import win32gui import win32process import win32api import ctypes import time # 参考资料 https://www.52pojie.cn/thread-1132032-1-1.html def change_sun(Phand, sun_num): sun_date = ctypes.c_long() # kernel32.ReadProcessMemory(int(Phand), 0x03F8A9C0, ctypes.byref(sun_date), 4, None) kernel32.ReadProcessMemory(int(Phand), 0x6A9EC0, ctypes.byref(sun_date), 4, None) """ 0x03F8A9C0 是基础地址,假设这里存储了一个指向阳光数值的指针。 ctypes.byref(sun_date) 是一个指向sun_date变量的引用,用于接收从内存中读取的数据。 4 表示读取数据的大小,这里是4字节,即一个整数。 None 是一个可选参数,用来接收实际读取的字节数,但在这里我们不关心这个值。 """ kernel32.ReadProcessMemory(int(Phand), sun_date.value + 0x768, ctypes.byref(sun_date), 4, None) # 写入新的数值 new_sun_date = ctypes.c_long(sun_num) print(sun_date) print(new_sun_date) return kernel32.WriteProcessMemory(int(Phand), sun_date.value + 0x5560, ctypes.byref(new_sun_date), 4, None) def change_cooling(Phand, cooling): """ 修改冷却 :param Phand: :param cooling: 0 冷却 1 无冷却 :return: """ time.sleep(0.5) cooling_data = ctypes.c_long() kernel32.ReadProcessMemory(int(Phand), 0x6A9EC0, ctypes.byref(cooling_data), 4, None) kernel32.ReadProcessMemory(int(Phand), cooling_data.value + 0x768, ctypes.byref(cooling_data), 4, None) kernel32.ReadProcessMemory(int(Phand), cooling_data.value + 0x144, ctypes.byref(cooling_data), 4, None) # kernel32.ReadProcessMemory(int(Phand),cooling_data.value,ctypes.byref(cooling_data),4,None) new_cooling_date = ctypes.c_long(cooling) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0x70, ctypes.byref(new_cooling_date), 4, None) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0xC0, ctypes.byref(new_cooling_date), 4, None) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0x110, ctypes.byref(new_cooling_date), 4, None) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0x160, ctypes.byref(new_cooling_date), 4, None) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0x1B0, ctypes.byref(new_cooling_date), 4, None) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0x200, ctypes.byref(new_cooling_date), 4, None) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0x250, ctypes.byref(new_cooling_date), 4, None) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0x2A0, ctypes.byref(new_cooling_date), 4, None) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0x2F0, ctypes.byref(new_cooling_date), 4, None) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0x340, ctypes.byref(new_cooling_date), 4, None) # 可以看出,从第二个地址开始,每个地址与其前一个地址之间的差值是固定的,为0x50(80)。这种模式表明,每个卡槽的冷却时间数据在内存中是以固定间隔排列的。 # # 推测剩余卡槽的冷却时间地址 # 既然已知前十个卡槽的冷却时间地址遵循0x50的增量规律,那么我们可以轻易地推测出后五个卡槽的冷却时间地址: # # 第11个卡槽:0x340 + 0x50 = 0x390 (944) # 第12个卡槽:0x390 + 0x50 = 0x3E0 (992) # 第13个卡槽:0x3E0 + 0x50 = 0x430 (1072) # 第14个卡槽:0x430 + 0x50 = 0x480 (1168) # 第15个卡槽:0x480 + 0x50 = 0x4D0 (1232) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0x390, ctypes.byref(new_cooling_date), 4, None) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0x3E0, ctypes.byref(new_cooling_date), 4, None) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0x430, ctypes.byref(new_cooling_date), 4, None) kernel32.WriteProcessMemory(int(Phand), cooling_data.value + 0x480, ctypes.byref(new_cooling_date), 4, None) def change(Phand, param): while(1000): change_sun(Phand,param) change_cooling(Phand,1) if __name__ == '__main__': # 调用动态链接库 kernel32 = ctypes.windll.LoadLibrary('kernel32.dll') # 调用最高权限执行 PROCESS_ALL_ACCESS = (0x000F0000 | 0x00100000 | 0xFFF) # 获取窗口句柄 windos_handle = win32gui.FindWindow(None, "植物大战僵尸v2.2 ") # 获取进程PID read, pid = win32process.GetWindowThreadProcessId(windos_handle) # 获取进程句柄 Phand = win32api.OpenProcess(PROCESS_ALL_ACCESS, False, pid) # 调用修改函数 print("PID:",pid) print("进程句柄:",Phand) print(change(Phand,9999)) print("end")