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fakedns.py
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fakedns.py
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#!/usr/bin/env python
"""Fakedns.py: A regular-expression based DNS MITM Server by Crypt0s."""
# This isn't the most elegent way - i could possibly support both versions of python,
# but people should really not use Python 2 anymore.
import sys
vnum = sys.version.split()[0]
if int(vnum[0]) < 3:
print("Python 2 support has been deprecated. Please run FakeDNS using Python3!")
sys.exit(1)
import binascii
import socket
import re
import sys
import os
import socketserver as SocketServer
import signal
import argparse
import struct
import random
import configparser as ConfigParser
# inspired from DNSChef
class ThreadedUDPServer(SocketServer.ThreadingMixIn, SocketServer.UDPServer):
def __init__(self, server_address, request_handler):
self.address_family = socket.AF_INET
SocketServer.UDPServer.__init__(
self, server_address, request_handler)
class UDPHandler(SocketServer.BaseRequestHandler):
def handle(self):
(data, s) = self.request
respond(data, self.client_address, s)
class DNSQuery:
def __init__(self, data):
self.data = data
self.domain = b''
tipo = (data[2] >> 3) & 15 # Opcode bits
if tipo == 0: # Standard query
ini = 12
lon = data[ini]
while lon != 0:
self.domain += data[ini + 1:ini + lon + 1] + b'.'
ini += lon + 1 # you can implement CNAME and PTR
lon = data[ini]
self.type = data[ini:][1:3]
else:
self.type = data[-4:-2]
# Because python doesn't have native ENUM in 2.7:
# https://en.wikipedia.org/wiki/List_of_DNS_record_types
TYPE = {
b"\x00\x01": "A",
b"\x00\x1c": "AAAA",
b"\x00\x05": "CNAME",
b"\x00\x0c": "PTR",
b"\x00\x10": "TXT",
b"\x00\x0f": "MX",
b"\x00\x06": "SOA"
}
# Stolen:
# https://github.com/learningequality/ka-lite/blob/master/python-packages/django/utils/ipv6.py#L209
def _is_shorthand_ip(ip_str):
"""Determine if the address is shortened.
Args:
ip_str: A string, the IPv6 address.
Returns:
A boolean, True if the address is shortened.
"""
if ip_str.count('::') == 1:
return True
if any(len(x) < 4 for x in ip_str.split(':')):
return True
return False
# Stolen:
# https://github.com/learningequality/ka-lite/blob/master/python-packages/django/utils/ipv6.py#L209
def _explode_shorthand_ip_string(ip_str):
"""
Expand a shortened IPv6 address.
Args:
ip_str: A string, the IPv6 address.
Returns:
A string, the expanded IPv6 address.
"""
if not _is_shorthand_ip(ip_str):
# We've already got a longhand ip_str.
return ip_str
hextet = ip_str.split('::')
# If there is a ::, we need to expand it with zeroes
# to get to 8 hextets - unless there is a dot in the last hextet,
# meaning we're doing v4-mapping
if '.' in ip_str.split(':')[-1]:
fill_to = 7
else:
fill_to = 8
if len(hextet) > 1:
sep = len(hextet[0].split(':')) + len(hextet[1].split(':'))
new_ip = hextet[0].split(':')
for _ in range(fill_to - sep):
new_ip.append('0000')
new_ip += hextet[1].split(':')
else:
new_ip = ip_str.split(':')
# Now need to make sure every hextet is 4 lower case characters.
# If a hextet is < 4 characters, we've got missing leading 0's.
ret_ip = []
for hextet in new_ip:
ret_ip.append(('0' * (4 - len(hextet)) + hextet).lower())
return ':'.join(ret_ip)
def _get_question_section(query):
# Query format is as follows: 12 byte header, question section (comprised
# of arbitrary-length name, 2 byte type, 2 byte class), followed by an
# additional section sometimes. (e.g. OPT record for DNSSEC)
start_idx = 12
end_idx = start_idx
num_questions = (query.data[4] << 8) | query.data[5]
while num_questions > 0:
while query.data[end_idx] != 0:
end_idx += query.data[end_idx] + 1
# Include the null byte, type, and class
end_idx += 5
num_questions -= 1
return query.data[start_idx:end_idx]
class DNSFlag:
# qr opcode aa tc rd ra z rcode
# 1 0000 0 0 1 1 000 0000
# accept a series of kwargs to build a proper flags segment.
def __init__(self,
qr=0b1, # query record, 1 if response
opcode=0b0000, # 0 = query, 1 = inverse query, 2 = status request 3-15 unused
aa=0b0, # authoritative answer = 1
tc=0b0, # truncation - 1 if truncated
rd=0b1, # recursion desired?
ra=0b1, # recursion available
z=0b000, # Reserved, must be zero in queries and responsed
rcode=0b0000 # errcode, 0 none, 1 format, 2 server, 3 name, 4 not impl, 5 refused, 6-15 unused
):
# pack the elements into an integer
flag_field = qr
flag_field = flag_field << 4
flag_field ^= opcode
flag_field = flag_field << 1
flag_field ^= aa
flag_field = flag_field << 1
flag_field ^= tc
flag_field = flag_field << 1
flag_field ^= rd
flag_field = flag_field << 1
flag_field ^= ra
flag_field = flag_field << 3
flag_field ^= z
flag_field = flag_field << 4
flag_field ^= rcode
self.flag_field = flag_field
# return char rep.
def pack(self):
return struct.pack(">H", self.flag_field)
class DNSResponse(object):
def __init__(self, query):
self.id = query.data[:2] # Use the ID from the request.
self.flags = DNSFlag(aa=args.authoritative).pack()
self.questions = query.data[4:6] # Number of questions asked...
# Answer RRs (Answer resource records contained in response) 1 for now.
self.rranswers = b"\x00\x01"
self.rrauthority = b"\x00\x00" # Same but for authority
self.rradditional = b"\x00\x00" # Same but for additionals.
# Include the question section
self.query = _get_question_section(query)
# The pointer to the resource record - seems to always be this value.
self.pointer = b"\xc0\x0c"
# This value is set by the subclass and is defined in TYPE dict.
self.type = None
self.dnsclass = b"\x00\x01" # "IN" class.
# TODO: Make this adjustable - 1 is good for noobs/testers
self.ttl = b"\x00\x00\x00\x01"
# Set by subclass because is variable except in A/AAAA records.
self.length = None
self.data = None # Same as above.
def make_packet(self):
try:
return self.id + self.flags + self.questions + self.rranswers + \
self.rrauthority + self.rradditional + self.query + \
self.pointer + self.type + self.dnsclass + self.ttl + \
self.length + self.data
except Exception as e: #(TypeError, ValueError):
print("[!] - %s" % str(e))
# All classes need to set type, length, and data fields of the DNS Response
# Finished
class A(DNSResponse):
def __init__(self, query, record):
super(A, self).__init__(query)
self.type = b"\x00\x01"
self.length = b"\x00\x04"
self.data = self.get_ip(record)
@staticmethod
def get_ip(dns_record):
ip = dns_record
# Convert to hex
return b''.join(int(x).to_bytes(1, 'little') for x in ip.split('.'))
# Implemented
class AAAA(DNSResponse):
def __init__(self, query, address):
super(AAAA, self).__init__(query)
self.type = b"\x00\x1c"
self.length = b"\x00\x10"
# Address is already encoded properly for the response at rule-builder
self.data = address
# Thanks, stackexchange!
# http://stackoverflow.com/questions/16276913/reliably-get-ipv6-address-in-python
def get_ip_6(host, port=0):
# search only for the wanted v6 addresses
result = socket.getaddrinfo(host, port, socket.AF_INET6)
# Will need something that looks like this:
# just returns the first answer and only the address
ip = result[0][4][0]
# Implemented
class CNAME(DNSResponse):
def __init__(self, query, domain):
super(CNAME, self).__init__(query)
self.type = b"\x00\x05"
self.data = b""
for label in domain.split('.'):
self.data += chr(len(label)).encode() + label.encode()
self.data += b"\x00"
self.length = chr(len(self.data)).encode()
# Must be two bytes.
if len(self.length) < 2:
self.length = b"\x00" + self.length
# Implemented
class PTR(DNSResponse):
def __init__(self, query, ptr_entry):
super(PTR, self).__init__(query)
if type(ptr_entry) != bytes:
ptr_entry = ptr_entry.encode()
self.type = b"\x00\x0c"
self.ttl = b"\x00\x00\x00\x00"
ptr_split = ptr_entry.split(b'.')
ptr_entry = b"\x07".join(ptr_split)
self.data = b"\x09" + ptr_entry + b"\x00"
self.length = chr(len(ptr_entry) + 2)
# Again, must be 2-byte value.
if self.length < "0xff":
self.length = b"\x00" + self.length.encode()
# Finished
class TXT(DNSResponse):
def __init__(self, query, txt_record):
super(TXT, self).__init__(query)
self.type = b"\x00\x10"
self.data = txt_record.encode()
self.length = chr(len(txt_record) + 1).encode()
# Must be two bytes. This is the better, more python-3 way to calculate length. Swap to this later.
if len(self.length) < 2:
self.length = b"\x00" + self.length
# Then, we have to add the TXT record length field! We utilize the
# length field for this since it is already in the right spot
self.length += chr(len(txt_record)).encode()
class MX(DNSResponse):
def __init__(self, query, txt_record):
super(MX, self).__init__(query)
self.type = b"\x00\x0f"
self.data = b"\x00\x01" + self.get_domain(txt_record) + b"\x00"
self.length = chr(len(txt_record) + 4)
if self.length < '\xff':
self.length = "\x00" + self.length
@staticmethod
def get_domain(dns_record):
domain = dns_record
ret_domain=[]
for x in domain.split('.'):
st = "{:02x}".format(len(x))
ret_domain.append( st.decode("hex"))
ret_domain.append(x)
return "".join(ret_domain)
class SOA(DNSResponse):
def __init__(self, query, config_location):
super(SOA, self).__init__(query)
# TODO: pre-read and cache all the config files for the rules for speed.
config = ConfigParser.ConfigParser(inline_comment_prefixes=";")
config.read(config_location)
# handle cases where we want the serial to be random
serial = config.get(query.domain.decode(), "serial")
if serial.lower() == "random":
serial = int(random.getrandbits(32))
else:
# serial is still a str, cast to int.
serial = int(serial)
self.type = b"\x00\x06"
self.mname = config.get(query.domain.decode(), "mname") # name server that was original or primary source for this zone
self.rname = config.get(query.domain.decode(), "rname") # domain name which specified mailbox of person responsible for zone
self.serial = serial # 32-bit long version number of the zone copy
self.refresh = config.getint(query.domain.decode(), "refresh")# 32-bit time interval before zone refresh
self.retry = config.getint(query.domain.decode(), "retry") # 32-bit time interval before retrying failed refresh
self.expire = config.getint(query.domain.decode(), "expire") # 32-bit time interval after which the zone is not authoritative
self.minimum = config.getint(query.domain.decode(), "minimum")# The unsigned 32 bit minimum TTL for any RR from this zone.
# convert the config entries into DNS format. Convenient conversion function will be moved up to module later.
def convert(fqdn):
tmp = b""
for domain in fqdn.split('.'):
tmp += chr(len(domain)).encode() + domain.encode()
tmp += b"\xc0\x0c"
return tmp
self.data = b""
self.mname = convert(self.mname)
self.data += self.mname
self.rname = convert(self.rname)
self.data += self.rname # already is a bytes object.
# pack the rest of the structure
self.data += struct.pack('>I', self.serial)
self.data += struct.pack('>I', self.refresh)
self.data += struct.pack('>I', self.retry)
self.data += struct.pack('>I', self.refresh)
self.data += struct.pack('>I', self.minimum)
# get length of the answers area
self.length = chr(len(self.data))
# length is always two bytes - add the extra blank byte if we're not large enough for two bytes.
if self.length < "0xff":
self.length = b"\x00" + self.length.encode()
# And this one is because Python doesn't have Case/Switch
CASE = {
b"\x00\x01": A,
b"\x00\x1c": AAAA,
b"\x00\x05": CNAME,
b"\x00\x0c": PTR,
b"\x00\x10": TXT,
b"\x00\x0f": MX,
b"\x00\x06": SOA,
}
# Technically this is a subclass of A
class NONEFOUND(DNSResponse):
def __init__(self, query):
super(NONEFOUND, self).__init__(query)
self.type = query.type
self.flags = b"\x81\x83"
self.rranswers = b"\x00\x00"
self.length = b"\x00\x00"
self.data = b"\x00"
print(">> Built NONEFOUND response")
class Rule (object):
def __init__(self, rule_type, domain, ips, rebinds, threshold):
self.type = rule_type
self.domain = domain
self.ips = ips
self.rebinds = rebinds
self.rebind_threshold = threshold
# we need an additional object to track the rebind rules
if self.rebinds is not None:
self.match_history = {}
self.rebinds = self._round_robin(rebinds)
self.ips = self._round_robin(ips)
def _round_robin(self, ip_list):
"""
Creates a generator over a list modulo list length to equally move between all elements in the list each request
Since we have rules broken out into objects now, we can have this without much overhead.
"""
# check to make sure we don't try to modulo by zero
# if we would, just add the same element to the list again.
if len(ip_list) == 1:
ip_list.append(ip_list[0])
# should be fine to continue now.
index = 0
while 1: # never stop iterating - it's OK since we dont always run
yield ip_list[index]
index += 1
index = index % len(ip_list)
def match(self, req_type, domain, addr):
# assert that the query type and domain match
try:
req_type = TYPE[req_type]
except KeyError:
return None
try:
assert self.type == req_type
except AssertionError:
return None
try:
assert self.domain.match(domain.decode())
except AssertionError:
return None
# Check to see if we have a rebind rule and if we do, return that addr first
if self.rebinds:
if self.match_history.get(addr) is not None:
# passed the threshold - start doing a rebind
if self.match_history[addr] >= self.rebind_threshold:
return next(self.rebinds)
# plus one
else:
self.match_history[addr] += 1
# add new client to this match history
else:
self.match_history[addr] = 1
# We didn't trip on any rebind rules (or didnt have any)
# but we're returning a rule-based entry based on the match
return next(self.ips)
# Error classes for handling rule issues
class RuleError_BadRegularExpression(Exception):
def __init__(self,lineno):
print("\n!! Malformed Regular Expression on rulefile line #%d\n\n" % lineno)
class RuleError_BadRuleType(Exception):
def __init__(self,lineno):
print("\n!! Rule type unsupported on rulefile line #%d\n\n" % lineno)
class RuleError_BadFormat(Exception):
def __init__(self,lineno):
print("\n!! Not Enough Parameters for rule on rulefile line #%d\n\n" % lineno)
class RuleEngine2:
# replaces the self keyword, but could be expanded to any keyword replacement
def _replace_self(self, ips):
# Deal with the user putting "self" in a rule (helpful if you don't know your IP)
for ip in ips:
if ip.lower() == 'self':
try:
self_ip = socket.gethostbyname(socket.gethostname())
except socket.error:
print(">> Could not get your IP address from your " \
"DNS Server.")
self_ip = '127.0.0.1'
ips[ips.index(ip)] = self_ip
return ips
def __init__(self, file_):
"""
Parses the DNS Rulefile, validates the rules, replaces keywords
"""
# track DNS requests here
self.match_history = {}
self.rule_list = []
# A lol.com IP1,IP2,IP3,IP4,IP5,IP6 rebind_threshold%Rebind_IP1,Rebind_IP2
with open(file_, 'r') as rulefile:
rules = rulefile.readlines()
lineno = 0 # keep track of line number for errors
for rule in rules:
# ignore blank lines or lines starting with hashmark (coments)
if len(rule.strip()) == 0 or rule.lstrip()[0] == "#" or rule == '\n':
# thank you to github user cambid for the comments suggestion
continue
# Confirm that the rule has at least three columns to it
if len(rule.split()) < 3:
raise RuleError_BadFormat(lineno)
# break the rule out into its components
s_rule = rule.split()
rule_type = s_rule[0].upper()
domain = s_rule[1]
ips = s_rule[2].split(',') # allow multiple ip's thru commas
# only try this if the rule is long enough
if len(s_rule) == 4:
rebinds = s_rule[3]
# handle old rule style (maybe someone updated)
if '%' in rebinds:
rebind_threshold,rebinds = rebinds.split('%')
rebinds = rebinds.split(',')
rebind_threshold = int(rebind_threshold)
else:
# in the old days we assumed a rebind thresh of 1
rebind_threshold = 1
else:
rebinds = None
rebind_threshold = None
# Validate the rule
# make sure we understand this type of response
if rule_type not in TYPE.values():
raise RuleError_BadRuleType(lineno)
# attempt to parse the regex (if any) in the domain field
try:
domain = re.compile(domain, flags=re.IGNORECASE)
except:
raise RuleError_BadRegularExpression(lineno)
# replace self in the list of ips and list of rebinds (if any)
ips = self._replace_self(ips)
if rebinds is not None:
rebinds = self._replace_self(rebinds)
# Deal With Special IPv6 Nonsense
if rule_type.upper() == "AAAA":
tmp_ip_array = []
for ip in ips:
if ip.lower() == 'none':
tmp_ip_array.append(ip)
continue
if _is_shorthand_ip(ip):
ip = _explode_shorthand_ip_string(ip)
ip = binascii.unhexlify(ip.replace(":", "")) #.decode('hex')
tmp_ip_array.append(ip)
ips = tmp_ip_array
# add the validated and parsed rule into our list of rules
self.rule_list.append(Rule(rule_type, domain, ips, rebinds, rebind_threshold))
# increment the line number
lineno += 1
print(">> Parsed %d rules from %s" % (len(self.rule_list),file_))
def match(self, query, addr):
"""
See if the request matches any rules in the rule list by calling the
match function of each rule in the list
The rule checks two things before it continues so I imagine this is
probably still fast
"""
for rule in self.rule_list:
result = rule.match(query.type, query.domain, addr)
if result is not None:
response_data = result
# Return Nonefound if the rule says "none"
if response_data.lower() == 'none':
return NONEFOUND(query).make_packet()
response = CASE[query.type](query, response_data)
print(">> Matched Request - " + query.domain.decode())
return response.make_packet()
# if we got here, we didn't match.
# Forward a request that we didnt have a rule for to someone else
# if the user said not to forward requests, and we are here, it's time to send a NONEFOUND
if args.noforward:
print(">> Don't Forward %s" % query.domain.decode())
return NONEFOUND(query).make_packet()
try:
s = socket.socket(type=socket.SOCK_DGRAM)
s.settimeout(3.0)
addr = ('%s' % (args.dns), 53)
s.sendto(query.data, addr)
data = s.recv(1024)
s.close()
print("Unmatched Request " + query.domain.decode())
return data
except socket.error as e:
# We shouldn't wind up here but if we do, don't drop the request
# send the client *something*
print(">> Error was handled by sending NONEFOUND")
print(e)
return NONEFOUND(query).make_packet()
# Convenience method for threading.
def respond(data, addr, s):
p = DNSQuery(data)
response = rules.match(p, addr[0])
s.sendto(response, addr)
return response
# Capture Control-C and handle here
def signal_handler(signal, frame):
print('Exiting...')
sys.exit(0)
if __name__ == '__main__':
parser = argparse.ArgumentParser(description='FakeDNS - A Python DNS Server')
parser.add_argument(
'-c', dest='path', action='store', required=True,
help='Path to configuration file')
parser.add_argument(
'-i', dest='iface', action='store', default='0.0.0.0', required=False,
help='IP address you wish to run FakeDns with - default all')
parser.add_argument(
'-p', dest='port', action='store', default=53, required=False,
help='Port number you wish to run FakeDns')
parser.add_argument(
'--rebind', dest='rebind', action='store_true', required=False,
default=False, help="Enable DNS rebinding attacks - responds with one "
"result the first request, and another result on subsequent requests")
parser.add_argument(
'--dns', dest='dns', action='store', default='8.8.8.8', required=False,
help='IP address of the upstream dns server - default 8.8.8.8'
)
parser.add_argument(
'--noforward', dest='noforward', action='store_true', default=False, required=False,
help='Sets if FakeDNS should forward any non-matching requests'
)
# todo: remove this - it's confusing, and we should be able to set this per-record. Keep for now for quickness.
parser.add_argument(
'--non-authoritative', dest='non_authoritative', action='store_true', default=False, required=False,
help='Sets if FakeDNS should not report as an authority for any matching DNS Queries'
)
args = parser.parse_args()
# if non-authoritative is set to true, it'll cancel out the default authoritative setting
# this is a not-very-coherent way to pull this off but we'll be changing the behavior of FakeDNS soon so it's OK
args.authoritative = True ^ args.non_authoritative
# Default config file path.
path = args.path
if not os.path.isfile(path):
print('>> Please create a "dns.conf" file or specify a config path: ' \
'./fakedns.py [configfile]')
exit()
rules = RuleEngine2(path)
rule_list = rules.rule_list
interface = args.iface
port = args.port
try:
server = ThreadedUDPServer((interface, int(port)), UDPHandler)
except socket.error:
print(">> Could not start server -- is another program on udp:{0}?".format(port))
exit(1)
server.daemon = True
# Tell python what happens if someone presses ctrl-C
signal.signal(signal.SIGINT, signal_handler)
server.serve_forever()
server_thread.join()