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#!/usr/bin/env python3
#
# AutoRecon is a multi-threaded network reconnaissance tool which performs automated enumeration of services.
#
# This program can be redistributed and/or modified under the terms of the
# GNU General Public License, either version 3 of the License, or (at your
# option) any later version.
#
import atexit
import argparse
import asyncio
import colorama
from colorama import Fore , Style
from concurrent . futures import ProcessPoolExecutor , as_completed , FIRST_COMPLETED
from datetime import datetime
import ipaddress
import os
import re
import socket
import string
import sys
import time
import toml
import termios
def _quit ( ) :
termios . tcsetattr ( sys . stdin . fileno ( ) , termios . TCSADRAIN , TERM_FLAGS )
atexit . register ( _quit )
TERM_FLAGS = termios . tcgetattr ( sys . stdin . fileno ( ) )
verbose = 0
nmap = ' -vv --reason -Pn '
srvname = ' '
heartbeat_interval = 60
port_scan_profile = None
port_scan_profiles_config = None
service_scans_config = None
global_patterns = [ ]
username_wordlist = ' /usr/share/seclists/Usernames/top-usernames-shortlist.txt '
password_wordlist = ' /usr/share/seclists/Passwords/darkweb2017-top100.txt '
rootdir = os . path . dirname ( os . path . realpath ( __file__ ) )
single_target = False
only_scans_dir = False
def e ( * args , frame_index = 1 , * * kvargs ) :
frame = sys . _getframe ( frame_index )
vals = { }
vals . update ( frame . f_globals )
vals . update ( frame . f_locals )
vals . update ( kvargs )
return string . Formatter ( ) . vformat ( ' ' . join ( args ) , args , vals )
def cprint ( * args , color = Fore . RESET , char = ' * ' , sep = ' ' , end = ' \n ' , frame_index = 1 , file = sys . stdout , * * kvargs ) :
frame = sys . _getframe ( frame_index )
vals = {
' bgreen ' : Fore . GREEN + Style . BRIGHT ,
' bred ' : Fore . RED + Style . BRIGHT ,
' bblue ' : Fore . BLUE + Style . BRIGHT ,
' byellow ' : Fore . YELLOW + Style . BRIGHT ,
' bmagenta ' : Fore . MAGENTA + Style . BRIGHT ,
' green ' : Fore . GREEN ,
' red ' : Fore . RED ,
' blue ' : Fore . BLUE ,
' yellow ' : Fore . YELLOW ,
' magenta ' : Fore . MAGENTA ,
' bright ' : Style . BRIGHT ,
' srst ' : Style . NORMAL ,
' crst ' : Fore . RESET ,
' rst ' : Style . NORMAL + Fore . RESET
}
vals . update ( frame . f_globals )
vals . update ( frame . f_locals )
vals . update ( kvargs )
unfmt = ' '
if char is not None :
unfmt + = color + ' [ ' + Style . BRIGHT + char + Style . NORMAL + ' ] ' + Fore . RESET + sep
unfmt + = sep . join ( args )
fmted = unfmt
for attempt in range ( 10 ) :
try :
fmted = string . Formatter ( ) . vformat ( unfmt , args , vals )
break
except KeyError as err :
key = err . args [ 0 ]
unfmt = unfmt . replace ( ' { ' + key + ' } ' , ' {{ ' + key + ' }} ' )
print ( fmted , sep = sep , end = end , file = file )
def debug ( * args , color = Fore . BLUE , sep = ' ' , end = ' \n ' , file = sys . stdout , * * kvargs ) :
if verbose > = 2 :
cprint ( * args , color = color , char = ' - ' , sep = sep , end = end , file = file , frame_index = 2 , * * kvargs )
def info ( * args , sep = ' ' , end = ' \n ' , file = sys . stdout , * * kvargs ) :
cprint ( * args , color = Fore . GREEN , char = ' * ' , sep = sep , end = end , file = file , frame_index = 2 , * * kvargs )
def warn ( * args , sep = ' ' , end = ' \n ' , file = sys . stderr , * * kvargs ) :
cprint ( * args , color = Fore . YELLOW , char = ' ! ' , sep = sep , end = end , file = file , frame_index = 2 , * * kvargs )
def error ( * args , sep = ' ' , end = ' \n ' , file = sys . stderr , * * kvargs ) :
cprint ( * args , color = Fore . RED , char = ' ! ' , sep = sep , end = end , file = file , frame_index = 2 , * * kvargs )
def fail ( * args , sep = ' ' , end = ' \n ' , file = sys . stderr , * * kvargs ) :
cprint ( * args , color = Fore . RED , char = ' ! ' , sep = sep , end = end , file = file , frame_index = 2 , * * kvargs )
exit ( - 1 )
def calculate_elapsed_time ( start_time ) :
elapsed_seconds = round ( time . time ( ) - start_time )
m , s = divmod ( elapsed_seconds , 60 )
h , m = divmod ( m , 60 )
elapsed_time = [ ]
if h == 1 :
elapsed_time . append ( str ( h ) + ' hour ' )
elif h > 1 :
elapsed_time . append ( str ( h ) + ' hours ' )
if m == 1 :
elapsed_time . append ( str ( m ) + ' minute ' )
elif m > 1 :
elapsed_time . append ( str ( m ) + ' minutes ' )
if s == 1 :
elapsed_time . append ( str ( s ) + ' second ' )
elif s > 1 :
elapsed_time . append ( str ( s ) + ' seconds ' )
else :
elapsed_time . append ( ' less than a second ' )
return ' , ' . join ( elapsed_time )
port_scan_profiles_config_file = ' port-scan-profiles.toml '
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with open ( os . path . join ( rootdir , ' autorecon_config ' , port_scan_profiles_config_file ) , ' r ' ) as p :
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try :
port_scan_profiles_config = toml . load ( p )
if len ( port_scan_profiles_config ) == 0 :
fail ( ' There do not appear to be any port scan profiles configured in the {port_scan_profiles_config_file} config file. ' )
except toml . decoder . TomlDecodeError as e :
fail ( ' Error: Couldn \' t parse {port_scan_profiles_config_file} config file. Check syntax and duplicate tags. ' )
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with open ( os . path . join ( rootdir , ' autorecon_config ' , ' service-scans.toml ' ) , ' r ' ) as c :
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try :
service_scans_config = toml . load ( c )
except toml . decoder . TomlDecodeError as e :
fail ( ' Error: Couldn \' t parse service-scans.toml config file. Check syntax and duplicate tags. ' )
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with open ( os . path . join ( rootdir , ' autorecon_config ' , ' global-patterns.toml ' ) , ' r ' ) as p :
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try :
global_patterns = toml . load ( p )
if ' pattern ' in global_patterns :
global_patterns = global_patterns [ ' pattern ' ]
else :
global_patterns = [ ]
except toml . decoder . TomlDecodeError as e :
fail ( ' Error: Couldn \' t parse global-patterns.toml config file. Check syntax and duplicate tags. ' )
if ' username_wordlist ' in service_scans_config :
if isinstance ( service_scans_config [ ' username_wordlist ' ] , str ) :
username_wordlist = service_scans_config [ ' username_wordlist ' ]
if ' password_wordlist ' in service_scans_config :
if isinstance ( service_scans_config [ ' password_wordlist ' ] , str ) :
password_wordlist = service_scans_config [ ' password_wordlist ' ]
async def read_stream ( stream , target , tag = ' ? ' , patterns = [ ] , color = Fore . BLUE ) :
address = target . address
while True :
line = await stream . readline ( )
if line :
line = str ( line . rstrip ( ) , ' utf8 ' , ' ignore ' )
debug ( color + ' [ ' + Style . BRIGHT + address + ' ' + tag + Style . NORMAL + ' ] ' + Fore . RESET + ' {line} ' , color = color )
for p in global_patterns :
matches = re . findall ( p [ ' pattern ' ] , line )
if ' description ' in p :
for match in matches :
if verbose > = 1 :
info ( ' Task {bgreen} {tag} {rst} on {byellow} {address} {rst} - {bmagenta} ' + p [ ' description ' ] . replace ( ' {match} ' , ' {bblue} {match} {crst} {bmagenta} ' ) + ' {rst} ' )
async with target . lock :
with open ( os . path . join ( target . scandir , ' _patterns.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' {tag} - ' + p [ ' description ' ] + ' \n \n ' ) )
else :
for match in matches :
if verbose > = 1 :
info ( ' Task {bgreen} {tag} {rst} on {byellow} {address} {rst} - {bmagenta} Matched Pattern: {bblue} {match} {rst} ' )
async with target . lock :
with open ( os . path . join ( target . scandir , ' _patterns.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' {tag} - Matched Pattern: {match} \n \n ' ) )
for p in patterns :
matches = re . findall ( p [ ' pattern ' ] , line )
if ' description ' in p :
for match in matches :
if verbose > = 1 :
info ( ' Task {bgreen} {tag} {rst} on {byellow} {address} {rst} - {bmagenta} ' + p [ ' description ' ] . replace ( ' {match} ' , ' {bblue} {match} {crst} {bmagenta} ' ) + ' {rst} ' )
async with target . lock :
with open ( os . path . join ( target . scandir , ' _patterns.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' {tag} - ' + p [ ' description ' ] + ' \n \n ' ) )
else :
for match in matches :
if verbose > = 1 :
info ( ' Task {bgreen} {tag} {rst} on {byellow} {address} {rst} - {bmagenta} Matched Pattern: {bblue} {match} {rst} ' )
async with target . lock :
with open ( os . path . join ( target . scandir , ' _patterns.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' {tag} - Matched Pattern: {match} \n \n ' ) )
else :
break
async def run_cmd ( semaphore , cmd , target , tag = ' ? ' , patterns = [ ] ) :
async with semaphore :
address = target . address
scandir = target . scandir
info ( ' Running task {bgreen} {tag} {rst} on {byellow} {address} {rst} ' + ( ' with {bblue} {cmd} {rst} ' if verbose > = 1 else ' ' ) )
async with target . lock :
with open ( os . path . join ( scandir , ' _commands.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' {cmd} \n \n ' ) )
start_time = time . time ( )
process = await asyncio . create_subprocess_shell ( cmd , stdout = asyncio . subprocess . PIPE , stderr = asyncio . subprocess . PIPE , executable = ' /bin/bash ' )
async with target . lock :
target . running_tasks . append ( tag )
await asyncio . wait ( [
read_stream ( process . stdout , target , tag = tag , patterns = patterns ) ,
read_stream ( process . stderr , target , tag = tag , patterns = patterns , color = Fore . RED )
] )
await process . wait ( )
async with target . lock :
target . running_tasks . remove ( tag )
elapsed_time = calculate_elapsed_time ( start_time )
if process . returncode != 0 :
error ( ' Task {bred} {tag} {rst} on {byellow} {address} {rst} returned non-zero exit code: {process.returncode} ' )
async with target . lock :
with open ( os . path . join ( scandir , ' _errors.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' [*] Task {tag} returned non-zero exit code: {process.returncode} . Command: {cmd} \n ' ) )
else :
info ( ' Task {bgreen} {tag} {rst} on {byellow} {address} {rst} finished successfully in {elapsed_time} ' )
return { ' returncode ' : process . returncode , ' name ' : ' run_cmd ' }
async def parse_port_scan ( stream , tag , target , pattern ) :
address = target . address
ports = [ ]
while True :
line = await stream . readline ( )
if line :
line = str ( line . rstrip ( ) , ' utf8 ' , ' ignore ' )
debug ( Fore . BLUE + ' [ ' + Style . BRIGHT + address + ' ' + tag + Style . NORMAL + ' ] ' + Fore . RESET + ' {line} ' , color = Fore . BLUE )
parse_match = re . search ( pattern , line )
if parse_match :
ports . append ( parse_match . group ( ' port ' ) )
for p in global_patterns :
matches = re . findall ( p [ ' pattern ' ] , line )
if ' description ' in p :
for match in matches :
if verbose > = 1 :
info ( ' Task {bgreen} {tag} {rst} on {byellow} {address} {rst} - {bmagenta} ' + p [ ' description ' ] . replace ( ' {match} ' , ' {bblue} {match} {crst} {bmagenta} ' ) + ' {rst} ' )
async with target . lock :
with open ( os . path . join ( target . scandir , ' _patterns.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' {tag} - ' + p [ ' description ' ] + ' \n \n ' ) )
else :
for match in matches :
if verbose > = 1 :
info ( ' Task {bgreen} {tag} {rst} on {byellow} {address} {rst} - {bmagenta} Matched Pattern: {bblue} {match} {rst} ' )
async with target . lock :
with open ( os . path . join ( target . scandir , ' _patterns.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' {tag} - Matched Pattern: {match} \n \n ' ) )
else :
break
return ports
async def parse_service_detection ( stream , tag , target , pattern ) :
address = target . address
services = [ ]
while True :
line = await stream . readline ( )
if line :
line = str ( line . rstrip ( ) , ' utf8 ' , ' ignore ' )
debug ( Fore . BLUE + ' [ ' + Style . BRIGHT + address + ' ' + tag + Style . NORMAL + ' ] ' + Fore . RESET + ' {line} ' , color = Fore . BLUE )
parse_match = re . search ( pattern , line )
if parse_match :
services . append ( ( parse_match . group ( ' protocol ' ) . lower ( ) , int ( parse_match . group ( ' port ' ) ) , parse_match . group ( ' service ' ) ) )
for p in global_patterns :
matches = re . findall ( p [ ' pattern ' ] , line )
if ' description ' in p :
for match in matches :
if verbose > = 1 :
info ( ' Task {bgreen} {tag} {rst} on {byellow} {address} {rst} - {bmagenta} ' + p [ ' description ' ] . replace ( ' {match} ' , ' {bblue} {match} {crst} {bmagenta} ' ) + ' {rst} ' )
async with target . lock :
with open ( os . path . join ( target . scandir , ' _patterns.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' {tag} - ' + p [ ' description ' ] + ' \n \n ' ) )
else :
for match in matches :
if verbose > = 1 :
info ( ' Task {bgreen} {tag} {rst} on {byellow} {address} {rst} - {bmagenta} Matched Pattern: {bblue} {match} {rst} ' )
async with target . lock :
with open ( os . path . join ( target . scandir , ' _patterns.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' {tag} - Matched Pattern: {match} \n \n ' ) )
else :
break
return services
async def run_portscan ( semaphore , tag , target , service_detection , port_scan = None ) :
async with semaphore :
address = target . address
scandir = target . scandir
nmap_extra = nmap
ports = ' '
if port_scan is not None :
command = e ( port_scan [ 0 ] )
pattern = port_scan [ 1 ]
info ( ' Running port scan {bgreen} {tag} {rst} on {byellow} {address} {rst} ' + ( ' with {bblue} {command} {rst} ' if verbose > = 1 else ' ' ) )
async with target . lock :
with open ( os . path . join ( scandir , ' _commands.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' {command} \n \n ' ) )
start_time = time . time ( )
process = await asyncio . create_subprocess_shell ( command , stdout = asyncio . subprocess . PIPE , stderr = asyncio . subprocess . PIPE , executable = ' /bin/bash ' )
async with target . lock :
target . running_tasks . append ( tag )
output = [
parse_port_scan ( process . stdout , tag , target , pattern ) ,
read_stream ( process . stderr , target , tag = tag , color = Fore . RED )
]
results = await asyncio . gather ( * output )
await process . wait ( )
async with target . lock :
target . running_tasks . remove ( tag )
elapsed_time = calculate_elapsed_time ( start_time )
if process . returncode != 0 :
error ( ' Port scan {bred} {tag} {rst} on {byellow} {address} {rst} returned non-zero exit code: {process.returncode} ' )
async with target . lock :
with open ( os . path . join ( scandir , ' _errors.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' [*] Port scan {tag} returned non-zero exit code: {process.returncode} . Command: {command} \n ' ) )
return { ' returncode ' : process . returncode }
else :
info ( ' Port scan {bgreen} {tag} {rst} on {byellow} {address} {rst} finished successfully in {elapsed_time} ' )
ports = results [ 0 ]
if len ( ports ) == 0 :
return { ' returncode ' : - 1 }
ports = ' , ' . join ( ports )
command = e ( service_detection [ 0 ] )
pattern = service_detection [ 1 ]
info ( ' Running service detection {bgreen} {tag} {rst} on {byellow} {address} {rst} ' + ( ' with {bblue} {command} {rst} ' if verbose > = 1 else ' ' ) )
async with target . lock :
with open ( os . path . join ( scandir , ' _commands.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' {command} \n \n ' ) )
start_time = time . time ( )
process = await asyncio . create_subprocess_shell ( command , stdout = asyncio . subprocess . PIPE , stderr = asyncio . subprocess . PIPE , executable = ' /bin/bash ' )
async with target . lock :
target . running_tasks . append ( tag )
output = [
parse_service_detection ( process . stdout , tag , target , pattern ) ,
read_stream ( process . stderr , target , tag = tag , color = Fore . RED )
]
results = await asyncio . g ather ( * output )
await process . wait ( )
async with target . lock :
target . running_tasks . remove ( tag )
elapsed_time = calculate_elapsed_time ( start_time )
if process . returncode != 0 :
error ( ' Service detection {bred} {tag} {rst} on {byellow} {address} {rst} returned non-zero exit code: {process.returncode} ' )
async with target . lock :
with open ( os . path . join ( scandir , ' _errors.log ' ) , ' a ' ) as file :
file . writelines ( e ( ' [*] Service detection {tag} returned non-zero exit code: {process.returncode} . Command: {command} \n ' ) )
else :
info ( ' Service detection {bgreen} {tag} {rst} on {byellow} {address} {rst} finished successfully in {elapsed_time} ' )
services = results [ 0 ]
return { ' returncode ' : process . returncode , ' name ' : ' run_portscan ' , ' services ' : services }
async def start_heartbeat ( target , period = 60 ) :
while True :
await asyncio . sleep ( period )
async with target . lock :
tasks = target . running_tasks
count = len ( tasks )
tasks_list = ' '
if verbose > = 1 :
tasks_list = ' : {bgreen} ' + ' , ' . join ( tasks ) + ' {rst} '
current_time = datetime . now ( ) . strftime ( ' % H: % M: % S ' )
if count > 1 :
info ( ' {bgreen} [ {current_time} ] {rst} - There are {byellow} {count} {rst} tasks still running on {byellow} {target.address} {rst} ' + tasks_list )
elif count == 1 :
info ( ' {bgreen} [ {current_time} ] {rst} - There is {byellow} 1 {rst} task still running on {byellow} {target.address} {rst} ' + tasks_list )
async def scan_services ( loop , semaphore , target ) :
address = target . address
scandir = target . scandir
pending = [ ]
heartbeat = loop . create_task ( start_heartbeat ( target , period = heartbeat_interval ) )
for profile in port_scan_profiles_config :
if profile == port_scan_profile :
for scan in port_scan_profiles_config [ profile ] :
service_detection = ( port_scan_profiles_config [ profile ] [ scan ] [ ' service-detection ' ] [ ' command ' ] , port_scan_profiles_config [ profile ] [ scan ] [ ' service-detection ' ] [ ' pattern ' ] )
if ' port-scan ' in port_scan_profiles_config [ profile ] [ scan ] :
port_scan = ( port_scan_profiles_config [ profile ] [ scan ] [ ' port-scan ' ] [ ' command ' ] , port_scan_profiles_config [ profile ] [ scan ] [ ' port-scan ' ] [ ' pattern ' ] )
pending . append ( run_portscan ( semaphore , scan , target , service_detection , port_scan ) )
else :
pending . append ( run_portscan ( semaphore , scan , target , service_detection ) )
break
services = [ ]
while True :
if not pending :
heartbeat . cancel ( )
break
done , pending = await asyncio . wait ( pending , return_when = FIRST_COMPLETED )
for task in done :
result = task . result ( )
if result [ ' returncode ' ] == 0 :
if result [ ' name ' ] == ' run_portscan ' :
for service_tuple in result [ ' services ' ] :
if service_tuple not in services :
services . append ( service_tuple )
else :
continue
protocol = service_tuple [ 0 ]
port = service_tuple [ 1 ]
service = service_tuple [ 2 ]
info ( ' Found {bmagenta} {service} {rst} on {bmagenta} {protocol} / {port} {rst} on target {byellow} {address} {rst} ' )
if not only_scans_dir :
with open ( os . path . join ( target . reportdir , ' notes.txt ' ) , ' a ' ) as file :
file . writelines ( e ( ' [*] {service} found on {protocol} / {port} . \n \n \n \n ' ) )
if protocol == ' udp ' :
nmap_extra = nmap + " -sU "
else :
nmap_extra = nmap
secure = True if ' ssl ' in service or ' tls ' in service else False
# Special cases for HTTP.
scheme = ' https ' if ' https ' in service or ' ssl ' in service or ' tls ' in service else ' http '
if service . startswith ( ' ssl/ ' ) or service . startswith ( ' tls/ ' ) :
service = service [ 4 : ]
for service_scan in service_scans_config :
# Skip over configurable variables since the python toml parser cannot iterate over tables only.
if service_scan in [ ' username_wordlist ' , ' password_wordlist ' ] :
continue
ignore_service = False
if ' ignore-service-names ' in service_scans_config [ service_scan ] :
for ignore_service_name in service_scans_config [ service_scan ] [ ' ignore-service-names ' ] :
if re . search ( ignore_service_name , service ) :
ignore_service = True
break
if ignore_service :
continue
matched_service = False
if ' service-names ' in service_scans_config [ service_scan ] :
for service_name in service_scans_config [ service_scan ] [ ' service-names ' ] :
if re . search ( service_name , service ) :
matched_service = True
break
if not matched_service :
continue
if ' manual ' in service_scans_config [ service_scan ] :
heading = False
with open ( os . path . join ( scandir , ' _manual_commands.txt ' ) , ' a ' ) as file :
for manual in service_scans_config [ service_scan ] [ ' manual ' ] :
if ' description ' in manual :
if not heading :
file . writelines ( e ( ' [*] {service} on {protocol} / {port} \n \n ' ) )
heading = True
description = manual [ ' description ' ]
file . writelines ( e ( ' \t [-] {description} \n \n ' ) )
if ' commands ' in manual :
if not heading :
file . writelines ( e ( ' [*] {service} on {protocol} / {port} \n \n ' ) )
heading = True
for manual_command in manual [ ' commands ' ] :
manual_command = e ( manual_command )
file . writelines ( ' \t \t ' + e ( ' {manual_command} \n \n ' ) )
if heading :
file . writelines ( ' \n ' )
if ' scan ' in service_scans_config [ service_scan ] :
for scan in service_scans_config [ service_scan ] [ ' scan ' ] :
if ' name ' in scan :
name = scan [ ' name ' ]
if ' command ' in scan :
tag = e ( ' {protocol} / {port} / {name} ' )
command = scan [ ' command ' ]
if ' ports ' in scan :
port_match = False
if protocol == ' tcp ' :
if ' tcp ' in scan [ ' ports ' ] :
for tcp_port in scan [ ' ports ' ] [ ' tcp ' ] :
if port == tcp_port :
port_match = True
break
elif protocol == ' udp ' :
if ' udp ' in scan [ ' ports ' ] :
for udp_port in scan [ ' ports ' ] [ ' udp ' ] :
if port == udp_port :
port_match = True
break
if port_match == False :
warn ( Fore . YELLOW + ' [ ' + Style . BRIGHT + tag + Style . NORMAL + ' ] Scan cannot be run against {protocol} port {port} . Skipping. ' + Fore . RESET )
continue
if ' run_once ' in scan and scan [ ' run_once ' ] == True :
scan_tuple = ( name , )
if scan_tuple in target . scans :
warn ( Fore . YELLOW + ' [ ' + Style . BRIGHT + tag + ' on ' + address + Style . NORMAL + ' ] Scan should only be run once and it appears to have already been queued. Skipping. ' + Fore . RESET )
continue
else :
target . scans . append ( scan_tuple )
else :
scan_tuple = ( protocol , port , service , name )
if scan_tuple in target . scans :
warn ( Fore . YELLOW + ' [ ' + Style . BRIGHT + tag + ' on ' + address + Style . NORMAL + ' ] Scan appears to have already been queued, but it is not marked as run_once in service-scans.toml. Possible duplicate tag? Skipping. ' + Fore . RESET )
continue
else :
target . scans . append ( scan_tuple )
patterns = [ ]
if ' pattern ' in scan :
patterns = scan [ ' pattern ' ]
pending . add ( asyncio . ensure_future ( run_cmd ( semaphore , e ( command ) , target , tag = tag , patterns = patterns ) ) )
def scan_host ( target , concurrent_scans ) :
start_time = time . time ( )
info ( ' Scanning target {byellow} {target.address} {rst} ' )
if single_target :
basedir = os . path . abspath ( outdir )
else :
basedir = os . path . abspath ( os . path . join ( outdir , target . address + srvname ) )
target . basedir = basedir
os . makedirs ( basedir , exist_ok = True )
if not only_scans_dir :
exploitdir = os . path . abspath ( os . path . join ( basedir , ' exploit ' ) )
os . makedirs ( exploitdir , exist_ok = True )
lootdir = os . path . abspath ( os . path . join ( basedir , ' loot ' ) )
os . makedirs ( lootdir , exist_ok = True )
reportdir = os . path . abspath ( os . path . join ( basedir , ' report ' ) )
target . reportdir = reportdir
os . makedirs ( reportdir , exist_ok = True )
open ( os . path . abspath ( os . path . join ( reportdir , ' local.txt ' ) ) , ' a ' ) . close ( )
open ( os . path . abspath ( os . path . join ( reportdir , ' proof.txt ' ) ) , ' a ' ) . close ( )
screenshotdir = os . path . abspath ( os . path . join ( reportdir , ' screenshots ' ) )
os . makedirs ( screenshotdir , exist_ok = True )
scandir = os . path . abspath ( os . path . join ( basedir , ' scans ' ) )
target . scandir = scandir
os . makedirs ( scandir , exist_ok = True )
os . makedirs ( os . path . abspath ( os . path . join ( scandir , ' xml ' ) ) , exist_ok = True )
# Use a lock when writing to specific files that may be written to by other asynchronous functions.
target . lock = asyncio . Lock ( )
# Get event loop for current process.
loop = asyncio . get_event_loop ( )
# Create a semaphore to limit number of concurrent scans.
semaphore = asyncio . Semaphore ( concurrent_scans )
try :
loop . run_until_complete ( scan_services ( loop , semaphore , target ) )
elapsed_time = calculate_elapsed_time ( start_time )
info ( ' Finished scanning target {byellow} {target.address} {rst} in {elapsed_time} ' )
except KeyboardInterrupt :
sys . exit ( 1 )
class Target :
def __init__ ( self , address ) :
self . address = address
self . basedir = ' '
self . reportdir = ' '
self . scandir = ' '
self . scans = [ ]
self . lock = None
self . running_tasks = [ ]
if __name__ == ' __main__ ' :
parser = argparse . ArgumentParser ( description = ' Network reconnaissance tool to port scan and automatically enumerate services found on multiple targets. ' )
parser . add_argument ( ' targets ' , action = ' store ' , help = ' IP addresses (e.g. 10.0.0.1), CIDR notation (e.g. 10.0.0.1/24), or resolvable hostnames (e.g. foo.bar) to scan. ' , nargs = " * " )
parser . add_argument ( ' -t ' , ' --targets ' , action = ' store ' , type = str , default = ' ' , dest = ' target_file ' , help = ' Read targets from file. ' )
parser . add_argument ( ' -ct ' , ' --concurrent-targets ' , action = ' store ' , metavar = ' <number> ' , type = int , default = 5 , help = ' The maximum number of target hosts to scan concurrently. Default: %(default)s ' )
parser . add_argument ( ' -cs ' , ' --concurrent-scans ' , action = ' store ' , metavar = ' <number> ' , type = int , default = 10 , help = ' The maximum number of scans to perform per target host. Default: %(default)s ' )
parser . add_argument ( ' --profile ' , action = ' store ' , default = ' default ' , dest = ' profile_name ' , help = ' The port scanning profile to use (defined in port-scan-profiles.toml). Default: %(default)s ' )
parser . add_argument ( ' -o ' , ' --output ' , action = ' store ' , default = ' results ' , dest = ' output_dir ' , help = ' The output directory for results. Default: %(default)s ' )
parser . add_argument ( ' --single-target ' , action = ' store_true ' , default = False , help = ' Only scan a single target. A directory named after the target will not be created. Instead, the directory structure will be created within the output directory. Default: false ' )
parser . add_argument ( ' --only-scans-dir ' , action = ' store_true ' , default = False , help = ' Only create the " scans " directory for results. Other directories (e.g. exploit, loot, report) will not be created. Default: false ' )
parser . add_argument ( ' --heartbeat ' , action = ' store ' , type = int , default = 60 , help = ' Specifies the heartbeat interval (in seconds) for task status messages. Default: %(default)s ' )
nmap_group = parser . add_mutually_exclusive_group ( )
nmap_group . add_argument ( ' --nmap ' , action = ' store ' , default = ' -vv --reason -Pn ' , help = ' Override the {nmap_extra} variable in scans. Default: %(default)s ' )
nmap_group . add_argument ( ' --nmap-append ' , action = ' store ' , default = ' ' , help = ' Append to the default {nmap_extra} variable in scans. ' )
parser . add_argument ( ' -v ' , ' --verbose ' , action = ' count ' , default = 0 , help = ' Enable verbose output. Repeat for more verbosity. ' )
parser . add_argument ( ' --disable-sanity-checks ' , action = ' store_true ' , default = False , help = ' Disable sanity checks that would otherwise prevent the scans from running. Default: false ' )
parser . error = lambda s : fail ( s [ 0 ] . upper ( ) + s [ 1 : ] )
args = parser . parse_args ( )
single_target = args . single_target
only_scans_dir = args . only_scans_dir
errors = False
if args . concurrent_targets < = 0 :
error ( ' Argument -ch/--concurrent-targets: must be at least 1. ' )
errors = True
concurrent_scans = args . concurrent_scans
if concurrent_scans < = 0 :
error ( ' Argument -ct/--concurrent-scans: must be at least 1. ' )
errors = True
port_scan_profile = args . profile_name
found_scan_profile = False
for profile in port_scan_profiles_config :
if profile == port_scan_profile :
found_scan_profile = True
for scan in port_scan_profiles_config [ profile ] :
if ' service-detection ' not in port_scan_profiles_config [ profile ] [ scan ] :
error ( ' The {profile} . {scan} scan does not have a defined service-detection section. Every scan must at least have a service-detection section defined with a command and a corresponding pattern that extracts the protocol (TCP/UDP), port, and service from the result. ' )
errors = True
else :
if ' command ' not in port_scan_profiles_config [ profile ] [ scan ] [ ' service-detection ' ] :
error ( ' The {profile} . {scan} .service-detection section does not have a command defined. Every service-detection section must have a command and a corresponding pattern that extracts the protocol (TCP/UDP), port, and service from the results. ' )
errors = True
else :
if ' {ports} ' in port_scan_profiles_config [ profile ] [ scan ] [ ' service-detection ' ] [ ' command ' ] and ' port-scan ' not in port_scan_profiles_config [ profile ] [ scan ] :
error ( ' The {profile} . {scan} .service-detection command appears to reference a port list but there is no port-scan section defined in {profile} . {scan} . Define a port-scan section with a command and corresponding pattern that extracts port numbers from the result, or replace the reference with a static list of ports. ' )
errors = True
if ' pattern ' not in port_scan_profiles_config [ profile ] [ scan ] [ ' service-detection ' ] :
error ( ' The {profile} . {scan} .service-detection section does not have a pattern defined. Every service-detection section must have a command and a corresponding pattern that extracts the protocol (TCP/UDP), port, and service from the results. ' )
errors = True
else :
if not all ( x in port_scan_profiles_config [ profile ] [ scan ] [ ' service-detection ' ] [ ' pattern ' ] for x in [ ' (?P<port> ' , ' (?P<protocol> ' , ' (?P<service> ' ] ) :
error ( ' The {profile} . {scan} .service-detection pattern does not contain one or more of the following matching groups: port, protocol, service. Ensure that all three of these matching groups are defined and capture the relevant data, e.g. (?P<port> \ d+) ' )
errors = True
if ' port-scan ' in port_scan_profiles_config [ profile ] [ scan ] :
if ' command ' not in port_scan_profiles_config [ profile ] [ scan ] [ ' port-scan ' ] :
error ( ' The {profile} . {scan} .port-scan section does not have a command defined. Every port-scan section must have a command and a corresponding pattern that extracts the port from the results. ' )
errors = True
if ' pattern ' not in port_scan_profiles_config [ profile ] [ scan ] [ ' port-scan ' ] :
error ( ' The {profile} . {scan} .port-scan section does not have a pattern defined. Every port-scan section must have a command and a corresponding pattern that extracts the port from the results. ' )
errors = True
else :
if ' (?P<port> ' not in port_scan_profiles_config [ profile ] [ scan ] [ ' port-scan ' ] [ ' pattern ' ] :
error ( ' The {profile} . {scan} .port-scan pattern does not contain a port matching group. Ensure that the port matching group is defined and captures the relevant data, e.g. (?P<port> \ d+) ' )
errors = True
break
if not found_scan_profile :
error ( ' Argument --profile: must reference a port scan profile defined in {port_scan_profiles_config_file} . No such profile found: {port_scan_profile} ' )
errors = True
heartbeat_interval = args . heartbeat
nmap = args . nmap
if args . nmap_append :
nmap + = " " + args . nmap_append
outdir = args . output_dir
srvname = ' '
verbose = args . verbose
raw_targets = args . targets
targets = [ ]
if len ( args . target_file ) > 0 :
if not os . path . isfile ( args . target_file ) :
error ( ' The target file {args.target_file} was not found. ' )
sys . exit ( 1 )
try :
with open ( args . target_file , ' r ' ) as f :
lines = f . read ( )
for line in lines . splitlines ( ) :
line = line . strip ( )
if line . startswith ( ' # ' ) or len ( line ) == 0 : continue
if line not in raw_targets :
raw_targets . append ( line )
except OSError :
error ( ' The target file {args.target_file} could not be read. ' )
sys . exit ( 1 )
for target in raw_targets :
try :
ip = str ( ipaddress . ip_address ( target ) )
if ip not in targets :
targets . append ( ip )
except ValueError :
try :
target_range = ipaddress . ip_network ( target , strict = False )
if not args . disable_sanity_checks and target_range . num_addresses > 256 :
error ( target + ' contains ' + str ( target_range . num_addresses ) + ' addresses. Check that your CIDR notation is correct. If it is, re-run with the --disable-sanity-checks option to suppress this check. ' )
errors = True
else :
for ip in target_range . hosts ( ) :
ip = str ( ip )
if ip not in targets :
targets . append ( ip )
except ValueError :
try :
ip = socket . gethostbyname ( target )
if target not in targets :
targets . append ( target )
except socket . gaierror :
error ( target + ' does not appear to be a valid IP address, IP range, or resolvable hostname. ' )
errors = True
if len ( targets ) == 0 :
error ( ' You must specify at least one target to scan! ' )
errors = True
if single_target and len ( targets ) != 1 :
error ( ' You cannot provide more than one target when scanning in single-target mode. ' )
sys . exit ( 1 )
if not args . disable_sanity_checks and len ( targets ) > 256 :
error ( ' A total of ' + str ( len ( targets ) ) + ' targets would be scanned. If this is correct, re-run with the --disable-sanity-checks option to suppress this check. ' )
errors = True
if errors :
sys . exit ( 1 )
with ProcessPoolExecutor ( max_workers = args . concurrent_targets ) as executor :
start_time = time . time ( )
futures = [ ]
for address in targets :
target = Target ( address )
futures . append ( executor . submit ( scan_host , target , concurrent_scans ) )
try :
for future in as_completed ( futures ) :
future . result ( )
except KeyboardInterrupt :
for future in futures :
future . cancel ( )
executor . shutdown ( wait = False )
sys . exit ( 1 )
elapsed_time = calculate_elapsed_time ( start_time )
info ( ' {bgreen} Finished scanning all targets in {elapsed_time} ! {rst} ' )