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294 lines
6.2 KiB
294 lines
6.2 KiB
/*++
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Copyright (c) 1990 Microsoft Corporation
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Module Name:
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cvfexts.hxx
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Abstract:
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A class to manage the CVF_FAT_EXTENSIONS (otherwise known as
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the MDFAT) part of the doublespace volume.
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Author:
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Matthew Bradburn (mattbr) 27-Sep-93
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--*/
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#ifndef CVF_EXTS_DEFN
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#define CVF_EXTS_DEFN
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//
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// secStart : 21 starting sector number, minus 1
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// Reserved : 1 unused
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// csecCoded : 4 number of compressed sectors required, minus 1
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// csecPlain : 4 number of uncompressed sectors required, minus 1
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// fUncoded : 1 0: data stored compressed 1: data uncompressed
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// fUsed : 1 0: mdfat entry not in use 1: mdfat entry in use
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//
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#define CFE_START_SHIFT 0
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#define CFE_START_MASK 0x001fffff
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#define CFE_RESVD_SHIFT 21
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#define CFE_RESVD_MASK 0x00200000
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#define CFE_CODED_SHIFT 22
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#define CFE_CODED_MASK 0x03c00000
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#define CFE_PLAIN_SHIFT 26
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#define CFE_PLAIN_MASK 0x3c000000
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#define CFE_UNCODED_SHIFT 30
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#define CFE_UNCODED_MASK 0x40000000
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#define CFE_USED_SHIFT 31
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#define CFE_USED_MASK 0x80000000
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DECLARE_CLASS( CVF_FAT_EXTENS );
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class CVF_FAT_EXTENS : public SECRUN {
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public:
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DECLARE_CONSTRUCTOR(CVF_FAT_EXTENS);
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NONVIRTUAL
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~CVF_FAT_EXTENS();
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NONVIRTUAL
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BOOLEAN
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Initialize(
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IN OUT PMEM Mem,
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IN OUT PLOG_IO_DP_DRIVE Drive,
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IN LBN StartSetor,
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IN ULONG NumberOfEntries,
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IN ULONG FirstEntry
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);
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NONVIRTUAL
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BOOLEAN
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Create(
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);
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NONVIRTUAL
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BOOLEAN
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IsClusterInUse(
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IN ULONG Cluster
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) CONST;
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NONVIRTUAL
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VOID
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SetClusterInUse(
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IN ULONG Cluster,
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IN BOOLEAN fInUse
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);
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NONVIRTUAL
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ULONG
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QuerySectorFromCluster(
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IN ULONG Cluster,
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OUT PUCHAR NumSectors DEFAULT NULL
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);
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NONVIRTUAL
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VOID
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SetSectorForCluster(
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IN ULONG Cluster,
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IN ULONG Sector,
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IN UCHAR SectorCount
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);
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NONVIRTUAL
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BOOLEAN
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IsClusterCompressed(
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IN ULONG Cluster
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) CONST;
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NONVIRTUAL
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VOID
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SetClusterCompressed(
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IN ULONG Cluster,
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IN BOOLEAN fCompressed
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);
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NONVIRTUAL
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UCHAR
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QuerySectorsRequiredForPlainData(
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IN ULONG Cluster
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) CONST;
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NONVIRTUAL
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VOID
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SetSectorsRequiredForPlainData(
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IN ULONG Cluster,
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IN UCHAR SectorsRequired
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);
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private:
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NONVIRTUAL
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VOID
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Construct(
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);
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NONVIRTUAL
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VOID
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Destroy(
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);
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PULONG _mdfat;
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ULONG _num_entries;
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ULONG _first_entry;
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};
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INLINE BOOLEAN
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CVF_FAT_EXTENS::IsClusterInUse(
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IN ULONG Cluster
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) CONST
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{
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ULONG CfeEntry = _mdfat[Cluster];
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return BOOLEAN((CfeEntry & CFE_USED_MASK) >> CFE_USED_SHIFT);
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}
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INLINE VOID
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CVF_FAT_EXTENS::SetClusterInUse(
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IN ULONG Cluster,
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IN BOOLEAN fInUse
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)
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{
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ULONG CfeEntry = _mdfat[Cluster];
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CfeEntry &= ~CFE_USED_MASK;
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CfeEntry |= fInUse << CFE_USED_SHIFT;
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_mdfat[Cluster] = CfeEntry;
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}
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INLINE ULONG
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CVF_FAT_EXTENS::QuerySectorFromCluster(
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IN ULONG Cluster,
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OUT PUCHAR NumSectors
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)
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/*++
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Routine Description:
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This routine takes a cluster number and uses the mdfat to return
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the sector number in which the data starts. Also the number of
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sectors used to store the cluster data is returned. Works for
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compressed and uncompressed sectors as well, and for clusters
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whether they're "In Use" or not. The number returned is the
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value from the CVF_FAT_EXTENSIONS plus 1.
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Arguments:
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Cluster - the cluster to get info for.
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Return Value:
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ULONG - the CVF starting sector number.
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--*/
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{
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ULONG CfeEntry = _mdfat[Cluster];
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if (NULL != NumSectors) {
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*NumSectors = (UCHAR)((CfeEntry & CFE_CODED_MASK) >> CFE_CODED_SHIFT) + 1;
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}
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return ((CfeEntry & CFE_START_MASK) >> CFE_START_SHIFT) + 1;
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}
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INLINE VOID
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CVF_FAT_EXTENS::SetSectorForCluster(
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IN ULONG Cluster,
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IN ULONG Sector,
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IN UCHAR SectorCount
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)
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/*++
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Routine Description:
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This routine sets the cluster->sector mapping, as well as
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the number of sectors required to store the compressed cluster.
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Arguments:
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Cluster - cluster number
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Sector - starting CVF sector number
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SectorCount - number of sectors required
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Return Value:
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None.
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--*/
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{
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ULONG CfeEntry = _mdfat[Cluster];
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DbgAssert(Sector > 0);
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DbgAssert(SectorCount > 0);
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CfeEntry &= ~CFE_START_MASK;
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CfeEntry |= (Sector - 1) << CFE_START_SHIFT;
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CfeEntry &= ~CFE_CODED_MASK;
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CfeEntry |= ((ULONG)(SectorCount - 1) << CFE_CODED_SHIFT);
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_mdfat[Cluster] = CfeEntry;
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}
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INLINE UCHAR
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CVF_FAT_EXTENS::QuerySectorsRequiredForPlainData(
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IN ULONG Cluster
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) CONST
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{
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ULONG CfeEntry = _mdfat[Cluster];
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return (UCHAR)((CfeEntry & CFE_PLAIN_MASK) >> CFE_PLAIN_SHIFT) + 1;
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}
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INLINE VOID
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CVF_FAT_EXTENS::SetSectorsRequiredForPlainData(
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IN ULONG Cluster,
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IN UCHAR SectorsRequired
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)
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{
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ULONG CfeEntry = _mdfat[Cluster];
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DbgAssert(SectorsRequired > 0);
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CfeEntry &= ~CFE_PLAIN_MASK;
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CfeEntry |= (ULONG)(SectorsRequired - 1) << CFE_PLAIN_SHIFT;
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_mdfat[Cluster] = CfeEntry;
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}
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INLINE BOOLEAN
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CVF_FAT_EXTENS::IsClusterCompressed(
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IN ULONG Cluster
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) CONST
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{
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ULONG CfeEntry = _mdfat[Cluster];
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return ! ((CfeEntry & CFE_UNCODED_MASK) >> CFE_UNCODED_SHIFT);
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}
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INLINE VOID
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CVF_FAT_EXTENS::SetClusterCompressed(
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IN ULONG Cluster,
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IN BOOLEAN fCompressed
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)
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{
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ULONG CfeEntry = _mdfat[Cluster];
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CfeEntry &= ~CFE_UNCODED_MASK;
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CfeEntry |= (ULONG)!fCompressed << CFE_UNCODED_SHIFT;
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_mdfat[Cluster] = CfeEntry;
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}
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#endif // CVF_EXTS_DEFN
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