import os import json import random import string import datetime import zipfile import pyAesCrypt import smtplib from email.mime.multipart import MIMEMultipart from email.mime.base import MIMEBase from email.mime.text import MIMEText from email.utils import COMMASPACE from email import encoders import user_commands import room_commands import ipinfo_commands import hardcoded_variables # For testing the Report Generator, set this to True testing_mode = False def get_report_folder(): # Get report_folder from hardcoded_variables report_folder = hardcoded_variables.report_folder # If report_folder ends with a slash, remove it if report_folder.endswith(os.sep): report_folder = report_folder[:-1] return report_folder def encrypt_user_folder(user_report_folder, username): # Generate a strong random password strong_password = ''.join(random.choice(string.ascii_letters + string.digits) for i in range(20)) # Get parent directory of user_report_folder parent_directory = os.path.dirname(os.path.abspath(user_report_folder)) # Create the name of the .zip file including timestamp zip_file_name = os.path.join(parent_directory, username + "_" + datetime.datetime.now().strftime("%Y-%m-%d_%H-%M-%S") + ".zip") # Create a .zip file of the specified folder with zipfile.ZipFile(zip_file_name, 'w', zipfile.ZIP_DEFLATED) as zip_file: for root, dirs, files in os.walk(user_report_folder): for file in files: zip_file.write(os.path.join(root, file), arcname=os.path.relpath(os.path.join(root, file), user_report_folder)) # Buffer size - 64K bufferSize = 64 * 1024 # Encrypt the .zip file pyAesCrypt.encryptFile(zip_file_name, zip_file_name + ".aes", strong_password, bufferSize) # Delete the original zip file os.remove(zip_file_name) # You can return the password if you need to use it later, or you can directly print it here return strong_password, zip_file_name + ".aes" def generate_user_report(preset_username): if len(preset_username) == 0: username = input("\nPlease enter the username to automatically generate a report: ") username = user_commands.parse_username(username) else: username = user_commands.parse_username(preset_username) # Check if user exists if user_commands.check_user_account_exists(username) == True: print("\nUser exists, continuing with report generation.") return # If report_folder ends in a slash, remove it report_folder = get_report_folder() # Create report folders user_report_folder = report_folder + "/" + username + "/" if os.path.exists(report_folder) == False: os.mkdir(report_folder) if os.path.exists(user_report_folder) == False: os.mkdir(user_report_folder) # Get user account data and write to ./report/username/account_data.json account_data = user_commands.collect_account_data(username) account_data_file = open(user_report_folder + "account_data.json", "w") account_data_file.write(json.dumps(account_data, indent=4, sort_keys=True)) account_data_file.close() # Get user pushers and write to ./report/username/pushers.json pushers_data = user_commands.list_account_pushers(username) pushers_file = open(user_report_folder + "pushers.json", "w") pushers_file.write(json.dumps(pushers_data, indent=4, sort_keys=True)) pushers_file.close() # Get whois data and write to ./report/username/whois.json whois_data = user_commands.whois_account(username) whois_file = open(user_report_folder + "whois.json", "w") whois_file.write(json.dumps(whois_data, indent=4, sort_keys=True)) whois_file.close() # Get query data and write to ./report/username/query.json query_data = user_commands.query_account(username) query_file = open(user_report_folder + "query.json", "w") query_file.write(json.dumps(query_data, indent=4, sort_keys=True)) query_file.close() # Get user joined rooms and write to ./report/username/joined_rooms.json joined_rooms_dict = user_commands.list_joined_rooms(username) joined_rooms_file = open(user_report_folder + "joined_rooms.json", "w") joined_rooms_file.write(json.dumps(joined_rooms_dict, indent=4, sort_keys=True)) joined_rooms_file.close() # Get user ipinfo and write to ./report/username/ipinfo.json ipinfo = ipinfo_commands.analyse_account_ip(username) ipinfo_file = open(user_report_folder + "ipinfo.json", "w") ipinfo_file.write(json.dumps(ipinfo, indent=4, sort_keys=True)) ipinfo_file.close() # For each room the user is in, get the room state and write to ./report/username/room_states/ room_states_folder = user_report_folder + "room_states/" if os.path.exists(room_states_folder) == False: os.mkdir(room_states_folder) room_list = joined_rooms_dict.get('joined_rooms', []) count = 0 for room in room_list: count += 1 room = room.split(" ")[0] room_commands.export_room_state(room, room_states_folder) if count > 4 and testing_mode == True: break # For each room the user is in, get the room details and write to ./report/username/room_details/ room_details_folder = user_report_folder + "room_details/" if os.path.exists(room_details_folder) == False: os.mkdir(room_details_folder) count = 0 for room in room_list: count += 1 room = room.split(" ")[0] room_details = room_commands.list_room_details(room) room_details_file = open(room_details_folder + room + ".json", "w") room_details_file.write(str(room_details)) room_details_file.close() if count > 4 and testing_mode == True: break # Generate a random password, then encrypt the ./report/username/ folder to a timestamped .zip file strong_password, encrypted_zip_file_name = encrypt_user_folder(user_report_folder, username) # Measure the size of the encrypted .zip file in MB encrypted_zip_file_size = os.path.getsize(encrypted_zip_file_name) / 1000000 # Print the password and the encrypted .zip file name print("\nReport generated successfully on user: \"" + username + "\"\n\nYou can send this .zip file and password when reporting a user to law enforcement.") print("\nPassword: " + strong_password) print("Encrypted .zip file location: " + encrypted_zip_file_name) print("Encrypted .zip file size: " + str(encrypted_zip_file_size) + " MB\n") def decrypt_zip_file(): # Ask user for the location of the encrypted .zip file encrypted_zip_file_name = input("\nPlease enter the location of the encrypted .zip file: ") # Ask user for the password strong_password = input("Please enter the password: ") # Decrypt the ZIP file into the same location as the encrypted ZIP file pyAesCrypt.decryptFile(encrypted_zip_file_name, encrypted_zip_file_name[:-4], strong_password, 64 * 1024) # Print the location of the decrypted ZIP file print("\nDecrypted .zip file location: " + encrypted_zip_file_name[:-4] + "\n") def send_email(email_address, email_subject, email_content, email_attachments): assert isinstance(email_attachments, list) msg = MIMEMultipart() # Create a multipart message msg['From'] = hardcoded_variables.smtp_user msg['To'] = COMMASPACE.join([email_address]) msg['Subject'] = email_subject msg.attach(MIMEText(email_content)) # Attach the email body # Attach files for file in email_attachments: part = MIMEBase('application', "octet-stream") with open(file, 'rb') as f: part.set_payload(f.read()) encoders.encode_base64(part) part.add_header('Content-Disposition', 'attachment', filename=os.path.basename(file)) msg.attach(part) try: # Send the email via SMTP server smtp = smtplib.SMTP(hardcoded_variables.smtp_server, hardcoded_variables.smtp_port) smtp.starttls() smtp.login(hardcoded_variables.smtp_user, hardcoded_variables.smtp_password) smtp.sendmail(hardcoded_variables.smtp_user, email_address, msg.as_string()) smtp.close() return True except Exception as e: print(f"Failed to send email: {e}") return False def test_send_email(): # Ask the user for the destination email address email_address = input("\nPlease enter the destination email address to send this test email too: ") # Example email parameters email_subject = "Test Email" email_content = "This is a test email." email_attachments = ["./test_data/evil_clown.jpeg"] # List of file paths. Adjust this to the actual files you want to attach. # Try to send the email if send_email(email_address, email_subject, email_content, email_attachments): print("\nEmail successfully sent.") else: print("\nFailed to send email.")