一、获取被保护数据,驱动块源码(第二种方法)
BOOLEAN KReadProcessMemory2(IN PEPROCESS 目标进程, IN PVOID 目标地址, IN UINT32 目标长度, IN PVOID 返回数据)
{
KAPC_STATE apc_state;
RtlZeroMemory(&apc_state, sizeof(KAPC_STATE));
//创建MDL来读取内存
PMDL 映射内存结构 = IoAllocateMdl(返回数据, 目标长度, 0, 0, NULL);
if (!映射内存结构)
{
return FALSE;
}
//将映射内存变成可读
MmBuildMdlForNonPagedPool(映射内存结构);
//获取可读的地址
unsigned char* 可读内存 = (unsigned char*)MmMapLockedPages(映射内存结构, KernelMode);
if (!可读内存)
{
IoFreeMdl(映射内存结构);
return FALSE;
}
//切换到目标进程进行操作
KeStackAttachProcess((PVOID)目标进程, &apc_state);
//判断该地址是否可读
BOOLEAN 是否可读 = MmIsAddressValid(目标地址);
if (是否可读)
{
RtlCopyMemory(可读内存, 目标地址, 目标长度);
}
else
{
KdPrint(("nxyn2不可读"));
}
//恢复环境
KeUnstackDetachProcess(&apc_state);
MmUnmapLockedPages((PVOID)可读内存, 映射内存结构);
IoFreeMdl(映射内存结构);
return 是否可读;
}
int ReadProcessMemoryForPid2(UINT32 dwPid, PVOID 读取地址, PVOID 读取内容, UINT32 读取大小)
{
//根据pid获取PEPROCESS
PEPROCESS Seleted_pEPROCESS = NULL;
if (PsLookupProcessByProcessId((PVOID)(UINT_PTR)(dwPid), &Seleted_pEPROCESS) == STATUS_SUCCESS)
{
BOOLEAN br = KReadProcessMemory2(Seleted_pEPROCESS, (PVOID)读取地址, 读取大小, 读取内容);
ObDereferenceObject(Seleted_pEPROCESS);
if (br)
{
return 读取大小;
}
}
else
{
KdPrint(("nxyn 2读取失败"));
}
return 0;
}
NTSTATUS IRP_ReadProcessMemory2(PIRP pirp)
{
NTSTATUS ntStatus = STATUS_SUCCESS;
PIO_STACK_LOCATION irpStack = NULL;
irpStack = IoGetCurrentIrpStackLocation(pirp);
#pragma pack(push)
#pragma pack(8)
typedef struct TINPUT_BUF
{
UINT64 dwPid;//目标进程PID
PVOID pBase; //目标进程地址
UINT64 nSize;//要读取的长度
}TINPUT_BUF;
#pragma pack(pop)
TINPUT_BUF* 输入数据 = (TINPUT_BUF*)(pirp->AssociatedIrp.SystemBuffer);
ReadProcessMemoryForPid2(输入数据->dwPid, 输入数据->pBase, 输入数据/*保存读取的数据*/, 输入数据->nSize);
if (irpStack) //
{
if (ntStatus == STATUS_SUCCESS)
{ //成功则返回 缓冲区大小
pirp->IoStatus.Information = irpStack->Parameters.DeviceIoControl.OutputBufferLength;//DeviceIoControl
}
else
{ //失败则不返回
pirp->IoStatus.Information = 0;
}
//完成请求
IoCompleteRequest(pirp, IO_NO_INCREMENT);
}
pirp->IoStatus.Status = ntStatus;
return ntStatus;
}二、在头文件添加函数声明
NTSTATUS IRP_ReadProcessMemory2(PIRP pirp);三、控制码实现代码
#define irp读被保护数据2 CTL_CODE(FILE_DEVICE_UNKNOWN, 0x807, METHOD_BUFFERED,FILE_ANY_ACCESS)
else if(控制码== irp读被保护数据2)
{
return IRP_ReadProcessMemory2(IRP指针);
}四、MFC实现
1、界面添加一个按钮
2、代码实现
#define irp读被保护数据2 CTL_CODE(FILE_DEVICE_UNKNOWN, 0x807, METHOD_BUFFERED,FILE_ANY_ACCESS)
void CtestDlg::OnBnClickedButtonDqbbhsj2()
{
#pragma pack(push)
#pragma pack(8)
typedef struct TINPUT_BUF
{
UINT64 dwPid;//目标进程PID
PVOID pBase; //目标进程地址
UINT64 nSize;//要读取的长度
}TINPUT_BUF;
#pragma pack(pop)
UpdateData(true);
DWORD 返回字节数 = 0;
DWORD 临时数据 = 0;
UINT_PTR 地址 = 0x7FF7F8F20000;
TINPUT_BUF 输入缓存区 = { mbpid,(PVOID)地址,4 };
DeviceIoControl(
设备句柄,
irp读被保护数据2,
&输入缓存区,
sizeof(TINPUT_BUF),
&临时数据,
sizeof(临时数据),
&返回字节数,
NULL
);
char 缓存[256];
sprintf_s(缓存, "2读取被保护值%X", 临时数据);
::MessageBoxA(0, 缓存, "2读被保护测试", MB_OK);
}五、运行效果,两种方法都可读取
