np2/i386c/ia32/task.c - diff

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Diff for /np2/i386c/ia32/task.c between versions 1.25 and 1.33

version 1.25, 2011/12/17 01:36:54	version 1.33, 2012/01/08 11:36:06
Line 32	Line 32
#define TSS_32_SIZE 104	#define TSS_32_SIZE 104
#define TSS_32_LIMIT (TSS_32_SIZE - 1)	#define TSS_32_LIMIT (TSS_32_SIZE - 1)

static void	static void CPUCALL
set_task_busy(UINT16 selector, descriptor_t *sdp)	set_task_busy(UINT16 selector)
{	{
UINT32 addr;	UINT32 addr;
UINT32 h;	UINT32 h;
Line 41 set_task_busy(UINT16 selector, descripto	Line 41 set_task_busy(UINT16 selector, descripto
addr = CPU_GDTR_BASE + (selector & CPU_SEGMENT_SELECTOR_INDEX_MASK);	addr = CPU_GDTR_BASE + (selector & CPU_SEGMENT_SELECTOR_INDEX_MASK);
h = cpu_kmemoryread_d(addr + 4);	h = cpu_kmemoryread_d(addr + 4);
if (!(h & CPU_TSS_H_BUSY)) {	if (!(h & CPU_TSS_H_BUSY)) {
sdp->type \|= CPU_SYSDESC_TYPE_TSS_BUSY_IND;
h \|= CPU_TSS_H_BUSY;	h \|= CPU_TSS_H_BUSY;
cpu_kmemorywrite_d(addr + 4, h);	cpu_kmemorywrite_d(addr + 4, h);
} else {	} else {
Line 49 set_task_busy(UINT16 selector, descripto	Line 48 set_task_busy(UINT16 selector, descripto
}	}
}	}

static void	static void CPUCALL
set_task_free(UINT16 selector, descriptor_t *sdp)	set_task_free(UINT16 selector)
{	{
UINT32 addr;	UINT32 addr;
UINT32 h;	UINT32 h;
Line 58 set_task_free(UINT16 selector, descripto	Line 57 set_task_free(UINT16 selector, descripto
addr = CPU_GDTR_BASE + (selector & CPU_SEGMENT_SELECTOR_INDEX_MASK);	addr = CPU_GDTR_BASE + (selector & CPU_SEGMENT_SELECTOR_INDEX_MASK);
h = cpu_kmemoryread_d(addr + 4);	h = cpu_kmemoryread_d(addr + 4);
if (h & CPU_TSS_H_BUSY) {	if (h & CPU_TSS_H_BUSY) {
sdp->type &= ~CPU_SYSDESC_TYPE_TSS_BUSY_IND;
h &= ~CPU_TSS_H_BUSY;	h &= ~CPU_TSS_H_BUSY;
cpu_kmemorywrite_d(addr + 4, h);	cpu_kmemorywrite_d(addr + 4, h);
} else {	} else {
Line 66 set_task_free(UINT16 selector, descripto	Line 64 set_task_free(UINT16 selector, descripto
}	}
}	}

void	void CPUCALL
load_tr(UINT16 selector)	load_tr(UINT16 selector)
{	{
selector_t task_sel;	selector_t task_sel;
int rv;	int rv;
#if defined(IA32_SUPPORT_DEBUG_REGISTER)
int i;
#endif
UINT16 iobase;	UINT16 iobase;

rv = parse_selector(&task_sel, selector);	rv = parse_selector(&task_sel, selector);
Line 112 load_tr(UINT16 selector)	Line 107 load_tr(UINT16 selector)
tr_dump(task_sel.selector, task_sel.desc.u.seg.segbase, task_sel.desc.u.seg.limit);	tr_dump(task_sel.selector, task_sel.desc.u.seg.segbase, task_sel.desc.u.seg.limit);
#endif	#endif

set_task_busy(task_sel.selector, &task_sel.desc);	set_task_busy(task_sel.selector);
CPU_TR = task_sel.selector;	CPU_TR = task_sel.selector;
CPU_TR_DESC = task_sel.desc;	CPU_TR_DESC = task_sel.desc;
	CPU_TR_DESC.type \|= CPU_SYSDESC_TYPE_TSS_BUSY_IND;

/* I/O deny bitmap */	/* I/O deny bitmap */
CPU_STAT_IOLIMIT = 0;	CPU_STAT_IOLIMIT = 0;
if (task_sel.desc.type == CPU_SYSDESC_TYPE_TSS_BUSY_32) {	if (CPU_TR_DESC.type == CPU_SYSDESC_TYPE_TSS_BUSY_32) {
if (iobase != 0 && iobase < task_sel.desc.u.seg.limit) {	if (iobase != 0 && iobase < CPU_TR_DESC.u.seg.limit) {
CPU_STAT_IOLIMIT = (UINT16)(task_sel.desc.u.seg.limit - iobase);	CPU_STAT_IOLIMIT = (UINT16)(CPU_TR_DESC.u.seg.limit - iobase);
CPU_STAT_IOADDR = task_sel.desc.u.seg.segbase + iobase;	CPU_STAT_IOADDR = CPU_TR_DESC.u.seg.segbase + iobase;
}
}

#if defined(IA32_SUPPORT_DEBUG_REGISTER)
/* clear local break point flags */
CPU_DR7 &= ~(CPU_DR7_L(0)\|CPU_DR7_L(1)\|CPU_DR7_L(2)\|CPU_DR7_L(3)\|CPU_DR7_LE);
CPU_STAT_BP = 0;
for (i = 0; i < CPU_DEBUG_REG_INDEX_NUM; i++) {
if (CPU_DR7 & CPU_DR7_G(i)) {
CPU_STAT_BP \|= (1 << i);
}	}
}	}
#endif
}	}

void	void CPUCALL
get_stack_pointer_from_tss(UINT pl, UINT16 new_ss, UINT32 new_esp)	get_stack_pointer_from_tss(UINT pl, UINT16 new_ss, UINT32 new_esp)
{	{
UINT32 tss_stack_addr;	UINT32 tss_stack_addr;

VERBOSE(("get_stack_pointer_from_tss: pl = %d", pl));	VERBOSE(("get_stack_pointer_from_tss: pl = %d", pl));
VERBOSE(("CPU_TR type = %d, base = 0x%08x, limit = 0x%08x", CPU_TR_DESC.type, CPU_TR_BASE, CPU_TR_LIMIT));	VERBOSE(("get_stack_pointer_from_tss: CPU_TR type = %d, base = 0x%08x, limit = 0x%08x", CPU_TR_DESC.type, CPU_TR_BASE, CPU_TR_LIMIT));

__ASSERT(pl < 3);	__ASSERT(pl < 3);

Line 166 get_stack_pointer_from_tss(UINT pl, UINT	Line 151 get_stack_pointer_from_tss(UINT pl, UINT
} else {	} else {
ia32_panic("get_stack_pointer_from_tss: task register is invalid (%d)\n", CPU_TR_DESC.type);	ia32_panic("get_stack_pointer_from_tss: task register is invalid (%d)\n", CPU_TR_DESC.type);
}	}
VERBOSE(("new stack pointer = %04x:%08x", new_ss, new_esp));	VERBOSE(("get_stack_pointer_from_tss: new stack pointer = %04x:%08x", new_ss, new_esp));
}	}

UINT16	UINT16
Line 191 get_backlink_selector_from_tss(void)	Line 176 get_backlink_selector_from_tss(void)
return backlink;	return backlink;
}	}

void	void CPUCALL
task_switch(selector_t *task_sel, task_switch_type_t type)	task_switch(selector_t *task_sel, task_switch_type_t type)
{	{
UINT32 regs[CPU_REG_NUM];	UINT32 regs[CPU_REG_NUM];
Line 334 task_switch(selector_t *task_sel, task_s	Line 319 task_switch(selector_t *task_sel, task_s
/FALLTHROUGH/	/FALLTHROUGH/
case TASK_SWITCH_JMP:	case TASK_SWITCH_JMP:
/* clear busy flags in current task */	/* clear busy flags in current task */
set_task_free(CPU_TR, &CPU_TR_DESC);	set_task_free(CPU_TR);
break;	break;

case TASK_SWITCH_CALL:	case TASK_SWITCH_CALL:
Line 409 task_switch(selector_t *task_sel, task_s	Line 394 task_switch(selector_t *task_sel, task_s
new_flags \|= NT_FLAG;	new_flags \|= NT_FLAG;
/FALLTHROUGH/	/FALLTHROUGH/
case TASK_SWITCH_JMP:	case TASK_SWITCH_JMP:
set_task_busy(task_sel->selector, &task_sel->desc);	set_task_busy(task_sel->selector);
break;	break;

case TASK_SWITCH_IRET:	case TASK_SWITCH_IRET:
/* check busy flag is active */	/* check busy flag is active */
if (SEG_IS_VALID(&task_sel->desc)) {	if (SEG_IS_VALID(&task_sel->desc)) {
Line 431 task_switch(selector_t *task_sel, task_s	Line 416 task_switch(selector_t *task_sel, task_s
/* load task selector to CPU_TR */	/* load task selector to CPU_TR */
CPU_TR = task_sel->selector;	CPU_TR = task_sel->selector;
CPU_TR_DESC = task_sel->desc;	CPU_TR_DESC = task_sel->desc;
	CPU_TR_DESC.type \|= CPU_SYSDESC_TYPE_TSS_BUSY_IND;
/* clear BUSY flag in descriptor cache */
CPU_TR_DESC.type &= ~CPU_SYSDESC_TYPE_TSS_BUSY_IND;

/* set CR0 image CPU_CR0_TS */	/* set CR0 image CPU_CR0_TS */
CPU_CR0 \|= CPU_CR0_TS;	CPU_CR0 \|= CPU_CR0_TS;

/*	/*
* load task state (CR3, EFLAG, EIP, GPR, segreg, LDTR)	* load task state (CR3, EIP, GPR, segregs, LDTR, EFLAGS)
*/	*/

/* set new CR3 */	/* set new CR3 */
Line 447 task_switch(selector_t *task_sel, task_s	Line 430 task_switch(selector_t *task_sel, task_s
set_cr3(cr3);	set_cr3(cr3);
}	}

/* set new EIP, GPR */	/* set new EIP, GPR, segregs */
CPU_EIP = eip;	CPU_EIP = eip;
for (i = 0; i < CPU_REG_NUM; i++) {	for (i = 0; i < CPU_REG_NUM; i++) {
CPU_REGS_DWORD(i) = regs[i];	CPU_REGS_DWORD(i) = regs[i];
}	}
for (i = 0; i < CPU_SEGREG_NUM; i++) {	for (i = 0; i < CPU_SEGREG_NUM; i++) {
segdesc_init(i, sreg[i], &CPU_STAT_SREG(i));	segdesc_init(i, sreg[i], &CPU_STAT_SREG(i));
	/* invalidate segreg descriptor */
	CPU_STAT_SREG(i).valid = 0;
}	}

	CPU_CLEAR_PREV_ESP();

/* load new LDTR */	/* load new LDTR */
	CPU_LDTR_DESC.valid = 0;
load_ldtr(ldtr, TS_EXCEPTION);	load_ldtr(ldtr, TS_EXCEPTION);

/* I/O deny bitmap */	/* I/O deny bitmap */
CPU_STAT_IOLIMIT = 0;	CPU_STAT_IOLIMIT = 0;
if (!task16 && iobase != 0 && iobase < task_sel->desc.u.seg.limit) {	if (!task16 && iobase != 0 && iobase < CPU_TR_DESC.u.seg.limit) {
CPU_STAT_IOLIMIT = (UINT16)(task_sel->desc.u.seg.limit - iobase);	CPU_STAT_IOLIMIT = (UINT16)(CPU_TR_DESC.u.seg.limit - iobase);
CPU_STAT_IOADDR = task_base + iobase;	CPU_STAT_IOADDR = task_base + iobase;
}	}
VERBOSE(("task_switch: ioaddr = %08x, limit = %08x", CPU_STAT_IOADDR, CPU_STAT_IOLIMIT));	VERBOSE(("task_switch: ioaddr = %08x, limit = %08x", CPU_STAT_IOADDR, CPU_STAT_IOLIMIT));

#if defined(IA32_SUPPORT_DEBUG_REGISTER)
/* check resume flag */
if (CPU_EFLAG & RF_FLAG) {
CPU_STAT_BP_EVENT \|= CPU_STAT_BP_EVENT_RF;
}

/* clear local break point flags */
CPU_DR7 &= ~(CPU_DR7_L(0)\|CPU_DR7_L(1)\|CPU_DR7_L(2)\|CPU_DR7_L(3)\|CPU_DR7_LE);
CPU_STAT_BP = 0;
for (i = 0; i < CPU_DEBUG_REG_INDEX_NUM; i++) {
if (CPU_DR7 & CPU_DR7_G(i)) {
CPU_STAT_BP \|= (1 << i);
}
}
#endif

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

/* set new segment register */	/* set new segment register */
if (!CPU_STAT_VM86) {	if (!CPU_STAT_VM86) {
/* clear segment descriptor cache */
for (i = 0; i < CPU_SEGREG_NUM; i++) {
segdesc_clear(&CPU_STAT_SREG(i));
}

/* load CS */	/* load CS */
rv = parse_selector(&cs_sel, sreg[CPU_CS_INDEX]);	rv = parse_selector(&cs_sel, sreg[CPU_CS_INDEX]);
if (rv < 0) {	if (rv < 0) {
Line 550 task_switch(selector_t *task_sel, task_s	Line 517 task_switch(selector_t *task_sel, task_s
EXCEPTION(SS_EXCEPTION, ss_sel.idx);	EXCEPTION(SS_EXCEPTION, ss_sel.idx);
}	}

/* Now loading CS/SS register */	/* Now loading SS register */
load_cs(cs_sel.selector, &cs_sel.desc, cs_sel.rpl);
load_ss(ss_sel.selector, &ss_sel.desc, cs_sel.rpl);	load_ss(ss_sel.selector, &ss_sel.desc, cs_sel.rpl);

/* load ES, DS, FS, GS segment register */	/* load ES, DS, FS, GS segment register */
for (i = 0; i < CPU_SEGREG_NUM; i++) {	LOAD_SEGREG1(CPU_ES_INDEX, sreg[CPU_ES_INDEX], TS_EXCEPTION);
if (i != CPU_CS_INDEX \|\| i != CPU_SS_INDEX) {	LOAD_SEGREG1(CPU_DS_INDEX, sreg[CPU_DS_INDEX], TS_EXCEPTION);
LOAD_SEGREG1(i, sreg[i], TS_EXCEPTION);	LOAD_SEGREG1(CPU_FS_INDEX, sreg[CPU_FS_INDEX], TS_EXCEPTION);
}	LOAD_SEGREG1(CPU_GS_INDEX, sreg[CPU_GS_INDEX], TS_EXCEPTION);
}
}

/* out of range */	/* Now loading CS register */
if (CPU_EIP > CPU_STAT_CS_LIMIT) {	load_cs(cs_sel.selector, &cs_sel.desc, cs_sel.rpl);
VERBOSE(("task_switch: new_ip is out of range. new_ip = %08x, limit = %08x", CPU_EIP, CPU_STAT_CS_LIMIT));
EXCEPTION(GP_EXCEPTION, 0);
}	}

VERBOSE(("task_switch: done."));	VERBOSE(("task_switch: done."));

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

Removed from v.1.25
changed lines
	Added in v.1.33