Merge branch 'master' into domain_object

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Terrtia 2019-11-05 16:03:42 +01:00
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8 changed files with 105 additions and 145 deletions

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@ -42,8 +42,8 @@ Features
* Multiple feed support * Multiple feed support
* Each module can process and reprocess the information already processed by AIL * Each module can process and reprocess the information already processed by AIL
* Detecting and extracting URLs including their geographical location (e.g. IP address location) * Detecting and extracting URLs including their geographical location (e.g. IP address location)
* Extracting and validating potential leak of credit cards numbers, credentials, ... * Extracting and validating potential leaks of credit card numbers, credentials, ...
* Extracting and validating email addresses leaked including DNS MX validation * Extracting and validating leaked email addresses, including DNS MX validation
* Module for extracting Tor .onion addresses (to be further processed for analysis) * Module for extracting Tor .onion addresses (to be further processed for analysis)
* Keep tracks of duplicates (and diffing between each duplicate found) * Keep tracks of duplicates (and diffing between each duplicate found)
* Extracting and validating potential hostnames (e.g. to feed Passive DNS systems) * Extracting and validating potential hostnames (e.g. to feed Passive DNS systems)

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@ -1,142 +0,0 @@
#!/usr/bin/env python3
# -*-coding:UTF-8 -*
"""
The Bitcoin Module
============================
It trying to extract Bitcoin address and secret key from paste
..seealso:: Paste method (get_regex)
Requirements
------------
*Need running Redis instances. (Redis).
"""
from packages import Paste
from Helper import Process
from pubsublogger import publisher
import re
import time
import redis
from hashlib import sha256
#### thank http://rosettacode.org/wiki/Bitcoin/address_validation#Python for this 2 functions
def decode_base58(bc, length):
n = 0
for char in bc:
n = n * 58 + digits58.index(char)
return n.to_bytes(length, 'big')
def check_bc(bc):
try:
bcbytes = decode_base58(bc, 25)
return bcbytes[-4:] == sha256(sha256(bcbytes[:-4]).digest()).digest()[:4]
except Exception:
return False
########################################################
def search_key(content, message, paste):
bitcoin_address = re.findall(regex_bitcoin_public_address, content)
bitcoin_private_key = re.findall(regex_bitcoin_private_key, content)
date = str(paste._get_p_date())
validate_address = False
key = False
if(len(bitcoin_address) >0):
#print(message)
for address in bitcoin_address:
if(check_bc(address)):
validate_address = True
print('Bitcoin address found : {}'.format(address))
if(len(bitcoin_private_key) > 0):
for private_key in bitcoin_private_key:
print('Bitcoin private key found : {}'.format(private_key))
key = True
# build bitcoin correlation
save_cryptocurrency_data('bitcoin', date, message, address)
if(validate_address):
p.populate_set_out(message, 'Duplicate')
to_print = 'Bitcoin found: {} address and {} private Keys'.format(len(bitcoin_address), len(bitcoin_private_key))
print(to_print)
publisher.warning(to_print)
msg = 'infoleak:automatic-detection="bitcoin-address";{}'.format(message)
p.populate_set_out(msg, 'Tags')
if(key):
msg = 'infoleak:automatic-detection="bitcoin-private-key";{}'.format(message)
p.populate_set_out(msg, 'Tags')
to_print = 'Bitcoin;{};{};{};'.format(paste.p_source, paste.p_date,
paste.p_name)
publisher.warning('{}Detected {} Bitcoin private key;{}'.format(
to_print, len(bitcoin_private_key),paste.p_rel_path))
def save_cryptocurrency_data(cryptocurrency_name, date, item_path, cryptocurrency_address):
# create basic medata
if not serv_metadata.exists('cryptocurrency_metadata_{}:{}'.format(cryptocurrency_name, cryptocurrency_address)):
serv_metadata.hset('cryptocurrency_metadata_{}:{}'.format(cryptocurrency_name, cryptocurrency_address), 'first_seen', date)
serv_metadata.hset('cryptocurrency_metadata_{}:{}'.format(cryptocurrency_name, cryptocurrency_address), 'last_seen', date)
else:
last_seen = serv_metadata.hget('cryptocurrency_metadata_{}:{}'.format(cryptocurrency_name, cryptocurrency_address), 'last_seen')
if not last_seen:
serv_metadata.hset('cryptocurrency_metadata_{}:{}'.format(cryptocurrency_name, cryptocurrency_address), 'last_seen', date)
else:
if int(last_seen) < int(date):
serv_metadata.hset('cryptocurrency_metadata_{}:{}'.format(cryptocurrency_name, cryptocurrency_address), 'last_seen', date)
# global set
serv_metadata.sadd('set_cryptocurrency_{}:{}'.format(cryptocurrency_name, cryptocurrency_address), item_path)
# daily
serv_metadata.hincrby('cryptocurrency:{}:{}'.format(cryptocurrency_name, date), cryptocurrency_address, 1)
# all type
serv_metadata.zincrby('cryptocurrency_all:{}'.format(cryptocurrency_name), cryptocurrency_address, 1)
# item_metadata
serv_metadata.sadd('item_cryptocurrency_{}:{}'.format(cryptocurrency_name, item_path), cryptocurrency_address)
if __name__ == "__main__":
publisher.port = 6380
publisher.channel = "Script"
config_section = 'Bitcoin'
# Setup the I/O queues
p = Process(config_section)
serv_metadata = redis.StrictRedis(
host=p.config.get("ARDB_Metadata", "host"),
port=p.config.getint("ARDB_Metadata", "port"),
db=p.config.getint("ARDB_Metadata", "db"),
decode_responses=True)
# Sent to the logging a description of the module
publisher.info("Run Keys module ")
digits58 = '123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz'
regex_bitcoin_public_address = re.compile(r'(?<![a-km-zA-HJ-NP-Z0-9])[13][a-km-zA-HJ-NP-Z0-9]{26,33}(?![a-km-zA-HJ-NP-Z0-9])')
regex_bitcoin_private_key = re.compile(r'[5KL][1-9A-HJ-NP-Za-km-z]{50,51}')
# Endless loop getting messages from the input queue
while True:
# Get one message from the input queue
message = p.get_from_set()
if message is None:
publisher.debug("{} queue is empty, waiting".format(config_section))
time.sleep(1)
continue
# Do something with the message from the queue
paste = Paste.Paste(message)
content = paste.get_p_content()
search_key(content, message, paste)

81
bin/IPAddress.py Executable file
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@ -0,0 +1,81 @@
#!/usr/bin/env python3
# -*-coding:UTF-8 -*
"""
The IP Module
======================
This module is consuming the global channel.
It first performs a regex to find IP addresses and then matches those IPs to
some configured ip ranges.
The list of IP ranges are expected to be in CIDR format (e.g. 192.168.0.0/16)
and should be defined in the config.cfg file, under the [IP] section
"""
import time
import re
from pubsublogger import publisher
from packages import Paste
from Helper import Process
from ipaddress import IPv4Network, IPv4Address
def search_ip(message):
paste = Paste.Paste(message)
content = paste.get_p_content()
# regex to find IPs
reg_ip = re.compile(r'^(?:(?:25[0-5]|2[0-4][0-9]|[01]?[0-9][0-9]?)\.){3}(?:25[0-5]|2[0-4][0-9]|[01]?[0-9][0-9]?)', flags=re.MULTILINE)
# list of the regex results in the Paste, may be null
results = reg_ip.findall(content)
matching_ips = []
for res in results:
address = IPv4Address(res)
for network in ip_networks:
if address in network:
matching_ips.append(address)
if len(matching_ips) > 0:
print('{} contains {} IPs'.format(paste.p_name, len(matching_ips)))
publisher.warning('{} contains {} IPs'.format(paste.p_name, len(matching_ips)))
#Tag message with IP
msg = 'infoleak:automatic-detection="ip";{}'.format(message)
p.populate_set_out(msg, 'Tags')
#Send to duplicate
p.populate_set_out(message, 'Duplicate')
if __name__ == '__main__':
# If you wish to use an other port of channel, do not forget to run a subscriber accordingly (see launch_logs.sh)
# Port of the redis instance used by pubsublogger
publisher.port = 6380
# Script is the default channel used for the modules.
publisher.channel = 'Script'
# Section name in bin/packages/modules.cfg
config_section = 'IP'
# Setup the I/O queues
p = Process(config_section)
ip_networks = []
for network in p.config.get("IP", "networks").split(","):
ip_networks.append(IPv4Network(network))
# Sent to the logging a description of the module
publisher.info("Run IP module")
# Endless loop getting messages from the input queue
while True:
# Get one message from the input queue
message = p.get_from_set()
if message is None:
publisher.debug("{} queue is empty, waiting".format(config_section))
time.sleep(1)
continue
# Do something with the message from the queue
search_ip(message)

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@ -121,6 +121,13 @@ def search_key(paste):
p.populate_set_out(msg, 'Tags') p.populate_set_out(msg, 'Tags')
find = True find = True
if '-----BEGIN PUBLIC KEY-----' in content:
publisher.warning('{} has a public key message'.format(paste.p_name))
msg = 'infoleak:automatic-detection="public-key";{}'.format(message)
p.populate_set_out(msg, 'Tags')
find = True
# pgp content # pgp content
if get_pgp_content: if get_pgp_content:
p.populate_set_out(message, 'PgpDump') p.populate_set_out(message, 'PgpDump')

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@ -186,7 +186,9 @@ function launching_scripts {
sleep 0.1 sleep 0.1
screen -S "Script_AIL" -X screen -t "Decoder" bash -c "cd ${AIL_BIN}; ${ENV_PY} ./Decoder.py; read x" screen -S "Script_AIL" -X screen -t "Decoder" bash -c "cd ${AIL_BIN}; ${ENV_PY} ./Decoder.py; read x"
sleep 0.1 sleep 0.1
screen -S "Script_AIL" -X screen -t "Bitcoin" bash -c "cd ${AIL_BIN}; ${ENV_PY} ./Bitcoin.py; read x" screen -S "Script_AIL" -X screen -t "Cryptocurrency" bash -c "cd ${AIL_BIN}; ${ENV_PY} ./Cryptocurrencies.py; read x"
sleep 0.1
screen -S "Script_AIL" -X screen -t "Tools" bash -c "cd ${AIL_BIN}; ${ENV_PY} ./Tools.py; read x"
sleep 0.1 sleep 0.1
screen -S "Script_AIL" -X screen -t "Phone" bash -c "cd ${AIL_BIN}; ${ENV_PY} ./Phone.py; read x" screen -S "Script_AIL" -X screen -t "Phone" bash -c "cd ${AIL_BIN}; ${ENV_PY} ./Phone.py; read x"
sleep 0.1 sleep 0.1
@ -213,6 +215,8 @@ function launching_scripts {
screen -S "Script_AIL" -X screen -t "UpdateBackground" bash -c "cd ${AIL_BIN}; ${ENV_PY} ./update-background.py; read x" screen -S "Script_AIL" -X screen -t "UpdateBackground" bash -c "cd ${AIL_BIN}; ${ENV_PY} ./update-background.py; read x"
sleep 0.1 sleep 0.1
screen -S "Script_AIL" -X screen -t "SubmitPaste" bash -c "cd ${AIL_BIN}; ${ENV_PY} ./submit_paste.py; read x" screen -S "Script_AIL" -X screen -t "SubmitPaste" bash -c "cd ${AIL_BIN}; ${ENV_PY} ./submit_paste.py; read x"
sleep 0.1
screen -S "Script_AIL" -X screen -t "IPAddress" bash -c "cd ${AIL_BIN}; ${ENV_PY} ./IPAddress.py; read x"
} }

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@ -132,3 +132,7 @@ publish = Redis_Mixer
[Crawler] [Crawler]
subscribe = Redis_Crawler subscribe = Redis_Crawler
publish = Redis_Mixer,Redis_Tags publish = Redis_Mixer,Redis_Tags
[IP]
subscribe = Redis_Global
publish = Redis_Duplicate,Redis_Tags

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@ -266,3 +266,8 @@ default_crawler_closespider_pagecount = 50
default_crawler_user_agent = Mozilla/5.0 (Windows NT 6.1; rv:60.0) Gecko/20100101 Firefox/60.0 default_crawler_user_agent = Mozilla/5.0 (Windows NT 6.1; rv:60.0) Gecko/20100101 Firefox/60.0
splash_url = http://127.0.0.1 splash_url = http://127.0.0.1
splash_port = 8050-8052 splash_port = 8050-8052
[IP]
# list of comma-separated CIDR that you wish to be alerted for. e.g:
#networks = 192.168.34.0/24,10.0.0.0/8,192.168.33.0/24
networks =

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@ -50,6 +50,7 @@ flask-login
bcrypt bcrypt
#DomainClassifier #DomainClassifier
git+https://github.com/D4-project/BGP-Ranking.git/#egg=pybgpranking&subdirectory=client
DomainClassifier DomainClassifier
#Indexer requirements #Indexer requirements
whoosh whoosh