/usr/share/pyshared/M2Crypto/PGP/packet.py is in python-m2crypto 0.21.1-2ubuntu2.
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This module implements PGP packets per RFC1991 and various source distributions.
Each packet type is represented by a class; packet classes derive from
the abstract 'packet' class.
The 'message digest' packet type, mentioned but not documented in RFC1991,
is not implemented.
Copyright (c) 1999-2003 Ng Pheng Siong. All rights reserved."""
# XXX Work-in-progress.
# Be liberal in what you accept.
# Be conservative in what you send.
# Be lazy in what you eval.
import struct, time
try:
from cStringIO import StringIO
except ImportError:
from StringIO import StringIO
from M2Crypto import EVP, RSA
from M2Crypto.util import octx_to_num
from constants import *
_OK_VERSION = ('\002', '\003')
_OK_VALIDITY = ('\000',)
_OK_PKC = ('\001',)
class packet:
def __init__(self, ctb, body=None):
import warnings
warnings.warn('Deprecated. No maintainer for PGP. If you use this, please inform M2Crypto maintainer.', DeprecationWarning)
self.ctb = ctb
if body is not None:
self.body = StringIO(body)
else:
self.body = None
def validate(self):
return 1
def pack(self):
raise NotImplementedError, '%s.pack(): abstract method' % (self.__class__,)
def version(self):
if hasattr(self, '_version'):
return ord(self._version)
else:
return None
def timestamp(self):
if hasattr(self, '_timestamp'):
return struct.unpack('>L', self._timestamp)[0]
else:
return None
def validity(self):
if hasattr(self, '_validity'):
return struct.unpack('>H', self._validity)[0]
else:
return None
def pkc(self):
if hasattr(self, '_pkc'):
return self._pkc
else:
return None
def _llf(self, lenf):
if lenf < 256:
return (0, chr(lenf))
elif lenf < 65536:
return (1, struct.pack('>H', lenf))
else:
assert lenf < 2L**32
return (2, struct.pack('>L', lenf))
def _ctb(self, llf):
ctbv = _FACTORY[self.__class__]
return chr((1 << 7) | (ctbv << 2) | llf)
class public_key_packet(packet):
def __init__(self, ctb, body=None):
packet.__init__(self, ctb, body)
if self.body is not None:
self._version = self.body.read(1)
self._timestamp = self.body.read(4)
self._validity = self.body.read(2)
self._pkc = self.body.read(1)
self._nlen = self.body.read(2)
nlen = (struct.unpack('>H', self._nlen)[0] + 7) / 8
self._n = self.body.read(nlen)
self._elen = self.body.read(2)
elen = (struct.unpack('>H', self._elen)[0] + 7) / 8
self._e = self.body.read(elen)
def pack(self):
if self.body is None:
self.body = StringIO()
self.body.write(self._version)
self.body.write(self._timestamp)
self.body.write(self._validity)
self.body.write(self._pkc)
self.body.write(self._nlen)
self.body.write(self._n)
self.body.write(self._elen)
self.body.write(self._e)
self.body = self.body.getvalue()
llf, lenf = self._llf(len(self.body))
ctb = self._ctb(llf)
return '%s%s%s' % (ctb, lenf, self.body)
def pubkey(self):
return self._pubkey.pub()
class trust_packet(packet):
# This implementation neither interprets nor emits trust packets.
def __init__(self, ctb, body=None):
packet.__init__(self, ctb, body)
if body is not None:
self.trust = self.body.read(1)
class userid_packet(packet):
def __init__(self, ctb, body=None):
packet.__init__(self, ctb, body)
if body is not None:
self._userid = body
def pack(self):
if self.body is None:
self.body = StringIO()
self.body.write(chr(len(self._userid)))
self.body.write(self._userid)
self.body = self.body.getvalue()
return self.ctb + self.body
def userid(self):
return self._userid
class comment_packet(packet):
def __init__(self, ctb, body=None):
packet.__init__(self, ctb, body)
if body is not None:
self.comment = self.body.getvalue()
def pack(self):
if self.body is None:
self.body = StringIO()
self.body.write(chr(len(self.comment)))
self.body.write(self.comment)
self.body = self.body.getvalue()
return self.ctb + self.body
class signature_packet(packet):
def __init__(self, ctb, body=None):
packet.__init__(self, ctb, body)
if body is not None:
self._version = self.body.read(1)
self._len_md_stuff = self.body.read(1)
self._classification = self.body.read(1)
self._timestamp = self.body.read(4)
self._keyid = self.body.read(8)
self._pkc = self.body.read(1)
self._md_algo = self.body.read(1)
self._md_chksum = self.body.read(2)
self._sig = self.body.read()
def pack(self):
if self.body is None:
self.body = StringIO()
self.body.write(self._version)
self.body.write(self._len_md_stuff)
self.body.write(self._classification)
self.body.write(self._timestamp)
self.body.write(self._keyid)
self.body.write(self._pkc)
self.body.write(self._md_algo)
self.body.write(self._md_chksum)
self.body.write(self._sig)
self.body = self.body.getvalue()
llf, lenf = self._llf(len(body))
self.ctb = self.ctb | llf
return '%s%s%s' % (self.ctb, lenf, self.body)
def validate(self):
if self._version not in _OK_VERSION:
return None
if self._len_md_stuff != '\005':
return None
class private_key_packet(packet):
def __init__(self, ctb, body=None):
packet.__init__(self, ctb, body)
if body is not None:
self._version = self.body.read(1)
self._timestamp = self.body.read(4)
self._validity = self.body.read(2)
self._pkc = self.body.read(1)
self._nlen = self.body.read(2)
nlen = (struct.unpack('>H', self._nlen)[0] + 7) / 8
self._n = self.body.read(nlen)
self._elen = self.body.read(2)
elen = (struct.unpack('>H', self._elen)[0] + 7) / 8
self._e = self.body.read(elen)
self._cipher = self.body.read(1)
if self._cipher == '\001':
self._iv = self.body.read(8)
else:
self._iv = None
for param in ['d', 'p', 'q', 'u']:
_plen = self.body.read(2)
setattr(self, '_'+param+'len', _plen)
plen = (struct.unpack('>H', _plen)[0] + 7) / 8
setattr(self, '_'+param, self.body.read(plen))
self._cksum = self.body.read(2)
def is_encrypted(self):
return ord(self._cipher)
class cke_packet(packet):
def __init__(self, ctb, body=None):
packet.__init__(self, ctb, body)
if body is not None:
self._iv = self.body.read(8)
self._cksum = self.body.read(2)
self._ctxt = self.body.read()
class pke_packet(packet):
def __init__(self, ctb, body=None):
packet.__init__(self, ctb, body)
if body is not None:
self._version = self.body.read(1)
self._keyid = self.body.read(8)
self._pkc = ord(self.body.read(1))
deklen = (struct.unpack('>H', self.body.read(2))[0] + 7 ) / 8
self._dek = octx_to_num(self.body.read(deklen))
class literal_packet(packet):
def __init__(self, ctb, body=None):
packet.__init__(self, ctb, body)
if body is not None:
self.fmode = self.body.read(1)
fnlen = self.body.read(1)
self.fname = self.body.read(fnlen)
self.ftime = self.body.read(4)
#self.data = self.body.read()
class compressed_packet(packet):
def __init__(self, ctb, stream):
packet.__init__(self, ctb, '')
if body is not None:
self.algo = stream.read(1)
# This reads the entire stream into memory.
self.data = stream.read()
def validate(self):
return (self.algo == '\001')
def uncompress(self):
import zlib
decomp = zlib.decompressobj(-13) # RFC 2440, pg 61.
# This doubles the memory usage.
stream = StringIO(decomp.decompress(self.data))
return stream
_FACTORY = {
1 : pke_packet,
2 : signature_packet,
#3 : message_digest_packet, # XXX not implemented
5 : private_key_packet,
6 : public_key_packet,
#8 : compressed_packet, # special case
9 : cke_packet,
11 : literal_packet,
12 : trust_packet,
13 : userid_packet,
14 : comment_packet,
pke_packet : 1,
signature_packet : 2,
#3 : message_digest_packet,
private_key_packet : 5,
public_key_packet : 6,
#8 : compressed_packet,
cke_packet : 9,
literal_packet : 11,
trust_packet : 12,
userid_packet : 13,
comment_packet : 14
}
class packet_stream:
def __init__(self, input):
self.stream = input
self.under_current = None
self._count = 0
def close(self):
self.stream.close()
if self.under_current is not None:
self.under_current.close()
def read(self, keep_trying=0):
while 1:
ctb0 = self.stream.read(1)
if not ctb0:
return None
ctb = ord(ctb0)
if is_ctb(ctb):
break
elif keep_trying:
continue
else:
raise XXXError
ctbt = (ctb & 0x3c) >> 2
if ctbt == CTB_COMPRESSED_DATA:
self.under_current = self.stream
cp = compressed_packet(ctb0, self.stream)
self.stream = cp.uncompress()
return self.read()
# Decode the length of following data. See RFC for details.
llf = ctb & 3
if llf == 0:
lenf = ord(self.stream.read(1))
elif llf == 1:
lenf = struct.unpack('>H', self.stream.read(2))[0]
elif llf == 2:
lenf = struct.unpack('>L', self.stream.read(4))[0]
else: # llf == 3
raise XXXError, 'impossible case'
body = self.stream.read(lenf)
if not body or (len(body) != lenf):
raise XXXError, 'corrupted packet'
self._count = self.stream.tell()
try:
return _FACTORY[ctbt](ctb0, body)
except KeyError:
return packet(ctb0, body)
def count(self):
return self._count
def is_ctb(ctb):
return ctb & 0xc0
def make_ctb(value, llf):
return chr((1 << 7) | (value << 2) | llf)
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