def getFirstProtobufMessage(self, retries=1, waitTime=1):
msg = None
- print("in getFirstProtobufMessage")
+ #print("in getFirstProtobufMessage")
for param in protobufServersParameters:
- print(param.port)
+ #print(param.port)
failed = 0
- while param.queue.empty:
- print(failed)
- print(retries)
+ while param.queue.empty():
+ #print(failed)
+ #print(retries)
if failed >= retries:
break
failed = failed + 1
- print("waiting")
+ #print("waiting")
time.sleep(waitTime)
self.assertFalse(param.queue.empty())
if oldmsg is not None:
self.assertEqual(msg, oldmsg)
- print(msg)
+ #print(msg)
return msg
def emptyProtoBufQueue(self):
self.assertEqual(msg.response.appliedPolicyKind, kind)
def checkProtobufTags(self, msg, tags):
- print(tags)
- print('---')
- print(msg.response.tags)
+ #print(tags)
+ #print('---')
+ #print(msg.response.tags)
self.assertEqual(len(msg.response.tags), len(tags))
for tag in msg.response.tags:
self.assertTrue(tag in tags)
def checkProtobufMetas(self, msg, metas):
- print(metas)
- print('---')
- print(msg.meta)
+ #print(metas)
+ #print('---')
+ #print(msg.meta)
self.assertEqual(len(msg.meta), len(metas))
for m in msg.meta:
self.assertTrue(m.HasField('key'))
self.assertEqual(msg.response.rcode, 65536)
def checkProtobufIdentity(self, msg, requestorId, deviceId, deviceName):
- print(msg)
+ #print(msg)
self.assertTrue((requestorId == '') == (not msg.HasField('requestorId')))
self.assertTrue((deviceId == b'') == (not msg.HasField('deviceId')))
self.assertTrue((deviceName == '') == (not msg.HasField('deviceName')))
self.checkProtobufResponseRecord(rr, dns.rdataclass.IN, dns.rdatatype.A, name, 15)
self.assertEqual(socket.inet_ntop(socket.AF_INET, rr.rdata), '192.0.2.84')
tags = [ self._tag_from_gettag ] + self._tags
+ #print(msg)
self.checkProtobufTags(msg, tags)
self.checkNoRemainingMessage()
+ # Again to check PC case
+ res = self.sendUDPQuery(query)
+ self.assertRRsetInAnswer(res, expected)
+
+ # check the protobuf messages corresponding to the UDP query and answer
+ msg = self.getFirstProtobufMessage()
+ self.checkProtobufQuery(msg, dnsmessage_pb2.PBDNSMessage.UDP, query, dns.rdataclass.IN, dns.rdatatype.A, name)
+ self.checkProtobufTags(msg, [ self._tag_from_gettag ])
+ # then the response
+ msg = self.getFirstProtobufMessage()
+ self.checkProtobufResponse(msg, dnsmessage_pb2.PBDNSMessage.UDP, res)
+ self.assertEqual(len(msg.response.rrs), 1)
+ rr = msg.response.rrs[0]
+ # time may have passed, so do not check TTL
+ self.checkProtobufResponseRecord(rr, dns.rdataclass.IN, dns.rdatatype.A, name, 15, checkTTL=False)
+ self.assertEqual(socket.inet_ntop(socket.AF_INET, rr.rdata), '192.0.2.84')
+ tags = [ self._tag_from_gettag ] + self._tags
+ self.checkProtobufTags(msg, tags)
+ self.checkNoRemainingMessage()
+
+class ProtobufTagCacheTest(TestRecursorProtobuf):
+ """
+ This test makes sure that we correctly cache tags (actually not cache them)
+ """
+
+ _confdir = 'ProtobufTagCache'
+ _config_template = """
+auth-zones=example=configs/%s/example.zone""" % _confdir
+ _lua_config_file = """
+ protobufServer({"127.0.0.1:%d", "127.0.0.1:%d"}, { logQueries=false, logResponses=true } )
+ """ % (protobufServersParameters[0].port, protobufServersParameters[1].port)
+ _lua_dns_script_file = """
+ function gettag(remote, ednssubnet, localip, qname, qtype, ednsoptions, tcp)
+ if qname:equal('tagged.example.') then
+ return 0, { '' .. math.random() }
+ end
+ return 0
+ end
+ """
+
+ def testTagged(self):
+ name = 'tagged.example.'
+ expected = dns.rrset.from_text(name, 0, dns.rdataclass.IN, 'A', '192.0.2.84')
+ query = dns.message.make_query(name, 'A', want_dnssec=True)
+ query.flags |= dns.flags.CD
+ res = self.sendUDPQuery(query)
+ self.assertRRsetInAnswer(res, expected)
+
+ msg = self.getFirstProtobufMessage()
+ self.checkProtobufResponse(msg, dnsmessage_pb2.PBDNSMessage.UDP, res)
+ self.assertEqual(len(msg.response.rrs), 1)
+ rr = msg.response.rrs[0]
+ # we have max-cache-ttl set to 15
+ self.checkProtobufResponseRecord(rr, dns.rdataclass.IN, dns.rdatatype.A, name, 15)
+ self.assertEqual(socket.inet_ntop(socket.AF_INET, rr.rdata), '192.0.2.84')
+ self.checkNoRemainingMessage()
+ self.assertEqual(len(msg.response.tags), 1)
+ ts1 = msg.response.tags[0]
+
+ # Again to check PC case
+ res = self.sendUDPQuery(query)
+ self.assertRRsetInAnswer(res, expected)
+
+ msg = self.getFirstProtobufMessage()
+ self.checkProtobufResponse(msg, dnsmessage_pb2.PBDNSMessage.UDP, res)
+ self.assertEqual(len(msg.response.rrs), 1)
+ rr = msg.response.rrs[0]
+ # time may have passed, so do not check TTL
+ self.checkProtobufResponseRecord(rr, dns.rdataclass.IN, dns.rdatatype.A, name, 15, checkTTL=False)
+ self.assertEqual(socket.inet_ntop(socket.AF_INET, rr.rdata), '192.0.2.84')
+ self.checkNoRemainingMessage()
+ self.assertEqual(len(msg.response.tags), 1)
+ ts2 = msg.response.tags[0]
+ self.assertNotEqual(ts1, ts2)
+
class ProtobufSelectedFromLuaTest(TestRecursorProtobuf):
"""
This test makes sure that we correctly export queries and responses but only if they have been selected from Lua.