/usr/lib/python3/dist-packages/DNS/Lib.py is in python3-dns 3.1.0-1.
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The actual contents of the file can be viewed below.
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"""
$Id$
This file is part of the py3dns project.
Homepage: https://launchpad.net/py3dns
This code is covered by the standard Python License. See LICENSE for details.
Changes for Python3 port © 2011-13 Scott Kitterman <scott@kitterman.com>
Library code. Largely this is packers and unpackers for various types.
"""
#
#
# See RFC 1035:
# ------------------------------------------------------------------------
# Network Working Group P. Mockapetris
# Request for Comments: 1035 ISI
# November 1987
# Obsoletes: RFCs 882, 883, 973
#
# DOMAIN NAMES - IMPLEMENTATION AND SPECIFICATION
# ------------------------------------------------------------------------
import types
import socket
from . import Type
from . import Class
from . import Opcode
from . import Status
import DNS
from .Base import DNSError
LABEL_UTF8 = False
LABEL_ENCODING = 'idna'
class UnpackError(DNSError): pass
class PackError(DNSError): pass
# Low-level 16 and 32 bit integer packing and unpacking
from struct import pack as struct_pack
from struct import unpack as struct_unpack
from socket import inet_ntoa, inet_aton, inet_ntop, AF_INET6
def pack16bit(n):
return struct_pack('!H', n)
def pack32bit(n):
return struct_pack('!L', n)
def unpack16bit(s):
return struct_unpack('!H', s)[0]
def unpack32bit(s):
return struct_unpack('!L', s)[0]
def addr2bin(addr):
# Updated from pyspf
"""Convert a string IPv4 address into an unsigned integer.
Examples::
>>> addr2bin('127.0.0.1')
2130706433
>>> addr2bin('127.0.0.1') == socket.INADDR_LOOPBACK
1
>>> addr2bin('255.255.255.254')
4294967294L
>>> addr2bin('192.168.0.1')
3232235521L
Unlike old DNS.addr2bin, the n, n.n, and n.n.n forms for IP addresses
are handled as well::
>>> addr2bin('10.65536')
167837696
>>> 10 * (2 ** 24) + 65536
167837696
>>> addr2bin('10.93.512')
173867520
>>> 10 * (2 ** 24) + 93 * (2 ** 16) + 512
173867520
"""
return struct_unpack("!L", inet_aton(addr))[0]
def bin2addr(n):
return inet_ntoa(struct_pack('!L', n))
def bin2addr6(n):
return inet_ntop(AF_INET6, n)
def bin2long6(str):
# Also from pyspf
h, l = struct_unpack("!QQ", str)
return h << 64 | l
# Packing class
class Packer:
" packer base class. supports basic byte/16bit/32bit/addr/string/name "
def __init__(self):
if DNS.LABEL_UTF8:
enc = 'utf8'
else:
enc = DNS.LABEL_ENCODING
self.buf = bytes('', enc)
self.index = {}
def getbuf(self):
return self.buf
def addbyte(self, c):
if len(c) != 1: raise TypeError('one character expected')
if DNS.LABEL_UTF8:
enc = 'utf8'
else:
enc = DNS.LABEL_ENCODING
self.buf = self.buf + bytes(c,enc)
def addbytes(self, abytes):
if DNS.LABEL_UTF8:
enc = 'utf8'
else:
enc = DNS.LABEL_ENCODING
self.buf = self.buf + bytes(abytes, enc)
def add16bit(self, n):
self.buf = self.buf + bytes(pack16bit(n))
def add32bit(self, n):
self.buf = self.buf + bytes(pack32bit(n))
def addaddr(self, addr):
n = addr2bin(addr)
self.buf = self.buf + bytes(pack32bit(n))
def addstring(self, s):
if len(s) > 255:
raise ValueError("Can't encode string of length "+ \
"%s (> 255)"%(len(s)))
self.addbyte(chr(len(s)))
self.addbytes(s)
def addname(self, name):
# Domain name packing (section 4.1.4)
# Add a domain name to the buffer, possibly using pointers.
# The case of the first occurrence of a name is preserved.
# Redundant dots are ignored.
nlist = []
for label in name.split('.'):
if not label:
pass # Passing to ignore redundant dots per comments
else:
nlist.append(label)
keys = []
for i in range(len(nlist)):
key = '.'.join(nlist[i:])
key = key.upper()
keys.append(key)
if key in self.index:
pointer = self.index[key]
break
else:
i = len(nlist)
pointer = None
# Do it into temporaries first so exceptions don't
# mess up self.index and self.buf
offset = len(self.buf)
index = []
if DNS.LABEL_UTF8:
enc = 'utf8'
else:
enc = DNS.LABEL_ENCODING
buf = bytes('', enc)
for j in range(i):
label = nlist[j]
try:
label = label.encode(enc)
except UnicodeEncodeError:
if not DNS.LABEL_UTF8: raise
if not label.startswith('\ufeff'):
label = '\ufeff'+label
label = label.encode(enc)
n = len(label)
if n > 63:
raise PackError('label too long')
if offset + len(buf) < 0x3FFF:
index.append((keys[j], offset + len(buf)))
else:
print('DNS.Lib.Packer.addname:')
print('warning: pointer too big')
buf = buf + (bytes(chr(n), enc) + label)
if pointer:
buf = buf + (pack16bit(pointer | 0xC000))
else:
buf = buf + bytes('\0', enc)
self.buf = self.buf + buf
for key, value in index:
self.index[key] = value
def dump(self):
keys = list(self.index.keys())
keys.sort()
print('-'*40)
for key in keys:
print('%20s %3d' % (key, self.index[key]))
print('-'*40)
space = 1
for i in range(0, len(self.buf)+1, 2):
if self.buf[i:i+2] == '**':
if not space: print()
space = 1
continue
space = 0
print('%4d' % i)
for c in self.buf[i:i+2]:
if ' ' < c < '\177':
print(' %c' % c)
else:
print('%2d' % ord(c))
print()
print('-'*40)
# Unpacking class
class Unpacker:
def __init__(self, buf):
# buf should be binary in Python3
self.buf = buf
self.offset = 0
def getbyte(self):
if self.offset >= len(self.buf):
raise UnpackError("Ran off end of data")
c = self.buf[self.offset]
self.offset = self.offset + 1
return c
def getbytes(self, n):
s = (self.buf[self.offset : self.offset + n])
if len(s) != n: raise UnpackError('not enough data left')
self.offset = self.offset + n
return s
def get16bit(self):
return unpack16bit(self.getbytes(2))
def get32bit(self):
return unpack32bit(self.getbytes(4))
def getaddr(self):
if DNS.LABEL_UTF8:
enc = 'utf8'
else:
enc = DNS.LABEL_ENCODING
return bytes(bin2addr(self.get32bit()),enc)
def getaddr6(self):
return (self.getbytes(16))
def getstring(self):
return self.getbytes(self.getbyte())
def getname(self):
# Domain name unpacking (section 4.1.4)
i = self.getbyte()
#i = ord(i)
if i and i & 0xC0 == 0xC0:
d = self.getbyte()
j = d
pointer = ((i<<8) | j) & ~0xC000
save_offset = self.offset
try:
self.offset = pointer
domain = self.getname()
finally:
self.offset = save_offset
return domain
if i == 0:
return ''
if DNS.LABEL_UTF8:
enc = 'utf8'
else:
enc = DNS.LABEL_ENCODING
domain = str(self.getbytes(i), enc)
remains = self.getname()
if not remains:
return domain
else:
return domain + '.' + remains
# Test program for packin/unpacking (section 4.1.4)
def testpacker():
N = 2500
R = list(range(N))
import timing
# See section 4.1.4 of RFC 1035
timing.start()
for i in R:
p = Packer()
p.addaddr('192.168.0.1')
p.addbytes('*' * 20)
p.addname('f.ISI.ARPA')
p.addbytes('*' * 8)
p.addname('Foo.F.isi.arpa')
p.addbytes('*' * 18)
p.addname('arpa')
p.addbytes('*' * 26)
p.addname('')
timing.finish()
print(timing.milli(), "ms total for packing")
print(round(timing.milli() / i, 4), 'ms per packing')
#p.dump()
u = Unpacker(p.buf)
u.getaddr()
u.getbytes(20)
u.getname()
u.getbytes(8)
u.getname()
u.getbytes(18)
u.getname()
u.getbytes(26)
u.getname()
timing.start()
for i in R:
u = Unpacker(p.buf)
res = (u.getaddr(),
u.getbytes(20),
u.getname(),
u.getbytes(8),
u.getname(),
u.getbytes(18),
u.getname(),
u.getbytes(26),
u.getname())
timing.finish()
print(timing.milli(), "ms total for unpacking")
print(round(timing.milli() / i, 4), 'ms per unpacking')
#for item in res: print item
# Pack/unpack RR toplevel format (section 3.2.1)
class RRpacker(Packer):
def __init__(self):
Packer.__init__(self)
self.rdstart = None
def addRRheader(self, name, RRtype, klass, ttl, *rest):
self.addname(name)
self.add16bit(RRtype)
self.add16bit(klass)
self.add32bit(ttl)
if rest:
if rest[1:]: raise TypeError('too many args')
rdlength = rest[0]
else:
rdlength = 0
self.add16bit(rdlength)
self.rdstart = len(self.buf)
def patchrdlength(self):
rdlength = unpack16bit(self.buf[self.rdstart-2:self.rdstart])
if rdlength == len(self.buf) - self.rdstart:
return
rdata = self.buf[self.rdstart:]
save_buf = self.buf
ok = 0
try:
self.buf = self.buf[:self.rdstart-2]
self.add16bit(len(rdata))
self.buf = self.buf + rdata
ok = 1
finally:
if not ok: self.buf = save_buf
def endRR(self):
if self.rdstart is not None:
self.patchrdlength()
self.rdstart = None
def getbuf(self):
if self.rdstart is not None: self.patchrdlength()
return Packer.getbuf(self)
# Standard RRs (section 3.3)
def addCNAME(self, name, klass, ttl, cname):
self.addRRheader(name, Type.CNAME, klass, ttl)
self.addname(cname)
self.endRR()
def addHINFO(self, name, klass, ttl, cpu, os):
self.addRRheader(name, Type.HINFO, klass, ttl)
self.addstring(cpu)
self.addstring(os)
self.endRR()
def addMX(self, name, klass, ttl, preference, exchange):
self.addRRheader(name, Type.MX, klass, ttl)
self.add16bit(preference)
self.addname(exchange)
self.endRR()
def addNS(self, name, klass, ttl, nsdname):
self.addRRheader(name, Type.NS, klass, ttl)
self.addname(nsdname)
self.endRR()
def addPTR(self, name, klass, ttl, ptrdname):
self.addRRheader(name, Type.PTR, klass, ttl)
self.addname(ptrdname)
self.endRR()
def addSOA(self, name, klass, ttl,
mname, rname, serial, refresh, retry, expire, minimum):
self.addRRheader(name, Type.SOA, klass, ttl)
self.addname(mname)
self.addname(rname)
self.add32bit(serial)
self.add32bit(refresh)
self.add32bit(retry)
self.add32bit(expire)
self.add32bit(minimum)
self.endRR()
def addTXT(self, name, klass, ttl, tlist):
self.addRRheader(name, Type.TXT, klass, ttl)
if type(tlist) is bytes or type(tlist) is str:
tlist = [tlist]
for txtdata in tlist:
self.addstring(txtdata)
self.endRR()
def addSPF(self, name, klass, ttl, tlist):
self.addRRheader(name, Type.TXT, klass, ttl)
if type(tlist) is bytes or type(tlist) is str:
tlist = [tlist]
for txtdata in tlist:
self.addstring(txtdata)
self.endRR()
# Internet specific RRs (section 3.4) -- class = IN
def addA(self, name, klass, ttl, address):
self.addRRheader(name, Type.A, klass, ttl)
self.addaddr(address)
self.endRR()
def addWKS(self, name, ttl, address, protocol, bitmap):
self.addRRheader(name, Type.WKS, Class.IN, ttl)
self.addaddr(address)
self.addbyte(chr(protocol))
self.addbytes(bitmap)
self.endRR()
def addSRV(self):
raise NotImplementedError
def prettyTime(seconds):
if seconds<60:
return seconds,"%d seconds"%(seconds)
if seconds<3600:
return seconds,"%d minutes"%(seconds/60)
if seconds<86400:
return seconds,"%d hours"%(seconds/3600)
if seconds<604800:
return seconds,"%d days"%(seconds/86400)
else:
return seconds,"%d weeks"%(seconds/604800)
class RRunpacker(Unpacker):
def __init__(self, buf):
Unpacker.__init__(self, buf)
self.rdend = None
def getRRheader(self):
name = self.getname()
rrtype = self.get16bit()
klass = self.get16bit()
ttl = self.get32bit()
rdlength = self.get16bit()
self.rdend = self.offset + rdlength
return (name, rrtype, klass, ttl, rdlength)
def endRR(self):
if self.offset != self.rdend:
raise UnpackError('end of RR not reached')
def getCNAMEdata(self):
return self.getname()
def getHINFOdata(self):
if DNS.LABEL_UTF8:
enc = 'utf8'
else:
enc = DNS.LABEL_ENCODING
return str(self.getstring(), enc), str(self.getstring(),enc)
def getMXdata(self):
return self.get16bit(), self.getname()
def getNSdata(self):
return self.getname()
def getPTRdata(self):
return self.getname()
def getSOAdata(self):
return self.getname(), \
self.getname(), \
('serial',)+(self.get32bit(),), \
('refresh ',)+prettyTime(self.get32bit()), \
('retry',)+prettyTime(self.get32bit()), \
('expire',)+prettyTime(self.get32bit()), \
('minimum',)+prettyTime(self.get32bit())
def getTXTdata(self):
tlist = []
while self.offset != self.rdend:
tlist.append(bytes(self.getstring()))
return tlist
getSPFdata = getTXTdata
def getAdata(self):
if DNS.LABEL_UTF8:
enc = 'utf8'
else:
enc = DNS.LABEL_ENCODING
return self.getaddr().decode(enc)
def getWKSdata(self):
address = self.getaddr()
protocol = ord(self.getbyte())
bitmap = self.getbytes(self.rdend - self.offset)
return address, protocol, bitmap
def getSRVdata(self):
"""
_Service._Proto.Name TTL Class SRV Priority Weight Port Target
"""
priority = self.get16bit()
weight = self.get16bit()
port = self.get16bit()
target = self.getname()
#print '***priority, weight, port, target', priority, weight, port, target
return priority, weight, port, target
class RRunpackerDefault(RRunpacker):
# Default for DNS.qry
def __init__(self, buf):
RRunpacker.__init__(self, buf)
self.rdend = None
def getAdata(self):
import ipaddress
if DNS.LABEL_UTF8:
enc = 'utf8'
else:
enc = DNS.LABEL_ENCODING
x = socket.inet_aton(self.getaddr().decode(enc))
return ipaddress.IPv4Address(struct_unpack("!I", x)[0])
def getAAAAdata(self):
import ipaddress
return ipaddress.IPv6Address(bin2addr6(self.getaddr6()))
class RRunpackerText(RRunpackerDefault):
def __init__(self, buf):
RRunpackerDefault.__init__(self, buf)
def getAdata(self):
if DNS.LABEL_UTF8:
enc = 'utf8'
else:
enc = DNS.LABEL_ENCODING
return self.getaddr().decode(enc)
def getAAAAdata(self):
return bin2addr6(self.getaddr6())
def getTXTdata(self):
if DNS.LABEL_UTF8:
enc = 'utf8'
else:
enc = DNS.LABEL_ENCODING
tlist = []
while self.offset != self.rdend:
tlist.append(str(self.getstring(), enc))
return tlist
class RRunpackerInteger(RRunpackerDefault):
def __init__(self, buf):
RRunpackerDefault.__init__(self, buf)
def getAdata(self):
if DNS.LABEL_UTF8:
enc = 'utf8'
else:
enc = DNS.LABEL_ENCODING
x = socket.inet_aton(self.getaddr().decode(enc))
return struct_unpack("!I", x)[0]
def getAAAAdata(self):
return bin2long6(self.getaddr6())
class RRunpackerBinary(Unpacker):
def __init__(self, buf):
Unpacker.__init__(self, buf)
self.rdend = None
def getRRheader(self):
name = self.getname()
rrtype = self.get16bit()
klass = self.get16bit()
ttl = self.get32bit()
rdlength = self.get16bit()
self.rdlength = rdlength
self.rdend = self.offset + rdlength
return (name, rrtype, klass, ttl, rdlength)
def endRR(self):
if self.offset != self.rdend:
raise UnpackError('end of RR not reached')
def getTXTdata(self):
tlist = []
while self.offset != self.rdend:
tlist.append(self.getbytes(self.rdlength))
return tlist
getSPFdata = getTXTdata
# Pack/unpack Message Header (section 4.1)
class Hpacker(Packer):
def addHeader(self, id, qr, opcode, aa, tc, rd, ra, z, rcode,
qdcount, ancount, nscount, arcount):
self.add16bit(id)
self.add16bit((qr&1)<<15 | (opcode&0xF)<<11 | (aa&1)<<10
| (tc&1)<<9 | (rd&1)<<8 | (ra&1)<<7
| (z&7)<<4 | (rcode&0xF))
self.add16bit(qdcount)
self.add16bit(ancount)
self.add16bit(nscount)
self.add16bit(arcount)
class Hunpacker(Unpacker):
def getHeader(self):
id = self.get16bit()
flags = self.get16bit()
qr, opcode, aa, tc, rd, ra, z, rcode = (
(flags>>15)&1,
(flags>>11)&0xF,
(flags>>10)&1,
(flags>>9)&1,
(flags>>8)&1,
(flags>>7)&1,
(flags>>4)&7,
(flags>>0)&0xF)
qdcount = self.get16bit()
ancount = self.get16bit()
nscount = self.get16bit()
arcount = self.get16bit()
return (id, qr, opcode, aa, tc, rd, ra, z, rcode,
qdcount, ancount, nscount, arcount)
# Pack/unpack Question (section 4.1.2)
class Qpacker(Packer):
def addQuestion(self, qname, qtype, qclass):
self.addname(qname)
self.add16bit(qtype)
self.add16bit(qclass)
class Qunpacker(Unpacker):
def getQuestion(self):
return self.getname(), self.get16bit(), self.get16bit()
# Pack/unpack Message(section 4)
# NB the order of the base classes is important for __init__()!
class Mpacker(RRpacker, Qpacker, Hpacker):
pass
class Munpacker(RRunpacker, Qunpacker, Hunpacker):
# Default results for DNS.req
pass
class MunpackerDefault(RRunpackerDefault, Qunpacker, Hunpacker):
# Default results for DNS.qry
pass
class MunpackerText(RRunpackerText, Qunpacker, Hunpacker):
pass
class MunpackerBinary(RRunpackerBinary, Qunpacker, Hunpacker):
pass
class MunpackerInteger(RRunpackerInteger, Qunpacker, Hunpacker):
pass
# Routines to print an unpacker to stdout, for debugging.
# These affect the unpacker's current position!
def dumpM(u):
print('HEADER:')
(id, qr, opcode, aa, tc, rd, ra, z, rcode,
qdcount, ancount, nscount, arcount) = u.getHeader()
print('id=%d,' % id)
print('qr=%d, opcode=%d, aa=%d, tc=%d, rd=%d, ra=%d, z=%d, rcode=%d,' \
% (qr, opcode, aa, tc, rd, ra, z, rcode))
if tc: print('*** response truncated! ***')
if rcode: print('*** nonzero error code! (%d) ***' % rcode)
print(' qdcount=%d, ancount=%d, nscount=%d, arcount=%d' \
% (qdcount, ancount, nscount, arcount))
for i in range(qdcount):
print('QUESTION %d:' % i)
dumpQ(u)
for i in range(ancount):
print('ANSWER %d:' % i)
dumpRR(u)
for i in range(nscount):
print('AUTHORITY RECORD %d:' % i)
dumpRR(u)
for i in range(arcount):
print('ADDITIONAL RECORD %d:' % i)
dumpRR(u)
class DnsResult:
def __init__(self,u,args):
self.header={}
self.questions=[]
self.answers=[]
self.authority=[]
self.additional=[]
self.args=args
self.storeM(u)
def show(self):
import time
print('; <<>> PDG.py 1.0 <<>> %s %s'%(self.args['name'],
self.args['qtype']))
opt=""
if self.args['rd']:
opt=opt+'recurs '
h=self.header
print(';; options: '+opt)
print(';; got answer:')
print(';; ->>HEADER<<- opcode %s, status %s, id %d'%(
h['opcode'],h['status'],h['id']))
flags=list(filter(lambda x,h=h:h[x],('qr','aa','rd','ra','tc')))
print(';; flags: %s; Ques: %d, Ans: %d, Auth: %d, Addit: %d'%(
' '.join(flags),h['qdcount'],h['ancount'],h['nscount'],
h['arcount']))
print(';; QUESTIONS:')
for q in self.questions:
print(';; %s, type = %s, class = %s'%(q['qname'],q['qtypestr'],
q['qclassstr']))
print()
print(';; ANSWERS:')
for a in self.answers:
print('%-20s %-6s %-6s %s'%(a['name'],repr(a['ttl']),a['typename'],
a['data']))
print()
print(';; AUTHORITY RECORDS:')
for a in self.authority:
print('%-20s %-6s %-6s %s'%(a['name'],repr(a['ttl']),a['typename'],
a['data']))
print()
print(';; ADDITIONAL RECORDS:')
for a in self.additional:
print('%-20s %-6s %-6s %s'%(a['name'],repr(a['ttl']),a['typename'],
a['data']))
print()
if 'elapsed' in self.args:
print(';; Total query time: %d msec'%self.args['elapsed'])
print(';; To SERVER: %s'%(self.args['server']))
print(';; WHEN: %s'%time.ctime(time.time()))
def storeM(self,u):
(self.header['id'], self.header['qr'], self.header['opcode'],
self.header['aa'], self.header['tc'], self.header['rd'],
self.header['ra'], self.header['z'], self.header['rcode'],
self.header['qdcount'], self.header['ancount'],
self.header['nscount'], self.header['arcount']) = u.getHeader()
self.header['opcodestr']=Opcode.opcodestr(self.header['opcode'])
self.header['status']=Status.statusstr(self.header['rcode'])
for i in range(self.header['qdcount']):
#print 'QUESTION %d:' % i,
self.questions.append(self.storeQ(u))
for i in range(self.header['ancount']):
#print 'ANSWER %d:' % i,
self.answers.append(self.storeRR(u))
for i in range(self.header['nscount']):
#print 'AUTHORITY RECORD %d:' % i,
self.authority.append(self.storeRR(u))
for i in range(self.header['arcount']):
#print 'ADDITIONAL RECORD %d:' % i,
self.additional.append(self.storeRR(u))
def storeQ(self,u):
q={}
q['qname'], q['qtype'], q['qclass'] = u.getQuestion()
q['qtypestr']=Type.typestr(q['qtype'])
q['qclassstr']=Class.classstr(q['qclass'])
return q
def storeRR(self,u):
r={}
r['name'],r['type'],r['class'],r['ttl'],r['rdlength'] = u.getRRheader()
r['typename'] = Type.typestr(r['type'])
r['classstr'] = Class.classstr(r['class'])
#print 'name=%s, type=%d(%s), class=%d(%s), ttl=%d' \
# % (name,
# type, typename,
# klass, Class.classstr(class),
# ttl)
mname = 'get%sdata' % r['typename']
if hasattr(u, mname):
r['data']=getattr(u, mname)()
else:
r['data']=u.getbytes(r['rdlength'])
return r
def dumpQ(u):
qname, qtype, qclass = u.getQuestion()
print('qname=%s, qtype=%d(%s), qclass=%d(%s)' \
% (qname,
qtype, Type.typestr(qtype),
qclass, Class.classstr(qclass)))
def dumpRR(u):
name, type, klass, ttl, rdlength = u.getRRheader()
typename = Type.typestr(type)
print('name=%s, type=%d(%s), class=%d(%s), ttl=%d' \
% (name,
type, typename,
klass, Class.classstr(klass),
ttl))
mname = 'get%sdata' % typename
if hasattr(u, mname):
print(' formatted rdata:', getattr(u, mname)())
else:
print(' binary rdata:', u.getbytes(rdlength))
if __name__ == "__main__":
testpacker()
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