我已经成功地将.dll注入.exe,需要通过多级指针访问值。
这是一个获得正确值的工作示例:
#include <Windows.h>
#include <iostream>
#include <vector>
#include <TlHelp32.h>
#include <tchar.h>
using namespace std;
DWORD dwGetModuleBaseAddress(TCHAR *lpszModuleName, DWORD pID)
{
DWORD dwBaseAddress = 0;
HANDLE hSnapshot = CreateToolhelp32Snapshot(TH32CS_SNAPMODULE, pID);
MODULEENTRY32 moduleEntry32 = { 0 };
moduleEntry32.dwSize = sizeof(MODULEENTRY32);
if (Module32First(hSnapshot, &moduleEntry32))
{
do {
if (_tcscmp(moduleEntry32.szModule, lpszModuleName) == 0)
{
dwBaseAddress = (DWORD)moduleEntry32.modBaseAddr;
break;
}
} while (Module32Next(hSnapshot, &moduleEntry32));
}
CloseHandle(hSnapshot);
return dwBaseAddress;
}
int main()
{
DWORD pID;
DWORD off1, off2, off3, off4, off5;
DWORD baseAddress;
DWORD xAddress;
int newX;
int currentX;
char moduleName[] = "TibiaInjected2.exe";
HWND hGameWindow;
HANDLE pHandle;
// Getting handles
hGameWindow = FindWindowA(NULL, "Tibia - 127.0.0.1:7171");
GetWindowThreadProcessId(hGameWindow, &pID);
pHandle = OpenProcess(PROCESS_ALL_ACCESS, FALSE, pID);
// Getting base address
DWORD clientBase = dwGetModuleBaseAddress(_T(moduleName), pID);
ReadProcessMemory(pHandle, (LPCVOID)(clientBase + 0x0031D0CC), &baseAddress, sizeof(baseAddress), NULL);
cout << "Base address: " << hex << baseAddress << endl;
ReadProcessMemory(pHandle, (LPCVOID)(baseAddress + 0x4), &off1, sizeof(off1), NULL);
cout << "Offset 1: " << hex << off1 << endl;
ReadProcessMemory(pHandle, (LPCVOID)(off1 + 0x4), &off2, sizeof(off2), NULL);
cout << "Offset 2: " << hex << off2 << endl;
ReadProcessMemory(pHandle, (LPCVOID)(off2 + 0xA0), &off3, sizeof(off3), NULL);
cout << "Offset 3: " << hex << off3 << endl;
ReadProcessMemory(pHandle, (LPCVOID)(off3 + 0x100), &off4, sizeof(off4), NULL);
cout << "Offset 4: " << hex << off4 << endl;
ReadProcessMemory(pHandle, (LPCVOID)(off4 + 0x14), &off5, sizeof(off5), NULL);
cout << "Offset 5: " << hex << off5 << endl;
cin.get();
}
我宁愿使用静态注入的DLL,据我所知,我可以用GetModuleHandle(NULL(替换整个dwGetModuleBaseAddress,因为它来自注入的DLL内部。我也不需要打开任何进程。但是,如果我不做所有这些,用什么来替换ReadProcessMemory?
ReadProcessMemory(pHandle, (LPCVOID)(clientBase + 0x0031D0CC), &baseAddress, sizeof(baseAddress), NULL);
ReadProcessMemory(pHandle, (LPCVOID)(baseAddress + 0x4), &off1, sizeof(off1), NULL);
ReadProcessMemory(pHandle, (LPCVOID)(off1 + 0x4), &off2, sizeof(off2), NULL);
ReadProcessMemory(pHandle, (LPCVOID)(off2 + 0xA0), &off3, sizeof(off3), NULL);
ReadProcessMemory(pHandle, (LPCVOID)(off3 + 0x100), &off4, sizeof(off4), NULL);
ReadProcessMemory(pHandle, (LPCVOID)(off4 + 0x14), &off5, sizeof(off5), NULL);
我设法通过执行以下操作直接从静态地址访问值:
int* exampleValue = *(int*)0x12345678;
但是无法弄清楚如何使用指针和偏移量做同样的事情。
是的,您可以使用 GetModuleHandle(NULL(; 获取主.exe模块的句柄,或将 NULL 替换为与 DLL 名称匹配的字符串。
您可以使用此函数循环遍历偏移量,在每个级别取消引用和添加偏移量:
uintptr_t FindDMAAddy(uintptr_t ptr, std::vector<unsigned int> offsets)
{
uintptr_t addr = ptr;
for (unsigned int i = 0; i < offsets.size() ; ++i)
{
addr = *(uintptr_t*)addr;
addr += offsets[i];
}
return addr;
}
uintptr_t ammoAddr = FindDMAAddy(dynamicPtrBaseAddr, { 0x374, 0x14, 0x0 });
//or
int * ammoAddr = (int*)FindDMAAddy(dynamicPtrBaseAddr, { 0x374, 0x14, 0x0 });
你也可以做一些疯狂的事情,比如:
int * ammo = (int*)((*(uintptr_t*)((*(uintptr_t*)(dynamicPtrBaseAddr)) +0x374)) + 0x14);
但它比它的价值更令人困惑和烦人。
这对我有用(可以像其他答案一样放在循环中(:
DWORD base = *(DWORD*)(clientBase + 0x0031D0CC);
DWORD offsets[] = { 0x4, 0x4, 0xA0, 0x100, 0x14 };
DWORD off1 = *(DWORD*)(base + offsets[0]);
DWORD off2 = *(DWORD*)(off1 + offsets[1]);
DWORD off3 = *(DWORD*)(off2 + offsets[2]);
DWORD off4 = *(DWORD*)(off3 + offsets[3]);
DWORD off5 = *(DWORD*)(off4 + offsets[4]);
cout << "Value: " << off5 << endl;