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/*************************************************************************
* *
* $Id: vfdhd.c 1995 2008-07-15 03:59:13Z hharte $ *
* *
* Copyright (c) 2007-2008 Howard M. Harte. *
* http://www.hartetec.com *
* *
* Permission is hereby granted, free of charge, to any person obtaining *
* a copy of this software and associated documentation files (the *
* "Software"), to deal in the Software without restriction, including *
* without limitation the rights to use, copy, modify, merge, publish, *
* distribute, sublicense, and/or sell copies of the Software, and to *
* permit persons to whom the Software is furnished to do so, subject to *
* the following conditions: *
* *
* The above copyright notice and this permission notice shall be *
* included in all copies or substantial portions of the Software. *
* *
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, *
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF *
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND *
* NONINFRINGEMENT. IN NO EVENT SHALL HOWARD M. HARTE BE LIABLE FOR ANY *
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, *
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE *
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. *
* *
* Except as contained in this notice, the name of Howard M. Harte shall *
* not be used in advertising or otherwise to promote the sale, use or *
* other dealings in this Software without prior written authorization *
* Howard M. Harte. *
* *
* SIMH Interface based on altairz80_hdsk.c, by Peter Schorn. *
* *
* Module Description: *
* Micropolis FDC module for SIMH *
* *
* Environment: *
* User mode only *
* *
*************************************************************************/
/*#define DBG_MSG */
#define USE_VGI /* Use 275-byte VGI-format sectors (includes all metadata) */
#include "altairz80_defs.h"
#if defined (_WIN32)
#include <windows.h>
#endif
#include "sim_imd.h"
/* #define DBG_MSG */
#ifdef DBG_MSG
#define DBG_PRINT(args) printf args
#else
#define DBG_PRINT(args)
#endif
/* Debug flags */
#define ERROR_MSG (1 << 0)
#define SEEK_MSG (1 << 1)
#define CMD_MSG (1 << 2)
#define RD_DATA_MSG (1 << 3)
#define WR_DATA_MSG (1 << 4)
#define STATUS_MSG (1 << 5)
#define ORDERS_MSG (1 << 7)
static void VFDHD_Command(void);
#define VFDHD_MAX_DRIVES 4
#define VFDHD_SECTOR_LEN 275
#define VFDHD_RAW_LEN (40 + VFDHD_SECTOR_LEN + 128)
typedef union {
struct {
uint8 preamble[40]; /* Hard disk uses 30 bytes of preamble, floppy uses 40. */
uint8 sync;
uint8 header[2];
uint8 unused[10];
uint8 data[256];
uint8 checksum;
uint8 ecc[4];
uint8 ecc_valid; /* 0xAA indicates ECC is being used. */
uint8 postamble[128];
} u;
uint8 raw[VFDHD_RAW_LEN];
} SECTOR_FORMAT;
typedef struct {
UNIT *uptr;
DISK_INFO *imd;
uint16 ntracks; /* number of tracks */
uint8 nheads; /* number of heads */
uint8 nspt; /* number of sectors per track */
uint8 npre_len; /* preamble length */
uint32 sectsize; /* sector size, not including pre/postamble */
uint16 track;
uint8 wp; /* Disk write protected */
uint8 ready; /* Drive is ready */
uint8 write_fault;
uint8 seek_complete;
uint8 sync_lost;
uint32 sector_wait_count;
} VFDHD_DRIVE_INFO;
typedef struct {
PNP_INFO pnp; /* Plug and Play */
uint8 xfr_flag; /* Indicates controller is ready to send/receive data */
uint8 sel_drive; /* Currently selected drive */
uint8 selected; /* 1 if drive is selected */
uint8 track0; /* Set it selected drive is on track 0 */
uint8 head; /* Currently selected head */
uint8 wr_latch; /* Write enable latch */
uint8 int_enable; /* Interrupt Enable */
uint32 datacount; /* Number of data bytes transferred from controller for current sector */
uint8 step;
uint8 direction;
uint8 rwc;
uint8 sector;
uint8 read;
uint8 ecc_enable;
uint8 precomp;
uint8 floppy_sel;
uint8 controller_busy;
uint8 motor_on;
uint8 hdsk_type;
VFDHD_DRIVE_INFO drive[VFDHD_MAX_DRIVES];
} VFDHD_INFO;
static VFDHD_INFO vfdhd_info_data = { { 0x0, 0, 0xC0, 4 } };
static VFDHD_INFO *vfdhd_info = &vfdhd_info_data;
static SECTOR_FORMAT sdata;
extern uint32 PCX;
extern t_stat set_iobase(UNIT *uptr, int32 val, char *cptr, void *desc);
extern t_stat show_iobase(FILE *st, UNIT *uptr, int32 val, void *desc);
extern uint32 sim_map_resource(uint32 baseaddr, uint32 size, uint32 resource_type,
int32 (*routine)(const int32, const int32, const int32), uint8 unmap);
#define UNIT_V_VFDHD_WLK (UNIT_V_UF + 0) /* write locked */
#define UNIT_VFDHD_WLK (1 << UNIT_V_VFDHD_WLK)
#define UNIT_V_VFDHD_VERBOSE (UNIT_V_UF + 1) /* verbose mode, i.e. show error messages */
#define UNIT_VFDHD_VERBOSE (1 << UNIT_V_VFDHD_VERBOSE)
#define VFDHD_CAPACITY (77*2*16*256) /* Default Micropolis Disk Capacity */
static t_stat vfdhd_reset(DEVICE *vfdhd_dev);
static t_stat vfdhd_attach(UNIT *uptr, char *cptr);
static t_stat vfdhd_detach(UNIT *uptr);
static int32 vfdhddev(const int32 port, const int32 io, const int32 data);
static uint8 VFDHD_Read(const uint32 Addr);
static uint8 VFDHD_Write(const uint32 Addr, uint8 cData);
static int32 hdSize = 5;
static UNIT vfdhd_unit[] = {
{ UDATA (NULL, UNIT_FIX + UNIT_ATTABLE + UNIT_DISABLE + UNIT_ROABLE, VFDHD_CAPACITY) },
{ UDATA (NULL, UNIT_FIX + UNIT_ATTABLE + UNIT_DISABLE + UNIT_ROABLE, VFDHD_CAPACITY) },
{ UDATA (NULL, UNIT_FIX + UNIT_ATTABLE + UNIT_DISABLE + UNIT_ROABLE, VFDHD_CAPACITY) },
{ UDATA (NULL, UNIT_FIX + UNIT_ATTABLE + UNIT_DISABLE + UNIT_ROABLE, VFDHD_CAPACITY) }
};
static REG vfdhd_reg[] = {
{ DRDATA (HDSIZE, hdSize, 10), },
{ NULL }
};
static MTAB vfdhd_mod[] = {
{ MTAB_XTD|MTAB_VDV, 0, "IOBASE", "IOBASE", &set_iobase, &show_iobase, NULL },
{ UNIT_VFDHD_WLK, 0, "WRTENB", "WRTENB", NULL },
{ UNIT_VFDHD_WLK, UNIT_VFDHD_WLK, "WRTLCK", "WRTLCK", NULL },
/* quiet, no warning messages */
{ UNIT_VFDHD_VERBOSE, 0, "QUIET", "QUIET", NULL },
/* verbose, show warning messages */
{ UNIT_VFDHD_VERBOSE, UNIT_VFDHD_VERBOSE, "VERBOSE", "VERBOSE", NULL },
{ 0 }
};
/* Debug Flags */
static DEBTAB vfdhd_dt[] = {
{ "ERROR", ERROR_MSG },
{ "SEEK", SEEK_MSG },
{ "CMD", CMD_MSG },
{ "RDDATA", RD_DATA_MSG },
{ "WRDATA", WR_DATA_MSG },
{ "STATUS", STATUS_MSG },
{ "ORDERS", ORDERS_MSG },
{ NULL, 0 }
};
DEVICE vfdhd_dev = {
"VFDHD", vfdhd_unit, vfdhd_reg, vfdhd_mod,
VFDHD_MAX_DRIVES, 10, 31, 1, VFDHD_MAX_DRIVES, VFDHD_MAX_DRIVES,
NULL, NULL, &vfdhd_reset,
NULL, &vfdhd_attach, &vfdhd_detach,
&vfdhd_info_data, (DEV_DISABLE | DEV_DIS | DEV_DEBUG), ERROR_MSG,
vfdhd_dt, NULL, "Vector Graphic FD-HD Controller VFDHD"
};
/* Reset routine */
static t_stat vfdhd_reset(DEVICE *dptr)
{
PNP_INFO *pnp = (PNP_INFO *)dptr->ctxt;
if(dptr->flags & DEV_DIS) {
sim_map_resource(pnp->io_base, pnp->io_size, RESOURCE_TYPE_IO, &vfdhddev, TRUE);
} else {
/* Connect MFDC at base address */
if(sim_map_resource(pnp->io_base, pnp->io_size, RESOURCE_TYPE_IO, &vfdhddev, FALSE) != 0) {
printf("%s: error mapping I/O resource at 0x%04x\n", __FUNCTION__, pnp->io_base);
return SCPE_ARG;
}
}
return SCPE_OK;
}
/* Attach routine */
static t_stat vfdhd_attach(UNIT *uptr, char *cptr)
{
t_stat r;
unsigned int i = 0;
r = attach_unit(uptr, cptr); /* attach unit */
if ( r != SCPE_OK) /* error? */
return r;
/* Determine length of this disk */
uptr->capac = sim_fsize(uptr->fileref);
for(i = 0; i < VFDHD_MAX_DRIVES; i++) {
vfdhd_info->drive[i].uptr = &vfdhd_dev.units[i];
}
for(i = 0; i < VFDHD_MAX_DRIVES; i++) {
if(vfdhd_dev.units[i].fileref == uptr->fileref) {
break;
}
}
if(uptr->capac > 0) {
r = assignDiskType(uptr);
if (r != SCPE_OK) {
vfdhd_detach(uptr);
return r;
}
} else {
/* creating file, must be DSK format. */
uptr->u3 = IMAGE_TYPE_DSK;
}
if (uptr->flags & UNIT_VFDHD_VERBOSE)
printf("VFDHD%d: attached to '%s', type=%s, len=%d\n", i, cptr,
uptr->u3 == IMAGE_TYPE_IMD ? "IMD" : uptr->u3 == IMAGE_TYPE_CPT ? "CPT" : "DSK",
uptr->capac);
if(uptr->u3 == IMAGE_TYPE_IMD) {
if(uptr->capac < 318000) {
printf("Cannot create IMD files with SIMH.\nCopy an existing file and format it with CP/M.\n");
vfdhd_detach(uptr);
return SCPE_OPENERR;
}
if (uptr->flags & UNIT_VFDHD_VERBOSE)
printf("--------------------------------------------------------\n");
vfdhd_info->drive[i].imd = diskOpen((uptr->fileref), (uptr->flags & UNIT_VFDHD_VERBOSE));
if (uptr->flags & UNIT_VFDHD_VERBOSE)
printf("\n");
} else {
vfdhd_info->drive[i].imd = NULL;
}
if(i>0) { /* Floppy Disk, Unit 1-3 */
vfdhd_info->drive[i].ntracks = 77; /* number of tracks */
vfdhd_info->drive[i].nheads = 2; /* number of heads */
vfdhd_info->drive[i].nspt = 16; /* number of sectors per track */
vfdhd_info->drive[i].npre_len = 40; /* preamble length */
vfdhd_info->drive[i].sectsize = VFDHD_SECTOR_LEN; /* sector size, not including pre/postamble */
} else { /* Hard Disk, Unit 0 */
if(hdSize == 10) {
vfdhd_info->drive[i].ntracks = 153; /* number of tracks */
vfdhd_info->drive[i].nheads = 6; /* number of heads */
vfdhd_info->hdsk_type = 1;
printf("10MB\n");
} else if (hdSize == 5) {
vfdhd_info->drive[i].ntracks = 153; /* number of tracks */
vfdhd_info->drive[i].nheads = 4; /* number of heads */
vfdhd_info->hdsk_type = 0;
printf("5MB\n");
} else {
vfdhd_info->drive[i].ntracks = 512; /* number of tracks */
vfdhd_info->drive[i].nheads = 8; /* number of heads */
vfdhd_info->hdsk_type = 1;
printf("32MB\n");
}
vfdhd_info->drive[i].nheads = 4; /* number of heads */
vfdhd_info->drive[i].nspt = 32; /* number of sectors per track */
vfdhd_info->drive[i].npre_len = 30; /* preamble length */
vfdhd_info->drive[i].sectsize = VFDHD_SECTOR_LEN; /* sector size, not including pre/postamble */
vfdhd_info->drive[i].ready = 1;
vfdhd_info->drive[i].seek_complete = 1;
vfdhd_info->drive[i].sync_lost = 1; /* Active LOW */
}
vfdhd_info->motor_on = 1;
return SCPE_OK;
}
/* Detach routine */
static t_stat vfdhd_detach(UNIT *uptr)
{
t_stat r;
int8 i;
for(i = 0; i < VFDHD_MAX_DRIVES; i++) {
if(vfdhd_dev.units[i].fileref == uptr->fileref) {
break;
}
}
DBG_PRINT(("Detach VFDHD%d\n", i));
r = diskClose(&vfdhd_info->drive[i].imd);
if (r != SCPE_OK)
return r;
r = detach_unit(uptr); /* detach unit */
if (r != SCPE_OK)
return r;
return SCPE_OK;
}
static uint8 cy;
static uint8 adc(uint8 sum, uint8 a1)
{
uint32 total;
total = sum + a1 + cy;
if(total > 0xFF) {
cy = 1;
} else {
cy = 0;
}
return(total & 0xFF);
}
static int32 vfdhddev(const int32 port, const int32 io, const int32 data)
{
DBG_PRINT(("VFDHD: " ADDRESS_FORMAT " IO %s, Port %02x" NLP, PCX, io ? "WR" : "RD", port));
if(io) {
VFDHD_Write(port, data);
return 0;
} else {
return(VFDHD_Read(port));
}
}
#define FDHD_CTRL_STATUS0 0 /* R=Status Port 0, W=Control Port 0 */
#define FDHD_CTRL_STATUS1 1 /* R=Status Port 1, W=Control Port 0 */
#define FDHD_DATA 2 /* R/W=Data Port */
#define FDHD_RESET_START 3 /* R=RESET, W=START */
static uint8 VFDHD_Read(const uint32 Addr)
{
uint8 cData;
VFDHD_DRIVE_INFO *pDrive;
pDrive = &vfdhd_info->drive[vfdhd_info->sel_drive];
cData = 0x00;
switch(Addr & 0x3) {
case FDHD_CTRL_STATUS0:
cData = (pDrive->wp & 1); /* [0] Write Protect (FD) */
cData |= (pDrive->ready & 1) << 1; /* [1] Drive ready (HD) */
cData |= (pDrive->track == 0) ? 0x04 : 0; /* [2] TK0 (FD/HD) */
cData |= (pDrive->write_fault & 1) << 3; /* [3] Write Fault (HD) */
cData |= (pDrive->seek_complete & 1) << 4; /* [4] Seek Complete (HD) */
cData |= (pDrive->sync_lost & 1) << 5; /* [5] Loss of Sync (HD) */
cData |= 0xC0; /* [7:6] Reserved (pulled up) */
sim_debug(STATUS_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " RD S0 = 0x%02x\n", PCX, cData);
break;
case FDHD_CTRL_STATUS1:
vfdhd_info->floppy_sel = (vfdhd_info->sel_drive == 0) ? 0 : 1;
cData = (vfdhd_info->floppy_sel & 0x1); /* [0] Floppy Selected */
cData |= (vfdhd_info->controller_busy & 0x1) << 1; /* [1] Controller busy */
cData |= (vfdhd_info->motor_on & 0x1) << 2; /* [2] Motor On (FD) */
cData |= (vfdhd_info->hdsk_type & 0x1) << 3; /* [3] Hard Disk Type (0=5MB, 1=10MB) */
cData |= 0xF0; /* [7:4] Reserved (pulled up) */
if(vfdhd_info->sel_drive == 0) {
/* cData &= 0xF0; */
}
vfdhd_info->controller_busy = 0;
sim_debug(STATUS_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " RD S1 = 0x%02x\n", PCX, cData);
break;
case FDHD_DATA:
/* DBG_PRINT(("VFDHD: " ADDRESS_FORMAT " RD Data" NLP, PCX)); */
if(vfdhd_info->datacount+40 >= VFDHD_RAW_LEN) {
sim_debug(ERROR_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " Illegal data count %d.\n", PCX, vfdhd_info->datacount);
vfdhd_info->datacount = 0;
}
cData = sdata.raw[vfdhd_info->datacount+40];
vfdhd_info->datacount++;
/* DBG_PRINT(("VFDHD: " ADDRESS_FORMAT " RD Data Sector %d[%03d]: 0x%02x" NLP, PCX, pDrive->sector, vfdhd_info->datacount, cData)); */
break;
case FDHD_RESET_START: /* Reset */
sim_debug(CMD_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " Reset\n", PCX);
vfdhd_info->datacount = 0;
cData = 0xFF; /* Return High-Z data */
break;
}
return (cData);
}
static uint8 VFDHD_Write(const uint32 Addr, uint8 cData)
{
VFDHD_DRIVE_INFO *pDrive;
pDrive = &vfdhd_info->drive[vfdhd_info->sel_drive];
switch(Addr & 0x3) {
case FDHD_CTRL_STATUS0:
vfdhd_info->sel_drive = cData & 0x03;
vfdhd_info->head = (cData >> 2) & 0x7;
vfdhd_info->step = (cData >> 5) & 1;
vfdhd_info->direction = (cData >> 6) & 1;
vfdhd_info->rwc = (cData >> 7) & 1;
sim_debug(WR_DATA_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " WR C0=%02x: sel_drive=%d, head=%d, step=%d, dir=%d, rwc=%d\n", PCX, cData, vfdhd_info->sel_drive, vfdhd_info->head, vfdhd_info->step, vfdhd_info->direction, vfdhd_info->rwc);
if(vfdhd_info->step == 1) {
if(vfdhd_info->direction == 1) { /* Step IN */
pDrive->track++;
} else { /* Step OUT */
if(pDrive->track != 0) {
pDrive->track--;
}
}
sim_debug(SEEK_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " Drive %d on track %d\n", PCX, vfdhd_info->sel_drive, pDrive->track);
}
break;
case FDHD_CTRL_STATUS1:
vfdhd_info->sector = (cData & 0x1f);
vfdhd_info->read = (cData >> 5) & 1;
vfdhd_info->ecc_enable = (cData >> 6) & 1;
vfdhd_info->precomp = (cData >> 7) & 1;
if(cData == 0xFF) {
sim_debug(SEEK_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " Home Disk %d\n", PCX, vfdhd_info->sel_drive);
pDrive->track = 0;
}
DBG_PRINT(("VFDHD: " ADDRESS_FORMAT " WR C1=%02x: sector=%d, read=%d, ecc_en=%d, precomp=%d" NLP,
PCX,
cData,
vfdhd_info->sector,
vfdhd_info->read,
vfdhd_info->ecc_enable,
vfdhd_info->precomp));
break;
case FDHD_DATA: /* Data Port */
DBG_PRINT(("VFDHD: " ADDRESS_FORMAT " WR Data" NLP, PCX));
#ifdef USE_VGI
if(vfdhd_info->sel_drive > 0) { /* Floppy */
if(vfdhd_info->datacount >= VFDHD_RAW_LEN) {
sim_debug(ERROR_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " Illegal data count %d.\n", PCX, vfdhd_info->datacount);
vfdhd_info->datacount = 0;
}
sdata.raw[vfdhd_info->datacount] = cData;
} else { /* Hard */
if(vfdhd_info->datacount+10 >= VFDHD_RAW_LEN) {
sim_debug(ERROR_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " Illegal data count %d.\n", PCX, vfdhd_info->datacount);
vfdhd_info->datacount = 0;
}
sdata.raw[vfdhd_info->datacount+10] = cData;
}
#else
if((vfdhd_info->datacount-13 >= VFDHD_RAW_LEN) || (vfdhd_info->datacount < 13)) {
sim_debug(ERROR_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " Illegal data count %d.\n", PCX, vfdhd_info->datacount);
vfdhd_info->datacount = 13;
}
sdata.u.data[vfdhd_info->datacount-13] = cData;
#endif /* USE_VGI */
vfdhd_info->datacount ++;
break;
case FDHD_RESET_START:
sim_debug(CMD_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " Start Command\n", PCX);
VFDHD_Command();
break;
}
cData = 0x00;
return (cData);
}
static void VFDHD_Command(void)
{
VFDHD_DRIVE_INFO *pDrive;
uint32 bytesPerTrack;
uint32 bytesPerHead;
uint32 sec_offset;
uint32 flags;
int32 rtn;
pDrive = &(vfdhd_info->drive[vfdhd_info->sel_drive]);
bytesPerTrack = pDrive->sectsize * pDrive->nspt;
bytesPerHead = bytesPerTrack * pDrive->ntracks;
sec_offset = (pDrive->track * bytesPerTrack) + \
(vfdhd_info->head * bytesPerHead) + \
(vfdhd_info->sector * pDrive->sectsize);
vfdhd_info->controller_busy = 1;
if(vfdhd_info->read == 1) { /* Perform a Read operation */
unsigned int i, checksum;
uint32 readlen;
sim_debug(RD_DATA_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " RD: Drive=%d, Track=%d, Head=%d, Sector=%d\n", PCX, vfdhd_info->sel_drive, pDrive->track, vfdhd_info->head, vfdhd_info->sector);
/* Clear out unused portion of sector. */
memset(&sdata.u.unused[0], 0x00, 10);
sdata.u.sync = 0xFF;
sdata.u.header[0] = pDrive->track & 0xFF;
sdata.u.header[1] = vfdhd_info->sector;
switch((pDrive->uptr)->u3)
{
case IMAGE_TYPE_IMD:
if(pDrive->imd == NULL) {
printf(".imd is NULL!" NLP);
}
printf("%s: Read: imd=%p" NLP, __FUNCTION__, pDrive->imd);
sectRead(pDrive->imd,
pDrive->track,
vfdhd_info->head,
vfdhd_info->sector,
sdata.u.data,
256,
&flags,
&readlen);
adc(0,0); /* clear Carry bit */
checksum = 0;
/* Checksum everything except the sync byte */
for(i=1;i<269;i++) {
checksum = adc(checksum, sdata.raw[i+40]);
}
sdata.u.checksum = checksum & 0xFF;
sdata.u.ecc_valid = 0xAA;
break;
case IMAGE_TYPE_DSK:
if(pDrive->uptr->fileref == NULL) {
printf(".fileref is NULL!" NLP);
} else {
sim_fseek((pDrive->uptr)->fileref, sec_offset, SEEK_SET);
rtn = sim_fread(&sdata.u.sync, 1, 274, /*VFDHD_SECTOR_LEN,*/ (pDrive->uptr)->fileref);
if (rtn != 274) {
sim_debug(ERROR_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " READ: sim_fread error.\n", PCX);
}
memset(&sdata.u.preamble, 0, 40);
memset(&sdata.u.ecc, 0, 5); /* Clear out the ECC and ECC Valid bytes */
sdata.u.ecc_valid = 0xAA;
for(vfdhd_info->datacount = 0; sdata.raw[vfdhd_info->datacount] == 0x00; vfdhd_info->datacount++) {
}
DBG_PRINT(("VFDHD: " ADDRESS_FORMAT " READ: Sync found at offset %d" NLP, PCX, vfdhd_info->datacount));
}
break;
case IMAGE_TYPE_CPT:
printf("%s: CPT Format not supported" NLP, __FUNCTION__);
break;
default:
printf("%s: Unknown image Format" NLP, __FUNCTION__);
break;
}
} else { /* Perform a Write operation */
uint32 writelen;
sim_debug(WR_DATA_MSG, &vfdhd_dev, "VFDHD: " ADDRESS_FORMAT " WR: Drive=%d, Track=%d, Head=%d, Sector=%d\n", PCX, vfdhd_info->sel_drive, pDrive->track, vfdhd_info->head, vfdhd_info->sector);
#ifdef USE_VGI
#else
int data_index = vfdhd_info->datacount - 13;
sec_offset = (pDrive->track * 4096) + \
(vfdhd_info->head * 315392) + \
(vfdhd_info->sector * 256);
#endif /* USE_VGI */
switch((pDrive->uptr)->u3)
{
case IMAGE_TYPE_IMD:
if(pDrive->imd == NULL) {
printf(".imd is NULL!" NLP);
}
sectWrite(pDrive->imd,
pDrive->track,
vfdhd_info->head,
vfdhd_info->sector,
sdata.u.data,
256,
&flags,
&writelen);
break;
case IMAGE_TYPE_DSK:
if(pDrive->uptr->fileref == NULL) {
printf(".fileref is NULL!" NLP);
} else {
DBG_PRINT(("VFDHD: " ADDRESS_FORMAT " WR drive=%d, track=%d, head=%d, sector=%d" NLP,
PCX,
vfdhd_info->sel_drive,
pDrive->track,
vfdhd_info->head,
vfdhd_info->sector));
sim_fseek((pDrive->uptr)->fileref, sec_offset, SEEK_SET);
#ifdef USE_VGI
sim_fwrite(&sdata.u.sync, 1, VFDHD_SECTOR_LEN, (pDrive->uptr)->fileref);
#else
sim_fwrite(sdata.u.data, 1, 256, (pDrive->uptr)->fileref);
#endif /* USE_VGI */
}
break;
case IMAGE_TYPE_CPT:
printf("%s: CPT Format not supported" NLP, __FUNCTION__);
break;
default:
printf("%s: Unknown image Format" NLP, __FUNCTION__);
break;
}
}
}