/*************************************************************************
*
* Function: Ext2PassDownMultiReadWriteIRP()
*
* Description:
* pass down multiple read IRPs as Associated IRPs
*
* Expected Interrupt Level (for execution) :
*
* ?
*
* Return Value: STATUS_SUCCESS / STATUS_PENDING / Error
*
*************************************************************************/
NTSTATUS NTAPI Ext2PassDownMultiReadWriteIRP(
PEXT2_IO_RUN PtrIoRuns,
UINT Count,
ULONG TotalReadWriteLength,
PtrExt2IrpContext PtrIrpContext,
PtrExt2FCB PtrFCB,
BOOLEAN SynchronousIo)
{
PIRP PtrMasterIrp;
PIRP PtrAssociatedIrp;
PIO_STACK_LOCATION PtrIrpSp;
PMDL PtrMdl;
PtrExt2VCB PtrVCB;
UINT i;
ULONG BufferOffset;
PEXT2_IO_CONTEXT PtrIoContext = NULL;
PKEVENT PtrSyncEvent = NULL;
ULONG LogicalBlockSize;
ULONG ReadWriteLength;
NTSTATUS RC = STATUS_SUCCESS;
PtrVCB = PtrFCB->PtrVCB;
PtrMasterIrp = PtrIrpContext->Irp;
LogicalBlockSize = EXT2_MIN_BLOCK_SIZE << PtrVCB->LogBlockSize;
try
{
if( !SynchronousIo )
{
IoMarkIrpPending( PtrIrpContext->Irp );
// We will be returning STATUS_PENDING...
}
if( !PtrMasterIrp->MdlAddress )
{
Ext2LockCallersBuffer( PtrMasterIrp, TRUE, TotalReadWriteLength );
}
if( SynchronousIo )
{
PtrSyncEvent = Ext2AllocatePool(NonPagedPool, Ext2QuadAlign( sizeof(KEVENT) ) );
if ( !PtrSyncEvent )
{
RC = STATUS_INSUFFICIENT_RESOURCES;
try_return();
}
KeInitializeEvent( PtrSyncEvent, SynchronizationEvent, FALSE );
}
//
// Allocate and initialize a completion context
//
PtrIoContext = Ext2AllocatePool(NonPagedPool, Ext2QuadAlign( sizeof(EXT2_IO_CONTEXT) ) );
if ( !PtrIoContext )
{
RC = STATUS_INSUFFICIENT_RESOURCES;
try_return();
}
RtlZeroMemory( PtrIoContext, sizeof(EXT2_IO_CONTEXT) );
PtrIoContext->Count = Count;
PtrIoContext->NodeIdentifier.NodeType = EXT2_NODE_TYPE_IO_CONTEXT;
PtrIoContext->NodeIdentifier.NodeSize = sizeof( EXT2_IO_CONTEXT );
PtrIoContext->PtrMasterIrp = PtrMasterIrp;
PtrIoContext->PtrSyncEvent = PtrSyncEvent;
PtrIoContext->ReadWriteLength = TotalReadWriteLength;
for( ReadWriteLength = 0, BufferOffset = 0, i = 0; i < Count; i++, BufferOffset += ReadWriteLength )
{
ReadWriteLength = PtrIoRuns[ i].EndOffset - PtrIoRuns[ i].StartOffset;
//
// Allocating an Associated IRP...
//
PtrAssociatedIrp = IoMakeAssociatedIrp( PtrMasterIrp,
(CCHAR) (PtrVCB->TargetDeviceObject->StackSize + 1 ) );
PtrIoRuns[ i].PtrAssociatedIrp = PtrAssociatedIrp;
ASSERT ( PtrAssociatedIrp );
PtrMasterIrp->AssociatedIrp.IrpCount ++;
//
// Allocating a Memory Descriptor List...
//
PtrMdl = IoAllocateMdl( (PCHAR) PtrMasterIrp->UserBuffer + BufferOffset, // Virtual Address
ReadWriteLength, FALSE, FALSE, PtrAssociatedIrp );
//
// and building a partial MDL...
//
IoBuildPartialMdl( PtrMasterIrp->MdlAddress,
PtrMdl, (PCHAR)PtrMasterIrp->UserBuffer + BufferOffset, ReadWriteLength );
//
// Create an Irp stack location for ourselves...
//
IoSetNextIrpStackLocation( PtrAssociatedIrp );
PtrIrpSp = IoGetCurrentIrpStackLocation( PtrAssociatedIrp );
//
// Setup the Stack location to describe our read.
//
PtrIrpSp->MajorFunction = PtrIrpContext->MajorFunction;
if( PtrIrpContext->MajorFunction == IRP_MJ_READ )
{
PtrIrpSp->Parameters.Read.Length = ReadWriteLength;
PtrIrpSp->Parameters.Read.ByteOffset.QuadPart =
PtrIoRuns[i].LogicalBlock * ( LogicalBlockSize );
}
else if( PtrIrpContext->MajorFunction == IRP_MJ_WRITE )
{
PtrIrpSp->Parameters.Write.Length = ReadWriteLength;
PtrIrpSp->Parameters.Write.ByteOffset.QuadPart =
PtrIoRuns[i].LogicalBlock * ( LogicalBlockSize );
}
// PtrIrpSp->Parameters.Read.Length = ReadWriteLength;
// PtrIrpSp->Parameters.Read.ByteOffset.QuadPart = PtrIoRuns[i].LogicalBlock;
//
// Setup a completion routine...
//
IoSetCompletionRoutine( PtrAssociatedIrp,
SynchronousIo ?
Ext2MultiSyncCompletionRoutine :
Ext2MultiAsyncCompletionRoutine,
PtrIoContext, TRUE, TRUE, TRUE );
//
// Initialise the next stack location for the driver below us to use...
//
PtrIrpSp = IoGetNextIrpStackLocation( PtrAssociatedIrp );
PtrIrpSp->MajorFunction = PtrIrpContext->MajorFunction;
if( PtrIrpContext->MajorFunction == IRP_MJ_READ )
{
PtrIrpSp->Parameters.Read.Length = ReadWriteLength;
PtrIrpSp->Parameters.Read.ByteOffset.QuadPart = PtrIoRuns[i].LogicalBlock * ( LogicalBlockSize );
}
else if( PtrIrpContext->MajorFunction == IRP_MJ_WRITE )
{
PtrIrpSp->Parameters.Write.Length = ReadWriteLength;
PtrIrpSp->Parameters.Write.ByteOffset.QuadPart = PtrIoRuns[i].LogicalBlock * ( LogicalBlockSize );
}
// PtrIrpSp->Parameters.Read.Length = ReadWriteLength;
// PtrIrpSp->Parameters.Read.ByteOffset.QuadPart =
// PtrIoRuns[i].LogicalBlock * ( LogicalBlockSize );
}
for( i = 0; i < Count; i++ ) {
// DbgPrint("PASSING DOWN IRP %d TO TARGET DEVICE\n", i);
IoCallDriver( PtrVCB->TargetDeviceObject, PtrIoRuns[ i].PtrAssociatedIrp );
}
if( SynchronousIo )
{
//
// Synchronous IO
// Wait for the IO to complete...
//
DbgPrint("DEADLY WAIT (%d)\n", KeGetCurrentIrql());
KeWaitForSingleObject( PtrSyncEvent,
Executive, KernelMode, FALSE, (PLARGE_INTEGER)NULL );
DbgPrint("DEADLY WAIT DONE\n");
try_return();
}
else
{
// Asynchronous IO...
RC = STATUS_PENDING;
try_return();
}
try_exit: NOTHING;
}
finally
{
if( PtrSyncEvent )
{
DebugTrace( DEBUG_TRACE_FREE, "Freeing = %lX [io]", PtrSyncEvent );
ExFreePool( PtrSyncEvent );
}
if( PtrIoContext && ! ( RC == STATUS_PENDING || RC == STATUS_SUCCESS ) )
{
//
// This means we are getting out of
// this function without doing a read
// due to an error, maybe...
//
DebugTrace( DEBUG_TRACE_FREE, "Freeing = %lX [io]", PtrIoContext);
ExFreePool( PtrIoContext );
}
}
return(RC);
}
NTSTATUS
Ext2ReadWriteBlocks(
IN PEXT2_IRP_CONTEXT IrpContext,
IN PEXT2_VCB Vcb,
IN PEXT2_EXTENT Chain,
IN ULONG Length
)
{
PIRP Irp;
PIRP MasterIrp = IrpContext->Irp;
PIO_STACK_LOCATION IrpSp;
PMDL Mdl;
PEXT2_RW_CONTEXT pContext = NULL;
PEXT2_EXTENT Extent;
KEVENT Wait;
NTSTATUS Status = STATUS_SUCCESS;
BOOLEAN bMasterCompleted = FALSE;
BOOLEAN bBugCheck = FALSE;
ASSERT(MasterIrp);
__try {
pContext = Ext2AllocatePool(NonPagedPool, sizeof(EXT2_RW_CONTEXT), EXT2_RWC_MAGIC);
if (!pContext) {
DEBUG(DL_ERR, ( "Ex2ReadWriteBlocks: failed to allocate pContext.\n"));
Status = STATUS_INSUFFICIENT_RESOURCES;
__leave;
}
INC_MEM_COUNT(PS_RW_CONTEXT, pContext, sizeof(EXT2_RW_CONTEXT));
RtlZeroMemory(pContext, sizeof(EXT2_RW_CONTEXT));
pContext->Wait = Ext2CanIWait();
pContext->MasterIrp = MasterIrp;
pContext->Length = Length;
if (IrpContext->MajorFunction == IRP_MJ_WRITE) {
SetFlag(pContext->Flags, EXT2_RW_CONTEXT_WRITE);
}
if (pContext->Wait) {
KeInitializeEvent(&(pContext->Event), NotificationEvent, FALSE);
} else if (IrpContext->Fcb->Identifier.Type == EXT2FCB) {
if (IsFlagOn(MasterIrp->Flags, IRP_PAGING_IO)) {
pContext->Resource = &IrpContext->Fcb->PagingIoResource;
} else {
pContext->Resource = &IrpContext->Fcb->MainResource;
}
pContext->FileObject = IrpContext->FileObject;
pContext->ThreadId = ExGetCurrentResourceThread();
}
if (NULL == Chain->Next && 0 == Chain->Offset) {
/* we get only 1 extent to dispatch, then don't bother allocating new irps */
/* setup the Stack location to do a read from the disk driver. */
IrpSp = IoGetNextIrpStackLocation(MasterIrp);
IrpSp->MajorFunction = IrpContext->MajorFunction;
IrpSp->Parameters.Read.Length = Chain->Length;
IrpSp->Parameters.Read.ByteOffset.QuadPart = Chain->Lba;
if (IsFlagOn(IrpContext->Flags, IRP_CONTEXT_FLAG_WRITE_THROUGH)) {
SetFlag(IrpSp->Flags, SL_WRITE_THROUGH);
}
if (IsFlagOn(IrpContext->Flags, IRP_CONTEXT_FLAG_VERIFY_READ)) {
SetFlag(IrpSp->Flags, SL_OVERRIDE_VERIFY_VOLUME);
}
IoSetCompletionRoutine(
MasterIrp,
Ext2CanIWait() ?
Ext2ReadWriteBlockSyncCompletionRoutine :
Ext2ReadWriteBlockAsyncCompletionRoutine,
(PVOID) pContext,
TRUE,
TRUE,
TRUE );
/* intialize context block */
Chain->Irp = MasterIrp;
pContext->Blocks = 1;
} else {
for (Extent = Chain; Extent != NULL; Extent = Extent->Next) {
Irp = IoMakeAssociatedIrp(
MasterIrp,
(CCHAR)(Vcb->TargetDeviceObject->StackSize + 1) );
if (!Irp) {
Status = STATUS_INSUFFICIENT_RESOURCES;
__leave;
}
Mdl = IoAllocateMdl( (PCHAR)MasterIrp->UserBuffer +
Extent->Offset,
Extent->Length,
FALSE,
FALSE,
Irp );
if (!Mdl) {
Status = STATUS_INSUFFICIENT_RESOURCES;
__leave;
}
IoBuildPartialMdl( MasterIrp->MdlAddress,
Mdl,
(PCHAR)MasterIrp->UserBuffer +Extent->Offset,
Extent->Length );
IoSetNextIrpStackLocation(Irp);
IrpSp = IoGetCurrentIrpStackLocation(Irp);
IrpSp->MajorFunction = IrpContext->MajorFunction;
IrpSp->Parameters.Read.Length = Extent->Length;
IrpSp->Parameters.Read.ByteOffset.QuadPart = Extent->Lba;
IoSetCompletionRoutine(
Irp,
Ext2CanIWait() ?
Ext2ReadWriteBlockSyncCompletionRoutine :
Ext2ReadWriteBlockAsyncCompletionRoutine,
(PVOID) pContext,
TRUE,
TRUE,
TRUE );
IrpSp = IoGetNextIrpStackLocation(Irp);
IrpSp->MajorFunction = IrpContext->MajorFunction;
IrpSp->Parameters.Read.Length =Extent->Length;
IrpSp->Parameters.Read.ByteOffset.QuadPart = Extent->Lba;
/* set write through flag */
if (IsFlagOn(IrpContext->Flags, IRP_CONTEXT_FLAG_WRITE_THROUGH)) {
SetFlag( IrpSp->Flags, SL_WRITE_THROUGH );
}
/* set verify flag */
if (IsFlagOn(IrpContext->Flags, IRP_CONTEXT_FLAG_VERIFY_READ)) {
SetFlag(IrpSp->Flags, SL_OVERRIDE_VERIFY_VOLUME);
}
Extent->Irp = Irp;
pContext->Blocks += 1;
}
MasterIrp->AssociatedIrp.IrpCount = pContext->Blocks;
if (Ext2CanIWait()) {
MasterIrp->AssociatedIrp.IrpCount += 1;
}
}
if (!Ext2CanIWait()) {
/* mark MasterIrp pending */
IoMarkIrpPending(pContext->MasterIrp);
}
bBugCheck = TRUE;
for (Extent = Chain; Extent != NULL; Extent = Extent->Next) {
Status = IoCallDriver ( Vcb->TargetDeviceObject,
Extent->Irp);
Extent->Irp = NULL;
}
if (Ext2CanIWait()) {
KeWaitForSingleObject( &(pContext->Event),
Executive, KernelMode, FALSE, NULL );
KeClearEvent( &(pContext->Event) );
} else {
bMasterCompleted = TRUE;
}
} __finally {
for (Extent = Chain; Extent != NULL; Extent = Extent->Next) {
if (Extent->Irp != NULL ) {
if (Extent->Irp->MdlAddress != NULL) {
IoFreeMdl(Extent->Irp->MdlAddress );
}
IoFreeIrp(Extent->Irp);
}
}
if (IrpContext->ExceptionInProgress) {
if (bBugCheck) {
Ext2BugCheck(EXT2_BUGCHK_BLOCK, 0, 0, 0);
}
} else {
if (Ext2CanIWait()) {
if (MasterIrp) {
Status = MasterIrp->IoStatus.Status;
}
if (pContext) {
Ext2FreePool(pContext, EXT2_RWC_MAGIC);
DEC_MEM_COUNT(PS_RW_CONTEXT, pContext, sizeof(EXT2_RW_CONTEXT));
}
} else {
if (bMasterCompleted) {
IrpContext->Irp = NULL;
Status = STATUS_PENDING;
}
}
}
}
return Status;
}
