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# helper for DNS management tool
#
# Copyright (C) Amitay Isaacs 2011-2012
#
# 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 <http://www.gnu.org/licenses/>.
#
import shlex
import socket
from samba.dcerpc import dnsserver, dnsp
# Note: these are not quite the same as similar looking classes in
# provision/sambadns.py -- those ones are based on
# dnsp.DnssrvRpcRecord, these are based on dnsserver.DNS_RPC_RECORD.
# They encode the same information in slightly different ways.
#
# DNS_RPC_RECORD structures ([MS-DNSP]2.2.2.2.5 "DNS_RPC_RECORD") are
# used on the wire by DnssrvEnumRecords2. The dnsp.DnssrvRpcRecord
# versions have the in-database version of the same information, where
# the flags field is unpacked, and the struct ordering is different.
# See [MS-DNSP] 2.3.2.2 "DnsRecord".
#
# In both cases the structure and contents of .data depend on .wType.
# For example, if .wType is DNS_TYPE_A, .data is an IPv4 address. If
# the .wType is changed to DNS_TYPE_CNAME, the contents of .data will
# be interpreted as a cname blob, but the bytes there will still be
# those of the IPv4 address. If you don't also set the .data you may
# encounter stability problems. These DNS_RPC_RECORD subclasses
# attempt to hide that from you, but are only pretending -- any of
# them can represent any type of record.
class DNSParseError(ValueError):
pass
class ARecord(dnsserver.DNS_RPC_RECORD):
def __init__(self, ip_addr, serial=1, ttl=900, rank=dnsp.DNS_RANK_ZONE,
node_flag=0):
super(ARecord, self).__init__()
self.wType = dnsp.DNS_TYPE_A
self.dwFlags = rank | node_flag
self.dwSerial = serial
self.dwTtlSeconds = ttl
self.data = ip_addr
@classmethod
def from_string(cls, data, sep=None, **kwargs):
return cls(data, **kwargs)
class AAAARecord(dnsserver.DNS_RPC_RECORD):
def __init__(self, ip6_addr, serial=1, ttl=900, rank=dnsp.DNS_RANK_ZONE,
node_flag=0):
super(AAAARecord, self).__init__()
self.wType = dnsp.DNS_TYPE_AAAA
self.dwFlags = rank | node_flag
self.dwSerial = serial
self.dwTtlSeconds = ttl
self.data = ip6_addr
@classmethod
def from_string(cls, data, sep=None, **kwargs):
return cls(data, **kwargs)
class PTRRecord(dnsserver.DNS_RPC_RECORD):
def __init__(self, ptr, serial=1, ttl=900, rank=dnsp.DNS_RANK_ZONE,
node_flag=0):
super(PTRRecord, self).__init__()
self.wType = dnsp.DNS_TYPE_PTR
self.dwFlags = rank | node_flag
self.dwSerial = serial
self.dwTtlSeconds = ttl
ptr_name = dnsserver.DNS_RPC_NAME()
ptr_name.str = ptr
ptr_name.len = len(ptr)
self.data = ptr_name
@classmethod
def from_string(cls, data, sep=None, **kwargs):
return cls(data, **kwargs)
class CNAMERecord(dnsserver.DNS_RPC_RECORD):
def __init__(self, cname, serial=1, ttl=900, rank=dnsp.DNS_RANK_ZONE,
node_flag=0):
super().__init__()
self.wType = dnsp.DNS_TYPE_CNAME
self.dwFlags = rank | node_flag
self.dwSerial = serial
self.dwTtlSeconds = ttl
cname_name = dnsserver.DNS_RPC_NAME()
cname_name.str = cname
cname_name.len = len(cname)
self.data = cname_name
@classmethod
def from_string(cls, data, sep=None, **kwargs):
return cls(data, **kwargs)
class NSRecord(dnsserver.DNS_RPC_RECORD):
def __init__(self, dns_server, serial=1, ttl=900, rank=dnsp.DNS_RANK_ZONE,
node_flag=0):
super(NSRecord, self).__init__()
self.wType = dnsp.DNS_TYPE_NS
self.dwFlags = rank | node_flag
self.dwSerial = serial
self.dwTtlSeconds = ttl
ns = dnsserver.DNS_RPC_NAME()
ns.str = dns_server
ns.len = len(dns_server)
self.data = ns
@classmethod
def from_string(cls, data, sep=None, **kwargs):
return cls(data, **kwargs)
class MXRecord(dnsserver.DNS_RPC_RECORD):
def __init__(self, mail_server, preference, serial=1, ttl=900,
rank=dnsp.DNS_RANK_ZONE, node_flag=0):
super(MXRecord, self).__init__()
self.wType = dnsp.DNS_TYPE_MX
self.dwFlags = rank | node_flag
self.dwSerial = serial
self.dwTtlSeconds = ttl
mx = dnsserver.DNS_RPC_RECORD_NAME_PREFERENCE()
mx.wPreference = preference
mx.nameExchange.str = mail_server
mx.nameExchange.len = len(mail_server)
self.data = mx
@classmethod
def from_string(cls, data, sep=None, **kwargs):
try:
server, priority = data.split(sep)
priority = int(priority)
except ValueError as e:
raise DNSParseError("MX data must have server and priority "
"(space separated), not %r" % data) from e
return cls(server, priority, **kwargs)
class SOARecord(dnsserver.DNS_RPC_RECORD):
def __init__(self, mname, rname, serial=1, refresh=900, retry=600,
expire=86400, minimum=3600, ttl=3600, rank=dnsp.DNS_RANK_ZONE,
node_flag=dnsp.DNS_RPC_FLAG_AUTH_ZONE_ROOT):
super(SOARecord, self).__init__()
self.wType = dnsp.DNS_TYPE_SOA
self.dwFlags = rank | node_flag
self.dwSerial = serial
self.dwTtlSeconds = ttl
soa = dnsserver.DNS_RPC_RECORD_SOA()
soa.dwSerialNo = serial
soa.dwRefresh = refresh
soa.dwRetry = retry
soa.dwExpire = expire
soa.dwMinimumTtl = minimum
soa.NamePrimaryServer.str = mname
soa.NamePrimaryServer.len = len(mname)
soa.ZoneAdministratorEmail.str = rname
soa.ZoneAdministratorEmail.len = len(rname)
self.data = soa
@classmethod
def from_string(cls, data, sep=None, **kwargs):
args = data.split(sep)
if len(args) != 7:
raise DNSParseError('Data requires 7 space separated elements - '
'nameserver, email, serial, '
'refresh, retry, expire, minimumttl')
try:
for i in range(2, 7):
args[i] = int(args[i])
except ValueError as e:
raise DNSParseError("SOA serial, refresh, retry, expire, minimumttl' "
"should be integers") from e
return cls(*args, **kwargs)
class SRVRecord(dnsserver.DNS_RPC_RECORD):
def __init__(self, target, port, priority=0, weight=100, serial=1, ttl=900,
rank=dnsp.DNS_RANK_ZONE, node_flag=0):
super(SRVRecord, self).__init__()
self.wType = dnsp.DNS_TYPE_SRV
self.dwFlags = rank | node_flag
self.dwSerial = serial
self.dwTtlSeconds = ttl
srv = dnsserver.DNS_RPC_RECORD_SRV()
srv.wPriority = priority
srv.wWeight = weight
srv.wPort = port
srv.nameTarget.str = target
srv.nameTarget.len = len(target)
self.data = srv
@classmethod
def from_string(cls, data, sep=None, **kwargs):
try:
target, port, priority, weight = data.split(sep)
except ValueError as e:
raise DNSParseError("SRV data must have four space "
"separated elements: "
"server, port, priority, weight; "
"not %r" % data) from e
try:
args = (target, int(port), int(priority), int(weight))
except ValueError as e:
raise DNSParseError("SRV port, priority, and weight "
"must be integers") from e
return cls(*args, **kwargs)
class TXTRecord(dnsserver.DNS_RPC_RECORD):
def __init__(self, slist, serial=1, ttl=900, rank=dnsp.DNS_RANK_ZONE,
node_flag=0):
super(TXTRecord, self).__init__()
self.wType = dnsp.DNS_TYPE_TXT
self.dwFlags = rank | node_flag
self.dwSerial = serial
self.dwTtlSeconds = ttl
if isinstance(slist, str):
slist = [slist]
names = []
for s in slist:
name = dnsserver.DNS_RPC_NAME()
name.str = s
name.len = len(s)
names.append(name)
txt = dnsserver.DNS_RPC_RECORD_STRING()
txt.count = len(slist)
txt.str = names
self.data = txt
@classmethod
def from_string(cls, data, sep=None, **kwargs):
slist = shlex.split(data)
return cls(slist, **kwargs)
#
# Don't add new Record types after this line
_RECORD_TYPE_LUT = {}
def _setup_record_type_lut():
for k, v in globals().items():
if k[-6:] == 'Record':
k = k[:-6]
flag = getattr(dnsp, 'DNS_TYPE_' + k)
_RECORD_TYPE_LUT[k] = v
_RECORD_TYPE_LUT[flag] = v
_setup_record_type_lut()
del _setup_record_type_lut
def record_from_string(t, data, sep=None, **kwargs):
"""Get a DNS record of type t based on the data string.
Additional keywords (ttl, rank, etc) can be passed in.
t can be a dnsp.DNS_TYPE_* integer or a string like "A", "TXT", etc.
"""
if isinstance(t, str):
t = t.upper()
try:
Record = _RECORD_TYPE_LUT[t]
except KeyError as e:
raise DNSParseError("Unsupported record type") from e
return Record.from_string(data, sep=sep, **kwargs)
def flag_from_string(rec_type):
rtype = rec_type.upper()
try:
return getattr(dnsp, 'DNS_TYPE_' + rtype)
except AttributeError:
raise DNSParseError('Unknown type of DNS record %s' % rec_type) from e
def recbuf_from_string(*args, **kwargs):
rec = record_from_string(*args, **kwargs)
buf = dnsserver.DNS_RPC_RECORD_BUF()
buf.rec = rec
return buf
def dns_name_equal(n1, n2):
"""Match dns name (of type DNS_RPC_NAME)"""
return n1.str.rstrip('.').lower() == n2.str.rstrip('.').lower()
def ipv6_normalise(addr):
"""Convert an AAAA adresss into a canonical form."""
packed = socket.inet_pton(socket.AF_INET6, addr)
return socket.inet_ntop(socket.AF_INET6, packed)
def dns_record_match(dns_conn, server, zone, name, record_type, data):
"""Find a dns record that matches the specified data"""
# The matching is not as precises as that offered by
# dsdb_dns.match_record, which, for example, compares IPv6 records
# semantically rather than as strings. However that function
# compares database DnssrvRpcRecord structures, not wire
# DNS_RPC_RECORD structures.
#
# While it would be possible, perhaps desirable, to wrap that
# function for use in samba-tool, there is value in having a
# separate implementation for tests, to avoid the circularity of
# asserting the function matches itself.
urec = record_from_string(record_type, data)
select_flags = dnsserver.DNS_RPC_VIEW_AUTHORITY_DATA
try:
buflen, res = dns_conn.DnssrvEnumRecords2(
dnsserver.DNS_CLIENT_VERSION_LONGHORN, 0, server, zone, name, None,
record_type, select_flags, None, None)
except WERRORError as e:
if e.args[0] == werror.WERR_DNS_ERROR_NAME_DOES_NOT_EXIST:
# Either the zone doesn't exist, or there were no records.
# We can't differentiate the two.
return None
raise e
if not res or res.count == 0:
return None
for rec in res.rec[0].records:
if rec.wType != record_type:
continue
found = False
if record_type == dnsp.DNS_TYPE_A:
if rec.data == urec.data:
found = True
elif record_type == dnsp.DNS_TYPE_AAAA:
if ipv6_normalise(rec.data) == ipv6_normalise(urec.data):
found = True
elif record_type == dnsp.DNS_TYPE_PTR:
if dns_name_equal(rec.data, urec.data):
found = True
elif record_type == dnsp.DNS_TYPE_CNAME:
if dns_name_equal(rec.data, urec.data):
found = True
elif record_type == dnsp.DNS_TYPE_NS:
if dns_name_equal(rec.data, urec.data):
found = True
elif record_type == dnsp.DNS_TYPE_MX:
if dns_name_equal(rec.data.nameExchange, urec.data.nameExchange) and \
rec.data.wPreference == urec.data.wPreference:
found = True
elif record_type == dnsp.DNS_TYPE_SRV:
if rec.data.wPriority == urec.data.wPriority and \
rec.data.wWeight == urec.data.wWeight and \
rec.data.wPort == urec.data.wPort and \
dns_name_equal(rec.data.nameTarget, urec.data.nameTarget):
found = True
elif record_type == dnsp.DNS_TYPE_SOA:
if rec.data.dwSerialNo == urec.data.dwSerialNo and \
rec.data.dwRefresh == urec.data.dwRefresh and \
rec.data.dwRetry == urec.data.dwRetry and \
rec.data.dwExpire == urec.data.dwExpire and \
rec.data.dwMinimumTtl == urec.data.dwMinimumTtl and \
dns_name_equal(rec.data.NamePrimaryServer,
urec.data.NamePrimaryServer) and \
dns_name_equal(rec.data.ZoneAdministratorEmail,
urec.data.ZoneAdministratorEmail):
found = True
elif record_type == dnsp.DNS_TYPE_TXT:
if rec.data.count == urec.data.count:
found = True
for i in range(rec.data.count):
found = found and \
(rec.data.str[i].str == urec.data.str[i].str)
if found:
return rec
return None
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