258 lines
9.3 KiB
Ruby
258 lines
9.3 KiB
Ruby
##
|
|
# $Id$
|
|
##
|
|
|
|
##
|
|
# 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::Nop
|
|
|
|
def initialize
|
|
super(
|
|
'Name' => 'Simple',
|
|
'Alias' => 'x64_simple',
|
|
'Version' => '$Revision$',
|
|
'Description' => 'An x64 single/multi byte NOP instruction generator.',
|
|
'Author' => [ 'sf' ],
|
|
'License' => MSF_LICENSE,
|
|
'Arch' => ARCH_X86_64 )
|
|
|
|
register_advanced_options( [ OptBool.new( 'RandomNops', [ false, "Generate a random NOP sled", true ] ) ], self.class )
|
|
register_advanced_options( [ OptBool.new( 'MultiByte', [ false, "Generate a multi byte instruction NOP sled", false ] ) ], self.class )
|
|
end
|
|
|
|
# This instruction list is far from complete (Only single byte instructions and some multi byte ADD/MOV instructions are used).
|
|
# A more complete list might warrent an pseudo assembler (Rex::Arch::X64) instead of hardcoding these.
|
|
INSTRUCTIONS = [ [ "\x90", 0, "nop" ],
|
|
[ "\x91", 0, "xchg eax, ecx" ],
|
|
[ "\x92", 0, "xchg eax, edx" ],
|
|
[ "\x93", 0, "xchg eax, ebx" ],
|
|
[ "\x94", 0, "xchg eax, esp" ],
|
|
[ "\x95", 0, "xchg eax, ebp" ],
|
|
[ "\x96", 0, "xchg eax, esi" ],
|
|
[ "\x97", 0, "xchg eax, edi" ],
|
|
[ "\x98", 0, "cwde" ],
|
|
[ "\x99", 0, "cdq" ],
|
|
[ "\x9B", 0, "wait" ],
|
|
[ "\x9C", 0, "pushfq" ],
|
|
[ "\x9D", 0, "popfq" ],
|
|
[ "\x9E", 0, "sahf" ],
|
|
[ "\x9F", 0, "lahf" ],
|
|
[ "\xFC", 0, "cld" ],
|
|
[ "\xFD", 0, "std" ],
|
|
[ "\xF8", 0, "clc" ],
|
|
[ "\xF9", 0, "cmc" ],
|
|
[ "\x50", 0, "push rax" ],
|
|
[ "\x51", 0, "push rcx" ],
|
|
[ "\x52", 0, "push rdx" ],
|
|
[ "\x53", 0, "push rbx" ],
|
|
[ "\x54", 0, "push rsp" ],
|
|
[ "\x55", 0, "push rbp" ],
|
|
[ "\x56", 0, "push rsi" ],
|
|
[ "\x57", 0, "push rdi" ],
|
|
[ "\x58", 0, "pop rax" ],
|
|
[ "\x59", 0, "pop rcx" ],
|
|
[ "\x5A", 0, "pop rdx" ],
|
|
[ "\x5B", 0, "pop rbx" ],
|
|
[ "\x5C", 0, "pop rsp" ],
|
|
[ "\x5D", 0, "pop rbp" ],
|
|
[ "\x5E", 0, "pop rsi" ],
|
|
[ "\x5F", 0, "pop rdi" ],
|
|
[ "\x04", 1, "add al, 0x??" ],
|
|
[ "\x80\xC3", 1, "add bl, 0x??" ],
|
|
[ "\x80\xC1", 1, "add cl, 0x??" ],
|
|
[ "\x80\xC2", 1, "add dl, 0x??" ],
|
|
[ "\x80\xC4", 1, "add ah, 0x??" ],
|
|
[ "\x80\xC7", 1, "add bh, 0x??" ],
|
|
[ "\x80\xC5", 1, "add ch, 0x??" ],
|
|
[ "\x80\xC6", 1, "add dh, 0x??" ],
|
|
[ "\x66\x05", 2, "add ax, 0x????" ],
|
|
[ "\x66\x81\xC3", 2, "add bx, 0x????" ],
|
|
[ "\x66\x81\xC1", 2, "add cx, 0x????" ],
|
|
[ "\x66\x81\xC2", 2, "add dx, 0x????" ],
|
|
[ "\x66\x81\xC6", 2, "add si, 0x????" ],
|
|
[ "\x66\x81\xC7", 2, "add di, 0x????" ],
|
|
[ "\x66\x41\x81\xC0", 2, "add r8w, 0x????" ],
|
|
[ "\x66\x41\x81\xC1", 2, "add r9w, 0x????" ],
|
|
[ "\x66\x41\x81\xC2", 2, "add r10w, 0x????" ],
|
|
[ "\x66\x41\x81\xC3", 2, "add r11w, 0x????" ],
|
|
[ "\x66\x41\x81\xC4", 2, "add r12w, 0x????" ],
|
|
[ "\x66\x41\x81\xC5", 2, "add r13w, 0x????" ],
|
|
[ "\x66\x41\x81\xC6", 2, "add r14w, 0x????" ],
|
|
[ "\x66\x41\x81\xC7", 2, "add r15w, 0x????" ],
|
|
[ "\x05", 4, "add eax, 0x????????" ],
|
|
[ "\x81\xC3", 4, "add ebx, 0x????????" ],
|
|
[ "\x81\xC1", 4, "add ecx, 0x????????" ],
|
|
[ "\x81\xC2", 4, "add edx, 0x????????" ],
|
|
[ "\x81\xC6", 4, "add esi, 0x????????" ],
|
|
[ "\x81\xC7", 4, "add edi, 0x????????" ],
|
|
[ "\x41\x81\xC0", 4, "add r8d, 0x????????" ],
|
|
[ "\x41\x81\xC1", 4, "add r9d, 0x????????" ],
|
|
[ "\x41\x81\xC2", 4, "add r10d, 0x????????" ],
|
|
[ "\x41\x81\xC3", 4, "add r11d, 0x????????" ],
|
|
[ "\x41\x81\xC4", 4, "add r12d, 0x????????" ],
|
|
[ "\x41\x81\xC5", 4, "add r13d, 0x????????" ],
|
|
[ "\x41\x81\xC6", 4, "add r14d, 0x????????" ],
|
|
[ "\x41\x81\xC7", 4, "add r15d, 0x????????" ],
|
|
[ "\x48\xB8", 8, "mov rax, 0x????????????????" ],
|
|
[ "\x48\xBB", 8, "mov rbx, 0x????????????????" ],
|
|
[ "\x48\xB9", 8, "mov rcx, 0x????????????????" ],
|
|
[ "\x48\xBA", 8, "mov rdx, 0x????????????????" ],
|
|
[ "\x48\xBE", 8, "mov rsi, 0x????????????????" ],
|
|
[ "\x48\xBF", 8, "mov rdi, 0x????????????????" ],
|
|
[ "\x49\xB8", 8, "mov r8, 0x????????????????" ],
|
|
[ "\x49\xB9", 8, "mov r8, 0x????????????????" ],
|
|
[ "\x49\xBA", 8, "mov r10, 0x????????????????" ],
|
|
[ "\x49\xBB", 8, "mov r11, 0x????????????????" ],
|
|
[ "\x49\xBC", 8, "mov r12, 0x????????????????" ],
|
|
[ "\x49\xBD", 8, "mov r13, 0x????????????????" ],
|
|
[ "\x49\xBE", 8, "mov r14, 0x????????????????" ],
|
|
[ "\x49\xBF", 8, "mov r15, 0x????????????????" ],
|
|
]
|
|
|
|
I_OP = 0
|
|
I_SIZE = 1
|
|
I_TEXT = 2
|
|
|
|
REGISTERS = [ [ "rsp", "esp", "sp" ],
|
|
[ "rbp", "ebp", "bp" ],
|
|
[ "rax", "eax", "ax", "al", "ah" ],
|
|
[ "rbx", "ebx", "bx", "bl", "bh" ],
|
|
[ "rcx", "ecx", "cx", "cl", "ch" ],
|
|
[ "rdx", "edx", "dx", "dl", "dh" ],
|
|
[ "rsi", "esi", "si" ],
|
|
[ "rdi", "edi", "di" ],
|
|
[ "r8", "r8d", "r8w", "r8b" ],
|
|
[ "r9", "r9d", "r9w", "r9b" ],
|
|
[ "r10", "r10d", "r10w", "r10b" ],
|
|
[ "r11", "r11d", "r11w", "r11b" ],
|
|
[ "r12", "r12d", "r12w", "r12b" ],
|
|
[ "r13", "r13d", "r13w", "r13b" ],
|
|
[ "r14", "r14d", "r14w", "r14b" ],
|
|
[ "r15", "r15d", "r15w", "r15b" ],
|
|
]
|
|
|
|
def generate_random_sled( length, instructions, badchars, badregs )
|
|
opcodes_stack = []
|
|
total_size = 0
|
|
sled = ''
|
|
try_count = 0
|
|
good_bytes = []
|
|
|
|
# Fixup SaveRegisters so for example, if we wish to preserve RSP we also should also preserve ESP and SP
|
|
REGISTERS.each { | reg | reg.each { |x| badregs += reg if badregs.include?( x ) } }
|
|
badregs = badregs.uniq()
|
|
|
|
# If we are preserving RSP we should avoid all PUSH/POP instructions...
|
|
if badregs.include?( "rsp" )
|
|
badregs.push( 'push' )
|
|
badregs.push( 'pop' )
|
|
end
|
|
|
|
# Loop while we still have bytes to fill in the sled...
|
|
while true
|
|
# Pick a random instruction and see if we can use it...
|
|
instruction = instructions[ rand(instructions.length) ]
|
|
|
|
# Avoid using any bad mnemonics/registers...
|
|
try_another = false
|
|
badregs.each do | bad |
|
|
try_another = true if instruction[I_TEXT].include?( bad.downcase() )
|
|
break if try_another
|
|
end
|
|
next if try_another
|
|
|
|
# Get the first bytes of the chosed instructions opcodes...
|
|
opcodes = instruction[I_OP]
|
|
|
|
# If their are additional bytes to append, do it now...
|
|
1.upto( instruction[I_SIZE] ) do | i |
|
|
opcodes += Rex::Text.rand_char( badchars )
|
|
end
|
|
|
|
# If we have gone over the requested sled length, try again.
|
|
if total_size + opcodes.length > length
|
|
try_count -= 1
|
|
|
|
# If we have tried unsuccessfully 32 times we start unwinding the chosen opcode_stack to speed things up
|
|
if try_count == 0
|
|
pop_count = 4
|
|
while opcodes_stack.length and pop_count
|
|
total_size -= opcodes_stack.pop().length
|
|
pop_count -= 1
|
|
end
|
|
end
|
|
next
|
|
end
|
|
|
|
# Reset the try_count for the next itteration.
|
|
try_count = 32
|
|
|
|
# save the opcodes we just generated.
|
|
opcodes_stack.push( opcodes )
|
|
|
|
# Increment the total size appropriately.
|
|
total_size += opcodes.length
|
|
|
|
# Once we have generated the requested amount of bytes we can finish.
|
|
break if total_size == length
|
|
end
|
|
|
|
# Now that we have chosen all the instructions to use we must generate the actual sled.
|
|
opcodes_stack.each do | opcodes_ |
|
|
sled += opcodes_
|
|
end
|
|
|
|
return sled
|
|
end
|
|
|
|
def generate_sled( length, opts )
|
|
badchars = opts['BadChars'] || ''
|
|
random = opts['Random'] || datastore['RandomNops']
|
|
badregs = opts['SaveRegisters'] || []
|
|
good_instructions = []
|
|
sled = ''
|
|
|
|
# Weed out any instructions which will contain a bad char/instruction...
|
|
INSTRUCTIONS.each do | instruction |
|
|
good = true;
|
|
# If the instruction contains some bad chars we wont use it...
|
|
badchars.each do | bc |
|
|
if instruction[I_OP].include?( bc )
|
|
good = false
|
|
break
|
|
end
|
|
end
|
|
# if we are only to generate single byte instructions, weed out the multi byte ones...
|
|
good = false if instruction[I_SIZE] > 0 and not datastore['MultiByte']
|
|
|
|
good_instructions.push( instruction ) if good
|
|
end
|
|
|
|
# After we have pruned the instruction list we can proceed to generate a sled...
|
|
if good_instructions.empty?
|
|
# If we are left with no valid instructions to use we simple cant generate a sled.
|
|
sled = nil
|
|
elsif not random
|
|
if not badchars.include?( "\x90" )
|
|
sled += "\x90" * length
|
|
else
|
|
sled = nil
|
|
end
|
|
else
|
|
sled += generate_random_sled( length, good_instructions, badchars, badregs )
|
|
end
|
|
|
|
return sled
|
|
end
|
|
|
|
end
|