mirror of
https://github.com/akuker/RASCSI.git
synced 2024-12-23 06:30:04 +00:00
621cc7d5a2
* Unit test updates * Lambda syntax cleanup * Use new-style casts * Use std::none_of when saving the cache * Use to_integer instead of casts * Use accessors for getting CDB data * Made ctrl_t private * Improved encapsulation * Replaced pointers by references * Removed all remaining occurrences of DWORD and BYTE, making os.h obsolete
929 lines
41 KiB
C++
929 lines
41 KiB
C++
//---------------------------------------------------------------------------
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//
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// SCSI Target Emulator RaSCSI Reloaded
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// for Raspberry Pi
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//
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// Powered by XM6 TypeG Technology.
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// Copyright (C) 2016-2020 GIMONS
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// [ Host File System for the X68000 ]
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//
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// Note: This functionality is specific to the X68000 operating system.
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// It is highly unlikely that this will work for other platforms.
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//---------------------------------------------------------------------------
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#pragma once
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using TCHAR = char;
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static const int FILEPATH_MAX = 260;
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//---------------------------------------------------------------------------
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//
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// Status code definitions
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//
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//---------------------------------------------------------------------------
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static const int FS_INVALIDFUNC = 0xFFFFFFFF; ///< Executed an invalid function
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static const int FS_FILENOTFND = 0xFFFFFFFE; ///< The selected file can not be found
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static const int FS_DIRNOTFND = 0xFFFFFFFD; ///< The selected directory can not be found
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static const int FS_OVEROPENED = 0xFFFFFFFC; ///< There are too many files open
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static const int FS_CANTACCESS = 0xFFFFFFFB; ///< Can not access the direcory or volume
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static const int FS_NOTOPENED = 0xFFFFFFFA; ///< The selected handle is not opened
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static const int FS_INVALIDMEM = 0xFFFFFFF9; ///< Memory management has been destroyed
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static const int FS_OUTOFMEM = 0xFFFFFFF8; ///< Insufficient memory for execution
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static const int FS_INVALIDPTR = 0xFFFFFFF7; ///< Selected an invalid memory management pointer
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static const int FS_INVALIDENV = 0xFFFFFFF6; ///< Selected an invalid environment
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static const int FS_ILLEGALFMT = 0xFFFFFFF5; ///< The exeucted file is in an invalid format
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static const int FS_ILLEGALMOD = 0xFFFFFFF4; ///< Invalid open access mode
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static const int FS_INVALIDPATH = 0xFFFFFFF3; ///< Mistake in selected file name
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static const int FS_INVALIDPRM = 0xFFFFFFF2; ///< Called with an invalid parameter
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static const int FS_INVALIDDRV = 0xFFFFFFF1; ///< Mistake in selected drive
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static const int FS_DELCURDIR = 0xFFFFFFF0; ///< Unable to delete the current directory
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static const int FS_NOTIOCTRL = 0xFFFFFFEF; ///< Unable to use IOCTRL with the device
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static const int FS_LASTFILE = 0xFFFFFFEE; ///< Can not find any more files
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static const int FS_CANTWRITE = 0xFFFFFFED; ///< Selected file can not be written
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static const int FS_DIRALREADY = 0xFFFFFFEC; ///< Selected directory is already registered
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static const int FS_CANTDELETE = 0xFFFFFFEB; ///< Can not delete because of a file
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static const int FS_CANTRENAME = 0xFFFFFFEA; ///< Can not rename because of a file
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static const int FS_DISKFULL = 0xFFFFFFE9; ///< Can not create a file because the disk is full
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static const int FS_DIRFULL = 0xFFFFFFE8; ///< Can not create a file because the directory is full
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static const int FS_CANTSEEK = 0xFFFFFFE7; ///< Can not seek in the selected location
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static const int FS_SUPERVISOR = 0xFFFFFFE6; ///< Selected supervisor in supervisor mode
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static const int FS_THREADNAME = 0xFFFFFFE5; ///< A thread with this name already exists
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static const int FS_BUFWRITE = 0xFFFFFFE4; ///< Writing to inter-process communication buffers is disallowed
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static const int FS_BACKGROUND = 0xFFFFFFE3; ///< Unable to start a background process
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static const int FS_OUTOFLOCK = 0xFFFFFFE0; ///< Insufficient lock space
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static const int FS_LOCKED = 0xFFFFFFDF; ///< Can not access because it is locked
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static const int FS_DRIVEOPENED = 0xFFFFFFDE; ///< Selected drive has an open handler
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static const int FS_LINKOVER = 0xFFFFFFDD; ///< The symbolic link is nested over 16 times
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static const int FS_FILEEXIST = 0xFFFFFFB0; ///< The file exists
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static const int FS_FATAL_MEDIAOFFLINE = 0xFFFFFFA3; ///< No media inserted
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static const int FS_FATAL_WRITEPROTECT = 0xFFFFFFA2; ///< Write protected
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static const int FS_FATAL_INVALIDCOMMAND = 0xFFFFFFA1; ///< Invalid command number
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static const int FS_FATAL_INVALIDUNIT = 0xFFFFFFA0; ///< Invalid unit number
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static const int HUMAN68K_PATH_MAX = 96; ///< Longest path allowed in Human68k
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//===========================================================================
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//
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/// Human68k name space
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//
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//===========================================================================
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namespace Human68k {
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/// File attribute bit
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enum attribute_t {
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AT_READONLY = 0x01, ///< Read only attribute
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AT_HIDDEN = 0x02, ///< Hidden attribute
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AT_SYSTEM = 0x04, ///< System attribute
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AT_VOLUME = 0x08, ///< Volume label attribute
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AT_DIRECTORY = 0x10, ///< Directory attribute
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AT_ARCHIVE = 0x20, ///< Archive attribute
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AT_ALL = 0xFF, ///< All attribute bits are 1
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};
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/// File open modes
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enum open_t {
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OP_READ = 0, ///< Read
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OP_WRITE = 1, ///< Write
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OP_FULL = 2, ///< Read/Write
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OP_MASK = 0x0F, ///< Decision mask
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OP_SHARE_NONE = 0x10, ///< Sharing forbidden
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OP_SHARE_READ = 0x20, ///< Read sharing
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OP_SHARE_WRITE = 0x30, ///< Write sharing
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OP_SHARE_FULL = 0x40, ///< Read/Write sharing
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OP_SHARE_MASK = 0x70, ///< Sharing decision mask
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OP_SPECIAL = 0x100, ///< Dictionary access
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};
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/// Seek types
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enum class seek_t {
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SK_BEGIN = 0, ///< From the beginning of a file
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SK_CURRENT = 1, ///< From the current location
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SK_END = 2, ///< From the end of the file
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};
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// Media byte
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const static int MEDIA_REMOTE = 0xF3; ///< Remote drive
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struct namests_t {
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uint8_t wildcard; ///< Wildcard character length
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uint8_t drive; ///< Drive number
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uint8_t path[65]; ///< Path (subdirectory +/)
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uint8_t name[8]; ///< File name (PADDING 0x20)
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uint8_t ext[3]; ///< Extension (PADDING 0x20)
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uint8_t add[10]; ///< File name addition (PADDING 0x00)
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void GetCopyPath(uint8_t* szPath) const;
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void GetCopyFilename(uint8_t* szFilename) const;
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};
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struct files_t {
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uint8_t fatr; ///< + 0 search attribute; read-only
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// uint8_t drive; ///< + 1 drive number; read-only
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uint32_t sector; ///< + 2 directory sector; DOS _FILES first address substitute
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// uint16_t cluster; ///< + 6 directory cluster; details unknown (unused)
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uint16_t offset; ///< + 8 directory entry; write-only
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// uint8_t name[8]; ///< +10 working file name; write-only (unused)
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// uint8_t ext[3]; ///< +18 working extension; write-only (unused)
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uint8_t attr; ///< +21 file attribute; write-only
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uint16_t time; ///< +22 last change time of day; write-only
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uint16_t date; ///< +24 last change date; write-only
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uint32_t size; ///< +26 file size; write-only
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uint8_t full[23]; ///< +30 full name; write-only
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};
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struct fcb_t {
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// uint8_t pad00[6]; ///< + 0~+ 5 (unused)
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uint32_t fileptr; ///< + 6~+ 9 file pointer
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// uint8_t pad01[4]; ///< +10~+13 (unused)
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uint16_t mode; ///< +14~+15 open mode
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// uint8_t pad02[16]; ///< +16~+31 (unused)
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// uint32_t zero; ///< +32~+35 zeros are written when opened (unused)
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// uint8_t name[8]; ///< +36~+43 file name (PADDING 0x20) (unused)
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// uint8_t ext[3]; ///< +44~+46 extension (PADDING 0x20) (unused)
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uint8_t attr; ///< +47 file attribute
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// uint8_t add[10]; ///< +48~+57 file name addition (PADDING 0x00) (unused)
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uint16_t time; ///< +58~+59 last change time of day
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uint16_t date; ///< +60~+61 last change date
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// uint16_t cluster; ///< +62~+63 cluster number (unused)
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uint32_t size; ///< +64~+67 file size
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// uint8_t pad03[28]; ///< +68~+95 FAT cache (unused)
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};
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struct capacity_t {
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uint16_t freearea; ///< + 0 Number of available clusters
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uint16_t clusters; ///< + 2 Total number of clusters
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uint16_t sectors; ///< + 4 Number of sectors per cluster
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uint16_t bytes; ///< + 6 Number of bytes per sector
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};
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struct ctrldrive_t {
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uint8_t status; ///< +13 status
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uint8_t pad[3]; ///< Padding
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};
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struct dpb_t {
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uint16_t sector_size; ///< + 0 Number of bytes in one sector
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uint8_t cluster_size; ///< + 2 Number sectors in one cluster -1
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uint8_t shift; ///< + 3 Number of cluster→sector shifts
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uint16_t fat_sector; ///< + 4 FAT first sector number
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uint8_t fat_max; ///< + 6 FAT storage quantity
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uint8_t fat_size; ///< + 7 FAT controlled sector number (excluding duplicates)
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uint16_t file_max; ///< + 8 Number of files in the root directory
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uint16_t data_sector; ///< +10 First sector number of data storage
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uint16_t cluster_max; ///< +12 Total number of clusters +1
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uint16_t root_sector; ///< +14 First sector number of root directory
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// uint32_t driverentry; ///< +16 Device driver pointer (unused)
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uint8_t media; ///< +20 Media identifier
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// uint8_t flag; ///< +21 Flag used by DPB (unused)
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};
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/// Directory entry struct
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struct dirent_t {
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uint8_t name[8]; ///< + 0 File name (PADDING 0x20)
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uint8_t ext[3]; ///< + 8 Extension (PADDING 0x20)
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uint8_t attr; ///< +11 File attribute
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uint8_t add[10]; ///< +12 File name addition (PADDING 0x00)
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uint16_t time; ///< +22 Last change time of day
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uint16_t date; ///< +24 Last change date
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uint16_t cluster; ///< +26 Cluster number
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uint32_t size; ///< +28 File size
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};
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/// IOCTRL parameter union
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union ioctrl_t {
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uint8_t buffer[8]; ///< Access in byte units
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uint32_t param; ///< Parameter (First 4 bytes)
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uint16_t media; ///< Media byte (First 2 bytes)
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};
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/// Command line parameter struct
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/**
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The driver itself is included in the beginning of the argument,
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so setting to a length longer than HUMAN68K_PATH_MAX
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*/
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struct argument_t {
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uint8_t buf[256]; ///< Command line argument
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};
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}
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/// Number of FILES buffers
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/**
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Under normal circumstances it's enough with just a few buffers,
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but Human68k multitasking may lead to multiple threads working
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deeply in the system, which is why this value is set this high.
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Default is 20 buffers.
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*/
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static const int XM6_HOST_FILES_MAX = 20;
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/// Number of FCB buffers
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/**
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This decides how many files can be opened at the same time.
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Default is 100 files.
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*/
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static const int XM6_HOST_FCB_MAX = 100;
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/// Max number of virtual clusters and sectors
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/**
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Number of virtual sectors used for accessing the first sector of a file entity.
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Allocating a generous amount to exceed the number of threads lzdsys uses for access.
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Default is 10 sectors.
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*/
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static const int XM6_HOST_PSEUDO_CLUSTER_MAX = 10;
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/// Number of caches for directory entries
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/**
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Human68k carries out a large number of checks of directory entries when doing an operation
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inside a subdirectory. This specifies the number of caches used to speed up this operation.
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Cache is allocated per drive. The more you add the faster it gets, but use too many
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and the host OS gets under a heavy load, so be careful.
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Default is 16.
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*/
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static const int XM6_HOST_DIRENTRY_CACHE_MAX = 16;
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/// Max number of entries that can be stored per directory
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/**
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When a large number of files are stored in a directory, a larger amount of data than
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contemporanous applications can handle will be returned. This may lead to errors such as
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partial data being recognized, performance dropping significantly, or OOM crashes.
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To guard against this, an upper limit is defined here. In the case of a particular
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file manager, the upper limit is 2560 files. This is one good example to use as reference.
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Default is around 60000 entries. (Upper limit of the FAT root directory)
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*/
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static const int XM6_HOST_DIRENTRY_FILE_MAX = 65535;
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/// Max number of patterns for file name deduplication
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/**
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The file names on the Human68k side are automatically created based on the file system on
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the host side. However, Human68k have stricter file name length restrictions than the host has.
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Because of this, there is a risk that file name duplication will occur. When this happens,
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WindrvXM will use a certain renaming heuristic to generate alternate file names to resolve
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the duplication. Theoretically, there are over 60 million (36^5) unique file names that
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can be generated by this method. However, in reality any more than a few hundred
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deduplications will take excessive processing time. So here an upper limit to deduplication
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is set in order to maintain system performance. If a system is operated with common sense,
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you should only need a few dozen deduplication patterns, so this value can be kept low
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to further improve performance. In the case deduplication is not carried out, multiple files
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with the same name will be created. When trying to access such files,
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only the first entry will ever be accessed.
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Default is 36 patterns.
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*/
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static const int XM6_HOST_FILENAME_PATTERN_MAX = 36;
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/// Duplicate file identification mark
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/**
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A symbol used to distinguish between host and Human68k files.
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Do not use a command shell escape character, or similar protected symbol.
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Default is '@'.
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*/
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static const char XM6_HOST_FILENAME_MARK = '@';
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/// WINDRV operational flags
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/**
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Normally set to 0. When put in the OS trash can for deletion, it is set to 1.
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Other values are reserved for future use.
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Can be used for future extentions such as internal operational flags or mock media byte.
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*/
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enum {
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WINDRV_OPT_REMOVE = 0x00000001, ///< Bit 0: File delete process 0:Directly 1:Trash can
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WINDRV_OPT_ALPHABET = 0x00000020, ///< Bit 5: File name comparison; Alphabet distinction 0:No 1:Yes 0:-C 1:+C
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WINDRV_OPT_COMPARE_LENGTH = 0x00000040, ///< Bit 6: File name comparison; String length (unimplemented) 0:18+3 1:8+3 0:+T 1:-T
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WINDRV_OPT_CONVERT_LENGTH = 0x00000080, ///< Bit 7: File name conversion; String length 0:18+3 1:8+3 0:-A 1:+A
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WINDRV_OPT_CONVERT_SPACE = 0x00000100, ///< Bit 8: File name conversion; Space 0:No 1:'_'
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WINDRV_OPT_CONVERT_BADCHAR = 0x00000200, ///< Bit 9: File name conversion; Invalid char 0:No 1:'_'
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WINDRV_OPT_CONVERT_HYPHENS = 0x00000400, ///< Bit10: File name conversion; Middle hyphen 0:No 1:'_'
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WINDRV_OPT_CONVERT_HYPHEN = 0x00000800, ///< Bit11: File name conversion; Initial hyphen 0:No 1:'_'
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WINDRV_OPT_CONVERT_PERIODS = 0x00001000, ///< Bit12: File name conversion; Middle period 0:No 1:'_'
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WINDRV_OPT_CONVERT_PERIOD = 0x00002000, ///< Bit13: File name conversion; Initial period 0:No 1:'_'
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WINDRV_OPT_REDUCED_SPACE = 0x00010000, ///< Bit16: File name reduction; Space 0:No 1:Reduced
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WINDRV_OPT_REDUCED_BADCHAR = 0x00020000, ///< Bit17: File name reduction; Invalid char 0:No 1:Reduced
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WINDRV_OPT_REDUCED_HYPHENS = 0x00040000, ///< Bit18: File name reduction Middle hyphen 0:No 1:Reduced
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WINDRV_OPT_REDUCED_HYPHEN = 0x00080000, ///< Bit19: File name reduction Initial hyphen 0:No 1:Reduced
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WINDRV_OPT_REDUCED_PERIODS = 0x00100000, ///< Bit20: File name reduction Middle period 0:No 1:Reduced
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WINDRV_OPT_REDUCED_PERIOD = 0x00200000, ///< Bit21: File name reduction Initial period 0:No 1:Reduced
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// Bit24~30 Duplicate file identification mark 0:Automatic 1~127:Chars
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};
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/// File system operational flag
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/**
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Normal is 0. Becomes 1 if attempting to mount in read-only mode.
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Reserving the other values for future use.
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Insurance against hard-to-detect devices such as homemade USB storage.
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*/
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static const uint32_t FSFLAG_WRITE_PROTECT = 0x00000001; ///< Bit0: Force write protect
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//===========================================================================
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//
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/// Full ring list
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///
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/// First (root.next) is the most recent object.
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/// Last (root.prev) is the oldest / unused object.
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/// For code optimization purposes, always upcast the pointer when deleting.
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//
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//===========================================================================
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class CRing {
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public:
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CRing() { Init(); }
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~CRing() { Remove(); }
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CRing(CRing&) = default;
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CRing& operator=(const CRing&) = default;
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void Init() { next = prev = this; }
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CRing* Next() const { return next; } ///< Get the next element
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CRing* Prev() const { return prev; } ///< Get the previous element
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void Insert(CRing* pRoot)
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{
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// Separate the relevant objects
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assert(next);
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assert(prev);
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next->prev = prev;
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prev->next = next;
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// Insert into the beginning of the ring
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assert(pRoot);
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assert(pRoot->next);
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next = pRoot->next;
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prev = pRoot;
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pRoot->next->prev = this;
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pRoot->next = this;
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}
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///< Separate objects & insert into the beginning of the ring
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void InsertTail(CRing* pRoot)
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{
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// Separate the relevant objects
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assert(next);
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assert(prev);
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next->prev = prev;
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prev->next = next;
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// Insert into the end of the ring
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assert(pRoot);
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assert(pRoot->prev);
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next = pRoot;
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prev = pRoot->prev;
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pRoot->prev->next = this;
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pRoot->prev = this;
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}
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///< Separate objects & insert into the end of the ring
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void InsertRing(CRing* pRoot)
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{
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if (next == prev) return;
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// Insert into the beginning of the ring
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assert(pRoot);
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assert(pRoot->next);
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pRoot->next->prev = prev;
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prev->next = pRoot->next;
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pRoot->next = next;
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next->prev = pRoot;
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// Empty self
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next = prev = this;
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}
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///< Separate objects except self & insert into the beginning of the ring
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void Remove()
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{
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// Separate the relevant objects
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assert(next);
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assert(prev);
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next->prev = prev;
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prev->next = next;
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// To be safe, assign self (nothing stops you from separating any number of times)
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next = prev = this;
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}
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///< Separate objects
|
||
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||
private:
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CRing* next; ///< Next element
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CRing* prev; ///< Previous element
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||
};
|
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|
||
//===========================================================================
|
||
//
|
||
/// Directory Entry: File Name
|
||
//
|
||
//===========================================================================
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||
class CHostFilename {
|
||
public:
|
||
CHostFilename() = default;
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||
~CHostFilename() = default;
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||
|
||
static size_t Offset() { return offsetof(CHostFilename, m_szHost); } ///< Get offset location
|
||
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void SetHost(const TCHAR* szHost); ///< Set the name of the host
|
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const TCHAR* GetHost() const { return m_szHost; } ///< Get the name of the host
|
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void ConvertHuman(int nCount = -1); ///< Convert the Human68k name
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void CopyHuman(const uint8_t* szHuman); ///< Copy the Human68k name
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||
bool isReduce() const; ///< Inspect if the Human68k name is generated
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bool isCorrect() const { return m_bCorrect; } ///< Inspect if the Human68k file name adhers to naming rules
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const uint8_t* GetHuman() const { return m_szHuman; } ///< Get Human68k file name
|
||
const uint8_t* GetHumanLast() const
|
||
{ return m_pszHumanLast; } ///< Get Human68k file name
|
||
const uint8_t* GetHumanExt() const { return m_pszHumanExt; }///< Get Human68k file name
|
||
void SetEntryName(); ///< Set Human68k directory entry
|
||
void SetEntryAttribute(uint8_t nHumanAttribute)
|
||
{ m_dirHuman.attr = nHumanAttribute; } ///< Set Human68k directory entry
|
||
void SetEntrySize(uint32_t nHumanSize)
|
||
{ m_dirHuman.size = nHumanSize; } ///< Set Human68k directory entry
|
||
void SetEntryDate(uint16_t nHumanDate)
|
||
{ m_dirHuman.date = nHumanDate; } ///< Set Human68k directory entry
|
||
void SetEntryTime(uint16_t nHumanTime)
|
||
{ m_dirHuman.time = nHumanTime; } ///< Set Human68k directory entry
|
||
void SetEntryCluster(uint16_t nHumanCluster)
|
||
{ m_dirHuman.cluster = nHumanCluster; } ///< Set Human68k directory entry
|
||
const Human68k::dirent_t* GetEntry() const
|
||
{ return &m_dirHuman; } ///< Get Human68k directory entry
|
||
int CheckAttribute(uint32_t nHumanAttribute) const; ///< Determine Human68k directory entry attributes
|
||
bool isSameEntry(const Human68k::dirent_t* pdirHuman) const
|
||
{ assert(pdirHuman); return memcmp(&m_dirHuman, pdirHuman, sizeof(m_dirHuman)) == 0; }
|
||
///< Determine Human68k directory entry match
|
||
|
||
// Path name operations
|
||
static const uint8_t* SeparateExt(const uint8_t* szHuman); ///< Extract extension from Human68k file name
|
||
|
||
private:
|
||
static uint8_t* CopyName(uint8_t* pWrite, const uint8_t* pFirst, const uint8_t* pLast);
|
||
///< Copy Human68k file name elements
|
||
|
||
const uint8_t* m_pszHumanLast = nullptr; ///< Last position of the Human68k internal name of the relevant entry
|
||
const uint8_t* m_pszHumanExt = nullptr; ///< Position of the extension of the Human68k internal name of the relevant entry
|
||
bool m_bCorrect = false; ///< TRUE if the relevant entry of the Human68k internal name is correct
|
||
uint8_t m_szHuman[24]; ///< Human68k internal name of the relevant entry
|
||
Human68k::dirent_t m_dirHuman; ///< All information for the Human68k relevant entry
|
||
TCHAR m_szHost[FILEPATH_MAX]; ///< The host name of the relevant entry (variable length)
|
||
};
|
||
|
||
//===========================================================================
|
||
//
|
||
/// Directory entry: path name
|
||
///
|
||
/// A file path in Human68k always begings with / and ends with /
|
||
/// They don't hold unit numbers.
|
||
/// Include the base path part of the name on the host side for a performance boost.
|
||
//
|
||
//===========================================================================
|
||
/** @note
|
||
Most Human68k applications are written in a way that expects time stamps not to
|
||
get updated for new directories created as a result of file operations, which
|
||
triggers updates to directory entires.
|
||
However, on the host file system, new directories do typically get an updated time stamp.
|
||
|
||
The unfortunate outcome is that when copying a directory for instance, the time stamp
|
||
will get overwritten even if the application did not intend for the time stamp to get updated.
|
||
|
||
Here follows an implementation of a directory cache FAT time stamp emulation feature.
|
||
At the time of a file system update on the host side, time stamp information will be restored
|
||
in order to achieve expected behavior on the Human68k side.
|
||
*/
|
||
class CHostPath: public CRing {
|
||
/// For memory management
|
||
struct ring_t {
|
||
CRing r;
|
||
CHostFilename f;
|
||
};
|
||
|
||
public:
|
||
/// Search buffer
|
||
struct find_t {
|
||
uint32_t count; ///< Search execution count + 1 (When 0 the below value is invalid)
|
||
uint32_t id; ///< Entry unique ID for the path of the next search
|
||
const ring_t* pos; ///< Position of the next search (When identical to unique ID)
|
||
Human68k::dirent_t entry; ///< Contents of the next seach entry
|
||
|
||
void Clear() { count = 0; } ///< Initialize
|
||
};
|
||
|
||
CHostPath() = default;
|
||
~CHostPath();
|
||
CHostPath(CHostPath&) = default;
|
||
CHostPath& operator=(const CHostPath&) = default;
|
||
|
||
void Clean(); ///< Initialialize for reuse
|
||
|
||
void SetHuman(const uint8_t* szHuman); ///< Directly specify the name on the Human68k side
|
||
void SetHost(const TCHAR* szHost); ///< Directly specify the name on the host side
|
||
bool isSameHuman(const uint8_t* szHuman) const; ///< Compare the name on the Human68k side
|
||
bool isSameChild(const uint8_t* szHuman) const; ///< Compare the name on the Human68k side
|
||
const TCHAR* GetHost() const { return m_szHost; } ///< Obtain the name on the host side
|
||
const CHostFilename* FindFilename(const uint8_t* szHuman, uint32_t nHumanAttribute = Human68k::AT_ALL) const;
|
||
///< Find file name
|
||
const CHostFilename* FindFilenameWildcard(const uint8_t* szHuman, uint32_t nHumanAttribute, find_t* pFind) const;
|
||
///< Find file name (with support for wildcards)
|
||
bool isRefresh() const; ///< Check that the file change has been done
|
||
void Refresh(); ///< Refresh file
|
||
void Backup(); /// Backup the time stamp on the host side
|
||
void Restore() const; /// Restore the time stamp on the host side
|
||
void Release(); ///< Update
|
||
|
||
// CHostEntry is an external API that we use
|
||
static void InitId() { g_nId = 0; } ///< Initialize the counter for the unique ID generation
|
||
|
||
private:
|
||
static ring_t* Alloc(size_t nLength); ///< Allocate memory for the file name
|
||
static void Free(ring_t* pRing); ///< Release memory for the file name
|
||
static int Compare(const uint8_t* pFirst, const uint8_t* pLast, const uint8_t* pBufFirst, const uint8_t* pBufLast);
|
||
///< Compare string (with support for wildcards)
|
||
|
||
CRing m_cRing; ///< For CHostFilename linking
|
||
time_t m_tBackup = 0; ///< For time stamp restoration
|
||
bool m_bRefresh = true; ///< Refresh flag
|
||
uint32_t m_nId = 0; ///< Unique ID (When the value has changed, it means an update has been made)
|
||
uint8_t m_szHuman[HUMAN68K_PATH_MAX]; ///< The internal Human68k name for the relevant entry
|
||
TCHAR m_szHost[FILEPATH_MAX]; ///< The host side name for the relevant entry
|
||
|
||
static uint32_t g_nId; ///< Counter for the unique ID generation
|
||
};
|
||
|
||
//===========================================================================
|
||
//
|
||
/// File search processing
|
||
///
|
||
/// It's pretty much impossible to process Human68k file names as Unicode internally.
|
||
/// So, we carry out binary conversion for processing. We leave it up to the
|
||
/// directory entry cache to handle the conversion, which allows WINDRV to read
|
||
/// everything as Shift-JIS. Additionally, it allows Human68k names to be
|
||
/// fully independent of base path assignments.
|
||
///
|
||
/// We create directory entry cache just before file handling.
|
||
/// Since creating directory entires is very costly, we try to reuse created entries
|
||
/// as much as humanly possible.
|
||
///
|
||
/// There are three kinds of file search. They are all processed in CHostFiles::Find()
|
||
/// 1. Search by path name only; the only attribute is 'directory'; _CHKDIR _CREATE
|
||
/// 2. Path + file name + attribute search; _OPEN
|
||
/// 3. Path + wildcard + attribute search; _FILES _NFILES
|
||
/// The search results are kept as directory entry data.
|
||
//
|
||
//===========================================================================
|
||
class CHostFiles {
|
||
public:
|
||
CHostFiles() = default;
|
||
~CHostFiles() = default;
|
||
|
||
void Init();
|
||
|
||
void SetKey(uint32_t nKey) { m_nKey = nKey; } ///< Set search key
|
||
bool isSameKey(uint32_t nKey) const { return m_nKey == nKey; } ///< Compare search key
|
||
void SetPath(const Human68k::namests_t* pNamests); ///< Create path and file name internally
|
||
bool isRootPath() const { return m_szHumanPath[1] == '\0'; } ///< Check if root directory
|
||
void SetPathWildcard() { m_nHumanWildcard = 1; } ///< Enable file search using wildcards
|
||
void SetPathOnly() { m_nHumanWildcard = 0xFF; } ///< Enable only path names
|
||
bool isPathOnly() const { return m_nHumanWildcard == 0xFF; } ///< Check if set to only path names
|
||
void SetAttribute(uint32_t nHumanAttribute) { m_nHumanAttribute = nHumanAttribute; } ///< Set search attribute
|
||
bool Find(uint32_t nUnit, const class CHostEntry* pEntry); ///< Find files on the Human68k side, generating data on the host side
|
||
const CHostFilename* Find(const CHostPath* pPath); ///< Find file name
|
||
void SetEntry(const CHostFilename* pFilename); ///< Store search results on the Human68k side
|
||
void SetResult(const TCHAR* szPath); ///< Set names on the host side
|
||
void AddResult(const TCHAR* szPath); ///< Add file name to the name on the host side
|
||
void AddFilename(); ///< Add the new Human68k file name to the name on the host side
|
||
|
||
const TCHAR* GetPath() const { return m_szHostResult; } ///< Get the name on the host side
|
||
|
||
const Human68k::dirent_t* GetEntry() const { return &m_dirHuman; }///< Get Human68k directory entry
|
||
|
||
uint32_t GetAttribute() const { return m_dirHuman.attr; } ///< Get Human68k attribute
|
||
uint16_t GetDate() const { return m_dirHuman.date; } ///< Get Human68k date
|
||
uint16_t GetTime() const { return m_dirHuman.time; } ///< Get Human68k time
|
||
uint32_t GetSize() const { return m_dirHuman.size; } ///< Get Human68k file size
|
||
const uint8_t* GetHumanFilename() const { return m_szHumanFilename; }///< Get Human68k file name
|
||
const uint8_t* GetHumanResult() const { return m_szHumanResult; } ///< Get Human68k file name search results
|
||
const uint8_t* GetHumanPath() const { return m_szHumanPath; } ///< Get Human68k path name
|
||
|
||
private:
|
||
uint32_t m_nKey = 0; ///< FILES buffer address for Human68k; 0 is unused
|
||
uint32_t m_nHumanWildcard = 0; ///< Human68k wildcard data
|
||
uint32_t m_nHumanAttribute = 0; ///< Human68k search attribute
|
||
CHostPath::find_t m_findNext = {}; ///< Next search location data
|
||
Human68k::dirent_t m_dirHuman = {}; ///< Search results: Human68k file data
|
||
uint8_t m_szHumanFilename[24] = {}; ///< Human68k file name
|
||
uint8_t m_szHumanResult[24] = {}; ///< Search results: Human68k file name
|
||
uint8_t m_szHumanPath[HUMAN68K_PATH_MAX] = {}; ///< Human68k path name
|
||
TCHAR m_szHostResult[FILEPATH_MAX] = {}; ///< Search results: host's full path name
|
||
};
|
||
|
||
//===========================================================================
|
||
//
|
||
/// File search memory manager
|
||
//
|
||
//===========================================================================
|
||
class CHostFilesManager {
|
||
public:
|
||
#ifdef _DEBUG
|
||
~CHostFilesManager();
|
||
#endif // _DEBUG
|
||
void Init(); ///< Initialization (when the driver is installed)
|
||
void Clean(); ///< Release (when starting up or resetting)
|
||
|
||
CHostFiles* Alloc(uint32_t nKey);
|
||
CHostFiles* Search(uint32_t nKey);
|
||
void Free(CHostFiles* pFiles);
|
||
private:
|
||
/// For memory management
|
||
struct ring_t {
|
||
CRing r;
|
||
CHostFiles f;
|
||
};
|
||
|
||
CRing m_cRing; ///< For attaching to CHostFiles
|
||
};
|
||
|
||
//===========================================================================
|
||
//
|
||
/// FCB processing
|
||
//
|
||
//===========================================================================
|
||
class CHostFcb {
|
||
public:
|
||
CHostFcb() = default;
|
||
~CHostFcb() { Close(); }
|
||
CHostFcb(CHostFcb&) = default;
|
||
CHostFcb& operator=(const CHostFcb&) = default;
|
||
|
||
void Init();
|
||
|
||
void SetKey(uint32_t nKey) { m_nKey = nKey; } ///< Set search key
|
||
bool isSameKey(uint32_t nKey) const { return m_nKey == nKey; } ///< Compare search key
|
||
void SetUpdate() { m_bUpdate = true; } ///< Update
|
||
bool isUpdate() const { return m_bUpdate; } ///< Get update state
|
||
bool SetMode(uint32_t nHumanMode); ///< Set file open mode
|
||
void SetFilename(const TCHAR* szFilename); ///< Set file name
|
||
void SetHumanPath(const uint8_t* szHumanPath); ///< Set Human68k path name
|
||
const uint8_t* GetHumanPath() const { return m_szHumanPath; } ///< Get Human68k path name
|
||
|
||
bool Create(uint32_t nHumanAttribute, bool bForce); ///< Create file
|
||
bool Open(); ///< Open file
|
||
uint32_t Read(uint8_t* pBuffer, uint32_t nSize); ///< Read file
|
||
uint32_t Write(const uint8_t* pBuffer, uint32_t nSize); ///< Write file
|
||
bool Truncate() const; ///< Truncate file
|
||
uint32_t Seek(uint32_t nOffset, Human68k::seek_t nHumanSeek); ///< Seek file
|
||
bool TimeStamp(uint32_t nHumanTime) const; ///< Set file time stamp
|
||
void Close(); ///< Close file
|
||
|
||
private:
|
||
uint32_t m_nKey = 0; ///< Human68k FCB buffer address (0 if unused)
|
||
bool m_bUpdate = false; ///< Update flag
|
||
FILE* m_pFile = nullptr; ///< Host side file object
|
||
const char* m_pszMode = nullptr; ///< Host side file open mode
|
||
bool m_bFlag = false; ///< Host side file open flag
|
||
uint8_t m_szHumanPath[HUMAN68K_PATH_MAX] = {}; ///< Human68k path name
|
||
TCHAR m_szFilename[FILEPATH_MAX] = {}; ///< Host side file name
|
||
};
|
||
|
||
//===========================================================================
|
||
//
|
||
/// FCB processing manager
|
||
//
|
||
//===========================================================================
|
||
class CHostFcbManager {
|
||
public:
|
||
#ifdef _DEBUG
|
||
~CHostFcbManager();
|
||
#endif // _DEBUG
|
||
void Init(); ///< Initialization (when the driver is installed)
|
||
void Clean() const; ///< Release (when starting up or resetting)
|
||
|
||
CHostFcb* Alloc(uint32_t nKey);
|
||
CHostFcb* Search(uint32_t nKey);
|
||
void Free(CHostFcb* p);
|
||
|
||
private:
|
||
/// For memory management
|
||
struct ring_t {
|
||
CRing r;
|
||
CHostFcb f;
|
||
};
|
||
|
||
CRing m_cRing; ///< For attaching to CHostFcb
|
||
};
|
||
|
||
//===========================================================================
|
||
//
|
||
/// Host side drive
|
||
///
|
||
/// Keeps the required data for each drive, managed in CHostEntry.
|
||
//
|
||
//===========================================================================
|
||
class CHostDrv
|
||
{
|
||
public:
|
||
CHostDrv() = default;
|
||
~CHostDrv();
|
||
CHostDrv(CHostDrv&) = default;
|
||
CHostDrv& operator=(const CHostDrv&) = default;
|
||
|
||
void Init(const TCHAR* szBase, uint32_t nFlag); ///< Initialization (device startup and load)
|
||
|
||
bool isWriteProtect() const { return m_bWriteProtect; }
|
||
bool isEnable() const { return m_bEnable; } ///< Is it accessible?
|
||
bool isMediaOffline() const;
|
||
uint8_t GetMediaByte() const;
|
||
uint32_t GetStatus() const;
|
||
void SetEnable(bool); ///< Set media status
|
||
bool CheckMedia(); ///< Check if media was changed
|
||
void Update(); ///< Update media status
|
||
void Eject();
|
||
void GetVolume(TCHAR* szLabel); ///< Get volume label
|
||
bool GetVolumeCache(TCHAR* szLabel) const; ///< Get volume label from cache
|
||
uint32_t GetCapacity(Human68k::capacity_t* pCapacity);
|
||
bool GetCapacityCache(Human68k::capacity_t* pCapacity) const; ///< Get capacity from cache
|
||
|
||
// Cache operations
|
||
void CleanCache() const; ///< Update all cache
|
||
void CleanCache(const uint8_t* szHumanPath); ///< Update cache for the specified path
|
||
void CleanCacheChild(const uint8_t* szHumanPath) const; ///< Update all cache below the specified path
|
||
void DeleteCache(const uint8_t* szHumanPath); ///< Delete the cache for the specified path
|
||
CHostPath* FindCache(const uint8_t* szHuman); ///< Inspect if the specified path is cached
|
||
CHostPath* CopyCache(CHostFiles* pFiles); ///< Acquire the host side name on the basis of cache information
|
||
CHostPath* MakeCache(CHostFiles* pFiles); ///< Get all required data to construct a host side name
|
||
bool Find(CHostFiles* pFiles); ///< Find host side name (path + file name (can be abbreviated) + attribute)
|
||
|
||
private:
|
||
// Path name operations
|
||
static const uint8_t* SeparateCopyFilename(const uint8_t* szHuman, uint8_t* szBuffer);
|
||
///< Split and copy the first element of the Human68k full path name
|
||
|
||
/// For memory management
|
||
struct ring_t {
|
||
CRing r;
|
||
CHostPath f;
|
||
};
|
||
|
||
bool m_bWriteProtect = false; ///< TRUE if write-protected
|
||
bool m_bEnable = false; ///< TRUE if media is usable
|
||
uint32_t m_nRing = 0; ///< Number of stored path names
|
||
CRing m_cRing; ///< For attaching to CHostPath
|
||
Human68k::capacity_t m_capCache; ///< Sector data cache: if "sectors == 0" then not cached
|
||
bool m_bVolumeCache = false; ///< TRUE if the volume label has been read
|
||
TCHAR m_szVolumeCache[24] = {}; ///< Volume label cache
|
||
TCHAR m_szBase[FILEPATH_MAX] = {}; ///< Base path
|
||
};
|
||
|
||
//===========================================================================
|
||
//
|
||
/// Directory entry management
|
||
//
|
||
//===========================================================================
|
||
class CHostEntry {
|
||
|
||
public:
|
||
|
||
/// Max number of drive candidates
|
||
static const int DRIVE_MAX = 10;
|
||
|
||
CHostEntry() = default;
|
||
~CHostEntry();
|
||
CHostEntry(CHostEntry&) = default;
|
||
CHostEntry& operator=(const CHostEntry&) = default;
|
||
|
||
void Init() const; ///< Initialization (when the driver is installed)
|
||
void Clean(); ///< Release (when starting up or resetting)
|
||
|
||
// Cache operations
|
||
void CleanCache() const; ///< Update all cache
|
||
void CleanCache(uint32_t nUnit) const; ///< Update cache for the specified unit
|
||
void CleanCache(uint32_t nUnit, const uint8_t* szHumanPath) const; ///< Update cache for the specified path
|
||
void CleanCacheChild(uint32_t nUnit, const uint8_t* szHumanPath) const; ///< Update cache below the specified path
|
||
void DeleteCache(uint32_t nUnit, const uint8_t* szHumanPath) const; ///< Delete cache for the specified path
|
||
bool Find(uint32_t nUnit, CHostFiles* pFiles) const; ///< Find host side name (path + file name (can be abbreviated) + attribute)
|
||
void ShellNotify(uint32_t nEvent, const TCHAR* szPath); ///< Notify status change in the host side file system
|
||
|
||
// Drive object operations
|
||
void SetDrv(uint32_t nUnit, CHostDrv* pDrv);
|
||
bool isWriteProtect(uint32_t nUnit) const;
|
||
bool isEnable(uint32_t nUnit) const; ///< Is it accessible?
|
||
bool isMediaOffline(uint32_t nUnit) const;
|
||
uint8_t GetMediaByte(uint32_t nUnit) const;
|
||
uint32_t GetStatus(uint32_t nUnit) const; ///< Get drive status
|
||
bool CheckMedia(uint32_t nUnit) const; ///< Media change check
|
||
void Eject(uint32_t nUnit) const;
|
||
void GetVolume(uint32_t nUnit, TCHAR* szLabel) const; ///< Get volume label
|
||
bool GetVolumeCache(uint32_t nUnit, TCHAR* szLabel) const; ///< Get volume label from cache
|
||
uint32_t GetCapacity(uint32_t nUnit, Human68k::capacity_t* pCapacity) const;
|
||
bool GetCapacityCache(uint32_t nUnit, Human68k::capacity_t* pCapacity) const; ///< Get cluster size from cache
|
||
|
||
private:
|
||
|
||
CHostDrv* m_pDrv[DRIVE_MAX] = {}; ///< Host side drive object
|
||
uint32_t m_nTimeout = 0; ///< Last time a timeout check was carried out
|
||
};
|
||
|
||
//===========================================================================
|
||
//
|
||
/// Host side file system
|
||
//
|
||
//===========================================================================
|
||
/** @note
|
||
Current state of affairs:
|
||
|
||
While it violates the design philosophy of XM6, we should find a way for
|
||
'class Windrv' and 'class CWindrv' to have a direct pointer to 'class CFileSys'.
|
||
This way, we get the following benefits.
|
||
|
||
Benefit no. 1
|
||
Makes it possible to manage a large number of command handler methods in one place.
|
||
There is a high chance the command handlers will change drastically because of
|
||
host system architectural changes, so we will save a huge amount of maintenance work
|
||
in the long run.
|
||
|
||
Benefit no. 2
|
||
We would get rid of virtual funcion code for processing table creation and lookup.
|
||
It is not feasible to implement code in XM6 for simultaneous use of file system objects.
|
||
Therefore file system object polymorphism is a waste of CPU cycles.
|
||
|
||
I made the change as an experiment. Performance did improve.
|
||
The improvement was obvious from looking at the source the compiler spit out
|
||
after changing the FILESYS_FAST_STRUCTURE value in windrv.h.
|
||
You may understand now why I decided to rant here.
|
||
|
||
The easy solution is to put the content of 'class CFileSys' into 'class CWindrv'.
|
||
(To be honest, I really want to deprecate 'class CHost'... I wonder if there's a good way...)
|
||
*/
|
||
class CFileSys
|
||
{
|
||
public:
|
||
CFileSys() = default;
|
||
virtual ~CFileSys() = default;
|
||
|
||
void Reset(); ///< Reset (close all)
|
||
void Init(); ///< Initialization (device startup and load)
|
||
|
||
// Command handlers
|
||
uint32_t InitDevice(const Human68k::argument_t* pArgument); ///< $40 - Device startup
|
||
int CheckDir(uint32_t nUnit, const Human68k::namests_t* pNamests) const; ///< $41 - Directory check
|
||
int MakeDir(uint32_t nUnit, const Human68k::namests_t* pNamests) const; ///< $42 - Create directory
|
||
int RemoveDir(uint32_t nUnit, const Human68k::namests_t* pNamests) const; ///< $43 - Delete directory
|
||
int Rename(uint32_t nUnit, const Human68k::namests_t* pNamests, const Human68k::namests_t* pNamestsNew) const;
|
||
///< $44 - Change file name
|
||
int Delete(uint32_t nUnit, const Human68k::namests_t* pNamests) const; ///< $45 - Delete file
|
||
int Attribute(uint32_t nUnit, const Human68k::namests_t* pNamests, uint32_t nHumanAttribute) const;
|
||
///< $46 - Get / set file attribute
|
||
int Files(uint32_t nUnit, uint32_t nKey, const Human68k::namests_t* pNamests, Human68k::files_t* pFiles);
|
||
///< $47 - Find file
|
||
int NFiles(uint32_t nUnit, uint32_t nKey, Human68k::files_t* pFiles); ///< $48 - Find next file
|
||
int Create(uint32_t nUnit, uint32_t nKey, const Human68k::namests_t* pNamests, Human68k::fcb_t* pFcb, uint32_t nHumanAttribute, bool bForce);
|
||
///< $49 - Create file
|
||
int Open(uint32_t nUnit, uint32_t nKey, const Human68k::namests_t* pNamests, Human68k::fcb_t* pFcb);
|
||
///< $4A - Open file
|
||
int Close(uint32_t nUnit, uint32_t nKey, const Human68k::fcb_t* pFcb); ///< $4B - Close file
|
||
int Read(uint32_t nKey, Human68k::fcb_t* pFcb, uint8_t* pAddress, uint32_t nSize);
|
||
///< $4C - Read file
|
||
int Write(uint32_t nKey, Human68k::fcb_t* pFcb, const uint8_t* pAddress, uint32_t nSize);
|
||
///< $4D - Write file
|
||
int Seek(uint32_t nKey, Human68k::fcb_t* pFcb, uint32_t nSeek, int nOffset); ///< $4E - Seek file
|
||
uint32_t TimeStamp(uint32_t nUnit, uint32_t nKey, Human68k::fcb_t* pFcb, uint32_t nHumanTime);
|
||
///< $4F - Get / set file timestamp
|
||
int GetCapacity(uint32_t nUnit, Human68k::capacity_t* pCapacity) const; ///< $50 - Get capacity
|
||
int CtrlDrive(uint32_t nUnit, Human68k::ctrldrive_t* pCtrlDrive) const; ///< $51 - Inspect / control drive status
|
||
int GetDPB(uint32_t nUnit, Human68k::dpb_t* pDpb) const; ///< $52 - Get DPB
|
||
int DiskRead(uint32_t nUnit, uint8_t* pBuffer, uint32_t nSector, uint32_t nSize); ///< $53 - Read sectors
|
||
int DiskWrite(uint32_t nUnit) const; ///< $54 - Write sectors
|
||
int Ioctrl(uint32_t nUnit, uint32_t nFunction, Human68k::ioctrl_t* pIoctrl); ///< $55 - IOCTRL
|
||
int Flush(uint32_t nUnit) const; ///< $56 - Flush
|
||
int CheckMedia(uint32_t nUnit) const; ///< $57 - Media change check
|
||
int Lock(uint32_t nUnit) const; ///< $58 - Lock
|
||
|
||
void SetOption(uint32_t nOption); ///< Set option
|
||
uint32_t GetOption() const { return m_nOption; } ///< Get option
|
||
uint32_t GetDefault() const { return m_nOptionDefault; } ///< Get default options
|
||
static uint32_t GetFileOption() { return g_nOption; } ///< Get file name change option
|
||
|
||
static const int DriveMax = CHostEntry::DRIVE_MAX; ///< Max number of drive candidates
|
||
|
||
private:
|
||
void InitOption(const Human68k::argument_t* pArgument);
|
||
bool FilesVolume(uint32_t nUnit, Human68k::files_t* pFiles) const; ///< Get volume label
|
||
|
||
uint32_t m_nUnits = 0; ///< Number of current drive objects (Changes for every resume)
|
||
|
||
uint32_t m_nOption = 0; ///< Current runtime flag
|
||
uint32_t m_nOptionDefault = 0; ///< Runtime flag at reset
|
||
|
||
uint32_t m_nDrives = 0; ///< Number of candidates for base path status restoration (scan every time if 0)
|
||
|
||
uint32_t m_nKernel = 0; ///< Counter for kernel check
|
||
uint32_t m_nKernelSearch = 0; ///< Initial address for NUL device
|
||
|
||
uint32_t m_nHostSectorCount = 0; ///< Virtual sector identifier
|
||
|
||
CHostFilesManager m_cFiles; ///< File search memory
|
||
CHostFcbManager m_cFcb; ///< FCB operation memory
|
||
CHostEntry m_cEntry; ///< Drive object and directory entry
|
||
|
||
uint32_t m_nHostSectorBuffer[XM6_HOST_PSEUDO_CLUSTER_MAX];
|
||
///< Entity that the virtual sector points to
|
||
|
||
uint32_t m_nFlag[DriveMax] = {}; ///< Candidate runtime flag for base path restoration
|
||
TCHAR m_szBase[DriveMax][FILEPATH_MAX] = {}; ///< Candidate for base path restoration
|
||
static uint32_t g_nOption; ///< File name change flag
|
||
};
|