/usr/lib/python2.7/dist-packages/impacket/krb5/ccache.py is in python-impacket 0.9.15-1.
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#
# This software is provided under under a slightly modified version
# of the Apache Software License. See the accompanying LICENSE file
# for more information.
#
# Author: Alberto Solino (@agsolino)
#
# Description:
# Kerberos Credential Cache format implementation
# based on file format described at:
# http://repo.or.cz/w/krb5dissect.git/blob_plain/HEAD:/ccache.txt
# Pretty lame and quick implementation, not a fun thing to do
# Contribution is welcome to make it the right way
#
from datetime import datetime
from struct import pack, unpack, calcsize
from pyasn1.codec.der import decoder, encoder
from binascii import hexlify
from impacket.structure import Structure
from impacket.krb5 import crypto, constants, types
from impacket.krb5.asn1 import AS_REP, seq_set, TGS_REP, EncTGSRepPart, EncASRepPart, Ticket
DELTA_TIME = 1
class Header(Structure):
structure = (
('tag','!H=0'),
('taglen','!H=0'),
('_tagdata','_-tagdata','self["taglen"]'),
('tagdata',':'),
)
class DeltaTime(Structure):
structure = (
('time_offset','!L=0'),
('usec_offset','!L=0'),
)
class CountedOctetString(Structure):
structure = (
('length','!L=0'),
('_data','_-data','self["length"]'),
('data',':'),
)
def prettyPrint(self, indent=''):
return "%s%s" % (indent, hexlify(self['data']))
class KeyBlock(Structure):
structure = (
('keytype','!H=0'),
('etype','!H=0'),
('keylen','!H=0'),
('_keyvalue','_-keyvalue','self["keylen"]'),
('keyvalue',':'),
)
def prettyPrint(self):
return "Key: (0x%x)%s" % (self['keytype'], hexlify(self['keyvalue']))
class Times(Structure):
structure = (
('authtime','!L=0'),
('starttime','!L=0'),
('endtime','!L=0'),
('renew_till','!L=0'),
)
def prettyPrint(self, indent = ''):
print "%sAuth : %s" % (indent, datetime.fromtimestamp(self['authtime']).isoformat())
print "%sStart: %s" % (indent, datetime.fromtimestamp(self['starttime']).isoformat())
print "%sEnd : %s" % (indent, datetime.fromtimestamp(self['endtime']).isoformat())
print "%sRenew: %s" % (indent, datetime.fromtimestamp(self['renew_till']).isoformat())
class Address(Structure):
structure = (
('addrtype','!H=0'),
('addrdata',':', CountedOctetString),
)
class AuthData(Structure):
structure = (
('authtype','!H=0'),
('authdata',':', CountedOctetString),
)
class Principal:
class PrincipalHeader(Structure):
structure = (
('name_type','!L=0'),
('num_components','!L=0'),
)
def __init__(self, data=None):
self.components = []
self.realm = None
if data is not None:
self.header = self.PrincipalHeader(data)
data = data[len(self.header):]
self.realm = CountedOctetString(data)
data = data[len(self.realm):]
self.components = []
for component in range(self.header['num_components']):
comp = CountedOctetString(data)
data = data[len(comp):]
self.components.append(comp)
else:
self.header = self.PrincipalHeader()
def __len__(self):
totalLen = len(self.header) + len(self.realm)
for i in self.components:
totalLen += len(i)
return totalLen
def getData(self):
data = self.header.getData() + self.realm.getData()
for component in self.components:
data += component.getData()
return data
def __str__(self):
return self.getData()
def prettyPrint(self):
principal = ''
for component in self.components:
principal += component['data'] + '/'
principal = principal[:-1]
principal += '@' + self.realm['data']
return principal
def fromPrincipal(self, principal):
self.header['name_type'] = principal.type
self.header['num_components'] = len(principal.components)
octetString = CountedOctetString()
octetString['length'] = len(principal.realm)
octetString['data'] = principal.realm
self.realm = octetString
self.components = []
for c in principal.components:
octetString = CountedOctetString()
octetString['length'] = len(c)
octetString['data'] = c
self.components.append(octetString)
def toPrincipal(self):
return types.Principal(self.prettyPrint(), type=self.header['name_type'])
class Credential:
class CredentialHeader(Structure):
structure = (
('client',':', Principal),
('server',':', Principal),
('key',':', KeyBlock),
('time',':', Times),
('is_skey','B=0'),
('tktflags','!L=0'),
('num_address','!L=0'),
)
def __init__(self, data=None):
self.addresses = ()
self.authData = ()
self.header = None
self.ticket = None
self.secondTicket = None
if data is not None:
self.header = self.CredentialHeader(data)
data = data[len(self.header):]
self.addresses = []
for address in range(self.header['num_address']):
ad = Address(data)
data = data[len(ad):]
self.addresses.append(ad)
num_authdata = unpack('!L', data[:4])[0]
data = data[calcsize('!L'):]
for authdata in range(num_authdata):
ad = AuthData(data)
data = data[len(ad):]
self.authData.append(ad)
self.ticket = CountedOctetString(data)
data = data[len(self.ticket):]
self.secondTicket = CountedOctetString(data)
data = data[len( self.secondTicket):]
else:
self.header = self.CredentialHeader()
def __getitem__(self, key):
return self.header[key]
def __setitem__(self, item, value):
self.header[item] = value
def getServerPrincipal(self):
return self.header['server'].prettyPrint()
def __len__(self):
totalLen = len(self.header)
for i in self.addresses:
totalLen += len(i)
totalLen += calcsize('!L')
for i in self.authData:
totalLen += len(i)
totalLen += len(self.ticket)
totalLen += len(self.secondTicket)
return totalLen
def dump(self):
self.header.dump()
def getData(self):
data = self.header.getData()
for i in self.addresses:
data += i.getData()
data += pack('!L', len(self.authData))
for i in self.authData:
data += i.getData()
data += self.ticket.getData()
data += self.secondTicket.getData()
return data
def __str__(self):
return self.getData()
def prettyPrint(self, indent=''):
print "%sClient: %s" % (indent, self.header['client'].prettyPrint())
print "%sServer: %s" % (indent, self.header['server'].prettyPrint())
print "%s%s" % (indent, self.header['key'].prettyPrint())
print "%sTimes: " % indent
self.header['time'].prettyPrint('\t\t')
print "%sSubKey: %s" % (indent, self.header['is_skey'])
print "%sFlags: 0x%x" % (indent, self.header['tktflags'])
print "%sAddresses: %d" % (indent, self.header['num_address'])
for address in self.addresses:
address.prettyPrint('\t\t')
print "%sAuth Data: %d" % (indent, len(self.authData))
for ad in self.authData:
ad.prettyPrint('\t\t')
print "%sTicket: %s" % (indent, self.ticket.prettyPrint())
print "%sSecond Ticket: %s" % (indent, self.secondTicket.prettyPrint())
def toTGT(self):
tgt_rep = AS_REP()
tgt_rep['pvno'] = 5
tgt_rep['msg-type'] = int(constants.ApplicationTagNumbers.AP_REP.value)
tgt_rep['crealm'] = self['server'].realm['data']
# Fake EncryptedData
tgt_rep['enc-part'] = None
tgt_rep['enc-part']['etype'] = 1
tgt_rep['enc-part']['cipher'] = ''
seq_set(tgt_rep, 'cname', self['client'].toPrincipal().components_to_asn1)
ticket = types.Ticket()
ticket.from_asn1(self.ticket['data'])
seq_set(tgt_rep,'ticket', ticket.to_asn1)
cipher = crypto._enctype_table[self['key']['keytype']]()
tgt = dict()
tgt['KDC_REP'] = encoder.encode(tgt_rep)
tgt['cipher'] = cipher
tgt['sessionKey'] = crypto.Key(cipher.enctype, str(self['key']['keyvalue']))
return tgt
def toTGS(self):
tgs_rep = TGS_REP()
tgs_rep['pvno'] = 5
tgs_rep['msg-type'] = int(constants.ApplicationTagNumbers.TGS_REP.value)
tgs_rep['crealm'] = self['server'].realm['data']
# Fake EncryptedData
tgs_rep['enc-part'] = None
tgs_rep['enc-part']['etype'] = 1
tgs_rep['enc-part']['cipher'] = ''
seq_set(tgs_rep, 'cname', self['client'].toPrincipal().components_to_asn1)
ticket = types.Ticket()
ticket.from_asn1(self.ticket['data'])
seq_set(tgs_rep,'ticket', ticket.to_asn1)
cipher = crypto._enctype_table[self['key']['keytype']]()
tgs = dict()
tgs['KDC_REP'] = encoder.encode(tgs_rep)
tgs['cipher'] = cipher
tgs['sessionKey'] = crypto.Key(cipher.enctype, str(self['key']['keyvalue']))
return tgs
class CCache:
class MiniHeader(Structure):
structure = (
('file_format_version','!H=0x0504'),
('headerlen','!H=12'),
)
def __init__(self, data = None):
self.headers = None
self.principal = None
self.credentials = []
self.miniHeader = None
if data is not None:
miniHeader = self.MiniHeader(data)
data = data[len(str(miniHeader)):]
headerLen = miniHeader['headerlen']
self.headers = []
while headerLen > 0:
header = Header(data)
self.headers.append(header)
headerLen -= len(header)
data = data[len(header):]
# Now the primary_principal
self.principal = Principal(data)
data = data[len(self.principal):]
# Now let's parse the credentials
self.credentials = []
while len(data) > 0:
cred = Credential(data)
self.credentials.append(cred)
data = data[len(cred.getData()):]
def getData(self):
data = self.MiniHeader().getData()
for header in self.headers:
data += header.getData()
data += self.principal.getData()
for credential in self.credentials:
data += credential.getData()
return data
def getCredential(self, server):
for c in self.credentials:
if c['server'].prettyPrint().upper() == server.upper():
return c
return None
def toTimeStamp(self, dt, epoch=datetime(1970,1,1)):
td = dt - epoch
# return td.total_seconds()
return (td.microseconds + (td.seconds + td.days * 24 * 3600) * 10**6) / 1e6
def reverseFlags(self, flags):
result = 0
if isinstance(flags, str):
flags = flags[1:-2]
for i,j in enumerate(reversed(flags)):
if j != 0:
result += j << i
return result
def fromTGT(self, tgt, oldSessionKey, sessionKey):
self.headers = []
header = Header()
header['tag'] = 1
header['taglen'] = 8
header['tagdata'] = '\xff\xff\xff\xff\x00\x00\x00\x00'
self.headers.append(header)
decodedTGT = decoder.decode(tgt, asn1Spec = AS_REP())[0]
tmpPrincipal = types.Principal()
tmpPrincipal.from_asn1(decodedTGT, 'crealm', 'cname')
self.principal = Principal()
self.principal.fromPrincipal(tmpPrincipal)
# Now let's add the credential
cipherText = decodedTGT['enc-part']['cipher']
cipher = crypto._enctype_table[decodedTGT['enc-part']['etype']]
# Key Usage 3
# AS-REP encrypted part (includes TGS session key or
# application session key), encrypted with the client key
# (Section 5.4.2)
plainText = cipher.decrypt(oldSessionKey, 3, str(cipherText))
encASRepPart = decoder.decode(plainText, asn1Spec = EncASRepPart())[0]
credential = Credential()
server = types.Principal()
server.from_asn1(encASRepPart, 'srealm', 'sname')
tmpServer = Principal()
tmpServer.fromPrincipal(server)
credential['client'] = self.principal
credential['server'] = tmpServer
credential['is_skey'] = 0
credential['key'] = KeyBlock()
credential['key']['keytype'] = int(encASRepPart['key']['keytype'])
credential['key']['keyvalue'] = str(encASRepPart['key']['keyvalue'])
credential['key']['keylen'] = len(credential['key']['keyvalue'])
credential['time'] = Times()
credential['time']['authtime'] = self.toTimeStamp(types.KerberosTime.from_asn1(encASRepPart['authtime']))
credential['time']['starttime'] = self.toTimeStamp(types.KerberosTime.from_asn1(encASRepPart['starttime']))
credential['time']['endtime'] = self.toTimeStamp(types.KerberosTime.from_asn1(encASRepPart['endtime']))
credential['time']['renew_till'] = self.toTimeStamp(types.KerberosTime.from_asn1(encASRepPart['renew-till']))
flags = self.reverseFlags(encASRepPart['flags'])
credential['tktflags'] = flags
credential['num_address'] = 0
credential.ticket = CountedOctetString()
credential.ticket['data'] = encoder.encode(decodedTGT['ticket'].clone(tagSet=Ticket.tagSet, cloneValueFlag=True))
credential.ticket['length'] = len(credential.ticket['data'])
credential.secondTicket = CountedOctetString()
credential.secondTicket['data'] = ''
credential.secondTicket['length'] = 0
self.credentials.append(credential)
def fromTGS(self, tgs, oldSessionKey, sessionKey):
self.headers = []
header = Header()
header['tag'] = 1
header['taglen'] = 8
header['tagdata'] = '\xff\xff\xff\xff\x00\x00\x00\x00'
self.headers.append(header)
decodedTGS = decoder.decode(tgs, asn1Spec = TGS_REP())[0]
tmpPrincipal = types.Principal()
tmpPrincipal.from_asn1(decodedTGS, 'crealm', 'cname')
self.principal = Principal()
self.principal.fromPrincipal(tmpPrincipal)
# Now let's add the credential
cipherText = decodedTGS['enc-part']['cipher']
cipher = crypto._enctype_table[decodedTGS['enc-part']['etype']]
# Key Usage 8
# TGS-REP encrypted part (includes application session
# key), encrypted with the TGS session key (Section 5.4.2)
plainText = cipher.decrypt(oldSessionKey, 8, str(cipherText))
encTGSRepPart = decoder.decode(plainText, asn1Spec = EncTGSRepPart())[0]
credential = Credential()
server = types.Principal()
server.from_asn1(encTGSRepPart, 'srealm', 'sname')
tmpServer = Principal()
tmpServer.fromPrincipal(server)
credential['client'] = self.principal
credential['server'] = tmpServer
credential['is_skey'] = 0
credential['key'] = KeyBlock()
credential['key']['keytype'] = int(encTGSRepPart['key']['keytype'])
credential['key']['keyvalue'] = str(encTGSRepPart['key']['keyvalue'])
credential['key']['keylen'] = len(credential['key']['keyvalue'])
credential['time'] = Times()
credential['time']['authtime'] = self.toTimeStamp(types.KerberosTime.from_asn1(encTGSRepPart['authtime']))
credential['time']['starttime'] = self.toTimeStamp(types.KerberosTime.from_asn1(encTGSRepPart['starttime']))
credential['time']['endtime'] = self.toTimeStamp(types.KerberosTime.from_asn1(encTGSRepPart['endtime']))
credential['time']['renew_till'] = self.toTimeStamp(types.KerberosTime.from_asn1(encTGSRepPart['renew-till']))
flags = self.reverseFlags(encTGSRepPart['flags'])
credential['tktflags'] = flags
credential['num_address'] = 0
credential.ticket = CountedOctetString()
credential.ticket['data'] = encoder.encode(decodedTGS['ticket'].clone(tagSet=Ticket.tagSet, cloneValueFlag=True))
credential.ticket['length'] = len(credential.ticket['data'])
credential.secondTicket = CountedOctetString()
credential.secondTicket['data'] = ''
credential.secondTicket['length'] = 0
self.credentials.append(credential)
@classmethod
def loadFile(cls, fileName):
f = open(fileName,'rb')
data = f.read()
f.close()
return cls(data)
def saveFile(self, fileName):
f = open(fileName,'wb+')
f.write(self.getData())
f.close()
def prettyPrint(self):
print "Primary Principal: %s" % self.principal.prettyPrint()
print "Credentials: "
for i, credential in enumerate(self.credentials):
print "[%d]" % i
credential.prettyPrint('\t')
if __name__ == '__main__':
import os
ccache = CCache.loadFile(os.getenv('KRB5CCNAME'))
ccache.prettyPrint()
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