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f9b5ca3c79
CORE-9198 #resolve svn path=/trunk/; revision=66372
261 lines
5.2 KiB
C++
261 lines
5.2 KiB
C++
/*
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* Copyright 2004 Martin Fuchs
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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//
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// Explorer clone
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//
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// fatfs.h
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//
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// Martin Fuchs, 01.02.2004
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//
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/// FAT file system file-entry
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struct FATEntry : public Entry
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{
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FATEntry(Entry* parent, unsigned cluster) : Entry(parent, ET_FAT), _cluster(cluster) {}
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protected:
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FATEntry() : Entry(ET_FAT) {}
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virtual bool get_path(PTSTR path, size_t path_count) const;
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virtual ShellPath create_absolute_pidl() const;
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DWORD _cluster;
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};
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struct FATDrive;
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/// FAT file system directory-entry
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struct FATDirectory : public FATEntry, public Directory
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{
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FATDirectory(FATDrive& drive, LPCTSTR root_path);
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FATDirectory(FATDrive& drive, Entry* parent, LPCTSTR path, unsigned cluster);
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~FATDirectory();
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virtual void read_directory(int scan_flags=0);
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virtual const void* get_next_path_component(const void*) const;
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virtual Entry* find_entry(const void*);
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protected:
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FATDrive& _drive;
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struct dirsecz* _secarr;
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int _cur_bufs;
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int _ents;
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struct dirent* _dir;
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struct Kette* _alloc;
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bool read_dir();
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};
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#pragma pack(push, 1)
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struct BootSector {
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BYTE jmp[3];
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char OEM[8];
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WORD BytesPerSector; // dpb.bsec
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BYTE SectorsPerCluster; // dpb.sclus + 1
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WORD ReservedSectors; // dpb.ffatsec
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BYTE NumberFATs;
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WORD RootEntries; // dpb.ndir
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WORD Sectors16;
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BYTE MediaDescr;
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WORD SectorsPerFAT;
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WORD SectorsPerTrack;
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WORD Heads;
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DWORD HiddenSectors;
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DWORD Sectors32;
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BYTE DriveUnit;
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WORD ExtBootFlag;
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DWORD SerialNr;
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char Label[11];
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char FileSystem[8];
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BYTE BootCode[448];
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BYTE BootSignature[2];
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};
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struct BootSector32 {
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BYTE jmp[3];
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char OEM[8];
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WORD BytesPerSector;
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BYTE SectorsPerCluster;
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WORD ReservedSectors;
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BYTE NumberFATs;
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WORD reserved1; // immer 0 f<>r FAT32
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WORD Sectors16;
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BYTE MediaDescr;
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WORD reserved2; // immer 0 f<>r FAT32
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WORD SectorsPerTrack;
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WORD Heads;
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DWORD HiddenSectors;
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DWORD Sectors32;
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DWORD SectorsPerFAT32;
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DWORD unknown1;
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DWORD RootSectors; // correct?
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char unknown2[6];
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char FileSystem[8];
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BYTE BootCode[448];
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BYTE BootSignature[2];
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};
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struct filetime {
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WORD sec2 : 5;
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WORD min : 6;
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WORD hour : 5;
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};
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struct filedate {
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WORD day : 5;
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WORD month : 4;
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WORD year : 7;
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};
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typedef struct {
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unsigned readonly : 1;
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unsigned hidden : 1;
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unsigned system : 1;
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unsigned volume : 1;
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unsigned directory : 1;
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unsigned archived : 1;
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unsigned deleted : 1;
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} fattr;
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typedef union {
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char b;
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fattr a;
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} FAT_attribute;
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struct DEntry_E {
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char name[8];
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char ext[3];
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char attr;
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char rsrvd[10];
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struct filetime time;
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struct filedate date;
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WORD fclus;
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DWORD size;
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};
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union DEntry {
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DEntry_E E;
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BYTE B[8+3+1+10+sizeof(struct filetime)+sizeof(struct filedate)+sizeof(WORD)+sizeof(DWORD)];
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};
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#pragma pack(pop)
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#define BufLen 512
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struct Buffer {
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BYTE dat[BufLen];
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};
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struct Cache {
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BYTE dat[BufLen];
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};
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struct dskrwblk {
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DWORD sec;
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WORD anz;
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struct buffer far *buf;
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};
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#define RONLY 0x01
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#define HIDDEN 0x02
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#define SYSTEM 0x04
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#define VOLUME 0x08
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#define DIRENT 0x10
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#define ARCHIVE 0x20
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#define _A_DELETED 0x40
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#define _A_ILLEGAL 0x80
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#define IS_LNAME(a) ((a&0xFF)==0x0F) // "& 0xFF" correct?
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#define FAT_DEL_CHAR (char)0xe5
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#define AddP(p,s) {(int&)p += s;}
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struct dirent {
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union DEntry ent[1];
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};
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struct dirsecz {
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DWORD s[32]; // 32 only as placeholder
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};
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struct Kette {
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struct Kette* Vorw;
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struct Kette* Rueck;
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union DEntry* Ent;
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};
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#define MK_P(ofs) ((void*) ((size_t)(ofs)))
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#define MK_LONG(l,h) ((DWORD)WORD(l)|((DWORD)WORD(h)<<16))
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#define spoke(ofs,w) (*((BYTE*)MK_P(ofs)) = (BYTE)(w))
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#define wpoke(ofs,w) (*((WORD*)MK_P(ofs)) = (WORD)(w))
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#define dpoke(ofs,w) (*((DWORD*)MK_P(ofs)) = (DWORD)(w))
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#define speek(ofs) (*((BYTE*)MK_P(ofs)))
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#define wpeek(ofs) (*((WORD*)MK_P(ofs)))
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#define dpeek(p) (*((DWORD*)MK_P(p)))
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/// FAT drive root entry
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struct FATDrive : public FATDirectory
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{
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FATDrive(LPCTSTR path);
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/*
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FATDrive(Entry* parent, LPCTSTR path)
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: FATEntry(parent)
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{
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_path = _tcsdup(path);
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}
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*/
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~FATDrive();
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HANDLE _hDrive;
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BootSector _boot_sector;
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int _bufl;
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int _bufents;
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int _SClus;
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#define CACHE_SIZE_LOW 32
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Cache* _FATCache;
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int _CacheCount;
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DWORD* _CacheSec; // numbers of buffered cache sectors
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int* _CacheCnt; // counters for cache usage
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bool* _CacheDty; // dirty flags for cache
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int _Caches;
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bool _cache_empty;
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int _read_ahead;
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bool read_sector(DWORD sec, Buffer* buf, int len);
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DWORD read_FAT(DWORD Clus, bool& ok);
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void small_cache();
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void reset_cache();
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bool read_cache(DWORD sec, Buffer** bufptr);
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int get_cache_buffer();
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};
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