np2/i386c/ia32/paging.c - diff

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Diff for /np2/i386c/ia32/paging.c between versions 1.6 and 1.10

version 1.6, 2004/01/26 15:22:16	version 1.10, 2004/02/04 13:24:35
Line 112	Line 112
* +-----+-----------+-----+-----+---+	* +-----+-----------+-----+-----+---+
*/	*/
#if !defined(USE_PAGE_ACCESS_TABLE)	#if !defined(USE_PAGE_ACCESS_TABLE)
static const DWORD page_access = 0xd0cdd0ff;	#define page_access 0xd0ddd0ff
#else /* USE_PAGE_ACCESS_TABLE */	#else /* USE_PAGE_ACCESS_TABLE */
static const BYTE page_access_bit[32] = {	static const BYTE page_access_bit[32] = {
1, /* CR0: n, CPL: s, PTE: s, PTE: r, ope: r */	1, /* CR0: n, CPL: s, PTE: s, PTE: r, ope: r */
Line 143 static const BYTE page_access_bit[32] =	Line 143 static const BYTE page_access_bit[32] =
1, /* CR0: p, CPL: s, PTE: u, PTE: r, ope: r */	1, /* CR0: p, CPL: s, PTE: u, PTE: r, ope: r */
0, /* CR0: p, CPL: s, PTE: u, PTE: r, ope: w */	0, /* CR0: p, CPL: s, PTE: u, PTE: r, ope: w */
1, /* CR0: p, CPL: s, PTE: u, PTE: w, ope: r */	1, /* CR0: p, CPL: s, PTE: u, PTE: w, ope: r */
0, /* CR0: p, CPL: s, PTE: u, PTE: w, ope: w */	1, /* CR0: p, CPL: s, PTE: u, PTE: w, ope: w */

0, /* CR0: p, CPL: u, PTE: s, PTE: r, ope: r */	0, /* CR0: p, CPL: u, PTE: s, PTE: r, ope: r */
0, /* CR0: p, CPL: u, PTE: s, PTE: r, ope: w */	0, /* CR0: p, CPL: u, PTE: s, PTE: r, ope: w */
Line 192 static void tlb_update(DWORD paddr, DWOR	Line 192 static void tlb_update(DWORD paddr, DWOR


DWORD MEMCALL	DWORD MEMCALL
cpu_linear_memory_read(DWORD laddr, DWORD length, int code)	cpu_linear_memory_read(DWORD laddr, DWORD length, int crw, int user_mode)
{	{
DWORD paddr;	DWORD paddr;
DWORD remain; /* page remain */	DWORD remain; /* page remain */
DWORD r;	DWORD r;
DWORD shift = 0;	DWORD shift = 0;
DWORD value = 0;	DWORD value = 0;
int crw;
int pl;

crw = CPU_PAGING_PAGE_READ;
crw \|= code ? CPU_PAGING_PAGE_CODE : CPU_PAGING_PAGE_DATA;
pl = (CPU_STAT_CPL == 3);

/* XXX: 4MB pages... */	/* XXX: 4MB pages... */
remain = 0x1000 - (laddr & 0x00000fff);	remain = 0x1000 - (laddr & 0x00000fff);
for (;;) {	for (;;) {
paddr = paging(laddr, crw, pl);	paddr = paging(laddr, crw, user_mode);

r = (remain > length) ? length : remain;	r = (remain > length) ? length : remain;
switch (r) {	switch (r) {
case 1:	case 4:
value \|= (DWORD)cpu_memoryread(paddr) << shift;	value = cpu_memoryread_d(paddr);
shift += 8;
break;	break;

	case 3:
	value \|= (DWORD)cpu_memoryread(paddr) << shift;
	shift += 8;
	paddr++;
	/FALLTHROUGH/
case 2:	case 2:
value \|= (DWORD)cpu_memoryread_w(paddr) << shift;	value \|= (DWORD)cpu_memoryread_w(paddr) << shift;
shift += 16;	shift += 16;
break;	break;

case 3:	case 1:
value \|= (DWORD)cpu_memoryread_w(paddr) << shift;	value \|= (DWORD)cpu_memoryread(paddr) << shift;
shift += 16;
value \|= (DWORD)cpu_memoryread(paddr + 2) << shift;
shift += 8;	shift += 8;
break;	break;

case 4:
value = cpu_memoryread_d(paddr);
break;

default:	default:
ia32_panic("cpu_linear_memory_read(): out of range (r = %d)\n", r);	ia32_panic("cpu_linear_memory_read(): out of range (r = %d)\n", r);
break;	break;
}	}

if (length == r)	length -= r;
	if (length == 0)
break;	break;

laddr += r;	laddr += r;
length -= r;
remain -= r;	remain -= r;
if (remain <= 0)	if (remain <= 0) {
	/* next page */
remain += 0x1000;	remain += 0x1000;
	}
}	}

return value;	return value;
}	}

void MEMCALL	void MEMCALL
cpu_linear_memory_write(DWORD laddr, DWORD length, DWORD value)	cpu_linear_memory_write(DWORD laddr, DWORD value, DWORD length, int user_mode)
{	{
DWORD paddr;	DWORD paddr;
DWORD remain; /* page remain */	DWORD remain; /* page remain */
DWORD r;	DWORD r;
int crw;	int crw = (CPU_PAGE_WRITE\|CPU_PAGE_DATA);
int pl;

crw = CPU_PAGING_PAGE_WRITE;
crw \|= CPU_PAGING_PAGE_DATA;
pl = (CPU_STAT_CPL == 3);

/* XXX: 4MB pages... */	/* XXX: 4MB pages... */
remain = 0x1000 - (laddr & 0x00000fff);	remain = 0x1000 - (laddr & 0x00000fff);
for (;;) {	for (;;) {
paddr = paging(laddr, crw, pl);	paddr = paging(laddr, crw, user_mode);

r = (remain > length) ? length : remain;	r = (remain > length) ? length : remain;
switch (r) {	switch (r) {
case 1:	case 4:
cpu_memorywrite(paddr, value & 0xff);	cpu_memorywrite_d(paddr, value);
value >>= 8;
break;	break;

	case 3:
	cpu_memorywrite(paddr, value & 0xff);
	value >>= 8;
	paddr++;
	/FALLTHROUGH/
case 2:	case 2:
cpu_memorywrite_w(paddr, value & 0xffff);	cpu_memorywrite_w(paddr, value & 0xffff);
value >>= 16;	value >>= 16;
break;	break;

case 3:	case 1:
cpu_memorywrite_w(paddr, value & 0xffff);	cpu_memorywrite(paddr, value & 0xff);
value >>= 16;
cpu_memorywrite(paddr + 2, value & 0xff);
value >>= 8;	value >>= 8;
break;	break;

case 4:
cpu_memorywrite_d(paddr, value);
break;

default:	default:
ia32_panic("cpu_linear_memory_write(): out of range (r = %d)\n", r);	ia32_panic("cpu_linear_memory_write(): out of range (r = %d)\n", r);
break;	break;
}	}

if (length == r)	length -= r;
	if (length == 0)
break;	break;

laddr += r;	laddr += r;
length -= r;
remain -= r;	remain -= r;
if (remain <= 0)	if (remain <= 0) {
	/* next page */
remain += 0x1000;	remain += 0x1000;
	}
}	}
}	}

void MEMCALL	void MEMCALL
paging_check(DWORD laddr, DWORD length, int rw)	paging_check(DWORD laddr, DWORD length, int crw, int user_mode)
{	{
DWORD paddr;	DWORD paddr;
DWORD remain; /* page remain */	DWORD remain; /* page remain */
DWORD r;	DWORD r;
int crw;
int pl;

crw = rw;
pl = (CPU_STAT_CPL == 3);

/* XXX: 4MB pages... */	/* XXX: 4MB pages... */
remain = 0x1000 - (laddr & 0x00000fff);	remain = 0x1000 - (laddr & 0x00000fff);
for (;;) {	for (;;) {
paddr = paging(laddr, crw, pl);	paddr = paging(laddr, crw, user_mode);

r = (remain > length) ? length : remain;	r = (remain > length) ? length : remain;
if (length == r)
	length -= r;
	if (length == 0)
break;	break;

laddr += r;	laddr += r;
length -= r;
remain -= r;	remain -= r;
if (remain <= 0)	if (remain <= 0) {
	/* next page */
remain += 0x1000;	remain += 0x1000;
	}
}	}
}	}

Line 354 paging(DWORD laddr, int crw, int user_mo	Line 341 paging(DWORD laddr, int crw, int user_mo
return paddr;	return paddr;
#endif /* IA32_SUPPORT_TLB */	#endif /* IA32_SUPPORT_TLB */

pde_addr = (CPU_CR3 & CPU_CR3_PD_MASK) \| ((laddr >> 20) & 0xffc);	pde_addr = CPU_STAT_PDE_BASE \| ((laddr >> 20) & 0xffc);
pde = cpu_memoryread_d(pde_addr);	pde = cpu_memoryread_d(pde_addr);
if (!(pde & CPU_PDE_PRESENT)) {	if (!(pde & CPU_PDE_PRESENT)) {
VERBOSE(("paging: PDE is not present"));	VERBOSE(("paging: PDE is not present"));
Line 368 paging(DWORD laddr, int crw, int user_mo	Line 355 paging(DWORD laddr, int crw, int user_mo
cpu_memorywrite_d(pde_addr, pde);	cpu_memorywrite_d(pde_addr, pde);
}	}

	#if CPU_FAMILY >= 5
/* no support PAE */	/* no support PAE */
__ASSERT(!(CPU_CR4 & CPU_CR4_PAE));	__ASSERT(!(CPU_CR4 & CPU_CR4_PAE));

Line 380 paging(DWORD laddr, int crw, int user_mo	Line 368 paging(DWORD laddr, int crw, int user_mo

/* make physical address */	/* make physical address */
paddr = (pde & CPU_PDE_4M_BASEADDR_MASK) \| (laddr & 0x003fffff);	paddr = (pde & CPU_PDE_4M_BASEADDR_MASK) \| (laddr & 0x003fffff);
} else {	} else
	#endif /* CPU_FAMILY >= 5 */
	{
/* 4KB page size */	/* 4KB page size */
pte_addr = (pde & CPU_PDE_BASEADDR_MASK) \| ((laddr >> 10) & 0xffc);	pte_addr = (pde & CPU_PDE_BASEADDR_MASK) \| ((laddr >> 10) & 0xffc);
pte = cpu_memoryread_d(pte_addr);	pte = cpu_memoryread_d(pte_addr);
Line 400 paging(DWORD laddr, int crw, int user_mo	Line 390 paging(DWORD laddr, int crw, int user_mo
paddr = (pte & CPU_PTE_BASEADDR_MASK) \| (laddr & 0x00000fff);	paddr = (pte & CPU_PTE_BASEADDR_MASK) \| (laddr & 0x00000fff);
}	}

bit = crw & CPU_PAGING_PAGE_WRITE;	bit = crw & CPU_PAGE_WRITE;
bit \|= (pde & pte & (CPU_PTE_WRITABLE\|CPU_PTE_USER_MODE));	bit \|= (pde & pte & (CPU_PTE_WRITABLE\|CPU_PTE_USER_MODE));
bit \|= (user_mode << 3);	bit \|= (user_mode << 3);
bit \|= (CPU_CR0 & CPU_CR0_WP) >> 12;	bit \|= (CPU_CR0 & CPU_CR0_WP) >> 12;
Line 419 paging(DWORD laddr, int crw, int user_mo	Line 409 paging(DWORD laddr, int crw, int user_mo
goto pf_exception;	goto pf_exception;
}	}

if ((crw & CPU_PAGING_PAGE_WRITE) && !(pte & CPU_PTE_DIRTY)) {	if ((crw & CPU_PAGE_WRITE) && !(pte & CPU_PTE_DIRTY)) {
pte \|= CPU_PTE_DIRTY;	pte \|= CPU_PTE_DIRTY;
cpu_memorywrite_d(pte_addr, pte);	cpu_memorywrite_d(pte_addr, pte);
}	}
Line 432 paging(DWORD laddr, int crw, int user_mo	Line 422 paging(DWORD laddr, int crw, int user_mo

pf_exception:	pf_exception:
CPU_CR2 = laddr;	CPU_CR2 = laddr;
err \|= ((crw & CPU_PAGING_PAGE_WRITE) << 1) \| (user_mode << 2);	err \|= ((crw & CPU_PAGE_WRITE) << 1) \| (user_mode << 2);
EXCEPTION(PF_EXCEPTION, err);	EXCEPTION(PF_EXCEPTION, err);
return 0; /* compiler happy */	return 0; /* compiler happy */
}	}
Line 512 tlb_init()	Line 502 tlb_init()
tlb_entry_flushes = 0;	tlb_entry_flushes = 0;
#endif /* IA32_PROFILE_TLB */	#endif /* IA32_PROFILE_TLB */

/* XXX �ץ��å��̤ˤ��ä� TLB ��ۤ�� */	#if CPU_FAMILY == 4

/* �Ȥꤢ�� i486 ��ǡ� */	/* �Ȥꤢ�� i486 ��ǡ� */
/* combine (I/D) TLB: 4KB Pages, 4-way set associative 32 entries */	/* combine (I/D) TLB: 4KB Pages, 4-way set associative 32 entries */
ntlb = 1;	ntlb = 1;
tlb[0].kind = TLB_KIND_COMBINE \| TLB_KIND_SMALL;	tlb[0].kind = TLB_KIND_COMBINE \| TLB_KIND_SMALL;
tlb[0].num = 32;	tlb[0].num = 32;
tlb[0].way = 4;	tlb[0].way = 4;
tlb[0].idx = tlb[0].num / tlb[0].way;	#endif

for (i = 0; i < ntlb; i++) {	for (i = 0; i < ntlb; i++) {
	tlb[i].idx = tlb[i].num / tlb[i].way;

tlb[i].entry = (TLB_ENTRY_T*)calloc(sizeof(TLB_ENTRY_T), tlb[i].num);	tlb[i].entry = (TLB_ENTRY_T*)calloc(sizeof(TLB_ENTRY_T), tlb[i].num);
if (tlb[i].entry == 0) {	if (tlb[i].entry == 0) {
ia32_panic("tlb_init(): can't alloc TLB entry\n");	ia32_panic("tlb_init(): can't alloc TLB entry\n");
Line 595 tlb_lookup(DWORD laddr, int crw, DWORD*	Line 586 tlb_lookup(DWORD laddr, int crw, DWORD*

PROFILE_INC(tlb_lookups);	PROFILE_INC(tlb_lookups);

crw &= CPU_PAGING_PAGE_CODE \| CPU_PAGING_PAGE_DATA;	crw &= CPU_PAGE_CODE \| CPU_PAGE_DATA;
for (i = 0; i < ntlb; i++) {	for (i = 0; i < ntlb; i++) {
if (tlb[i].kind & crw) {	if (tlb[i].kind & crw) {
if (tlb[i].idx == 1) {	if (tlb[i].idx == 1) {
Line 639 tlb_update(DWORD paddr, DWORD entry, int	Line 630 tlb_update(DWORD paddr, DWORD entry, int

PROFILE_INC(tlb_updates);	PROFILE_INC(tlb_updates);

crw &= CPU_PAGING_PAGE_CODE \| CPU_PAGING_PAGE_DATA;	crw &= CPU_PAGE_CODE \| CPU_PAGE_DATA;
for (i = 0; i < ntlb; i++) {	for (i = 0; i < ntlb; i++) {
if (tlb[i].kind & crw) {	if (tlb[i].kind & crw) {
if (tlb[i].idx == 1) {	if (tlb[i].idx == 1) {
Line 686 tlb_update(DWORD paddr, DWORD entry, int	Line 677 tlb_update(DWORD paddr, DWORD entry, int
}	}
__ASSERT(i != ntlb);	__ASSERT(i != ntlb);
}	}
#else /* !IA32_SUPPORT_TLB */
void
tlb_init()
{

/* nothing to do */
}

void
tlb_flush(BOOL allflush)
{

(void)allflush;
}

void
tlb_flush_page(DWORD laddr)
{

(void)laddr;
}
#endif /* IA32_SUPPORT_TLB */	#endif /* IA32_SUPPORT_TLB */

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