np2/i386c/ia32/task.c - diff

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Diff for /np2/i386c/ia32/task.c between versions 1.8 and 1.10

version 1.8, 2004/02/04 13:24:35	version 1.10, 2004/02/06 16:49:51
Line 38 load_tr(WORD selector)	Line 38 load_tr(WORD selector)
selector_t task_sel;	selector_t task_sel;
int rv;	int rv;

rv = parse_selector_user(&task_sel, selector);	rv = parse_selector(&task_sel, selector);
if (rv < 0 \|\| task_sel.ldt \|\| task_sel.desc.s) {	if (rv < 0 \|\| task_sel.ldt \|\| task_sel.desc.s) {
EXCEPTION(GP_EXCEPTION, task_sel.idx);	EXCEPTION(GP_EXCEPTION, task_sel.idx);
}	}
Line 135 task_switch(selector_t* task_sel, int ty	Line 135 task_switch(selector_t* task_sel, int ty
DWORD regs[CPU_REG_NUM];	DWORD regs[CPU_REG_NUM];
DWORD eip;	DWORD eip;
DWORD new_flags;	DWORD new_flags;
	DWORD mask;
DWORD cr3 = 0;	DWORD cr3 = 0;
WORD sreg[CPU_SEGREG_NUM];	WORD sreg[CPU_SEGREG_NUM];
WORD ldtr;	WORD ldtr;
Line 152 task_switch(selector_t* task_sel, int ty	Line 153 task_switch(selector_t* task_sel, int ty

VERBOSE(("task_switch: start"));	VERBOSE(("task_switch: start"));

cur_base = CPU_TR_DESC.u.seg.segbase;
task_base = task_sel->desc.u.seg.segbase;
VERBOSE(("task_switch: current task base address = 0x%08x", cur_base));
VERBOSE(("task_switch: new task base address = 0x%08x", task_base));

/* limit check */	/* limit check */
switch (task_sel->desc.type) {	switch (task_sel->desc.type) {
case CPU_SYSDESC_TYPE_TSS_32:	case CPU_SYSDESC_TYPE_TSS_32:
Line 184 task_switch(selector_t* task_sel, int ty	Line 180 task_switch(selector_t* task_sel, int ty
break;	break;
}	}

	cur_base = CPU_TR_DESC.u.seg.segbase;
	task_base = task_sel->desc.u.seg.segbase;
	VERBOSE(("task_switch: cur task (%04x) = 0x%08x:%08x", CPU_TR, cur_base, CPU_TR_DESC.u.seg.limit));
	VERBOSE(("task_switch: new task (%04x) = 0x%08x:%08x", task_sel->selector, task_base, task_sel->desc.u.seg.limit));
	VERBOSE(("task_switch: %dbit task switch", task16 ? 16 : 32));

#if defined(MORE_DEBUG)	#if defined(MORE_DEBUG)
{	{
DWORD v;	DWORD v;
Line 234 task_switch(selector_t* task_sel, int ty	Line 236 task_switch(selector_t* task_sel, int ty
iobase = 0;	iobase = 0;
}	}

#if defined(MORE_DEBUG)	#if defined(DEBUG)
VERBOSE(("task_switch: %dbit task", task16 ? 16 : 32));	VERBOSE(("task_switch: current task"));
VERBOSE(("task_switch: CR3 = 0x%08x", cr3));	VERBOSE(("task_switch: eip = 0x%08x", CPU_EIP));
	VERBOSE(("task_switch: eflags = 0x%08x", old_flags));
	for (i = 0; i < CPU_REG_NUM; i++) {
	VERBOSE(("task_switch: regs[%d] = 0x%08x", i, CPU_REGS_DWORD(i)));
	}
	for (i = 0; i < nsreg; i++) {
	VERBOSE(("task_switch: sreg[%d] = 0x%04x", i, CPU_REGS_SREG(i)));
	}

	VERBOSE(("task_switch: new task"));
	if (!task16) {
	VERBOSE(("task_switch: CR3 = 0x%08x", cr3));
	}
VERBOSE(("task_switch: eip = 0x%08x", eip));	VERBOSE(("task_switch: eip = 0x%08x", eip));
VERBOSE(("task_switch: eflags = 0x%08x", new_flags));	VERBOSE(("task_switch: eflags = 0x%08x", new_flags));
for (i = 0; i < CPU_REG_NUM; i++) {	for (i = 0; i < CPU_REG_NUM; i++) {
Line 246 task_switch(selector_t* task_sel, int ty	Line 260 task_switch(selector_t* task_sel, int ty
VERBOSE(("task_switch: sreg[%d] = 0x%04x", i, sreg[i]));	VERBOSE(("task_switch: sreg[%d] = 0x%04x", i, sreg[i]));
}	}
VERBOSE(("task_switch: ldtr = 0x%04x", ldtr));	VERBOSE(("task_switch: ldtr = 0x%04x", ldtr));
VERBOSE(("task_switch: t = 0x%04x", t));	if (!task16) {
VERBOSE(("task_switch: iobase = 0x%04x", iobase));	VERBOSE(("task_switch: t = 0x%04x", t));
	VERBOSE(("task_switch: iobase = 0x%04x", iobase));
	}
#endif	#endif

/* if IRET or JMP, clear busy flag in this task: need */	/* if IRET or JMP, clear busy flag in this task: need */
Line 337 task_switch(selector_t* task_sel, int ty	Line 353 task_switch(selector_t* task_sel, int ty
break;	break;

case TASK_SWITCH_IRET:	case TASK_SWITCH_IRET:
#if defined(DEBUG)
/* check busy flag is active */	/* check busy flag is active */
if (task_sel->desc.valid) {	if (task_sel->desc.valid) {
DWORD h;	DWORD h;
h = cpu_kmemoryread_d(task_sel->addr + 4);	h = cpu_kmemoryread_d(task_sel->addr + 4);
if ((h & CPU_TSS_H_BUSY) == 0) {	if ((h & CPU_TSS_H_BUSY) == 0) {
VERBOSE(("task_switch: new task is not busy"));	ia32_panic("task_switch: new task is not busy");
}	}
}	}
#endif
break;	break;

default:	default:
Line 368 task_switch(selector_t* task_sel, int ty	Line 382 task_switch(selector_t* task_sel, int ty
set_CR3(cr3);	set_CR3(cr3);
}	}

/* set new EFLAGS */
set_eflags(new_flags, I_FLAG\|IOPL_FLAG\|RF_FLAG\|VM_FLAG\|VIF_FLAG\|VIP_FLAG);

/* set new EIP, GPR */	/* set new EIP, GPR */
CPU_PREV_EIP = CPU_EIP = eip;	CPU_PREV_EIP = CPU_EIP = eip;
for (i = 0; i < CPU_REG_NUM; i++) {	for (i = 0; i < CPU_REG_NUM; i++) {
Line 378 task_switch(selector_t* task_sel, int ty	Line 389 task_switch(selector_t* task_sel, int ty
}	}
for (i = 0; i < CPU_SEGREG_NUM; i++) {	for (i = 0; i < CPU_SEGREG_NUM; i++) {
CPU_REGS_SREG(i) = sreg[i];	CPU_REGS_SREG(i) = sreg[i];
CPU_STAT_SREG_CLEAR(i);	CPU_STAT_SREG_INIT(i);
	}

	/* set new EFLAGS */
	mask = I_FLAG\|IOPL_FLAG\|RF_FLAG\|VM_FLAG\|VIF_FLAG\|VIP_FLAG;
	if (!task16) {
	set_eflags(new_flags, mask);
	} else {
	set_flags(new_flags, mask);
}	}

/* load new LDTR */	/* load new LDTR */
load_ldtr(ldtr, TS_EXCEPTION);	load_ldtr(ldtr, TS_EXCEPTION);

/* set new segment register */	/* set new segment register */
if (CPU_STAT_VM86) {	if (!CPU_STAT_VM86) {
/* VM86 */	/* clear segment descriptor cache */
for (i = 0; i < nsreg; i++) {	for (i = 0; i < CPU_SEGREG_NUM; i++) {
CPU_STAT_SREG_INIT(i);	CPU_STAT_SREG_CLEAR(i);
load_segreg(i, sreg[i], TS_EXCEPTION);
}	}
} else {
/* load CS */	/* load CS */
rv = parse_selector_sv(&cs_sel, sreg[CPU_CS_INDEX]);	rv = parse_selector(&cs_sel, sreg[CPU_CS_INDEX]);
if (rv < 0) {	if (rv < 0) {
VERBOSE(("task_switch: load CS failure (sel = 0x%04x, rv = %d)", sreg[CPU_CS_INDEX], rv));	VERBOSE(("task_switch: load CS failure (sel = 0x%04x, rv = %d)", sreg[CPU_CS_INDEX], rv));
EXCEPTION(TS_EXCEPTION, cs_sel.idx);	EXCEPTION(TS_EXCEPTION, cs_sel.idx);
Line 427 task_switch(selector_t* task_sel, int ty	Line 445 task_switch(selector_t* task_sel, int ty
load_cs(cs_sel.selector, &cs_sel.desc, cs_sel.desc.dpl);	load_cs(cs_sel.selector, &cs_sel.desc, cs_sel.desc.dpl);

/* load ES, SS, DS, FS, GS segment register */	/* load ES, SS, DS, FS, GS segment register */
for (i = 0; i < nsreg; i++) {	for (i = 0; i < CPU_SEGREG_NUM; i++) {
if (i != CPU_CS_INDEX) {	if (i != CPU_CS_INDEX) {
load_segreg(i, sreg[i], TS_EXCEPTION);	load_segreg(i, sreg[i], TS_EXCEPTION);
}	}
Line 438 task_switch(selector_t* task_sel, int ty	Line 456 task_switch(selector_t* task_sel, int ty
if (!task16) {	if (!task16) {
if (task_sel->desc.u.seg.limit > iobase) {	if (task_sel->desc.u.seg.limit > iobase) {
CPU_STAT_IOLIMIT = task_sel->desc.u.seg.limit - iobase;	CPU_STAT_IOLIMIT = task_sel->desc.u.seg.limit - iobase;
CPU_STAT_IOLIMIT = 8; / �ӥå�ñ�̤��ݻ��Ƥ�� */
CPU_STAT_IOADDR = task_sel->desc.u.seg.segbase + iobase;	CPU_STAT_IOADDR = task_sel->desc.u.seg.segbase + iobase;
} else {	} else {
CPU_STAT_IOLIMIT = 0;	CPU_STAT_IOLIMIT = 0;
Line 446 task_switch(selector_t* task_sel, int ty	Line 463 task_switch(selector_t* task_sel, int ty
} else {	} else {
CPU_STAT_IOLIMIT = 0;	CPU_STAT_IOLIMIT = 0;
}	}
	VERBOSE(("task_switch: ioaddr = %08x, limit = %08x", CPU_STAT_IOADDR, CPU_STAT_IOLIMIT));

/* out of range */	/* out of range */
if (CPU_EIP > CPU_STAT_CS_LIMIT) {	if (CPU_EIP > CPU_STAT_CS_LIMIT) {

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Removed from v.1.8
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	Added in v.1.10