pbertera/Simple DNS server (UDP and TCP) in Python using dnslib.py

## Simple DNS server (UDP and TCP) in Python using dnslib.py
# coding=utf-8
import datetime
import sys
import time
import threading
import traceback
import SocketServer
from dnslib import *


class DomainName(str):
    def __getattr__(self, item):
        return DomainName(item + '.' + self)


D = DomainName('example.com')
IP = '127.0.0.1'
TTL = 60 * 5
PORT = 5053

soa_record = SOA(
    mname=D.ns1,  # primary name server
    rname=D.andrei,  # email of the domain administrator
    times=(
        201307231,  # serial number
        60 * 60 * 1,  # refresh
        60 * 60 * 3,  # retry
        60 * 60 * 24,  # expire
        60 * 60 * 1,  # minimum
    )
)
ns_records = [NS(D.ns1), NS(D.ns2)]
records = {
    D: [A(IP), AAAA((0,) * 16), MX(D.mail), soa_record] + ns_records,
    D.ns1: [A(IP)],  # MX and NS records must never point to a CNAME alias (RFC 2181 section 10.3)
    D.ns2: [A(IP)],
    D.mail: [A(IP)],
    D.andrei: [CNAME(D)],
}


def dns_response(data):
    request = DNSRecord.parse(data)

    print request

    reply = DNSRecord(DNSHeader(id=request.header.id, qr=1, aa=1, ra=1), q=request.q)

    qname = request.q.qname
    qn = str(qname)
    qtype = request.q.qtype
    qt = QTYPE[qtype]

    if qn == D or qn.endswith('.' + D):

        for name, rrs in records.iteritems():
            if name == qn:
                for rdata in rrs:
                    rqt = rdata.__class__.__name__
                    if qt in ['*', rqt]:
                        reply.add_answer(RR(rname=qname, rtype=QTYPE[rqt], rclass=1, ttl=TTL, rdata=rdata))

        for rdata in ns_records:
            reply.add_ns(RR(rname=D, rtype=QTYPE.NS, rclass=1, ttl=TTL, rdata=rdata))

        reply.add_ns(RR(rname=D, rtype=QTYPE.SOA, rclass=1, ttl=TTL, rdata=soa_record))

    print "---- Reply:\n", reply

    return reply.pack()


class BaseRequestHandler(SocketServer.BaseRequestHandler):

    def get_data(self):
        raise NotImplementedError

    def send_data(self, data):
        raise NotImplementedError

    def handle(self):
        now = datetime.datetime.utcnow().strftime('%Y-%m-%d %H:%M:%S.%f')
        print "\n\n%s request %s (%s %s):" % (self.__class__.__name__[:3], now, self.client_address[0],
                                               self.client_address[1])
        try:
            data = self.get_data()
            print len(data), data.encode('hex')  # repr(data).replace('\\x', '')[1:-1]
            self.send_data(dns_response(data))
        except Exception:
            traceback.print_exc(file=sys.stderr)


class TCPRequestHandler(BaseRequestHandler):

    def get_data(self):
        data = self.request.recv(8192).strip()
        sz = int(data[:2].encode('hex'), 16)
        if sz < len(data) - 2:
            raise Exception("Wrong size of TCP packet")
        elif sz > len(data) - 2:
            raise Exception("Too big TCP packet")
        return data[2:]

    def send_data(self, data):
        sz = hex(len(data))[2:].zfill(4).decode('hex')
        return self.request.sendall(sz + data)


class UDPRequestHandler(BaseRequestHandler):

    def get_data(self):
        return self.request[0].strip()

    def send_data(self, data):
        return self.request[1].sendto(data, self.client_address)


if __name__ == '__main__':
    print "Starting nameserver..."

    servers = [
        SocketServer.ThreadingUDPServer(('', PORT), UDPRequestHandler),
        SocketServer.ThreadingTCPServer(('', PORT), TCPRequestHandler),
    ]
    for s in servers:
        thread = threading.Thread(target=s.serve_forever)  # that thread will start one more thread for each request
        thread.daemon = True  # exit the server thread when the main thread terminates
        thread.start()
        print "%s server loop running in thread: %s" % (s.RequestHandlerClass.__name__[:3], thread.name)

    try:
        while 1:
            time.sleep(1)
            sys.stderr.flush()
            sys.stdout.flush()

    except KeyboardInterrupt:
        pass
    finally:
        for s in servers:
            s.shutdown()
	# coding=utf-8
	import datetime
	import sys
	import time
	import threading
	import traceback
	import SocketServer
	from dnslib import *


	class DomainName(str):
	def __getattr__(self, item):
	return DomainName(item + '.' + self)


	D = DomainName('example.com')
	IP = '127.0.0.1'
	TTL = 60 * 5
	PORT = 5053

	soa_record = SOA(
	mname=D.ns1, # primary name server
	rname=D.andrei, # email of the domain administrator
	times=(
	201307231, # serial number
	60 * 60 * 1, # refresh
	60 * 60 * 3, # retry
	60 * 60 * 24, # expire
	60 * 60 * 1, # minimum
	)
	)
	ns_records = [NS(D.ns1), NS(D.ns2)]
	records = {
	D: [A(IP), AAAA((0,) * 16), MX(D.mail), soa_record] + ns_records,
	D.ns1: [A(IP)], # MX and NS records must never point to a CNAME alias (RFC 2181 section 10.3)
	D.ns2: [A(IP)],
	D.mail: [A(IP)],
	D.andrei: [CNAME(D)],
	}


	def dns_response(data):
	request = DNSRecord.parse(data)

	print request

	reply = DNSRecord(DNSHeader(id=request.header.id, qr=1, aa=1, ra=1), q=request.q)

	qname = request.q.qname
	qn = str(qname)
	qtype = request.q.qtype
	qt = QTYPE[qtype]

	if qn == D or qn.endswith('.' + D):

	for name, rrs in records.iteritems():
	if name == qn:
	for rdata in rrs:
	rqt = rdata.__class__.__name__
	if qt in ['*', rqt]:
	reply.add_answer(RR(rname=qname, rtype=QTYPE[rqt], rclass=1, ttl=TTL, rdata=rdata))

	for rdata in ns_records:
	reply.add_ns(RR(rname=D, rtype=QTYPE.NS, rclass=1, ttl=TTL, rdata=rdata))

	reply.add_ns(RR(rname=D, rtype=QTYPE.SOA, rclass=1, ttl=TTL, rdata=soa_record))

	print "---- Reply:\n", reply

	return reply.pack()


	class BaseRequestHandler(SocketServer.BaseRequestHandler):

	def get_data(self):
	raise NotImplementedError

	def send_data(self, data):
	raise NotImplementedError

	def handle(self):
	now = datetime.datetime.utcnow().strftime('%Y-%m-%d %H:%M:%S.%f')
	print "\n\n%s request %s (%s %s):" % (self.__class__.__name__[:3], now, self.client_address[0],
	self.client_address[1])
	try:
	data = self.get_data()
	print len(data), data.encode('hex') # repr(data).replace('\\x', '')[1:-1]
	self.send_data(dns_response(data))
	except Exception:
	traceback.print_exc(file=sys.stderr)


	class TCPRequestHandler(BaseRequestHandler):

	def get_data(self):
	data = self.request.recv(8192).strip()
	sz = int(data[:2].encode('hex'), 16)
	if sz < len(data) - 2:
	raise Exception("Wrong size of TCP packet")
	elif sz > len(data) - 2:
	raise Exception("Too big TCP packet")
	return data[2:]

	def send_data(self, data):
	sz = hex(len(data))[2:].zfill(4).decode('hex')
	return self.request.sendall(sz + data)


	class UDPRequestHandler(BaseRequestHandler):

	def get_data(self):
	return self.request[0].strip()

	def send_data(self, data):
	return self.request[1].sendto(data, self.client_address)


	if __name__ == '__main__':
	print "Starting nameserver..."

	servers = [
	SocketServer.ThreadingUDPServer(('', PORT), UDPRequestHandler),
	SocketServer.ThreadingTCPServer(('', PORT), TCPRequestHandler),
	]
	for s in servers:
	thread = threading.Thread(target=s.serve_forever) # that thread will start one more thread for each request
	thread.daemon = True # exit the server thread when the main thread terminates
	thread.start()
	print "%s server loop running in thread: %s" % (s.RequestHandlerClass.__name__[:3], thread.name)

	try:
	while 1:
	time.sleep(1)
	sys.stderr.flush()
	sys.stdout.flush()

	except KeyboardInterrupt:
	pass
	finally:
	for s in servers:
	s.shutdown()