diff options
Diffstat (limited to 'src/Driver/EncryptedIoQueue.c')
-rw-r--r-- | src/Driver/EncryptedIoQueue.c | 2098 |
1 files changed, 1049 insertions, 1049 deletions
diff --git a/src/Driver/EncryptedIoQueue.c b/src/Driver/EncryptedIoQueue.c index 1f57ad5c..637f8504 100644 --- a/src/Driver/EncryptedIoQueue.c +++ b/src/Driver/EncryptedIoQueue.c @@ -1,1049 +1,1049 @@ -/*
- 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;
-}
+/* + 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; +} |