# -*- coding: binary -*- # Copyright (c) 2010, patrickHVE@googlemail.com # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are met: # * Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # * Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # * The names of the author may not be used to endorse or promote products # derived from this software without specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND # ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED # WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE # DISCLAIMED. IN NO EVENT SHALL patrickHVE@googlemail.com BE LIABLE FOR ANY # DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES # (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; # LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND # ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS # SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. require 'pp' require 'enumerator' require 'rex/post/meterpreter/extensions/stdapi/railgun/api_constants' require 'rex/post/meterpreter/extensions/stdapi/railgun/tlv' require 'rex/post/meterpreter/extensions/stdapi/railgun/dll_helper' require 'rex/post/meterpreter/extensions/stdapi/railgun/buffer_item' module Rex module Post module Meterpreter module Extensions module Stdapi module Railgun # A easier way to call multiple functions in a single request class MultiCaller include DLLHelper def initialize( client, parent ) @parent = parent @client = client if( @client.platform =~ /x64/i ) @native = 'Q' else @native = 'V' end end def call(functions) request = Packet.create_request('stdapi_railgun_api_multi') function_results = [] layouts = [] functions.each do |f| dll_name,funcname,args = f dll_host = @parent.get_dll( dll_name ) if not dll_host raise "DLL #{dll_name} has not been loaded" end function = dll_host.functions[funcname] if not function raise "DLL #{dll_name} function #{funcname} has not been defined" end raise "#{function.params.length} arguments expected. #{args.length} arguments provided." unless args.length == function.params.length #puts "process_function_call(function.windows_name,#{PP.pp(args, "")})" # We transmit the immediate stack and three heap-buffers: # in, inout and out. The reason behind the separation is bandwidth. # We don't want to transmit uninitialized data in or no-longer-needed data out. # out-only-buffers that are ONLY transmitted on the way BACK out_only_layout = {} # paramName => BufferItem out_only_size_bytes = 0 #puts " assembling out-only buffer" function.params.each_with_index do |param_desc, param_idx| #puts " processing #{param_desc[1]}" # Special case: # The user can choose to supply a Null pointer instead of a buffer # in this case we don't need space in any heap buffer if param_desc[0][0,1] == 'P' # type is a pointer if args[param_idx] == nil next end end # we care only about out-only buffers if param_desc[2] == "out" raise "error in param #{param_desc[1]}: Out-only buffers must be described by a number indicating their size in bytes " unless args[param_idx].class == Fixnum buffer_size = args[param_idx] # bump up the size for an x64 pointer if( @native == 'Q' and buffer_size == 4 ) args[param_idx] = 8 buffer_size = args[param_idx] end if( @native == 'Q' ) raise "Please pass 8 for 'out' PDWORDS, since they require a buffer of size 8" unless buffer_size == 8 elsif( @native == 'V' ) raise "Please pass 4 for 'out' PDWORDS, since they require a buffer of size 4" unless buffer_size == 4 end out_only_layout[param_desc[1]] = BufferItem.new(param_idx, out_only_size_bytes, buffer_size, param_desc[0]) out_only_size_bytes += buffer_size end end tmp = assemble_buffer("in", function, args) in_only_layout = tmp[0] in_only_buffer = tmp[1] tmp = assemble_buffer("inout", function, args) inout_layout = tmp[0] inout_buffer = tmp[1] # now we build the stack # every stack dword will be described by two dwords: # first dword describes second dword: # 0 - literal, # 1 = relative to in-only buffer # 2 = relative to out-only buffer # 3 = relative to inout buffer # (literal numbers and pointers to buffers we have created) literal_pairs_blob = "" #puts " assembling literal stack" function.params.each_with_index do |param_desc, param_idx| #puts " processing (#{param_desc[0]}, #{param_desc[1]}, #{param_desc[2]})" buffer = nil # is it a pointer to a buffer on our stack if ["PDWORD", "PWCHAR", "PCHAR", "PBLOB"].include? param_desc[0] #puts " pointer" if args[param_idx] == nil # null pointer? buffer = [0].pack(@native) # type: DWORD (so the dll does not rebase it) buffer += [0].pack(@native) # value: 0 elsif param_desc[2] == "in" buffer = [1].pack(@native) buffer += [in_only_layout[param_desc[1]].addr].pack(@native) elsif param_desc[2] == "out" buffer = [2].pack(@native) buffer += [out_only_layout[param_desc[1]].addr].pack(@native) elsif param_desc[2] == "inout" buffer = [3].pack(@native) buffer += [inout_layout[param_desc[1]].addr].pack(@native) else raise "unexpected direction" end else #puts " not a pointer" # it's not a pointer buffer = [0].pack(@native) case param_desc[0] when "LPVOID", "HANDLE" num = param_to_number(args[param_idx]) buffer += [num].pack(@native) when "DWORD" num = param_to_number(args[param_idx]) buffer += [num % 4294967296].pack(@native) when "WORD" num = param_to_number(args[param_idx]) buffer += [num % 65536].pack(@native) when "BYTE" num = param_to_number(args[param_idx]) buffer += [num % 256].pack(@native) when "BOOL" case args[param_idx] when true buffer += [1].pack('V') when false buffer += [0].pack('V') else raise "param #{param_desc[1]}: true or false expected" end else raise "unexpected type for param #{param_desc[1]}" end end #puts " adding pair to blob" literal_pairs_blob += buffer #puts " buffer size %X" % buffer.length #puts " blob size so far: %X" % literal_pairs_blob.length end #puts "\n\nsending Stuff to meterpreter" group = Rex::Post::Meterpreter::GroupTlv.new(TLV_TYPE_RAILGUN_MULTI_GROUP) group.add_tlv(TLV_TYPE_RAILGUN_SIZE_OUT, out_only_size_bytes) group.add_tlv(TLV_TYPE_RAILGUN_STACKBLOB, literal_pairs_blob) group.add_tlv(TLV_TYPE_RAILGUN_BUFFERBLOB_IN, in_only_buffer) group.add_tlv(TLV_TYPE_RAILGUN_BUFFERBLOB_INOUT, inout_buffer) group.add_tlv(TLV_TYPE_RAILGUN_DLLNAME, dll_name ) group.add_tlv(TLV_TYPE_RAILGUN_FUNCNAME, function.windows_name) request.tlvs << group layouts << [inout_layout, out_only_layout] end call_results = [] res = @client.send_request(request) res.each(TLV_TYPE_RAILGUN_MULTI_GROUP) do |val| call_results << val end functions.each do |f| dll_name,funcname,args = f dll_host = @parent.get_dll( dll_name ) function = dll_host.functions[funcname] response = call_results.shift inout_layout, out_only_layout = layouts.shift rec_inout_buffers = response.get_tlv_value(TLV_TYPE_RAILGUN_BACK_BUFFERBLOB_INOUT) rec_out_only_buffers = response.get_tlv_value(TLV_TYPE_RAILGUN_BACK_BUFFERBLOB_OUT) rec_return_value = response.get_tlv_value(TLV_TYPE_RAILGUN_BACK_RET) rec_last_error = response.get_tlv_value(TLV_TYPE_RAILGUN_BACK_ERR) # The hash the function returns return_hash={"GetLastError" => rec_last_error} #process return value case function.return_type when "LPVOID", "HANDLE" if( @native == 'Q' ) return_hash["return"] = rec_return_value else return_hash["return"] = rec_return_value % 4294967296 end when "DWORD" return_hash["return"] = rec_return_value % 4294967296 when "WORD" return_hash["return"] = rec_return_value % 65536 when "BYTE" return_hash["return"] = rec_return_value % 256 when "BOOL" return_hash["return"] = (rec_return_value != 0) when "VOID" return_hash["return"] = nil else raise "unexpected return type: #{function.return_type}" end #puts return_hash #puts "out_only_layout:" #puts out_only_layout # process out-only buffers #puts "processing out-only buffers:" out_only_layout.each_pair do |param_name, buffer_item| #puts " #{param_name}" buffer = rec_out_only_buffers[buffer_item.addr, buffer_item.length_in_bytes] case buffer_item.datatype when "PDWORD" return_hash[param_name] = buffer.unpack('V')[0] when "PCHAR" return_hash[param_name] = asciiz_to_str(buffer) when "PWCHAR" return_hash[param_name] = uniz_to_str(buffer) when "PBLOB" return_hash[param_name] = buffer else raise "unexpected type in out-only buffer of #{param_name}: #{buffer_item.datatype}" end end #puts return_hash # process in-out buffers #puts "processing in-out buffers:" inout_layout.each_pair do |param_name, buffer_item| #puts " #{param_name}" buffer = rec_inout_buffers[buffer_item.addr, buffer_item.length_in_bytes] case buffer_item.datatype when "PDWORD" return_hash[param_name] = buffer.unpack('V')[0] when "PCHAR" return_hash[param_name] = asciiz_to_str(buffer) when "PWCHAR" return_hash[param_name] = uniz_to_str(buffer) when "PBLOB" return_hash[param_name] = buffer else raise "unexpected type in in-out-buffer of #{param_name}: #{buffer_item.datatype}" end end #puts return_hash #puts "finished" function_results << return_hash end function_results end # process_multi_function_call protected attr_accessor :win_consts end # MultiCall end; end; end; end; end; end