## # This module requires Metasploit: http://metasploit.com/download # Current source: https://github.com/rapid7/metasploit-framework ## require 'msf/core' require 'msf/core/auxiliary/jtr' class Metasploit3 < Msf::Auxiliary include Msf::Auxiliary::JohnTheRipper def initialize super( 'Name' => 'John the Ripper Password Cracker (Fast Mode)', 'Description' => %Q{ This module uses John the Ripper to identify weak passwords that have been acquired as hashed files (loot) or raw LANMAN/NTLM hashes (hashdump). The goal of this module is to find trivial passwords in a short amount of time. To crack complex passwords or use large wordlists, John the Ripper should be used outside of Metasploit. This initial version just handles LM/NTLM credentials from hashdump and uses the standard wordlist and rules. }, 'Author' => 'hdm', 'License' => MSF_LICENSE # JtR itself is GPLv2, but this wrapper is MSF (BSD) ) end def run cracker = new_john_cracker # generate our wordlist and close the file handle wordlist = wordlist_file wordlist.close print_status "Wordlist file written out to #{wordlist.path}" cracker.wordlist = wordlist.path cracker.hash_path = hash_file ['lm','nt'].each do |format| # dupe our original cracker so we can safely change options between each run cracker_instance = cracker.dup cracker_instance.format = format print_status "Cracking #{format} hashes in normal wordlist mode..." # Turn on KoreLogic rules if the user asked for it if datastore['KoreLogic'] cracker_instance.rules = 'KoreLogicRules' print_status "Applying KoreLogic ruleset..." end cracker_instance.crack do |line| print_status line.chomp end print_status "Cracking #{format} hashes in single mode..." cracker_instance.rules = 'single' cracker_instance.crack do |line| print_status line.chomp end if format == 'lm' print_status "Cracking #{format} hashes in incremental mode (All4)..." cracker_instance.rules = nil cracker_instance.wordlist = nil cracker_instance.incremental = 'All4' cracker_instance.crack do |line| print_status line.chomp end end print_status "Cracking #{format} hashes in incremental mode (Digits)..." cracker_instance.rules = nil cracker_instance.wordlist = nil cracker_instance.incremental = 'Digits' cracker_instance.crack do |line| print_status line.chomp end print_status "Cracked Passwords this run:" cracker_instance.each_cracked_password do |password_line| password_line.chomp! next if password_line.blank? fields = password_line.split(":") # If we don't have an expected minimum number of fields, this is probably not a hash line next unless fields.count >=7 username = fields.shift core_id = fields.pop # pop off dead space here 2.times{ fields.pop } # get the NT and LM hashes nt_hash = fields.pop lm_hash = fields.pop password = fields.join(':') if format == 'lm' if password.blank? if nt_hash == Metasploit::Credential::NTLMHash::BLANK_NT_HASH password = '' else next end end password = john_lm_upper_to_ntlm(password, nt_hash) # password can be nil if the hash is broken (i.e., the NT and # LM sides don't actually match) or if john was only able to # crack one half of the LM hash. In the latter case, we'll # have a line like: # username:???????WORD:...:...::: next if password.nil? end print_good "#{username}:#{password}:#{core_id}" create_cracked_credential( username: username, password: password, core_id: core_id) end end end def hash_file hashlist = Rex::Quickfile.new("hashes_tmp") Metasploit::Credential::NTLMHash.joins(:cores).where(metasploit_credential_cores: { workspace_id: myworkspace.id } ).each do |hash| hash.cores.each do |core| user = core.public.username hash_string = "#{hash.data}" id = core.id hashlist.puts "#{user}:#{id}:#{hash_string}:::#{id}" end end hashlist.close print_status "Hashes Written out to #{hashlist.path}" hashlist.path end end