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simh-testsetgenerator/AltairZ80/s100_hdc1001.c
Mark Pizzolato 5531ccb175 ALL: Massive 'const' cleanup 
These changes facilitate more robust parameter type checking and helps
to identify unexpected coding errors.

Most simulators can now also be compiled with a C++ compiler without
warnings.

Additionally, these changes have also been configured to facilitate easier
backporting of simulator and device simulation modules to run under the
simh v3.9+ SCP framework.
2016-05-15 15:25:33 -07:00

583 lines
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/*************************************************************************
* *
* $Id: s100_hdc1001.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: *
* Advanced Digital Corporation (ADC) HDC-1001 Hard Disk Controller *
* module for SIMH. The HDC-1001 controller uses the standard IDE/ATA *
* task-file, so this controller should be compatible with other con- *
* trollers that use IDE, like the GIDE interface. *
* *
* Environment: *
* User mode only *
* *
*************************************************************************/
#include "altairz80_defs.h"
#if defined (_WIN32)
#include <windows.h>
#endif
#include "sim_imd.h"
/* 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 VERBOSE_MSG (1 << 5)
#define HDC1001_MAX_DRIVES 4
typedef struct {
UNIT *uptr;
DISK_INFO *imd;
uint16 sectsize; /* sector size, not including pre/postamble */
uint16 nsectors; /* number of sectors/track */
uint16 nheads; /* number of heads */
uint16 ntracks; /* number of tracks */
uint16 res_tracks; /* Number of reserved tracks on drive. */
uint16 track; /* Current Track */
uint16 cur_sect; /* current starting sector of transfer */
uint16 cur_track; /* Current Track */
uint16 xfr_nsects; /* Number of sectors to transfer */
uint8 ready; /* Is drive ready? */
} HDC1001_DRIVE_INFO;
typedef struct {
PNP_INFO pnp; /* Plug and Play */
uint8 sel_drive; /* Currently selected drive */
uint8 taskfile[8]; /* ATA Task File Registers */
uint8 mode; /* mode (0xFF=absolute, 0x00=logical) */
uint8 retries; /* Number of retries to attempt */
uint8 ndrives; /* Number of drives attached to the controller */
uint32 link_addr; /* Link Address for next IOPB */
uint32 dma_addr; /* DMA Address for the current IOPB */
HDC1001_DRIVE_INFO drive[HDC1001_MAX_DRIVES];
uint8 iopb[16];
} HDC1001_INFO;
static HDC1001_INFO hdc1001_info_data = { { 0x0, 0, 0xC8, 8 } };
static HDC1001_INFO *hdc1001_info = &hdc1001_info_data;
extern uint32 PCX;
extern t_stat set_iobase(UNIT *uptr, int32 val, CONST char *cptr, void *desc);
extern t_stat show_iobase(FILE *st, UNIT *uptr, int32 val, CONST void *desc);
extern uint32 sim_map_resource(uint32 baseaddr, uint32 size, uint32 resource_type,
int32 (*routine)(const int32, const int32, const int32), uint8 unmap);
extern int32 find_unit_index(UNIT *uptr);
/* These are needed for DMA. */
extern void PutBYTEWrapper(const uint32 Addr, CONST uint32 Value);
extern uint8 GetBYTEWrapper(const uint32 Addr);
#define UNIT_V_HDC1001_VERBOSE (UNIT_V_UF + 1) /* verbose mode, i.e. show error messages */
#define UNIT_HDC1001_VERBOSE (1 << UNIT_V_HDC1001_VERBOSE)
#define HDC1001_CAPACITY (77*2*16*256) /* Default Micropolis Disk Capacity */
static t_stat hdc1001_reset(DEVICE *hdc1001_dev);
static t_stat hdc1001_attach(UNIT *uptr, CONST char *cptr);
static t_stat hdc1001_detach(UNIT *uptr);
static int32 hdc1001dev(const int32 port, const int32 io, const int32 data);
static uint8 HDC1001_Read(const uint32 Addr);
static uint8 HDC1001_Write(const uint32 Addr, uint8 cData);
static const char* hdc1001_description(DEVICE *dptr);
static UNIT hdc1001_unit[] = {
{ UDATA (NULL, UNIT_FIX + UNIT_ATTABLE + UNIT_DISABLE + UNIT_ROABLE, HDC1001_CAPACITY) },
{ UDATA (NULL, UNIT_FIX + UNIT_ATTABLE + UNIT_DISABLE + UNIT_ROABLE, HDC1001_CAPACITY) },
{ UDATA (NULL, UNIT_FIX + UNIT_ATTABLE + UNIT_DISABLE + UNIT_ROABLE, HDC1001_CAPACITY) },
{ UDATA (NULL, UNIT_FIX + UNIT_ATTABLE + UNIT_DISABLE + UNIT_ROABLE, HDC1001_CAPACITY) }
};
static REG hdc1001_reg[] = {
{ NULL }
};
#define HDC1001_NAME "ADC Hard Disk Controller"
static const char* hdc1001_description(DEVICE *dptr) {
return HDC1001_NAME;
}
static MTAB hdc1001_mod[] = {
{ MTAB_XTD|MTAB_VDV, 0, "IOBASE", "IOBASE",
&set_iobase, &show_iobase, NULL, "Sets disk controller I/O base address" },
/* quiet, no warning messages */
{ UNIT_HDC1001_VERBOSE, 0, "QUIET", "QUIET",
NULL, NULL, NULL, "No verbose messages for unit " HDC1001_NAME "n" },
/* verbose, show warning messages */
{ UNIT_HDC1001_VERBOSE, UNIT_HDC1001_VERBOSE, "VERBOSE", "VERBOSE",
NULL, NULL, NULL, "Verbose messages for unit " HDC1001_NAME "n" },
{ 0 }
};
/* Debug Flags */
static DEBTAB hdc1001_dt[] = {
{ "ERROR", ERROR_MSG, "Error messages" },
{ "SEEK", SEEK_MSG, "Seek messages" },
{ "CMD", CMD_MSG, "Command messages" },
{ "READ", RD_DATA_MSG, "Read messages" },
{ "WRITE", WR_DATA_MSG, "Write messages" },
{ "VERBOSE", VERBOSE_MSG, "Verbose messages" },
{ NULL, 0 }
};
DEVICE hdc1001_dev = {
"HDC1001", hdc1001_unit, hdc1001_reg, hdc1001_mod,
HDC1001_MAX_DRIVES, 10, 31, 1, HDC1001_MAX_DRIVES, HDC1001_MAX_DRIVES,
NULL, NULL, &hdc1001_reset,
NULL, &hdc1001_attach, &hdc1001_detach,
&hdc1001_info_data, (DEV_DISABLE | DEV_DIS | DEV_DEBUG), ERROR_MSG,
hdc1001_dt, NULL, NULL, NULL, NULL, NULL, &hdc1001_description
};
/* Reset routine */
static t_stat hdc1001_reset(DEVICE *dptr)
{
PNP_INFO *pnp = (PNP_INFO *)dptr->ctxt;
if(dptr->flags & DEV_DIS) { /* Disconnect I/O Ports */
sim_map_resource(pnp->io_base, pnp->io_size, RESOURCE_TYPE_IO, &hdc1001dev, TRUE);
} else {
/* Connect HDC1001 at base address */
if(sim_map_resource(pnp->io_base, pnp->io_size, RESOURCE_TYPE_IO, &hdc1001dev, FALSE) != 0) {
sim_printf("%s: error mapping I/O resource at 0x%04x\n", __FUNCTION__, pnp->io_base);
return SCPE_ARG;
}
}
hdc1001_info->link_addr = 0x50; /* After RESET, the link pointer is at 0x50. */
return SCPE_OK;
}
/* Attach routine */
static t_stat hdc1001_attach(UNIT *uptr, CONST char *cptr)
{
t_stat r = SCPE_OK;
HDC1001_DRIVE_INFO *pDrive;
int i = 0;
i = find_unit_index(uptr);
if (i == -1) {
return (SCPE_IERR);
}
pDrive = &hdc1001_info->drive[i];
pDrive->ready = 1;
pDrive->track = 5;
pDrive->ntracks = 243;
pDrive->nheads = 8;
pDrive->nsectors = 11;
pDrive->sectsize = 1024;
r = attach_unit(uptr, cptr); /* attach unit */
if ( r != SCPE_OK) /* error? */
return r;
/* Determine length of this disk */
if(sim_fsize(uptr->fileref) != 0) {
uptr->capac = sim_fsize(uptr->fileref);
} else {
uptr->capac = (pDrive->ntracks * pDrive->nsectors * pDrive->nheads * pDrive->sectsize);
}
pDrive->uptr = uptr;
/* Default for new file is DSK */
uptr->u3 = IMAGE_TYPE_DSK;
if(uptr->capac > 0) {
r = assignDiskType(uptr);
if (r != SCPE_OK) {
hdc1001_detach(uptr);
return r;
}
}
if (uptr->flags & UNIT_HDC1001_VERBOSE)
sim_printf("HDC1001%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) {
sim_printf("Cannot create IMD files with SIMH.\nCopy an existing file and format it with CP/M.\n");
hdc1001_detach(uptr);
return SCPE_OPENERR;
}
if (uptr->flags & UNIT_HDC1001_VERBOSE)
sim_printf("--------------------------------------------------------\n");
hdc1001_info->drive[i].imd = diskOpenEx((uptr->fileref), (uptr->flags & UNIT_HDC1001_VERBOSE),
&hdc1001_dev, VERBOSE_MSG, VERBOSE_MSG);
if (uptr->flags & UNIT_HDC1001_VERBOSE)
sim_printf("\n");
} else {
hdc1001_info->drive[i].imd = NULL;
}
return SCPE_OK;
}
/* Detach routine */
static t_stat hdc1001_detach(UNIT *uptr)
{
HDC1001_DRIVE_INFO *pDrive;
t_stat r;
int8 i;
i = find_unit_index(uptr);
if (i == -1) {
return (SCPE_IERR);
}
pDrive = &hdc1001_info->drive[i];
pDrive->ready = 0;
if (uptr->flags & UNIT_HDC1001_VERBOSE)
sim_printf("Detach HDC1001%d\n", i);
r = detach_unit(uptr); /* detach unit */
if ( r != SCPE_OK)
return r;
return SCPE_OK;
}
static int32 hdc1001dev(const int32 port, const int32 io, const int32 data)
{
/* sim_debug(VERBOSE_MSG, &hdc1001_dev, "HDC1001: " ADDRESS_FORMAT " IO %s, Port %02x\n", PCX, io ? "WR" : "RD", port); */
if(io) {
HDC1001_Write(port, data);
return 0;
} else {
return(HDC1001_Read(port));
}
}
#define HDC1001_CSR 0 /* R=HDC1001 Status / W=HDC1001 Control Register */
#define HDC1001_DATA 1 /* R=Step Pulse / W=Write Data Register */
#define HDC1001_OP_DRIVE 0x00
#define HDC1001_OP_CYL 0x01
#define HDC1001_OP_HEAD 0x02
#define HDC1001_OP_SECTOR 0x03
#define HDC1001_CMD_NULL 0x00
#define HDC1001_CMD_READ_DATA 0x01
#define HDC1001_CMD_WRITE_DATA 0x02
#define HDC1001_CMD_WRITE_HEADER 0x03
#define HDC1001_CMD_READ_HEADER 0x04
#define HDC1001_STATUS_BUSY 0
#define HDC1001_STATUS_RANGE 1
#define HDC1001_STATUS_NOT_READY 2
#define HDC1001_STATUS_TIMEOUT 3
#define HDC1001_STATUS_DAT_CRC 4
#define HDC1001_STATUS_WR_FAULT 5
#define HDC1001_STATUS_OVERRUN 6
#define HDC1001_STATUS_HDR_CRC 7
#define HDC1001_STATUS_MAP_FULL 8
#define HDC1001_STATUS_COMPLETE 0xFF /* Complete with No Error */
#define HDC1001_CODE_NOOP 0x00
#define HDC1001_CODE_VERSION 0x01
#define HDC1001_CODE_GLOBAL 0x02
#define HDC1001_CODE_SPECIFY 0x03
#define HDC1001_CODE_SET_MAP 0x04
#define HDC1001_CODE_HOME 0x05
#define HDC1001_CODE_SEEK 0x06
#define HDC1001_CODE_READ_HDR 0x07
#define HDC1001_CODE_READWRITE 0x08
#define HDC1001_CODE_RELOCATE 0x09
#define HDC1001_CODE_FORMAT 0x0A
#define HDC1001_CODE_FORMAT_BAD 0x0B
#define HDC1001_CODE_STATUS 0x0C
#define HDC1001_CODE_SELECT 0x0D
#define HDC1001_CODE_EXAMINE 0x0E
#define HDC1001_CODE_MODIFY 0x0F
#define HDC1001_IOPB_LEN 16
#define TF_DATA 0
#define TF_ERROR 1
#define TF_SECNT 2
#define TF_SECNO 3
#define TF_CYLLO 4
#define TF_CYLHI 5
#define TF_SDH 6
#define TF_CMD 7
static uint8 HDC1001_Write(const uint32 Addr, uint8 cData)
{
/* uint8 result = HDC1001_STATUS_COMPLETE; */
HDC1001_DRIVE_INFO *pDrive;
pDrive = &hdc1001_info->drive[hdc1001_info->sel_drive];
switch(Addr & 0x07) {
case TF_SDH:
hdc1001_info->sel_drive = (cData >> 3) & 0x03;
case TF_DATA:
case TF_ERROR:
case TF_SECNT:
case TF_SECNO:
case TF_CYLLO:
case TF_CYLHI:
hdc1001_info->taskfile[Addr & 0x07] = cData;
sim_debug(VERBOSE_MSG, &hdc1001_dev, "HDC1001: " ADDRESS_FORMAT
" WR TF[%d]=0x%02x\n", PCX, Addr & 7, cData);
break;
case TF_CMD:
pDrive->track = hdc1001_info->taskfile[TF_CYLLO] | (hdc1001_info->taskfile[TF_CYLHI] << 8);
pDrive->xfr_nsects = hdc1001_info->taskfile[TF_SECNT];
sim_debug(CMD_MSG, &hdc1001_dev, "HDC1001[%d]: Command=%d, T:%d/H:%d/S:%d N=%d\n",
hdc1001_info->sel_drive,
hdc1001_info->taskfile[TF_CMD],
pDrive->track, hdc1001_info->taskfile[TF_SDH] & 0x07,
hdc1001_info->taskfile[TF_SECNO], pDrive->xfr_nsects);
break;
default:
break;
}
return 0;
}
static uint8 HDC1001_Read(const uint32 Addr)
{
uint8 cData;
cData = hdc1001_info->taskfile[Addr & 0x07];
sim_debug(VERBOSE_MSG, &hdc1001_dev, "HDC1001: " ADDRESS_FORMAT
" RD TF[%d]=0x%02x\n", PCX, Addr & 7, cData);
return (cData);
}
#if 0
for(i = 0; i < HDC1001_IOPB_LEN; i++) {
hdc1001_info->iopb[i] = GetBYTEWrapper(hdc1001_info->link_addr + i);
}
cmd = hdc1001_info->iopb[0];
hdc1001_info->sel_drive = hdc1001_info->iopb[2];
hdc1001_info->dma_addr = hdc1001_info->iopb[0x0A];
hdc1001_info->dma_addr |= hdc1001_info->iopb[0x0B] << 8;
hdc1001_info->dma_addr |= hdc1001_info->iopb[0x0C] << 16;
next_link = hdc1001_info->iopb[0x0D];
next_link |= hdc1001_info->iopb[0x0E] << 8;
next_link |= hdc1001_info->iopb[0x0F] << 16;
sim_debug(VERBOSE_MSG, &hdc1001_dev, "HDC1001[%d]: LINK=0x%05x, NEXT=0x%05x, CMD=%x, DMA@0x%05x\n", hdc1001_info->sel_drive, hdc1001_info->link_addr, next_link, hdc1001_info->iopb[0], hdc1001_info->dma_addr);
if(pDrive->ready) {
/* Perform command */
switch(cmd) {
case HDC1001_CODE_NOOP:
sim_debug(VERBOSE_MSG, &hdc1001_dev, "HDC1001[%d]: " ADDRESS_FORMAT " NOOP\n", hdc1001_info->sel_drive, PCX);
break;
case HDC1001_CODE_VERSION:
break;
case HDC1001_CODE_GLOBAL:
sim_debug(CMD_MSG, &hdc1001_dev, "HDC1001[%d]: " ADDRESS_FORMAT " GLOBAL\n", hdc1001_info->sel_drive, PCX);
hdc1001_info->mode = hdc1001_info->iopb[3];
hdc1001_info->retries = hdc1001_info->iopb[4];
hdc1001_info->ndrives = hdc1001_info->iopb[5];
sim_debug(VERBOSE_MSG, &hdc1001_dev, " Mode: 0x%02x\n", hdc1001_info->mode);
sim_debug(VERBOSE_MSG, &hdc1001_dev, " # Retries: 0x%02x\n", hdc1001_info->retries);
sim_debug(VERBOSE_MSG, &hdc1001_dev, " # Drives: 0x%02x\n", hdc1001_info->ndrives);
break;
case HDC1001_CODE_SPECIFY:
{
uint8 specify_data[22];
sim_debug(CMD_MSG, &hdc1001_dev, "HDC1001[%d]: " ADDRESS_FORMAT " SPECIFY\n", hdc1001_info->sel_drive, PCX);
for(i = 0; i < 22; i++) {
specify_data[i] = GetBYTEWrapper(hdc1001_info->dma_addr + i);
}
pDrive->sectsize = specify_data[4] | (specify_data[5] << 8);
pDrive->nsectors = specify_data[6] | (specify_data[7] << 8);
pDrive->nheads = specify_data[8] | (specify_data[9] << 8);
pDrive->ntracks = specify_data[10] | (specify_data[11] << 8);
pDrive->res_tracks = specify_data[18] | (specify_data[19] << 8);
sim_debug(VERBOSE_MSG, &hdc1001_dev, " Sectsize: %d\n", pDrive->sectsize);
sim_debug(VERBOSE_MSG, &hdc1001_dev, " Sectors: %d\n", pDrive->nsectors);
sim_debug(VERBOSE_MSG, &hdc1001_dev, " Heads: %d\n", pDrive->nheads);
sim_debug(VERBOSE_MSG, &hdc1001_dev, " Tracks: %d\n", pDrive->ntracks);
sim_debug(VERBOSE_MSG, &hdc1001_dev, " Reserved: %d\n", pDrive->res_tracks);
break;
}
case HDC1001_CODE_HOME:
pDrive->track = 0;
sim_debug(SEEK_MSG, &hdc1001_dev, "HDC1001[%d]: " ADDRESS_FORMAT " HOME\n", hdc1001_info->sel_drive, PCX);
break;
case HDC1001_CODE_SEEK:
pDrive->track = hdc1001_info->iopb[3];
pDrive->track |= (hdc1001_info->iopb[4] << 8);
if(pDrive->track > pDrive->ntracks) {
sim_debug(ERROR_MSG, &hdc1001_dev, "HDC1001[%d]: " ADDRESS_FORMAT " SEEK ERROR %d not found\n", hdc1001_info->sel_drive, PCX, pDrive->track);
pDrive->track = pDrive->ntracks - 1;
result = HDC1001_STATUS_TIMEOUT;
} else {
sim_debug(SEEK_MSG, &hdc1001_dev, "HDC1001[%d]: " ADDRESS_FORMAT " SEEK %d\n", hdc1001_info->sel_drive, PCX, pDrive->track);
}
break;
case HDC1001_CODE_READ_HDR:
{
sim_debug(CMD_MSG, &hdc1001_dev, "HDC1001[%d]: " ADDRESS_FORMAT " READ HEADER: %d\n", pDrive->track, PCX);
PutBYTEWrapper(hdc1001_info->dma_addr + 0, pDrive->track & 0xFF);
PutBYTEWrapper(hdc1001_info->dma_addr + 1, (pDrive->track >> 8) & 0xFF);
PutBYTEWrapper(hdc1001_info->dma_addr + 2, 0);
PutBYTEWrapper(hdc1001_info->dma_addr + 3, 1);
break;
}
case HDC1001_CODE_READWRITE:
{
uint32 track_len;
uint32 xfr_len;
uint32 file_offset;
uint32 xfr_count = 0;
uint8 *dataBuffer;
pDrive->cur_sect = hdc1001_info->iopb[4] | (hdc1001_info->iopb[5] << 8);
pDrive->cur_track = hdc1001_info->iopb[6] | (hdc1001_info->iopb[7] << 8);
pDrive->xfr_nsects = hdc1001_info->iopb[8] | (hdc1001_info->iopb[9] << 8);
track_len = pDrive->nsectors * pDrive->sectsize;
file_offset = (pDrive->cur_track * track_len); /* Calculate offset based on current track */
file_offset += pDrive->cur_sect + pDrive->sectsize;
xfr_len = pDrive->xfr_nsects * pDrive->sectsize;
dataBuffer = malloc(xfr_len);
sim_fseek((pDrive->uptr)->fileref, file_offset, SEEK_SET);
if(hdc1001_info->iopb[3] == 1) { /* Read */
sim_debug(RD_DATA_MSG, &hdc1001_dev, "HDC1001[%d]: " ADDRESS_FORMAT " READ @0x%05x T:%04d/S:%04d/#:%d\n", hdc1001_info->sel_drive, PCX, hdc1001_info->dma_addr, pDrive->cur_track, pDrive->cur_sect, pDrive->xfr_nsects );
sim_fread(dataBuffer, 1, xfr_len, (pDrive->uptr)->fileref);
/* Perform DMA Transfer */
for(xfr_count = 0;xfr_count < xfr_len; xfr_count++) {
PutBYTEWrapper(hdc1001_info->dma_addr + xfr_count, dataBuffer[xfr_count]);
}
} else { /* Write */
sim_debug(WR_DATA_MSG, &hdc1001_dev, "HDC1001[%d]: " ADDRESS_FORMAT " WRITE @0x%05x T:%04d/S:%04d/#:%d\n", hdc1001_info->sel_drive, PCX, hdc1001_info->dma_addr, pDrive->cur_track, pDrive->cur_sect, pDrive->xfr_nsects );
/* Perform DMA Transfer */
for(xfr_count = 0;xfr_count < xfr_len; xfr_count++) {
dataBuffer[xfr_count] = GetBYTEWrapper(hdc1001_info->dma_addr + xfr_count);
}
sim_fwrite(dataBuffer, 1, xfr_len, (pDrive->uptr)->fileref);
}
free(dataBuffer);
break;
}
case HDC1001_CODE_FORMAT:
{
uint32 data_len;
uint32 file_offset;
uint8 *fmtBuffer;
data_len = pDrive->nsectors * pDrive->sectsize;
sim_debug(WR_DATA_MSG, &hdc1001_dev, "HDC1001[%d]: " ADDRESS_FORMAT " FORMAT T:%d/H:%d/Fill=0x%02x/Len=%d\n", hdc1001_info->sel_drive, PCX, pDrive->track, hdc1001_info->iopb[5], hdc1001_info->iopb[4], data_len );
file_offset = (pDrive->track * (pDrive->nheads) * data_len); /* Calculate offset based on current track */
file_offset += (hdc1001_info->iopb[5] * data_len);
fmtBuffer = malloc(data_len);
memset(fmtBuffer, hdc1001_info->iopb[4], data_len);
sim_fseek((pDrive->uptr)->fileref, file_offset, SEEK_SET);
sim_fwrite(fmtBuffer, 1, data_len, (pDrive->uptr)->fileref);
free(fmtBuffer);
break;
}
case HDC1001_CODE_SET_MAP:
case HDC1001_CODE_RELOCATE:
case HDC1001_CODE_FORMAT_BAD:
case HDC1001_CODE_STATUS:
case HDC1001_CODE_SELECT:
case HDC1001_CODE_EXAMINE:
case HDC1001_CODE_MODIFY:
default:
sim_debug(ERROR_MSG, &hdc1001_dev, "HDC1001[%d]: " ADDRESS_FORMAT " CMD=%x Unsupported\n", hdc1001_info->sel_drive, PCX, cmd);
break;
}
} else { /* Drive not ready */
result = HDC1001_STATUS_NOT_READY;
}
/* Return status */
PutBYTEWrapper(hdc1001_info->link_addr + 1, result);
hdc1001_info->link_addr = next_link;
return 0;
}
#endif /* 0 */
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