cyber-security-resources/exploit_development/mutiny_new.py

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2022-02-22 12:56:22 -05:00
#!/usr/bin/env python
#------------------------------------------------------------------
# November 2014, created within ASIG
# Author James Spadaro (jaspadar)
# Co-Author Lilith Wyatt (liwyatt)
#------------------------------------------------------------------
# Copyright (c) 2014-2017 by Cisco Systems, Inc.
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
# 3. Neither the name of the Cisco Systems, Inc. nor the
# names of its contributors may be used to endorse or promote products
# derived from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS "AS IS" AND ANY
# EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE FOR ANY
# DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
# ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#------------------------------------------------------------------
# Type definitions for the fuzzer
#
# This script defines the various message and data types used in
# the fuzzer, and utility functions used by them.
#------------------------------------------------------------------
class MessageSubComponent(object):
def __init__(self, message, isFuzzed):
self.message = message
self.isFuzzed = isFuzzed
# This includes both fuzzed messages and messages the user
# has altered with messageprocessor callbacks
self._altered = message
def setAlteredByteArray(self, byteArray):
self._altered = byteArray
def getAlteredByteArray(self):
return self._altered
def getOriginalByteArray(self):
return self.message
# Contains all data of a given packet of the session
class Message(object):
class Direction:
Outbound = "outbound"
Inbound = "inbound"
class Format:
CommaSeparatedHex = 0 # 00,01,02,20,2a,30,31
Ascii = 1 # asdf\x00\x01\x02
Raw = 2 # a raw byte array from a pcap
def __init__(self):
self.direction = -1
# Whether any subcomponent is fuzzed - might not be entire message
# Default to False, set to True as message subcomponents are set below
self.isFuzzed = False
# This will be populated with message subcomponents
# IE, specified as message 0 11,22,33
# 44,55,66
# Then 11,22,33 will be subcomponent 0, 44,55,66 will be subcomponent 1
# If it's a traditional message, it will only have one element (entire message)
self.subcomponents = []
def getOriginalSubcomponents(self):
return [subcomponent.message for subcomponent in self.subcomponents]
# May or may not have actually been changed
# Version of subcomponents that includes fuzzing and messageprocessor changes from user
# Is transient and reverted to original every iteration
def getAlteredSubcomponents(self):
return [subcomponent.getAlteredByteArray() for subcomponent in self.subcomponents]
def getOriginalMessage(self):
return bytearray().join([subcomponent.message for subcomponent in self.subcomponents])
# May or may not have actually been changed
# Version of message that includes fuzzing and messageprocessor changes from user
# Is transient and reverted to original every iteration
def getAlteredMessage(self):
return bytearray().join([subcomponent.getAlteredByteArray() for subcomponent in self.subcomponents])
def resetAlteredMessage(self):
for subcomponent in self.subcomponents:
subcomponent.setAlteredByteArray(subcomponent.message)
# Set the message on the Message
# sourceType - Format.CommaSeparatedHex, Ascii, or Raw
# message - Message in above format
# isFuzzed - whether this message should have its subcomponent
# flag isFuzzed set
def setMessageFrom(self, sourceType, message, isFuzzed):
if sourceType == self.Format.CommaSeparatedHex:
message = bytearray([x.decode("hex") for x in message.split(",")])
elif sourceType == self.Format.Ascii:
message = self.deserializeByteArray(message)
elif sourceType == self.Format.Raw:
message = message
else:
raise RuntimeError("Invalid sourceType")
self.subcomponents = [MessageSubComponent(message, isFuzzed)]
if isFuzzed:
self.isFuzzed = True
# Same arguments as above, but adds to .message as well as
# adding a new subcomponent
# createNewSubcomponent - If false, don't create another subcomponent,
# instead, append new message data to last subcomponent in message
def appendMessageFrom(self, sourceType, message, isFuzzed, createNewSubcomponent=True):
if sourceType == self.Format.CommaSeparatedHex:
newMessage = bytearray([x.decode("hex") for x in message.split(",")])
elif sourceType == self.Format.Ascii:
newMessage = self.deserializeByteArray(message)
elif sourceType == self.Format.Raw:
newMessage = message
else:
raise RuntimeError("Invalid sourceType")
if createNewSubcomponent:
self.subcomponents.append(MessageSubComponent(newMessage, isFuzzed))
else:
self.subcomponents[-1].message += newMessage
if isFuzzed:
# Make sure message is set to fuzz as well
self.isFuzzed = True
def isOutbound(self):
return self.direction == self.Direction.Outbound
def __eq__(self, other):
# bytearray (for message) implements __eq__()
return self.direction == other.direction and self.message == other.message
@classmethod
def serializeByteArray(cls, byteArray):
return repr(str(byteArray))
@classmethod
def deserializeByteArray(cls, string):
# This appears to properly reverse repr() without the risks of eval
return bytearray(string[1:-1].encode('utf8').decode('unicode-escape').encode('utf8'))
def getAlteredSerialized(self):
if len(self.subcomponents) < 1:
return "{0} {1}\n".format(self.direction, "ERROR: No data in message.")
else:
serializedMessage = "{0}{1} {2}\n".format("fuzz " if self.subcomponents[0].isFuzzed else "", self.direction, self.serializeByteArray(self.subcomponents[0].getAlteredByteArray()))
for subcomponent in self.subcomponents[1:]:
serializedMessage += "sub {0}{1}\n".format("fuzz " if subcomponent.isFuzzed else "", self.serializeByteArray(subcomponent.getAlteredByteArray()))
return serializedMessage
def getSerialized(self):
if len(self.subcomponents) < 1:
return "{0} {1}\n".format(self.direction, "ERROR: No data in message.")
else:
serializedMessage = "{0} {1}{2}\n".format(self.direction, "fuzz " if self.subcomponents[0].isFuzzed else "", self.serializeByteArray(self.subcomponents[0].message))
for subcomponent in self.subcomponents[1:]:
serializedMessage += "sub {0}{1}\n".format("fuzz " if subcomponent.isFuzzed else "", self.serializeByteArray(subcomponent.message))
return serializedMessage
# Utility function for setFromSerialized and appendFromSerialized below
def _extractMessageComponents(self, serializedData):
firstQuoteSingle = serializedData.find('\'')
lastQuoteSingle = serializedData.rfind('\'')
firstQuoteDouble = serializedData.find('"')
lastQuoteDouble = serializedData.rfind('"')
firstQuote = -1
lastQuote = -1
if firstQuoteSingle == -1 or firstQuoteSingle == lastQuoteSingle:
# If no valid single quotes, go double quote
firstQuote = firstQuoteDouble
lastQuote = lastQuoteDouble
elif firstQuoteDouble == -1 or firstQuoteDouble == lastQuoteDouble:
# If no valid double quotes, go single quote
firstQuote = firstQuoteSingle
lastQuote = lastQuoteSingle
elif firstQuoteSingle < firstQuoteDouble:
# If both are valid, go single if further out
firstQuote = firstQuoteSingle
lastQuote = lastQuoteSingle
else:
# Both are valid but double is further out
firstQuote = firstQuoteDouble
lastQuote = lastQuoteDouble
if firstQuote == -1 or lastQuote == -1 or firstQuote == lastQuote:
raise RuntimeError("Invalid message data, no message found")
# Pull out everything, quotes and all, and deserialize it
messageData = serializedData[firstQuote:lastQuote+1]
# Process the args
serializedData = serializedData[:firstQuote].split(" ")
return (serializedData, messageData)
# Handles _one line_ of data, either "inbound" or "outbound"
# Lines following this should be passed to appendFromSerialized() below
def setFromSerialized(self, serializedData):
serializedData = serializedData.replace("\n", "")
(serializedData, messageData) = self._extractMessageComponents(serializedData)
if len(messageData) == 0 or len(serializedData) < 1:
raise RuntimeError("Invalid message data")
direction = serializedData[0]
args = serializedData[1:-1]
if direction != "inbound" and direction != "outbound":
raise RuntimeError("Invalid message data, unknown direction {0}".format(direction))
isFuzzed = False
if "fuzz" in args:
isFuzzed = True
if len(serializedData) < 3:
raise RuntimeError("Invalid message data")
self.direction = direction
self.setMessageFrom(self.Format.Ascii, messageData, isFuzzed)
# Add another line, used for multiline messages
def appendFromSerialized(self, serializedData, createNewSubcomponent=True):
serializedData = serializedData.replace("\n", "")
(serializedData, messageData) = self._extractMessageComponents(serializedData)
if createNewSubcomponent:
if len(messageData) == 0 or len(serializedData) < 1 or serializedData[0] != "sub":
raise RuntimeError("Invalid message data")
else:
# If not creating a subcomponent, we won't have "sub", "fuzz", and the other fun stuff
if len(messageData) == 0:
raise RuntimeError("Invalid message data")
args = serializedData[1:-1]
# Put either "fuzz" or nothing before actual message
# Can tell the difference even with ascii because ascii messages have '' quotes
# IOW, even a message subcomponent 'fuzz' will have the 's around it, not be fuzz without quotes
isFuzzed = False
if "fuzz" in args:
isFuzzed = True
self.appendMessageFrom(self.Format.Ascii, messageData, isFuzzed, createNewSubcomponent=createNewSubcomponent)
class MessageCollection(object):
def __init__(self):
self.messages = []
def addMessage(self, message):
self.messages.append(message)
def doClientMessagesMatch(self, otherMessageCollection):
for i in range(0, len(self.messages)):
# Skip server messages
if not self.messages[i].isOutbound():
continue
try:
# Message implements __eq__()
if self.messages[i] != otherMessageCollection.messages[i]:
return False
except IndexError:
return False
# All messages passed
return True
import os
import os.path
from copy import deepcopy
# Handles all the logging of the fuzzing session
# Log messages can be found at sample_apps/<app>/<app>_logs/<date>/
class Logger(object):
def __init__(self, folderPath):
self._folderPath = folderPath
if os.path.exists(folderPath):
print("Data output directory already exists: %s" % (folderPath))
exit()
else:
try:
os.makedirs(folderPath)
except:
print("Unable to create logging directory: %s" % (folderPath))
exit()
self.resetForNewRun()
# Store just the data, forget trying to make a Message object
# With the subcomponents and everything, it just gets weird,
# and we don't need it
def setReceivedMessageData(self, messageNumber, data):
self.receivedMessageData[messageNumber] = data
def setHighestMessageNumber(self, messageNumber):
# The highest message # this fuzz session made it to
self._highestMessageNumber = messageNumber
def outputLastLog(self, runNumber, messageCollection, errorMessage):
return self._outputLog(runNumber, messageCollection, errorMessage, self._lastReceivedMessageData, self._lastHighestMessageNumber)
def outputLog(self, runNumber, messageCollection, errorMessage):
return self._outputLog(runNumber, messageCollection, errorMessage, self.receivedMessageData, self._highestMessageNumber)
def _outputLog(self, runNumber, messageCollection, errorMessage, receivedMessageData, highestMessageNumber):
with open(os.path.join(self._folderPath, str(runNumber)), "w") as outputFile:
print("Logging run number %d" % (runNumber))
outputFile.write("Log from run with seed %d\n" % (runNumber))
outputFile.write("Error message: %s\n" % (errorMessage))
if highestMessageNumber == -1 or runNumber == 0:
outputFile.write("Failed to connect on this run.\n")
outputFile.write("\n")
i = 0
for message in messageCollection.messages:
outputFile.write("Packet %d: %s" % (i, message.getSerialized()))
if message.isFuzzed:
outputFile.write("Fuzzed Packet %d: %s\n" % (i, message.getAlteredSerialized()))
if i in receivedMessageData:
# Compare what was actually sent to what we expected, log if they differ
if receivedMessageData[i] != message.getOriginalMessage():
outputFile.write("Actual data received for packet %d: %s" % (i, Message.serializeByteArray(receivedMessageData[i])))
else:
outputFile.write("Received expected data\n")
if highestMessageNumber == i:
if message.isOutbound():
outputFile.write("This is the last message sent\n")
else:
outputFile.write("This is the last message received\n")
outputFile.write("\n")
i += 1
def resetForNewRun(self):
try:
self._lastReceivedMessageData = deepcopy(self.receivedMessageData)
self._lastHighestMessageNumber = self._highestMessageNumber
except AttributeError:
self._lastReceivedMessageData = {}
self._lastHighestMessageNumber = -1
self.receivedMessageData = {}
self.setHighestMessageNumber(-1)