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538 lines
16 KiB
538 lines
16 KiB
/*++
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Copyright (c) 1990 Microsoft Corporation
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Module Name:
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VerfySup.c
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Abstract:
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This module implements consistency checking and structure comparisions
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on Lfs structures.
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Author:
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Brian Andrew [BrianAn] 20-June-1991
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Revision History:
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--*/
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#include "lfsprocs.h"
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#ifdef LFS_RAISE
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BOOLEAN LfsRaiseFull = FALSE;
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#endif
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#ifdef ALLOC_PRAGMA
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#pragma alloc_text(PAGE, LfsCurrentAvailSpace)
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#pragma alloc_text(PAGE, LfsFindCurrentAvail)
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#pragma alloc_text(PAGE, LfsVerifyLogSpaceAvail)
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#endif
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VOID
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LfsCurrentAvailSpace (
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IN PLFCB Lfcb,
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OUT PLONGLONG CurrentAvailSpace,
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OUT PULONG CurrentPageBytes
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)
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/*++
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Routine Description:
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This routine is called to determine the available log space in the log file.
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It returns the total number of free bytes and the number available on the
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active page if present. The total free bytes will reflect all of the empty
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pages as well as the number in the active page.
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Arguments:
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Lfcb - Lfcb for this log file.
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CurrentAvailSpace - This is the number of bytes available for log
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records.
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CurrentPageBytes - This is the number of bytes remaining on the
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current log page.
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Return Value:
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None.
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--*/
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{
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*CurrentPageBytes = 0;
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PAGED_CODE();
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DebugTrace( +1, Dbg, "LfsCurrentAvailSpace: Entered\n", 0 );
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//
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// Get the total number from the Lfcb.
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//
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*CurrentAvailSpace = Lfcb->CurrentAvailable;
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//
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// We now look to see if there are any bytes available on the Lbcb in
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// the active queue. We can add this to the bytes available in the
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// log pages and also give this back to the caller.
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//
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if (!IsListEmpty( &Lfcb->LbcbActive )) {
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PLBCB ThisLbcb;
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ThisLbcb = CONTAINING_RECORD( Lfcb->LbcbActive.Flink,
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LBCB,
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ActiveLinks );
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//
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// If the page is not empty or the page is empty but this is a
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// restart page then add the remaining bytes on this page.
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//
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if (FlagOn( ThisLbcb->LbcbFlags, LBCB_NOT_EMPTY | LBCB_FLUSH_COPY )) {
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*CurrentPageBytes = (ULONG)Lfcb->LogPageSize - (ULONG)ThisLbcb->BufferOffset;
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*CurrentAvailSpace = *CurrentAvailSpace + *CurrentPageBytes; //**** xxAdd( *CurrentAvailSpace, xxFromUlong( *CurrentPageBytes ));
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}
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}
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DebugTrace( +1, Dbg, "LfsCurrentAvailSpace: Exit\n", 0 );
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return;
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}
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BOOLEAN
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LfsVerifyLogSpaceAvail (
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IN PLFCB Lfcb,
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IN PLCH Lch,
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IN ULONG RemainingLogBytes,
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IN LONG UndoRequirement,
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IN BOOLEAN ForceToDisk
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)
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/*++
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Routine Description:
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This routine is called to verify that we may write this log record into the
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log file. We want to always leave room for each transaction to abort.
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We determine how much space the current log record will take and the
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worst case for its undo operation. If this space is available we
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update the corresponding values in the Lfcb and Lch for bookkeeping.
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Otherwise we raise a status indicating that the log file is full.
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The disk usage is different for the packed and unpacked cases. Make the
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following adjustments after finding the total available and amount still
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remaining on the last active page,
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Packed Case:
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Size needed for log record is data size plus header size.
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Undo requirement is the undo data size plus the header size.
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We have already taken into account the end of the pages
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except for the current page.
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Add the log record size to the undo requirement to get the
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log file usage. Compare this number with the actual available
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space (Available - CommittedUndo). If the space is not
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available, then raise LOG_FILE_FULL. Must take into account
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any unused bytes at the end of the current page.
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Unpacked Case:
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Size needed is initially header size plus data size.
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If the log record can't begin on the current page then
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add the bytes being thrown away to the log record size.
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If the page is being forced to disk then add any remaining
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bytes on the last page. To the bytes being used.
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Undo requirement is twice the sum of the header size and
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undo size. We double the requested size since the log
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record will always fit on a page. This can be a
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positive or negative number.
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Add the log record usage to the undo usage to get the log file
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usage. Compare this number with the actual available
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space (Available - CommittedUndo). If the space is not
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available, then raise LOG_FILE_FULL.
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Arguments:
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Lfcb - Lfcb for this log file.
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Lch - Client handle
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RemainingLogBytes - Number of bytes for the current log record
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UndoRequirement - User's requirement for the undo record.
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ForceToDisk - Indicates if this log record will be flushed to disk.
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Return Value:
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BOOLEAN - Advisory, indicates that there is less than 1/4 of the log file available.
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--*/
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{
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ULONG CurrentLogRecordSize;
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ULONG LogRecordStart;
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ULONG TailBytes;
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LONGLONG CurrentAvailSpace;
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ULONG CurrentPageBytes;
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LONGLONG LogFileUsage;
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PAGED_CODE();
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DebugTrace( +1, Dbg, "LfsVerifyLogSpaceAvail: Entered\n", 0 );
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DebugTrace( 0, Dbg, "Lfcb -> %08x\n", Lfcb );
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DebugTrace( 0, Dbg, "Lch -> %08lx\n", Lch );
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DebugTrace( 0, Dbg, "RemainingLogBytes -> %08lx\n", RemainingLogBytes );
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DebugTrace( 0, Dbg, "UndoRequirement -> %08lx\n", UndoRequirement );
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DebugTrace( 0, Dbg, "ForceToDisk -> %04x\n", ForceToDisk );
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//
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// Start by collecting the current data on the file.
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//
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LfsCurrentAvailSpace( Lfcb,
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&CurrentAvailSpace,
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&CurrentPageBytes );
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//
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// We compute the amount of space needed for the current log record by
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// adding up the following:
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//
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// Space at end of current log page which won't be used.
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// Size of header for log record.
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// Size of client data in log record.
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// Size of wasted portion of log page if this is forced to disk.
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//
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//
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// Start with the size of the header and the client data.
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//
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CurrentLogRecordSize = RemainingLogBytes + Lfcb->RecordHeaderLength;
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//
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// If the log is packed and there are bytes on the current page we need
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// to take into account any bytes at the end of the page which won't
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// be used. This will happen if the log record spills into the end of
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// the log page but doesn't use up the page. If the remaining bytes are
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// less than a record header size we must throw them away.
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//
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if (FlagOn( Lfcb->Flags, LFCB_PACK_LOG )) {
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if (CurrentPageBytes != 0
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&& CurrentLogRecordSize < CurrentPageBytes
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&& (CurrentPageBytes - CurrentLogRecordSize) < Lfcb->RecordHeaderLength) {
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CurrentLogRecordSize += (CurrentPageBytes - CurrentLogRecordSize);
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}
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//
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// If this is the unpacked case we need to check for bytes being thrown away
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// on the current page or the last page.
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//
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} else {
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//
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// If there is an active Lbcb, we need to add any bytes that
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// would be thrown away at the end.
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//
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if (CurrentPageBytes != 0) {
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//
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// We won't use this log page unless the new log record will fit or
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// unless this is the first log record in the page.
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//
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if ((CurrentPageBytes != (ULONG)Lfcb->LogPageDataSize)
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&& (CurrentLogRecordSize > CurrentPageBytes)) {
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CurrentLogRecordSize += CurrentPageBytes;
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//
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// Remember that we will start this log record at the first
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// byte in the data portion of a page.
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//
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LogRecordStart = 0;
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//
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// Otherwise this will start at the current offset into the
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// data portion of the log page.
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//
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} else {
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LogRecordStart = (ULONG)Lfcb->LogPageDataSize - CurrentPageBytes;
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}
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//
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// If there was no Lbcb, then we know that we will start at the first
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// byte of the data portion.
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//
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} else {
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LogRecordStart = 0;
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}
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//
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// We always assume that we will use up the rest of the bytes on the last page
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// in computing whether the log record will fit in the available space. We
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// only subtract that space from the available space if this is a force write.
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//
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if (ForceToDisk) {
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//
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// We take into account where we start on a log page and continue
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// to subtract log pages until we know the amount on the last
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// page.
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//
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TailBytes = RemainingLogBytes + Lfcb->RecordHeaderLength + LogRecordStart;
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while (TailBytes > (ULONG)Lfcb->LogPageDataSize) {
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TailBytes -= (ULONG)Lfcb->LogPageDataSize;
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}
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TailBytes = (ULONG)Lfcb->LogPageDataSize - TailBytes;
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CurrentLogRecordSize += TailBytes;
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}
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}
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//
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// We now know the number of bytes needed for the current log page.
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// Next we compute the number of bytes being reserved by UndoRequirement.
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// If the UndoRequirement is positive, we will add to the amount reserved
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// in the log file. If it is negative, we will subtract from the amount
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// reserved in the log file.
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//
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//
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// When we have an actual reserve amount, we convert it to positive
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// and then reserve twice the space required to hold the data and
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// its header (up to the maximum of a single page.
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//
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if (UndoRequirement != 0) {
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if (!FlagOn( Lfcb->Flags, LFCB_PACK_LOG )) {
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UndoRequirement *= 2;
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}
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if (UndoRequirement < 0) {
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UndoRequirement -= (2 * Lfcb->RecordHeaderLength);
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} else {
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UndoRequirement += (2 * Lfcb->RecordHeaderLength);
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}
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}
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//
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// Now compute the net log file usage. The result may be positive or
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// negative.
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//
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LogFileUsage = ((LONG) CurrentLogRecordSize) + UndoRequirement; //**** xxFromLong( ((LONG) CurrentLogRecordSize) + UndoRequirement );
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//
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// The actual available space is the CurrentAvail minus the reserved
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// undo value in the Lfcb.
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//
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CurrentAvailSpace = CurrentAvailSpace - Lfcb->TotalUndoCommitment; //**** xxSub( CurrentAvailSpace, Lfcb->TotalUndoCommitment );
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//
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// If this log file usage is greater than the available log file space
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// then we raise a status code.
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//
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#ifdef LFS_RAISE
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if (LfsRaiseFull) {
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LfsRaiseFull = FALSE;
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DebugTrace( -1, Dbg, "LfsVerifyLogSpaceAvail: About to raise\n", 0 );
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ExRaiseStatus( STATUS_LOG_FILE_FULL );
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}
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#endif
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if (LogFileUsage > CurrentAvailSpace) {
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DebugTrace( -1, Dbg, "LfsVerifyLogSpaceAvail: About to raise\n", 0 );
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ExRaiseStatus( STATUS_LOG_FILE_FULL );
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}
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Lfcb->TotalUndoCommitment = Lfcb->TotalUndoCommitment + UndoRequirement; //**** xxAdd( Lfcb->TotalUndoCommitment, xxFromLong( UndoRequirement ));
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Lch->ClientUndoCommitment = Lch->ClientUndoCommitment + UndoRequirement; //**** xxAdd( Lch->ClientUndoCommitment, xxFromLong( UndoRequirement ));
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DebugTrace( -1, Dbg, "LfsVerifyLogSpaceAvail: Exit\n", 0 );
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//
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// Now check if the log file is almost used up.
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//
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if ((CurrentAvailSpace - LogFileUsage) < (Lfcb->TotalAvailable >> 2)) {
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return TRUE;
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}
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return FALSE;
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}
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VOID
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LfsFindCurrentAvail (
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IN PLFCB Lfcb
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)
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/*++
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Routine Description:
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This routine is called to calculate the number of bytes available for log
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records which are in completely empty log record pages. It ignores any
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partial pages in the active work queue and ignores any page which is
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going to be reused.
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Arguments:
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Lfcb - Lfcb for this log file.
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Return Value:
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None.
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--*/
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{
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LONGLONG OldestPageOffset;
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LONGLONG NextFreePageOffset;
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LONGLONG FreeBytes;
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PAGED_CODE();
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DebugTrace( +1, Dbg, "LfsFindCurrentAvail: Entered\n", 0 );
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DebugTrace( 0, Dbg, "Lfcb -> %08x\n", Lfcb );
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//
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// If there is a last lsn in the restart area then we know
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// that we will have to compute the free range.
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//
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if (!FlagOn( Lfcb->Flags, LFCB_NO_LAST_LSN )) {
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//
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// If there is no oldest Lsn then start at the
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// first page of the file.
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//
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if (FlagOn( Lfcb->Flags, LFCB_NO_OLDEST_LSN )) {
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OldestPageOffset = Lfcb->FirstLogPage;
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} else {
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LfsTruncateOffsetToLogPage( Lfcb,
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Lfcb->OldestLsnOffset,
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&OldestPageOffset );
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}
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//
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// We will use the next log page offset to compute the
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// next free page. If we are going to reuse this page
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// go to the next page, if we are at the first page then
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// use the end of the file.
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//
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if (FlagOn( Lfcb->Flags, LFCB_REUSE_TAIL )) {
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NextFreePageOffset = Lfcb->NextLogPage + Lfcb->LogPageSize; //**** xxAdd( Lfcb->NextLogPage, Lfcb->LogPageSize );
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} else if ( Lfcb->NextLogPage == Lfcb->FirstLogPage ) { //**** xxEql( Lfcb->NextLogPage, Lfcb->FirstLogPage )
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NextFreePageOffset = Lfcb->FileSize;
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} else {
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NextFreePageOffset = Lfcb->NextLogPage;
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}
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//
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// If the two offsets are the same then there is no available space.
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//
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if ( OldestPageOffset == NextFreePageOffset ) { //**** xxEql( OldestPageOffset, NextFreePageOffset )
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Lfcb->CurrentAvailable = 0;
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} else {
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//
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// If the free offset follows the oldest offset then subtract
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// this range from the total available pages.
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//
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if ( OldestPageOffset < NextFreePageOffset ) { //**** xxLtr( OldestPageOffset, NextFreePageOffset )
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FreeBytes = Lfcb->TotalAvailInPages - ( NextFreePageOffset - OldestPageOffset ); //**** xxSub( Lfcb->TotalAvailInPages, xxSub( NextFreePageOffset, OldestPageOffset ));
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} else {
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FreeBytes = OldestPageOffset - NextFreePageOffset; //**** xxSub( OldestPageOffset, NextFreePageOffset );
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}
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//
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// We now have the total bytes in the pages available. We
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// now have to subtract the size of the page header to get
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// the total available bytes.
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//
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// We will convert the bytes to pages and then multiple
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// by the data size of each page.
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//
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FreeBytes = Int64ShrlMod32(((ULONGLONG)(FreeBytes)), Lfcb->LogPageShift);
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Lfcb->CurrentAvailable = FreeBytes * (ULONG)Lfcb->ReservedLogPageSize; //**** xxXMul( FreeBytes, Lfcb->ReservedLogPageSize.LowPart );
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}
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//
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// Otherwise the entire file is available.
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//
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} else {
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Lfcb->CurrentAvailable = Lfcb->MaxCurrentAvail;
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}
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DebugTrace( -1, Dbg, "LfsFindCurrentAvail: Exit\n", 0 );
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return;
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}
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