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|
/////////////////////////////////////////////////////////////////////////
// $Id: floppy.cc,v 1.102 2006/08/12 11:22:40 vruppert Exp $
/////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2002 MandrakeSoft S.A.
//
// MandrakeSoft S.A.
// 43, rue d'Aboukir
// 75002 Paris - France
// http://www.linux-mandrake.com/
// http://www.mandrakesoft.com/
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
//
//
// Floppy Disk Controller Docs:
// Intel 82077A Data sheet
// ftp://void-core.2y.net/pub/docs/fdc/82077AA_FloppyControllerDatasheet.pdf
// Intel 82078 Data sheet
// ftp://download.intel.com/design/periphrl/datashts/29047403.PDF
// Other FDC references
// http://debs.future.easyspace.com/Programming/Hardware/FDC/floppy.html
// And a port list:
// http://mudlist.eorbit.net/~adam/pickey/ports.html
//
// Define BX_PLUGGABLE in files that can be compiled into plugins. For
// platforms that require a special tag on exported symbols, BX_PLUGGABLE
// is used to know when we are exporting symbols and when we are importing.
#define BX_PLUGGABLE
extern "C" {
#include <errno.h>
}
#ifdef __linux__
extern "C" {
#include <sys/ioctl.h>
#include <linux/fd.h>
}
#endif
#include "iodev.h"
// windows.h included by bochs.h
#ifdef WIN32
extern "C" {
#include <winioctl.h>
}
#endif
#define LOG_THIS theFloppyController->
bx_floppy_ctrl_c *theFloppyController;
/* for main status register */
#define FD_MS_MRQ 0x80
#define FD_MS_DIO 0x40
#define FD_MS_NDMA 0x20
#define FD_MS_BUSY 0x10
#define FD_MS_ACTD 0x08
#define FD_MS_ACTC 0x04
#define FD_MS_ACTB 0x02
#define FD_MS_ACTA 0x01
#define FROM_FLOPPY 10
#define TO_FLOPPY 11
#define FLOPPY_DMA_CHAN 2
#define FDRIVE_NONE 0x00
#define FDRIVE_525DD 0x01
#define FDRIVE_350DD 0x02
#define FDRIVE_525HD 0x04
#define FDRIVE_350HD 0x08
#define FDRIVE_350ED 0x10
typedef struct {
unsigned id;
Bit8u trk;
Bit8u hd;
Bit8u spt;
unsigned sectors;
Bit8u drive_mask;
} floppy_type_t;
static floppy_type_t floppy_type[8] = {
{BX_FLOPPY_160K, 40, 1, 8, 320, 0x05},
{BX_FLOPPY_180K, 40, 1, 9, 360, 0x05},
{BX_FLOPPY_320K, 40, 2, 8, 640, 0x05},
{BX_FLOPPY_360K, 40, 2, 9, 720, 0x05},
{BX_FLOPPY_720K, 80, 2, 9, 1440, 0x1f},
{BX_FLOPPY_1_2, 80, 2, 15, 2400, 0x04},
{BX_FLOPPY_1_44, 80, 2, 18, 2880, 0x18},
{BX_FLOPPY_2_88, 80, 2, 36, 5760, 0x10}
};
static Bit16u drate_in_k[4] = {
500, 300, 250, 1000
};
int libfloppy_LTX_plugin_init(plugin_t *plugin, plugintype_t type, int argc, char *argv[])
{
theFloppyController = new bx_floppy_ctrl_c ();
bx_devices.pluginFloppyDevice = theFloppyController;
BX_REGISTER_DEVICE_DEVMODEL(plugin, type, theFloppyController, BX_PLUGIN_FLOPPY);
return(0); // Success
}
void libfloppy_LTX_plugin_fini(void) {}
bx_floppy_ctrl_c::bx_floppy_ctrl_c()
{
put("FDD");
settype(FDLOG);
s.floppy_timer_index = BX_NULL_TIMER_HANDLE;
}
bx_floppy_ctrl_c::~bx_floppy_ctrl_c()
{
// nothing for now
}
void bx_floppy_ctrl_c::init(void)
{
Bit8u i;
BX_DEBUG(("Init $Id: floppy.cc,v 1.102 2006/08/12 11:22:40 vruppert Exp $"));
DEV_dma_register_8bit_channel(2, dma_read, dma_write, "Floppy Drive");
DEV_register_irq(6, "Floppy Drive");
for (unsigned addr=0x03F2; addr<=0x03F7; addr++) {
DEV_register_ioread_handler(this, read_handler, addr, "Floppy Drive", 1);
DEV_register_iowrite_handler(this, write_handler, addr, "Floppy Drive", 1);
}
DEV_cmos_set_reg(0x10, 0x00); /* start out with: no drive 0, no drive 1 */
BX_FD_THIS s.num_supported_floppies = 0;
for (i=0; i<4; i++) {
BX_FD_THIS s.media[i].type = BX_FLOPPY_NONE;
BX_FD_THIS s.media_present[i] = 0;
BX_FD_THIS s.device_type[i] = FDRIVE_NONE;
}
//
// Floppy A setup
//
BX_FD_THIS s.media[0].sectors_per_track = 0;
BX_FD_THIS s.media[0].tracks = 0;
BX_FD_THIS s.media[0].heads = 0;
BX_FD_THIS s.media[0].sectors = 0;
BX_FD_THIS s.media[0].fd = -1;
switch (SIM->get_param_enum(BXPN_FLOPPYA_DEVTYPE)->get()) {
case BX_FLOPPY_NONE:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0x0f) | 0x00);
BX_FD_THIS s.device_type[0] = FDRIVE_NONE;
break;
case BX_FLOPPY_360K:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0x0f) | 0x10);
BX_FD_THIS s.device_type[0] = FDRIVE_525DD;
break;
case BX_FLOPPY_1_2:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0x0f) | 0x20);
BX_FD_THIS s.device_type[0] = FDRIVE_525HD;
break;
case BX_FLOPPY_720K:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0x0f) | 0x30);
BX_FD_THIS s.device_type[0] = FDRIVE_350DD;
break;
case BX_FLOPPY_1_44:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0x0f) | 0x40);
BX_FD_THIS s.device_type[0] = FDRIVE_350HD;
break;
case BX_FLOPPY_2_88:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0x0f) | 0x50);
BX_FD_THIS s.device_type[0] = FDRIVE_350ED;
break;
// use CMOS reserved types
case BX_FLOPPY_160K:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0x0f) | 0x60);
BX_INFO(("WARNING: 1st floppy uses of reserved CMOS floppy drive type 6"));
BX_FD_THIS s.device_type[0] = FDRIVE_525DD;
break;
case BX_FLOPPY_180K:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0x0f) | 0x70);
BX_INFO(("WARNING: 1st floppy uses of reserved CMOS floppy drive type 7"));
BX_FD_THIS s.device_type[0] = FDRIVE_525DD;
break;
case BX_FLOPPY_320K:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0x0f) | 0x80);
BX_INFO(("WARNING: 1st floppy uses of reserved CMOS floppy drive type 8"));
BX_FD_THIS s.device_type[0] = FDRIVE_525DD;
break;
default:
BX_PANIC(("unknown floppya type"));
}
if (BX_FD_THIS s.device_type[0] != FDRIVE_NONE) {
BX_FD_THIS s.num_supported_floppies++;
BX_FD_THIS s.statusbar_id[0] = bx_gui->register_statusitem(" A: ");
} else {
BX_FD_THIS s.statusbar_id[0] = -1;
}
if (SIM->get_param_enum(BXPN_FLOPPYA_TYPE)->get() != BX_FLOPPY_NONE) {
if (SIM->get_param_enum(BXPN_FLOPPYA_STATUS)->get() == BX_INSERTED) {
if (evaluate_media(BX_FD_THIS s.device_type[0], SIM->get_param_enum(BXPN_FLOPPYA_TYPE)->get(),
SIM->get_param_string(BXPN_FLOPPYA_PATH)->getptr(), & BX_FD_THIS s.media[0])) {
BX_FD_THIS s.media_present[0] = 1;
#define MED (BX_FD_THIS s.media[0])
BX_INFO(("fd0: '%s' ro=%d, h=%d,t=%d,spt=%d",
SIM->get_param_string(BXPN_FLOPPYA_PATH)->getptr(),
MED.write_protected, MED.heads, MED.tracks, MED.sectors_per_track));
#undef MED
} else {
SIM->get_param_enum(BXPN_FLOPPYA_STATUS)->set(BX_EJECTED);
}
}
}
//
// Floppy B setup
//
BX_FD_THIS s.media[1].sectors_per_track = 0;
BX_FD_THIS s.media[1].tracks = 0;
BX_FD_THIS s.media[1].heads = 0;
BX_FD_THIS s.media[1].sectors = 0;
BX_FD_THIS s.media[1].fd = -1;
switch (SIM->get_param_enum(BXPN_FLOPPYB_DEVTYPE)->get()) {
case BX_FLOPPY_NONE:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0xf0) | 0x00);
BX_FD_THIS s.device_type[1] = FDRIVE_NONE;
break;
case BX_FLOPPY_360K:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0xf0) | 0x01);
BX_FD_THIS s.device_type[1] = FDRIVE_525DD;
break;
case BX_FLOPPY_1_2:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0xf0) | 0x02);
BX_FD_THIS s.device_type[1] = FDRIVE_525HD;
break;
case BX_FLOPPY_720K:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0xf0) | 0x03);
BX_FD_THIS s.device_type[1] = FDRIVE_350DD;
break;
case BX_FLOPPY_1_44:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0xf0) | 0x04);
BX_FD_THIS s.device_type[1] = FDRIVE_350HD;
break;
case BX_FLOPPY_2_88:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0xf0) | 0x05);
BX_FD_THIS s.device_type[1] = FDRIVE_350ED;
break;
// use CMOS reserved types
case BX_FLOPPY_160K:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0xf0) | 0x06);
BX_INFO(("WARNING: 2nd floppy uses of reserved CMOS floppy drive type 6"));
BX_FD_THIS s.device_type[1] = FDRIVE_525DD;
break;
case BX_FLOPPY_180K:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0xf0) | 0x07);
BX_INFO(("WARNING: 2nd floppy uses of reserved CMOS floppy drive type 7"));
BX_FD_THIS s.device_type[1] = FDRIVE_525DD;
break;
case BX_FLOPPY_320K:
DEV_cmos_set_reg(0x10, (DEV_cmos_get_reg(0x10) & 0xf0) | 0x08);
BX_INFO(("WARNING: 2nd floppy uses of reserved CMOS floppy drive type 8"));
BX_FD_THIS s.device_type[1] = FDRIVE_525DD;
break;
default:
BX_PANIC(("unknown floppyb type"));
}
if (BX_FD_THIS s.device_type[1] != FDRIVE_NONE) {
BX_FD_THIS s.num_supported_floppies++;
BX_FD_THIS s.statusbar_id[1] = bx_gui->register_statusitem(" B: ");
} else {
BX_FD_THIS s.statusbar_id[1] = -1;
}
if (SIM->get_param_enum(BXPN_FLOPPYB_TYPE)->get() != BX_FLOPPY_NONE) {
if (SIM->get_param_enum(BXPN_FLOPPYB_STATUS)->get() == BX_INSERTED) {
if (evaluate_media(BX_FD_THIS s.device_type[1], SIM->get_param_enum(BXPN_FLOPPYB_TYPE)->get(),
SIM->get_param_string(BXPN_FLOPPYB_PATH)->getptr(), & BX_FD_THIS s.media[1])) {
BX_FD_THIS s.media_present[1] = 1;
#define MED (BX_FD_THIS s.media[1])
BX_INFO(("fd1: '%s' ro=%d, h=%d,t=%d,spt=%d",
SIM->get_param_string(BXPN_FLOPPYB_PATH)->getptr(),
MED.write_protected, MED.heads, MED.tracks, MED.sectors_per_track));
#undef MED
} else {
SIM->get_param_enum(BXPN_FLOPPYB_STATUS)->set(BX_EJECTED);
}
}
}
/* CMOS Equipment Byte register */
if (BX_FD_THIS s.num_supported_floppies > 0) {
DEV_cmos_set_reg(0x14, (DEV_cmos_get_reg(0x14) & 0x3e) |
((BX_FD_THIS s.num_supported_floppies-1) << 6) | 1);
} else {
DEV_cmos_set_reg(0x14, (DEV_cmos_get_reg(0x14) & 0x3e));
}
if (BX_FD_THIS s.floppy_timer_index == BX_NULL_TIMER_HANDLE) {
BX_FD_THIS s.floppy_timer_index =
bx_pc_system.register_timer( this, timer_handler, 250, 0, 0, "floppy");
}
/* these registers are not cleared by reset */
BX_FD_THIS s.SRT = 0;
BX_FD_THIS s.HUT = 0;
BX_FD_THIS s.HLT = 0;
BX_FD_THIS s.non_dma = 0;
}
void bx_floppy_ctrl_c::reset(unsigned type)
{
Bit32u i;
BX_FD_THIS s.pending_irq = 0;
BX_FD_THIS s.reset_sensei = 0; /* no reset result present */
BX_FD_THIS s.main_status_reg = 0;
BX_FD_THIS s.status_reg0 = 0;
BX_FD_THIS s.status_reg1 = 0;
BX_FD_THIS s.status_reg2 = 0;
BX_FD_THIS s.status_reg3 = 0;
// software reset (via DOR port 0x3f2 bit 2) does not change DOR
if (type == BX_RESET_HARDWARE) {
BX_FD_THIS s.DOR = 0x0c;
// motor off, drive 3..0
// DMA/INT enabled
// normal operation
// drive select 0
// DIR and CCR affected only by hard reset
for (i=0; i<4; i++) {
BX_FD_THIS s.DIR[i] |= 0x80; // disk changed
}
BX_FD_THIS s.data_rate = 2; /* 250 Kbps */
BX_FD_THIS s.lock = 0;
} else {
BX_INFO(("controller reset in software"));
}
if (BX_FD_THIS s.lock == 0) {
BX_FD_THIS s.config = 0;
BX_FD_THIS s.pretrk = 0;
}
BX_FD_THIS s.perp_mode = 0;
for (i=0; i<4; i++) {
BX_FD_THIS s.cylinder[i] = 0;
BX_FD_THIS s.head[i] = 0;
BX_FD_THIS s.sector[i] = 0;
BX_FD_THIS s.eot[i] = 0;
}
DEV_pic_lower_irq(6);
DEV_dma_set_drq(FLOPPY_DMA_CHAN, 0);
enter_idle_phase();
}
#if BX_SUPPORT_SAVE_RESTORE
void bx_floppy_ctrl_c::register_state(void)
{
unsigned i;
char name[8];
bx_list_c *drive;
bx_list_c *list = new bx_list_c(SIM->get_sr_root(), "floppy", "Floppy State", 36);
new bx_shadow_num_c(list, "data_rate", &BX_FD_THIS s.data_rate);
bx_list_c *command = new bx_list_c(list, "command", 10);
for (i=0; i<10; i++) {
sprintf(name, "%d", i);
new bx_shadow_num_c(command, name, &BX_FD_THIS s.command[i], BASE_HEX);
}
new bx_shadow_num_c(list, "command_index", &BX_FD_THIS s.command_index);
new bx_shadow_num_c(list, "command_size", &BX_FD_THIS s.command_size);
new bx_shadow_bool_c(list, "command_complete", &BX_FD_THIS s.command_complete);
new bx_shadow_num_c(list, "pending_command", &BX_FD_THIS s.pending_command, BASE_HEX);
new bx_shadow_bool_c(list, "multi_track", &BX_FD_THIS s.multi_track);
new bx_shadow_bool_c(list, "pending_irq", &BX_FD_THIS s.pending_irq);
new bx_shadow_num_c(list, "reset_sensei", &BX_FD_THIS s.reset_sensei);
new bx_shadow_num_c(list, "format_count", &BX_FD_THIS s.format_count);
new bx_shadow_num_c(list, "format_fillbyte", &BX_FD_THIS s.format_fillbyte, BASE_HEX);
bx_list_c *result = new bx_list_c(list, "result", 10);
for (i=0; i<10; i++) {
sprintf(name, "%d", i);
new bx_shadow_num_c(result, name, &BX_FD_THIS s.result[i], BASE_HEX);
}
new bx_shadow_num_c(list, "result_index", &BX_FD_THIS s.result_index);
new bx_shadow_num_c(list, "result_size", &BX_FD_THIS s.result_size);
new bx_shadow_num_c(list, "DOR", &BX_FD_THIS s.DOR, BASE_HEX);
new bx_shadow_num_c(list, "TDR", &BX_FD_THIS s.TDR, BASE_HEX);
new bx_shadow_bool_c(list, "TC", &BX_FD_THIS s.TC);
new bx_shadow_num_c(list, "main_status_reg", &BX_FD_THIS s.main_status_reg, BASE_HEX);
new bx_shadow_num_c(list, "status_reg0", &BX_FD_THIS s.status_reg0, BASE_HEX);
new bx_shadow_num_c(list, "status_reg1", &BX_FD_THIS s.status_reg1, BASE_HEX);
new bx_shadow_num_c(list, "status_reg2", &BX_FD_THIS s.status_reg2, BASE_HEX);
new bx_shadow_num_c(list, "status_reg3", &BX_FD_THIS s.status_reg3, BASE_HEX);
new bx_shadow_num_c(list, "floppy_buffer_index", &BX_FD_THIS s.floppy_buffer_index);
new bx_shadow_bool_c(list, "non_dma", &BX_FD_THIS s.non_dma);
new bx_shadow_bool_c(list, "lock", &BX_FD_THIS s.lock);
new bx_shadow_num_c(list, "SRT", &BX_FD_THIS s.SRT, BASE_HEX);
new bx_shadow_num_c(list, "HUT", &BX_FD_THIS s.HUT, BASE_HEX);
new bx_shadow_num_c(list, "HLT", &BX_FD_THIS s.HLT, BASE_HEX);
new bx_shadow_num_c(list, "config", &BX_FD_THIS s.config, BASE_HEX);
new bx_shadow_num_c(list, "pretrk", &BX_FD_THIS s.pretrk);
new bx_shadow_num_c(list, "perp_mode", &BX_FD_THIS s.perp_mode);
new bx_shadow_data_c(list, "buffer", BX_FD_THIS s.floppy_buffer, 512);
for (i=0; i<4; i++) {
sprintf(name, "drive%d", i);
drive = new bx_list_c(list, name);
new bx_shadow_num_c(drive, "cylinder", &BX_FD_THIS s.cylinder[i]);
new bx_shadow_num_c(drive, "head", &BX_FD_THIS s.head[i]);
new bx_shadow_num_c(drive, "sector", &BX_FD_THIS s.sector[i]);
new bx_shadow_num_c(drive, "eot", &BX_FD_THIS s.eot[i]);
new bx_shadow_bool_c(drive, "media_present", &BX_FD_THIS s.media_present[i]);
new bx_shadow_num_c(drive, "DIR", &BX_FD_THIS s.DIR[i], BASE_HEX);
}
}
#endif
// static IO port read callback handler
// redirects to non-static class handler to avoid virtual functions
Bit32u bx_floppy_ctrl_c::read_handler(void *this_ptr, Bit32u address, unsigned io_len)
{
#if !BX_USE_FD_SMF
bx_floppy_ctrl_c *class_ptr = (bx_floppy_ctrl_c *) this_ptr;
return( class_ptr->read(address, io_len) );
}
/* reads from the floppy io ports */
Bit32u bx_floppy_ctrl_c::read(Bit32u address, unsigned io_len)
{
#else
UNUSED(this_ptr);
#endif // !BX_USE_FD_SMF
Bit8u value = 0, drive;
switch (address) {
#if BX_DMA_FLOPPY_IO
case 0x3F2: // diskette controller digital output register
value = BX_FD_THIS s.DOR;
break;
case 0x3F4: /* diskette controller main status register */
value = BX_FD_THIS s.main_status_reg;
break;
case 0x3F5: /* diskette controller data */
if (BX_FD_THIS s.result_size == 0) {
BX_ERROR(("port 0x3f5: no results to read"));
BX_FD_THIS s.main_status_reg = 0;
value = BX_FD_THIS s.result[0];
} else {
value = BX_FD_THIS s.result[BX_FD_THIS s.result_index++];
BX_FD_THIS s.main_status_reg &= 0xF0;
BX_FD_THIS lower_interrupt();
if (BX_FD_THIS s.result_index >= BX_FD_THIS s.result_size) {
enter_idle_phase();
}
}
break;
#endif // #if BX_DMA_FLOPPY_IO
case 0x3F3: // Tape Drive Register
drive = BX_FD_THIS s.DOR & 0x03;
if (BX_FD_THIS s.media_present[drive]) {
switch ( BX_FD_THIS s.media[drive].type) {
case BX_FLOPPY_160K:
case BX_FLOPPY_180K:
case BX_FLOPPY_320K:
case BX_FLOPPY_360K:
case BX_FLOPPY_1_2:
value = 0x00;
break;
case BX_FLOPPY_720K:
value = 0xc0;
break;
case BX_FLOPPY_1_44:
value = 0x80;
break;
case BX_FLOPPY_2_88:
value = 0x40;
break;
default: // BX_FLOPPY_NONE
value = 0x20;
break;
}
} else {
value = 0x20;
}
break;
case 0x3F6: // Reserved for future floppy controllers
// This address shared with the hard drive controller
value = DEV_hd_read_handler(bx_devices.pluginHardDrive, address, io_len);
break;
case 0x3F7: // diskette controller digital input register
// This address shared with the hard drive controller:
// Bit 7 : floppy
// Bits 6..0: hard drive
value = DEV_hd_read_handler(bx_devices.pluginHardDrive, address, io_len);
value &= 0x7f;
// add in diskette change line if motor is on
drive = BX_FD_THIS s.DOR & 0x03;
if (BX_FD_THIS s.DOR & (1<<(drive+4))) {
value |= (BX_FD_THIS s.DIR[drive] & 0x80);
}
break;
default:
BX_ERROR(("io_read: unsupported address 0x%04x", (unsigned) address));
return(0);
break;
}
BX_DEBUG(("read access to port %04x returns 0x%02x", address, value));
return (value);
}
// static IO port write callback handler
// redirects to non-static class handler to avoid virtual functions
void bx_floppy_ctrl_c::write_handler(void *this_ptr, Bit32u address, Bit32u value, unsigned io_len)
{
#if !BX_USE_FD_SMF
bx_floppy_ctrl_c *class_ptr = (bx_floppy_ctrl_c *) this_ptr;
class_ptr->write(address, value, io_len);
}
/* writes to the floppy io ports */
void bx_floppy_ctrl_c::write(Bit32u address, Bit32u value, unsigned io_len)
{
#else
UNUSED(this_ptr);
#endif // !BX_USE_FD_SMF
Bit8u dma_and_interrupt_enable;
Bit8u normal_operation, prev_normal_operation;
Bit8u drive_select;
Bit8u motor_on_drive0, motor_on_drive1;
BX_DEBUG(("write access to port %04x, value=%02x", address, value));
switch (address) {
#if BX_DMA_FLOPPY_IO
case 0x3F2: /* diskette controller digital output register */
motor_on_drive0 = value & 0x10;
motor_on_drive1 = value & 0x20;
/* set status bar conditions for Floppy 0 and Floppy 1 */
if (BX_FD_THIS s.statusbar_id[0] >= 0) {
if (motor_on_drive0 != (BX_FD_THIS s.DOR & 0x10))
bx_gui->statusbar_setitem(BX_FD_THIS s.statusbar_id[0], motor_on_drive0);
}
if (BX_FD_THIS s.statusbar_id[1] >= 0) {
if (motor_on_drive1 != (BX_FD_THIS s.DOR & 0x20))
bx_gui->statusbar_setitem(BX_FD_THIS s.statusbar_id[1], motor_on_drive1);
}
dma_and_interrupt_enable = value & 0x08;
if (!dma_and_interrupt_enable)
BX_DEBUG(("DMA and interrupt capabilities disabled"));
normal_operation = value & 0x04;
drive_select = value & 0x03;
prev_normal_operation = BX_FD_THIS s.DOR & 0x04;
BX_FD_THIS s.DOR = value;
if (prev_normal_operation==0 && normal_operation) {
// transition from RESET to NORMAL
bx_pc_system.activate_timer(BX_FD_THIS s.floppy_timer_index, 250, 0);
} else if (prev_normal_operation && normal_operation==0) {
// transition from NORMAL to RESET
BX_FD_THIS s.main_status_reg = 0;
BX_FD_THIS s.pending_command = 0xfe; // RESET pending
}
BX_DEBUG(("io_write: digital output register"));
BX_DEBUG((" motor on, drive1 = %d", motor_on_drive1 > 0));
BX_DEBUG((" motor on, drive0 = %d", motor_on_drive0 > 0));
BX_DEBUG((" dma_and_interrupt_enable=%02x",
(unsigned) dma_and_interrupt_enable));
BX_DEBUG((" normal_operation=%02x",
(unsigned) normal_operation));
BX_DEBUG((" drive_select=%02x",
(unsigned) drive_select));
if (BX_FD_THIS s.device_type[drive_select] == FDRIVE_NONE) {
BX_DEBUG(("WARNING: not existing drive selected"));
}
break;
case 0x3f4: /* diskette controller data rate select register */
BX_FD_THIS s.data_rate = value & 0x03;
if (value & 0x80) {
BX_FD_THIS s.main_status_reg = 0;
BX_FD_THIS s.pending_command = 0xfe; // RESET pending
bx_pc_system.activate_timer(BX_FD_THIS s.floppy_timer_index, 250, 0);
}
if ((value & 0x7c) > 0) {
BX_ERROR(("write to data rate select register: unsupported bits set"));
}
break;
case 0x3F5: /* diskette controller data */
BX_DEBUG(("command = %02x", (unsigned) value));
if (BX_FD_THIS s.command_complete) {
if (BX_FD_THIS s.pending_command != 0)
BX_PANIC(("write 0x03f5: receiving new command 0x%02x, old one (0x%02x) pending",
value, BX_FD_THIS s.pending_command));
BX_FD_THIS s.command[0] = value;
BX_FD_THIS s.command_complete = 0;
BX_FD_THIS s.command_index = 1;
/* read/write command in progress */
BX_FD_THIS s.main_status_reg &= 0x0f; // leave drive status untouched
BX_FD_THIS s.main_status_reg |= FD_MS_MRQ | FD_MS_BUSY;
switch (value) {
case 0x03: /* specify */
BX_FD_THIS s.command_size = 3;
break;
case 0x04: // get status
BX_FD_THIS s.command_size = 2;
break;
case 0x07: /* recalibrate */
BX_FD_THIS s.command_size = 2;
break;
case 0x08: /* sense interrupt status */
BX_FD_THIS s.command_size = 1;
break;
case 0x0f: /* seek */
BX_FD_THIS s.command_size = 3;
break;
case 0x4a: /* read ID */
BX_FD_THIS s.command_size = 2;
break;
case 0x4d: /* format track */
BX_FD_THIS s.command_size = 6;
break;
case 0x45:
case 0xc5: /* write normal data */
BX_FD_THIS s.command_size = 9;
break;
case 0x46:
case 0x66:
case 0xc6:
case 0xe6: /* read normal data */
BX_FD_THIS s.command_size = 9;
break;
case 0x0e: // dump registers (Enhanced drives)
case 0x10: // Version command, enhanced controller returns 0x90
case 0x14: // Unlock command (Enhanced)
case 0x94: // Lock command (Enhanced)
BX_FD_THIS s.command_size = 0;
BX_FD_THIS s.pending_command = value;
enter_result_phase();
break;
case 0x12: // Perpendicular mode (Enhanced)
BX_FD_THIS s.command_size = 2;
break;
case 0x13: // Configure command (Enhanced)
BX_FD_THIS s.command_size = 4;
break;
case 0x18: // National Semiconductor version command; return 80h
// These commands are not implemented on the standard
// controller and return an error. They are available on
// the enhanced controller.
BX_DEBUG(("io_write: 0x3f5: unsupported floppy command 0x%02x",
(unsigned) value));
BX_FD_THIS s.command_size = 0; // make sure we don't try to process this command
BX_FD_THIS s.status_reg0 = 0x80; // status: invalid command
enter_result_phase();
break;
default:
BX_ERROR(("io_write: 0x3f5: invalid floppy command 0x%02x",
(unsigned) value));
BX_FD_THIS s.command_size = 0; // make sure we don't try to process this command
BX_FD_THIS s.status_reg0 = 0x80; // status: invalid command
enter_result_phase();
break;
}
} else {
BX_FD_THIS s.command[BX_FD_THIS s.command_index++] =
value;
}
if (BX_FD_THIS s.command_index ==
BX_FD_THIS s.command_size) {
/* read/write command not in progress any more */
floppy_command();
BX_FD_THIS s.command_complete = 1;
}
BX_DEBUG(("io_write: diskette controller data"));
return;
break;
#endif // #if BX_DMA_FLOPPY_IO
case 0x3F6: /* diskette controller (reserved) */
BX_DEBUG(("io_write: reserved register 0x3f6 unsupported"));
// this address shared with the hard drive controller
DEV_hd_write_handler(bx_devices.pluginHardDrive, address, value, io_len);
break;
#if BX_DMA_FLOPPY_IO
case 0x3F7: /* diskette controller configuration control register */
if ((value & 0x03) != BX_FD_THIS s.data_rate)
BX_INFO(("io_write: config control register: 0x%02x", value));
BX_FD_THIS s.data_rate = value & 0x03;
switch (BX_FD_THIS s.data_rate) {
case 0: BX_DEBUG((" 500 Kbps")); break;
case 1: BX_DEBUG((" 300 Kbps")); break;
case 2: BX_DEBUG((" 250 Kbps")); break;
case 3: BX_DEBUG((" 1 Mbps")); break;
}
break;
default:
BX_ERROR(("io_write ignored: 0x%04x = 0x%02x", (unsigned) address, (unsigned) value));
break;
#endif // #if BX_DMA_FLOPPY_IO
}
}
void bx_floppy_ctrl_c::floppy_command(void)
{
#if BX_PROVIDE_CPU_MEMORY==0
BX_PANIC(("floppy_command(): uses DMA: not supported for"
" external environment"));
#else
unsigned i;
Bit8u motor_on;
Bit8u head, drive, cylinder, sector, eot;
Bit8u sector_size, data_length;
Bit32u logical_sector, sector_time, step_delay;
// Print command
char buf[9+(9*5)+1], *p = buf;
p += sprintf(p, "COMMAND: ");
for (i=0; i<BX_FD_THIS s.command_size; i++) {
p += sprintf(p, "[%02x] ", (unsigned) BX_FD_THIS s.command[i]);
}
BX_DEBUG((buf));
BX_FD_THIS s.pending_command = BX_FD_THIS s.command[0];
switch (BX_FD_THIS s.pending_command) {
case 0x03: // specify
// execution: specified parameters are loaded
// result: no result bytes, no interrupt
BX_FD_THIS s.SRT = BX_FD_THIS s.command[1] >> 4;
BX_FD_THIS s.HUT = BX_FD_THIS s.command[1] & 0x0f;
BX_FD_THIS s.HLT = BX_FD_THIS s.command[2] >> 1;
BX_FD_THIS s.non_dma = BX_FD_THIS s.command[2] & 0x01;
if (BX_FD_THIS s.non_dma)
BX_ERROR(("non DMA mode not implemented yet"));
enter_idle_phase();
return;
case 0x04: // get status
drive = (BX_FD_THIS s.command[1] & 0x03);
BX_FD_THIS s.head[drive] = (BX_FD_THIS s.command[1] >> 2) & 0x01;
BX_FD_THIS s.status_reg3 = 0x28 | (BX_FD_THIS s.head[drive]<<2) | drive
| (BX_FD_THIS s.media[drive].write_protected ? 0x40 : 0x00);
if (BX_FD_THIS s.cylinder[drive] == 0) BX_FD_THIS s.status_reg3 |= 0x10;
enter_result_phase();
return;
case 0x07: // recalibrate
drive = (BX_FD_THIS s.command[1] & 0x03);
BX_FD_THIS s.DOR &= 0xfc;
BX_FD_THIS s.DOR |= drive;
BX_DEBUG(("floppy_command(): recalibrate drive %u",
(unsigned) drive));
step_delay = calculate_step_delay(drive, 0);
bx_pc_system.activate_timer(BX_FD_THIS s.floppy_timer_index, step_delay, 0);
/* command head to track 0
* controller set to non-busy
* error condition noted in Status reg 0's equipment check bit
* seek end bit set to 1 in Status reg 0 regardless of outcome
* The last two are taken care of in timer().
*/
BX_FD_THIS s.cylinder[drive] = 0;
BX_FD_THIS s.main_status_reg = (1 << drive);
return;
case 0x08: /* sense interrupt status */
/* execution:
* get status
* result:
* no interupt
* byte0 = status reg0
* byte1 = current cylinder number (0 to 79)
*/
if (BX_FD_THIS s.reset_sensei > 0) {
drive = 4 - BX_FD_THIS s.reset_sensei;
BX_FD_THIS s.status_reg0 &= 0xf8;
BX_FD_THIS s.status_reg0 |= (BX_FD_THIS s.head[drive] << 2) | drive;
BX_FD_THIS s.reset_sensei--;
} else if (!BX_FD_THIS s.pending_irq) {
BX_FD_THIS s.status_reg0 = 0x80;
}
BX_DEBUG(("sense interrupt status"));
enter_result_phase();
return;
case 0x0f: /* seek */
/* command:
* byte0 = 0F
* byte1 = drive & head select
* byte2 = cylinder number
* execution:
* postion head over specified cylinder
* result:
* no result bytes, issues an interrupt
*/
drive = BX_FD_THIS s.command[1] & 0x03;
BX_FD_THIS s.DOR &= 0xfc;
BX_FD_THIS s.DOR |= drive;
BX_FD_THIS s.head[drive] = (BX_FD_THIS s.command[1] >> 2) & 0x01;
step_delay = calculate_step_delay(drive, BX_FD_THIS s.command[2]);
bx_pc_system.activate_timer(BX_FD_THIS s.floppy_timer_index, step_delay, 0);
/* ??? should also check cylinder validity */
BX_FD_THIS s.cylinder[drive] = BX_FD_THIS s.command[2];
/* data reg not ready, drive busy */
BX_FD_THIS s.main_status_reg = (1 << drive);
return;
case 0x13: // Configure
BX_DEBUG(("configure (eis = 0x%02x)", BX_FD_THIS s.command[2] & 0x40 ));
BX_DEBUG(("configure (efifo = 0x%02x)", BX_FD_THIS s.command[2] & 0x20 ));
BX_DEBUG(("configure (no poll = 0x%02x)", BX_FD_THIS s.command[2] & 0x10 ));
BX_DEBUG(("configure (fifothr = 0x%02x)", BX_FD_THIS s.command[2] & 0x0f ));
BX_DEBUG(("configure (pretrk = 0x%02x)", BX_FD_THIS s.command[3] ));
BX_FD_THIS s.config = BX_FD_THIS s.command[2];
BX_FD_THIS s.pretrk = BX_FD_THIS s.command[3];
enter_idle_phase();
return;
case 0x4a: // read ID
drive = BX_FD_THIS s.command[1] & 0x03;
BX_FD_THIS s.head[drive] = (BX_FD_THIS s.command[1] >> 2) & 0x01;
BX_FD_THIS s.DOR &= 0xfc;
BX_FD_THIS s.DOR |= drive;
motor_on = (BX_FD_THIS s.DOR>>(drive+4)) & 0x01;
if (motor_on == 0) {
BX_ERROR(("floppy_command(): read ID: motor not on"));
BX_FD_THIS s.main_status_reg = FD_MS_BUSY;
return; // Hang controller
}
if (BX_FD_THIS s.device_type[drive] == FDRIVE_NONE) {
BX_ERROR(("floppy_command(): read ID: bad drive #%d", drive));
BX_FD_THIS s.main_status_reg = FD_MS_BUSY;
return; // Hang controller
}
if (BX_FD_THIS s.media_present[drive] == 0) {
BX_INFO(("attempt to read sector ID with media not present"));
BX_FD_THIS s.main_status_reg = FD_MS_BUSY;
return; // Hang controller
}
BX_FD_THIS s.status_reg0 = (BX_FD_THIS s.head[drive]<<2) | drive;
// time to read one sector at 300 rpm
sector_time = 200000 / BX_FD_THIS s.media[drive].sectors_per_track;
bx_pc_system.activate_timer(BX_FD_THIS s.floppy_timer_index, sector_time, 0);
/* data reg not ready, controller busy */
BX_FD_THIS s.main_status_reg = FD_MS_BUSY;
return;
case 0x4d: // format track
drive = BX_FD_THIS s.command[1] & 0x03;
BX_FD_THIS s.DOR &= 0xfc;
BX_FD_THIS s.DOR |= drive;
motor_on = (BX_FD_THIS s.DOR>>(drive+4)) & 0x01;
if (motor_on == 0)
BX_PANIC(("floppy_command(): format track: motor not on"));
BX_FD_THIS s.head[drive] = (BX_FD_THIS s.command[1] >> 2) & 0x01;
sector_size = BX_FD_THIS s.command[2];
BX_FD_THIS s.format_count = BX_FD_THIS s.command[3];
BX_FD_THIS s.format_fillbyte = BX_FD_THIS s.command[5];
if (BX_FD_THIS s.device_type[drive] == FDRIVE_NONE)
BX_PANIC(("floppy_command(): format track: bad drive #%d", drive));
if (sector_size != 0x02) { // 512 bytes
BX_PANIC(("format track: sector size %d not supported", 128<<sector_size));
}
if (BX_FD_THIS s.format_count != BX_FD_THIS s.media[drive].sectors_per_track) {
BX_PANIC(("format track: %d sectors/track requested (%d expected)",
BX_FD_THIS s.format_count, BX_FD_THIS s.media[drive].sectors_per_track));
}
if (BX_FD_THIS s.media_present[drive] == 0) {
BX_INFO(("attempt to format track with media not present"));
return; // Hang controller
}
if (BX_FD_THIS s.media[drive].write_protected) {
// media write-protected, return error
BX_INFO(("attempt to format track with media write-protected"));
BX_FD_THIS s.status_reg0 = 0x40 | (BX_FD_THIS s.head[drive]<<2) | drive; // abnormal termination
BX_FD_THIS s.status_reg1 = 0x27; // 0010 0111
BX_FD_THIS s.status_reg2 = 0x31; // 0011 0001
enter_result_phase();
return;
}
/* 4 header bytes per sector are required */
BX_FD_THIS s.format_count <<= 2;
DEV_dma_set_drq(FLOPPY_DMA_CHAN, 1);
/* data reg not ready, controller busy */
BX_FD_THIS s.main_status_reg = FD_MS_BUSY;
BX_DEBUG(("format track"));
return;
case 0x46: // read normal data, MT=0, SK=0
case 0x66: // read normal data, MT=0, SK=1
case 0xc6: // read normal data, MT=1, SK=0
case 0xe6: // read normal data, MT=1, SK=1
case 0x45: // write normal data, MT=0
case 0xc5: // write normal data, MT=1
BX_FD_THIS s.multi_track = (BX_FD_THIS s.command[0] >> 7);
if ( (BX_FD_THIS s.DOR & 0x08) == 0 )
BX_PANIC(("read/write command with DMA and int disabled"));
drive = BX_FD_THIS s.command[1] & 0x03;
BX_FD_THIS s.DOR &= 0xfc;
BX_FD_THIS s.DOR |= drive;
motor_on = (BX_FD_THIS s.DOR>>(drive+4)) & 0x01;
if (motor_on == 0)
BX_PANIC(("floppy_command(): read/write: motor not on"));
head = BX_FD_THIS s.command[3] & 0x01;
cylinder = BX_FD_THIS s.command[2]; /* 0..79 depending */
sector = BX_FD_THIS s.command[4]; /* 1..36 depending */
eot = BX_FD_THIS s.command[6]; /* 1..36 depending */
sector_size = BX_FD_THIS s.command[5];
data_length = BX_FD_THIS s.command[8];
BX_DEBUG(("read/write normal data"));
BX_DEBUG(("BEFORE"));
BX_DEBUG((" drive = %u", (unsigned) drive));
BX_DEBUG((" head = %u", (unsigned) head));
BX_DEBUG((" cylinder = %u", (unsigned) cylinder));
BX_DEBUG((" sector = %u", (unsigned) sector));
BX_DEBUG((" eot = %u", (unsigned) eot));
if (BX_FD_THIS s.device_type[drive] == FDRIVE_NONE)
BX_PANIC(("floppy_command(): read/write: bad drive #%d", drive));
// check that head number in command[1] bit two matches the head
// reported in the head number field. Real floppy drives are
// picky about this, as reported in SF bug #439945, (Floppy drive
// read input error checking).
if (head != ((BX_FD_THIS s.command[1]>>2)&1)) {
BX_ERROR(("head number in command[1] doesn't match head field"));
BX_FD_THIS s.status_reg0 = 0x40 | (BX_FD_THIS s.head[drive]<<2) | drive; // abnormal termination
BX_FD_THIS s.status_reg1 = 0x04; // 0000 0100
BX_FD_THIS s.status_reg2 = 0x00; // 0000 0000
enter_result_phase();
return;
}
if ( BX_FD_THIS s.media_present[drive] == 0 ) {
BX_INFO(("attempt to read/write sector %u with media not present", (unsigned) sector));
return; // Hang controller
}
if (sector_size != 0x02) { // 512 bytes
BX_PANIC(("read/write command: sector size %d not supported", 128<<sector_size));
}
if ( cylinder >= BX_FD_THIS s.media[drive].tracks ) {
BX_PANIC(("io: norm r/w parms out of range: sec#%02xh cyl#%02xh eot#%02xh head#%02xh",
(unsigned) sector, (unsigned) cylinder, (unsigned) eot,
(unsigned) head));
return;
}
if (sector > BX_FD_THIS s.media[drive].sectors_per_track) {
BX_INFO(("attempt to read/write sector %u past last sector %u",
(unsigned) sector,
(unsigned) BX_FD_THIS s.media[drive].sectors_per_track));
BX_FD_THIS s.cylinder[drive] = cylinder;
BX_FD_THIS s.head[drive] = head;
BX_FD_THIS s.sector[drive] = sector;
BX_FD_THIS s.status_reg0 = 0x40 | (BX_FD_THIS s.head[drive]<<2) | drive;
BX_FD_THIS s.status_reg1 = 0x04;
BX_FD_THIS s.status_reg2 = 0x00;
enter_result_phase();
return;
}
if (cylinder != BX_FD_THIS s.cylinder[drive]) {
BX_DEBUG(("io: cylinder request != current cylinder"));
reset_changeline();
}
logical_sector = (cylinder * BX_FD_THIS s.media[drive].heads * BX_FD_THIS s.media[drive].sectors_per_track) +
(head * BX_FD_THIS s.media[drive].sectors_per_track) +
(sector - 1);
if (logical_sector >= BX_FD_THIS s.media[drive].sectors) {
BX_PANIC(("io: logical sector out of bounds"));
}
// This hack makes older versions of the Bochs BIOS work
if (eot == 0) {
eot = BX_FD_THIS s.media[drive].sectors_per_track;
}
BX_FD_THIS s.cylinder[drive] = cylinder;
BX_FD_THIS s.head[drive] = head;
BX_FD_THIS s.sector[drive] = sector;
BX_FD_THIS s.eot[drive] = eot;
if ((BX_FD_THIS s.command[0] & 0x4f) == 0x46) { // read
floppy_xfer(drive, logical_sector*512, BX_FD_THIS s.floppy_buffer,
512, FROM_FLOPPY);
/* data reg not ready, controller busy */
BX_FD_THIS s.main_status_reg = FD_MS_BUSY;
// time to read one sector at 300 rpm
sector_time = 200000 / BX_FD_THIS s.media[drive].sectors_per_track;
bx_pc_system.activate_timer(BX_FD_THIS s.floppy_timer_index,
sector_time , 0);
} else if ((BX_FD_THIS s.command[0] & 0x7f) == 0x45) { // write
/* data reg not ready, controller busy */
BX_FD_THIS s.main_status_reg = FD_MS_BUSY;
DEV_dma_set_drq(FLOPPY_DMA_CHAN, 1);
} else {
BX_PANIC(("floppy_command(): unknown read/write command"));
return;
}
break;
case 0x12: // Perpendicular mode
BX_FD_THIS s.perp_mode = BX_FD_THIS s.command[1];
BX_INFO(("perpendicular mode: config=0x%02x", BX_FD_THIS s.perp_mode));
enter_idle_phase();
break;
default: // invalid or unsupported command; these are captured in write() above
BX_PANIC(("You should never get here! cmd = 0x%02x",
BX_FD_THIS s.command[0]));
}
#endif
}
void bx_floppy_ctrl_c::floppy_xfer(Bit8u drive, Bit32u offset, Bit8u *buffer,
Bit32u bytes, Bit8u direction)
{
int ret = 0;
if (BX_FD_THIS s.device_type[drive] == FDRIVE_NONE)
BX_PANIC(("floppy_xfer: bad drive #%d", drive));
if (bx_dbg.floppy) {
BX_INFO(("drive=%u", (unsigned) drive));
BX_INFO(("offset=%u", (unsigned) offset));
BX_INFO(("bytes=%u", (unsigned) bytes));
BX_INFO(("direction=%s", (direction==FROM_FLOPPY)? "from" : "to"));
}
#if BX_WITH_MACOS
if (strcmp(SIM->get_param_string(BXPN_FLOPPYA_PATH)->getptr(), SuperDrive))
#endif
{
// don't need to seek the file if we are using Win95 type direct access
if (!BX_FD_THIS s.media[drive].raw_floppy_win95) {
ret = (int)lseek(BX_FD_THIS s.media[drive].fd, offset, SEEK_SET);
if (ret < 0) {
BX_PANIC(("could not perform lseek() to %d on floppy image file", offset));
return;
}
}
}
if (direction == FROM_FLOPPY) {
#if BX_WITH_MACOS
if (!strcmp(SIM->get_param_string(BXPN_FLOPPYA_PATH)->getptr(), SuperDrive))
ret = fd_read((char *) buffer, offset, bytes);
else
#endif
#ifdef WIN32
// if using Win95 direct access
if (BX_FD_THIS s.media[drive].raw_floppy_win95) {
DWORD ret_cnt = 0;
DIOC_REGISTERS reg;
HANDLE hFile = CreateFile("\\\\.\\vwin32", 0, 0, NULL, 0, FILE_FLAG_DELETE_ON_CLOSE, NULL);
if (hFile == INVALID_HANDLE_VALUE)
BX_PANIC(("Could not open floppy device under Win95 for read"));
reg.reg_ECX = bytes >> 9; // / 512
reg.reg_EDX = offset >> 9; // / 512
reg.reg_EBX = (DWORD) buffer;
reg.reg_EAX = BX_FD_THIS s.media[drive].raw_floppy_win95_drv;
DeviceIoControl(hFile, VWIN32_DIOC_DOS_INT25,
®, sizeof(reg), ®, sizeof(reg), &ret_cnt, NULL);
CloseHandle(hFile);
// I don't know why this returns 28 instead of 512, but it works
if (ret_cnt == 28)
ret = 512;
} else {
#endif
ret = ::read(BX_FD_THIS s.media[drive].fd, (bx_ptr_t) buffer, bytes);
#ifdef WIN32
}
#endif
if (ret < int(bytes)) {
/* ??? */
if (ret > 0) {
BX_INFO(("partial read() on floppy image returns %u/%u",
(unsigned) ret, (unsigned) bytes));
memset(buffer + ret, 0, bytes - ret);
}
else {
BX_INFO(("read() on floppy image returns 0"));
memset(buffer, 0, bytes);
}
}
}
else { // TO_FLOPPY
BX_ASSERT (!BX_FD_THIS s.media[drive].write_protected);
#if BX_WITH_MACOS
if (!strcmp(SIM->get_param_string(BXPN_FLOPPYA_PATH)->getptr(), SuperDrive))
ret = fd_write((char *) buffer, offset, bytes);
else
#endif
#ifdef WIN32
// if using Win95 direct access
if (BX_FD_THIS s.media[drive].raw_floppy_win95) {
DWORD ret_cnt = 0;
DIOC_REGISTERS reg;
HANDLE hFile = CreateFile("\\\\.\\vwin32", 0, 0, NULL, 0, FILE_FLAG_DELETE_ON_CLOSE, NULL);
if (hFile == INVALID_HANDLE_VALUE)
BX_PANIC(("Could not open floppy device under Win95"));
reg.reg_ECX = bytes >> 9; // / 512
reg.reg_EDX = offset >> 9; // / 512
reg.reg_EBX = (DWORD) buffer;
reg.reg_EAX = BX_FD_THIS s.media[drive].raw_floppy_win95_drv;
DeviceIoControl(hFile, VWIN32_DIOC_DOS_INT26,
®, sizeof(reg), ®, sizeof(reg), (LPDWORD) &ret_cnt, NULL);
CloseHandle(hFile);
// I don't know why this returns 28 instead of 512, but it works
if (ret_cnt == 28)
ret = 512;
} else {
#endif
ret = ::write(BX_FD_THIS s.media[drive].fd, (bx_ptr_t) buffer, bytes);
#ifdef WIN32
}
#endif
if (ret < int(bytes)) {
BX_PANIC(("could not perform write() on floppy image file"));
}
}
}
void bx_floppy_ctrl_c::timer_handler(void *this_ptr)
{
bx_floppy_ctrl_c *class_ptr = (bx_floppy_ctrl_c *) this_ptr;
class_ptr->timer();
}
void bx_floppy_ctrl_c::timer()
{
Bit8u drive, motor_on;
drive = BX_FD_THIS s.DOR & 0x03;
switch (BX_FD_THIS s.pending_command) {
case 0x07: // recal
BX_FD_THIS s.status_reg0 = 0x20 | drive;
motor_on = ((BX_FD_THIS s.DOR>>(drive+4)) & 0x01);
if ((BX_FD_THIS s.device_type[drive] == FDRIVE_NONE) || (motor_on == 0)) {
BX_FD_THIS s.status_reg0 |= 0x50;
}
enter_idle_phase();
BX_FD_THIS raise_interrupt();
break;
case 0x0f: // seek
BX_FD_THIS s.status_reg0 = 0x20 | (BX_FD_THIS s.head[drive]<<2) | drive;
enter_idle_phase();
BX_FD_THIS raise_interrupt();
break;
case 0x4a: /* read ID */
enter_result_phase();
break;
case 0x45: /* write normal data */
case 0xc5:
if (BX_FD_THIS s.TC) { // Terminal Count line, done
BX_FD_THIS s.status_reg0 = (BX_FD_THIS s.head[drive] << 2) | drive;
BX_FD_THIS s.status_reg1 = 0;
BX_FD_THIS s.status_reg2 = 0;
if (bx_dbg.floppy) {
BX_INFO(("<<WRITE DONE>>"));
BX_INFO(("AFTER"));
BX_INFO((" drive = %u", (unsigned) drive));
BX_INFO((" head = %u", (unsigned) BX_FD_THIS s.head[drive]));
BX_INFO((" cylinder = %u", (unsigned) BX_FD_THIS s.cylinder[drive]));
BX_INFO((" sector = %u", (unsigned) BX_FD_THIS s.sector[drive]));
}
enter_result_phase();
} else {
// transfer next sector
DEV_dma_set_drq(FLOPPY_DMA_CHAN, 1);
}
break;
case 0x46: /* read normal data */
case 0x66:
case 0xc6:
case 0xe6:
// transfer next sector
DEV_dma_set_drq(FLOPPY_DMA_CHAN, 1);
break;
case 0x4d: /* format track */
if ((BX_FD_THIS s.format_count == 0) || BX_FD_THIS s.TC) {
BX_FD_THIS s.format_count = 0;
BX_FD_THIS s.status_reg0 = (BX_FD_THIS s.head[drive] << 2) | drive;
enter_result_phase();
} else {
// transfer next sector
DEV_dma_set_drq(FLOPPY_DMA_CHAN, 1);
}
break;
case 0xfe: // (contrived) RESET
theFloppyController->reset(BX_RESET_SOFTWARE);
BX_FD_THIS s.pending_command = 0;
BX_FD_THIS s.status_reg0 = 0xc0;
BX_FD_THIS raise_interrupt();
BX_FD_THIS s.reset_sensei = 4;
break;
case 0x00: // nothing pending?
break;
default:
BX_PANIC(("floppy:timer(): unknown case %02x",
(unsigned) BX_FD_THIS s.pending_command));
}
}
void bx_floppy_ctrl_c::dma_write(Bit8u *data_byte)
{
// A DMA write is from I/O to Memory
// We need to return then next data byte from the floppy buffer
// to be transfered via the DMA to memory. (read block from floppy)
*data_byte = BX_FD_THIS s.floppy_buffer[BX_FD_THIS s.floppy_buffer_index++];
BX_FD_THIS s.TC = DEV_dma_get_tc();
if ((BX_FD_THIS s.floppy_buffer_index >= 512) || (BX_FD_THIS s.TC)) {
Bit8u drive;
drive = BX_FD_THIS s.DOR & 0x03;
if (BX_FD_THIS s.floppy_buffer_index >= 512) {
increment_sector(); // increment to next sector before retrieving next one
BX_FD_THIS s.floppy_buffer_index = 0;
}
if (BX_FD_THIS s.TC) { // Terminal Count line, done
BX_FD_THIS s.status_reg0 = (BX_FD_THIS s.head[drive] << 2) | drive;
BX_FD_THIS s.status_reg1 = 0;
BX_FD_THIS s.status_reg2 = 0;
if (bx_dbg.floppy) {
BX_INFO(("<<READ DONE>>"));
BX_INFO(("AFTER"));
BX_INFO((" drive = %u", (unsigned) drive));
BX_INFO((" head = %u", (unsigned) BX_FD_THIS s.head[drive]));
BX_INFO((" cylinder = %u", (unsigned) BX_FD_THIS s.cylinder[drive]));
BX_INFO((" sector = %u", (unsigned) BX_FD_THIS s.sector[drive]));
}
DEV_dma_set_drq(FLOPPY_DMA_CHAN, 0);
enter_result_phase();
} else { // more data to transfer
Bit32u logical_sector, sector_time;
// original assumed all floppies had two sides...now it does not *delete this comment line*
logical_sector = (BX_FD_THIS s.cylinder[drive] * BX_FD_THIS s.media[drive].heads *
BX_FD_THIS s.media[drive].sectors_per_track) +
(BX_FD_THIS s.head[drive] *
BX_FD_THIS s.media[drive].sectors_per_track) +
(BX_FD_THIS s.sector[drive] - 1);
floppy_xfer(drive, logical_sector*512, BX_FD_THIS s.floppy_buffer,
512, FROM_FLOPPY);
DEV_dma_set_drq(FLOPPY_DMA_CHAN, 0);
// time to read one sector at 300 rpm
sector_time = 200000 / BX_FD_THIS s.media[drive].sectors_per_track;
bx_pc_system.activate_timer(BX_FD_THIS s.floppy_timer_index,
sector_time , 0);
}
}
}
void bx_floppy_ctrl_c::dma_read(Bit8u *data_byte)
{
// A DMA read is from Memory to I/O
// We need to write the data_byte which was already transfered from memory
// via DMA to I/O (write block to floppy)
Bit8u drive;
Bit32u logical_sector, sector_time;
BX_FD_THIS s.TC = DEV_dma_get_tc();
drive = BX_FD_THIS s.DOR & 0x03;
if (BX_FD_THIS s.pending_command == 0x4d) { // format track in progress
BX_FD_THIS s.format_count--;
switch (3 - (BX_FD_THIS s.format_count & 0x03)) {
case 0:
BX_FD_THIS s.cylinder[drive] = *data_byte;
break;
case 1:
if (*data_byte != BX_FD_THIS s.head[drive])
BX_ERROR(("head number does not match head field"));
break;
case 2:
BX_FD_THIS s.sector[drive] = *data_byte;
break;
case 3:
if (*data_byte != 2) BX_ERROR(("dma_read: sector size %d not supported", 128<<(*data_byte)));
BX_DEBUG(("formatting cylinder %u head %u sector %u",
BX_FD_THIS s.cylinder[drive], BX_FD_THIS s.head[drive],
BX_FD_THIS s.sector[drive]));
for (unsigned i = 0; i < 512; i++) {
BX_FD_THIS s.floppy_buffer[i] = BX_FD_THIS s.format_fillbyte;
}
logical_sector = (BX_FD_THIS s.cylinder[drive] * BX_FD_THIS s.media[drive].heads * BX_FD_THIS s.media[drive].sectors_per_track) +
(BX_FD_THIS s.head[drive] * BX_FD_THIS s.media[drive].sectors_per_track) +
(BX_FD_THIS s.sector[drive] - 1);
floppy_xfer(drive, logical_sector*512, BX_FD_THIS s.floppy_buffer,
512, TO_FLOPPY);
DEV_dma_set_drq(FLOPPY_DMA_CHAN, 0);
// time to write one sector at 300 rpm
sector_time = 200000 / BX_FD_THIS s.media[drive].sectors_per_track;
bx_pc_system.activate_timer(BX_FD_THIS s.floppy_timer_index,
sector_time , 0);
break;
}
} else { // write normal data
BX_FD_THIS s.floppy_buffer[BX_FD_THIS s.floppy_buffer_index++] = *data_byte;
if ((BX_FD_THIS s.floppy_buffer_index >= 512) || (BX_FD_THIS s.TC)) {
logical_sector = (BX_FD_THIS s.cylinder[drive] * BX_FD_THIS s.media[drive].heads * BX_FD_THIS s.media[drive].sectors_per_track) +
(BX_FD_THIS s.head[drive] * BX_FD_THIS s.media[drive].sectors_per_track) +
(BX_FD_THIS s.sector[drive] - 1);
if (BX_FD_THIS s.media[drive].write_protected) {
// write protected error
BX_INFO(("tried to write disk %u, which is write-protected", drive));
// ST0: IC1,0=01 (abnormal termination: started execution but failed)
BX_FD_THIS s.status_reg0 = 0x40 | (BX_FD_THIS s.head[drive]<<2) | drive;
// ST1: DataError=1, NDAT=1, NotWritable=1, NID=1
BX_FD_THIS s.status_reg1 = 0x27; // 0010 0111
// ST2: CRCE=1, SERR=1, BCYL=1, NDAM=1.
BX_FD_THIS s.status_reg2 = 0x31; // 0011 0001
enter_result_phase();
return;
}
floppy_xfer(drive, logical_sector*512, BX_FD_THIS s.floppy_buffer,
512, TO_FLOPPY);
increment_sector(); // increment to next sector after writing current one
BX_FD_THIS s.floppy_buffer_index = 0;
DEV_dma_set_drq(FLOPPY_DMA_CHAN, 0);
// time to write one sector at 300 rpm
sector_time = 200000 / BX_FD_THIS s.media[drive].sectors_per_track;
bx_pc_system.activate_timer(BX_FD_THIS s.floppy_timer_index,
sector_time , 0);
}
}
}
void bx_floppy_ctrl_c::raise_interrupt(void)
{
DEV_pic_raise_irq(6);
BX_FD_THIS s.pending_irq = 1;
BX_FD_THIS s.reset_sensei = 0;
}
void bx_floppy_ctrl_c::lower_interrupt(void)
{
if (BX_FD_THIS s.pending_irq) {
DEV_pic_lower_irq(6);
BX_FD_THIS s.pending_irq = 0;
}
}
void bx_floppy_ctrl_c::increment_sector(void)
{
Bit8u drive;
drive = BX_FD_THIS s.DOR & 0x03;
// values after completion of data xfer
// ??? calculation depends on base_count being multiple of 512
BX_FD_THIS s.sector[drive] ++;
if ((BX_FD_THIS s.sector[drive] > BX_FD_THIS s.eot[drive]) ||
(BX_FD_THIS s.sector[drive] > BX_FD_THIS s.media[drive].sectors_per_track)) {
BX_FD_THIS s.sector[drive] = 1;
if (BX_FD_THIS s.multi_track) {
BX_FD_THIS s.head[drive] ++;
if (BX_FD_THIS s.head[drive] > 1) {
BX_FD_THIS s.head[drive] = 0;
BX_FD_THIS s.cylinder[drive] ++;
reset_changeline();
}
} else {
BX_FD_THIS s.cylinder[drive] ++;
reset_changeline();
}
if (BX_FD_THIS s.cylinder[drive] >= BX_FD_THIS s.media[drive].tracks) {
// Set to 1 past last possible cylinder value.
// I notice if I set it to tracks-1, prama linux won't boot.
BX_FD_THIS s.cylinder[drive] = BX_FD_THIS s.media[drive].tracks;
BX_INFO(("increment_sector: clamping cylinder to max"));
}
}
}
unsigned bx_floppy_ctrl_c::set_media_status(unsigned drive, unsigned status)
{
char *path;
unsigned type;
if (drive == 0)
type = SIM->get_param_enum(BXPN_FLOPPYA_TYPE)->get();
else
type = SIM->get_param_enum(BXPN_FLOPPYB_TYPE)->get();
// if setting to the current value, nothing to do
if ((status == BX_FD_THIS s.media_present[drive]) &&
((status == 0) || (type == BX_FD_THIS s.media[drive].type)))
return(status);
if (status == 0) {
// eject floppy
if (BX_FD_THIS s.media[drive].fd >= 0) {
close( BX_FD_THIS s.media[drive].fd );
BX_FD_THIS s.media[drive].fd = -1;
}
BX_FD_THIS s.media_present[drive] = 0;
if (drive == 0) {
SIM->get_param_enum(BXPN_FLOPPYA_STATUS)->set(BX_EJECTED);
} else {
SIM->get_param_enum(BXPN_FLOPPYB_STATUS)->set(BX_EJECTED);
}
BX_FD_THIS s.DIR[drive] |= 0x80; // disk changed line
return(0);
} else {
// insert floppy
if (drive == 0) {
path = SIM->get_param_string(BXPN_FLOPPYA_PATH)->getptr();
} else {
path = SIM->get_param_string(BXPN_FLOPPYB_PATH)->getptr();
}
if (!strcmp(path, "none"))
return(0);
if (evaluate_media(BX_FD_THIS s.device_type[drive], type, path, & BX_FD_THIS s.media[drive])) {
BX_FD_THIS s.media_present[drive] = 1;
if (drive == 0) {
#define MED (BX_FD_THIS s.media[0])
BX_INFO(("fd0: '%s' ro=%d, h=%d,t=%d,spt=%d", SIM->get_param_string(BXPN_FLOPPYA_PATH)->getptr(),
MED.write_protected, MED.heads, MED.tracks, MED.sectors_per_track));
#undef MED
SIM->get_param_enum(BXPN_FLOPPYA_STATUS)->set(BX_INSERTED);
} else {
#define MED (BX_FD_THIS s.media[1])
BX_INFO(("fd1: '%s' ro=%d, h=%d,t=%d,spt=%d", SIM->get_param_string(BXPN_FLOPPYB_PATH)->getptr(),
MED.write_protected, MED.heads, MED.tracks, MED.sectors_per_track));
#undef MED
SIM->get_param_enum(BXPN_FLOPPYB_STATUS)->set(BX_INSERTED);
}
return(1);
} else {
BX_FD_THIS s.media_present[drive] = 0;
if (drive == 0) {
SIM->get_param_enum(BXPN_FLOPPYA_STATUS)->set(BX_EJECTED);
SIM->get_param_enum(BXPN_FLOPPYA_TYPE)->set(BX_FLOPPY_NONE);
} else {
SIM->get_param_enum(BXPN_FLOPPYB_STATUS)->set(BX_EJECTED);
SIM->get_param_enum(BXPN_FLOPPYB_TYPE)->set(BX_FLOPPY_NONE);
}
return(0);
}
}
}
unsigned bx_floppy_ctrl_c::get_media_status(unsigned drive)
{
return BX_FD_THIS s.media_present[drive];
}
#ifdef O_BINARY
#define BX_RDONLY O_RDONLY | O_BINARY
#define BX_RDWR O_RDWR | O_BINARY
#else
#define BX_RDONLY O_RDONLY
#define BX_RDWR O_RDWR
#endif
bx_bool bx_floppy_ctrl_c::evaluate_media(Bit8u devtype, Bit8u type, char *path, floppy_t *media)
{
struct stat stat_buf;
int i, ret;
int type_idx = -1;
#ifdef __linux__
struct floppy_struct floppy_geom;
#endif
#ifdef WIN32
char sTemp[1024];
bx_bool raw_floppy = 0;
HANDLE hFile;
DWORD bytes;
DISK_GEOMETRY dg;
unsigned tracks = 0, heads = 0, spt = 0;
#endif
//If media file is already open, close it before reopening.
if(media->fd >=0) {
close(media->fd);
media->fd=-1;
}
// check media type
if (type == BX_FLOPPY_NONE) {
return 0;
}
for (i = 0; i < 8; i++) {
if (type == floppy_type[i].id) type_idx = i;
}
if (type_idx == -1) {
BX_ERROR(("evaluate_media: unknown media type %d", type));
return 0;
}
if ((floppy_type[type_idx].drive_mask & devtype) == 0) {
BX_ERROR(("evaluate_media: media type %d not valid for this floppy drive", type));
return 0;
}
// open media file (image file or device)
media->write_protected = 0;
media->raw_floppy_win95 = 0;
#ifdef macintosh
media->fd = 0;
if (strcmp(SIM->get_param_string(BXPN_FLOPPYA_PATH)->getptr(), SuperDrive))
#endif
#ifdef WIN32
if ( (isalpha(path[0])) && (path[1] == ':') && (strlen(path) == 2) ) {
raw_floppy = 1;
wsprintf(sTemp, "\\\\.\\%s", path);
hFile = CreateFile(sTemp, GENERIC_READ, FILE_SHARE_WRITE, NULL,
OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL);
if (hFile == INVALID_HANDLE_VALUE) {
// try to open it with Win95 style
hFile = CreateFile("\\\\.\\vwin32", 0, 0, NULL, 0, FILE_FLAG_DELETE_ON_CLOSE, NULL);
if (hFile == INVALID_HANDLE_VALUE) {
BX_ERROR(("Cannot open floppy drive"));
return(0);
}
media->raw_floppy_win95 = 1;
media->raw_floppy_win95_drv = toupper(path[0]) - 'A';
}
// if using Win95 direct access, get params this way
if (media->raw_floppy_win95) {
DWORD ret_cnt = 0;
DIOC_REGISTERS reg;
BLOCK_DEV_PARAMS params;
reg.reg_EAX = 0x440D;
reg.reg_ECX = 0x0860;
reg.reg_EDX = (DWORD) ¶ms;
reg.reg_EBX = media->raw_floppy_win95_drv+1;
//reg.reg_Flags = 0x0001; // assume error (carry flag is set)
if (DeviceIoControl(hFile, VWIN32_DIOC_DOS_IOCTL ,
®, sizeof(reg), ®, sizeof(reg), &ret_cnt, NULL)) {
tracks = params.cylinders;
heads = params.num_heads;
spt = params.sects_per_track;
} else {
CloseHandle(hFile);
return(0);
}
} else {
if (!DeviceIoControl(hFile, IOCTL_DISK_GET_DRIVE_GEOMETRY, NULL, 0, &dg, sizeof(dg), &bytes, NULL)) {
BX_ERROR(("No media in floppy drive"));
CloseHandle(hFile);
return(0);
} else {
tracks = (unsigned)dg.Cylinders.QuadPart;
heads = (unsigned)dg.TracksPerCylinder;
spt = (unsigned)dg.SectorsPerTrack;
}
}
CloseHandle(hFile);
// if using Win95 direct access, don't open the file
if (!media->raw_floppy_win95)
media->fd = open(sTemp, BX_RDWR);
} else {
media->fd = open(path, BX_RDWR);
}
#else
media->fd = open(path, BX_RDWR);
#endif
// Don't open the handle if using Win95 style direct access
if (!media->raw_floppy_win95) {
if (media->fd < 0) {
BX_INFO(( "tried to open '%s' read/write: %s",path,strerror(errno) ));
// try opening the file read-only
media->write_protected = 1;
#ifdef macintosh
media->fd = 0;
if (strcmp(SIM->get_param_string(BXPN_FLOPPYA_PATH)->getptr(), SuperDrive))
#endif
#ifdef WIN32
if (raw_floppy == 1) {
media->fd = open(sTemp, BX_RDONLY);
} else {
media->fd = open(path, BX_RDONLY);
}
#else
media->fd = open(path, BX_RDONLY);
#endif
if (media->fd < 0) {
// failed to open read-only too
BX_INFO(( "tried to open '%s' read only: %s",path,strerror(errno) ));
media->type = type;
return(0);
}
}
}
#if BX_WITH_MACOS
if (!strcmp(SIM->get_param_string(BXPN_FLOPPYA_PATH)->getptr(), SuperDrive))
ret = fd_stat(&stat_buf);
else
ret = fstat(media->fd, &stat_buf);
#elif defined(WIN32)
if (raw_floppy) {
memset (&stat_buf, 0, sizeof(stat_buf));
stat_buf.st_mode = S_IFCHR;
ret = 0;
} else {
ret = fstat(media->fd, &stat_buf);
}
#else
// unix
ret = fstat(media->fd, &stat_buf);
#endif
if (ret) {
BX_PANIC(("fstat floppy 0 drive image file returns error: %s", strerror(errno)));
return(0);
}
if ( S_ISREG(stat_buf.st_mode) ) {
// regular file
switch (type) {
// use CMOS reserved types
case BX_FLOPPY_160K: // 160K 5.25"
case BX_FLOPPY_180K: // 180K 5.25"
case BX_FLOPPY_320K: // 320K 5.25"
// standard floppy types
case BX_FLOPPY_360K: // 360K 5.25"
case BX_FLOPPY_720K: // 720K 3.5"
case BX_FLOPPY_1_2: // 1.2M 5.25"
case BX_FLOPPY_2_88: // 2.88M 3.5"
media->type = type;
media->tracks = floppy_type[type_idx].trk;
media->heads = floppy_type[type_idx].hd;
media->sectors_per_track = floppy_type[type_idx].spt;
media->sectors = floppy_type[type_idx].sectors;
if (stat_buf.st_size > (media->sectors * 512)) {
BX_ERROR(("evaluate_media: size of file '%s' (%lu) too large for selected type",
path, (unsigned long) stat_buf.st_size));
return 0;
}
break;
default: // 1.44M 3.5"
media->type = type;
if (stat_buf.st_size <= 1474560) {
media->tracks = floppy_type[type_idx].trk;
media->heads = floppy_type[type_idx].hd;
media->sectors_per_track = floppy_type[type_idx].spt;
}
else if (stat_buf.st_size == 1720320)
{
media->sectors_per_track = 21;
media->tracks = 80;
media->heads = 2;
}
else if (stat_buf.st_size == 1763328)
{
media->sectors_per_track = 21;
media->tracks = 82;
media->heads = 2;
}
else if (stat_buf.st_size == 1884160)
{
media->sectors_per_track = 23;
media->tracks = 80;
media->heads = 2;
}
else
{
BX_ERROR(("evaluate_media: file '%s' of unknown size %lu",
path, (unsigned long) stat_buf.st_size));
return 0;
}
media->sectors = media->heads * media->tracks * media->sectors_per_track;
}
return(1); // success
}
else if ( S_ISCHR(stat_buf.st_mode)
#if BX_WITH_MACOS == 0
#ifdef S_ISBLK
|| S_ISBLK(stat_buf.st_mode)
#endif
#endif
) {
// character or block device
// assume media is formatted to typical geometry for drive
media->type = type;
#ifdef __linux__
if (ioctl(media->fd, FDGETPRM, &floppy_geom) < 0) {
BX_ERROR(("cannot determine media geometry, trying to use defaults"));
media->tracks = floppy_type[type_idx].trk;
media->heads = floppy_type[type_idx].hd;
media->sectors_per_track = floppy_type[type_idx].spt;
media->sectors = floppy_type[type_idx].sectors;
return 1;
}
media->tracks = floppy_geom.track;
media->heads = floppy_geom.head;
media->sectors_per_track = floppy_geom.sect;
media->sectors = floppy_geom.size;
#elif defined(WIN32)
media->tracks = tracks;
media->heads = heads;
media->sectors_per_track = spt;
media->sectors = media->heads * media->tracks * media->sectors_per_track;
#else
media->tracks = floppy_type[type_idx].trk;
media->heads = floppy_type[type_idx].hd;
media->sectors_per_track = floppy_type[type_idx].spt;
media->sectors = floppy_type[type_idx].sectors;
#endif
return 1; // success
} else {
// unknown file type
BX_ERROR(("unknown mode type"));
return 0;
}
}
void bx_floppy_ctrl_c::enter_result_phase(void)
{
Bit8u drive;
unsigned i;
drive = BX_FD_THIS s.DOR & 0x03;
/* these are always the same */
BX_FD_THIS s.result_index = 0;
BX_FD_THIS s.main_status_reg &= 0x0f; // leave drive status untouched
BX_FD_THIS s.main_status_reg |= FD_MS_MRQ | FD_MS_DIO | FD_MS_BUSY;
/* invalid command */
if ((BX_FD_THIS s.status_reg0 & 0xc0) == 0x80) {
BX_FD_THIS s.result_size = 1;
BX_FD_THIS s.result[0] = BX_FD_THIS s.status_reg0;
return;
}
switch (BX_FD_THIS s.pending_command) {
case 0x04: // get status
BX_FD_THIS s.result_size = 1;
BX_FD_THIS s.result[0] = BX_FD_THIS s.status_reg3;
break;
case 0x08: // sense interrupt
BX_FD_THIS s.result_size = 2;
BX_FD_THIS s.result[0] = BX_FD_THIS s.status_reg0;
BX_FD_THIS s.result[1] = BX_FD_THIS s.cylinder[drive];
break;
case 0x0e: // dump registers
BX_FD_THIS s.result_size = 10;
for (i = 0; i < 4; i++) {
BX_FD_THIS s.result[i] = BX_FD_THIS s.cylinder[i];
}
BX_FD_THIS s.result[4] = (BX_FD_THIS s.SRT << 4) | BX_FD_THIS s.HUT;
BX_FD_THIS s.result[5] = (BX_FD_THIS s.HLT << 1) | BX_FD_THIS s.non_dma;
BX_FD_THIS s.result[6] = BX_FD_THIS s.eot[drive];
BX_FD_THIS s.result[7] = (BX_FD_THIS s.lock << 7) | (BX_FD_THIS s.perp_mode & 0x7f);
BX_FD_THIS s.result[8] = BX_FD_THIS s.config;
BX_FD_THIS s.result[9] = BX_FD_THIS s.pretrk;
break;
case 0x10: // version
BX_FD_THIS s.result_size = 1;
BX_FD_THIS s.result[0] = 0x90;
break;
case 0x14: // unlock
case 0x94: // lock
BX_FD_THIS s.lock = (BX_FD_THIS s.pending_command >> 7);
BX_FD_THIS s.result_size = 1;
BX_FD_THIS s.result[0] = (BX_FD_THIS s.lock << 4);
break;
case 0x4a: // read ID
case 0x4d: // format track
case 0x46: // read normal data
case 0x66:
case 0xc6:
case 0xe6:
case 0x45: // write normal data
case 0xc5:
BX_FD_THIS s.result_size = 7;
BX_FD_THIS s.result[0] = BX_FD_THIS s.status_reg0;
BX_FD_THIS s.result[1] = BX_FD_THIS s.status_reg1;
BX_FD_THIS s.result[2] = BX_FD_THIS s.status_reg2;
BX_FD_THIS s.result[3] = BX_FD_THIS s.cylinder[drive];
BX_FD_THIS s.result[4] = BX_FD_THIS s.head[drive];
BX_FD_THIS s.result[5] = BX_FD_THIS s.sector[drive];
BX_FD_THIS s.result[6] = 2; /* sector size code */
BX_FD_THIS raise_interrupt();
break;
}
// Print command result (max. 10 bytes)
char buf[8+(10*5)+1], *p = buf;
p += sprintf(p, "RESULT: ");
for (i=0; i<BX_FD_THIS s.result_size; i++) {
p += sprintf(p, "[%02x] ", (unsigned) BX_FD_THIS s.result[i]);
}
BX_DEBUG((buf));
}
void bx_floppy_ctrl_c::enter_idle_phase(void)
{
BX_FD_THIS s.main_status_reg &= 0x0f; // leave drive status untouched
BX_FD_THIS s.main_status_reg |= FD_MS_MRQ; // data register ready
BX_FD_THIS s.command_complete = 1; /* waiting for new command */
BX_FD_THIS s.command_index = 0;
BX_FD_THIS s.command_size = 0;
BX_FD_THIS s.pending_command = 0;
BX_FD_THIS s.floppy_buffer_index = 0;
}
Bit32u bx_floppy_ctrl_c::calculate_step_delay(Bit8u drive, Bit8u new_cylinder)
{
Bit8u steps;
Bit32u one_step_delay;
if (new_cylinder == BX_FD_THIS s.cylinder[drive]) {
steps = 1;
} else {
steps = abs(new_cylinder - BX_FD_THIS s.cylinder[drive]);
reset_changeline();
}
one_step_delay = ((BX_FD_THIS s.SRT ^ 0x0f) + 1) * 500000 / drate_in_k[BX_FD_THIS s.data_rate];
return (steps * one_step_delay);
}
void bx_floppy_ctrl_c::reset_changeline(void)
{
Bit8u drive = BX_FD_THIS s.DOR & 0x03;
if (BX_FD_THIS s.media_present[drive])
BX_FD_THIS s.DIR[drive] &= ~0x80;
}
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