《逆向工程核心原理》Windows消息钩取

DLL注入——使用SetWindowsHookEx函数实现消息钩取

MSDN：

SetWindowsHookEx Function

---

The SetWindowsHookEx function installs an application-defined hook procedure into a hook chain. You would install a hook procedure to monitor the system for certain types of events. These events are associated either with a specific thread or with all threads in the same desktop as the calling thread.

Syntax

HHOOK SetWindowsHookEx(      

    int idHook,
    HOOKPROC lpfn,
    HINSTANCE hMod,
    DWORD dwThreadId//为0时表示全局钩取
);

Parameters

idHook

[in] Specifies the type of hook procedure to be installed. This parameter can be one of the following values.

WH_CALLWNDPROC

Installs a hook procedure that monitors messages before the system sends them to the destination window procedure. For more information, see the CallWndProc hook procedure.

WH_CALLWNDPROCRET

Installs a hook procedure that monitors messages after they have been processed by the destination window procedure. For more information, see the CallWndRetProc hook procedure.

WH_CBT

Installs a hook procedure that receives notifications useful to a computer-based training (CBT) application. For more information, see the CBTProc hook procedure.

WH_DEBUG

Installs a hook procedure useful for debugging other hook procedures. For more information, see the DebugProc hook procedure.

WH_FOREGROUNDIDLE

Installs a hook procedure that will be called when the application's foreground thread is about to become idle. This hook is useful for performing low priority tasks during idle time. For more information, see the ForegroundIdleProc hook procedure.

WH_GETMESSAGE

Installs a hook procedure that monitors messages posted to a message queue. For more information, see the GetMsgProc hook procedure.

WH_JOURNALPLAYBACK

Installs a hook procedure that posts messages previously recorded by a WH_JOURNALRECORD hook procedure. For more information, see the JournalPlaybackProc hook procedure.

WH_JOURNALRECORD

Installs a hook procedure that records input messages posted to the system message queue. This hook is useful for recording macros. For more information, see the JournalRecordProc hook procedure.

WH_KEYBOARD

Installs a hook procedure that monitors keystroke messages. For more information, see the KeyboardProc hook procedure.

WH_KEYBOARD_LL

Windows NT/2000/XP: Installs a hook procedure that monitors low-level keyboard input events. For more information, see the LowLevelKeyboardProc hook procedure.

WH_MOUSE

Installs a hook procedure that monitors mouse messages. For more information, see the MouseProc hook procedure.

WH_MOUSE_LL

Windows NT/2000/XP: Installs a hook procedure that monitors low-level mouse input events. For more information, see the LowLevelMouseProc hook procedure.

WH_MSGFILTER

Installs a hook procedure that monitors messages generated as a result of an input event in a dialog box, message box, menu, or scroll bar. For more information, see the MessageProc hook procedure.

WH_SHELL

Installs a hook procedure that receives notifications useful to shell applications. For more information, see the ShellProc hook procedure.

WH_SYSMSGFILTER

Installs a hook procedure that monitors messages generated as a result of an input event in a dialog box, message box, menu, or scroll bar. The hook procedure monitors these messages for all applications in the same desktop as the calling thread. For more information, see the SysMsgProc hook procedure.

lpfn

[in] Pointer to the hook procedure. If the dwThreadId parameter is zero or specifies the identifier of a thread created by a different process, the lpfn parameter must point to a hook procedure in a DLL. Otherwise, lpfn can point to a hook procedure in the code associated with the current process.

hMod

[in] Handle to the DLL containing the hook procedure pointed to by the lpfn parameter. The hMod parameter must be set to NULL if the dwThreadId parameter specifies a thread created by the current process and if the hook procedure is within the code associated with the current process.

dwThreadId

[in] Specifies the identifier of the thread with which the hook procedure is to be associated. If this parameter is zero, the hook procedure is associated with all existing threads running in the same desktop as the calling thread.

Return Value

If the function succeeds, the return value is the handle to the hook procedure.

If the function fails, the return value is NULL. To get extended error information, call GetLastError.

Remarks

SetWindowsHookEx can be used to inject a DLL into another process. A 32-bit DLL cannot be injected into a 64-bit process, and a 64-bit DLL cannot be injected into a 32-bit process. If an application requires the use of hooks in other processes, it is required that a 32-bit application call SetWindowsHookEx to inject a 32-bit DLL into 32-bit processes, and a 64-bit application call SetWindowsHookEx to inject a 64-bit DLL into 64-bit processes. The 32-bit and 64-bit DLLs must have different names.

An error may occur if the hMod parameter is NULL and the dwThreadId parameter is zero or specifies the identifier of a thread created by another process.

Calling the CallNextHookEx function to chain to the next hook procedure is optional, but it is highly recommended; otherwise, other applications that have installed hooks will not receive hook notifications and may behave incorrectly as a result. You should call CallNextHookEx unless you absolutely need to prevent the notification from being seen by other applications.

Before terminating, an application must call the UnhookWindowsHookEx function to free system resources associated with the hook.

The scope of a hook depends on the hook type. Some hooks can be set only with global scope; others can also be set for only a specific thread, as shown in the following table.

 

Hook	Scope
WH_CALLWNDPROC	Thread or global
WH_CALLWNDPROCRET	Thread or global
WH_CBT	Thread or global
WH_DEBUG	Thread or global
WH_FOREGROUNDIDLE	Thread or global
WH_GETMESSAGE	Thread or global
WH_JOURNALPLAYBACK	Global only
WH_JOURNALRECORD	Global only
WH_KEYBOARD	Thread or global
WH_KEYBOARD_LL	Global only
WH_MOUSE	Thread or global
WH_MOUSE_LL	Global only
WH_MSGFILTER	Thread or global
WH_SHELL	Thread or global
WH_SYSMSGFILTER	Global only

For a specified hook type, thread hooks are called first, then global hooks.

The global hooks are a shared resource, and installing one affects all applications in the same desktop as the calling thread. All global hook functions must be in libraries. Global hooks should be restricted to special-purpose applications or to use as a development aid during application debugging. Libraries that no longer need a hook should remove its hook procedure.

Windows 95/98/Me: SetWindowsHookEx is supported by the Microsoft Layer for Unicode (MSLU). However, it does not make conversions. To see Unicode messages, notifications, and so forth, you must subclass the window. To use this version of the API, you must add certain files to your application, as outlined in Installing and Releasing Hook Procedures.

 

 

 HOOK 记事本键盘输入：

主程序：

#include <iostream>
#include "windows.h"

#define    DEF_DLL_NAME        "KeyHook.dll"
#define    DEF_HOOKSTART        "HookStart"
#define    DEF_HOOKSTOP        "HookStop"

typedef void (*PFN_HOOKSTART)();
typedef void (*PFN_HOOKSTOP)();

void main()
{
    HMODULE            hDll = NULL;
    PFN_HOOKSTART    HookStart = NULL;
    PFN_HOOKSTOP    HookStop = NULL;
    char            ch = 0;

    // 加载KeyHook.dll  HMODULE —— Handle to a module. 
    hDll = LoadLibraryA(DEF_DLL_NAME);
    if (hDll == NULL)
    {
        printf("LoadLibrary(%s) failed!!! [0x%08X]\n", DEF_DLL_NAME, GetLastError());
        return;
    }
    //printf("hDll(0x%08X)\n", hDll);
    // 获取导出函数地址
    HookStart = (PFN_HOOKSTART)GetProcAddress(hDll, DEF_HOOKSTART);
    //printf("HookStart(0x%08X)\n", HookStart);
    HookStop = (PFN_HOOKSTOP)GetProcAddress(hDll, DEF_HOOKSTOP);
    //printf("HookStop(0x%08X)\n", HookStop);
    // 开始勾取
    HookStart();

    // 等待直到用户输入q
    printf("input 'q' to quit!\n");
    while (getchar() != 'q')
        ;//循环空

    // 停止勾取
    HookStop();

    // 卸载KeyHook.dll
    FreeLibrary(hDll);
}

 

全局DLL：（hook中筛选记事本进程）

#include "pch.h"
#include <windows.h>
#define DEF_PROCESS_NAME        "notepad.exe"
HINSTANCE g_hInstance = NULL;
HHOOK g_hHook = NULL;
HWND g_hWnd = NULL;
BOOL APIENTRY DllMain(HMODULE hModule,
    DWORD  ul_reason_for_call,
    LPVOID lpReserved
)
{
    switch (ul_reason_for_call)
    {
    case DLL_PROCESS_ATTACH:
        g_hInstance = hModule;
        break;
    case DLL_THREAD_ATTACH:
    case DLL_THREAD_DETACH:
    case DLL_PROCESS_DETACH:
        break;
    }
    return TRUE;
}

LRESULT CALLBACK KeyboardProc(int nCode,
    WPARAM wParam,
    LPARAM lParam) {
    char szPath[MAX_PATH] = { 0, };
    char* p = NULL;
    TCHAR tempChar[256] = { 0};
    if (nCode == HC_ACTION) {
        /*
        wParam [in] Specifies the virtual-key code of the key that generated the keystroke message.

        lParam [in] Specifies the repeat count, scan code, extended-key flag, context code, previous key-state flag, and transition-state flag. For more information about the lParam parameter, see Keystroke Message Flags. This parameter can be one or more of the following values.
0-15//低2字节 指定重复计数。该值是由于用户按住键而重复击键的次数。
Specifies the repeat count. The value is the number of times the keystroke is repeated as a result of the user's holding down the key.
16-23//第三字节 指定扫描码。其值取决于OEM。
Specifies the scan code. The value depends on the OEM.
24//高字节最低位 指定该键是扩展键，例如功能键或者数字键盘上的键。如果键是扩展键，则值为1;否则，它是0。&0x01000000
Specifies whether the key is an extended key, such as a function key or a key on the numeric keypad. The value is 1 if the key is an extended key; otherwise, it is 0.
25-28//高字节 第2位到第5位 保留
Reserved.
29高字节的第6位 指定上下文代码。如果ALT键按下，则值为1;否则，它是0。
Specifies the context code. The value is 1 if the ALT key is down; otherwise, it is 0.
30高字节的第7位 指定前一个键的状态。如果在消息发送之前键down，则值为1;如果键是up的，则为0。   &0x40000000==0时释放，1时按下
Specifies the previous key state. The value is 1 if the key is down before the message is sent; it is 0 if the key is up.
31高字节的第8位（最高位） 指定转换状态。如果键被按下，值为0，如果键被释放，值为1。 &0x80000000==0时释放，1时按下
Specifies the transition state. The value is 0 if the key is being pressed and 1 if it is being released.
        */
        if ((lParam & 0x80000000)) {//最高位0表示按下，1表示释放
            GetModuleFileNameA(NULL, szPath, MAX_PATH);
            p = strrchr(szPath, '\\');
            tempChar[0] = MapVirtualKey(wParam, MAPVK_VK_TO_CHAR);
            tempChar[1] = TEXT('\0');
            if (!_stricmp(p + 1, DEF_PROCESS_NAME)) {

                if (isalpha(tempChar[0]) || isalnum(tempChar[0])) {
                    MessageBox(NULL, tempChar, TEXT("input"), 0);
                }

                else {
                    wsprintf(tempChar, TEXT("0x%02X"), wParam);
                    MessageBox(NULL, tempChar, TEXT("special"), 0);
                }
                //return 1;
            }
        }
    }

    return CallNextHookEx(g_hHook, nCode, wParam, lParam);
}
#ifdef __cplusplus
extern "C" {
#endif
    __declspec(dllexport) void HookStart()
    {
        g_hHook = SetWindowsHookEx(WH_KEYBOARD, KeyboardProc, g_hInstance, 0);
    }

    __declspec(dllexport) void HookStop()
    {
        if (g_hHook)
        {
            UnhookWindowsHookEx(g_hHook);
            g_hHook = NULL;
        }
    }
#ifdef __cplusplus
}
#endif

 

 

指定进程注入：

1、获取进程ID 通过进程名称

2、编写DLL，将需要的函数进行导出

3、获取目标进程中的线程ID，为了保证线程ID的有效性，把所有的线程ID都获取出来，一一注入，直到注入成功

4、SetWindowsHookEx，实现钩子注入

DLL：

// dllmain.cpp : 定义 DLL 应用程序的入口点。
#include "pch.h"
#include <windows.h>
#include <Tlhelp32.h>
#include <tchar.h>
#include <vector>
using  std::vector;
#define DEF_PROCESS_NAME        "notepad.exe"
HINSTANCE g_hInstance = NULL;
HHOOK g_hHook = NULL;
HWND g_hWnd = NULL;
BOOL APIENTRY DllMain(HMODULE hModule,
    DWORD  ul_reason_for_call,
    LPVOID lpReserved
)
{
    switch (ul_reason_for_call)
    {
    case DLL_PROCESS_ATTACH:
        g_hInstance = hModule;
        break;
    case DLL_THREAD_ATTACH:
    case DLL_THREAD_DETACH:
    case DLL_PROCESS_DETACH:
        break;
    }
    return TRUE;
}

LRESULT CALLBACK KeyboardProc(int nCode,
    WPARAM wParam,
    LPARAM lParam) {
    char szPath[MAX_PATH] = { 0, };
    char* p = NULL;
    TCHAR tempChar[256] = { 0};
    if (nCode == HC_ACTION) {
        /*
        wParam [in] Specifies the virtual-key code of the key that generated the keystroke message.

        lParam [in] Specifies the repeat count, scan code, extended-key flag, context code, previous key-state flag, and transition-state flag. For more information about the lParam parameter, see Keystroke Message Flags. This parameter can be one or more of the following values.
0-15//低2字节 指定重复计数。该值是由于用户按住键而重复击键的次数。
Specifies the repeat count. The value is the number of times the keystroke is repeated as a result of the user's holding down the key.
16-23//第三字节 指定扫描码。其值取决于OEM。
Specifies the scan code. The value depends on the OEM.
24//高字节最低位 指定该键是扩展键，例如功能键或者数字键盘上的键。如果键是扩展键，则值为1;否则，它是0。&0x01000000
Specifies whether the key is an extended key, such as a function key or a key on the numeric keypad. The value is 1 if the key is an extended key; otherwise, it is 0.
25-28//高字节 第2位到第5位 保留
Reserved.
29高字节的第6位 指定上下文代码。如果ALT键按下，则值为1;否则，它是0。
Specifies the context code. The value is 1 if the ALT key is down; otherwise, it is 0.
30高字节的第7位 指定前一个键的状态。如果在消息发送之前键down，则值为1;如果键是up的，则为0。   &0x40000000==0时释放，1时按下
Specifies the previous key state. The value is 1 if the key is down before the message is sent; it is 0 if the key is up.
31高字节的第8位（最高位） 指定转换状态。如果键被按下，值为0，如果键被释放，值为1。 &0x80000000==0时释放，1时按下
Specifies the transition state. The value is 0 if the key is being pressed and 1 if it is being released.
        */
        if ((lParam & 0x80000000)) {//最高位0表示按下，1表示释放
            GetModuleFileNameA(NULL, szPath, MAX_PATH);
            p = strrchr(szPath, '\\');
            tempChar[0] = MapVirtualKey(wParam, MAPVK_VK_TO_CHAR);
            tempChar[1] = TEXT('\0');
            if (!_stricmp(p + 1, DEF_PROCESS_NAME)) {

                if (isalpha(tempChar[0]) || isalnum(tempChar[0])) {
                    MessageBox(NULL, tempChar, TEXT("input"), 0);
                }

                else {
                    wsprintf(tempChar, TEXT("0x%02X"), wParam);
                    MessageBox(NULL, tempChar, TEXT("special"), 0);
                }
                //return 1;
            }
        }
    }

    return CallNextHookEx(g_hHook, nCode, wParam, lParam);
}
DWORD GetProcessIDByName(const TCHAR* pName)
{
    HANDLE hSnapshot = CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0);
    if (INVALID_HANDLE_VALUE == hSnapshot) {
        return NULL;
    }
    PROCESSENTRY32 pe = { sizeof(pe) };//等同于dwSize赋值
    for (BOOL ret = Process32First(hSnapshot, &pe); ret; ret = Process32Next(hSnapshot, &pe)) {
        if (_tcsicmp(pe.szExeFile, pName) == 0) {
            CloseHandle(hSnapshot);
            return pe.th32ProcessID;
        }
        //printf("%-6d %s\n", pe.th32ProcessID, pe.szExeFile);
    }
    CloseHandle(hSnapshot);
    return 0;
}
vector<HANDLE> GetThreadIDByPID(DWORD pID) {
    //DWORD pID = GetProcessIDByName(pName);
    vector<HANDLE> ThreadIdentify;
    THREADENTRY32 te;
    te.dwSize = sizeof(te);//必须，否则失败
    HANDLE h = CreateToolhelp32Snapshot(TH32CS_SNAPTHREAD, 0);
    if (Thread32First(h, &te))
    {
        do
        {
            if (te.th32OwnerProcessID == pID)
            {

                ThreadIdentify.emplace_back((HANDLE)te.th32ThreadID);
            }
        } while (Thread32Next(h, &te));

    }
    CloseHandle(h);
    return ThreadIdentify;
}
/*
vector<HANDLE> GetThreadIDByName(const TCHAR* pName) {
    DWORD pID = GetProcessIDByName(pName);
    vector<HANDLE> ThreadIdentify;
    THREADENTRY32 te;
    te.dwSize = sizeof(te);
    HANDLE h = CreateToolhelp32Snapshot(TH32CS_SNAPTHREAD, 0);
    if (Thread32First(h, &te))
    {
        do
        {
            if (te.th32OwnerProcessID == pID)
            {

                ThreadIdentify.emplace_back((HANDLE)te.th32ThreadID);
            }
        } while (Thread32Next(h, &te));

    }
    CloseHandle(h);
    return ThreadIdentify;
}
*/

#ifdef __cplusplus
extern "C" {
#endif
    __declspec(dllexport) void HookStart()
    {
        vector<HANDLE> ThreadIdentify;
        DWORD pID = GetProcessIDByName(_T(DEF_PROCESS_NAME));
        ThreadIdentify= GetThreadIDByPID(pID);
        for (int i = 0; i < ThreadIdentify.size(); ++i)
        {
            g_hHook = SetWindowsHookEx(WH_KEYBOARD, KeyboardProc, g_hInstance, (DWORD)ThreadIdentify[i]);
            if (g_hHook != NULL)
            {
                break;
            }
        }
    }

    __declspec(dllexport) void HookStop()
    {
        if (g_hHook)
        {
            UnhookWindowsHookEx(g_hHook);
            g_hHook = NULL;
        }
    }
#ifdef __cplusplus
}
#endif

Remarks

The calling application must set the dwSize member of THREADENTRY32 to the size, in bytes, of the structure.

Thread32First changes dwSize to the number of bytes written to the structure.

This number is never greater than the initial value of dwSize, but it can be smaller. If the value is smaller, do not rely on the values of members whose offsets are greater than this value.

To retrieve information about other threads recorded in the same snapshot, use the Thread32Next function.

 

注意：32位要使用32位程序注入32位的dll，否则会造成程序卡死