samba-mirror/dns_base.py at f8bfd607ca3701384622caf2a223883f57ce1c36

mirror of https://github.com/samba-team/samba.git synced 2024-12-25 23:21:54 +03:00

Douglas Bagnall 581d7a528e pytest:dns_base: make_txt_update can set arbitrary TTL

Also, improve a variable name.

Signed-off-by: Douglas Bagnall <douglas.bagnall@catalyst.net.nz>
Reviewed-by: Andrew Bartlett <abartlet@samba.org>

2021-06-11 08:38:34 +00:00

438 lines

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Python

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 # Unix SMB/CIFS implementation.
 # Copyright (C) Kai Blin  <kai@samba.org> 2011
 # Copyright (C) Ralph Boehme  <slow@samba.org> 2016
 #
 # 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/>.
 #
 from samba.tests import TestCaseInTempDir
 from samba.dcerpc import dns, dnsp
 from samba import gensec, tests
 from samba import credentials
 import struct
 import samba.ndr as ndr
 import random
 import socket
 import uuid
 import time
 class DNSTest(TestCaseInTempDir):
     def setUp(self):
         super(DNSTest, self).setUp()
         self.timeout = None
     def errstr(self, errcode):
         "Return a readable error code"
         string_codes = [
             "OK",
             "FORMERR",
             "SERVFAIL",
             "NXDOMAIN",
             "NOTIMP",
             "REFUSED",
             "YXDOMAIN",
             "YXRRSET",
             "NXRRSET",
             "NOTAUTH",
             "NOTZONE",
             "0x0B",
             "0x0C",
             "0x0D",
             "0x0E",
             "0x0F",
             "BADSIG",
             "BADKEY"
         ]
         return string_codes[errcode]
     def assert_rcode_equals(self, rcode, expected):
         "Helper function to check return code"
         self.assertEqual(rcode, expected, "Expected RCODE %s, got %s" %
                           (self.errstr(expected), self.errstr(rcode)))
     def assert_dns_rcode_equals(self, packet, rcode):
         "Helper function to check return code"
         p_errcode = packet.operation & dns.DNS_RCODE
         self.assertEqual(p_errcode, rcode, "Expected RCODE %s, got %s" %
                           (self.errstr(rcode), self.errstr(p_errcode)))
     def assert_dns_opcode_equals(self, packet, opcode):
         "Helper function to check opcode"
         p_opcode = packet.operation & dns.DNS_OPCODE
         self.assertEqual(p_opcode, opcode, "Expected OPCODE %s, got %s" %
                           (opcode, p_opcode))
     def make_name_packet(self, opcode, qid=None):
         "Helper creating a dns.name_packet"
         p = dns.name_packet()
         if qid is None:
             p.id = random.randint(0x0, 0xff00)
         p.operation = opcode
         p.questions = []
         p.additional = []
         return p
     def finish_name_packet(self, packet, questions):
         "Helper to finalize a dns.name_packet"
         packet.qdcount = len(questions)
         packet.questions = questions
     def make_name_question(self, name, qtype, qclass):
         "Helper creating a dns.name_question"
         q = dns.name_question()
         q.name = name
         q.question_type = qtype
         q.question_class = qclass
         return q
     def make_txt_record(self, records):
         rdata_txt = dns.txt_record()
         s_list = dnsp.string_list()
         s_list.count = len(records)
         s_list.str = records
         rdata_txt.txt = s_list
         return rdata_txt
     def get_dns_domain(self):
         "Helper to get dns domain"
         return self.creds.get_realm().lower()
     def dns_transaction_udp(self, packet, host,
                             dump=False, timeout=None):
         "send a DNS query and read the reply"
         s = None
         if timeout is None:
             timeout = self.timeout
         try:
             send_packet = ndr.ndr_pack(packet)
             if dump:
                 print(self.hexdump(send_packet))
             s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM, 0)
             s.settimeout(timeout)
             s.connect((host, 53))
             s.sendall(send_packet, 0)
             recv_packet = s.recv(2048, 0)
             if dump:
                 print(self.hexdump(recv_packet))
             response = ndr.ndr_unpack(dns.name_packet, recv_packet)
             return (response, recv_packet)
         finally:
             if s is not None:
                 s.close()
     def dns_transaction_tcp(self, packet, host,
                             dump=False, timeout=None):
         "send a DNS query and read the reply, also return the raw packet"
         s = None
         if timeout is None:
             timeout = self.timeout
         try:
             send_packet = ndr.ndr_pack(packet)
             if dump:
                 print(self.hexdump(send_packet))
             s = socket.socket(socket.AF_INET, socket.SOCK_STREAM, 0)
             s.settimeout(timeout)
             s.connect((host, 53))
             tcp_packet = struct.pack('!H', len(send_packet))
             tcp_packet += send_packet
             s.sendall(tcp_packet)
             recv_packet = s.recv(0xffff + 2, 0)
             if dump:
                 print(self.hexdump(recv_packet))
             response = ndr.ndr_unpack(dns.name_packet, recv_packet[2:])
         finally:
             if s is not None:
                 s.close()
         # unpacking and packing again should produce same bytestream
         my_packet = ndr.ndr_pack(response)
         self.assertEqual(my_packet, recv_packet[2:])
         return (response, recv_packet[2:])
     def make_txt_update(self, prefix, txt_array, zone=None, ttl=900):
         p = self.make_name_packet(dns.DNS_OPCODE_UPDATE)
         updates = []
         name = zone or self.get_dns_domain()
         u = self.make_name_question(name, dns.DNS_QTYPE_SOA, dns.DNS_QCLASS_IN)
         updates.append(u)
         self.finish_name_packet(p, updates)
         updates = []
         r = dns.res_rec()
         r.name = "%s.%s" % (prefix, name)
         r.rr_type = dns.DNS_QTYPE_TXT
         r.rr_class = dns.DNS_QCLASS_IN
         r.ttl = ttl
         r.length = 0xffff
         rdata = self.make_txt_record(txt_array)
         r.rdata = rdata
         updates.append(r)
         p.nscount = len(updates)
         p.nsrecs = updates
         return p
     def check_query_txt(self, prefix, txt_array, zone=None):
         name = "%s.%s" % (prefix, zone or self.get_dns_domain())
         p = self.make_name_packet(dns.DNS_OPCODE_QUERY)
         questions = []
         q = self.make_name_question(name, dns.DNS_QTYPE_TXT, dns.DNS_QCLASS_IN)
         questions.append(q)
         self.finish_name_packet(p, questions)
         (response, response_packet) =\
             self.dns_transaction_udp(p, host=self.server_ip)
         self.assert_dns_rcode_equals(response, dns.DNS_RCODE_OK)
         self.assertEqual(response.ancount, 1)
         self.assertEqual(response.answers[0].rdata.txt.str, txt_array)
 class DNSTKeyTest(DNSTest):
     def setUp(self):
         super(DNSTKeyTest, self).setUp()
         self.settings = {}
         self.settings["lp_ctx"] = self.lp_ctx = tests.env_loadparm()
         self.settings["target_hostname"] = self.server
         self.creds = credentials.Credentials()
         self.creds.guess(self.lp_ctx)
         self.creds.set_username(tests.env_get_var_value('USERNAME'))
         self.creds.set_password(tests.env_get_var_value('PASSWORD'))
         self.creds.set_kerberos_state(credentials.MUST_USE_KERBEROS)
         self.newrecname = "tkeytsig.%s" % self.get_dns_domain()
     def tkey_trans(self, creds=None):
         "Do a TKEY transaction and establish a gensec context"
         if creds is None:
             creds = self.creds
         self.key_name = "%s.%s" % (uuid.uuid4(), self.get_dns_domain())
         p = self.make_name_packet(dns.DNS_OPCODE_QUERY)
         q = self.make_name_question(self.key_name,
                                     dns.DNS_QTYPE_TKEY,
                                     dns.DNS_QCLASS_IN)
         questions = []
         questions.append(q)
         self.finish_name_packet(p, questions)
         r = dns.res_rec()
         r.name = self.key_name
         r.rr_type = dns.DNS_QTYPE_TKEY
         r.rr_class = dns.DNS_QCLASS_IN
         r.ttl = 0
         r.length = 0xffff
         rdata = dns.tkey_record()
         rdata.algorithm = "gss-tsig"
         rdata.inception = int(time.time())
         rdata.expiration = int(time.time()) + 60 * 60
         rdata.mode = dns.DNS_TKEY_MODE_GSSAPI
         rdata.error = 0
         rdata.other_size = 0
         self.g = gensec.Security.start_client(self.settings)
         self.g.set_credentials(creds)
         self.g.set_target_service("dns")
         self.g.set_target_hostname(self.server)
         self.g.want_feature(gensec.FEATURE_SIGN)
         self.g.start_mech_by_name("spnego")
         finished = False
         client_to_server = b""
         (finished, server_to_client) = self.g.update(client_to_server)
         self.assertFalse(finished)
         data = [x if isinstance(x, int) else ord(x) for x in list(server_to_client)]
         rdata.key_data = data
         rdata.key_size = len(data)
         r.rdata = rdata
         additional = [r]
         p.arcount = 1
         p.additional = additional
         (response, response_packet) =\
             self.dns_transaction_tcp(p, self.server_ip)
         self.assert_dns_rcode_equals(response, dns.DNS_RCODE_OK)
         tkey_record = response.answers[0].rdata
         server_to_client = bytes(tkey_record.key_data)
         (finished, client_to_server) = self.g.update(server_to_client)
         self.assertTrue(finished)
         self.verify_packet(response, response_packet)
     def verify_packet(self, response, response_packet, request_mac=b""):
         self.assertEqual(response.additional[0].rr_type, dns.DNS_QTYPE_TSIG)
         tsig_record = response.additional[0].rdata
         mac = bytes(tsig_record.mac)
         # Cut off tsig record from dns response packet for MAC verification
         # and reset additional record count.
         key_name_len = len(self.key_name) + 2
         tsig_record_len = len(ndr.ndr_pack(tsig_record)) + key_name_len + 10
         # convert str/bytes to a list (of string char or int)
         # so it can be modified
         response_packet_list = [x if isinstance(x, int) else ord(x) for x in response_packet]
         del response_packet_list[-tsig_record_len:]
         response_packet_list[11] = 0
         # convert modified list (of string char or int) to str/bytes
         response_packet_wo_tsig = bytes(response_packet_list)
         fake_tsig = dns.fake_tsig_rec()
         fake_tsig.name = self.key_name
         fake_tsig.rr_class = dns.DNS_QCLASS_ANY
         fake_tsig.ttl = 0
         fake_tsig.time_prefix = tsig_record.time_prefix
         fake_tsig.time = tsig_record.time
         fake_tsig.algorithm_name = tsig_record.algorithm_name
         fake_tsig.fudge = tsig_record.fudge
         fake_tsig.error = 0
         fake_tsig.other_size = 0
         fake_tsig_packet = ndr.ndr_pack(fake_tsig)
         data = request_mac + response_packet_wo_tsig + fake_tsig_packet
         self.g.check_packet(data, data, mac)
     def sign_packet(self, packet, key_name):
         "Sign a packet, calculate a MAC and add TSIG record"
         packet_data = ndr.ndr_pack(packet)
         fake_tsig = dns.fake_tsig_rec()
         fake_tsig.name = key_name
         fake_tsig.rr_class = dns.DNS_QCLASS_ANY
         fake_tsig.ttl = 0
         fake_tsig.time_prefix = 0
         fake_tsig.time = int(time.time())
         fake_tsig.algorithm_name = "gss-tsig"
         fake_tsig.fudge = 300
         fake_tsig.error = 0
         fake_tsig.other_size = 0
         fake_tsig_packet = ndr.ndr_pack(fake_tsig)
         data = packet_data + fake_tsig_packet
         mac = self.g.sign_packet(data, data)
         mac_list = [x if isinstance(x, int) else ord(x) for x in list(mac)]
         rdata = dns.tsig_record()
         rdata.algorithm_name = "gss-tsig"
         rdata.time_prefix = 0
         rdata.time = fake_tsig.time
         rdata.fudge = 300
         rdata.original_id = packet.id
         rdata.error = 0
         rdata.other_size = 0
         rdata.mac = mac_list
         rdata.mac_size = len(mac_list)
         r = dns.res_rec()
         r.name = key_name
         r.rr_type = dns.DNS_QTYPE_TSIG
         r.rr_class = dns.DNS_QCLASS_ANY
         r.ttl = 0
         r.length = 0xffff
         r.rdata = rdata
         additional = [r]
         packet.additional = additional
         packet.arcount = 1
         return mac
     def bad_sign_packet(self, packet, key_name):
         '''Add bad signature for a packet by bitflipping
         the final byte in the MAC'''
         mac_list = [x if isinstance(x, int) else ord(x) for x in list("badmac")]
         rdata = dns.tsig_record()
         rdata.algorithm_name = "gss-tsig"
         rdata.time_prefix = 0
         rdata.time = int(time.time())
         rdata.fudge = 300
         rdata.original_id = packet.id
         rdata.error = 0
         rdata.other_size = 0
         rdata.mac = mac_list
         rdata.mac_size = len(mac_list)
         r = dns.res_rec()
         r.name = key_name
         r.rr_type = dns.DNS_QTYPE_TSIG
         r.rr_class = dns.DNS_QCLASS_ANY
         r.ttl = 0
         r.length = 0xffff
         r.rdata = rdata
         additional = [r]
         packet.additional = additional
         packet.arcount = 1
     def search_record(self, name):
         p = self.make_name_packet(dns.DNS_OPCODE_QUERY)
         questions = []
         q = self.make_name_question(name, dns.DNS_QTYPE_TXT, dns.DNS_QCLASS_IN)
         questions.append(q)
         self.finish_name_packet(p, questions)
         (response, response_packet) =\
             self.dns_transaction_udp(p, self.server_ip)
         return response.operation & 0x000F
     def make_update_request(self, delete=False):
         "Create a DNS update request"
         rr_class = dns.DNS_QCLASS_IN
         ttl = 900
         if delete:
             rr_class = dns.DNS_QCLASS_NONE
             ttl = 0
         p = self.make_name_packet(dns.DNS_OPCODE_UPDATE)
         q = self.make_name_question(self.get_dns_domain(),
                                     dns.DNS_QTYPE_SOA,
                                     dns.DNS_QCLASS_IN)
         questions = []
         questions.append(q)
         self.finish_name_packet(p, questions)
         updates = []
         r = dns.res_rec()
         r.name = self.newrecname
         r.rr_type = dns.DNS_QTYPE_TXT
         r.rr_class = rr_class
         r.ttl = ttl
         r.length = 0xffff
         rdata = self.make_txt_record(['"This is a test"'])
         r.rdata = rdata
         updates.append(r)
         p.nscount = len(updates)
         p.nsrecs = updates
         return p

438 lines 14 KiB Python Raw Blame History

438 lines

14 KiB

Python

Raw Blame History