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|
#
# This file is a part of DNSViz, a tool suite for DNS/DNSSEC monitoring,
# analysis, and visualization.
# Created by Casey Deccio (casey@deccio.net)
#
# Copyright 2014-2016 VeriSign, Inc.
#
# Copyright 2016-2021 Casey Deccio
#
# DNSViz 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 2 of the License, or
# (at your option) any later version.
#
# DNSViz 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 DNSViz. If not, see <http://www.gnu.org/licenses/>.
#
from __future__ import unicode_literals
import bisect
import io
import math
import random
import threading
import time
from .config import RESOLV_CONF
from . import query
from .ipaddr import *
from . import response as Response
from . import transport
from . import util
import dns.rdataclass, dns.exception, dns.message, dns.rcode, dns.resolver
MAX_CNAME_REDIRECTION = 20
class ResolvConfError(Exception):
pass
_r = None
def get_standard_resolver():
global _r
if _r is None:
_r = Resolver.from_file(RESOLV_CONF, query.StandardRecursiveQuery)
return _r
_rd = None
def get_dnssec_resolver():
global _rd
if _rd is None:
_rd = Resolver.from_file(RESOLV_CONF, query.RecursiveDNSSECQuery)
return _rd
class DNSAnswer:
'''An answer to a DNS query, including the full DNS response message, the
RRset requested, and the server.'''
def __init__(self, qname, rdtype, response, server):
self.response = response
self.server = server
self.rrset = None
self._handle_nxdomain(response)
i = 0
qname_sought = qname
while i < MAX_CNAME_REDIRECTION:
try:
self.rrset = response.find_rrset(response.answer, qname_sought, dns.rdataclass.IN, rdtype)
i = MAX_CNAME_REDIRECTION
except KeyError:
try:
rrset = response.find_rrset(response.answer, qname_sought, dns.rdataclass.IN, dns.rdatatype.CNAME)
qname_sought = rrset[0].target
except KeyError:
break
i += 1
self._handle_noanswer()
def _handle_nxdomain(self, response):
if response.rcode() == dns.rcode.NXDOMAIN:
raise dns.resolver.NXDOMAIN()
def _handle_noanswer(self):
if self.rrset is None:
raise dns.resolver.NoAnswer()
class DNSAnswerNoAnswerAllowed(DNSAnswer):
'''An answer to a DNS query, including the full DNS response message, the
RRset requested, and the server.'''
def _handle_noanswer(self):
pass
class Resolver:
'''A simple stub DNS resolver.'''
def __init__(self, servers, query_cls, timeout=1.0, max_attempts=5, lifetime=15.0, shuffle=False, client_ipv4=None, client_ipv6=None, port=53, transport_manager=None, th_factories=None):
if lifetime is None and max_attempts is None:
raise ValueError("At least one of lifetime or max_attempts must be specified for a Resolver instance.")
self._servers = servers
self._query_cls = query_cls
self._timeout = timeout
self._max_attempts = max_attempts
self._lifetime = lifetime
self._shuffle = shuffle
self._client_ipv4 = client_ipv4
self._client_ipv6 = client_ipv6
self._port = port
self._transport_manager = transport_manager
self._th_factories = th_factories
@classmethod
def from_file(cls, resolv_conf, query_cls, **kwargs):
servers = []
try:
with io.open(resolv_conf, 'r', encoding='utf-8') as f:
for line in f:
line = line.strip()
words = line.split()
if len(words) > 1 and words[0] == 'nameserver':
try:
servers.append(IPAddr(words[1]))
except ValueError:
pass
except IOError as e:
raise ResolvConfError('Unable to open %s: %s' % (resolv_conf, str(e)))
if not servers:
raise ResolvConfError('No servers found in %s' % (resolv_conf))
return Resolver(servers, query_cls, **kwargs)
def query(self, qname, rdtype, rdclass=dns.rdataclass.IN, accept_first_response=False, continue_on_servfail=True):
return list(self.query_multiple((qname, rdtype, rdclass), accept_first_response=accept_first_response, continue_on_servfail=continue_on_servfail).values())[0]
def query_for_answer(self, qname, rdtype, rdclass=dns.rdataclass.IN, allow_noanswer=False):
answer = list(self.query_multiple_for_answer((qname, rdtype, rdclass), allow_noanswer=allow_noanswer).values())[0]
if isinstance(answer, DNSAnswer):
return answer
else:
raise answer
def query_multiple_for_answer(self, *query_tuples, **kwargs):
if kwargs.pop('allow_noanswer', False):
answer_cls = DNSAnswerNoAnswerAllowed
else:
answer_cls = DNSAnswer
responses = self.query_multiple(*query_tuples, accept_first_response=False, continue_on_servfail=True)
answers = {}
for query_tuple, (server, response) in responses.items():
# no servers were queried
if response is None:
answers[query_tuple] = dns.resolver.NoNameservers()
# response was valid
elif response.is_complete_response() and response.is_valid_response():
try:
answers[query_tuple] = answer_cls(query_tuple[0], query_tuple[1], response.message, server)
except (dns.resolver.NoAnswer, dns.resolver.NXDOMAIN) as e:
answers[query_tuple] = e
# response was timeout or network error
elif response.error in (query.RESPONSE_ERROR_TIMEOUT, query.RESPONSE_ERROR_NETWORK_ERROR):
answers[query_tuple] = dns.exception.Timeout()
# there was a response, but it was invalid for some reason
else:
answers[query_tuple] = dns.resolver.NoNameservers()
return answers
def query_multiple(self, *query_tuples, **kwargs):
valid_servers = {}
responses = {}
last_responses = {}
attempts = {}
accept_first_response = kwargs.get('accept_first_response', False)
continue_on_servfail = kwargs.get('continue_on_servfail', True)
query_tuples = set(query_tuples)
for query_tuple in query_tuples:
attempts[query_tuple] = 0
valid_servers[query_tuple] = set(self._servers)
if self._shuffle:
servers = self._servers[:]
random.shuffle(servers)
else:
servers = self._servers
tuples_to_query = query_tuples.difference(last_responses)
start = time.time()
while tuples_to_query and (self._lifetime is None or time.time() - start < self._lifetime):
now = time.time()
queries = {}
for query_tuple in tuples_to_query:
if not valid_servers[query_tuple]:
try:
last_responses[query_tuple] = responses[query_tuple]
except KeyError:
last_responses[query_tuple] = None, None
continue
while query_tuple not in queries:
cycle_num, server_index = divmod(attempts[query_tuple], len(servers))
# if we've exceeded our maximum attempts, then break out
if cycle_num >= self._max_attempts:
try:
last_responses[query_tuple] = responses[query_tuple]
except KeyError:
last_responses[query_tuple] = None, None
break
server = servers[server_index]
if server in valid_servers[query_tuple]:
if self._lifetime is not None:
timeout = min(self._timeout, max((start + self._lifetime) - now, 0))
else:
timeout = self._timeout
q = self._query_cls(query_tuple[0], query_tuple[1], query_tuple[2], server, None, client_ipv4=self._client_ipv4, client_ipv6=self._client_ipv6, port=self._port, query_timeout=timeout, max_attempts=1)
queries[query_tuple] = q
attempts[query_tuple] += 1
query.ExecutableDNSQuery.execute_queries(*list(queries.values()), tm=self._transport_manager, th_factories=self._th_factories)
for query_tuple, q in queries.items():
# no response means we didn't even try because we don't have
# proper connectivity
if not q.responses:
server = list(q.servers)[0]
valid_servers[query_tuple].remove(server)
if not valid_servers[query_tuple]:
last_responses[query_tuple] = server, None
continue
server, client_response = list(q.responses.items())[0]
client, response = list(client_response.items())[0]
responses[query_tuple] = (server, response)
# if we received a complete message with an acceptable rcode,
# then accept it as the last response
if response.is_complete_response() and response.is_valid_response():
last_responses[query_tuple] = responses[query_tuple]
# if we received a message that was incomplete (i.e.,
# truncated), had an invalid rcode, was malformed, or was
# otherwise invalid, then accept the response (if directed),
# and invalidate the server
elif response.message is not None or \
response.error not in (query.RESPONSE_ERROR_TIMEOUT, query.RESPONSE_ERROR_NETWORK_ERROR):
# accept_first_response is true, then accept the response
if accept_first_response:
last_responses[query_tuple] = responses[query_tuple]
# if the response was SERVFAIL, and we were not directed to
# continue, then accept the response
elif response.message is not None and \
response.message.rcode() == dns.rcode.SERVFAIL and not continue_on_servfail:
last_responses[query_tuple] = responses[query_tuple]
valid_servers[query_tuple].remove(server)
tuples_to_query = query_tuples.difference(last_responses)
for query_tuple in tuples_to_query:
last_responses[query_tuple] = responses[query_tuple]
return last_responses
class CacheEntry:
def __init__(self, rrset, source, expiration, rcode, soa_rrset):
self.rrset = rrset
self.source = source
self.expiration = expiration
self.rcode = rcode
self.soa_rrset = soa_rrset
class ServFail(Exception):
pass
class FullResolver:
'''A full iterative DNS resolver, following hints.'''
SRC_PRIMARY_ZONE = 0
SRC_SECONDARY_ZONE = 1
SRC_AUTH_ANS = 2
SRC_AUTH_AUTH = 3
SRC_GLUE_PRIMARY_ZONE = 4
SRC_GLUE_SECONDARY_ZONE = 5
SRC_NONAUTH_ANS = 6
SRC_ADDITIONAL = 7
SRC_NONAUTH_AUTH = 7
MIN_TTL = 60
MAX_CHAIN = 20
default_th_factory = transport.DNSQueryTransportHandlerDNSFactory()
def __init__(self, hints=util.get_root_hints(), query_cls=(query.QuickDNSSECQuery, query.DiagnosticQuery), client_ipv4=None, client_ipv6=None, odd_ports=None, cookie_standin=None, transport_manager=None, th_factories=None, max_ttl=None):
self._hints = hints
self._query_cls = query_cls
self._client_ipv4 = client_ipv4
self._client_ipv6 = client_ipv6
if odd_ports is None:
odd_ports = {}
self._odd_ports = odd_ports
self._transport_manager = transport_manager
if th_factories is None:
self._th_factories = (self.default_th_factory,)
else:
self._th_factories = th_factories
self.allow_loopback_query = not bool([x for x in self._th_factories if not x.cls.allow_loopback_query])
self.allow_private_query = not bool([x for x in self._th_factories if not x.cls.allow_private_query])
self._max_ttl = max_ttl
self._cookie_standin = cookie_standin
self._cookie_jar = {}
self._cache = {}
self._expirations = []
self._cache_lock = threading.Lock()
def _allow_server(self, server):
if not self.allow_loopback_query and (LOOPBACK_IPV4_RE.search(server) is not None or server == LOOPBACK_IPV6):
return False
if not self.allow_private_query and (RFC_1918_RE.search(server) is not None or LINK_LOCAL_RE.search(server) is not None or UNIQ_LOCAL_RE.search(server) is not None):
return False
if ZERO_SLASH8_RE.search(server) is not None:
return False
return True
def flush_cache(self):
with self._cache_lock:
self._cache = {}
self._expirations = []
def expire_cache(self):
t = time.time()
with self._cache_lock:
if self._expirations and self._expirations[0][0] > t:
return
future_index = bisect.bisect_right(self._expirations, (t, None))
for i in range(future_index):
cache_key = self._expirations[i][1]
del self._cache[cache_key]
self._expirations = self._expirations[future_index:]
def cache_put(self, name, rdtype, rrset, source, rcode, soa_rrset, ttl):
t = time.time()
if rrset is not None:
ttl = max(rrset.ttl, self.MIN_TTL)
elif soa_rrset is not None:
ttl = max(min(soa_rrset.ttl, soa_rrset[0].minimum), self.MIN_TTL)
elif ttl is not None:
ttl = max(ttl, self.MIN_TTL)
else:
ttl = self.MIN_TTL
if self._max_ttl is not None and ttl > self._max_ttl:
ttl = self._max_ttl
expiration = math.ceil(t) + ttl
key = (name, rdtype)
new_entry = CacheEntry(rrset, source, expiration, rcode, soa_rrset)
with self._cache_lock:
try:
old_entry = self._cache[key]
except KeyError:
pass
else:
if new_entry.source >= old_entry.source:
return
# remove the old entry from expirations
old_index = bisect.bisect_left(self._expirations, (old_entry.expiration, key))
old_key = self._expirations.pop(old_index)[1]
assert old_key == key, "Old key doesn't match new key!"
self._cache[key] = new_entry
bisect.insort(self._expirations, (expiration, key))
def cache_get(self, name, rdtype):
try:
entry = self._cache[(name, rdtype)]
except KeyError:
return None
else:
t = time.time()
ttl = max(0, int(entry.expiration - t))
if entry.rrset is not None:
entry.rrset.update_ttl(ttl)
if entry.soa_rrset is not None:
entry.soa_rrset.update_ttl(ttl)
return entry
def cache_dump(self):
keys = self._cache.keys()
keys.sort()
t = time.time()
for key in keys:
entry = self._cache[key]
def query(self, qname, rdtype, rdclass=dns.rdataclass.IN):
msg = dns.message.make_response(dns.message.make_query(qname, rdtype), True)
try:
l = self._query(qname, rdtype, rdclass, 0, self.SRC_NONAUTH_ANS)
except ServFail:
msg.set_rcode(dns.rcode.SERVFAIL)
else:
msg.set_rcode(l[-1])
for rrset in l[:-1]:
if rrset is not None:
new_rrset = msg.find_rrset(msg.answer, rrset.name, rrset.rdclass, rrset.rdtype, create=True)
new_rrset.update(rrset)
return msg, None
def query_for_answer(self, qname, rdtype, rdclass=dns.rdataclass.IN, allow_noanswer=False):
response, server = self.query(qname, rdtype, rdclass)
if response.rcode() == dns.rcode.SERVFAIL:
raise dns.resolver.NoNameservers()
if allow_noanswer:
answer_cls = DNSAnswerNoAnswerAllowed
else:
answer_cls = DNSAnswer
return answer_cls(qname, rdtype, response, server)
def query_multiple_for_answer(self, *query_tuples, **kwargs):
allow_noanswer = kwargs.pop('allow_noanswer', False)
answers = {}
for query_tuple in query_tuples:
try:
answers[query_tuple] = self.query_for_answer(query_tuple[0], query_tuple[1], query_tuple[2], allow_noanswer=allow_noanswer)
except (dns.resolver.NoAnswer, dns.resolver.NXDOMAIN, dns.resolver.NoNameservers) as e:
answers[query_tuple] = e
return answers
def query_multiple(self, *query_tuples, **kwargs):
responses = {}
for query_tuple in query_tuples:
responses[query_tuple] = self.query(query_tuple[0], query_tuple[1], query_tuple[2])
return responses
def _get_answer(self, qname, rdtype, rdclass, max_source):
# first check cache for answer
entry = self.cache_get(qname, rdtype)
if entry is not None and entry.source <= max_source:
return [entry.rrset, entry.rcode]
# check hints, if allowed
if self.SRC_ADDITIONAL <= max_source and (qname, rdtype) in self._hints:
return [self._hints[(qname, rdtype)], dns.rcode.NOERROR]
return None
def _query(self, qname, rdtype, rdclass, level, max_source, starting_domain=None):
self.expire_cache()
# check for max chain length
if level > self.MAX_CHAIN:
raise ServFail('SERVFAIL - resolution chain too long')
ans = self._get_answer(qname, rdtype, rdclass, max_source)
if ans:
return ans
# next check cache for alias
ans = self._get_answer(qname, dns.rdatatype.CNAME, rdclass, max_source)
if ans:
return [ans[0]] + self._query(ans[0][0].target, rdtype, rdclass, level + 1, max_source)
# now check for closest enclosing NS, DNAME, or hint
closest_zone = qname
# when rdtype is DS, start at the parent
if rdtype == dns.rdatatype.DS and qname != dns.name.root:
closest_zone = qname.parent()
elif starting_domain is not None:
assert qname.is_subdomain(starting_domain), 'qname must be a subdomain of starting_domain'
closest_zone = starting_domain
ns_names = {}
# iterative resolution is necessary, so find the closest zone ancestor or DNAME
while True:
# if we are a proper superdomain, then look for DNAME
if closest_zone != qname:
entry = self.cache_get(closest_zone, dns.rdatatype.DNAME)
if entry is not None and entry.rrset is not None:
cname_rrset = Response.cname_from_dname(qname, entry.rrset)
return [entry.rrset, cname_rrset] + self._query(cname_rrset[0].target, rdtype, rdclass, level + 1, max_source)
# look for NS records in cache
ans = self._get_answer(closest_zone, dns.rdatatype.NS, rdclass, self.SRC_ADDITIONAL)
if ans and ans[0] is not None:
ns_rrset = ans[0]
for ns_rdata in ans[0]:
addrs = set()
for a_rdtype in dns.rdatatype.A, dns.rdatatype.AAAA:
ans1 = self._get_answer(ns_rdata.target, a_rdtype, rdclass, self.SRC_ADDITIONAL)
if ans1 and ans1[0]:
for a_rdata in ans1[0]:
addrs.add(IPAddr(a_rdata.address))
if addrs:
ns_names[ns_rdata.target] = addrs
else:
ns_names[ns_rdata.target] = None
# if there were NS records associated with the names, then
# no need to continue
if ns_names:
break
# otherwise, continue upwards until some are found
try:
closest_zone = closest_zone.parent()
except dns.name.NoParent:
raise ServFail('SERVFAIL - no NS RRs at root')
ret = None
soa_rrset = None
rcode = None
# iterate, following referrals down the namespace tree
while True:
bailiwick = ns_rrset.name
is_referral = False
# query names first for which there are addresses
ns_names_with_addresses = [n for n in ns_names if ns_names[n] is not None]
random.shuffle(ns_names_with_addresses)
ns_names_without_addresses = list(set(ns_names).difference(ns_names_with_addresses))
random.shuffle(ns_names_without_addresses)
all_ns_names = ns_names_with_addresses + ns_names_without_addresses
previous_valid_answer = set()
for query_cls in self._query_cls:
# query each server until we get a match
for ns_name in all_ns_names:
is_referral = False
if ns_names[ns_name] is None:
# first get the addresses associated with each name
ns_names[ns_name] = set()
for a_rdtype in dns.rdatatype.A, dns.rdatatype.AAAA:
if ns_name.is_subdomain(bailiwick):
if bailiwick == dns.name.root:
sd = bailiwick
else:
sd = bailiwick.parent()
else:
sd = None
try:
a_rrset = self._query(ns_name, a_rdtype, dns.rdataclass.IN, level + 1, self.SRC_ADDITIONAL, starting_domain=sd)[-2]
except ServFail:
a_rrset = None
if a_rrset is not None:
for rdata in a_rrset:
ns_names[ns_name].add(IPAddr(rdata.address))
for server in ns_names[ns_name].difference(previous_valid_answer):
# server disallowed by policy
if not self._allow_server(server):
continue
q = query_cls(qname, rdtype, rdclass, (server,), bailiwick, self._client_ipv4, self._client_ipv6, self._odd_ports.get((bailiwick, server), 53), cookie_jar=self._cookie_jar, cookie_standin=self._cookie_standin)
q.execute(tm=self._transport_manager, th_factories=self._th_factories)
is_referral = False
if not q.responses:
# No network connectivity
continue
server1, client_response = list(q.responses.items())[0]
client, response = list(client_response.items())[0]
server_cookie = response.get_server_cookie()
if server_cookie is not None:
self._cookie_jar[server1] = server_cookie
if not (response.is_valid_response() and response.is_complete_response()):
continue
previous_valid_answer.add(server)
soa_rrset = None
rcode = response.message.rcode()
# response is acceptable
try:
# first check for exact match
ret = [[x for x in response.message.answer if x.name == qname and x.rdtype == rdtype and x.rdclass == rdclass][0]]
except IndexError:
try:
# now look for DNAME
dname_rrset = [x for x in response.message.answer if qname.is_subdomain(x.name) and qname != x.name and x.rdtype == dns.rdatatype.DNAME and x.rdclass == rdclass][0]
except IndexError:
try:
# now look for CNAME
cname_rrset = [x for x in response.message.answer if x.name == qname and x.rdtype == dns.rdatatype.CNAME and x.rdclass == rdclass][0]
except IndexError:
ret = [None]
# no answer
try:
soa_rrset = [x for x in response.message.authority if qname.is_subdomain(x.name) and x.rdtype == dns.rdatatype.SOA][0]
except IndexError:
pass
# cache the NS RRset
else:
cname_rrset = [x for x in response.message.answer if x.name == qname and x.rdtype == dns.rdatatype.CNAME and x.rdclass == rdclass][0]
ret = [cname_rrset]
else:
# handle DNAME: return the DNAME, CNAME and (recursively) its chain
cname_rrset = Response.cname_from_dname(qname, dname_rrset)
ret = [dname_rrset, cname_rrset]
if response.is_referral(qname, rdtype, rdclass, bailiwick):
is_referral = True
a_rrsets = {}
min_ttl = None
ret = None
# if response is referral, then we follow it
ns_rrset = [x for x in response.message.authority if qname.is_subdomain(x.name) and x.rdtype == dns.rdatatype.NS][0]
ns_names = response.ns_ip_mapping_from_additional(ns_rrset.name, bailiwick)
for ns_name in ns_names:
if not ns_names[ns_name]:
ns_names[ns_name] = None
else: # name is in bailiwick
for a_rdtype in (dns.rdatatype.A, dns.rdatatype.AAAA):
try:
a_rrsets[a_rdtype] = response.message.find_rrset(response.message.additional, ns_name, a_rdtype, dns.rdataclass.IN)
except KeyError:
pass
else:
if min_ttl is None or a_rrsets[a_rdtype].ttl < min_ttl:
min_ttl = a_rrsets[a_rdtype].ttl
for a_rdtype in (dns.rdatatype.A, dns.rdatatype.AAAA):
if a_rdtype in a_rrsets:
a_rrsets[a_rdtype].update_ttl(min_ttl)
self.cache_put(ns_name, a_rdtype, a_rrsets[a_rdtype], self.SRC_ADDITIONAL, dns.rcode.NOERROR, None, None)
else:
self.cache_put(ns_name, a_rdtype, None, self.SRC_ADDITIONAL, dns.rcode.NOERROR, None, min_ttl)
if min_ttl is not None:
ns_rrset.update_ttl(min_ttl)
# cache the NS RRset
self.cache_put(ns_rrset.name, dns.rdatatype.NS, ns_rrset, self.SRC_NONAUTH_AUTH, rcode, None, None)
break
elif response.is_authoritative():
terminal = True
a_rrsets = {}
min_ttl = None
# if response is authoritative (and not a referral), then we return it
try:
ns_rrset = [x for x in response.message.answer + response.message.authority if qname.is_subdomain(x.name) and x.rdtype == dns.rdatatype.NS][0]
except IndexError:
pass
else:
ns_names = response.ns_ip_mapping_from_additional(ns_rrset.name, bailiwick)
for ns_name in ns_names:
if not ns_names[ns_name]:
ns_names[ns_name] = None
else: # name is in bailiwick
for a_rdtype in (dns.rdatatype.A, dns.rdatatype.AAAA):
try:
a_rrsets[a_rdtype] = response.message.find_rrset(response.message.additional, ns_name, a_rdtype, dns.rdataclass.IN)
except KeyError:
pass
else:
if min_ttl is None or a_rrsets[a_rdtype].ttl < min_ttl:
min_ttl = a_rrsets[a_rdtype].ttl
for a_rdtype in (dns.rdatatype.A, dns.rdatatype.AAAA):
if a_rdtype in a_rrsets:
a_rrsets[a_rdtype].update_ttl(min_ttl)
self.cache_put(ns_name, a_rdtype, a_rrsets[a_rdtype], self.SRC_ADDITIONAL, dns.rcode.NOERROR, None, None)
else:
self.cache_put(ns_name, a_rdtype, None, self.SRC_ADDITIONAL, dns.rcode.NOERROR, None, min_ttl)
if min_ttl is not None:
ns_rrset.update_ttl(min_ttl)
self.cache_put(ns_rrset.name, dns.rdatatype.NS, ns_rrset, self.SRC_AUTH_AUTH, rcode, None, None)
if ret[-1] == None:
self.cache_put(qname, rdtype, None, self.SRC_AUTH_ANS, rcode, soa_rrset, None)
else:
for rrset in ret:
self.cache_put(rrset.name, rrset.rdtype, rrset, self.SRC_AUTH_ANS, rcode, None, None)
if ret[-1].rdtype == dns.rdatatype.CNAME:
ret += self._query(ret[-1][0].target, rdtype, rdclass, level + 1, self.SRC_NONAUTH_ANS)
terminal = False
if terminal:
ret.append(rcode)
return ret
# if referral, then break
if is_referral:
break
# if referral, then break
if is_referral:
break
# if not referral, then we're done iterating
if not is_referral:
break
# if we were only to ask the parent, then we're done
if starting_domain is not None:
break
# otherwise continue onward, looking for an authoritative answer
# return non-authoritative answer
if ret is not None:
terminal = True
if ret[-1] == None:
self.cache_put(qname, rdtype, None, self.SRC_NONAUTH_ANS, rcode, soa_rrset, None)
else:
for rrset in ret:
self.cache_put(rrset.name, rrset.rdtype, rrset, self.SRC_NONAUTH_ANS, rcode, None, None)
if ret[-1].rdtype == dns.rdatatype.CNAME:
ret += self._query(ret[-1][0].target, rdtype, rdclass, level + 1, self.SRC_NONAUTH_ANS)
terminal = False
if terminal:
ret.append(rcode)
return ret
raise ServFail('SERVFAIL - no valid responses')
class PrivateFullResolver(FullResolver):
default_th_factory = transport.DNSQueryTransportHandlerDNSPrivateFactory()
def main():
import sys
import getopt
def usage():
sys.stderr.write('Usage: %s <name> <type> [<server>...]\n' % (sys.argv[0]))
sys.exit(1)
try:
opts, args = getopt.getopt(sys.argv[1:], '')
opts = dict(opts)
except getopt.error:
usage()
if len(args) < 2:
usage()
if len(args) < 3:
r = get_standard_resolver()
else:
r = Resolver([IPAddr(x) for x in sys.argv[3:]], query.StandardRecursiveQuery)
a = r.query_for_answer(dns.name.from_text(args[0]), dns.rdatatype.from_text(args[1]))
print('Response for %s/%s:' % (args[0], args[1]))
print(' from %s: %s (%d bytes)' % (a.server, repr(a.response), len(a.response.to_wire())))
print(' answer:\n %s' % (a.rrset))
if __name__ == '__main__':
main()
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