np2/i386c/memory.c - diff

Return to memory.c CVS log

Up to [RetroPC.NET] / np2 / i386c

Diff for /np2/i386c/memory.c between versions 1.37 and 1.40

version 1.37, 2012/01/23 10:23:54	version 1.40, 2012/01/29 14:53:54
Line 552 void MEMCALL memp_reads(UINT32 address,	Line 552 void MEMCALL memp_reads(UINT32 address,

void MEMCALL memp_writes(UINT32 address, const void *dat, UINT leng) {	void MEMCALL memp_writes(UINT32 address, const void *dat, UINT leng) {

const UINT8 *out = dat;	const UINT8 out = (UINT8 )dat;
UINT diff;	UINT diff;

/* fast memory access */	/* fast memory access */
Line 582 void MEMCALL memp_writes(UINT32 address,	Line 582 void MEMCALL memp_writes(UINT32 address,

// ---- Logical Space (BIOS)	// ---- Logical Space (BIOS)

	static UINT32 MEMCALL physicaladdr(UINT32 addr, BOOL wr) {

	UINT32 a;
	UINT32 pde;
	UINT32 pte;

	a = CPU_STAT_PDE_BASE + ((addr >> 20) & 0xffc);
	pde = memp_read32(a);
	if (!(pde & CPU_PDE_PRESENT)) {
	goto retdummy;
	}
	if (!(pde & CPU_PDE_ACCESS)) {
	memp_write8(a, (UINT8)(pde \| CPU_PDE_ACCESS));
	}
	a = (pde & CPU_PDE_BASEADDR_MASK) + ((addr >> 10) & 0xffc);
	pte = cpu_memoryread_d(a);
	if (!(pte & CPU_PTE_PRESENT)) {
	goto retdummy;
	}
	if (!(pte & CPU_PTE_ACCESS)) {
	memp_write8(a, (UINT8)(pte \| CPU_PTE_ACCESS));
	}
	if ((wr) && (!(pte & CPU_PTE_DIRTY))) {
	memp_write8(a, (UINT8)(pte \| CPU_PTE_DIRTY));
	}
	addr = (pte & CPU_PTE_BASEADDR_MASK) + (addr & 0x00000fff);
	return(addr);

	retdummy:
	return(0x01000000); /* XXX */
	}


void MEMCALL meml_reads(UINT32 address, void *dat, UINT leng) {	void MEMCALL meml_reads(UINT32 address, void *dat, UINT leng) {

if (!CPU_STAT_PM) {	UINT size;

	if (!CPU_STAT_PAGING) {
memp_reads(address, dat, leng);	memp_reads(address, dat, leng);
}	}
else if (CPU_STAT_VM86) {
cpu_memory_access_la_region(address, leng,
CPU_PAGE_READ_DATA \| CPU_PAGE_USER_MODE, dat);
}
else {	else {
ia32_panic("%s: call from BIOS, but protected mode", __func__);	while(leng) {
	size = 0x1000 - (address & 0xfff);
	size = min(size, leng);
	memp_reads(physicaladdr(address, FALSE), dat, size);
	address += size;
	dat = ((UINT8 *)dat) + size;
	leng -= size;
	}
}	}
}	}

void MEMCALL meml_writes(UINT32 address, const void *dat, UINT leng) {	void MEMCALL meml_writes(UINT32 address, const void *dat, UINT leng) {

if (!CPU_STAT_PM) {	UINT size;

	if (!CPU_STAT_PAGING) {
memp_writes(address, dat, leng);	memp_writes(address, dat, leng);
}	}
else if (CPU_STAT_VM86) {
cpu_memory_access_la_region(address, leng,
CPU_PAGE_WRITE_DATA \| CPU_PAGE_USER_MODE, (UINT8 *)dat);
}
else {	else {
ia32_panic("%s: call from BIOS, but protected mode", __func__);	while(leng) {
	size = 0x1000 - (address & 0xfff);
	size = min(size, leng);
	memp_writes(physicaladdr(address, TRUE), dat, size);
	address += size;
	dat = ((UINT8 *)dat) + size;
	leng -= size;
	}
}	}
}	}

Line 616 REG8 MEMCALL memr_read8(UINT seg, UINT o	Line 659 REG8 MEMCALL memr_read8(UINT seg, UINT o
UINT32 addr;	UINT32 addr;

addr = (seg << 4) + LOW16(off);	addr = (seg << 4) + LOW16(off);
if (!CPU_STAT_PM) {	if (CPU_STAT_PAGING) {
return(memp_read8(addr));	addr = physicaladdr(addr, FALSE);
}
else if (CPU_STAT_VM86) {
return(cpu_linear_memory_read_b(addr,
CPU_PAGE_READ_DATA \| CPU_PAGE_USER_MODE));
}
else {
ia32_panic("%s: call from BIOS, but protected mode", __func__);
return(0xff);
}	}
	return(memp_read8(addr));
}	}

REG16 MEMCALL memr_read16(UINT seg, UINT off) {	REG16 MEMCALL memr_read16(UINT seg, UINT off) {
Line 634 REG16 MEMCALL memr_read16(UINT seg, UINT	Line 670 REG16 MEMCALL memr_read16(UINT seg, UINT
UINT32 addr;	UINT32 addr;

addr = (seg << 4) + LOW16(off);	addr = (seg << 4) + LOW16(off);
if (!CPU_STAT_PM) {	if (!CPU_STAT_PAGING) {
return(memp_read16(addr));	return(memp_read16(addr));
}	}
else if (CPU_STAT_VM86) {	else if ((addr + 1) & 0xfff) {
return(cpu_linear_memory_read_w(addr,	return(memp_read16(physicaladdr(addr, FALSE)));
CPU_PAGE_READ_DATA \| CPU_PAGE_USER_MODE));
}
else {
ia32_panic("%s: call from BIOS, but protected mode", __func__);
return(0xffff);
}	}
	return(memr_read8(seg, off) + (memr_read8(seg, off + 1) << 8));
}	}

void MEMCALL memr_write8(UINT seg, UINT off, REG8 dat) {	void MEMCALL memr_write8(UINT seg, UINT off, REG8 dat) {
Line 652 void MEMCALL memr_write8(UINT seg, UINT	Line 684 void MEMCALL memr_write8(UINT seg, UINT
UINT32 addr;	UINT32 addr;

addr = (seg << 4) + LOW16(off);	addr = (seg << 4) + LOW16(off);
if (!CPU_STAT_PM) {	if (CPU_STAT_PAGING) {
memp_write8(addr, dat);	addr = physicaladdr(addr, TRUE);
}
else if (CPU_STAT_VM86) {
cpu_linear_memory_write_b(addr, dat,
CPU_PAGE_WRITE_DATA \| CPU_PAGE_USER_MODE);
}
else {
ia32_panic("%s: call from BIOS, but protected mode", __func__);
}	}
	memp_write8(addr, dat);
}	}

void MEMCALL memr_write16(UINT seg, UINT off, REG16 dat) {	void MEMCALL memr_write16(UINT seg, UINT off, REG16 dat) {
Line 669 void MEMCALL memr_write16(UINT seg, UINT	Line 695 void MEMCALL memr_write16(UINT seg, UINT
UINT32 addr;	UINT32 addr;

addr = (seg << 4) + LOW16(off);	addr = (seg << 4) + LOW16(off);
if (!CPU_STAT_PM) {	if (!CPU_STAT_PAGING) {
memp_write16(addr, dat);	memp_write16(addr, dat);
}	}
else if (CPU_STAT_VM86) {	else if ((addr + 1) & 0xfff) {
cpu_linear_memory_write_w(addr, dat,	memp_write16(physicaladdr(addr, TRUE), dat);
CPU_PAGE_WRITE_DATA \| CPU_PAGE_USER_MODE);
}	}
else {	else {
ia32_panic("%s: call from BIOS, but protected mode", __func__);	memr_write8(seg, off, (REG8)dat);
	memr_write8(seg, off + 1, (REG8)(dat >> 8));
}	}
}	}

void MEMCALL memr_reads(UINT seg, UINT off, void *dat, UINT leng) {	void MEMCALL memr_reads(UINT seg, UINT off, void *dat, UINT leng) {

UINT8 *in = dat;
UINT32 addr;	UINT32 addr;
UINT rem;	UINT rem;
UINT size;	UINT size;

if (CPU_STAT_PM && !CPU_STAT_VM86) {
ia32_panic("%s: call from BIOS, but protected mode", __func__);
return;
}

while(leng) {	while(leng) {
off = LOW16(off);	off = LOW16(off);
addr = (seg << 4) + off;	addr = (seg << 4) + off;
rem = 0x10000 - off;	rem = 0x10000 - off;
size = min(leng, rem);	size = min(leng, rem);
if (!CPU_STAT_PM) {	if (CPU_STAT_PAGING) {
memp_reads(addr, in, size);	rem = 0x1000 - (addr & 0xfff);
}
else {
/* VM86 */
rem = CPU_PAGE_SIZE - (addr & CPU_PAGE_MASK);
size = min(size, rem);	size = min(size, rem);
cpu_memory_access_la_region(addr, size,	addr = physicaladdr(addr, FALSE);
CPU_PAGE_READ_DATA \| CPU_PAGE_USER_MODE, in);
}	}
	memp_reads(addr, dat, size);
off += size;	off += size;
in += size;	dat = ((UINT8 *)dat) + size;
leng -= size;	leng -= size;
}	}
}	}

void MEMCALL memr_writes(UINT seg, UINT off, const void *dat, UINT leng) {	void MEMCALL memr_writes(UINT seg, UINT off, const void *dat, UINT leng) {

const UINT8 *out = dat;	UINT32 addr;
UINT32 addr;	UINT rem;
UINT rem;	UINT size;
UINT size;

if (CPU_STAT_PM && !CPU_STAT_VM86) {
ia32_panic("%s: call from BIOS, but protected mode", __func__);
return;
}

while(leng) {	while(leng) {
off = LOW16(off);	off = LOW16(off);
addr = (seg << 4) + off;	addr = (seg << 4) + off;
rem = 0x10000 - off;	rem = 0x10000 - off;
size = min(leng, rem);	size = min(leng, rem);
if (!CPU_STAT_PM) {	if (CPU_STAT_PAGING) {
memp_writes(addr, out, size);
}
else {
/* VM86 */
rem = 0x1000 - (addr & 0xfff);	rem = 0x1000 - (addr & 0xfff);
size = min(size, rem);	size = min(size, rem);
cpu_memory_access_la_region(addr, size,	addr = physicaladdr(addr, TRUE);
CPU_PAGE_WRITE_DATA \| CPU_PAGE_USER_MODE, (UINT8 *)out);
}	}
	memp_writes(addr, dat, size);
off += size;	off += size;
out += size;	dat = ((UINT8 *)dat) + size;
leng -= size;	leng -= size;
}	}
}	}

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

Removed from v.1.37
changed lines
	Added in v.1.40