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Vanquish2.py
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Vanquish2.py
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Vanquish
# Root2Boot automation platform designed to systematically enumernate and exploit using the law of diminishing returns
# DONE: Automate DNS Name lookup NMap XML generation upon discovering a DNS server
# DONE: remove upfront_scan_hosts funciton and merge with enumerate function
# DONE: Import data into MSF database and generate pretty table reports of servers and ports
# DONE: Combine scanning and information gathering loops
# DONE: Create custom password word list from CEWL URL Findings, Users, domains, groups, ComputerName
# DONE: Installer script and setup
# TODO: Seclist directory enumeration orchestation / Seclist user enumeration / Seclist brute forcing
# TODO: Add some FILTERED port results back in if they prodivde enumeration value (MongoDB)
# TODO: Attack plans config associated with one or more Config files - simplify - only specify an attack plan and a target
# TODO: Load findings from files here for merging - dont overwrite user added findings...
# TODO: SMB Hydra is running twice - 139 and 445 - 445 is the only service that returns results - STOP hydra from running 139
# TODO: Pipe any SMB credentials found back into Enum4Linux
# TODO: Command to parse credential findings from Hydra and parse them into ../credentals.txt
# TODO: The findings list can also leverage a regular expression to extract a substring from each line of a findings file
# TODO: remove exploit search function and merge with enumerate function
# TODO: getting false positives from Nikto - Nmap0
# -0.Shell Shock Script against specific folder paths
# nmap 10.11.1.71 -p 80 \
# --script=http-shellshock \
# --script-args uri=/cgi-bin/test.cgi --script-args uri=/cgi-bin/admin.cgi
# TODO: Exploit Apache Mod CGI - cp /usr/share/exploitdb/platforms/linux/remote/34900.py ./Documents/EXploitz/Apache_Mod_CGI.py
# TODO: shell shock exploit curl -H 'User-Agent: () { :; }; echo "CVE-2014-6271 vulnerable" bash -c id' http://10.11.1.71/cgi-bin/admin.cgi
# TODO: Append the exact command that is used to the output text files for easy refernce in documentation
# TODO: Create a suggest only mode that dumps a list of commands to try rather than running anything
# TODO: Add color and -color -colour flags to disable it
# TODO: Finish exploitation dynamic replacements from user credentials list
# TODO: More to be done with HTTP enumeration and service identification / exploit searches
# TODO: Move HTTP_NMAP_WEB_SCAN
# TODO: Add config file findings replacers to run on findings after initial results to clean up data for further enumeration (ex. user credentials, and whatweb service findings)
# TODO: hash / bas64 finder / flag post process searching
# TODO: Nmap http enum - include? or is this redundant at this point?
# TODO: Add Metasploit style summary table with number of services, commands, phases etc.
# 1. NMAP Scan
# 2. Service Enumeration Scan
# 3. Finds relavant exploits and copies to a subfolder
# 3. Word list creation 1st pass
# Banner Grabx
# HTTP Enum
# TODO: Spider site
# TODO: HTTP Download all assets
# TODO: Image Scan - Meta / Steg / OCRd
# TODO: Grab screen shots of pages found
# Create Site Map txt file for all assets
# Create Wordlist version1
#
# 4. Service Enumeration with Word List
# 5. Bruteforcing with word list
# 6. Mutation of word list service enumeration
# 7. Bruteforcing with mutation
#
#
"""
Main application logic and automation functions
"""
from parser import ParserError
__version__ = '0.29'
__lastupdated__ = 'March 18, 2018'
__nmap_folder__ = 'Nmap'
__findings_label__ = 'findings'
__accounce_label__ = 'announce'
__password_list_label__ = 'passwordlist'
__urlshttp_list_label__ = 'urlshttp'
__urlshttps_list_label__ = 'urlshttps'
__findings_label_dynamic__ = 'Findings'
__findings_label_list_dynamic__ = 'FindingsList'
###
# Imports
###
import fnmatch
import os
import sys
import time
import re
import ConfigParser
import argparse
import random
import operator
from pprint import pformat
from pprint import pprint
from shutil import copyfile
import json
import xml.etree.ElementTree as ET
from multiprocessing.dummy import Pool as ThreadPool
from subprocess import Popen, PIPE, STDOUT
from datetime import datetime
# PROGRESS BAR - Thank you! clint.textui.progress
BAR_TEMPLATE = '%s[%s%s] %i/%i - %s\r'
DOTS_CHAR = '.'
BAR_FILLED_CHAR = '#'
BAR_EMPTY_CHAR = ' '
ETA_INTERVAL = 1
ETA_SMA_WINDOW = 9
STREAM = sys.stderr
class Bar(object):
def __enter__(self):
return self
def __exit__(self, exc_type, exc_val, exc_tb):
self.done()
return False # we're not suppressing exceptions
def __init__(self, label='', width=32, hide=None, empty_char=BAR_EMPTY_CHAR,
filled_char=BAR_FILLED_CHAR, expected_size=None, every=1):
self.label = label
self.width = width
self.hide = hide
# Only show bar in terminals by default (better for piping, logging etc.)
if hide is None:
try:
self.hide = not STREAM.isatty()
except AttributeError: # output does not support isatty()
self.hide = True
self.empty_char = empty_char
self.filled_char = filled_char
self.expected_size = expected_size
self.every = every
self.start = time.time()
self.ittimes = []
self.eta = 0
self.etadelta = time.time()
self.etadisp = self.format_time(self.eta)
self.last_progress = 0
if (self.expected_size):
self.show(0)
def show(self, progress, count=None):
if count is not None:
self.expected_size = count
if self.expected_size is None:
raise Exception("expected_size not initialized")
self.last_progress = progress
if (time.time() - self.etadelta) > ETA_INTERVAL:
self.etadelta = time.time()
self.ittimes = \
self.ittimes[-ETA_SMA_WINDOW:] + \
[-(self.start - time.time()) / (progress + 1)]
self.eta = \
sum(self.ittimes) / float(len(self.ittimes)) * \
(self.expected_size - progress)
self.etadisp = self.format_time(self.eta)
x = int(self.width * progress / self.expected_size)
if not self.hide:
if ((progress % self.every) == 0 or # True every "every" updates
(progress == self.expected_size)): # And when we're done
STREAM.write(BAR_TEMPLATE % (
self.label, self.filled_char * x,
self.empty_char * (self.width - x), progress,
self.expected_size, self.etadisp))
STREAM.flush()
def done(self):
self.elapsed = time.time() - self.start
elapsed_disp = self.format_time(self.elapsed)
if not self.hide:
# Print completed bar with elapsed time
STREAM.write(BAR_TEMPLATE % (
self.label, self.filled_char * self.width,
self.empty_char * 0, self.last_progress,
self.expected_size, elapsed_disp))
STREAM.write('\n')
STREAM.flush()
def format_time(self, seconds):
return time.strftime('%H:%M:%S', time.gmtime(seconds))
def bar(it, label='', width=32, hide=None, empty_char=BAR_EMPTY_CHAR,
filled_char=BAR_FILLED_CHAR, expected_size=8, every=1):
with Bar(label=label, width=width, hide=hide, empty_char=BAR_EMPTY_CHAR,
filled_char=BAR_FILLED_CHAR, expected_size=expected_size, every=every) \
as bar:
for i, item in enumerate(it):
yield item
bar.show(i + 1)
class Logger:
DEBUG = False
VERBOSE = False
DEBUG_FILE = None
VERBOSE_FILE = None
@staticmethod
def debug(msg):
if Logger.DEBUG_FILE is not None:
Logger.DEBUG_FILE.write(msg + '\n')
elif Logger.DEBUG == True:
print("[!] " + msg)
@staticmethod
def verbose(msg):
if Logger.VERBOSE_FILE is not None:
Logger.VERBOSE_FILE.write(msg + '\n')
elif Logger.VERBOSE == True:
print("[*] " + msg)
class Color:
ENABLE_COLOR = True
@staticmethod
def redback():
if Color.ENABLE_COLOR:
return "\033[0m\033[37m\033[41m"
else: return ""
@staticmethod
def black():
if Color.ENABLE_COLOR:
return '\033[0;30m'
else: return ""
@staticmethod
def red():
if Color.ENABLE_COLOR:
return '\033[0;31m'
else: return ""
@staticmethod
def green():
if Color.ENABLE_COLOR:
return '\033[0;32m'
else: return ""
@staticmethod
def yellow():
if Color.ENABLE_COLOR:
return '\033[0;33m'
else: return ""
@staticmethod
def blue():
if Color.ENABLE_COLOR:
return '\033[0;34m'
else: return ""
@staticmethod
def magenta():
if Color.ENABLE_COLOR:
return '\033[0;35m'
else: return ""
@staticmethod
def cyan():
if Color.ENABLE_COLOR:
return '\033[0;36m'
else: return ""
@staticmethod
def grey():
if Color.ENABLE_COLOR:
return '\033[0;37m'
else: return ""
@staticmethod
def white():
if Color.ENABLE_COLOR:
return '\033[0;38m'
else: return ""
@staticmethod
def reset():
if Color.ENABLE_COLOR:
return '\033[0;39m'
else: return ""
class Vanquish:
def __init__(self, argv):
self.banner()
print(Color.green()+"Vanquish Version: " + __version__ + " Updated: " + __lastupdated__ +Color.reset())
self.parser = argparse.ArgumentParser(
description='Vanquish is Kali Linux based Enumeration Orchestrator.')
self.parser.add_argument("-install", action='store_true',
help='Install Vanquish and it\'s requirements')
self.parser.add_argument("-outputFolder", metavar='folder', type=str, default="",
help='output folder path (default: name of the host file))')
self.parser.add_argument("-configFile", metavar='file', type=str, default="config.ini",
help='configuration ini file (default: %(default)s)')
self.parser.add_argument("-attackPlanFile", metavar='file', type=str, default="attackplan.ini",
help='attack plan ini file (default: %(default)s)')
self.parser.add_argument("-hostFile", metavar='file', type=argparse.FileType("r"), default="hosts.txt",
help='list of hosts to attack (default: %(default)s)')
self.parser.add_argument("-workspace", metavar='workspace', type=str, default="",
help='Metasploit workspace to import data into (default: is the host filename)')
self.parser.add_argument("-domain", metavar='domain', type=str, default="megacorpone.com",
help='Domain to be used in DNS enumeration (default: %(default)s)')
self.parser.add_argument("-dnsServer", metavar='dnsServer', type=str, default="",
help='DNS server option to use with Nmap DNS enumeration. Reveals the host names of'
' each server (default: %(default)s)')
self.parser.add_argument("-proxy", metavar='proxy', type=str, default="",
help='Proxy server option to use with scanning tools that support proxies. Should be '
' in the format of ip:port (default: %(default)s)')
self.parser.add_argument("-reportFile", metavar='report', type=str, default="report.txt",
help='filename used for the report (default: %(default)s)')
self.parser.add_argument("-noResume", action='store_true', help='do not resume a previous session')
self.parser.add_argument("-noColor", action='store_true', help='do not display color')
self.parser.add_argument("-threadPool", metavar='threads', type=int, default="8",
help='Thread Pool Size (default: %(default)s)')
self.parser.add_argument("-phase", metavar='phase', type=str, default='', help='only execute a specific phase')
self.parser.add_argument("-noExploitSearch", action='store_true', help='disable searchspolit exploit searching')
self.parser.add_argument("-benchmarking", action='store_true',
help='enable bench mark reporting on the execution time of commands(exports '
'to benchmark.csv)')
self.parser.add_argument("-logging", action='store_true', help='enable verbose and debug data logging to files')
self.parser.add_argument("-verbose", action='store_true', help='display verbose details during the scan')
self.parser.add_argument("-debug", action='store_true', help='display debug details during the scan')
self.args = self.parser.parse_args()
self.hosts = self.args.hostFile
# Installation Setup
if self.args.install:
self.args.configFile = "install.ini"
self.args.attackPlanFile = "installplan.ini"
# load config
self.config = ConfigParser.ConfigParser()
self.config.read(self.args.configFile)
Logger.VERBOSE = (self.config.getboolean("System", "Verbose") or self.args.verbose)
Logger.DEBUG = (self.config.getboolean("System", "Debug") or self.args.debug)
# Default output location
if self.args.outputFolder == "":
self.args.outputFolder = "." + os.path.sep + str(self.args.hostFile.name).split(".")[0]
# Nmap scan output folder
self.nmap_path = os.path.join(self.args.outputFolder, __nmap_folder__)
# Check folder for existing output and nmap folders
if not os.path.exists(self.args.outputFolder):
os.makedirs(self.args.outputFolder)
elif not self.args.noResume:
print Color.yellow()+"[*]"+Color.reset()+" Resuming previous session"
if not os.path.exists(self.nmap_path):
os.makedirs(self.nmap_path)
if self.args.noColor:
Color.ENABLE_COLOR = False;
# Metasploit workspace name - the workspace name is the name of the host file minus it's extension
if self.args.workspace == "":
self.workspace = str(self.args.hostFile.name).split(".")[0]
else:
self.workspace = self.args.workspace
# load attack plan
self.plan = ConfigParser.ConfigParser()
self.plan.read(self.args.attackPlanFile)
self.nmap_dns_server = ""
if self.args.dnsServer != "":
self.nmap_dns_server = " --dns-server "+self.args.dnsServer
self.proxy_server = ""
if self.args.proxy != "":
self.proxy_server = " --proxy "+self.args.proxy
# Master NMAP Data Structure Dict
self.nmap_dict = {}
# current enumeration phase command que
self.phase_commands = []
# announced vulnerabilities - Prevent findings from being reported multiple times
self.announced = {}
# calculate risk scores as we enumerate
self.risk_score = {}
# track that these commands are only run once per phase
self.run_once = {}
# Current Thread Pool command contents
self.thread_pool_commands = []
self.thread_pool_errors = []
# Lists discovered during enumeration
self.findings = {'users': [], 'urls': [], 'groups': [], 'passwords': [], 'vulnerabilities': []}
# write errors to error log rather than display them on screen
self.command_error_log = open("commanderrorlog.txt", 'w')
self.active_commands = "activecommands.txt"
if self.args.logging:
self.debug_log = open("debuglog.txt", 'w')
self.verbose_log = open("verboselog.txt", 'w')
Logger.DEBUG_FILE = self.debug_log
Logger.VERBOSE_FILE = self.verbose_log
if self.args.benchmarking:
self.benchmarking_csv = open("benchmark.csv", 'w')
self.benchmarking_csv.write("TIME,COMMAND\n")
#sys.stderr = self.command_error_log
self.devnull = open(os.devnull, 'w')
# Parse Nmap XML - Reads all the Nmap xml files in the Nmap folder
def parse_nmap_xml(self):
Logger.verbose("[+] Reading Nmap XML Output Files...")
port_attribs_to_read = ['protocol', 'portid']
service_attribs_to_read = ['name', 'product', 'version', 'extrainfo', 'method', 'tunnel']
state_attribs_to_read = ['state', 'reason']
xml_nmap_elements = {'service': service_attribs_to_read, 'state': state_attribs_to_read}
search_address = {'path': 'address', 'el': 'addr'}
search_ports = {'path': 'ports', 'el': 'portid'}
nmap_output_path = os.path.join(self.args.outputFolder, __nmap_folder__)
for nmap_file in os.listdir(nmap_output_path):
if nmap_file.endswith(".xml"):
nmap_file_path = os.path.join(nmap_output_path, nmap_file)
Logger.debug("XML PARSE: " + nmap_file_path)
try:
tree = ET.parse(nmap_file_path)
except:
Logger.debug("XML PARSE: Error Parsing : " + nmap_file_path)
continue
root = tree.getroot()
for i in root.iter('host'):
e = i.find(search_address['path'])
find_ports = i.find(search_ports['path'])
if find_ports is not None:
addr = e.get(search_address['el'])
if self.nmap_dict.get(addr, None) is None: self.nmap_dict[addr] = {}
port_dict = []
for port in find_ports.iter('port'):
element_dict = {}
attribute_dict = {}
self.xml_to_dict(port_attribs_to_read, port, element_dict)
for xml_element in xml_nmap_elements:
for attribute in port.iter(xml_element):
if attribute is not None:
self.xml_to_dict(xml_nmap_elements[xml_element], attribute, attribute_dict)
element_dict = self.merge_two_dicts(element_dict, attribute_dict)
if attribute.get('hostname', '') is not '':
self.nmap_dict[addr]['hostname'] = attribute.get('hostname', '')
if attribute.get('tunnel', '') == 'ssl' and attribute.get('name', '') == 'http':
element_dict['name'] = 'https'
# If we have encountered an unknown service set the name to unknown so we can still enum
if attribute.get('name', None) is None:
for attrib_name in service_attribs_to_read:
element_dict[attrib_name] = ''
element_dict['name'] = 'unknown'
# Check to see if this port already exists
port_was_merged = False
if self.nmap_dict[addr].get('ports', None) is not None:
for pos, port in enumerate(self.nmap_dict[addr]['ports']):
if port['portid'] == element_dict['portid']:
port_was_merged = True
for element in service_attribs_to_read:
if len(element_dict[element]) > 0: self.nmap_dict[addr]['ports'][pos][element] = element_dict[element]
if port_was_merged is False:
port_dict.append(element_dict)
if self.nmap_dict[addr].get('ports', None) is None:
self.nmap_dict[addr]['ports'] = port_dict
else:
self.nmap_dict[addr]['ports'] = self.nmap_dict[addr]['ports'] + port_dict
Logger.debug("NMAP XML PARSE: - Finished NMAP Dict Creation:\n " + str(self.nmap_dict))
@staticmethod
def merge_two_dicts(x, y):
z = x.copy()
z.update(y)
return z
# find exploits from exploit db and copy them to service folder
# TODO: Copy results to service folders - update nmap_dict with other web app etc products and versions...
def exploit_search(self, command_label):
if self.args.noExploitSearch: return False
Logger.debug("exploit_search()")
for host in self.nmap_dict:
for service in self.nmap_dict[host]['ports']:
if service.get('product', '') is not '' and service.get('version', '') is not '':
version_digits = ' '.join(str(x) for x in re.findall(r'\d+', service.get('version', '')))
command_keys = {
'output': self.get_enumeration_path(host, service['name'], service['portid'], command_label),
'target': service.get('product', '')}
base, filename = os.path.split(command_keys['output']) # Resume file already exists
if not self.args.noResume and self.find_files(base, filename + ".*").__len__() > 0:
Logger.debug("exploit_search() -Exploit Search file already exists: "
+ command_keys['output'])
else:
self.execute_command(self.prepare_command(command_label, command_keys))
with open(command_keys['output'] + ".json") as data_file:
try:
data = json.load(data_file)
except:
continue
if len(data['RESULTS']) == 0:
os.remove(command_keys['output'] + ".json")
else: # copy exploits to exploit folder
exploits_path = os.path.join(base, "exploits")
if not os.path.exists(exploits_path): os.makedirs(exploits_path)
for exploit in data['RESULTS']:
exploit_base, exploit_filename = os.path.split(exploit['Path'])
copyfile(exploit['Path'], os.path.join(exploits_path, exploit_filename))
# Enumerate a phase
# phases are defined in attackplan.ini
# enumerate will create a que of all the commands to run in a phase
# then it will create a progress bar and execute a specified number of threads at the same time
# until all the threads are finished then the results are parsed by another function
def enumerate(self, phase_name):
Logger.debug("Enumerate - " + phase_name)
self.phase_commands = []
self.thread_pool_errors = []
for host in self.nmap_dict:
Logger.debug("enumerate() - Host: " + host)
host_ports = [d['portid'] for d in self.nmap_dict[host]['ports'] if 'portid' in d]
if self.plan.has_option(phase_name, 'always'):
self.nmap_dict[host]['ports'].append(
{'state': 'open', 'name': 'always', 'portid': '0', 'product': 'Vanquish Added Always Service'})
if self.plan.has_option(phase_name, 'run once'):
if self.run_once.get(phase_name) is None:
self.run_once[phase_name] = host
self.nmap_dict[host]['ports'].append(
{'state': 'open', 'name': 'run once', 'portid': '-1', 'product': 'Vanquish Added Run Once Service'})
for service in self.nmap_dict[host]['ports']:
Logger.debug("\tenumerate() - port_number: " + str(service))
for known_service, ports in self.config.items('Service Ports'):
if not ('closed' in service['state'] or 'filtered' in service['state']) \
and (service['name'].find(known_service) <> -1 or service['portid'] in ports.split(',')):
if self.plan.has_option(phase_name, known_service):
for command_label in self.plan.get(phase_name, known_service).split(','):
if command_label is not '':
command_keys = {
'output': self.get_enumeration_path(host, service['name'], service['portid'],
command_label),
'output folder': self.args.outputFolder,
'output nmap': os.path.join(self.nmap_path,command_label.replace(" ", "_") + "_" + host.replace(".", "_")),
'target': host,
'domain': self.args.domain,
'service': service['name'],
'port': service['portid'],
'host ports comma': ",".join(host_ports),
'host ports space': " ".join(host_ports),
'host file': self.args.hostFile.name,
'nmap dns server': self.nmap_dns_server,
'nmap proxy server': self.proxy_server,
'proxy server': self.args.proxy,
'workspace': self.workspace,
}
base, filename = os.path.split(command_keys['output']) # Resume file already exists
if not self.args.noResume and self.find_files(base, filename + ".*").__len__() > 0:
Logger.debug("enumerate() - RESUME - output file already exists: "
+ command_keys['output'])
else:
command = self.prepare_command(command_label, command_keys)
# TODO: Check for dictionary tags / list tags / findings lists
do_not_append = False
if "<"+__findings_label_dynamic__+" " in command:
findings_path = os.path.join(self.args.outputFolder,host.replace(".","_"))
findings_files = self.find_files(findings_path, "*.txt")
for findings_file in findings_files:
replacement = "<"+__findings_label_dynamic__+ " " +str(findings_file).replace(".txt","")+">"
if replacement in command:
findings_file_path = os.path.join(findings_path,findings_file)
command = command.replace(replacement, findings_file_path)
# Still have a findings tag in the command? do not add it to the list -
if "<" + __findings_label_dynamic__ + " " in command:
do_not_append = True
Logger.debug("enumerate() - Did not append command that still contained findings label" + command )
# Findings Lists
if "<" + __findings_label_list_dynamic__ + " " in command:
findings_path = os.path.join(self.args.outputFolder, host.replace(".", "_"))
findings_files = self.find_files(findings_path, "*.txt")
for findings_file in findings_files:
replacement = "<" + __findings_label_list_dynamic__ + " " + str(
findings_file).replace(".txt", "") + ">"
#TODO Delimited Findings ? REGEX Delim
#delim = "<" + __findings_label_dynamic__ + " " + str(findings_file).replace(".txt", "") + " .+>"
if replacement in command:
findings_file_path = os.path.join(findings_path, findings_file)
with open(findings_file_path) as f:
content = [x.strip() for x in f.readlines()]
for line in content:
new_command = command
new_command = new_command.replace(replacement, line)
self.phase_commands.append(new_command)
# Lists
for section in self.config.sections():
if "List" in section:
if command.find(
"<" + section + ">") <> -1: # include entire list from section
do_not_append = True
for item in self.config.items(section):
new_command = command
new_command = new_command.replace("<" + section + ">", item[1])
self.phase_commands.append(new_command)
else:
for item in self.config.items(section):
command = command.replace("<" + item[0] + ">", item[1])
if not do_not_append and "<"+__findings_label_dynamic__ not in command:
self.phase_commands.append(command)
Logger.debug("enumerate() - added command : " + command_label)
else:
Logger.debug("enumerate() - skipped command : " + command_label)
else:
Logger.debug("\tenumerate() - NO command section found for phase: " + phase_name +
" service name: " + known_service)
self.phase_commands = self.remove_duplicates(self.phase_commands)
pool = ThreadPool(self.args.threadPool)
for _ in bar(pool.imap_unordered(self.execute_command, self.phase_commands),
expected_size=len(self.phase_commands)):
pass
pool.close()
pool.join()
@staticmethod
def remove_duplicates(list_with_duplicates):
return list(set(list_with_duplicates))
def execute_command(self, command):
Logger.verbose("root@kali:/# " + command)
Logger.debug("execute_command() - Starting: - " + command)
command_start_time = time.time()
with open(self.active_commands, 'w') as active_command_report_file:
active_command_report_file.write("Last Update: " + str(datetime.now()) + "\n")
active_command_report_file.write(pformat(self.thread_pool_commands, indent=4, width=1))
self.thread_pool_commands.append(command)
process = Popen(command, shell=True, stdin=PIPE, stderr=self.command_error_log, stdout=self.devnull)
process.stdin.close()
# FIXME: Process wait is causing the application to hang in some fringe cases - need to find a better way
if process.wait() != 0:
Logger.debug("execute_command() - ERRORS EXECUTING: - " + command)
self.thread_pool_errors.append(command)
Logger.debug("execute_command() - COMPLETED! - " + command)
self.thread_pool_commands.remove(command)
if self.args.benchmarking:
with open(self.active_commands, 'w') as active_command_report_file:
active_command_report_file.write("Last Update: "+ str(datetime.now())+"\n")
active_command_report_file.write(pformat(self.thread_pool_commands, indent=4, width=1))
self.benchmarking_csv.write(
time.strftime('%H:%M:%S', time.gmtime(time.time() - command_start_time)) + "," + command.replace(",",
" ") + "\n")
def enumerate_plan(self, plan):
for phase in self.plan.get(plan, "Order").split(","):
print Color.green()+"[+]"+Color.reset()+" Starting Phase: " + phase
Logger.verbose("[+] Starting Phase: " + phase)
try:
if self.args.phase == phase or self.args.phase == '': self.enumerate(phase)
except KeyboardInterrupt:
Logger.debug("[X] Keyboard Interrupt Detected... exiting phase:: " + phase)
Logger.debug("[X] Thread Pool at Interrupt: \n" + pformat(self.thread_pool_commands))
print Color.red()+"[X]"+Color.reset()+" Keyboard Interrupt Detected... exiting phase: " + phase
print Color.red()+"[X]"+Color.reset()+" Thread Pool at Interrupt:"
pprint(self.thread_pool_commands)
continue
except ValueError as err:
bar(self.phase_commands, expected_size=len(self.phase_commands))
if len(self.thread_pool_errors) > 0:
Logger.debug("[X] Phase completed but encountered the following errors: \n"
+ pformat(self.thread_pool_errors) + pformat(self.thread_pool_commands))
print Color.red()+"[X]"+Color.reset()+" Phase completed but encountered the following errors: \n" \
+ pformat(self.thread_pool_errors) + pformat(self.thread_pool_commands)
continue
self.parse_nmap_xml()
self.write_report_file(self.nmap_dict, self.args.outputFolder, self.args.reportFile)
Logger.verbose("[+] Finding's Post Processing...")
self.findings_post_processing()
def findings_post_processing(self):
for current_host in self.hosts:
host_path = os.path.join(self.args.outputFolder, current_host.replace(".", "_"))
files_to_process = [os.path.join(dp, f) for dp, dn, fn in os.walk(os.path.expanduser(host_path))
for f in fn]
self.findings = {'users': [], 'urls': [], 'groups': [], 'passwords': [], 'vulnerabilities': []}
# TODO: Load findings from files here for merging - dont overwrite user added findings...
for file in files_to_process:
base, filename = os.path.split(file)
if base.endswith(__nmap_folder__): continue
file_segments = filename.split("_")
file_segments.pop()
config_command_name = " ".join(file_segments)
if self.config.has_section(config_command_name):
for item in self.config.items(config_command_name):
if __findings_label__ in item[0]:
list_type = str(item[0]).split(" ")[1]
list_type = ''.join([i for i in list_type if not i.isdigit()]) # remove digits in item name
if self.findings.get(list_type) is None: self.findings[list_type] = []
regex = re.compile(item[1])
# First try line by line
wholefile = ""
with open(file) as f:
for line in f:
wholefile += line
match = regex.match(line)
if match is not None:
self.findings[list_type].append(match.group(1))
announcement = current_host + ": \t" + match.group(1);
if __accounce_label__ in item[0] and self.announced.get(announcement) != 1:
self.announced[announcement] = 1
print Color.redback() + "[!] " + announcement + \
" " + re.sub(__findings_label__ + " " + __accounce_label__+ "\d*","",str(item[0])) \
+ Color.reset()
# Next try multiline search mode
matches = re.search(item[1], wholefile, re.MULTILINE)
if matches and matches.group(1) is not None:
self.findings[list_type].append(matches.group(1))
announcement = current_host + ": \t" + matches.group(1);
if __accounce_label__ in item[0] and self.announced.get(announcement) != 1:
self.announced[announcement] = 1
print Color.redback() + "[!] " + announcement +\
" " + re.sub(__findings_label__ + " " + __accounce_label__+ "\d*","",str(item[0])) +\
Color.reset()
# Remove duplicates and output results to findings files
for findings_list in self.findings:
self.findings[findings_list] = self.remove_duplicates(self.findings[findings_list])
self.findings[findings_list].sort()
if len(self.findings[findings_list]) > 0:
with open(os.path.join(host_path, findings_list + ".txt"), 'w') as findings_file:
findings_file.write("\n".join(self.findings[findings_list]))
# Calculate Risk Score
risk_score = 0
for findings_list in self.findings:
risk_score += len(self.findings.get(findings_list, [])) * 1
if len(self.findings.get(__accounce_label__, [])) > 0:
risk_score += 1000
risk_score -= len(self.findings.get(__password_list_label__,[]))
risk_score -= len(self.findings.get(__urlshttp_list_label__, []))
risk_score -= len(self.findings.get(__urlshttps_list_label__, []))
if len(self.findings.get(__urlshttp_list_label__, [])) > 20:
risk_score += 20
else:
risk_score += len(self.findings.get(__urlshttp_list_label__, []))
if len(self.findings.get(__urlshttps_list_label__, [])) > 20:
risk_score += 20
else:
risk_score += len(self.findings.get(__urlshttps_list_label__, []))
self.risk_score[current_host] = risk_score
def get_enumeration_path(self, host, service, port, command):
ip_path = os.path.join(self.args.outputFolder, host.replace(".", "_"))
if not os.path.exists(ip_path): os.makedirs(ip_path)
service_path = os.path.join(ip_path, service)
if not os.path.exists(service_path): os.makedirs(service_path)
return os.path.join(service_path, command.replace(" ", "_") + "_" + str(port))
def prepare_command(self, command, keyvalues):
command = self.config.get(command, "command")
Logger.debug("prepare_command() command: " + command)
for k in keyvalues.iterkeys():
Logger.debug(" prepare_command() key: " + k)
command = command.replace("<" + k + ">", keyvalues[k])
return command
def xml_to_dict(self, list_to_read, xml_elements, dict):
for element in list_to_read:
value = xml_elements.get(element, '')
if element is "name" and self.config.has_option("Service Labels", value):
dict[element] = self.config.get("Service Labels", value)
else:
dict[element] = value
return dict
def write_report_file(self, data, folder, file):
report_path = os.path.join(folder,file)
f = open(report_path, 'w')
f.write(pformat(data, indent=4, width=1))
f.close()
def write_csv_report_file(self, data, header, folder, file):
report_path = os.path.join(folder,file)
f = open(report_path, 'w')
f.write(header)
for item in data:
f.write(str(item[0])+","+str(item[1])+"\n")
f.close()
def find_files(self, base, pattern):
return [n for n in fnmatch.filter(os.listdir(base), pattern) if
os.path.isfile(os.path.join(base, n))]
def banner(self):
banner_numbers = [1, 2, 3]
banners = {
1: self.banner_flame,
2: self.banner_doom,
3: self.banner_block
}
secure_random = random.SystemRandom()
banners[secure_random.choice(banner_numbers)]()
@staticmethod
def banner_flame():
print Color.red()+'\n' \
' ) ( ( ) '
print ' ( ( /( ( )\ ))\ ) ( /( '
print ' ( ( )\ )\())( )\ ( (()/(()/( )\()) '
print ' )\ )((((_)( ((_)\ )((_) )\ /(_))(_)|(_)\ '
print '((_)((_)\ _ )\ _((_|(_)_ _ ((_|_))(_)) _((_) '
print '\ \ / /(_)_\(_) \| |/ _ \| | | |_ _/ __|| || | '
print ' \ V / / _ \ | .` | (_) | |_| || |\__ \| __ | '
print ' \_/ /_/ \_\|_|\_|\__\_\\\\___/|___|___/|_||_| '
print 'Get to shell.'+Color.reset()
@staticmethod
def banner_doom():
print Color.yellow()+'\n ' \
'__ __ _ _ ____ _ _ _____ _____ _ _ '
print ' \ \ / /\ | \ | |/ __ \| | | |_ _|/ ____| | | |'
print ' \ \ / / \ | \| | | | | | | | | | | (___ | |__| |'
print ' \ \/ / /\ \ | . ` | | | | | | | | | \___ \| __ |'
print ' \ / ____ \| |\ | |__| | |__| |_| |_ ____) | | | |'
print ' \/_/ \_\_| \_|\___\_\\\\____/|_____|_____/|_| |_|'
print 'Set your Mertilizers on "deep fat fry".'+Color.reset()
@staticmethod
def banner_block():
print Color.magenta()+'' \
'\n __ ___ _ _ ___ _ _ ___ ___ _ _ '
print ' \ \ / /_\ | \| |/ _ \| | | |_ _/ __| || |'
print ' \ V / _ \| .` | (_) | |_| || |\__ \ __ |'
print ' \_/_/ \_\_|\_|\__\_\\\\___/|___|___/_||_|'
print 'Faster than a one-legged man in a butt kicking contest.'+Color.reset()
##################################################################################
# Entry point for command-line execution
##################################################################################
@property
def main(self):
start_time = time.time()
print Color.cyan()
print("Configuration file: " + str(self.args.configFile))
print("Attack plan file: " + str(self.args.attackPlanFile))
print("Output Path: " + str(self.args.outputFolder))
print("Host File: " + str(self.args.hostFile.name))
print Color.reset()
Logger.debug("DEBUG MODE ENABLED!")
Logger.verbose("VERBOSE MODE ENABLED!")
self.hosts = self.hosts.read().splitlines()
Logger.verbose("Hosts:" + str(self.hosts))
for host in self.hosts:
self.nmap_dict[host] = { "ports": [] };
for scan_phase in self.plan.get("Nmap Scans", "Order").split(","):
if scan_phase is not '': self.enumerate_plan(scan_phase)
self.enumerate_plan("Enumeration Plan")
# Begin Post Enumeration Phases
print Color.grey()+"[+]"+Color.reset()+" Starting post enumeration..."
self.enumerate_plan("Post Enumeration Plan")
try:
print Color.grey()+"[+]"+Color.reset()+" Searching for matching exploits..."
self.exploit_search("SearchSploit JSON")
except:
bar(self.phase_commands, expected_size=len(self.phase_commands))
# Generate Reports
sorted_x = sorted(self.risk_score.items(), key=operator.itemgetter(1))
self.write_csv_report_file(sorted_x, "Host,Risk Score\n", self.args.outputFolder, "riskscores.csv")
print Color.grey()+"[+]"+Color.reset()+" Elapsed Time: " + time.strftime('%H:%M:%S', time.gmtime(time.time() - start_time))
Logger.verbose("Goodbye!")
self.command_error_log.close()
if self.args.logging:
self.debug_log.close()
self.verbose_log.close()
if self.args.benchmarking:
self.benchmarking_csv.close()
return 0
def main(argv=None):
vanquish = Vanquish(argv if argv else sys.argv[1:])
return vanquish.main
if __name__ == "__main__":
sys.exit(main())