np2/generic/hostdrv.c - diff

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Diff for /np2/generic/hostdrv.c between versions 1.16 and 1.19

version 1.16, 2005/02/14 06:25:31	version 1.19, 2011/02/02 03:51:18
Line 66 static void fetch_if4dos(void) {	Line 66 static void fetch_if4dos(void) {
REG16 seg;	REG16 seg;
IF4DOS if4dos;	IF4DOS if4dos;

off = i286_memoryread_w(IF4DOSPTR_ADDR);	off = MEMR_READ16(IF4DOSPTR_SEG, IF4DOSPTR_OFF + 0);
seg = i286_memoryread_w(IF4DOSPTR_ADDR + 2);	seg = MEMR_READ16(IF4DOSPTR_SEG, IF4DOSPTR_OFF + 2);
MEML_READSTR(seg, off, &if4dos, sizeof(if4dos));	MEMR_READS(seg, off, &if4dos, sizeof(if4dos));
hostdrv.stat.drive_no = if4dos.drive_no;	hostdrv.stat.drive_no = if4dos.drive_no;
hostdrv.stat.dosver_major = if4dos.dosver_major;	hostdrv.stat.dosver_major = if4dos.dosver_major;
hostdrv.stat.dosver_minor = if4dos.dosver_minor;	hostdrv.stat.dosver_minor = if4dos.dosver_minor;
Line 83 static void fetch_if4dos(void) {	Line 83 static void fetch_if4dos(void) {

static void fetch_intr_regs(INTRST is) {	static void fetch_intr_regs(INTRST is) {

MEML_READSTR(CPU_SS, CPU_BP, &is->r, sizeof(is->r));	MEMR_READS(CPU_SS, CPU_BP, &is->r, sizeof(is->r));
}	}

static void store_intr_regs(INTRST is) {	static void store_intr_regs(INTRST is) {

MEML_WRITESTR(CPU_SS, CPU_BP, &is->r, sizeof(is->r));	MEMR_WRITES(CPU_SS, CPU_BP, &is->r, sizeof(is->r));
}	}


Line 98 static void fetch_sda_currcds(SDACDS sc)	Line 98 static void fetch_sda_currcds(SDACDS sc)
REG16 seg;	REG16 seg;

if (hostdrv.stat.dosver_major == 3) {	if (hostdrv.stat.dosver_major == 3) {
MEML_READSTR(hostdrv.stat.sda_seg, hostdrv.stat.sda_off,	MEMR_READS(hostdrv.stat.sda_seg, hostdrv.stat.sda_off,
&sc->ver3.sda, sizeof(sc->ver3.sda));	&sc->ver3.sda, sizeof(sc->ver3.sda));
off = LOADINTELWORD(sc->ver3.sda.cdsptr.off);	off = LOADINTELWORD(sc->ver3.sda.cdsptr.off);
seg = LOADINTELWORD(sc->ver3.sda.cdsptr.seg);	seg = LOADINTELWORD(sc->ver3.sda.cdsptr.seg);
MEML_READSTR(seg, off, &sc->ver3.cds, sizeof(sc->ver3.cds));	MEMR_READS(seg, off, &sc->ver3.cds, sizeof(sc->ver3.cds));
}	}
else {	else {
MEML_READSTR(hostdrv.stat.sda_seg, hostdrv.stat.sda_off,	MEMR_READS(hostdrv.stat.sda_seg, hostdrv.stat.sda_off,
&sc->ver4.sda, sizeof(sc->ver4.sda));	&sc->ver4.sda, sizeof(sc->ver4.sda));
off = LOADINTELWORD(sc->ver4.sda.cdsptr.off);	off = LOADINTELWORD(sc->ver4.sda.cdsptr.off);
seg = LOADINTELWORD(sc->ver4.sda.cdsptr.seg);	seg = LOADINTELWORD(sc->ver4.sda.cdsptr.seg);
MEML_READSTR(seg, off, &sc->ver4.cds, sizeof(sc->ver4.cds));	MEMR_READS(seg, off, &sc->ver4.cds, sizeof(sc->ver4.cds));
}	}
}	}

Line 119 static void store_sda_currcds(SDACDS sc)	Line 119 static void store_sda_currcds(SDACDS sc)
REG16 seg;	REG16 seg;

if (hostdrv.stat.dosver_major == 3) {	if (hostdrv.stat.dosver_major == 3) {
MEML_WRITESTR(hostdrv.stat.sda_seg, hostdrv.stat.sda_off,	MEMR_WRITES(hostdrv.stat.sda_seg, hostdrv.stat.sda_off,
&sc->ver3.sda, sizeof(sc->ver3.sda));	&sc->ver3.sda, sizeof(sc->ver3.sda));
off = LOADINTELWORD(sc->ver3.sda.cdsptr.off);	off = LOADINTELWORD(sc->ver3.sda.cdsptr.off);
seg = LOADINTELWORD(sc->ver3.sda.cdsptr.seg);	seg = LOADINTELWORD(sc->ver3.sda.cdsptr.seg);
MEML_WRITESTR(seg, off, &sc->ver3.cds, sizeof(sc->ver3.cds));	MEMR_WRITES(seg, off, &sc->ver3.cds, sizeof(sc->ver3.cds));
}	}
else {	else {
MEML_WRITESTR(hostdrv.stat.sda_seg, hostdrv.stat.sda_off,	MEMR_WRITES(hostdrv.stat.sda_seg, hostdrv.stat.sda_off,
&sc->ver4.sda, sizeof(sc->ver4.sda));	&sc->ver4.sda, sizeof(sc->ver4.sda));
off = LOADINTELWORD(sc->ver4.sda.cdsptr.off);	off = LOADINTELWORD(sc->ver4.sda.cdsptr.off);
seg = LOADINTELWORD(sc->ver4.sda.cdsptr.seg);	seg = LOADINTELWORD(sc->ver4.sda.cdsptr.seg);
MEML_WRITESTR(seg, off, &sc->ver4.cds, sizeof(sc->ver4.cds));	MEMR_WRITES(seg, off, &sc->ver4.cds, sizeof(sc->ver4.cds));
}	}
}	}

Line 142 static void fetch_sft(INTRST is, SFTREC	Line 142 static void fetch_sft(INTRST is, SFTREC

off = LOADINTELWORD(is->r.w.di);	off = LOADINTELWORD(is->r.w.di);
seg = LOADINTELWORD(is->r.w.es);	seg = LOADINTELWORD(is->r.w.es);
MEML_READSTR(seg, off, sft, sizeof(_SFTREC));	MEMR_READS(seg, off, sft, sizeof(_SFTREC));
}	}

static void store_sft(INTRST is, SFTREC sft) {	static void store_sft(INTRST is, SFTREC sft) {
Line 152 static void store_sft(INTRST is, SFTREC	Line 152 static void store_sft(INTRST is, SFTREC

off = LOADINTELWORD(is->r.w.di);	off = LOADINTELWORD(is->r.w.di);
seg = LOADINTELWORD(is->r.w.es);	seg = LOADINTELWORD(is->r.w.es);
MEML_WRITESTR(seg, off, sft, sizeof(_SFTREC));	MEMR_WRITES(seg, off, sft, sizeof(_SFTREC));
}	}


Line 359 static BOOL read_data(UINT num, UINT32 p	Line 359 static BOOL read_data(UINT num, UINT32 p
if (file_read(fh, work, r) != r) {	if (file_read(fh, work, r) != r) {
return(FAILURE);	return(FAILURE);
}	}
MEML_WRITESTR(seg, off, work, r);	MEMR_WRITES(seg, off, work, r);
off += r;	off += r;
size -= r;	size -= r;
}	}
Line 387 static BOOL write_data(UINT num, UINT32	Line 387 static BOOL write_data(UINT num, UINT32
else {	else {
do {	do {
r = min(size, sizeof(work));	r = min(size, sizeof(work));
MEML_READSTR(seg, off, work, r);	MEMR_READS(seg, off, work, r);
if (file_write(fh, work, r) != r) {	if (file_write(fh, work, r) != r) {
return(FAILURE);	return(FAILURE);
}	}
Line 697 static void set_fileattr(INTRST intrst)	Line 697 static void set_fileattr(INTRST intrst)
fail(intrst, ERR_ACCESSDENIED);	fail(intrst, ERR_ACCESSDENIED);
return;	return;
}	}
attr = MEML_READ16(CPU_SS, CPU_BP + sizeof(IF4INTR)) & 0x37;	attr = MEMR_READ16(CPU_SS, CPU_BP + sizeof(IF4INTR)) & 0x37;

// ��Ȥˤ��...	// ��Ȥˤ��...
succeed(intrst);	succeed(intrst);
Line 970 static void do_redir(INTRST intrst) {	Line 970 static void do_redir(INTRST intrst) {
if (pathishostdrv(intrst, &sc) != SUCCESS) {	if (pathishostdrv(intrst, &sc) != SUCCESS) {
return;	return;
}	}
mode = MEML_READ16(CPU_SS, CPU_BP + sizeof(IF4INTR));	mode = MEMR_READ16(CPU_SS, CPU_BP + sizeof(IF4INTR));
TRACEOUT(("do_redir: %.4x", mode));	TRACEOUT(("do_redir: %.4x", mode));
switch(mode) {	switch(mode) {
case 0x5f02:	case 0x5f02:
Line 979 static void do_redir(INTRST intrst) {	Line 979 static void do_redir(INTRST intrst) {
fail(intrst, 0x12);	fail(intrst, 0x12);
return;	return;
}	}
MEML_WRITE16(CPU_DS, CPU_BX + 2, 4);	MEMR_WRITE16(CPU_DS, CPU_BX + 2, 4);
MEML_WRITE16(CPU_DS, CPU_BX + 4, 1);	MEMR_WRITE16(CPU_DS, CPU_BX + 4, 1);
tmp[0] = (char)('A' + hostdrv.stat.drive_no);	tmp[0] = (char)('A' + hostdrv.stat.drive_no);
tmp[1] = ':';	tmp[1] = ':';
tmp[2] = '\0';	tmp[2] = '\0';
MEML_WRITESTR(LOADINTELWORD(intrst->r.w.ds),	MEMR_WRITES(LOADINTELWORD(intrst->r.w.ds),
LOADINTELWORD(intrst->r.w.si), tmp, 3);	LOADINTELWORD(intrst->r.w.si), tmp, 3);
MEML_WRITESTR(LOADINTELWORD(intrst->r.w.es),	MEMR_WRITES(LOADINTELWORD(intrst->r.w.es),
LOADINTELWORD(intrst->r.w.di),	LOADINTELWORD(intrst->r.w.di),
ROOTPATH, ROOTPATH_SIZE + 1);	ROOTPATH, ROOTPATH_SIZE + 1);
break;	break;
Line 1259 void hostdrv_reset(void) {	Line 1259 void hostdrv_reset(void) {
void hostdrv_mount(const void *arg1, long arg2) {	void hostdrv_mount(const void *arg1, long arg2) {

if ((np2cfg.hdrvroot[0] == '\0') \|\| (hostdrv.stat.is_mount)) {	if ((np2cfg.hdrvroot[0] == '\0') \|\| (hostdrv.stat.is_mount)) {
np2sysp_outstr("ng", 0);	np2sysp_outstr(OEMTEXT("ng"), 0);
return;	return;
}	}
hostdrv.stat.is_mount = TRUE;	hostdrv.stat.is_mount = TRUE;
fetch_if4dos();	fetch_if4dos();
np2sysp_outstr("ok", 0);	np2sysp_outstr(OEMTEXT("ok"), 0);
(void)arg1;	(void)arg1;
(void)arg2;	(void)arg2;
}	}

RetroPC.NET-CVS <cvs@retropc.net>

Removed from v.1.16
changed lines
	Added in v.1.19