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# Copyright 2014 Hewlett-Packard Development Company, L.P.
#
# Author: Endre Karlson <endre.karlson@hpe.com>
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import random
import socket
import time
from threading import Lock
import dns
import dns.exception
import dns.zone
import eventlet
from dns import rdatatype
from oslo_serialization import base64
from oslo_log import log as logging
import designate.conf
from designate import context
from designate import exceptions
from designate import objects
CONF = designate.conf.CONF
LOG = logging.getLogger(__name__)
class DNSMiddleware(object):
"""Base DNS Middleware class with some utility methods"""
def __init__(self, application):
self.application = application
def process_request(self, request):
"""Called on each request.
If this returns None, the next application down the stack will be
executed. If it returns a response then that response will be returned
and execution will stop here.
"""
return None
def process_response(self, response):
"""Do whatever you'd like to the response."""
return response
def __call__(self, request):
response = self.process_request(request)
if response:
return response
response = self.application(request)
return self.process_response(response)
def _build_error_response(self):
response = dns.message.make_response(
dns.message.make_query('unknown', dns.rdatatype.A))
response.set_rcode(dns.rcode.FORMERR)
return response
class SerializationMiddleware(DNSMiddleware):
"""DNS Middleware to serialize/deserialize DNS Packets"""
def __init__(self, application, tsig_keyring=None):
self.application = application
self.tsig_keyring = tsig_keyring
def __call__(self, request):
# Generate the initial context. This may be updated by other middleware
# as we learn more information about the Request.
ctxt = context.DesignateContext.get_admin_context(all_tenants=True)
try:
message = dns.message.from_wire(request['payload'],
self.tsig_keyring)
if message.had_tsig:
LOG.debug('Request signed with TSIG key: %s', message.keyname)
# Create + Attach the initial "environ" dict. This is similar to
# the environ dict used in typical WSGI middleware.
message.environ = {
'context': ctxt,
'addr': request['addr'],
}
except dns.message.UnknownTSIGKey:
LOG.error("Unknown TSIG key from %(host)s:%(port)d",
{'host': request['addr'][0], 'port': request['addr'][1]})
response = self._build_error_response()
except dns.tsig.BadSignature:
LOG.error("Invalid TSIG signature from %(host)s:%(port)d",
{'host': request['addr'][0], 'port': request['addr'][1]})
response = self._build_error_response()
except dns.exception.DNSException:
LOG.error("Failed to deserialize packet from %(host)s:%(port)d",
{'host': request['addr'][0], 'port': request['addr'][1]})
response = self._build_error_response()
except Exception:
LOG.exception("Unknown exception deserializing packet "
"from %(host)s %(port)d",
{'host': request['addr'][0],
'port': request['addr'][1]})
response = self._build_error_response()
else:
# Hand the Deserialized packet onto the Application
for response in self.application(message):
# Serialize and return the response if present
if isinstance(response, dns.message.Message):
yield response.to_wire(max_size=65535)
elif isinstance(response, dns.renderer.Renderer):
yield response.get_wire()
else:
LOG.error("Unexpected response %r", response)
class TsigInfoMiddleware(DNSMiddleware):
"""Middleware which looks up the information available for a TsigKey"""
def __init__(self, application, storage):
super(TsigInfoMiddleware, self).__init__(application)
self.storage = storage
def process_request(self, request):
if not request.had_tsig:
return None
try:
name = request.keyname.to_text(True)
if isinstance(name, bytes):
name = name.decode('utf-8')
criterion = {'name': name}
tsigkey = self.storage.find_tsigkey(
context.get_current(), criterion)
request.environ['tsigkey'] = tsigkey
request.environ['context'].tsigkey_id = tsigkey.id
except exceptions.TsigKeyNotFound:
# This should never happen, as we just validated the key.. Except
# for race conditions..
return self._build_error_response()
return None
class TsigKeyring(object):
"""Implements the DNSPython KeyRing API, backed by the Designate DB"""
def __init__(self, storage):
self.storage = storage
def __getitem__(self, key):
return self.get(key)
def get(self, key, default=None):
try:
name = key.to_text(True)
if isinstance(name, bytes):
name = name.decode('utf-8')
criterion = {'name': name}
tsigkey = self.storage.find_tsigkey(
context.get_current(), criterion)
return base64.decode_as_bytes(tsigkey.secret)
except exceptions.TsigKeyNotFound:
return default
class ZoneLock(object):
"""A Lock across all zones that enforces a rate limit on NOTIFYs"""
def __init__(self, delay):
self.lock = Lock()
self.data = {}
self.delay = delay
def acquire(self, zone):
with self.lock:
# If no one holds the lock for the zone, grant it
if zone not in self.data:
self.data[zone] = time.time()
return True
# Otherwise, get the time that it was locked
locktime = self.data[zone]
now = time.time()
period = now - locktime
# If it has been locked for longer than the allowed period
# give the lock to the new requester
if period > self.delay:
self.data[zone] = now
return True
LOG.debug('Lock for %(zone)s can\'t be released for %(period)s'
'seconds' % {'zone': zone,
'period': str(self.delay - period)})
# Don't grant the lock for the zone
return False
def release(self, zone):
# Release the lock
with self.lock:
try:
self.data.pop(zone)
except KeyError:
pass
class LimitNotifyMiddleware(DNSMiddleware):
"""Middleware that rate limits NOTIFYs to the Agent"""
def __init__(self, application):
super(LimitNotifyMiddleware, self).__init__(application)
self.delay = CONF['service:agent'].notify_delay
self.locker = ZoneLock(self.delay)
def process_request(self, request):
opcode = request.opcode()
if opcode != dns.opcode.NOTIFY:
return None
zone_name = request.question[0].name.to_text()
if isinstance(zone_name, bytes):
zone_name = zone_name.decode('utf-8')
if self.locker.acquire(zone_name):
time.sleep(self.delay)
self.locker.release(zone_name)
return None
else:
LOG.debug('Threw away NOTIFY for %(zone)s, already '
'working on an update.' % {'zone': zone_name})
response = dns.message.make_response(request)
# Provide an authoritative answer
response.flags |= dns.flags.AA
return (response,)
def from_dnspython_zone(dnspython_zone):
# dnspython never builds a zone with more than one SOA, even if we give
# it a zonefile that contains more than one
soa = dnspython_zone.get_rdataset(dnspython_zone.origin, 'SOA')
if soa is None:
raise exceptions.BadRequest('An SOA record is required')
if soa.ttl == 0:
soa.ttl = CONF['service:central'].min_ttl
email = soa[0].rname.to_text(omit_final_dot=True)
if isinstance(email, bytes):
email = email.decode('utf-8')
email = email.replace('.', '@', 1)
name = dnspython_zone.origin.to_text()
if isinstance(name, bytes):
name = name.decode('utf-8')
values = {
'name': name,
'email': email,
'ttl': soa.ttl,
'serial': soa[0].serial,
'retry': soa[0].retry,
'expire': soa[0].expire
}
zone = objects.Zone(**values)
rrsets = dnspyrecords_to_recordsetlist(dnspython_zone.nodes)
zone.recordsets = rrsets
return zone
def dnspyrecords_to_recordsetlist(dnspython_records):
rrsets = objects.RecordSetList()
for rname in dnspython_records.keys():
for rdataset in dnspython_records[rname]:
rrset = dnspythonrecord_to_recordset(rname, rdataset)
if rrset is None:
continue
rrsets.append(rrset)
return rrsets
def dnspythonrecord_to_recordset(rname, rdataset):
record_type = rdatatype.to_text(rdataset.rdtype)
name = rname.to_text()
if isinstance(name, bytes):
name = name.decode('utf-8')
# Create the other recordsets
values = {
'name': name,
'type': record_type
}
if rdataset.ttl != 0:
values['ttl'] = rdataset.ttl
rrset = objects.RecordSet(**values)
rrset.records = objects.RecordList()
for rdata in rdataset:
rr = objects.Record(data=rdata.to_text())
rrset.records.append(rr)
return rrset
def do_axfr(zone_name, servers, timeout=None, source=None):
"""
Requests an AXFR for a given zone name and process the response
:returns: Zone instance from dnspython
"""
random.shuffle(servers)
timeout = timeout or CONF["service:mdns"].xfr_timeout
xfr = None
for srv in servers:
to = eventlet.Timeout(timeout)
log_info = {'name': zone_name, 'host': srv}
try:
LOG.info("Doing AXFR for %(name)s from %(host)s", log_info)
xfr = dns.query.xfr(srv['host'], zone_name, relativize=False,
timeout=1, port=srv['port'], source=source)
raw_zone = dns.zone.from_xfr(xfr, relativize=False)
break
except eventlet.Timeout as t:
if t == to:
LOG.error("AXFR timed out for %(name)s from %(host)s",
log_info)
continue
except dns.exception.FormError:
LOG.error("Zone %(name)s is not present on %(host)s."
"Trying next server.", log_info)
except socket.error:
LOG.error("Connection error when doing AXFR for %(name)s from "
"%(host)s", log_info)
except Exception:
LOG.exception("Problem doing AXFR %(name)s from %(host)s. "
"Trying next server.", log_info)
finally:
to.cancel()
continue
else:
raise exceptions.XFRFailure(
"XFR failed for %(name)s. No servers in %(servers)s was reached." %
{"name": zone_name, "servers": servers})
LOG.debug("AXFR Successful for %s", raw_zone.origin.to_text())
return raw_zone
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