freebsd-dev/tests/sys/opencrypto/dpkt.py
John-Mark Gurney 08fca7a56b Add some new modes to OpenCrypto. These modes are AES-ICM (can be used
for counter mode), and AES-GCM.  Both of these modes have been added to
the aesni module.

Included is a set of tests to validate that the software and aesni
module calculate the correct values.  These use the NIST KAT test
vectors.  To run the test, you will need to install a soon to be
committed port, nist-kat that will install the vectors.  Using a port
is necessary as the test vectors are around 25MB.

All the man pages were updated.  I have added a new man page, crypto.7,
which includes a description of how to use each mode.  All the new modes
and some other AES modes are present.  It would be good for someone
else to go through and document the other modes.

A new ioctl was added to support AEAD modes which AES-GCM is one of them.
Without this ioctl, it is not possible to test AEAD modes from userland.

Add a timing safe bcmp for use to compare MACs.  Previously we were using
bcmp which could leak timing info and result in the ability to forge
messages.

Add a minor optimization to the aesni module so that single segment
mbufs don't get copied and instead are updated in place.  The aesni
module needs to be updated to support blocked IO so segmented mbufs
don't have to be copied.

We require that the IV be specified for all calls for both GCM and ICM.
This is to ensure proper use of these functions.

Obtained from:	p4: //depot/projects/opencrypto
Relnotes:	yes
Sponsored by:	FreeBSD Foundation
Sponsored by:	NetGate
2014-12-12 19:56:36 +00:00

161 lines
5.1 KiB
Python

# $FreeBSD$
# $Id: dpkt.py 114 2005-09-11 15:15:12Z dugsong $
"""fast, simple packet creation / parsing, with definitions for the
basic TCP/IP protocols.
"""
__author__ = 'Dug Song <dugsong@monkey.org>'
__copyright__ = 'Copyright (c) 2004 Dug Song'
__license__ = 'BSD'
__url__ = 'http://monkey.org/~dugsong/dpkt/'
__version__ = '1.2'
try:
from itertools import izip as _it_izip
except ImportError:
_it_izip = zip
from struct import calcsize as _st_calcsize, \
pack as _st_pack, unpack as _st_unpack, error as _st_error
from re import compile as _re_compile
intchr = _re_compile(r"(?P<int>[0-9]+)(?P<chr>.)")
class MetaPacket(type):
def __new__(cls, clsname, clsbases, clsdict):
if '__hdr__' in clsdict:
st = clsdict['__hdr__']
clsdict['__hdr_fields__'] = [ x[0] for x in st ]
clsdict['__hdr_fmt__'] = clsdict.get('__byte_order__', '>') + \
''.join([ x[1] for x in st ])
clsdict['__hdr_len__'] = _st_calcsize(clsdict['__hdr_fmt__'])
clsdict['__hdr_defaults__'] = \
dict(zip(clsdict['__hdr_fields__'], [ x[2] for x in st ]))
clsdict['__slots__'] = clsdict['__hdr_fields__']
return type.__new__(cls, clsname, clsbases, clsdict)
class Packet(object):
"""Packet class
__hdr__ should be defined as a list of (name, structfmt, default) tuples
__byte_order__ can be set to override the default ('>')
"""
__metaclass__ = MetaPacket
data = ''
def __init__(self, *args, **kwargs):
"""Packet constructor with ([buf], [field=val,...]) prototype.
Arguments:
buf -- packet buffer to unpack
Optional keyword arguments correspond to packet field names.
"""
if args:
self.unpack(args[0])
else:
for k in self.__hdr_fields__:
setattr(self, k, self.__hdr_defaults__[k])
for k, v in kwargs.iteritems():
setattr(self, k, v)
def __len__(self):
return self.__hdr_len__ + len(self.data)
def __repr__(self):
l = [ '%s=%r' % (k, getattr(self, k))
for k in self.__hdr_defaults__
if getattr(self, k) != self.__hdr_defaults__[k] ]
if self.data:
l.append('data=%r' % self.data)
return '%s(%s)' % (self.__class__.__name__, ', '.join(l))
def __str__(self):
return self.pack_hdr() + str(self.data)
def pack_hdr(self):
"""Return packed header string."""
try:
return _st_pack(self.__hdr_fmt__,
*[ getattr(self, k) for k in self.__hdr_fields__ ])
except _st_error:
vals = []
for k in self.__hdr_fields__:
v = getattr(self, k)
if isinstance(v, tuple):
vals.extend(v)
else:
vals.append(v)
return _st_pack(self.__hdr_fmt__, *vals)
def unpack(self, buf):
"""Unpack packet header fields from buf, and set self.data."""
res = list(_st_unpack(self.__hdr_fmt__, buf[:self.__hdr_len__]))
for e, k in enumerate(self.__slots__):
sfmt = self.__hdr__[e][1]
mat = intchr.match(sfmt)
if mat and mat.group('chr') != 's':
cnt = int(mat.group('int'))
setattr(self, k, list(res[:cnt]))
del res[:cnt]
else:
if sfmt[-1] == 's':
i = res[0].find('\x00')
if i != -1:
res[0] = res[0][:i]
setattr(self, k, res[0])
del res[0]
assert len(res) == 0
self.data = buf[self.__hdr_len__:]
# XXX - ''.join([(len(`chr(x)`)==3) and chr(x) or '.' for x in range(256)])
__vis_filter = """................................ !"#$%&\'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[.]^_`abcdefghijklmnopqrstuvwxyz{|}~................................................................................................................................."""
def hexdump(buf, length=16):
"""Return a hexdump output string of the given buffer."""
n = 0
res = []
while buf:
line, buf = buf[:length], buf[length:]
hexa = ' '.join(['%02x' % ord(x) for x in line])
line = line.translate(__vis_filter)
res.append(' %04d: %-*s %s' % (n, length * 3, hexa, line))
n += length
return '\n'.join(res)
def in_cksum_add(s, buf):
"""in_cksum_add(cksum, buf) -> cksum
Return accumulated Internet checksum.
"""
nleft = len(buf)
i = 0
while nleft > 1:
s += ord(buf[i]) * 256 + ord(buf[i+1])
i += 2
nleft -= 2
if nleft:
s += ord(buf[i]) * 256
return s
def in_cksum_done(s):
"""Fold and return Internet checksum."""
while (s >> 16):
s = (s >> 16) + (s & 0xffff)
return (~s & 0xffff)
def in_cksum(buf):
"""Return computed Internet checksum."""
return in_cksum_done(in_cksum_add(0, buf))
try:
import psyco
psyco.bind(in_cksum)
psyco.bind(Packet)
except ImportError:
pass