xmil/io/fdc.c - diff

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Diff for /xmil/io/fdc.c between versions 1.15 and 1.19

version 1.15, 2004/08/14 12:16:17	version 1.19, 2004/08/18 08:08:13
Line 12	Line 12

static const UINT8 fdctype[] = {1,1,1,1,1,1,1,1,2,2,2,2,3,4,3,3};	static const UINT8 fdctype[] = {1,1,1,1,1,1,1,1,2,2,2,2,3,4,3,3};

	enum {
	TAO_MODE_GAP = 0x4e,
	TAO_MODE_SYNC = 0x00,
	TAO_MODE_AM = 0xf5,
	TAO_MODE_IM = 0xf6,
	TAO_MODE_ID = 0xfe,
	TAO_MODE_DATA = 0xfb,
	TAO_ENDOFDATA = 0xf7,

	TAO_CMD_GAP = 0x4e,
	TAO_CMD_SYNC = 0x00,
	TAO_CMD_IM_IN = 0xf6,
	TAO_CMD_IM = 0xfc,
	TAO_CMD_AM_IN = 0xf5,
	TAO_CMD_IAM = 0xfe,
	TAO_CMD_DAM = 0xfb,
	TAO_CMD_DDAM = 0xf8,
	TAO_CMD_CRC = 0xf7
	};


	// ----

void neitem_fdcbusy(UINT id) {	void neitem_fdcbusy(UINT id) {

Line 35 static void setbusy(SINT32 clock) {	Line 57 static void setbusy(SINT32 clock) {
}	}
}	}

	#if defined(SUPPORT_MOTORRISEUP)
static void setmotor(REG8 drvcmd) {	static void setmotor(REG8 drvcmd) {

UINT drv;	UINT drv;
Line 80 void fdc_callback(void) {	Line 103 void fdc_callback(void) {
}	}
}	}

	static SINT32 motorwait(REG8 drv) {

	SINT32 curclock;
	SINT32 nextclock;

	if (fdc.s.motorevent[drv] == FDCMOTOR_STARTING) {
	curclock = CPU_CLOCK + CPU_BASECLOCK - CPU_REMCLOCK;
	curclock -= fdc.s.motorclock[drv];
	if (curclock < (SINT32)pccore.realclock) {
	nextclock = pccore.realclock - curclock;
	// TRACEOUT(("motor starting busy %d", nextclock));
	return(nextclock);
	}
	}
	return(0);
	}
	#endif


static REG8 getstat(void) {	static REG8 getstat(void) {

FDDFILE fdd;	FDDFILE fdd;
Line 149 static REG8 type2cmd(REG8 sc) {	Line 191 static REG8 type2cmd(REG8 sc) {
FDDFILE fdd;	FDDFILE fdd;
UINT size;	UINT size;
REG8 stat;	REG8 stat;
#if defined(SUPPORT_DISKEXT)
SINT32 clock;	SINT32 clock;
	#if defined(SUPPORT_DISKEXT)
SINT32 curclock;	SINT32 curclock;
SINT32 nextclock;	SINT32 nextclock;
UINT32 secinfo;	UINT32 secinfo;
Line 167 static REG8 type2cmd(REG8 sc) {	Line 209 static REG8 type2cmd(REG8 sc) {
}	}
size = sizeof(fdc.s.buffer);	size = sizeof(fdc.s.buffer);
fdd = fddfile + fdc.s.drv;	fdd = fddfile + fdc.s.drv;
TRACEOUT(("read %.2x %d %d", fdc.s.drv, track, sc));	// TRACEOUT(("read %.2x %d %d", fdc.s.drv, track, sc));
stat = fdd->read(fdd, fdc.s.media, track, sc, p, &size);	stat = fdd->read(fdd, fdc.s.media, track, sc, p, &size);
if (stat & FDDSTAT_RECNFND) {	if (stat & FDDSTAT_RECNFND) {
size = 0;	size = 0;
Line 190 static REG8 type2cmd(REG8 sc) {	Line 232 static REG8 type2cmd(REG8 sc) {
fdc.s.bufsize = size;	fdc.s.bufsize = size;
fdc.s.curtime = 0;	fdc.s.curtime = 0;

#if defined(SUPPORT_DISKEXT)
// ��ͤ�׻�
clock = 0;	clock = 0;
if (fdc.s.motorevent[fdc.s.drv] == FDCMOTOR_STARTING) {	#if defined(SUPPORT_MOTORRISEUP)
curclock = CPU_CLOCK + CPU_BASECLOCK - CPU_REMCLOCK;	clock += motorwait(fdc.s.drv);
curclock -= fdc.s.motorclock[fdc.s.drv];	#endif
if (curclock < (SINT32)pccore.realclock) {	#if defined(SUPPORT_DISKEXT)
nextclock = pccore.realclock - curclock;
TRACEOUT(("motor starting busy %d", nextclock));
clock += nextclock;
}
}
secinfo = fdd->sec(fdd, fdc.s.media, track, sc);	secinfo = fdd->sec(fdd, fdc.s.media, track, sc);
if (secinfo) {	if (secinfo) {
nextclock = LOW16(secinfo);	nextclock = LOW16(secinfo);
Line 212 static REG8 type2cmd(REG8 sc) {	Line 247 static REG8 type2cmd(REG8 sc) {
if (nextclock < 0) {	if (nextclock < 0) {
nextclock += fdc.s.loopclock;	nextclock += fdc.s.loopclock;
}	}
TRACEOUT(("wait clock -> %d [%d/%d]", nextclock,	// TRACEOUT(("wait clock -> %d [%d/%d]", nextclock,
LOW16(secinfo), LOW16(secinfo >> 16)));	// LOW16(secinfo), LOW16(secinfo >> 16)));
clock += nextclock;	clock += nextclock;
}	}
setbusy(max(clock, 500));
#else
setbusy(500);
#endif	#endif
	setbusy(max(clock, 500));
return(stat);	return(stat);
}	}

Line 244 static REG8 crccmd(void) {	Line 277 static REG8 crccmd(void) {

track = (fdc.s.c << 1) + fdc.s.h;	track = (fdc.s.c << 1) + fdc.s.h;
fdd = fddfile + fdc.s.drv;	fdd = fddfile + fdc.s.drv;
TRACEOUT(("fdd->crc %d %d %d", fdc.s.drv, track, fdc.s.crcnum));	// TRACEOUT(("fdd->crc %d %d %d", fdc.s.drv, track, fdc.s.crcnum));
stat = fdd->crc(fdd, fdc.s.media, track, fdc.s.crcnum, fdc.s.buffer);	stat = fdd->crc(fdd, fdc.s.media, track, fdc.s.crcnum, fdc.s.buffer);
if (stat & FDDSTAT_RECNFND) {	if (stat & FDDSTAT_RECNFND) {
fdc.s.crcnum = 0;	fdc.s.crcnum = 0;
Line 316 void IOOUTCALL fdc_o(UINT port, REG8 val	Line 349 void IOOUTCALL fdc_o(UINT port, REG8 val
fdc.s.cmd = value;	fdc.s.cmd = value;
cmd = (REG8)(value >> 4);	cmd = (REG8)(value >> 4);
fdc.s.type = fdctype[cmd];	fdc.s.type = fdctype[cmd];
TRACEOUT(("fdc cmd: %.2x", value));	// TRACEOUT(("fdc cmd: %.2x", value));
if (fdc.s.bufwrite) {	if (fdc.s.bufwrite) {
fdc.s.stat = type2flash();	fdc.s.stat = type2flash();
}	}
Line 440 void IOOUTCALL fdc_o(UINT port, REG8 val	Line 473 void IOOUTCALL fdc_o(UINT port, REG8 val
fdc.s.r = 0; // SACOM TELENET	fdc.s.r = 0; // SACOM TELENET
fdc.s.rreg = 0;	fdc.s.rreg = 0;
}	}
	#if defined(SUPPORT_MOTORRISEUP)
setmotor(value);	setmotor(value);
	#endif
break;	break;
}	}
}	}
Line 473 REG8 IOINPCALL fdc_i(UINT port) {	Line 508 REG8 IOINPCALL fdc_i(UINT port) {
if (!(ret & 0x02)) {	if (!(ret & 0x02)) {
dmac_sendready(FALSE);	dmac_sendready(FALSE);
}	}
TRACEOUT(("ret->%.2x", ret));	// TRACEOUT(("ret->%.2x", ret));
return(ret);	return(ret);

case 1: // �ȥ�å�	case 1: // �ȥ�å�
Line 486 REG8 IOINPCALL fdc_i(UINT port) {	Line 521 REG8 IOINPCALL fdc_i(UINT port) {
if (fdc.s.motor) {	if (fdc.s.motor) {
if (fdc.s.bufdir == FDCDIR_IN) {	if (fdc.s.bufdir == FDCDIR_IN) {
fdc.s.data = fdc.s.buffer[fdc.s.bufpos];	fdc.s.data = fdc.s.buffer[fdc.s.bufpos];
TRACEOUT(("read %.2x - %.2x [%.4x]", fdc.s.bufpos, fdc.s.data, Z80_PC));	// TRACEOUT(("read %.2x - %.2x [%.4x]", fdc.s.bufpos, fdc.s.data, Z80_PC));
bufposinc();	bufposinc();
}	}
}	}

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Removed from v.1.15
changed lines
	Added in v.1.19