entry(update, **call_kwargs) return raise exc def post_callback(self, ldap, dn, entry_attrs, *keys, **options): assert isinstance(dn, DN) for attr in getattr(context, 'dnsrecord_precallback_attrs', []): param = self.params[attr] param.dnsrecord_add_post_callback(ldap, dn, entry_attrs, *keys, **options) if self.obj.is_pkey_zone_record(*keys): entry_attrs[self.obj.primary_key.name] = [_dns_zone_record] self.obj.postprocess_record(entry_attrs, **options) if self.api.env['wait_for_dns']: self.obj.wait_for_modified_entries(context.dnsrecord_entry_mods) return dn @register() class dnsrecord_mod(LDAPUpdate): __doc__ = _('Modify a DNS resource record.') no_option_msg = 'No options to modify a specific record provided.' takes_options = LDAPUpdate.takes_options + ( dnsrecord.structured_flag, ) 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, attrs_list, *keys, **options): assert isinstance(dn, DN) if options.get('rename') and self.obj.is_pkey_zone_record(*keys): # zone rename is not allowed raise errors.ValidationError(name='rename', error=_('DNS zone root record cannot be renamed')) # check if any attr should be updated using structured instead of replaced # format is recordname : (old_value, new_parts) updated_attrs = {} for param in self.obj.iterate_rrparams_by_parts(options, skip_extra=True): parts = param.get_parts_from_kw(options, raise_on_none=False) if parts is None: # old-style modification continue old_value = entry_attrs.get(param.name) if not old_value: raise errors.RequirementError(name=param.name) if isinstance(old_value, (tuple, list)): if len(old_value) > 1: raise errors.ValidationError(name=param.name, error=_('DNS records can be only updated one at a time')) old_value = old_value[0] updated_attrs[param.name] = (old_value, parts) # Run pre_callback validators self.obj.run_precallback_validators(dn, entry_attrs, *keys, **options) # current entry is needed in case of per-dns-record-part updates and # for record type collision check try: old_entry = ldap.get_entry(dn, _record_attributes) except errors.NotFound: self.obj.handle_not_found(*keys) if updated_attrs: for attr in updated_attrs: param = self.params[attr] old_dnsvalue, new_parts = updated_attrs[attr] if old_dnsvalue not in old_entry.get(attr, []): attr_name = unicode(param.label or param.name) raise errors.AttrValueNotFound(attr=attr_name, value=old_dnsvalue) old_entry[attr].remove(old_dnsvalue) old_parts = param._get_part_values(old_dnsvalue) modified_parts = tuple(part if part is not None else old_parts[part_id] \ for part_id,part in enumerate(new_parts)) new_dnsvalue = [param._convert_scalar(modified_parts)] entry_attrs[attr] = list(set(old_entry[attr] + new_dnsvalue)) self.obj.check_record_type_collisions(keys, old_entry, entry_attrs) context.dnsrecord_entry_mods = getattr(context, 'dnsrecord_entry_mods', {}) context.dnsrecord_entry_mods[(keys[0], keys[1])] = entry_attrs.copy() 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): rename = options.get('rename') if rename is not None: keys = keys[:-1] + (rename,) dn = self.obj.get_dn(*keys, **options) ldap = self.obj.backend old_entry = ldap.get_entry(dn, _record_attributes) del_all = True for attr in old_entry.keys(): if old_entry[attr]: del_all = False break if del_all: result = self.obj.methods.delentry(*keys, version=options['version']) # indicate that entry was deleted context.dnsrecord_entry_mods[(keys[0], keys[1])] = None if self.api.env['wait_for_dns']: self.obj.wait_for_modified_entries(context.dnsrecord_entry_mods) return result def post_callback(self, ldap, dn, entry_attrs, *keys, **options): assert isinstance(dn, DN) if self.obj.is_pkey_zone_record(*keys): entry_attrs[self.obj.primary_key.name] = [_dns_zone_record] self.obj.postprocess_record(entry_attrs, **options) return dn def interactive_prompt_callback(self, kw): try: self.obj.has_cli_options(kw, self.no_option_msg, True) 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 modify specific record provided.")) # ask user for records to be removed self.Backend.textui.print_plain(_(u'Current DNS record contents:\n')) record_params = [] for attr in dns_record: try: param = self.params[attr] except KeyError: continue if not isinstance(param, DNSRecord): continue record_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 record_params: rec_values = list(dns_record[param.name]) for rec_value in dns_record[param.name]: rec_values.remove(rec_value) mod_value = self.Backend.textui.prompt_yesno( _("Modify %(name)s '%(value)s'?") % dict(name=param.label, value=rec_value), default=False) if mod_value is True: user_options = param.prompt_parts(self, mod_dnsvalue=rec_value) kw[param.name] = [rec_value] kw.update(user_options) if rec_values: self.Backend.textui.print_plain(ngettext( u'%(count)d %(type)s record skipped. Only one value per DNS record type can be modified at one time.', u'%(count)d %(type)s records skipped. Only one value per DNS record type can be modified at one time.', 0) % dict(count=len(rec_values), type=param.rrtype)) break @register() class dnsrecord_delentry(LDAPDelete): """ Delete DNS record entry. """ msg_summary = _('Deleted record "%(value)s"') NO_CLI = True @register() class dnsrecord_del(LDAPUpdate): __doc__ = _('Delete DNS resource record.') has_output = output.standard_multi_delete 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'), ), dnsrecord.structured_flag, ) def get_options(self): for option in super(dnsrecord_del, self).get_options(): if any(flag in option.flags for flag in \ ('dnsrecord_part', 'dnsrecord_extra',)): continue elif option.name in ('rename', ): # options only valid for dnsrecord-mod continue elif isinstance(option, DNSRecord): yield option.clone(option_group=None) continue yield option def pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys, **options): assert isinstance(dn, DN) try: old_entry = ldap.get_entry(dn, _record_attributes) 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): try: param = self.params[attr] attr_name = unicode(param.label or param.name) except: attr_name = attr raise errors.AttrValueNotFound(attr=attr_name, value=val) entry_attrs[attr] = list(set(old_entry[attr])) del_all = False if not self.obj.is_pkey_zone_record(*keys): record_found = False for attr in old_entry.keys(): if old_entry[attr]: record_found = True break del_all = not record_found # set del_all flag in context # when the flag is enabled, the entire DNS record object is deleted # in a post callback context.del_all = del_all context.dnsrecord_entry_mods = getattr(context, 'dnsrecord_entry_mods', {}) context.dnsrecord_entry_mods[(keys[0], keys[1])] = entry_attrs.copy() 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 ) result = self.obj.methods.delentry(*keys, version=options['version']) if self.api.env['wait_for_dns']: entries = {(keys[0], keys[1]): None} self.obj.wait_for_modified_entries(entries) return result result = super(dnsrecord_del, self).execute(*keys, **options) result['value'] = pkey_to_value([keys[-1]], options) if getattr(context, 'del_all', False) and not \ self.obj.is_pkey_zone_record(*keys): result = self.obj.methods.delentry(*keys, version=options['version']) context.dnsrecord_entry_mods[(keys[0], keys[1])] = None if self.api.env['wait_for_dns']: self.obj.wait_for_modified_entries(context.dnsrecord_entry_mods) return result def post_callback(self, ldap, dn, entry_attrs, *keys, **options): assert isinstance(dn, DN) if self.obj.is_pkey_zone_record(*keys): entry_attrs[self.obj.primary_key.name] = [_dns_zone_record] self.obj.postprocess_record(entry_attrs, **options) return dn 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 attr in dns_record: try: param = self.params[attr] except KeyError: continue if not isinstance(param, DNSRecord): continue 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: kw[param.name] = tuple(deleted_values) @register() class dnsrecord_show(LDAPRetrieve): __doc__ = _('Display DNS resource.') takes_options = LDAPRetrieve.takes_options + ( dnsrecord.structured_flag, ) def post_callback(self, ldap, dn, entry_attrs, *keys, **options): assert isinstance(dn, DN) if self.obj.is_pkey_zone_record(*keys): entry_attrs[self.obj.primary_key.name] = [_dns_zone_record] self.obj.postprocess_record(entry_attrs, **options) return dn @register() class dnsrecord_find(LDAPSearch): __doc__ = _('Search for DNS resources.') takes_options = LDAPSearch.takes_options + ( dnsrecord.structured_flag, ) def get_options(self): for option in super(dnsrecord_find, self).get_options(): if any(flag in option.flags for flag in \ ('dnsrecord_part', 'dnsrecord_extra',)): continue elif isinstance(option, DNSRecord): yield option.clone(option_group=None) continue yield option def pre_callback(self, ldap, filter, attrs_list, base_dn, scope, *args, **options): assert isinstance(base_dn, DN) filter = _create_idn_filter(self, ldap, *args, **options) 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].dn == zone_dn: entries[0][zone_obj.primary_key.name] = [_dns_zone_record] for entry in entries: self.obj.postprocess_record(entry, **options) return truncated @register() 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 + '.' if not is_host_resolvable(query): raise errors.NotFound( reason=_('Host \'%(host)s\' not found') % {'host': query} ) return dict(result=True, value=query) @register() 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 = DN(('cn', 'masters'), ('cn', 'ipa'), ('cn', 'etc'), 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=pkey_to_value(None, options)) @register() class dnsconfig(LDAPObject): """ DNS global configuration object """ object_name = _('DNS configuration options') default_attributes = [ 'idnsforwardpolicy', 'idnsforwarders', 'idnsallowsyncptr' ] label = _('DNS Global Configuration') label_singular = _('DNS Global Configuration') takes_params = ( Str('idnsforwarders*', _validate_bind_forwarder, cli_name='forwarder', label=_('Global forwarders'), doc=_('Global forwarders. A custom port can be specified for each ' 'forwarder using a standard format "IP_ADDRESS port PORT"'), csv=True, ), StrEnum('idnsforwardpolicy?', cli_name='forward_policy', label=_('Forward policy'), doc=_('Global forwarding policy. Set to "none" to disable ' 'any configured global forwarders.'), values=(u'only', u'first', u'none'), ), Bool('idnsallowsyncptr?', cli_name='allow_sync_ptr', label=_('Allow PTR sync'), doc=_('Allow synchronization of forward (A, AAAA) and reverse (PTR) records'), ), DeprecatedParam('idnszonerefresh?', cli_name='zone_refresh', label=_('Zone refresh interval'), ), ) def get_dn(self, *keys, **kwargs): return DN(api.env.container_dns, api.env.basedn) def get_dnsconfig(self, ldap): entry = ldap.get_entry(self.get_dn(), None) return entry def postprocess_result(self, result): if not any(param in result['result'] for param in self.params): result['summary'] = unicode(_('Global DNS configuration is empty')) @register() class dnsconfig_mod(LDAPUpdate): __doc__ = _('Modify global DNS configuration.') def execute(self, *keys, **options): result = super(dnsconfig_mod, self).execute(*keys, **options) self.obj.postprocess_result(result) return result @register() class dnsconfig_show(LDAPRetrieve): __doc__ = _('Show the current global DNS configuration.') def execute(self, *keys, **options): result = super(dnsconfig_show, self).execute(*keys, **options) self.obj.postprocess_result(result) return result