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|
# $Id: ssl.py 90 2014-04-02 22:06:23Z andrewflnr@gmail.com $
# Portion Copyright 2012 Google Inc. All rights reserved.
"""Secure Sockets Layer / Transport Layer Security."""
import dpkt
import ssl_ciphersuites
import struct
import binascii
import traceback
import datetime
#
# Note from April 2011: cde...@gmail.com added code that parses SSL3/TLS messages more in depth.
#
# Jul 2012: afleenor@google.com modified and extended SSL support further.
#
class SSL2(dpkt.Packet):
__hdr__ = (
('len', 'H', 0),
('msg', 's', ''),
('pad', 's', ''),
)
def unpack(self, buf):
dpkt.Packet.unpack(self, buf)
if self.len & 0x8000:
n = self.len = self.len & 0x7FFF
self.msg, self.data = self.data[:n], self.data[n:]
else:
n = self.len = self.len & 0x3FFF
padlen = ord(self.data[0])
self.msg = self.data[1:1+n]
self.pad = self.data[1+n:1+n+padlen]
self.data = self.data[1+n+padlen:]
# SSLv3/TLS versions
SSL3_V = 0x0300
TLS1_V = 0x0301
TLS11_V = 0x0302
TLS12_V = 0x0303
ssl3_versions_str = {
SSL3_V: 'SSL3',
TLS1_V: 'TLS 1.0',
TLS11_V: 'TLS 1.1',
TLS12_V: 'TLS 1.2'
}
SSL3_VERSION_BYTES = set(('\x03\x00', '\x03\x01', '\x03\x02', '\x03\x03'))
# Alert levels
SSL3_AD_WARNING = 1
SSL3_AD_FATAL = 2
alert_level_str = {
SSL3_AD_WARNING: 'SSL3_AD_WARNING',
SSL3_AD_FATAL: 'SSL3_AD_FATAL'
}
# SSL3 alert descriptions
SSL3_AD_CLOSE_NOTIFY = 0
SSL3_AD_UNEXPECTED_MESSAGE = 10 # fatal
SSL3_AD_BAD_RECORD_MAC = 20 # fatal
SSL3_AD_DECOMPRESSION_FAILURE = 30 # fatal
SSL3_AD_HANDSHAKE_FAILURE = 40 # fatal
SSL3_AD_NO_CERTIFICATE = 41
SSL3_AD_BAD_CERTIFICATE = 42
SSL3_AD_UNSUPPORTED_CERTIFICATE = 43
SSL3_AD_CERTIFICATE_REVOKED = 44
SSL3_AD_CERTIFICATE_EXPIRED = 45
SSL3_AD_CERTIFICATE_UNKNOWN = 46
SSL3_AD_ILLEGAL_PARAMETER = 47 # fatal
# TLS1 alert descriptions
TLS1_AD_DECRYPTION_FAILED = 21
TLS1_AD_RECORD_OVERFLOW = 22
TLS1_AD_UNKNOWN_CA = 48 # fatal
TLS1_AD_ACCESS_DENIED = 49 # fatal
TLS1_AD_DECODE_ERROR = 50 # fatal
TLS1_AD_DECRYPT_ERROR = 51
TLS1_AD_EXPORT_RESTRICTION = 60 # fatal
TLS1_AD_PROTOCOL_VERSION = 70 # fatal
TLS1_AD_INSUFFICIENT_SECURITY = 71 # fatal
TLS1_AD_INTERNAL_ERROR = 80 # fatal
TLS1_AD_USER_CANCELLED = 90
TLS1_AD_NO_RENEGOTIATION = 100
#/* codes 110-114 are from RFC3546 */
TLS1_AD_UNSUPPORTED_EXTENSION = 110
TLS1_AD_CERTIFICATE_UNOBTAINABLE = 111
TLS1_AD_UNRECOGNIZED_NAME = 112
TLS1_AD_BAD_CERTIFICATE_STATUS_RESPONSE = 113
TLS1_AD_BAD_CERTIFICATE_HASH_VALUE = 114
TLS1_AD_UNKNOWN_PSK_IDENTITY = 115 # fatal
# Mapping alert types to strings
alert_description_str = {
SSL3_AD_CLOSE_NOTIFY: 'SSL3_AD_CLOSE_NOTIFY',
SSL3_AD_UNEXPECTED_MESSAGE: 'SSL3_AD_UNEXPECTED_MESSAGE',
SSL3_AD_BAD_RECORD_MAC: 'SSL3_AD_BAD_RECORD_MAC',
SSL3_AD_DECOMPRESSION_FAILURE: 'SSL3_AD_DECOMPRESSION_FAILURE',
SSL3_AD_HANDSHAKE_FAILURE: 'SSL3_AD_HANDSHAKE_FAILURE',
SSL3_AD_NO_CERTIFICATE: 'SSL3_AD_NO_CERTIFICATE',
SSL3_AD_BAD_CERTIFICATE: 'SSL3_AD_BAD_CERTIFICATE',
SSL3_AD_UNSUPPORTED_CERTIFICATE: 'SSL3_AD_UNSUPPORTED_CERTIFICATE',
SSL3_AD_CERTIFICATE_REVOKED: 'SSL3_AD_CERTIFICATE_REVOKED',
SSL3_AD_CERTIFICATE_EXPIRED: 'SSL3_AD_CERTIFICATE_EXPIRED',
SSL3_AD_CERTIFICATE_UNKNOWN: 'SSL3_AD_CERTIFICATE_UNKNOWN',
SSL3_AD_ILLEGAL_PARAMETER: 'SSL3_AD_ILLEGAL_PARAMETER',
TLS1_AD_DECRYPTION_FAILED: 'TLS1_AD_DECRYPTION_FAILED',
TLS1_AD_RECORD_OVERFLOW: 'TLS1_AD_RECORD_OVERFLOW',
TLS1_AD_UNKNOWN_CA: 'TLS1_AD_UNKNOWN_CA',
TLS1_AD_ACCESS_DENIED: 'TLS1_AD_ACCESS_DENIED',
TLS1_AD_DECODE_ERROR: 'TLS1_AD_DECODE_ERROR',
TLS1_AD_DECRYPT_ERROR: 'TLS1_AD_DECRYPT_ERROR',
TLS1_AD_EXPORT_RESTRICTION: 'TLS1_AD_EXPORT_RESTRICTION',
TLS1_AD_PROTOCOL_VERSION: 'TLS1_AD_PROTOCOL_VERSION',
TLS1_AD_INSUFFICIENT_SECURITY: 'TLS1_AD_INSUFFICIENT_SECURITY',
TLS1_AD_INTERNAL_ERROR: 'TLS1_AD_INTERNAL_ERROR',
TLS1_AD_USER_CANCELLED: 'TLS1_AD_USER_CANCELLED',
TLS1_AD_NO_RENEGOTIATION: 'TLS1_AD_NO_RENEGOTIATION',
TLS1_AD_UNSUPPORTED_EXTENSION: 'TLS1_AD_UNSUPPORTED_EXTENSION',
TLS1_AD_CERTIFICATE_UNOBTAINABLE: 'TLS1_AD_CERTIFICATE_UNOBTAINABLE',
TLS1_AD_UNRECOGNIZED_NAME: 'TLS1_AD_UNRECOGNIZED_NAME',
TLS1_AD_BAD_CERTIFICATE_STATUS_RESPONSE: 'TLS1_AD_BAD_CERTIFICATE_STATUS_RESPONSE',
TLS1_AD_BAD_CERTIFICATE_HASH_VALUE: 'TLS1_AD_BAD_CERTIFICATE_HASH_VALUE',
TLS1_AD_UNKNOWN_PSK_IDENTITY: 'TLS1_AD_UNKNOWN_PSK_IDENTITY'
}
# struct format strings for parsing buffer lengths
# don't forget, you have to pad a 3-byte value with \x00
_SIZE_FORMATS = ['!B', '!H', '!I', '!I']
def parse_variable_array(buf, lenbytes):
"""
Parse an array described using the 'Type name<x..y>' syntax from the spec
Read a length at the start of buf, and returns that many bytes
after, in a tuple with the TOTAL bytes consumed (including the size). This
does not check that the array is the right length for any given datatype.
"""
# first have to figure out how to parse length
assert lenbytes <= 4 # pretty sure 4 is impossible, too
size_format = _SIZE_FORMATS[lenbytes - 1]
padding = '\x00' if lenbytes == 3 else ''
# read off the length
size = struct.unpack(size_format, padding + buf[:lenbytes])[0]
# read the actual data
data = buf[lenbytes:lenbytes + size]
# if len(data) != size: insufficient data
return data, size + lenbytes
class SSL3Exception(Exception):
pass
class TLSRecord(dpkt.Packet):
"""
SSLv3 or TLSv1+ packet.
In addition to the fields specified in the header, there are
compressed and decrypted fields, indicating whether, in the language
of the spec, this is a TLSPlaintext, TLSCompressed, or
TLSCiphertext. The application will have to figure out when it's
appropriate to change these values.
"""
__hdr__ = (
('type', 'B', 0),
('version', 'H', 0),
('length', 'H', 0),
)
def __init__(self, *args, **kwargs):
# assume plaintext unless specified otherwise in arguments
self.compressed = kwargs.pop('compressed', False)
self.encrypted = kwargs.pop('encrypted', False)
# parent constructor
dpkt.Packet.__init__(self, *args, **kwargs)
# make sure length and data are consistent
self.length = len(self.data)
def unpack(self, buf):
dpkt.Packet.unpack(self, buf)
header_length = self.__hdr_len__
self.data = buf[header_length:header_length+self.length]
# make sure buffer was long enough
if len(self.data) != self.length:
raise dpkt.NeedData('TLSRecord data was too short.')
# assume compressed and encrypted when it's been parsed from
# raw data
self.compressed = True
self.encrypted = True
class TLSChangeCipherSpec(dpkt.Packet):
"""
ChangeCipherSpec message is just a single byte with value 1
"""
__hdr__ = (('type', 'B', 1),)
class TLSAppData(str):
"""
As far as TLSRecord is concerned, AppData is just an opaque blob.
"""
pass
class TLSAlert(dpkt.Packet):
__hdr__ = (
('level', 'B', 1),
('description', 'B', 0),
)
class TLSHelloRequest(dpkt.Packet):
__hdr__ = tuple()
class TLSClientHello(dpkt.Packet):
__hdr__ = (
('version', 'H', 0x0301),
('random', '32s', '\x00'*32),
) # the rest is variable-length and has to be done manually
def unpack(self, buf):
dpkt.Packet.unpack(self, buf)
# now session, cipher suites, extensions are in self.data
self.session_id, pointer = parse_variable_array(self.data, 1)
# print 'pointer',pointer
# handle ciphersuites
ciphersuites, parsed = parse_variable_array(self.data[pointer:], 2)
pointer += parsed
self.num_ciphersuites = len(ciphersuites) / 2
# check len(ciphersuites) % 2 == 0 ?
# compression methods
compression_methods, parsed = parse_variable_array(
self.data[pointer:], 1)
pointer += parsed
self.num_compression_methods = parsed - 1
self.compression_methods = map(ord, compression_methods)
# extensions
class TLSServerHello(dpkt.Packet):
__hdr__ = (
('version', 'H', '0x0301'),
('random', '32s', '\x00'*32),
) # session is variable, forcing rest to be manual
def unpack(self, buf):
try:
dpkt.Packet.unpack(self, buf)
self.session_id, pointer = parse_variable_array(self.data, 1)
# single cipher suite
self.cipher_suite = struct.unpack('!H', self.data[pointer:pointer+2])[0]
pointer += 2
# single compression method
self.compression = struct.unpack('!B', self.data[pointer:pointer+1])[0]
pointer += 1
# ignore extensions for now
except struct.error:
# probably data too short
raise dpkt.NeedData
class TLSUnknownHandshake(dpkt.Packet):
__hdr__ = tuple()
TLSCertificate = TLSUnknownHandshake
TLSServerKeyExchange = TLSUnknownHandshake
TLSCertificateRequest = TLSUnknownHandshake
TLSServerHelloDone = TLSUnknownHandshake
TLSCertificateVerify = TLSUnknownHandshake
TLSClientKeyExchange = TLSUnknownHandshake
TLSFinished = TLSUnknownHandshake
# mapping of handshake type ids to their names
# and the classes that implement them
HANDSHAKE_TYPES = {
0: ('HelloRequest', TLSHelloRequest),
1: ('ClientHello', TLSClientHello),
2: ('ServerHello', TLSServerHello),
11: ('Certificate', TLSCertificate),
12: ('ServerKeyExchange', TLSServerKeyExchange),
13: ('CertificateRequest', TLSCertificateRequest),
14: ('ServerHelloDone', TLSServerHelloDone),
15: ('CertificateVerify', TLSCertificateVerify),
16: ('ClientKeyExchange', TLSClientKeyExchange),
20: ('Finished', TLSFinished),
}
class TLSHandshake(dpkt.Packet):
'''
A TLS Handshake message
This goes for all messages encapsulated in the Record layer, but especially
important for handshakes and app data: A message may be spread across a
number of TLSRecords, in addition to the possibility of there being more
than one in a given Record. You have to put together the contents of
TLSRecord's yourself.
'''
# struct.unpack can't handle the 3-byte int, so we parse it as bytes
# (and store it as bytes so dpkt doesn't get confused), and turn it into
# an int in a user-facing property
__hdr__ = (
('type', 'B', 0),
('length_bytes', '3s', 0),
)
def unpack(self, buf):
dpkt.Packet.unpack(self, buf)
# Wait, might there be more than one message of self.type?
embedded_type = HANDSHAKE_TYPES.get(self.type, None)
if embedded_type is None:
raise SSL3Exception('Unknown or invalid handshake type %d' %
self.type)
# only take the right number of bytes
self.data = self.data[:self.length]
if len(self.data) != self.length:
raise dpkt.NeedData
# get class out of embedded_type tuple
self.data = embedded_type[1](self.data)
@property
def length(self):
return struct.unpack('!I', '\x00' + self.length_bytes)[0]
RECORD_TYPES = {
20: TLSChangeCipherSpec,
21: TLSAlert,
22: TLSHandshake,
23: TLSAppData,
}
class SSLFactory(object):
def __new__(cls, buf):
v = buf[1:3]
if v in [ '\x03\x00', '\x03\x01', '\x03\x02' ]:
return SSL3(buf)
# SSL2 has no characteristic header or magic bytes, so we just assume
# that the msg is an SSL2 msg if it is not detected as SSL3+
return SSL2(buf)
def TLSMultiFactory(buf):
'''
Attempt to parse one or more TLSRecord's out of buf
Args:
buf: string containing SSL/TLS messages. May have an incomplete record
on the end
Returns:
[TLSRecord]
int, total bytes consumed, != len(buf) if an incomplete record was left at
the end.
Raises SSL3Exception.
'''
i, n = 0, len(buf)
msgs = []
while i < n:
v = buf[i+1:i+3]
if v in SSL3_VERSION_BYTES:
try:
msg = TLSRecord(buf[i:])
msgs.append(msg)
except dpkt.NeedData:
break
else:
raise SSL3Exception('Bad TLS version in buf: %r' % buf[i:i+5])
i += len(msg)
return msgs, i
import unittest
_hexdecode = binascii.a2b_hex
class TLSRecordTest(unittest.TestCase):
"""
Test basic TLSRecord functionality
For this test, the contents of the record doesn't matter, since we're not
parsing the next layer.
"""
def setUp(self):
# add some extra data, to make sure length is parsed correctly
self.p = TLSRecord('\x17\x03\x01\x00\x08abcdefghzzzzzzzzzzz')
def testContentType(self):
self.assertEqual(self.p.type, 23)
def testVersion(self):
self.assertEqual(self.p.version, 0x0301)
def testLength(self):
self.assertEqual(self.p.length, 8)
def testData(self):
self.assertEqual(self.p.data, 'abcdefgh')
def testInitialFlags(self):
self.assertTrue(self.p.compressed)
self.assertTrue(self.p.encrypted)
def testRepack(self):
p2 = TLSRecord(type=23, version=0x0301, data='abcdefgh')
self.assertEqual(p2.type, 23)
self.assertEqual(p2.version, 0x0301)
self.assertEqual(p2.length, 8)
self.assertEqual(p2.data, 'abcdefgh')
self.assertEqual(p2.pack(), self.p.pack())
def testTotalLength(self):
# that len(p) includes header
self.assertEqual(len(self.p), 13)
def testRaisesNeedDataWhenBufIsShort(self):
self.assertRaises(
dpkt.NeedData,
TLSRecord,
'\x16\x03\x01\x00\x10abc')
class TLSChangeCipherSpecTest(unittest.TestCase):
"It's just a byte. This will be quick, I promise"
def setUp(self):
self.p = TLSChangeCipherSpec('\x01')
def testParses(self):
self.assertEqual(self.p.type, 1)
def testTotalLength(self):
self.assertEqual(len(self.p), 1)
class TLSAppDataTest(unittest.TestCase):
"AppData is basically just a string"
def testValue(self):
d = TLSAppData('abcdefgh')
self.assertEqual(d, 'abcdefgh')
class TLSHandshakeTest(unittest.TestCase):
def setUp(self):
self.h = TLSHandshake('\x00\x00\x00\x01\xff')
def testCreatedInsideMessage(self):
self.assertTrue(isinstance(self.h.data, TLSHelloRequest))
def testLength(self):
self.assertEqual(self.h.length, 0x01)
def testRaisesNeedData(self):
self.assertRaises(dpkt.NeedData, TLSHandshake, '\x00\x00\x01\x01')
class ClientHelloTest(unittest.TestCase):
'This data is extracted from and verified by Wireshark'
def setUp(self):
self.data = _hexdecode(
"01000199" # handshake header
"0301" # version
"5008220ce5e0e78b6891afe204498c9363feffbe03235a2d9e05b7d990eb708d" # rand
"2009bc0192e008e6fa8fe47998fca91311ba30ddde14a9587dc674b11c3d3e5ed1" # session id
# cipher suites
"005400ffc00ac0140088008700390038c00fc00500840035c007c009c011c0130045004400330032c00cc00ec002c0040096004100050004002fc008c01200160013c00dc003feff000ac006c010c00bc00100020001"
"0100" # compresssion methods
# extensions
"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"
"FFFFFFFFFFFFFFFF") # random garbage
self.p = TLSHandshake(self.data)
def testClientHelloConstructed(self):
'Make sure the correct class was constructed'
#print self.p
self.assertTrue(isinstance(self.p.data, TLSClientHello))
# def testClientDateCorrect(self):
# self.assertEqual(self.p.random_unixtime, 1342710284)
def testClientRandomCorrect(self):
self.assertEqual(self.p.data.random,
_hexdecode('5008220ce5e0e78b6891afe204498c9363feffbe03235a2d9e05b7d990eb708d'))
def testCipherSuiteLength(self):
# we won't bother testing the identity of each cipher suite in the list.
self.assertEqual(self.p.data.num_ciphersuites, 42)
#self.assertEqual(len(self.p.ciphersuites), 42)
def testSessionId(self):
self.assertEqual(self.p.data.session_id,
_hexdecode('09bc0192e008e6fa8fe47998fca91311ba30ddde14a9587dc674b11c3d3e5ed1'))
def testCompressionMethods(self):
self.assertEqual(self.p.data.num_compression_methods, 1)
def testTotalLength(self):
self.assertEqual(len(self.p), 413)
class ServerHelloTest(unittest.TestCase):
'Again, from Wireshark'
def setUp(self):
self.data = _hexdecode('0200004d03015008220c8ec43c5462315a7c99f5d5b6bff009ad285b51dc18485f352e9fdecd2009bc0192e008e6fa8fe47998fca91311ba30ddde14a9587dc674b11c3d3e5ed10002000005ff01000100')
self.p = TLSHandshake(self.data)
def testConstructed(self):
self.assertTrue(isinstance(self.p.data, TLSServerHello))
# def testDateCorrect(self):
# self.assertEqual(self.p.random_unixtime, 1342710284)
def testRandomCorrect(self):
self.assertEqual(self.p.data.random,
_hexdecode('5008220c8ec43c5462315a7c99f5d5b6bff009ad285b51dc18485f352e9fdecd'))
def testCipherSuite(self):
self.assertEqual(
ssl_ciphersuites.BY_CODE[self.p.data.cipher_suite].name,
'TLS_RSA_WITH_NULL_SHA')
def testTotalLength(self):
self.assertEqual(len(self.p), 81)
class TLSMultiFactoryTest(unittest.TestCase):
"Made up test data"
def setUp(self):
self.data = _hexdecode('1703010010' # header 1
'AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA' # data 1
'1703010010' # header 2
'BBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBB' # data 2
'1703010010' # header 3
'CCCCCCCC') # data 3 (incomplete)
self.msgs, self.bytes_parsed = TLSMultiFactory(self.data)
def testNumMessages(self):
# only complete messages should be parsed, incomplete ones left
# in buffer
self.assertEqual(len(self.msgs), 2)
def testBytesParsed(self):
self.assertEqual(self.bytes_parsed, (5 + 16) * 2)
def testFirstMsgData(self):
self.assertEqual(self.msgs[0].data, _hexdecode('AA' * 16))
def testSecondMsgData(self):
self.assertEqual(self.msgs[1].data, _hexdecode('BB' * 16))
if __name__ == '__main__':
unittest.main()
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