np2/i386c/ia32/debug.c - diff

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Diff for /np2/i386c/ia32/debug.c between versions 1.7 and 1.19

version 1.7, 2004/02/19 03:04:01	version 1.19, 2012/01/08 07:45:08
Line 1	Line 1
/* $Id$ */

/*	/*
* Copyright (c) 2002-2003 NONAKA Kimihiro	* Copyright (c) 2002-2003 NONAKA Kimihiro
* All rights reserved.	* All rights reserved.
Line 12	Line 10
* 2. Redistributions in binary form must reproduce the above copyright	* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the	* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.	* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*	*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
Line 31	Line 27

#include "cpu.h"	#include "cpu.h"
#include "memory.h"	#include "memory.h"
#ifdef USE_FPU	#if defined(USE_FPU)
#include "instructions/fpu/fpu.h"	#include "instructions/fpu/fp.h"
#endif	#endif


Line 41 cpu_reg2str(void)	Line 37 cpu_reg2str(void)
{	{
static char buf[512];	static char buf[512];

sprintf(buf,	snprintf(buf, sizeof(buf),
"eax=%08lx ebx=%08lx ecx=%08lx edx=%08lx\n"	"eax=%08x ecx=%08x edx=%08x ebx=%08x\n"
"esp=%08lx ebp=%08lx esi=%08lx edi=%08lx\n"	"esp=%08x ebp=%08x esi=%08x edi=%08x\n"
"eip=%08lx prev_eip=%08lx\n"	"eip=%08x prev_eip=%08x\n"
"cs=%04x ss=%04x ds=%04x es=%04x fs=%04x gs=%04x\n"	"cs=%04x ss=%04x ds=%04x es=%04x fs=%04x gs=%04x\n"
"eflag=%08lx "	"eflag=%08x "
/* ID VIP VIF AC VM RF NT IOPL OF DF IF TF SF ZF AF PF CF */	/* ID VIP VIF AC VM RF NT IOPL OF DF IF TF SF ZF AF PF CF */
"[ ID=%d VIP=%d VIF=%d AC=%d VM=%d RF=%d NT=%d IOPL=%d %s %s %s TF=%d %s %s %s %s %s ]\n"	"[ ID=%d VIP=%d VIF=%d AC=%d VM=%d RF=%d NT=%d IOPL=%d %s %s %s TF=%d %s %s %s %s %s ]\n"
"gdtr=%08lx:%04x idtr=%08lx:%04x\n"	"gdtr=%08x:%04x idtr=%08x:%04x\n"
"ldtr=%04x(%08lx:%04lx) tr=%04x(%08lx:%04lx)\n"	"ldtr=%04x(%08x:%04x) tr=%04x(%08x:%04x)\n"
"cr0=%08lx cr1=%08lx cr2=%08lx cr3=%08lx cr4=%08lx mxcsr=%08lx",	"cr0=%08x cr1=%08x cr2=%08x cr3=%08x cr4=%08x mxcsr=%08x",
CPU_EAX, CPU_EBX, CPU_ECX, CPU_EDX,	CPU_EAX, CPU_ECX, CPU_EDX, CPU_EBX,
CPU_ESP, CPU_EBP,CPU_ESI, CPU_EDI,	CPU_ESP, CPU_EBP,CPU_ESI, CPU_EDI,
CPU_EIP, CPU_PREV_EIP,	CPU_EIP, CPU_PREV_EIP,
CPU_CS, CPU_SS, CPU_DS, CPU_ES, CPU_FS, CPU_GS,	CPU_CS, CPU_SS, CPU_DS, CPU_ES, CPU_FS, CPU_GS,
Line 82 cpu_reg2str(void)	Line 78 cpu_reg2str(void)
return buf;	return buf;
}	}

#ifdef USE_FPU
char *
fpu_reg2str(void)
{
static char buf[512];
char tmp[128];
int i;
int no;

strcpy(buf, "st=\n");
for (no = 0; no < 8; no++) {
for (i = 9; i >= 0; i--) {
sprintf(tmp, "%02x", FPU_ST[no][i]);
strcat(buf, tmp);
}
strcat(buf, "\n");
}

sprintf(tmp,
"ctrl=%04x status=%04x tag=%04x\n"
"inst=%08x%04x data=%08x%04x op=%03x\n",
FPU_CTRLWORD,
FPU_STATUSWORD,
FPU_TAGWORD,
FPU_INSTPTR_OFFSET, FPU_INSTPTR_SEG,
FPU_DATAPTR_OFFSET, FPU_DATAPTR_SEG,
FPU_LASTINSTOP);
strcat(buf, tmp);

return buf;
}
#endif

static char *	static char *
a20str(void)	a20str(void)
{	{
static char buf[32];	static char buf[32];

sprintf(buf, "a20line=%s\n", CPU_STAT_ADRSMASK == 0xffffffff ? "enable" : "disable");	snprintf(buf, sizeof(buf), "a20line=%s\n",
	(CPU_STAT_ADRSMASK == 0xffffffff) ? "enable" : "disable");
return buf;	return buf;
}	}

Line 131 put_cpuinfo(void)	Line 95 put_cpuinfo(void)

strcpy(buf, cpu_reg2str());	strcpy(buf, cpu_reg2str());
strcat(buf, "\n");	strcat(buf, "\n");
#ifdef USE_FPU	#if defined(USE_FPU)
strcat(buf, fpu_reg2str());	strcat(buf, fpu_reg2str());
strcat(buf, "\n");	strcat(buf, "\n");
#endif	#endif
Line 155 dbg_printf(const char *str, ...)	Line 119 dbg_printf(const char *str, ...)
}	}

void	void
memory_dump(int idx, DWORD madr)	memory_dump(int idx, UINT32 madr)
{	{
DWORD addr;	UINT32 addr;
size_t size;	size_t size;
unsigned char buf[16];
size_t s, i;	size_t s, i;
BYTE p;	UINT8 buf[16];
	UINT8 c;

if (madr < 0x80) {	if (madr < 0x80) {
size = madr + 0x80;	size = madr + 0x80;
Line 170 memory_dump(int idx, DWORD madr)	Line 134 memory_dump(int idx, DWORD madr)
size = 0x100;	size = 0x100;
addr = madr - 0x80;	addr = madr - 0x80;
}	}
VERBOSE(("memory dump\n-- \n"));	VERBOSE(("memory dump\n--"));
for (s = 0; s < size; s++) {	for (s = 0; s < size; s++) {
if ((s % 16) == 0) {	if ((s % 16) == 0) {
VERBOSE(("%08x: ", addr + s));	VERBOSE(("%08x: ", addr + s));
memset(buf, '.', sizeof(buf));	memset(buf, '.', sizeof(buf));
}	}

p = cpu_vmemoryread(idx, addr + s);	c = cpu_vmemoryread(idx, addr + s);
VERBOSE(("%02x ", p));	VERBOSE(("%02x ", c));
if (p >= 0x20 && p <= 0x7e)	if (c >= 0x20 && c <= 0x7e)
buf[s % 16] = p;	buf[s % 16] = c;

if ((s % 16) == 15) {	if ((s % 16) == 15) {
VERBOSE(("\| "));	VERBOSE(("\| "));
Line 192 memory_dump(int idx, DWORD madr)	Line 156 memory_dump(int idx, DWORD madr)
}	}

void	void
gdtr_dump(DWORD base, DWORD limit)	gdtr_dump(UINT32 base, UINT limit)
{	{
DWORD v[2];	UINT32 v[2];
DWORD i;	UINT i;

VERBOSE(("GDTR_DUMP: GDTR_BASE = 0x%08x, GDTR_LIMIT = 0x%04x",base,limit));	VERBOSE(("GDTR_DUMP: GDTR_BASE = 0x%08x, GDTR_LIMIT = 0x%04x", base, limit));

for (i = 0; i < limit; i += 8) {	for (i = 0; i < limit; i += 8) {
v[0] = cpu_kmemoryread_d(base + i);	v[0] = cpu_kmemoryread_d(base + i);
Line 207 gdtr_dump(DWORD base, DWORD limit)	Line 171 gdtr_dump(DWORD base, DWORD limit)
}	}

void	void
ldtr_dump(DWORD base, DWORD limit)	ldtr_dump(UINT32 base, UINT limit)
{	{
DWORD v[2];	UINT32 v[2];
DWORD i;	UINT i;

VERBOSE(("LDTR_DUMP: LDTR_BASE = 0x%08x, LDTR_LIMIT = 0x%04x",base,limit));	VERBOSE(("LDTR_DUMP: LDTR_BASE = 0x%08x, LDTR_LIMIT = 0x%04x", base, limit));

for (i = 0; i < limit; i += 8) {	for (i = 0; i < limit; i += 8) {
v[0] = cpu_kmemoryread_d(base + i);	v[0] = cpu_kmemoryread_d(base + i);
Line 222 ldtr_dump(DWORD base, DWORD limit)	Line 186 ldtr_dump(DWORD base, DWORD limit)
}	}

void	void
idtr_dump(DWORD base, DWORD limit)	idtr_dump(UINT32 base, UINT limit)
{	{
DWORD v[2];	UINT32 v[2];
DWORD i;	UINT i;

VERBOSE(("IDTR_DUMP: IDTR_BASE = 0x%08x, IDTR_LIMIT = 0x%04x",base,limit));	VERBOSE(("IDTR_DUMP: IDTR_BASE = 0x%08x, IDTR_LIMIT = 0x%04x", base, limit));

for (i = 0; i < limit; i += 8) {	for (i = 0; i < limit; i += 8) {
v[0] = cpu_kmemoryread_d(base + i);	v[0] = cpu_kmemoryread_d(base + i);
Line 237 idtr_dump(DWORD base, DWORD limit)	Line 201 idtr_dump(DWORD base, DWORD limit)
}	}

void	void
tr_dump(WORD selector, DWORD base, DWORD limit)	tr_dump(UINT16 selector, UINT32 base, UINT limit)
{	{
DWORD v;	UINT32 v;
DWORD i;	UINT i;

VERBOSE(("TR_DUMP: selector = %04x", selector));	VERBOSE(("TR_DUMP: selector = %04x", selector));

Line 250 tr_dump(WORD selector, DWORD base, DWORD	Line 214 tr_dump(WORD selector, DWORD base, DWORD
}	}
}	}

DWORD	UINT32
pde_dump(DWORD base, int idx)	pde_dump(UINT32 base, int idx)
{	{
DWORD paddr;	UINT32 paddr;
DWORD v;	UINT32 v;
int i;	int i;

if (idx < 0 && idx > -8192) {	if (idx < 0 && idx > -8192) {
Line 272 pde_dump(DWORD base, int idx)	Line 236 pde_dump(DWORD base, int idx)
v = cpu_memoryread_d(paddr);	v = cpu_memoryread_d(paddr);
VERBOSE(("PDE_DUMP: 0x%08x: %08x", paddr, v));	VERBOSE(("PDE_DUMP: 0x%08x: %08x", paddr, v));
} else {	} else {
	VERBOSE(("PDE_DUMP: invalid idx (%d)", idx));
paddr = 0;	paddr = 0;
}	}

return paddr;	return paddr;
}	}

DWORD	void
convert_laddr_to_paddr(DWORD laddr)	segdesc_dump(descriptor_t *sdp)
	{
	#if defined(DEBUG)
	const char *s;

	__ASSERT(sdp != NULL);

	VERBOSE(("\ndump descriptor: %p", sdp));

	VERBOSE(("valid : %s", SEG_IS_VALID(sdp) ? "true" : "false"));
	VERBOSE(("present : %s", SEG_IS_PRESENT(sdp) ? "true" : "false"));
	VERBOSE(("DPL : %d", sdp->dpl));
	VERBOSE(("kind : %s", SEG_IS_SYSTEM(sdp) ? "system" : "code/data"));
	if (!SEG_IS_SYSTEM(sdp)) {
	if (SEG_IS_CODE(sdp)) {
	VERBOSE(("type : %sconforming code",
	SEG_IS_CONFORMING_CODE(sdp) ? "" : "non-"));
	VERBOSE(("access : execute%s",
	SEG_IS_READABLE_CODE(sdp) ? "/read" : ""));
	} else {
	VERBOSE(("type : expand-%s data",
	SEG_IS_EXPANDDOWN_DATA(sdp) ? "down" : "up"));
	VERBOSE(("access : read%s",
	SEG_IS_WRITABLE_DATA(sdp) ? "/write" : ""));
	}
	VERBOSE(("4k scale : %s", sdp->u.seg.g ? "true" : "false"));
	VERBOSE(("baseadr : 0x%08x", sdp->u.seg.segbase));
	VERBOSE(("limit : 0x%08x", sdp->u.seg.limit));
	} else {
	switch (sdp->type) {
	case CPU_SYSDESC_TYPE_LDT: /* LDT */
	VERBOSE(("type : LDT"));
	VERBOSE(("4k scale : %s", sdp->u.seg.g ? "true" : "false"));
	VERBOSE(("baseadr : 0x%08x", sdp->u.seg.segbase));
	VERBOSE(("limit : 0x%08x", sdp->u.seg.limit));
	break;

	case CPU_SYSDESC_TYPE_TASK: /* task gate */
	VERBOSE(("type : task gate"));
	VERBOSE(("selector : 0x%04x", sdp->u.gate.selector));
	break;

	case CPU_SYSDESC_TYPE_TSS_16: /* 286 TSS */
	case CPU_SYSDESC_TYPE_TSS_BUSY_16: /* 286 Busy TSS */
	case CPU_SYSDESC_TYPE_TSS_32: /* 386 TSS */
	case CPU_SYSDESC_TYPE_TSS_BUSY_32: /* 386 Busy TSS */
	VERBOSE(("type : %dbit %sTSS",
	(sdp->type & CPU_SYSDESC_TYPE_32BIT) ? 32 : 16,
	(sdp->type & CPU_SYSDESC_TYPE_TSS_BUSY_IND) ?
	"Busy " : ""));
	VERBOSE(("4k scale : %s", sdp->u.seg.g ? "true" : "false"));
	VERBOSE(("baseadr : 0x%08x", sdp->u.seg.segbase));
	VERBOSE(("limit : 0x%08x", sdp->u.seg.limit));
	break;

	case CPU_SYSDESC_TYPE_CALL_16: /* 286 call gate */
	case CPU_SYSDESC_TYPE_INTR_16: /* 286 interrupt gate */
	case CPU_SYSDESC_TYPE_TRAP_16: /* 286 trap gate */
	case CPU_SYSDESC_TYPE_CALL_32: /* 386 call gate */
	case CPU_SYSDESC_TYPE_INTR_32: /* 386 interrupt gate */
	case CPU_SYSDESC_TYPE_TRAP_32: /* 386 trap gate */
	switch (sdp->type & CPU_SYSDESC_TYPE_MASKBIT) {
	case CPU_SYSDESC_TYPE_CALL:
	s = "call";
	break;

	case CPU_SYSDESC_TYPE_INTR:
	s = "interrupt";
	break;

	case CPU_SYSDESC_TYPE_TRAP:
	s = "trap";
	break;

	default:
	s = "unknown";
	break;
	}
	VERBOSE(("type : %c86 %s gate",
	(sdp->type & CPU_SYSDESC_TYPE_32BIT) ? '3':'2', s));
	VERBOSE(("selector : 0x%04x", sdp->u.gate.selector));
	VERBOSE(("offset : 0x%08x", sdp->u.gate.offset));
	VERBOSE(("count : %d", sdp->u.gate.count));
	break;

	case 0: case 8: case 10: case 13: /* reserved */
	default:
	VERBOSE(("type : unknown descriptor"));
	break;
	}
	}
	#endif
	}

	UINT32
	convert_laddr_to_paddr(UINT32 laddr)
{	{
DWORD paddr; /* physical address */	UINT32 paddr; /* physical address */
DWORD pde_addr; /* page directory entry address */	UINT32 pde_addr; /* page directory entry address */
DWORD pde; /* page directory entry */	UINT32 pde; /* page directory entry */
DWORD pte_addr; /* page table entry address */	UINT32 pte_addr; /* page table entry address */
DWORD pte; /* page table entry */	UINT32 pte; /* page table entry */

pde_addr = (CPU_CR3 & CPU_CR3_PD_MASK) \| ((laddr >> 20) & 0xffc);	pde_addr = (CPU_CR3 & CPU_CR3_PD_MASK) \| ((laddr >> 20) & 0xffc);
pde = cpu_memoryread_d(pde_addr);	pde = cpu_memoryread_d(pde_addr);
Line 302 convert_laddr_to_paddr(DWORD laddr)	Line 362 convert_laddr_to_paddr(DWORD laddr)
return paddr;	return paddr;
}	}

DWORD	UINT32
convert_vaddr_to_paddr(unsigned int idx, DWORD offset)	convert_vaddr_to_paddr(unsigned int idx, UINT32 offset)
{	{
descriptor_t *sdp;	descriptor_t *sdp;
DWORD laddr;	UINT32 laddr;

if (idx < CPU_SEGREG_NUM) {	if (idx < CPU_SEGREG_NUM) {
sdp = &CPU_STAT_SREG(idx);	sdp = &CPU_STAT_SREG(idx);
if (sdp->valid) {	if (SEG_IS_VALID(sdp)) {
laddr = CPU_STAT_SREGBASE(idx) + offset;	laddr = CPU_STAT_SREGBASE(idx) + offset;
return convert_laddr_to_paddr(laddr);	return convert_laddr_to_paddr(laddr);
}	}

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Removed from v.1.7
changed lines
	Added in v.1.19