VeraCrypt
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path: root/src/Driver/EncryptedIoQueue.c
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/*
 Derived from source code of TrueCrypt 7.1a, which is
 Copyright (c) 2008-2012 TrueCrypt Developers Association and which is governed
 by the TrueCrypt License 3.0.

 Modifications and additions to the original source code (contained in this file)
 and all other portions of this file are Copyright (c) 2013-2016 IDRIX
 and are governed by the Apache License 2.0 the full text of which is
 contained in the file License.txt included in VeraCrypt binary and source
 code distribution packages.
*/

#include "TCdefs.h"
#include "Apidrvr.h"
#include "Ntdriver.h"
#include "DriveFilter.h"
#include "EncryptedIoQueue.h"
#include "EncryptionThreadPool.h"
#include "Volumes.h"
#include <IntSafe.h>


static void AcquireBufferPoolMutex (EncryptedIoQueue *queue)
{
	NTSTATUS status;

	status = KeWaitForMutexObject (&queue->BufferPoolMutex, Executive, KernelMode, FALSE, NULL);
	if (!NT_SUCCESS (status))
		TC_BUG_CHECK (status);
}


static void ReleaseBufferPoolMutex (EncryptedIoQueue *queue)
{
	KeReleaseMutex (&queue->BufferPoolMutex, FALSE);
}


static void *GetPoolBuffer (EncryptedIoQueue *queue, ULONG requestedSize)
{
	EncryptedIoQueueBuffer *buffer;
	void *bufferAddress = NULL;
	BOOL requestedSizePresentInPool = FALSE;

	while (TRUE)
	{
		AcquireBufferPoolMutex (queue);

		for (buffer = queue->FirstPoolBuffer; ; buffer = buffer->NextBuffer)
		{
			if (buffer && buffer->Size == requestedSize)
			{
				requestedSizePresentInPool = TRUE;

				if (!buffer->InUse)
				{
					// Reuse a free buffer
					buffer->InUse = TRUE;
					bufferAddress = buffer->Address;
					break;
				}
			}

			if (!buffer || !buffer->NextBuffer)
			{
				EncryptedIoQueueBuffer *newBuffer;

				if (requestedSizePresentInPool && !queue->StartPending)
					break;

				// Allocate a new buffer
				newBuffer = TCalloc (sizeof (EncryptedIoQueueBuffer));
				if (!newBuffer)
				{
					bufferAddress = NULL;
					break;
				}

				bufferAddress = TCalloc (requestedSize);
				if (bufferAddress)
				{
					newBuffer->NextBuffer = NULL;
					newBuffer->Address = bufferAddress;
					newBuffer->Size = requestedSize;
					newBuffer->InUse = TRUE;

					if (!buffer)
						queue->FirstPoolBuffer = newBuffer;
					else
						buffer->NextBuffer = newBuffer;
				}
				else
					TCfree (newBuffer);

				break;
			}
		}

		ReleaseBufferPoolMutex (queue);

		if (bufferAddress || !requestedSizePresentInPool || queue->StartPending)
			break;

		KeWaitForSingleObject (&queue->PoolBufferFreeEvent, Executive, KernelMode, FALSE, NULL);
	}

	return bufferAddress;
}


static void ReleasePoolBuffer (EncryptedIoQueue *queue, void *address)
{
	EncryptedIoQueueBuffer *buffer;
	AcquireBufferPoolMutex (queue);

	for (buffer = queue->FirstPoolBuffer; buffer != NULL; buffer = buffer->NextBuffer)
	{
		if (buffer->Address == address)
		{
			ASSERT (buffer->InUse);

			buffer->InUse = FALSE;
			break;
		}
	}

	ReleaseBufferPoolMutex (queue);
	KeSetEvent (&queue->PoolBufferFreeEvent, IO_DISK_INCREMENT, FALSE);
}


static void FreePoolBuffers (EncryptedIoQueue *queue)
{
	EncryptedIoQueueBuffer *buffer;
	AcquireBufferPoolMutex (queue);

	for (buffer = queue->FirstPoolBuffer; buffer != NULL; )
	{
		EncryptedIoQueueBuffer *nextBuffer = buffer->NextBuffer;

		ASSERT (!buffer->InUse || queue->StartPending);

		TCfree (buffer->Address);
		TCfree (buffer);

		buffer = nextBuffer;
	}

	queue->FirstPoolBuffer = NULL;
	ReleaseBufferPoolMutex (queue);
}


static void DecrementOutstandingIoCount (EncryptedIoQueue *queue)
{
	if (InterlockedDecrement (&queue->OutstandingIoCount) == 0 && (queue->SuspendPending || queue->StopPending))
		KeSetEvent (&queue->NoOutstandingIoEvent, IO_DISK_INCREMENT, FALSE);
}


static void OnItemCompleted (EncryptedIoQueueItem *item, BOOL freeItem)
{
	DecrementOutstandingIoCount (item->Queue);
	IoReleaseRemoveLock (&item->Queue->RemoveLock, item->OriginalIrp);

	if (NT_SUCCESS (item->Status))
	{
		if (item->Write)
			item->Queue->TotalBytesWritten += item->OriginalLength;
		else
			item->Queue->TotalBytesRead += item->OriginalLength;
	}

	if (freeItem)
		ReleasePoolBuffer (item->Queue, item);
}


static NTSTATUS CompleteOriginalIrp (EncryptedIoQueueItem *item, NTSTATUS status, ULONG_PTR information)
{
#ifdef TC_TRACE_IO_QUEUE
	Dump ("< %I64d [%I64d] %c status=%x info=%I64d\n", item->OriginalIrpOffset, GetElapsedTime (&item->Queue->LastPerformanceCounter), item->Write ? 'W' : 'R', status, (int64) information);
#endif

	TCCompleteDiskIrp (item->OriginalIrp, status, information);

	item->Status = status;
	OnItemCompleted (item, TRUE);

	return status;
}


static void AcquireFragmentBuffer (EncryptedIoQueue *queue, byte *buffer)
{
	NTSTATUS status = STATUS_INVALID_PARAMETER;

	if (buffer == queue->FragmentBufferA)
	{
		status = KeWaitForSingleObject (&queue->FragmentBufferAFreeEvent, Executive, KernelMode, FALSE, NULL);
	}
	else if (buffer == queue->FragmentBufferB)
	{
		status = KeWaitForSingleObject (&queue->FragmentBufferBFreeEvent, Executive, KernelMode, FALSE, NULL);
	}

	if (!NT_SUCCESS (status))
		TC_BUG_CHECK (status);
}


static void ReleaseFragmentBuffer (EncryptedIoQueue *queue, byte *buffer)
{
	if (buffer == queue->FragmentBufferA)
	{
		KeSetEvent (&queue->FragmentBufferAFreeEvent, IO_DISK_INCREMENT, FALSE);
	}
	else if (buffer == queue->FragmentBufferB)
	{
		KeSetEvent (&queue->FragmentBufferBFreeEvent, IO_DISK_INCREMENT, FALSE);
	}
	else
	{
		TC_BUG_CHECK (STATUS_INVALID_PARAMETER);
	}
}


static VOID CompletionThreadProc (PVOID threadArg)
{
	EncryptedIoQueue *queue = (EncryptedIoQueue *) threadArg;
	PLIST_ENTRY listEntry;
	EncryptedIoRequest *request;
	UINT64_STRUCT dataUnit;

	if (IsEncryptionThreadPoolRunning())
		KeSetPriorityThread (KeGetCurrentThread(), LOW_REALTIME_PRIORITY);

	while (!queue->ThreadExitRequested)
	{
		if (!NT_SUCCESS (KeWaitForSingleObject (&queue->CompletionThreadQueueNotEmptyEvent, Executive, KernelMode, FALSE, NULL)))
			continue;

		if (queue->ThreadExitRequested)
			break;

		while ((listEntry = ExInterlockedRemoveHeadList (&queue->CompletionThreadQueue, &queue->CompletionThreadQueueLock)))
		{
			request = CONTAINING_RECORD (listEntry, EncryptedIoRequest, CompletionListEntry);

			if (request->EncryptedLength > 0 && NT_SUCCESS (request->Item->Status))
			{
				ASSERT (request->EncryptedOffset + request->EncryptedLength <= request->Offset.QuadPart + request->Length);
				dataUnit.Value = (request->Offset.QuadPart + request->EncryptedOffset) / ENCRYPTION_DATA_UNIT_SIZE;

				if (queue->CryptoInfo->bPartitionInInactiveSysEncScope)
					dataUnit.Value += queue->CryptoInfo->FirstDataUnitNo.Value;
				else if (queue->RemapEncryptedArea)
					dataUnit.Value += queue->RemappedAreaDataUnitOffset;

				DecryptDataUnits (request->Data + request->EncryptedOffset, &dataUnit, request->EncryptedLength / ENCRYPTION_DATA_UNIT_SIZE, queue->CryptoInfo);
			}

			if (request->CompleteOriginalIrp)
			{
				CompleteOriginalIrp (request->Item, request->Item->Status,
					NT_SUCCESS (request->Item->Status) ? request->Item->OriginalLength : 0);
			}

			ReleasePoolBuffer (queue, request);
		}
	}

	PsTerminateSystemThread (STATUS_SUCCESS);
}


static NTSTATUS TCCachedRead (EncryptedIoQueue *queue, IO_STATUS_BLOCK *ioStatus, PVOID buffer, LARGE_INTEGER offset, ULONG length)
{
	queue->LastReadOffset = offset;
	queue->LastReadLength = length;

	if (queue->ReadAheadBufferValid && queue->ReadAheadOffset.QuadPart == offset.QuadPart && queue->ReadAheadLength >= length)
	{
		memcpy (buffer, queue->ReadAheadBuffer, length);

		if (!queue->IsFilterDevice)
		{
			ioStatus->Information = length;
			ioStatus->Status = STATUS_SUCCESS;
		}

		return STATUS_SUCCESS;
	}

	if (queue->IsFilterDevice)
		return TCReadDevice (queue->LowerDeviceObject, buffer, offset, length);

	return ZwReadFile (queue->HostFileHandle, NULL, NULL, NULL, ioStatus, buffer, length, &offset, NULL);
}


static VOID IoThreadProc (PVOID threadArg)
{
	EncryptedIoQueue *queue = (EncryptedIoQueue *) threadArg;
	PLIST_ENTRY listEntry;
	EncryptedIoRequest *request;

	KeSetPriorityThread (KeGetCurrentThread(), LOW_REALTIME_PRIORITY);

	if (!queue->IsFilterDevice && queue->SecurityClientContext)
	{
#ifdef DEBUG
		NTSTATUS status =
#endif
		SeImpersonateClientEx (queue->SecurityClientContext, NULL);
		ASSERT (NT_SUCCESS (status));
	}

	while (!queue->ThreadExitRequested)
	{
		if (!NT_SUCCESS (KeWaitForSingleObject (&queue->IoThreadQueueNotEmptyEvent, Executive, KernelMode, FALSE, NULL)))
			continue;

		if (queue->ThreadExitRequested)
			break;

		while ((listEntry = ExInterlockedRemoveHeadList (&queue->IoThreadQueue, &queue->IoThreadQueueLock)))
		{
			InterlockedDecrement (&queue->IoThreadPendingRequestCount);
			request = CONTAINING_RECORD (listEntry, EncryptedIoRequest, ListEntry);

#ifdef TC_TRACE_IO_QUEUE
			Dump ("%c   %I64d [%I64d] roff=%I64d rlen=%d\n", request->Item->Write ? 'W' : 'R', request->Item->OriginalIrpOffset.QuadPart, GetElapsedTime (&queue->LastPerformanceCounter), request->Offset.QuadPart, request->Length);
#endif

			// Perform IO request if no preceding request of the item failed
			if (NT_SUCCESS (request->Item->Status))
			{
				if (queue->IsFilterDevice)
				{
					if (queue->RemapEncryptedArea && request->EncryptedLength > 0)
					{
						if (request->EncryptedLength != request->Length)
						{
							// Up to three subfragments may be required to handle a partially remapped fragment
							int subFragment;
							byte *subFragmentData = request->Data;

							for (subFragment = 0 ; subFragment < 3; ++subFragment)
							{
								LARGE_INTEGER subFragmentOffset;
								ULONG subFragmentLength;
								subFragmentOffset.QuadPart = request->Offset.QuadPart;

								switch (subFragment)
								{
								case 0:
									subFragmentLength = (ULONG) request->EncryptedOffset;
									break;

								case 1:
									subFragmentOffset.QuadPart += request->EncryptedOffset + queue->RemappedAreaOffset;
									subFragmentLength = request->EncryptedLength;
									break;

								case 2:
									subFragmentOffset.QuadPart += request->EncryptedOffset + request->EncryptedLength;
									subFragmentLength = (ULONG) (request->Length - (request->EncryptedOffset + request->EncryptedLength));
									break;
								}

								if (subFragmentLength > 0)
								{
									if (request->Item->Write)
										request->Item->Status = TCWriteDevice (queue->LowerDeviceObject, subFragmentData, subFragmentOffset, subFragmentLength);
									else
										request->Item->Status = TCCachedRead (queue, NULL, subFragmentData, subFragmentOffset, subFragmentLength);

									subFragmentData += subFragmentLength;
								}
							}
						}
						else
						{
							// Remap the fragment
							LARGE_INTEGER remappedOffset;
							remappedOffset.QuadPart = request->Offset.QuadPart + queue->RemappedAreaOffset;

							if (request->Item->Write)
								request->Item->Status = TCWriteDevice (queue->LowerDeviceObject, request->Data, remappedOffset, request->Length);
							else
								request->Item->Status = TCCachedRead (queue, NULL, request->Data, remappedOffset, request->Length);
						}
					}
					else
					{
						if (request->Item->Write)
							request->Item->Status = TCWriteDevice (queue->LowerDeviceObject, request->Data, request->Offset, request->Length);
						else
							request->Item->Status = TCCachedRead (queue, NULL, request->Data, request->Offset, request->Length);
					}
				}
				else
				{
					IO_STATUS_BLOCK ioStatus;

					if (request->Item->Write)
						request->Item->Status = ZwWriteFile (queue->HostFileHandle, NULL, NULL, NULL, &ioStatus, request->Data, request->Length, &request->Offset, NULL);
					else
						request->Item->Status = TCCachedRead (queue, &ioStatus, request->Data, request->Offset, request->Length);

					if (NT_SUCCESS (request->Item->Status) && ioStatus.Information != request->Length)
						request->Item->Status = STATUS_END_OF_FILE;
				}
			}

			if (request->Item->Write)
			{
				queue->ReadAheadBufferValid = FALSE;

				ReleaseFragmentBuffer (queue, request->Data);

				if (request->CompleteOriginalIrp)
				{
					CompleteOriginalIrp (request->Item, request->Item->Status,
						NT_SUCCESS (request->Item->Status) ? request->Item->OriginalLength : 0);
				}

				ReleasePoolBuffer (queue, request);
			}
			else
			{
				BOOL readAhead = FALSE;

				if (NT_SUCCESS (request->Item->Status))
					memcpy (request->OrigDataBufferFragment, request->Data, request->Length);

				ReleaseFragmentBuffer (queue, request->Data);
				request->Data = request->OrigDataBufferFragment;

				if (request->CompleteOriginalIrp
					&& queue->LastReadLength > 0
					&& NT_SUCCESS (request->Item->Status)
					&& InterlockedExchangeAdd (&queue->IoThreadPendingRequestCount, 0) == 0)
				{
					readAhead = TRUE;
					InterlockedIncrement (&queue->OutstandingIoCount);
				}

				ExInterlockedInsertTailList (&queue->CompletionThreadQueue, &request->CompletionListEntry, &queue->CompletionThreadQueueLock);
				KeSetEvent (&queue->CompletionThreadQueueNotEmptyEvent, IO_DISK_INCREMENT, FALSE);

				if (readAhead)
				{
					queue->ReadAheadBufferValid = FALSE;
					queue->ReadAheadOffset.QuadPart = queue->LastReadOffset.QuadPart + queue->LastReadLength;
					queue->ReadAheadLength = queue->LastReadLength;

					if (queue->ReadAheadOffset.QuadPart + queue->ReadAheadLength <= queue->MaxReadAheadOffset.QuadPart)
					{
#ifdef TC_TRACE_IO_QUEUE
						Dump ("A   %I64d [%I64d] roff=%I64d rlen=%d\n", request->Item->OriginalIrpOffset.QuadPart, GetElapsedTime (&queue->LastPerformanceCounter), queue->ReadAheadOffset, queue->ReadAheadLength);
#endif
						if (queue->IsFilterDevice)
						{
							queue->ReadAheadBufferValid = NT_SUCCESS (TCReadDevice (queue->LowerDeviceObject, queue->ReadAheadBuffer, queue->ReadAheadOffset, queue->ReadAheadLength));
						}
						else
						{
							IO_STATUS_BLOCK ioStatus;
							queue->ReadAheadBufferValid = NT_SUCCESS (ZwReadFile (queue->HostFileHandle, NULL, NULL, NULL, &ioStatus, queue->ReadAheadBuffer, queue->ReadAheadLength, &queue->ReadAheadOffset, NULL));
							queue->ReadAheadLength = (ULONG) ioStatus.Information;
						}
					}

					DecrementOutstandingIoCount (queue);
				}
			}
		}
	}

	PsTerminateSystemThread (STATUS_SUCCESS);
}


static VOID MainThreadProc (PVOID threadArg)
{
	EncryptedIoQueue *queue = (EncryptedIoQueue *) threadArg;
	PLIST_ENTRY listEntry;
	EncryptedIoQueueItem *item;

	LARGE_INTEGER fragmentOffset;
	ULONG dataRemaining;
	PUCHAR activeFragmentBuffer = queue->FragmentBufferA;
	PUCHAR dataBuffer;
	EncryptedIoRequest *request;
	uint64 intersectStart;
	uint32 intersectLength;
	ULONGLONG addResult;
	HRESULT hResult;

	if (IsEncryptionThreadPoolRunning())
		KeSetPriorityThread (KeGetCurrentThread(), LOW_REALTIME_PRIORITY);

	while (!queue->ThreadExitRequested)
	{
		if (!NT_SUCCESS (KeWaitForSingleObject (&queue->MainThreadQueueNotEmptyEvent, Executive, KernelMode, FALSE, NULL)))
			continue;

		while ((listEntry = ExInterlockedRemoveHeadList (&queue->MainThreadQueue, &queue->MainThreadQueueLock)))
		{
			PIRP irp = CONTAINING_RECORD (listEntry, IRP, Tail.Overlay.ListEntry);
			PIO_STACK_LOCATION irpSp = IoGetCurrentIrpStackLocation (irp);

			if (queue->Suspended)
				KeWaitForSingleObject (&queue->QueueResumedEvent, Executive, KernelMode, FALSE, NULL);

			item = GetPoolBuffer (queue, sizeof (EncryptedIoQueueItem));
			if (!item)
			{
				TCCompleteDiskIrp (irp, STATUS_INSUFFICIENT_RESOURCES, 0);
				DecrementOutstandingIoCount (queue);
				IoReleaseRemoveLock (&queue->RemoveLock, irp);

				continue;
			}

			item->Queue = queue;
			item->OriginalIrp = irp;
			item->Status = STATUS_SUCCESS;

			IoSetCancelRoutine (irp, NULL);
			if (irp->Cancel)
			{
				CompleteOriginalIrp (item, STATUS_CANCELLED, 0);
				continue;
			}

			switch (irpSp->MajorFunction)
			{
			case IRP_MJ_READ:
				item->Write = FALSE;
				item->OriginalOffset = irpSp->Parameters.Read.ByteOffset;
				item->OriginalLength = irpSp->Parameters.Read.Length;
				break;

			case IRP_MJ_WRITE:
				item->Write = TRUE;
				item->OriginalOffset = irpSp->Parameters.Write.ByteOffset;
				item->OriginalLength = irpSp->Parameters.Write.Length;
				break;

			default:
				CompleteOriginalIrp (item, STATUS_INVALID_PARAMETER, 0);
				continue;
			}

#ifdef TC_TRACE_IO_QUEUE
			item->OriginalIrpOffset = item->OriginalOffset;
#endif

			// Handle misaligned read operations to work around a bug in Windows System Assessment Tool which does not follow FILE_FLAG_NO_BUFFERING requirements when benchmarking disk devices
			if (queue->IsFilterDevice
				&& !item->Write
				&& item->OriginalLength > 0
				&& (item->OriginalLength & (ENCRYPTION_DATA_UNIT_SIZE - 1)) == 0
				&& (item->OriginalOffset.QuadPart & (ENCRYPTION_DATA_UNIT_SIZE - 1)) != 0)
			{
				byte *buffer;
				ULONG alignedLength;
				LARGE_INTEGER alignedOffset;
				hResult = ULongAdd(item->OriginalLength, ENCRYPTION_DATA_UNIT_SIZE, &alignedLength);
				if (hResult != S_OK)
				{
					CompleteOriginalIrp (item, STATUS_INVALID_PARAMETER, 0);
					continue;
				}

				alignedOffset.QuadPart = item->OriginalOffset.QuadPart & ~((LONGLONG) ENCRYPTION_DATA_UNIT_SIZE - 1);

				buffer = TCalloc (alignedLength);
				if (!buffer)
				{
					CompleteOriginalIrp (item, STATUS_INSUFFICIENT_RESOURCES, 0);
					continue;
				}

				item->Status = TCReadDevice (queue->LowerDeviceObject, buffer, alignedOffset, alignedLength);

				if (NT_SUCCESS (item->Status))
				{
					UINT64_STRUCT dataUnit;

					dataBuffer = (PUCHAR) MmGetSystemAddressForMdlSafe (irp->MdlAddress, HighPagePriority);
					if (!dataBuffer)
					{
						TCfree (buffer);
						CompleteOriginalIrp (item, STATUS_INSUFFICIENT_RESOURCES, 0);
						continue;
					}

					if (queue->EncryptedAreaStart != -1 && queue->EncryptedAreaEnd != -1)
					{
						GetIntersection (alignedOffset.QuadPart, alignedLength, queue->EncryptedAreaStart, queue->EncryptedAreaEnd, &intersectStart, &intersectLength);
						if (intersectLength > 0)
						{
							dataUnit.Value = intersectStart / ENCRYPTION_DATA_UNIT_SIZE;
							DecryptDataUnits (buffer + (intersectStart - alignedOffset.QuadPart), &dataUnit, intersectLength / ENCRYPTION_DATA_UNIT_SIZE, queue->CryptoInfo);
						}
					}

					memcpy (dataBuffer, buffer + (item->OriginalOffset.LowPart & (ENCRYPTION_DATA_UNIT_SIZE - 1)), item->OriginalLength);
				}

				TCfree (buffer);
				CompleteOriginalIrp (item, item->Status, NT_SUCCESS (item->Status) ? item->OriginalLength : 0);
				continue;
			}

			// Validate offset and length
			if (item->OriginalLength == 0
				|| (item->OriginalLength & (ENCRYPTION_DATA_UNIT_SIZE - 1)) != 0
				|| (item->OriginalOffset.QuadPart & (ENCRYPTION_DATA_UNIT_SIZE - 1)) != 0
				|| (	!queue->IsFilterDevice &&
						(	(S_OK != ULongLongAdd(item->OriginalOffset.QuadPart, item->OriginalLength, &addResult))
							||	(addResult > (ULONGLONG) queue->VirtualDeviceLength)
						)
					)
				)
			{
				CompleteOriginalIrp (item, STATUS_INVALID_PARAMETER, 0);
				continue;
			}

#ifdef TC_TRACE_IO_QUEUE
			Dump ("Q  %I64d [%I64d] %c len=%d\n", item->OriginalOffset.QuadPart, GetElapsedTime (&queue->LastPerformanceCounter), item->Write ? 'W' : 'R', item->OriginalLength);
#endif

			if (!queue->IsFilterDevice)
			{
				// Adjust the offset for host file or device
				if (queue->CryptoInfo->hiddenVolume)
					hResult = ULongLongAdd(item->OriginalOffset.QuadPart, queue->CryptoInfo->hiddenVolumeOffset, &addResult);
				else
					hResult = ULongLongAdd(item->OriginalOffset.QuadPart, queue->CryptoInfo->volDataAreaOffset, &addResult);

				if (hResult != S_OK)
				{
					CompleteOriginalIrp (item, STATUS_INVALID_PARAMETER, 0);
					continue;
				}
				else
					item->OriginalOffset.QuadPart = addResult;

				// Hidden volume protection
				if (item->Write && queue->CryptoInfo->bProtectHiddenVolume)
				{
					// If there has already been a write operation denied in order to protect the
					// hidden volume (since the volume mount time)
					if (queue->CryptoInfo->bHiddenVolProtectionAction)
					{
						// Do not allow writing to this volume anymore. This is to fake a complete volume
						// or system failure (otherwise certain kinds of inconsistency within the file
						// system could indicate that this volume has used hidden volume protection).
						CompleteOriginalIrp (item, STATUS_INVALID_PARAMETER, 0);
						continue;
					}

					// Verify that no byte is going to be written to the hidden volume area
					if (RegionsOverlap ((unsigned __int64) item->OriginalOffset.QuadPart,
						(unsigned __int64) item->OriginalOffset.QuadPart + item->OriginalLength - 1,
						queue->CryptoInfo->hiddenVolumeOffset,
						(unsigned __int64) queue->CryptoInfo->hiddenVolumeOffset + queue->CryptoInfo->hiddenVolumeProtectedSize - 1))
					{
						Dump ("Hidden volume protection triggered: write %I64d-%I64d (protected %I64d-%I64d)\n", item->OriginalOffset.QuadPart, item->OriginalOffset.QuadPart + item->OriginalLength - 1, queue->CryptoInfo->hiddenVolumeOffset, queue->CryptoInfo->hiddenVolumeOffset + queue->CryptoInfo->hiddenVolumeProtectedSize - 1);
						queue->CryptoInfo->bHiddenVolProtectionAction = TRUE;

						// Deny this write operation to prevent the hidden volume from being overwritten
						CompleteOriginalIrp (item, STATUS_INVALID_PARAMETER, 0);
						continue;
					}
				}
			}
			else if (item->Write
				&& RegionsOverlap (item->OriginalOffset.QuadPart, item->OriginalOffset.QuadPart + item->OriginalLength - 1, TC_BOOT_VOLUME_HEADER_SECTOR_OFFSET, TC_BOOT_VOLUME_HEADER_SECTOR_OFFSET + TC_BOOT_ENCRYPTION_VOLUME_HEADER_SIZE - 1))
			{
				// Prevent inappropriately designed software from damaging important data that may be out of sync with the backup on the Rescue Disk (such as the end of the encrypted area).
				Dump ("Preventing write to the system encryption key data area\n");
				CompleteOriginalIrp (item, STATUS_MEDIA_WRITE_PROTECTED, 0);
				continue;
			}
			else if (item->Write && IsHiddenSystemRunning()
				&& (RegionsOverlap (item->OriginalOffset.QuadPart, item->OriginalOffset.QuadPart + item->OriginalLength - 1, TC_SECTOR_SIZE_BIOS, TC_BOOT_LOADER_AREA_SECTOR_COUNT * TC_SECTOR_SIZE_BIOS - 1)
				 || RegionsOverlap (item->OriginalOffset.QuadPart, item->OriginalOffset.QuadPart + item->OriginalLength - 1, GetBootDriveLength(), _I64_MAX)))
			{
				Dump ("Preventing write to boot loader or host protected area\n");
				CompleteOriginalIrp (item, STATUS_MEDIA_WRITE_PROTECTED, 0);
				continue;
			}

			dataBuffer = (PUCHAR) MmGetSystemAddressForMdlSafe (irp->MdlAddress, HighPagePriority);

			if (dataBuffer == NULL)
			{
				CompleteOriginalIrp (item, STATUS_INSUFFICIENT_RESOURCES, 0);
				continue;
			}

			// Divide data block to fragments to enable efficient overlapping of encryption and IO operations

			dataRemaining = item->OriginalLength;
			fragmentOffset = item->OriginalOffset;

			while (dataRemaining > 0)
			{
				BOOL isLastFragment = dataRemaining <= TC_ENC_IO_QUEUE_MAX_FRAGMENT_SIZE;

				ULONG dataFragmentLength = isLastFragment ? dataRemaining : TC_ENC_IO_QUEUE_MAX_FRAGMENT_SIZE;
				activeFragmentBuffer = (activeFragmentBuffer == queue->FragmentBufferA ? queue->FragmentBufferB : queue->FragmentBufferA);

				InterlockedIncrement (&queue->IoThreadPendingRequestCount);

				// Create IO request
				request = GetPoolBuffer (queue, sizeof (EncryptedIoRequest));
				if (!request)
				{
					CompleteOriginalIrp (item, STATUS_INSUFFICIENT_RESOURCES, 0);
					break;
				}
				request->Item = item;
				request->CompleteOriginalIrp = isLastFragment;
				request->Offset = fragmentOffset;
				request->Data = activeFragmentBuffer;
				request->OrigDataBufferFragment = dataBuffer;
				request->Length = dataFragmentLength;

				if (queue->IsFilterDevice)
				{
					if (queue->EncryptedAreaStart == -1 || queue->EncryptedAreaEnd == -1)
					{
						request->EncryptedLength = 0;
					}
					else
					{
						// Get intersection of data fragment with encrypted area
						GetIntersection (fragmentOffset.QuadPart, dataFragmentLength, queue->EncryptedAreaStart, queue->EncryptedAreaEnd, &intersectStart, &intersectLength);

						request->EncryptedOffset = intersectStart - fragmentOffset.QuadPart;
						request->EncryptedLength = intersectLength;
					}
				}
				else
				{
					request->EncryptedOffset = 0;
					request->EncryptedLength = dataFragmentLength;
				}

				AcquireFragmentBuffer (queue, activeFragmentBuffer);

				if (item->Write)
				{
					// Encrypt data
					memcpy (activeFragmentBuffer, dataBuffer, dataFragmentLength);

					if (request->EncryptedLength > 0)
					{
						UINT64_STRUCT dataUnit;
						ASSERT (request->EncryptedOffset + request->EncryptedLength <= request->Offset.QuadPart + request->Length);

						dataUnit.Value = (request->Offset.QuadPart + request->EncryptedOffset) / ENCRYPTION_DATA_UNIT_SIZE;

						if (queue->CryptoInfo->bPartitionInInactiveSysEncScope)
							dataUnit.Value += queue->CryptoInfo->FirstDataUnitNo.Value;
						else if (queue->RemapEncryptedArea)
							dataUnit.Value += queue->RemappedAreaDataUnitOffset;

						EncryptDataUnits (activeFragmentBuffer + request->EncryptedOffset, &dataUnit, request->EncryptedLength / ENCRYPTION_DATA_UNIT_SIZE, queue->CryptoInfo);
					}
				}

				// Queue IO request
				ExInterlockedInsertTailList (&queue->IoThreadQueue, &request->ListEntry, &queue->IoThreadQueueLock);
				KeSetEvent (&queue->IoThreadQueueNotEmptyEvent, IO_DISK_INCREMENT, FALSE);

				if (isLastFragment)
					break;

				dataRemaining -= TC_ENC_IO_QUEUE_MAX_FRAGMENT_SIZE;
				dataBuffer += TC_ENC_IO_QUEUE_MAX_FRAGMENT_SIZE;
				fragmentOffset.QuadPart += TC_ENC_IO_QUEUE_MAX_FRAGMENT_SIZE;
			}
		}
	}

	PsTerminateSystemThread (STATUS_SUCCESS);
}


NTSTATUS EncryptedIoQueueAddIrp (EncryptedIoQueue *queue, PIRP irp)
{
	NTSTATUS status;

	InterlockedIncrement (&queue->OutstandingIoCount);
	if (queue->StopPending)
	{
		Dump ("STATUS_DEVICE_NOT_READY  out=%d\n", queue->OutstandingIoCount);
		status = STATUS_DEVICE_NOT_READY;
		goto err;
	}

	status = IoAcquireRemoveLock (&queue->RemoveLock, irp);
	if (!NT_SUCCESS (status))
		goto err;

#ifdef TC_TRACE_IO_QUEUE
	{
		PIO_STACK_LOCATION irpSp = IoGetCurrentIrpStackLocation (irp);
		Dump ("* %I64d [%I64d] %c len=%d out=%d\n", irpSp->MajorFunction == IRP_MJ_WRITE ? irpSp->Parameters.Write.ByteOffset : irpSp->Parameters.Read.ByteOffset, GetElapsedTime (&queue->LastPerformanceCounter), irpSp->MajorFunction == IRP_MJ_WRITE ? 'W' : 'R', irpSp->MajorFunction == IRP_MJ_WRITE ? irpSp->Parameters.Write.Length : irpSp->Parameters.Read.Length, queue->OutstandingIoCount);
	}
#endif

	IoMarkIrpPending (irp);

	ExInterlockedInsertTailList (&queue->MainThreadQueue, &irp->Tail.Overlay.ListEntry, &queue->MainThreadQueueLock);
	KeSetEvent (&queue->MainThreadQueueNotEmptyEvent, IO_DISK_INCREMENT, FALSE);

	return STATUS_PENDING;

err:
	DecrementOutstandingIoCount (queue);
	return status;
}


NTSTATUS EncryptedIoQueueHoldWhenIdle (EncryptedIoQueue *queue, int64 timeout)
{
	NTSTATUS status;
	ASSERT (!queue->Suspended);

	queue->SuspendPending = TRUE;

	while (TRUE)
	{
		while (InterlockedExchangeAdd (&queue->OutstandingIoCount, 0) > 0)
		{
			LARGE_INTEGER waitTimeout;

			waitTimeout.QuadPart = timeout * -10000;
			status = KeWaitForSingleObject (&queue->NoOutstandingIoEvent, Executive, KernelMode, FALSE, timeout != 0 ? &waitTimeout : NULL);

			if (status == STATUS_TIMEOUT)
				status = STATUS_UNSUCCESSFUL;

			if (!NT_SUCCESS (status))
			{
				queue->SuspendPending = FALSE;
				return status;
			}

			TCSleep (1);
			if (InterlockedExchangeAdd (&queue->OutstandingIoCount, 0) > 0)
			{
				queue->SuspendPending = FALSE;
				return STATUS_UNSUCCESSFUL;
			}
		}

		KeClearEvent (&queue->QueueResumedEvent);
		queue->Suspended = TRUE;

		if (InterlockedExchangeAdd (&queue->OutstandingIoCount, 0) == 0)
			break;

		queue->Suspended = FALSE;
		KeSetEvent (&queue->QueueResumedEvent, IO_DISK_INCREMENT, FALSE);
	}

	queue->ReadAheadBufferValid = FALSE;

	queue->SuspendPending = FALSE;
	return STATUS_SUCCESS;
}


BOOL EncryptedIoQueueIsSuspended (EncryptedIoQueue *queue)
{
	return queue->Suspended;
}


BOOL EncryptedIoQueueIsRunning (EncryptedIoQueue *queue)
{
	return !queue->StopPending;
}


NTSTATUS EncryptedIoQueueResumeFromHold (EncryptedIoQueue *queue)
{
	ASSERT (queue->Suspended);

	queue->Suspended = FALSE;
	KeSetEvent (&queue->QueueResumedEvent, IO_DISK_INCREMENT, FALSE);

	return STATUS_SUCCESS;
}


NTSTATUS EncryptedIoQueueStart (EncryptedIoQueue *queue)
{
	NTSTATUS status;
	EncryptedIoQueueBuffer *buffer;
	int i;

	queue->StartPending = TRUE;
	queue->ThreadExitRequested = FALSE;

	queue->OutstandingIoCount = 0;
	queue->IoThreadPendingRequestCount = 0;

	queue->FirstPoolBuffer = NULL;
	KeInitializeMutex (&queue->BufferPoolMutex, 0);

	KeInitializeEvent (&queue->NoOutstandingIoEvent, SynchronizationEvent, FALSE);
	KeInitializeEvent (&queue->PoolBufferFreeEvent, SynchronizationEvent, FALSE);
	KeInitializeEvent (&queue->QueueResumedEvent, SynchronizationEvent, FALSE);

	queue->FragmentBufferA = TCalloc (TC_ENC_IO_QUEUE_MAX_FRAGMENT_SIZE);
	if (!queue->FragmentBufferA)
		goto noMemory;

	queue->FragmentBufferB = TCalloc (TC_ENC_IO_QUEUE_MAX_FRAGMENT_SIZE);
	if (!queue->FragmentBufferB)
		goto noMemory;

	KeInitializeEvent (&queue->FragmentBufferAFreeEvent, SynchronizationEvent, TRUE);
	KeInitializeEvent (&queue->FragmentBufferBFreeEvent, SynchronizationEvent, TRUE);

	queue->ReadAheadBufferValid = FALSE;
	queue->ReadAheadBuffer = TCalloc (TC_ENC_IO_QUEUE_MAX_FRAGMENT_SIZE);
	if (!queue->ReadAheadBuffer)
		goto noMemory;

	// Preallocate buffers
	for (i = 0; i < TC_ENC_IO_QUEUE_PREALLOCATED_IO_REQUEST_COUNT; ++i)
	{
		if (i < TC_ENC_IO_QUEUE_PREALLOCATED_ITEM_COUNT && !GetPoolBuffer (queue, sizeof (EncryptedIoQueueItem)))
			goto noMemory;

		if (!GetPoolBuffer (queue, sizeof (EncryptedIoRequest)))
			goto noMemory;
	}

	for (buffer = queue->FirstPoolBuffer; buffer != NULL; buffer = buffer->NextBuffer)
	{
		buffer->InUse = FALSE;
	}

	// Main thread
	InitializeListHead (&queue->MainThreadQueue);
	KeInitializeSpinLock (&queue->MainThreadQueueLock);
	KeInitializeEvent (&queue->MainThreadQueueNotEmptyEvent, SynchronizationEvent, FALSE);

	status = TCStartThread (MainThreadProc, queue, &queue->MainThread);
	if (!NT_SUCCESS (status))
		goto err;

	// IO thread
	InitializeListHead (&queue->IoThreadQueue);
	KeInitializeSpinLock (&queue->IoThreadQueueLock);
	KeInitializeEvent (&queue->IoThreadQueueNotEmptyEvent, SynchronizationEvent, FALSE);

	status = TCStartThread (IoThreadProc, queue, &queue->IoThread);
	if (!NT_SUCCESS (status))
	{
		queue->ThreadExitRequested = TRUE;
		TCStopThread (queue->MainThread, &queue->MainThreadQueueNotEmptyEvent);
		goto err;
	}

	// Completion thread
	InitializeListHead (&queue->CompletionThreadQueue);
	KeInitializeSpinLock (&queue->CompletionThreadQueueLock);
	KeInitializeEvent (&queue->CompletionThreadQueueNotEmptyEvent, SynchronizationEvent, FALSE);

	status = TCStartThread (CompletionThreadProc, queue, &queue->CompletionThread);
	if (!NT_SUCCESS (status))
	{
		queue->ThreadExitRequested = TRUE;
		TCStopThread (queue->MainThread, &queue->MainThreadQueueNotEmptyEvent);
		TCStopThread (queue->IoThread, &queue->IoThreadQueueNotEmptyEvent);
		goto err;
	}

#ifdef TC_TRACE_IO_QUEUE
	GetElapsedTimeInit (&queue->LastPerformanceCounter);
#endif

	queue->StopPending = FALSE;
	queue->StartPending = FALSE;

	Dump ("Queue started\n");
	return STATUS_SUCCESS;

noMemory:
	status = STATUS_INSUFFICIENT_RESOURCES;

err:
	if (queue->FragmentBufferA)
		TCfree (queue->FragmentBufferA);
	if (queue->FragmentBufferB)
		TCfree (queue->FragmentBufferB);
	if (queue->ReadAheadBuffer)
		TCfree (queue->ReadAheadBuffer);

	FreePoolBuffers (queue);

	queue->StartPending = FALSE;
	return status;
}


NTSTATUS EncryptedIoQueueStop (EncryptedIoQueue *queue)
{
	ASSERT (!queue->StopPending);
	queue->StopPending = TRUE;

	while (InterlockedExchangeAdd (&queue->OutstandingIoCount, 0) > 0)
	{
		KeWaitForSingleObject (&queue->NoOutstandingIoEvent, Executive, KernelMode, FALSE, NULL);
	}

	Dump ("Queue stopping  out=%d\n", queue->OutstandingIoCount);

	queue->ThreadExitRequested = TRUE;

	TCStopThread (queue->MainThread, &queue->MainThreadQueueNotEmptyEvent);
	TCStopThread (queue->IoThread, &queue->IoThreadQueueNotEmptyEvent);
	TCStopThread (queue->CompletionThread, &queue->CompletionThreadQueueNotEmptyEvent);

	TCfree (queue->FragmentBufferA);
	TCfree (queue->FragmentBufferB);
	TCfree (queue->ReadAheadBuffer);

	FreePoolBuffers (queue);

	Dump ("Queue stopped  out=%d\n", queue->OutstandingIoCount);
	return STATUS_SUCCESS;
}
aderKey = GetDlgItem(hwndDlg, IDC_HEADER_KEY);
+ hRandPool = GetDlgItem(hwndDlg, IDC_RANDOM_BYTES);
+
+ SendMessage(GetDlgItem(hwndDlg, IDC_RANDOM_BYTES), WM_SETFONT, (WPARAM)hFixedDigitFont, (LPARAM)TRUE);
+ SendMessage(GetDlgItem(hwndDlg, IDC_DISK_KEY), WM_SETFONT, (WPARAM)hFixedDigitFont, (LPARAM)TRUE);
+ SendMessage(GetDlgItem(hwndDlg, IDC_HEADER_KEY), WM_SETFONT, (WPARAM)hFixedDigitFont, (LPARAM)TRUE);
+
+ /* Quick/Dynamic */
+
+ if (bHiddenVol)
+ {
+ quickFormat = !bHiddenVolHost;
+ dynamicFormat = FALSE;
+ bSparseFileSwitch = FALSE;
+ }
+ else
+ {
+ if (bDevice)
+ {
+ dynamicFormat = FALSE;
+ bSparseFileSwitch = FALSE;
+ }
+ else
+ {
+ wchar_t root[TC_MAX_PATH];
+ DWORD fileSystemFlags = 0;
+
+ /* Check if the host file system supports sparse files */
+
+ if (GetVolumePathName (szFileName, root, array_capacity (root)))
+ {
+ GetVolumeInformation (root, NULL, 0, NULL, NULL, &fileSystemFlags, NULL, 0);
+ bSparseFileSwitch = fileSystemFlags & FILE_SUPPORTS_SPARSE_FILES;
+ }
+ else
+ bSparseFileSwitch = FALSE;
+ if (!bSparseFileSwitch)
+ {
+ dynamicFormat = FALSE;
+ }
+ }
+ }
+ SendMessage (GetDlgItem (hwndDlg, IDC_SHOW_KEYS), BM_SETCHECK, showKeys ? BST_CHECKED : BST_UNCHECKED, 0);
+ SetWindowText (GetDlgItem (hwndDlg, IDC_RANDOM_BYTES), showKeys ? L"" : L"******************************** ");
+ SetWindowText (GetDlgItem (hwndDlg, IDC_HEADER_KEY), showKeys ? L"" : L"******************************** ");
+ SetWindowText (GetDlgItem (hwndDlg, IDC_DISK_KEY), showKeys ? L"" : L"******************************** ");
+
+ SendMessage(GetDlgItem(hwndDlg, IDC_CLUSTERSIZE), CB_RESETCONTENT, 0, 0);
+ AddComboPairW(GetDlgItem(hwndDlg, IDC_CLUSTERSIZE), GetString("DEFAULT"), 0);
+ SendMessage(GetDlgItem(hwndDlg, IDC_CLUSTERSIZE), CB_SETCURSEL, 0, 0);
+ EnableWindow(GetDlgItem(hwndDlg, IDC_CLUSTERSIZE), TRUE);
+
+ /* Filesystems */
+ bNTFSallowed = FALSE;
+ bFATallowed = FALSE;
+ bEXFATallowed = FALSE;
+ bReFSallowed = FALSE;
+ bNoFSallowed = FALSE;
+
+ SendMessage(GetDlgItem(hwndDlg, IDC_FILESYS), CB_RESETCONTENT, 0, 0);
+ EnableWindow(GetDlgItem(hwndDlg, IDC_FILESYS), TRUE);
+
+ uint64 dataAreaSize = GetVolumeDataAreaSize (bHiddenVol && !bHiddenVolHost, nVolumeSize);
+
+ if (!CreatingHiddenSysVol())
+ {
+ if (dataAreaSize >= TC_MIN_NTFS_FS_SIZE && dataAreaSize <= TC_MAX_NTFS_FS_SIZE)
+ {
+ AddComboPair (GetDlgItem (hwndDlg, IDC_FILESYS), L"NTFS", FILESYS_NTFS);
+ bNTFSallowed = TRUE;
+ }
+
+ if (dataAreaSize >= TC_MIN_FAT_FS_SIZE && dataAreaSize <= TC_MAX_FAT_SECTOR_COUNT * GetFormatSectorSize())
+ {
+ AddComboPair (GetDlgItem (hwndDlg, IDC_FILESYS), L"FAT", FILESYS_FAT);
+ bFATallowed = TRUE;
+ }
+
+ //exFAT support added starting from Vista SP1
+ if (IsOSVersionAtLeast (WIN_VISTA, 1) && dataAreaSize >= TC_MIN_EXFAT_FS_SIZE && dataAreaSize <= TC_MAX_EXFAT_FS_SIZE)
+ {
+ AddComboPair (GetDlgItem (hwndDlg, IDC_FILESYS), L"exFAT", FILESYS_EXFAT);
+ bEXFATallowed = TRUE;
+ }
+
+ //ReFS write support activated by default starting from Windows 10
+ //We don't support it yet for the creation of hidden volumes
+ if ((!bHiddenVolHost) && IsOSVersionAtLeast (WIN_10, 0) && dataAreaSize >= TC_MIN_REFS_FS_SIZE && dataAreaSize <= TC_MAX_REFS_FS_SIZE)
+ {
+ AddComboPair (GetDlgItem (hwndDlg, IDC_FILESYS), L"ReFS", FILESYS_REFS);
+ bReFSallowed = TRUE;
+ }
+ }
+ else
+ {
+ // We're creating a hidden volume for a hidden OS, so we don't need to format it with
+ // any filesystem (the entire OS will be copied to the hidden volume sector by sector).
+ EnableWindow (GetDlgItem (hwndDlg, IDC_FILESYS), FALSE);
+ EnableWindow (GetDlgItem (hwndDlg, IDC_CLUSTERSIZE), FALSE);
+ }
+ if (!bHiddenVolHost)
+ {
+ AddComboPairW(GetDlgItem(hwndDlg, IDC_FILESYS), GetString("NONE"), FILESYS_NONE);
+ bNoFSallowed = TRUE;
+ }
+ if (fileSystem == FILESYS_NONE) // If no file system has been previously selected
+ {
+ // Set default file system
+
+ if (bFATallowed && !(nNeedToStoreFilesOver4GB == 1 && (bNTFSallowed || bEXFATallowed || bReFSallowed)))
+ fileSystem = FILESYS_FAT;
+ else if (bEXFATallowed)
+ fileSystem = FILESYS_EXFAT;
+ else if (bNTFSallowed)
+ fileSystem = FILESYS_NTFS;
+ else if (bReFSallowed)
+ fileSystem = FILESYS_REFS;
+ else if (bNoFSallowed)
+ fileSystem = FILESYS_NONE;
+ else
+ {
+ AddComboPair (GetDlgItem (hwndDlg, IDC_FILESYS), L"---", 0);
+ }
+ }
+
+ SendMessage(GetDlgItem(hwndDlg, IDC_FILESYS), CB_SETCURSEL, 0, 0);
+ SelectAlgo(GetDlgItem(hwndDlg, IDC_FILESYS), (int *)&fileSystem);
+
+ /* PIM and Wipe mode */
+ SetCheckBox(hwndDlg, IDC_PIM_ENABLE, PimEnable);
+
+ PopulateWipeModeCombo(GetDlgItem(hwndDlg, IDC_WIPE_MODE),
+ SystemEncryptionStatus == SYSENC_STATUS_DECRYPTING && !bInPlaceEncNonSys,
+ TRUE,
+ FALSE);
+ SelectAlgo(GetDlgItem(hwndDlg, IDC_WIPE_MODE), (int *)&nWipeMode);
+ SetFocus(GetDlgItem(GetParent(hwndDlg), IDOK));
+ }
+ return 1;
+ case WM_COMMAND:
+ if (lw == IDCANCEL)
+ {
+ EndDialog(hwndDlg, lw);
+ return 1;
+ }
+ if (lw == IDOK)
+ {
+ /* Save hash and encryption algo */
+ LPARAM nIndex;
+ nIndex = SendMessage (GetDlgItem (hCurPage, IDC_COMBO_BOX), CB_GETCURSEL, 0, 0);
+ nVolumeEA = (int) SendMessage (GetDlgItem (hCurPage, IDC_COMBO_BOX), CB_GETITEMDATA, nIndex, 0);
+
+ if (!bSystemIsGPT && SysEncInEffect ()
+ && EAGetCipherCount (nVolumeEA) > 1) // Cascade?
+ {
+ if (AskWarnNoYes ("CONFIRM_CASCADE_FOR_SYS_ENCRYPTION", hwndDlg) == IDNO)
+ return 1;
+
+ if (!bHiddenOS)
+ Info ("NOTE_CASCADE_FOR_SYS_ENCRYPTION", hwndDlg);
+ }
+
+ nIndex = SendMessage (GetDlgItem (hCurPage, IDC_COMBO_BOX_HASH_ALGO), CB_GETCURSEL, 0, 0);
+ hash_algo = (int) SendMessage (GetDlgItem (hCurPage, IDC_COMBO_BOX_HASH_ALGO), CB_GETITEMDATA, nIndex, 0);
+
+ RandSetHashFunction (hash_algo);
+
+ /* Save PIM and Wipe mode */
+ nWipeMode = (WipeAlgorithmId)SendMessage(GetDlgItem(hwndDlg, IDC_WIPE_MODE),
+ CB_GETITEMDATA,
+ SendMessage(GetDlgItem(hwndDlg, IDC_WIPE_MODE), CB_GETCURSEL, 0, 0),
+ 0);
+
+ PimEnable = GetCheckBox(hwndDlg, IDC_PIM_ENABLE);
+ SetCheckBox(hwndDlg, IDC_PIM_ENABLE, PimEnable);
+
+ EndDialog(hwndDlg, lw);
+ return 1;
+ }
+ if (lw == IDC_CIPHER_TEST)
+ {
+ LPARAM nIndex;
+ int c;
+
+ nIndex = SendMessage (GetDlgItem (hCurPage, IDC_COMBO_BOX), CB_GETCURSEL, 0, 0);
+ nVolumeEA = (int) SendMessage (GetDlgItem (hCurPage, IDC_COMBO_BOX), CB_GETITEMDATA, nIndex, 0);
+
+ for (c = EAGetLastCipher (nVolumeEA); c != 0; c = EAGetPreviousCipher (nVolumeEA, c))
+ {
+ DialogBoxParamW (hInst, MAKEINTRESOURCEW (IDD_CIPHER_TEST_DLG),
+ GetParent (hwndDlg), (DLGPROC) CipherTestDialogProc, (LPARAM) c);
+ }
+
+ return 1;
+ }
+
+ if (lw == IDC_BENCHMARK)
+ {
+ // Reduce CPU load
+ bFastPollEnabled = FALSE;
+ bRandmixEnabled = FALSE;
+
+ DialogBoxParamW (hInst,
+ MAKEINTRESOURCEW (IDD_BENCHMARK_DLG), hwndDlg,
+ (DLGPROC) BenchmarkDlgProc, (LPARAM) bSystemIsGPT);
+
+ bFastPollEnabled = TRUE;
+ bRandmixEnabled = TRUE;
+ return 1;
+ }
+
+ if (lw == IDC_WIPE_MODE && hw == CBN_SELCHANGE)
+ {
+ Warning ("WIPE_WARNING", hwndDlg);
+ return 1;
+ }
+
+ if (hw == CBN_SELCHANGE && lw == IDC_COMBO_BOX)
+ {
+ ComboSelChangeEA (hwndDlg);
+ SetWindowTextW (GetDlgItem (hCurPage, IDC_BENCHMARK), GetString ("IDC_BENCHMARK"));
+ return 1;
+ }
+
+ if (hw == CBN_SELCHANGE && lw == IDC_COMBO_BOX_HASH_ALGO)
+ {
+ ShowWindow (GetDlgItem (hwndDlg, IDT_HASH_ALGO), SW_SHOW);
+ if (SysEncInEffect())
+ {
+ HWND hHashAlgoItem = GetDlgItem (hCurPage, IDC_COMBO_BOX_HASH_ALGO);
+ int selectedAlgo = (int)SendMessage (hHashAlgoItem, CB_GETITEMDATA, SendMessage (hHashAlgoItem, CB_GETCURSEL, 0, 0), 0);
+
+ if (!bSystemIsGPT && !HashForSystemEncryption (selectedAlgo))
+ {
+ hash_algo = DEFAULT_HASH_ALGORITHM_BOOT;
+ RandSetHashFunction (DEFAULT_HASH_ALGORITHM_BOOT);
+ Info ("ALGO_NOT_SUPPORTED_FOR_SYS_ENCRYPTION", MainDlg);
+ SelectAlgo (GetDlgItem (hCurPage, IDC_COMBO_BOX_HASH_ALGO), &hash_algo);
+ }
+ }
+ return 1;
+ }
+
+ if (lw == IDC_PIM_ENABLE)
+ {
+ PimEnable = GetCheckBox (hwndDlg, IDC_PIM_ENABLE);
+ if (!PimEnable)
+ volumePim = 0;
+ return 1;
+ }
+ }
+ return 0;
+}
+
+void
+AddComboPairW (HWND hComboBox, const wchar_t *lpszItem, int value)
+{
+ LPARAM nIndex;
+ nIndex = SendMessageW(hComboBox, CB_ADDSTRING, 0, (LPARAM)lpszItem);
+ nIndex = SendMessage(hComboBox, CB_SETITEMDATA, nIndex, (LPARAM)value);
+}
+
+/* Acording to NIST, only a blacklist check and at least 8 character should be compulsary, no special character check... */
+int PrintStrongness (char input[], unsigned int length)
+{
+ unsigned int n = length;
+ int iReturnValue = 0;
+ if (n < 10)
+ {
+ burn (input, sizeof(input));
+ return iReturnValue = weak;
+ }
+ else if (CheckWord(input))
+ {
+ burn (input, sizeof(input));
+ return iReturnValue = weak;
+ }
+ //Tetermine the strength of the passsord
+ if ((n >= 13))
+ {
+ iReturnValue = very_strong;
+ }
+ //if 3 out of 4 paramters are true
+ else if (n >= 10)
+ {
+ iReturnValue = strong;
+ }
+ //if 2 out of 4 values are true
+ else if (n >= 8)
+ {
+ iReturnValue = medium;
+ }
+ else
+ {
+ iReturnValue = weak;
+ }
+ burn (input, sizeof(input));
+ return iReturnValue;
+}
+
+/* Check if password is in list
+Credits go Martin York from https://codereview.stackexchange.com/questions/52702/how-to-search-for-a-word-in-a-sorted-text-file-efficiently */
+BOOL CheckWord (char* search)
+{
+
+ bool isWordInDict(std::string const& word);
+ {
+ struct MyDict : std::set<std::string>
+ {
+ typedef std::set<std::string>::const_iterator const_iterator;
+ MyDict()
+ {
+ wchar_t path[TC_MAX_PATH];
+ wchar_t tmp[TC_MAX_PATH];
+ wchar_t destFileName[TC_MAX_PATH] = L"password1000000.txt";
+
+ if (GetModuleFileName (NULL, path, ARRAYSIZE (path)) == 0)
+ {
+ Error ("ERROR_GETTING_PATH", MainDlg);
+ }
+
+ StringCbCopyW(tmp, ARRAYSIZE(tmp), path);
+
+ //detects the last '\' in order to remove the name of the exe file. Afterwards add .txt file in the path
+ for (int i = wcslen(path); i > 1; i--)
+ {
+ if (tmp[i] == '\\')
+ {
+ for(unsigned int j = i + 1; j < wcslen(path); j++)
+ {
+ tmp[j] = '\0';
+ }
+ break;
+ }
+ }
+ StringCbCatW(tmp, sizeof(tmp), destFileName);
+
+ std::ifstream fin(tmp);
+ std::copy(std::istream_iterator<std::string>(fin), std::istream_iterator<std::string>(),
+ std::inserter(*this, end()));
+ }
+ };
+ static const MyDict dict;
+ MyDict::const_iterator find = dict.find(search);
+
+ return find != dict.end();
+ }
+}
+
+/* Credits go to Barmak Shemirani from https://stackoverflow.com/questions/31407492/c-tooltip-function-for-checkbox */
+void CreateToolTip(HWND hWndParent, HWND hControlItem, PTSTR pszText)
+{
+ if (!hControlItem || !hWndParent || !pszText)
+ return;
+
+ HWND hwndTip = CreateWindowEx(NULL, TOOLTIPS_CLASS, NULL,
+ WS_POPUP | TTS_NOFADE | TTS_ALWAYSTIP /*| TTS_BALLOON*/,
+ CW_USEDEFAULT, CW_USEDEFAULT, CW_USEDEFAULT, CW_USEDEFAULT,
+ hWndParent, NULL, GetModuleHandle(NULL), NULL);
+
+ if (!hwndTip)
+ return;
+
+ TOOLINFO toolInfo = { 0 };
+ toolInfo.cbSize = sizeof(toolInfo);
+ toolInfo.hwnd = hWndParent;
+ toolInfo.uFlags = TTF_IDISHWND | TTF_SUBCLASS;
+ toolInfo.uId = (UINT_PTR)hControlItem;
+ toolInfo.lpszText = pszText;
+ GetClientRect(hWndParent, &toolInfo.rect);
+ if (!SendMessage(hwndTip, TTM_ADDTOOL, 0, (LPARAM)&toolInfo))
+ {
+ MessageBox(0, TEXT("TTM_ADDTOOL failed\nWrong project manifest!"), 0, 0);
+ }
+}
diff --git a/src/Format/Tcformat.h b/src/Format/Tcformat.h
index f9328afd..a8237521 100644
--- a/src/Format/Tcformat.h
+++ b/src/Format/Tcformat.h
@@ -104,6 +104,14 @@ extern wchar_t HeaderKeyGUIView [KEY_GUI_VIEW_SIZE];
extern wchar_t MasterKeyGUIView [KEY_GUI_VIEW_SIZE];
extern volatile int NonSysInplaceEncStatus;
+BOOL CALLBACK AdvanceDlgProc (HWND hwndDlg, UINT msg, WPARAM wParam, LPARAM lParam);
+BOOL CALLBACK FinishDlgProc (HWND hwndDlg, UINT msg, WPARAM wParam, LPARAM lParam);
+void AddComboPairW (HWND hComboBox, const wchar_t *lpszItem, int value);
+int PrintStrongness (char* input, unsigned int length);
+BOOL CheckWord (char search[]);
+BOOL CALLBACK AdvanceDlgProcIntro (HWND hwndDlg, UINT msg, WPARAM wParam, LPARAM lParam);
+void CreateToolTip (HWND hWndParent, HWND hControlItem, PTSTR pszText);
+
#ifdef __cplusplus
}
#endif
diff --git a/src/Release/Setup Files/Product64.wxs b/src/Release/Setup Files/Product64.wxs
index e20fd1dc..2f43edd1 100644
--- a/src/Release/Setup Files/Product64.wxs
+++ b/src/Release/Setup Files/Product64.wxs
@@ -867,9 +867,6 @@
<Component Id="cmpFB2313AB16EF2467366ED136C0E61CE6" Guid="{CFEC9559-9F85-46C6-9E98-AEBB573B96FE}">
<File Id="filE496203C4727FDF47F8352CB9722A8C7" KeyPath="yes" Source="$(sys.CURRENTDIR)\docs\html\en\Removing Encryption.html" DiskId="1" />
</Component>
- <Component Id="cmp960F36632D3FB602421D1195E4EB6FE1" Guid="{321F49A5-8A1B-4881-A32D-12EDA99D1B85}">
- <File Id="fil324009D5856BF4C5270D40F1EC4110EB" KeyPath="yes" Source="$(sys.CURRENTDIR)\docs\html\en\RIPEMD-160.html" DiskId="1" />
- </Component>
<Component Id="cmpB4C7B1A7A3EC0CB2DE805AC5CC5FC0D7" Guid="{4534E8B2-114E-4173-AE3E-75E0D96EB573}">
<File Id="fil8CFD1CFDCBE261B6F91D9E587F8720C0" KeyPath="yes" Source="$(sys.CURRENTDIR)\docs\html\en\Security Model.html" DiskId="1" />
</Component>
@@ -1383,7 +1380,6 @@
<ComponentRef Id="cmpB313B00E647A121B2CBE47F3048A18A7" />
<ComponentRef Id="cmp400428F6494DE58618E3B92539548C39" />
<ComponentRef Id="cmpFB2313AB16EF2467366ED136C0E61CE6" />
- <ComponentRef Id="cmp960F36632D3FB602421D1195E4EB6FE1" />
<ComponentRef Id="cmpB4C7B1A7A3EC0CB2DE805AC5CC5FC0D7" />
<ComponentRef Id="cmp00540BF93A805E0B9996945B61E1BC2F" />
<ComponentRef Id="cmp4C46C6668AD830D543AFE593D51676B3" />
@@ -1706,4 +1702,4 @@
</Product>
-</Wix> \ No newline at end of file
+</Wix>
diff --git a/src/Release/Setup Files/password1000000.txt b/src/Release/Setup Files/password1000000.txt
new file mode 100644
index 00000000..e6e50bf5
--- /dev/null
+++ b/src/Release/Setup Files/password1000000.txt
@@ -0,0 +1,999999 @@
+123456
+password
+12345678
+qwerty
+123456789
+12345
+1234
+111111
+1234567
+dragon
+123123
+baseball
+abc123
+football
+monkey
+letmein
+696969
+shadow
+master
+666666
+qwertyuiop
+123321
+mustang
+1234567890
+michael
+654321
+pussy
+superman
+1qaz2wsx
+7777777
+fuckyou
+121212
+000000
+qazwsx
+123qwe
+killer
+trustno1
+jordan
+jennifer
+zxcvbnm
+asdfgh
+hunter
+buster
+soccer
+harley
+batman
+andrew
+tigger
+sunshine
+iloveyou
+fuckme
+2000
+charlie
+robert
+thomas
+hockey
+ranger
+daniel
+starwars
+klaster
+112233
+george
+asshole
+computer