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311 lines
9.6 KiB
311 lines
9.6 KiB
/*++
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Copyright (c) 1989 Microsoft Corporation
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Module Name:
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ReadSup.c
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Abstract:
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This module implements the Read support routine. This is a common
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read function that is called to do read, unbuffered read, peek, and
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transceive.
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Author:
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Gary Kimura [GaryKi] 20-Sep-1990
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Revision History:
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--*/
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#include "NpProcs.h"
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//
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// The debug trace level
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//
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#define Dbg (DEBUG_TRACE_READSUP)
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#ifdef ALLOC_PRAGMA
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#pragma alloc_text(PAGE, NpReadDataQueue)
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#endif
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IO_STATUS_BLOCK
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NpReadDataQueue (
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IN PDATA_QUEUE ReadQueue,
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IN BOOLEAN PeekOperation,
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IN BOOLEAN ReadOverflowOperation,
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IN PUCHAR ReadBuffer,
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IN ULONG ReadLength,
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IN READ_MODE ReadMode,
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IN PCCB Ccb,
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IN PLIST_ENTRY DeferredList
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)
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/*++
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Routine Description:
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This procedure reads data from the read queue and fills up the
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read buffer. It will also dequeue the queue or leave it alone based
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on an input parameter.
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Arguments:
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ReadQueue - Provides the read queue to examine. Its state must
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already be set to WriteEntries.
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PeekOperation - Indicates if the operation is to dequeue information
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off of the queue as it is being read or leave the queue alone.
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TRUE means to leave the queue alone.
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ReadOverflowOperation - Indicates if this is a read overflow operation.
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With read overflow we will not alter the named pipe if the data
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will overflow the read buffer.
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ReadBuffer - Supplies a buffer to receive the data
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ReadLength - Supplies the length, in bytes, of ReadBuffer.
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ReadMode - Indicates if the read operation is message mode or
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byte stream mode.
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NamedPipeEnd - Supplies the end of the named pipe doing the read
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Ccb - Supplies the ccb for the pipe
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DeferredList - List of IRP's to complete later after we drop locks
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Return Value:
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IO_STATUS_BLOCK - Indicates the result of the operation.
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--*/
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{
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IO_STATUS_BLOCK Iosb= {0};
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PDATA_ENTRY DataEntry;
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ULONG ReadRemaining;
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ULONG AmountRead;
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PUCHAR WriteBuffer;
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ULONG WriteLength;
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ULONG WriteRemaining;
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BOOLEAN StartStalled = FALSE;
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ULONG AmountToCopy;
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PAGED_CODE();
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DebugTrace(+1, Dbg, "NpReadDataQueue\n", 0);
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DebugTrace( 0, Dbg, "ReadQueue = %08lx\n", ReadQueue);
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DebugTrace( 0, Dbg, "PeekOperation = %08lx\n", PeekOperation);
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DebugTrace( 0, Dbg, "ReadOverflowOperation = %08lx\n", ReadOverflowOperation);
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DebugTrace( 0, Dbg, "ReadBuffer = %08lx\n", ReadBuffer);
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DebugTrace( 0, Dbg, "ReadLength = %08lx\n", ReadLength);
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DebugTrace( 0, Dbg, "ReadMode = %08lx\n", ReadMode);
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DebugTrace( 0, Dbg, "Ccb = %08lx\n", Ccb);
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//
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// If this is an overflow operation then we will force us to do peeks.
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// Later when are determine that the opreation succeeded we will complete
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// the write irp.
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//
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if (ReadOverflowOperation) {
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PeekOperation = TRUE;
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}
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//
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// Now for every real data entry we loop until either we run out
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// of data entries or until the read buffer is full
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//
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ReadRemaining = ReadLength;
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Iosb.Status = STATUS_SUCCESS;
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Iosb.Information = 0;
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AmountRead = 0;
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for (DataEntry = (PeekOperation ? NpGetNextDataQueueEntry( ReadQueue, NULL )
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: NpGetNextRealDataQueueEntry( ReadQueue, DeferredList ));
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(DataEntry != (PDATA_ENTRY) &ReadQueue->Queue) && (ReadRemaining > 0);
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DataEntry = (PeekOperation ? NpGetNextDataQueueEntry( ReadQueue, DataEntry )
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: NpGetNextRealDataQueueEntry( ReadQueue, DeferredList ))) {
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DebugTrace(0, Dbg, "Top of Loop\n", 0);
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DebugTrace(0, Dbg, "ReadRemaining = %08lx\n", ReadRemaining);
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//
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// If this is a peek operation then make sure we got a real
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// data entry and not a close or flush
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//
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if (!PeekOperation ||
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(DataEntry->DataEntryType == Buffered) ||
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(DataEntry->DataEntryType == Unbuffered)) {
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//
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// Calculate how much data is in this entry. The write
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// remaining is based on whether this is the first entry
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// in the queue or a later data entry
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//
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if (DataEntry->DataEntryType == Unbuffered) {
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WriteBuffer = DataEntry->Irp->AssociatedIrp.SystemBuffer;
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} else {
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WriteBuffer = DataEntry->DataBuffer;
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}
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WriteLength = DataEntry->DataSize;
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WriteRemaining = WriteLength;
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if (DataEntry == NpGetNextDataQueueEntry( ReadQueue, NULL )) {
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WriteRemaining -= ReadQueue->NextByteOffset;
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}
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DebugTrace(0, Dbg, "WriteBuffer = %08lx\n", WriteBuffer);
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DebugTrace(0, Dbg, "WriteLength = %08lx\n", WriteLength);
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DebugTrace(0, Dbg, "WriteRemaining = %08lx\n", WriteRemaining);
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//
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// copy data from the write buffer at write offset to the
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// read buffer at read offset by the mininum of write
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// remaining or read remaining
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//
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AmountToCopy = (WriteRemaining < ReadRemaining ? WriteRemaining
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: ReadRemaining);
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try {
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RtlCopyMemory( &ReadBuffer[ ReadLength - ReadRemaining ],
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&WriteBuffer[ WriteLength - WriteRemaining ],
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AmountToCopy );
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} except(EXCEPTION_EXECUTE_HANDLER) {
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Iosb.Status = GetExceptionCode ();
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goto exit_1;
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}
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//
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// Update the Read and Write remaining counts, the total
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// amount we've read and the next byte offset field in the
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// read queue
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//
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ReadRemaining -= AmountToCopy;
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WriteRemaining -= AmountToCopy;
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AmountRead += AmountToCopy;
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if (!PeekOperation) {
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DataEntry->QuotaCharged -= AmountToCopy;
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ReadQueue->QuotaUsed -= AmountToCopy;
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ReadQueue->NextByteOffset += AmountToCopy;
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StartStalled = TRUE;
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}
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//
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// Now update the security fields in the ccb
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//
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NpCopyClientContext( Ccb, DataEntry );
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//
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// If the remaining write length is greater than zero
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// then we've filled up the read buffer so we need to
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// figure out if its an overflow error
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//
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if (WriteRemaining > 0 ||
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(ReadOverflowOperation && (AmountRead == 0))) {
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DebugTrace(0, Dbg, "Write remaining is > 0\n", 0);
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if (ReadMode == FILE_PIPE_MESSAGE_MODE) {
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DebugTrace(0, Dbg, "Overflow message mode read\n", 0);
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//
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// Set the status field and break out of the for-loop.
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//
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Iosb.Status = STATUS_BUFFER_OVERFLOW;
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break;
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}
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} else {
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DebugTrace(0, Dbg, "Remaining Write is zero\n", 0);
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//
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// The write entry is done so remove it from the read
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// queue, if this is not a peek operation. This might
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// also have an Irp that needs to be completed
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//
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if (!PeekOperation || ReadOverflowOperation) {
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PIRP WriteIrp;
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//
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// For a read overflow operation we need to get the read data
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// queue entry and remove it.
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//
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if (ReadOverflowOperation) {
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PDATA_ENTRY TempDataEntry;
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TempDataEntry = NpGetNextRealDataQueueEntry( ReadQueue, DeferredList );
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ASSERT(TempDataEntry == DataEntry);
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}
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if ((WriteIrp = NpRemoveDataQueueEntry( ReadQueue, TRUE, DeferredList)) != NULL) {
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WriteIrp->IoStatus.Information = WriteLength;
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NpDeferredCompleteRequest( WriteIrp, STATUS_SUCCESS, DeferredList );
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}
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}
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//
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// And if we are doing message mode reads then we'll
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// work on completing this irp without going back
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// to the top of the loop
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//
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if (ReadMode == FILE_PIPE_MESSAGE_MODE) {
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DebugTrace(0, Dbg, "Successful message mode read\n", 0);
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//
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// Set the status field and break out of the for-loop.
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//
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Iosb.Status = STATUS_SUCCESS;
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break;
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}
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ASSERTMSG("Srv cannot use read overflow on a byte stream pipe ", !ReadOverflowOperation);
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}
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}
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}
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DebugTrace(0, Dbg, "End of loop, AmountRead = %08lx\n", AmountRead);
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Iosb.Information = AmountRead;
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exit_1:
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if (StartStalled) {
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NpCompleteStalledWrites (ReadQueue, DeferredList);
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}
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DebugTrace(-1, Dbg, "NpReadDataQueue -> Iosb.Status = %08lx\n", Iosb.Status);
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return Iosb;
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}
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