# Unix SMB/CIFS implementation. # Copyright (C) Kai Blin 2011 # Copyright (C) Ralph Boehme 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 . # import sys import optparse import samba.getopt as options from samba.dcerpc import dns from samba.tests.subunitrun import SubunitOptions, TestProgram from samba.tests.dns_base import DNSTKeyTest parser = optparse.OptionParser("dns.py [options]") sambaopts = options.SambaOptions(parser) parser.add_option_group(sambaopts) # This timeout only has relevance when testing against Windows # Format errors tend to return patchy responses, so a timeout is needed. parser.add_option("--timeout", type="int", dest="timeout", help="Specify timeout for DNS requests") # use command line creds if available credopts = options.CredentialsOptions(parser) parser.add_option_group(credopts) subunitopts = SubunitOptions(parser) parser.add_option_group(subunitopts) opts, args = parser.parse_args() timeout = opts.timeout if len(args) < 2: parser.print_usage() sys.exit(1) server_name = args[0] server_ip = args[1] class TestDNSUpdates(DNSTKeyTest): def setUp(self): self.server = server_name self.server_ip = server_ip super(TestDNSUpdates, self).setUp() def test_tkey(self): "test DNS TKEY handshake" self.tkey_trans() def test_update_wo_tsig(self): "test DNS update without TSIG record" p = self.make_update_request() (response, response_p) = self.dns_transaction_udp(p, self.server_ip) self.assert_dns_rcode_equals(response, dns.DNS_RCODE_REFUSED) rcode = self.search_record(self.newrecname) self.assert_rcode_equals(rcode, dns.DNS_RCODE_NXDOMAIN) def test_update_tsig_bad_keyname(self): "test DNS update with a TSIG record with a bad keyname" self.tkey_trans() p = self.make_update_request() self.sign_packet(p, "badkey") (response, response_p) = self.dns_transaction_udp(p, self.server_ip) self.assert_dns_rcode_equals(response, dns.DNS_RCODE_NOTAUTH) tsig_record = response.additional[0].rdata self.assertEquals(tsig_record.error, dns.DNS_RCODE_BADKEY) self.assertEquals(tsig_record.mac_size, 0) rcode = self.search_record(self.newrecname) self.assert_rcode_equals(rcode, dns.DNS_RCODE_NXDOMAIN) def test_update_tsig_bad_mac(self): "test DNS update with a TSIG record with a bad MAC" self.tkey_trans() p = self.make_update_request() self.bad_sign_packet(p, self.key_name) (response, response_p) = self.dns_transaction_udp(p, self.server_ip) self.assert_dns_rcode_equals(response, dns.DNS_RCODE_NOTAUTH) tsig_record = response.additional[0].rdata self.assertEquals(tsig_record.error, dns.DNS_RCODE_BADSIG) self.assertEquals(tsig_record.mac_size, 0) rcode = self.search_record(self.newrecname) self.assert_rcode_equals(rcode, dns.DNS_RCODE_NXDOMAIN) def test_update_tsig(self): "test DNS update with correct TSIG record" self.tkey_trans() p = self.make_update_request() mac = self.sign_packet(p, self.key_name) (response, response_p) = self.dns_transaction_udp(p, self.server_ip) self.assert_dns_rcode_equals(response, dns.DNS_RCODE_OK) self.verify_packet(response, response_p, mac) # Check the record is around rcode = self.search_record(self.newrecname) self.assert_rcode_equals(rcode, dns.DNS_RCODE_OK) # Now delete the record p = self.make_update_request(delete=True) mac = self.sign_packet(p, self.key_name) (response, response_p) = self.dns_transaction_udp(p, self.server_ip) self.assert_dns_rcode_equals(response, dns.DNS_RCODE_OK) self.verify_packet(response, response_p, mac) # check it's gone rcode = self.search_record(self.newrecname) self.assert_rcode_equals(rcode, dns.DNS_RCODE_NXDOMAIN) def test_update_tsig_windows(self): "test DNS update with correct TSIG record (follow Windows pattern)" newrecname = "win" + self.newrecname rr_class = dns.DNS_QCLASS_IN ttl = 1200 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 = newrecname r.rr_type = dns.DNS_QTYPE_A r.rr_class = dns.DNS_QCLASS_ANY r.ttl = 0 r.length = 0 updates.append(r) r = dns.res_rec() r.name = newrecname r.rr_type = dns.DNS_QTYPE_AAAA r.rr_class = dns.DNS_QCLASS_ANY r.ttl = 0 r.length = 0 updates.append(r) r = dns.res_rec() r.name = newrecname r.rr_type = dns.DNS_QTYPE_A r.rr_class = rr_class r.ttl = ttl r.length = 0xffff r.rdata = "10.1.45.64" updates.append(r) p.nscount = len(updates) p.nsrecs = updates prereqs = [] r = dns.res_rec() r.name = newrecname r.rr_type = dns.DNS_QTYPE_CNAME r.rr_class = dns.DNS_QCLASS_NONE r.ttl = 0 r.length = 0 prereqs.append(r) p.ancount = len(prereqs) p.answers = prereqs (response, response_p) = self.dns_transaction_udp(p, self.server_ip) self.assert_dns_rcode_equals(response, dns.DNS_RCODE_REFUSED) self.tkey_trans() mac = self.sign_packet(p, self.key_name) (response, response_p) = self.dns_transaction_udp(p, self.server_ip) self.assert_dns_rcode_equals(response, dns.DNS_RCODE_OK) self.verify_packet(response, response_p, mac) # Check the record is around rcode = self.search_record(newrecname) self.assert_rcode_equals(rcode, dns.DNS_RCODE_OK) # Now delete the record p = self.make_update_request(delete=True) mac = self.sign_packet(p, self.key_name) (response, response_p) = self.dns_transaction_udp(p, self.server_ip) self.assert_dns_rcode_equals(response, dns.DNS_RCODE_OK) self.verify_packet(response, response_p, mac) # check it's gone rcode = self.search_record(self.newrecname) self.assert_rcode_equals(rcode, dns.DNS_RCODE_NXDOMAIN) TestProgram(module=__name__, opts=subunitopts)