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sherlock/sherlock.py

337 lines
14 KiB

#! /usr/bin/env python3
"""
Sherlock: Find Usernames Across Social Networks Module
This module contains the main logic to search for usernames at social
networks.
"""
import csv
import json
import os
import platform
import re
from argparse import ArgumentParser, RawDescriptionHelpFormatter
from concurrent.futures import ThreadPoolExecutor
import requests
from colorama import Back, Fore, Style, init
from requests_futures.sessions import FuturesSession
from torrequest import TorRequest
module_name = "Sherlock: Find Usernames Across Social Networks"
__version__ = "0.1.2"
amount=0
# TODO: fix tumblr
def write_to_file(url, fname):
with open(fname, "a") as f:
f.write(url + "\n")
def final_score(amount, fname):
with open(fname, "a") as f:
f.write("Total: "+str(amount) + "\n")
def print_error(err, errstr, var, debug=False):
print(f"\033[37;1m[\033[91;1m-\033[37;1m]\033[91;1m {errstr}\033[93;1m {err if debug else var}")
def get_response(request_future, error_type, social_network, verbose=False):
try:
rsp = request_future.result()
if rsp.status_code:
return rsp, error_type
except requests.exceptions.HTTPError as errh:
print_error(errh, "HTTP Error:", social_network, verbose)
except requests.exceptions.ConnectionError as errc:
print_error(errc, "Error Connecting:", social_network, verbose)
except requests.exceptions.Timeout as errt:
print_error(errt, "Timeout Error:", social_network, verbose)
except requests.exceptions.RequestException as err:
print_error(err, "Unknown error:", social_network, verbose)
return None, ""
def sherlock(username, verbose=False, tor=False, unique_tor=False):
"""Run Sherlock Analysis.
Checks for existence of username on various social media sites.
Keyword Arguments:
username -- String indicating username that report
should be created against.
verbose -- Boolean indicating whether to give verbose output.
tor -- Boolean indicating whether to use a tor circuit for the requests.
unique_tor -- Boolean indicating whether to use a new tor circuit for each request.
Return Value:
Dictionary containing results from report. Key of dictionary is the name
of the social network site, and the value is another dictionary with
the following keys:
url_main: URL of main site.
url_user: URL of user on site (if account exists).
exists: String indicating results of test for account existence.
http_status: HTTP status code of query which checked for existence on
site.
response_text: Text that came back from request. May be None if
there was an HTTP error when checking for existence.
"""
global amount
fname = username.lower() + ".txt"
if os.path.isfile(fname):
os.remove(fname)
print("\033[1;92m[\033[0m\033[1;77m*\033[0m\033[1;92m] Removing previous file:\033[1;37m {}\033[0m".format(fname))
print("\033[1;92m[\033[0m\033[1;77m*\033[0m\033[1;92m] Checking username\033[0m\033[1;37m {}\033[0m\033[1;92m on: \033[0m".format(username))
# A user agent is needed because some sites don't
# return the correct information since they think that
# we are bots
headers = {
'User-Agent': 'Mozilla/5.0 (Macintosh; Intel Mac OS X 10.12; rv:55.0) Gecko/20100101 Firefox/55.0'
}
# Load the data
data_file_path = os.path.join(os.path.dirname(os.path.realpath(__file__)), "data.json")
with open(data_file_path, "r", encoding="utf-8") as raw:
data = json.load(raw)
# Allow 1 thread for each external service, so `len(data)` threads total
executor = ThreadPoolExecutor(max_workers=len(data))
# Create session based on request methodology
underlying_session = requests.session()
underlying_request = requests.Request()
if tor or unique_tor:
underlying_request = TorRequest()
underlying_session = underlying_request.session()
# Create multi-threaded session for all requests
session = FuturesSession(executor=executor, session=underlying_session)
# Results from analysis of all sites
results_total = {}
# First create futures for all requests. This allows for the requests to run in parallel
for social_network, net_info in data.items():
# Results from analysis of this specific site
results_site = {}
# Record URL of main site
results_site['url_main'] = net_info.get("urlMain")
# Don't make request if username is invalid for the site
regex_check = net_info.get("regexCheck")
if regex_check and re.search(regex_check, username) is None:
# No need to do the check at the site: this user name is not allowed.
print("\033[37;1m[\033[91;1m-\033[37;1m]\033[92;1m {}:\033[93;1m Illegal Username Format For This Site!".format(social_network))
results_site["exists"] = "illegal"
else:
# URL of user on site (if it exists)
url = net_info["url"].format(username)
results_site["url_user"] = url
# If only the status_code is needed don't download the body
if net_info["errorType"] == 'status_code':
request_method = session.head
else:
request_method = session.get
# This future starts running the request in a new thread, doesn't block the main thread
future = request_method(url=url, headers=headers)
# Store future in data for access later
net_info["request_future"] = future
# Reset identify for tor (if needed)
if unique_tor:
underlying_request.reset_identity()
# Add this site's results into final dictionary with all of the other results.
results_total[social_network] = results_site
# Core logic: If tor requests, make them here. If multi-threaded requests, wait for responses
for social_network, net_info in data.items():
# Retrieve results again
results_site = results_total.get(social_network)
# Retrieve other site information again
url = results_site.get("url_user")
exists = results_site.get("exists")
if exists is not None:
# We have already determined the user doesn't exist here
continue
# Get the expected error type
error_type = net_info["errorType"]
# Default data in case there are any failures in doing a request.
http_status = "?"
response_text = ""
# Retrieve future and ensure it has finished
future = net_info["request_future"]
r, error_type = get_response(request_future=future,
error_type=error_type,
social_network=social_network,
verbose=verbose)
# Attempt to get request information
try:
http_status = r.status_code
except:
pass
try:
response_text = r.text.encode(r.encoding)
except:
pass
if error_type == "message":
error = net_info.get("errorMsg")
# Checks if the error message is in the HTML
if not error in r.text:
print("\033[37;1m[\033[92;1m+\033[37;1m]\033[92;1m {}:\033[0m".format(social_network), url)
write_to_file(url, fname)
exists = "yes"
amount=amount+1
else:
print("\033[37;1m[\033[91;1m-\033[37;1m]\033[92;1m {}:\033[93;1m Not Found!".format(social_network))
exists = "no"
elif error_type == "status_code":
# Checks if the status code of the response is 2XX
if not r.status_code >= 300 or r.status_code < 200:
print("\033[37;1m[\033[92;1m+\033[37;1m]\033[92;1m {}:\033[0m".format(social_network), url)
write_to_file(url, fname)
exists = "yes"
amount=amount+1
else:
print("\033[37;1m[\033[91;1m-\033[37;1m]\033[92;1m {}:\033[93;1m Not Found!".format(social_network))
exists = "no"
elif error_type == "response_url":
error = net_info.get("errorUrl")
# Checks if the redirect url is the same as the one defined in data.json
if not error in r.url:
print("\033[37;1m[\033[92;1m+\033[37;1m]\033[92;1m {}:\033[0m".format(social_network), url)
write_to_file(url, fname)
exists = "yes"
amount=amount+1
else:
print("\033[37;1m[\033[91;1m-\033[37;1m]\033[92;1m {}:\033[93;1m Not Found!".format(social_network))
exists = "no"
elif error_type == "":
print("\033[37;1m[\033[91;1m-\033[37;1m]\033[92;1m {}:\033[93;1m Error!".format(social_network))
exists = "error"
# Save exists flag
results_site['exists'] = exists
# Save results from request
results_site['http_status'] = http_status
results_site['response_text'] = response_text
# Add this site's results into final dictionary with all of the other results.
results_total[social_network] = results_site
print("\033[1;92m[\033[0m\033[1;77m*\033[0m\033[1;92m] Saved: \033[37;1m{}\033[0m".format(username+".txt"))
final_score(amount, fname)
return results_total
def main():
# Colorama module's initialization.
init()
version_string = f"%(prog)s {__version__}\n" + \
f"{requests.__description__}: {requests.__version__}\n" + \
f"Python: {platform.python_version()}"
parser = ArgumentParser(formatter_class=RawDescriptionHelpFormatter,
description=f"{module_name} (Version {__version__})"
)
parser.add_argument("--version",
action="version", version=version_string,
help="Display version information and dependencies."
)
parser.add_argument("--verbose", "-v", "-d", "--debug",
action="store_true", dest="verbose", default=False,
help="Display extra debugging information."
)
parser.add_argument("--quiet", "-q",
action="store_false", dest="verbose",
help="Disable debugging information (Default Option)."
)
parser.add_argument("--tor", "-t",
action="store_true", dest="tor", default=False,
help="Make requests over TOR; increases runtime; requires TOR to be installed and in system path.")
parser.add_argument("--unique-tor", "-u",
action="store_true", dest="unique_tor", default=False,
help="Make requests over TOR with new TOR circuit after each request; increases runtime; requires TOR to be installed and in system path.")
parser.add_argument("--csv",
action="store_true", dest="csv", default=False,
help="Create Comma-Separated Values (CSV) File."
)
parser.add_argument("username",
nargs='+', metavar='USERNAMES',
action="store",
help="One or more usernames to check with social networks."
)
args = parser.parse_args()
# Banner
print(
"""\033[37;1m .\"\"\"-.
\033[37;1m / \\
\033[37;1m ____ _ _ _ | _..--'-.
\033[37;1m/ ___|| |__ ___ _ __| | ___ ___| |__ >.`__.-\"\"\;\"`
\033[37;1m\___ \| '_ \ / _ \ '__| |/ _ \ / __| |/ / / /( ^\\
\033[37;1m ___) | | | | __/ | | | (_) | (__| < '-`) =|-.
\033[37;1m|____/|_| |_|\___|_| |_|\___/ \___|_|\_\ /`--.'--' \ .-.
\033[37;1m .'`-._ `.\ | J /
\033[37;1m / `--.| \__/\033[0m""")
if args.tor or args.unique_tor:
print("Warning: some websites might refuse connecting over TOR, so note that using this option might increase connection errors.")
# Run report on all specified users.
for username in args.username:
print()
results = sherlock(username, verbose=args.verbose, tor=args.tor, unique_tor=args.unique_tor)
if args.csv == True:
with open(username + ".csv", "w", newline='') as csv_report:
writer = csv.writer(csv_report)
writer.writerow(['username',
'name',
'url_main',
'url_user',
'exists',
'http_status'
]
)
for site in results:
writer.writerow([username,
site,
results[site]['url_main'],
results[site]['url_user'],
results[site]['exists'],
results[site]['http_status']
]
)
if __name__ == "__main__":
main()