用Visual studio11在Windows8上开发驱动实现注册表监控和过滤

用Visual studio11在Windows8上开发驱动实现注册表监控和过滤

分类： Visual C++2010编程技术 VC++编程技术 Visual
Studio2012 Windows82012-10-24 15:26 1738人阅读 评论(1) 收藏 举报

在Windows NT中，80386保护模式的“保护”比Windows 95中更坚固，这个“镀金的笼子”更加结实，更加难以打破。在Windows 95中，至少应用程序I/O操作是不受限制的，而在Windows NT中，我们的应用程序连这点权限都被剥夺了。在NT中几乎不太可能进入真正的ring0层。

在Windows NT中，存在三种Device Driver：

1．“Virtual device Driver” (VDD)。通过VDD，16位应用程序，如DOS 和Win16应用程序可以访问特定的I/O端口（注意，不是直接访问，而是要通过VDD来实现访问）。

2．“GDI Driver”，提供显示和打印所需的GDI函数。

3．“Kernel Mode Driver”，实现对特定硬件的操作，比如说CreateFile, CloseHandle (对于文件对象而言), ReadFile, WriteFile, DeviceIoControl 等操作。“Kernel Mode Driver”还是Windows NT中唯一可以对硬件中断和DMA进行操作的Driver。SCSI 小端口驱动和 网卡NDIS 驱动都是Kernel Mode Driver的一种特殊形式。

Visual studio11与Windows8带来格外不同的新体验

1.启动Vs11



2.看见满目的驱动开发模板



3.选择一个驱动模式，有内核模式与用户模式两种的驱动



4.创建一个驱动程序，KMDF DriverMVP



5.我们选择的是内核模式的驱动程序，下面是创建成功后的界面，分别是驱动程序本身，与驱动安装包



6.按下F5，选择驱动编译，



插入下列代码实现基于callback的注册表监控和过滤技术，请见代码分析

[cpp] view
plaincopy

#include "ntifs.h"

#include "RegistryCallBack.h"

#include <ntstrsafe.h>

NTSTATUS st;

LARGE_INTEGER g_CallbackCookie;

ANSI_STRING astr;

VOID UnloadDriver(PDRIVER_OBJECT DriverObject);

NTSTATUS RegistryCallback(IN PVOID CallbackContext, IN PVOID Argument1, IN PVOID Argument2);

BOOLEAN GetRegistryObjectCompleteName(PUNICODE_STRING pRegistryPath, PUNICODE_STRING pPartialRegistryPath,PVOID pRegistryObject);

NTSTATUS DriverEntry(PDRIVER_OBJECT DriverObject, PUNICODE_STRING RegistryPath)

{

DbgPrint("[RegRoutine]Loading!\n");

DriverObject->DriverUnload = UnloadDriver;

st = CmRegisterCallback(RegistryCallback,NULL,&g_CallbackCookie);

if ( !NT_SUCCESS(st) )

{

DbgPrint("[RegRoutine]CmRegisterCallback Failed!\n");

return st;

}

DbgPrint("[RegRoutine]RegistryCallback Addr:0x%08X\n",RegistryCallback);

DbgPrint("[RegRoutine]Cookie.LowPart:0x%08X Cookie.HighPart:0x%08X\n",g_CallbackCookie.LowPart,g_CallbackCookie.HighPart);

return st;

}

VOID UnloadDriver(PDRIVER_OBJECT DriverObject)

{

CmUnRegisterCallback(g_CallbackCookie);

DbgPrint("[RegRoutine]UnLoading!\n");

}

NTSTATUS

RegistryCallback(

IN PVOID CallbackContext,

IN PVOID Argument1,

IN PVOID Argument2

)

{

int type;

BOOLEAN exception = FALSE;

BOOLEAN registryEventIsValid = FALSE;

UNICODE_STRING registryPath;

UCHAR* registryData = NULL;

ULONG registryDataLength = 0;

ULONG registryDataType = 0;

registryPath.Length = 0;

registryPath.MaximumLength = NTSTRSAFE_UNICODE_STRING_MAX_CCH * sizeof(WCHAR);

registryPath.Buffer = ExAllocatePoolWithTag(NonPagedPool, registryPath.MaximumLength, 'ConT');

if(registryPath.Buffer == NULL)

{

DbgPrint("[RegRoutine]Allocate registryPath failed!\n");

return STATUS_SUCCESS;

}

type = (REG_NOTIFY_CLASS)Argument1;

try

{

switch(type)

{

case RegNtPostCreateKey:

{

PREG_POST_CREATE_KEY_INFORMATION createKey = (PREG_POST_CREATE_KEY_INFORMATION)Argument2;

if( NT_SUCCESS(createKey->Status) || createKey->Status == STATUS_PENDING ) //创建注册表项状态为成功和未决的都记录一下

{

PVOID* registryObject = createKey->Object;

registryEventIsValid = GetRegistryObjectCompleteName(®istryPath, createKey->CompleteName,*registryObject);

if ( registryEventIsValid )

{

RtlUnicodeStringToAnsiString(&astr,®istryPath,TRUE);

DbgPrint("[RegCreated]KeyName:%s!\n",astr.Buffer);

//如果创建的是自启动项，则警告一下

if ( strstr(astr.Buffer,"\\REGISTRY\\MACHINE\\SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Run") )

{

DbgPrint("[RegCreated]Forbin!\n");

DbgPrint("[RegCreated]ForbinKeyName:%s!\n",astr.Buffer);

RtlFreeAnsiString(&astr);

}

RtlFreeAnsiString(&astr);

}

else

DbgPrint("[RegCreated]Get Key Name Failed!\n");

}

}

break;

//使用PreCreateKey可以阻止key的创建，但是能够作为判断依据的只有一个key的CompleteName，无法得到完整路径来判断

case RegNtPreCreateKey:

{

PREG_PRE_CREATE_KEY_INFORMATION createKey = (PREG_PRE_CREATE_KEY_INFORMATION)Argument2;

RtlCopyUnicodeString(®istryPath,createKey->CompleteName);

RtlUnicodeStringToAnsiString(&astr,®istryPath,TRUE);

DbgPrint("[RegRoutine]PreCreate:%s!\n",astr.Buffer);

if ( !strcmp(astr.Buffer,"新项 #1") )

{

DbgPrint("[RegRoutine]Forbin!\n");

DbgPrint("[RegRoutine]ForbinKeyName:%s!\n",astr.Buffer);

RtlFreeAnsiString(&astr);

return STATUS_INVALID_PARAMETER;

}

RtlFreeAnsiString(&astr);

}

break;

case RegNtDeleteKey:

{

PREG_DELETE_KEY_INFORMATION deleteKey = (PREG_DELETE_KEY_INFORMATION)Argument2;

registryEventIsValid = GetRegistryObjectCompleteName(®istryPath, NULL, deleteKey->Object);

if ( registryEventIsValid )

{

RtlUnicodeStringToAnsiString(&astr,®istryPath,TRUE);

DbgPrint("[RegDeletedKey]KeyName:%s!\n",astr.Buffer);

if ( !strcmp(astr.Buffer,"\\REGISTRY\\MACHINE\\SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Run\\ljh00001") )

{

DbgPrint("[RegDeletedKey]Forbin!\n");

DbgPrint("[RegDeletedKey]ForbinKeyName:%s!\n");

RtlFreeAnsiString(&astr);

return STATUS_INVALID_PARAMETER;

}

RtlFreeAnsiString(&astr);

}

}

break;

case RegNtSetValueKey:

{

PREG_SET_VALUE_KEY_INFORMATION setvalue = (PREG_SET_VALUE_KEY_INFORMATION)Argument2;

if( MmIsAddressValid(setvalue->ValueName) )

{

registryEventIsValid = GetRegistryObjectCompleteName(®istryPath, NULL, setvalue->Object);

if ( registryEventIsValid )

{

RtlUnicodeStringToAnsiString(&astr,®istryPath,TRUE);

DbgPrint("[RegSetValue]ValueParentPath:%s!\n",astr.Buffer);

RtlFreeAnsiString(&astr);

}

RtlUnicodeStringToAnsiString(&astr,setvalue->ValueName,TRUE);

DbgPrint("[RegSetValue]ValueName:%s!\n",astr.Buffer);

RtlFreeAnsiString(&astr);

//输出设置的键值的数据类型和大小，如果类型是REG_SZ则data是一个unicode_string，而数据大小为buffer长度

//加上4字节长度的length和MaxLength再加上2个字节的结尾00的长度

DbgPrint("[RegSetValue]ValueDataType:%X,DataSize:%X\n",setvalue->Type,setvalue->DataSize);

if ( setvalue->Type == 1 ) //Type为REG_SZ，其它类型的数据暂时忽略

{

DbgPrint("[RegSetValue]Data:%ws\n",setvalue->Data);

}

}

}

break;

case RegNtDeleteValueKey:

{

PREG_DELETE_VALUE_KEY_INFORMATION deletevalue = (PREG_DELETE_VALUE_KEY_INFORMATION)Argument2;

if( MmIsAddressValid(deletevalue->ValueName) )

{

registryEventIsValid = GetRegistryObjectCompleteName(®istryPath, NULL, deletevalue->Object);

if ( registryEventIsValid )

{

RtlUnicodeStringToAnsiString(&astr,®istryPath,TRUE);

DbgPrint("[RegDelValue]ValueParentPath:%s!\n",astr.Buffer);

RtlFreeAnsiString(&astr);

}

RtlUnicodeStringToAnsiString(&astr,deletevalue->ValueName,TRUE);

DbgPrint("[RegDelValue]ValueName:%s!\n",astr.Buffer);

if ( !strcmp(astr.Buffer,"ljh00001") )

{

DbgPrint("[RegDelValue]Forbin!\n");

DbgPrint("[RegDelValue]ForbinKeyName:%s!\n");

RtlFreeAnsiString(&astr);

return STATUS_INVALID_PARAMETER;

}

RtlFreeAnsiString(&astr);

}

}

break;

case RegNtRenameKey:

{

PREG_RENAME_KEY_INFORMATION renamevalue = (PREG_RENAME_KEY_INFORMATION)Argument2;

if( MmIsAddressValid(renamevalue->NewName) )

{

registryEventIsValid = GetRegistryObjectCompleteName(®istryPath, NULL, renamevalue->Object);

if ( registryEventIsValid )

{

RtlUnicodeStringToAnsiString(&astr,®istryPath,TRUE);

DbgPrint("[RegRenameKey]KeyPath:%s!\n",astr.Buffer);

RtlFreeAnsiString(&astr);

}

RtlUnicodeStringToAnsiString(&astr,renamevalue->NewName,TRUE);

DbgPrint("[RegRenameKey]KeyName:%s!\n",astr.Buffer);

RtlFreeAnsiString(&astr);

}

}

break;

default:

break;

}

}

except( EXCEPTION_EXECUTE_HANDLER )

{

DbgPrint("[RegRoutine]Catch a Expection!\n");

exception = TRUE;

registryEventIsValid = FALSE;

}

if(registryPath.Buffer != NULL)

{

ExFreePoolWithTag(registryPath.Buffer, 'ConT');

}

return STATUS_SUCCESS;

}

BOOLEAN GetRegistryObjectCompleteName(PUNICODE_STRING pRegistryPath, PUNICODE_STRING pPartialRegistryPath, PVOID pRegistryObject)

{

BOOLEAN foundCompleteName = FALSE;

BOOLEAN partial = FALSE;

NTSTATUS status;

ULONG returnedLength;

PUNICODE_STRING pObjectName = NULL;

//判断object的有效性

if( (!MmIsAddressValid(pRegistryObject)) || (pRegistryObject == NULL) )

{

DbgPrint("[RegRoutine]pRegistryObject Invalid!\n");

return FALSE;

}

//使用ObQueryNameString来得到object对应的名称

status = ObQueryNameString(pRegistryObject, (POBJECT_NAME_INFORMATION)pObjectName, 0, &returnedLength );

if(status == STATUS_INFO_LENGTH_MISMATCH) //第一次传的buffer长度为0，ObQueryNameString返回的结果必定是缓冲区大小不足

{

pObjectName = ExAllocatePoolWithTag(NonPagedPool, returnedLength, 'ConT'); //申请内存

if ( pObjectName == NULL ) //申请内存失败则返回FALSE

{

DbgPrint("[RegRoutine]AllocatePool Failed!\n");

return FALSE;

}

//查询名称

status = ObQueryNameString(pRegistryObject, (POBJECT_NAME_INFORMATION)pObjectName, returnedLength, &returnedLength );

if(NT_SUCCESS(status))

{

RtlUnicodeStringCopy(pRegistryPath, pObjectName); //拷贝名称

foundCompleteName = TRUE;

}

ExFreePoolWithTag(pObjectName, 'ConT'); //无论查询是否成功都应该释放内存

}

return foundCompleteName;

}