/*
* 86Box A hypervisor and IBM PC system emulator that specializes in
* running old operating systems and software designed for IBM
* PC systems and compatibles from 1981 through fairly recent
* system designs based on the PCI bus.
*
* This file is part of the 86Box distribution.
*
* Implementation of the floppy drive emulation.
*
* Version: @(#)fdd.c 1.0.0 2017/05/30
*
* Author: Sarah Walker,
* Miran Grca,
* Copyright 2008-2017 Sarah Walker.
* Copyright 2016-2017 Miran Grca.
*/
#include "ibm.h"
#include "disc.h"
#include "fdc.h"
#include "fdd.h"
static struct
{
int type;
int track;
int densel;
int head;
int turbo;
int check_bpb;
} fdd[FDD_NUM];
/* Flags:
Bit 0: 300 rpm supported;
Bit 1: 360 rpm supported;
Bit 2: size (0 = 3.5", 1 = 5.25");
Bit 3: sides (0 = 1, 1 = 2);
Bit 4: double density supported;
Bit 5: high density supported;
Bit 6: extended density supported;
Bit 7: double step for 40-track media;
Bit 8: invert DENSEL polarity;
Bit 9: ignore DENSEL;
Bit 10: drive is a PS/2 drive;
*/
#define FLAG_RPM_300 1
#define FLAG_RPM_360 2
#define FLAG_525 4
#define FLAG_DS 8
#define FLAG_HOLE0 16
#define FLAG_HOLE1 32
#define FLAG_HOLE2 64
#define FLAG_DOUBLE_STEP 128
#define FLAG_INVERT_DENSEL 256
#define FLAG_IGNORE_DENSEL 512
#define FLAG_PS2 1024
static struct
{
int max_track;
int flags;
char name[64];
char internal_name[24];
} drive_types[] =
{
{ /*None*/
0, 0, "None", "none"
},
{ /*5.25" 1DD*/
43, FLAG_RPM_300 | FLAG_525 | FLAG_HOLE0, "5.25\" 180k", "525_1dd"
},
{ /*5.25" DD*/
43, FLAG_RPM_300 | FLAG_525 | FLAG_DS | FLAG_HOLE0, "5.25\" 360k", "525_2dd"
},
{ /*5.25" QD*/
86, FLAG_RPM_300 | FLAG_525 | FLAG_DS | FLAG_HOLE0 | FLAG_DOUBLE_STEP, "5.25\" 720k", "525_2qd"
},
{ /*5.25" HD PS/2*/
86, FLAG_RPM_360 | FLAG_525 | FLAG_DS | FLAG_HOLE0 | FLAG_HOLE1 | FLAG_DOUBLE_STEP | FLAG_INVERT_DENSEL | FLAG_PS2, "5.25\" 1.2M PS/2", "525_2hd_ps2"
},
{ /*5.25" HD*/
86, FLAG_RPM_360 | FLAG_525 | FLAG_DS | FLAG_HOLE0 | FLAG_HOLE1 | FLAG_DOUBLE_STEP, "5.25\" 1.2M", "525_2hd"
},
{ /*5.25" HD Dual RPM*/
86, FLAG_RPM_300 | FLAG_RPM_360 | FLAG_525 | FLAG_DS | FLAG_HOLE0 | FLAG_HOLE1 | FLAG_DOUBLE_STEP, "5.25\" 1.2M 300/360 RPM", "525_2hd_dualrpm"
},
{ /*3.5" 1DD*/
86, FLAG_RPM_300 | FLAG_HOLE0 | FLAG_DOUBLE_STEP, "3.5\" 360k", "35_1dd"
},
{ /*3.5" DD*/
86, FLAG_RPM_300 | FLAG_DS | FLAG_HOLE0 | FLAG_DOUBLE_STEP, "3.5\" 720k", "35_2dd"
},
{ /*3.5" HD PS/2*/
86, FLAG_RPM_300 | FLAG_DS | FLAG_HOLE0 | FLAG_HOLE1 | FLAG_DOUBLE_STEP | FLAG_INVERT_DENSEL | FLAG_PS2, "3.5\" 1.44M PS/2", "35_2hd_ps2"
},
{ /*3.5" HD*/
86, FLAG_RPM_300 | FLAG_DS | FLAG_HOLE0 | FLAG_HOLE1 | FLAG_DOUBLE_STEP, "3.5\" 1.44M", "35_2hd"
},
{ /*3.5" HD PC-98*/
86, FLAG_RPM_300 | FLAG_RPM_360 | FLAG_DS | FLAG_HOLE0 | FLAG_HOLE1 | FLAG_DOUBLE_STEP | FLAG_INVERT_DENSEL, "3.5\" 1.25M PC-98", "35_2hd_nec"
},
{ /*3.5" HD 3-Mode*/
86, FLAG_RPM_300 | FLAG_RPM_360 | FLAG_DS | FLAG_HOLE0 | FLAG_HOLE1 | FLAG_DOUBLE_STEP, "3.5\" 1.44M 300/360 RPM", "35_2hd_3mode"
},
{ /*3.5" ED*/
86, FLAG_RPM_300 | FLAG_DS | FLAG_HOLE0 | FLAG_HOLE1 | FLAG_HOLE2 | FLAG_DOUBLE_STEP, "3.5\" 2.88M", "35_2ed"
},
{ /*End of list*/
-1, -1, "", ""
}
};
int fdd_swap = 0;
char *fdd_getname(int type)
{
return drive_types[type].name;
}
char *fdd_get_internal_name(int type)
{
return drive_types[type].internal_name;
}
int fdd_get_from_internal_name(char *s)
{
int c = 0;
while (strlen(drive_types[c].internal_name))
{
if (!strcmp(drive_types[c].internal_name, s))
return c;
c++;
}
return 0;
}
void fdd_forced_seek(int drive, int track_diff)
{
drive = real_drive(drive);
fdd[drive].track += track_diff;
if (fdd[drive].track < 0)
fdd[drive].track = 0;
if (fdd[drive].track > drive_types[fdd[drive].type].max_track)
fdd[drive].track = drive_types[fdd[drive].type].max_track;
disc_seek(drive, fdd[drive].track);
disctime = 5000;
}
void fdd_seek(int drive, int track_diff)
{
drive = real_drive(drive);
if (!track_diff)
{
disctime = 5000;
return;
}
fdd[drive].track += track_diff;
if (fdd[drive].track < 0)
fdd[drive].track = 0;
if (fdd[drive].track > drive_types[fdd[drive].type].max_track)
fdd[drive].track = drive_types[fdd[drive].type].max_track;
fdc_discchange_clear(drive);
disc_seek(drive, fdd[drive].track);
disctime = 5000;
}
int fdd_track0(int drive)
{
drive = real_drive(drive);
/* If drive is disabled, TRK0 never gets set. */
if (!drive_types[fdd[drive].type].max_track) return 0;
return !fdd[drive].track;
}
int fdd_track(int drive)
{
return fdd[drive].track;
}
void fdd_set_densel(int densel)
{
int i = 0;
for (i = 0; i < 4; i++)
{
if (drive_types[fdd[i].type].flags & FLAG_INVERT_DENSEL)
{
fdd[i].densel = densel ^ 1;
}
else
{
fdd[i].densel = densel;
}
}
}
int fdd_getrpm(int drive)
{
int hole = disc_hole(drive);
int densel = 0;
drive = real_drive(drive);
densel = fdd[drive].densel;
if (drive_types[fdd[drive].type].flags & FLAG_INVERT_DENSEL)
{
densel ^= 1;
}
if (!(drive_types[fdd[drive].type].flags & FLAG_RPM_360)) return 300;
if (!(drive_types[fdd[drive].type].flags & FLAG_RPM_300)) return 360;
if (drive_types[fdd[drive].type].flags & FLAG_525)
{
return densel ? 360 : 300;
}
else
{
/* disc_hole(drive) returns 0 for double density media, 1 for high density, and 2 for extended density. */
if (hole == 1)
{
return densel ? 300 : 360;
}
else
{
return 300;
}
}
}
void fdd_setswap(int swap)
{
fdd_swap = swap ? 1 : 0;
}
int fdd_can_read_medium(int drive)
{
int hole = disc_hole(drive);
drive = real_drive(drive);
hole = 1 << (hole + 3);
return (drive_types[fdd[drive].type].flags & hole) ? 1 : 0;
}
int fdd_doublestep_40(int drive)
{
return (drive_types[fdd[drive].type].flags & FLAG_DOUBLE_STEP) ? 1 : 0;
}
void fdd_set_type(int drive, int type)
{
int old_type = fdd[drive].type;
fdd[drive].type = type;
if ((drive_types[old_type].flags ^ drive_types[type].flags) & FLAG_INVERT_DENSEL)
{
fdd[drive].densel ^= 1;
}
}
int fdd_get_type(int drive)
{
return fdd[drive].type;
}
int fdd_get_flags(int drive)
{
return drive_types[fdd[drive].type].flags;
}
int fdd_is_525(int drive)
{
return drive_types[fdd[drive].type].flags & FLAG_525;
}
int fdd_is_dd(int drive)
{
return (drive_types[fdd[drive].type].flags & 0x70) == 0x10;
}
int fdd_is_ed(int drive)
{
return drive_types[fdd[drive].type].flags & FLAG_HOLE2;
}
int fdd_is_double_sided(int drive)
{
return drive_types[fdd[drive].type].flags & FLAG_DS;
}
void fdd_set_head(int drive, int head)
{
drive = real_drive(drive);
fdd[drive].head = head;
}
int fdd_get_head(int drive)
{
return fdd[drive].head;
}
void fdd_set_turbo(int drive, int turbo)
{
fdd[drive].turbo = turbo;
}
int fdd_get_turbo(int drive)
{
return fdd[drive].turbo;
}
void fdd_set_check_bpb(int drive, int check_bpb)
{
fdd[drive].check_bpb = check_bpb;
}
int fdd_get_check_bpb(int drive)
{
return fdd[drive].check_bpb;
}
int fdd_get_densel(int drive)
{
if (drive_types[fdd[drive].type].flags & FLAG_INVERT_DENSEL)
{
return fdd[drive].densel ^ 1;
}
else
{
return fdd[drive].densel;
}
}
void fdd_init()
{
}