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I'm trying to perform DLL injection using Python's Ctypes. I attach Olly to the process that I'm trying to inject and the thread that I'm trying to creates gives the error, "ERROR_INVALID_PARAMETER 00000057". I've been doing some research and I've found that as the error says one of my parameters is bad when I call CreateRemoteThread. I can't seem to figure out what parameter is bad as all the values that I send in seem valid. I set an Olly conditional break point on the call to LoadLibrary and the dll name and (full) path are correct. I also don't see my custom dll loaded in the memory space of the process (in Olly). I'm wondering if it has to do with the fact that my dll and path are unicode when I send them in as a parameter. Although the conditional breakpoint on LoadLibrary says the correct name and path. I also set the argtype and as I understand it an error would be thrown if it was the wrong type and it would try to convert it to the correct type when possible.

import sys
from ctypes import *
from ctypes import wintypes
import ctypes

BYTE      = c_ubyte
WORD      = c_ushort
DWORD     = c_ulong
LPBYTE    = POINTER(c_ubyte)
LPTSTR    = POINTER(c_char) 
HANDLE    = c_void_p
PVOID     = c_void_p
LPVOID    = c_void_p
UNIT_PTR  = c_ulong
SIZE_T    = c_ulong

class SECURITY_ATTRIBUTES(ctypes.Structure):
_fields_ = [("nLength", DWORD),
            ("lpSecurityDescriptor", LPVOID),
            ("bInheritHandle", wintypes.BOOL)]


kernel32.CreateRemoteThread.retype = wintypes.HANDLE
kernel32.CreateRemoteThread.argtypes = [wintypes.HANDLE, LPSECURITY_ATTRIBUTES, ctypes.c_size_t, LPTHREAD_START_ROUTINE, wintypes.LPVOID, wintypes.DWORD, wintypes.LPDWORD]

pid     = sys.argv[1]
dll_path    = sys.argv[2]  #'myDLL.dll'
dll_len = len(dll_path) * 2 #Multiplied by 2 so it would take into account the unicode characters

h_process = kernel32.OpenProcess( PROCESS_ALL_ACCESS, False, int(pid))
arg_address = kernel32.VirtualAllocEx(h_process, 0, dll_len, VIRTUAL_MEM, PAGE_READWRITE)

written = c_ubyte(0)
bSuccess = kernel32.WriteProcessMemory(h_process, arg_address, dll_path, dll_len, byref(written))
h_kernel32 = kernel32.GetModuleHandleW('kernel32.dll')
h_loadlib = kernel32.GetProcAddress(h_kernel32, b"LoadLibraryW")

thread_id = c_ulong(0)

h_thread = kernel32.CreateRemoteThread(h_process, #404
                                   h_loadlib,     #0x770a0000
                                   arg_address,   #0x770eef42

h_threadError = GetLastError()    #This says ERROR 0 - Operation completed Successfully

h_dllToHook = kernel32.GetModuleHandleW('myDLL.dll')  #h_dllToHook returns '0'
error = GetLastError()            #This says ERORR 0 - Operation completed Successfully

Another weird thing is the fact that the executable I'm injected is a console application and prints some stuff out. The dll that I'm injecting has an exported function that is called from DLLMAIN that prints stuff out as well. When I check the console it looks like it successfully ran as the stuff in the injected DLL was printed out as well. Also when I put a conditional logging breakpoint on CreateRemoteThread it never gets hit. So my questions are if it is successfully injecting as it seems to be 1) why can't I get a handle to the injected DLL using GetModuleHandleW and 2) why isn't Ollydbg showing that the injected DLL isn't mapped into the process' memory space. I'm stepping through my code and breaking so it's not like the thread is running through and exiting. I've been researching for a while so any help is greatly appreciated! Thanks.

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1 Answer 1

  • Use ctypes.get_last_error instead of GetLastError. This requires the use_last_error option, e.g. WinDLL('kernel32.dll', use_last_error=True).
  • The GetModuleHandleW / GetProcAddress step is unnecessary; ctypes already does this for you. Just use kernel32.LoadLibraryW. This depends on kernel32.dll always being mapped to the same base address in each process, which I think is true for existing versions of Windows.
  • In general you should factor in the null terminator when copying a string, e.g. use len(dll_path) + 1. In this case you're committing a new page of memory (4 KiB on x86 systems), which is initially all zeros.
  • I'm not sure how you've defined the VIRTUAL_MEM allocation type. Does that include MEM_COMMIT?
  • Watch out for spelling errors. You wrote retype instead of restype for the prototype of CreateRemoteThread, which means the return value is a the default 32-bit C int.

The following works for me, loading a DLL into a Python.

Edit: I refactored the error checking using types that define the _check_retval_ hook. This simplifies injectdll.

dllinject.py (ctypes defintions):

import ctypes, _ctypes
from ctypes import wintypes

MEM_COMMIT = 0x1000
MEM_RELEASE = 0x8000

SIZE_T = ctypes.c_size_t
WCHAR_SIZE = ctypes.sizeof(wintypes.WCHAR)

class BOOL_CHECKED(_ctypes._SimpleCData):
    _type_ = "l"
    def _check_retval_(retval):
        if retval is 0:
            raise ctypes.WinError(ctypes.get_last_error())
        return retval

class LPVOID_CHECKED(_ctypes._SimpleCData):
    _type_ = "P"
    def _check_retval_(retval):
        if retval is None:
            raise ctypes.WinError(ctypes.get_last_error())
        return retval

kernel32 = ctypes.WinDLL('kernel32.dll', use_last_error=True)

kernel32.OpenProcess.restype = HANDLE_CHECKED
kernel32.OpenProcess.argtypes = [
    wintypes.DWORD, # dwDesiredAccess
    wintypes.BOOL,  # bInheritHandle
    wintypes.DWORD, # dwProcessId
kernel32.VirtualAllocEx.restype = LPVOID_CHECKED
kernel32.VirtualAllocEx.argtypes = [
    wintypes.HANDLE, # hProcess
    wintypes.LPVOID, # lpAddress
    SIZE_T, # dwSize
    wintypes.DWORD,  # flAllocationType
    wintypes.DWORD, # flProtect
kernel32.VirtualFreeEx.restype = wintypes.BOOL
kernel32.VirtualFreeEx.argtypes = [
    wintypes.HANDLE, # hProcess
    wintypes.LPVOID, # lpAddress
    SIZE_T, # dwSize
    wintypes.DWORD,  # dwFreeType
kernel32.WriteProcessMemory.restype = BOOL_CHECKED
kernel32.WriteProcessMemory.argtypes = [
    wintypes.HANDLE,  # hProcess
    wintypes.LPVOID,  # lpBaseAddress
    wintypes.LPCVOID, # lpBuffer
    SIZE_T,  # nSize
    ctypes.POINTER(SIZE_T), # lpNumberOfBytesWritten _Out_
kernel32.CreateRemoteThread.restype = HANDLE_CHECKED
kernel32.CreateRemoteThread.argtypes = [
    wintypes.HANDLE,  # hProcess
    LPSECURITY_ATTRIBUTES,  # lpThreadAttributes
    SIZE_T,  # dwStackSize
    LPTHREAD_START_ROUTINE, # lpStartAddress
    wintypes.LPVOID,  # lpParameter
    wintypes.DWORD,   # dwCreationFlags
    wintypes.LPDWORD, # lpThreadId _Out_
kernel32.WaitForSingleObject.restype = wintypes.DWORD
kernel32.WaitForSingleObject.argtypes = [
    wintypes.HANDLE, # hHandle
    wintypes.DWORD,  # dwMilliseconds
kernel32.CloseHandle.restype = wintypes.BOOL
kernel32.CloseHandle.argtypes = [
    wintypes.HANDLE, # hObject

dllinject.py (injectdll):

def injectdll(pid, dllpath):
    size = (len(dllpath) + 1) * WCHAR_SIZE
    hproc = hthrd = addr = None
        hproc = kernel32.OpenProcess(
            PROCESS_VM_WRITE, False, pid)
        addr = kernel32.VirtualAllocEx(
            hproc, None, size, MEM_COMMIT, PAGE_READWRITE)
            hproc, addr, dllpath, size, None)
        hthrd = kernel32.CreateRemoteThread(
            hproc, None, 0, kernel32.LoadLibraryW, addr, 0, None)
        kernel32.WaitForSingleObject(hthrd, INFINITE)
        if addr is not None:
            kernel32.VirtualFreeEx(hproc, addr, 0, MEM_RELEASE)
        if hthrd is not None:
        if hproc is not None:


#include <Windows.h>                  
#include <stdio.h>                 

BOOL WINAPI DllMain(HINSTANCE hInstDll, DWORD fdwReason, PVOID fImpLoad)
    switch (fdwReason) {
        case DLL_PROCESS_ATTACH:
            printf("DLL Attach\n");
        case DLL_PROCESS_DETACH:
            printf("DLL Detach\n");
    return TRUE;               


>>> import sys
>>> from subprocess import Popen, PIPE
>>> from dllinject import injectdll
>>> cmd = [sys.executable, '-c', 'import time; time.sleep(5)']
>>> p = Popen(cmd, stdout=PIPE); injectdll(p.pid, 'test.dll')
>>> r = p.wait(); print(p.stdout.read().decode())
DLL Attach
DLL Detach
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