np2/i386c/ia32/task.c - diff

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Diff for /np2/i386c/ia32/task.c between versions 1.34 and 1.38

version 1.34, 2012/01/08 18:26:55	version 1.38, 2012/02/07 09:11:11
Line 44 set_task_busy(UINT16 selector)	Line 44 set_task_busy(UINT16 selector)
h \|= CPU_TSS_H_BUSY;	h \|= CPU_TSS_H_BUSY;
cpu_kmemorywrite_d(addr + 4, h);	cpu_kmemorywrite_d(addr + 4, h);
} else {	} else {
ia32_panic("set_task_busy: already busy(%04x:%08x)",selector,h);	ia32_panic("set_task_busy: already busy(%04x:%08x)",
	selector, h);
}	}
}	}

Line 60 set_task_free(UINT16 selector)	Line 61 set_task_free(UINT16 selector)
h &= ~CPU_TSS_H_BUSY;	h &= ~CPU_TSS_H_BUSY;
cpu_kmemorywrite_d(addr + 4, h);	cpu_kmemorywrite_d(addr + 4, h);
} else {	} else {
ia32_panic("set_task_free: already free(%04x:%08x)",selector,h);	ia32_panic("set_task_free: already free(%04x:%08x)",
	selector, h);
}	}
}	}

Line 155 get_stack_pointer_from_tss(UINT pl, UINT	Line 157 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(("get_stack_pointer_from_tss: 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 176 get_backlink_selector_from_tss(void)	Line 179 get_backlink_selector_from_tss(void)
}	}

backlink = cpu_kmemoryread_w(CPU_TR_BASE);	backlink = cpu_kmemoryread_w(CPU_TR_BASE);
VERBOSE(("get_backlink_selector_from_tss: backlink selector = 0x%04x", backlink));	VERBOSE(("get_backlink_selector_from_tss: backlink selector = 0x%04x",
	backlink));
return backlink;	return backlink;
}	}

Line 230 task_switch(selector_t *task_sel, task_s	Line 234 task_switch(selector_t *task_sel, task_s
cur_paddr = laddr_to_paddr(cur_base, CPU_PAGE_WRITE_DATA\|CPU_MODE_SUPERVISER);	cur_paddr = laddr_to_paddr(cur_base, CPU_PAGE_WRITE_DATA\|CPU_MODE_SUPERVISER);
task_base = task_sel->desc.u.seg.segbase;	task_base = task_sel->desc.u.seg.segbase;
task_paddr = laddr_to_paddr(task_base, CPU_PAGE_WRITE_DATA\|CPU_MODE_SUPERVISER);	task_paddr = laddr_to_paddr(task_base, CPU_PAGE_WRITE_DATA\|CPU_MODE_SUPERVISER);
VERBOSE(("task_switch: current task (%04x) = 0x%08x:%08x", CPU_TR, cur_base, CPU_TR_LIMIT));	VERBOSE(("task_switch: current task (%04x) = 0x%08x:%08x (p0x%08x)",
VERBOSE(("task_switch: new task (%04x) = 0x%08x:%08x", task_sel->selector, task_base, task_sel->desc.u.seg.limit));	CPU_TR, cur_base, CPU_TR_LIMIT, cur_paddr));
	VERBOSE(("task_switch: new task (%04x) = 0x%08x:%08x (p0x%08x)",
	task_sel->selector, task_base, task_sel->desc.u.seg.limit,
	task_paddr));
VERBOSE(("task_switch: %dbit task switch", task16 ? 16 : 32));	VERBOSE(("task_switch: %dbit task switch", task16 ? 16 : 32));

#if defined(MORE_DEBUG)	#if defined(MORE_DEBUG)
{	VERBOSE(("task_switch: new task"));
UINT32 v;	for (i = 0; i < task_sel->desc.u.seg.limit; i += 4) {
	VERBOSE(("task_switch: 0x%08x: %08x", task_base + i,
VERBOSE(("task_switch: new task"));	cpu_memoryread_d(task_paddr + i)));
for (i = 0; i < task_sel->desc.u.seg.limit; i += 4) {
v = cpu_memoryread_d(task_paddr + i);
VERBOSE(("task_switch: 0x%08x: %08x", task_base + i,v));
}
}	}
#endif	#endif

/* load task state */	/* load task state */
memset(sreg, 0, sizeof(sreg));
if (!task16) {	if (!task16) {
if (CPU_STAT_PAGING) {	if (CPU_STAT_PAGING) {
cr3 = cpu_memoryread_d(task_paddr + 28);	cr3 = cpu_memoryread_d(task_paddr + 28);
Line 275 task_switch(selector_t *task_sel, task_s	Line 277 task_switch(selector_t *task_sel, task_s
for (i = 0; i < CPU_SEGREG286_NUM; i++) {	for (i = 0; i < CPU_SEGREG286_NUM; i++) {
sreg[i] = cpu_memoryread_w(task_paddr + 34 + i * 2);	sreg[i] = cpu_memoryread_w(task_paddr + 34 + i * 2);
}	}
	for (; i < CPU_SEGREG_NUM; i++) {
	sreg[i] = 0;
	}
ldtr = cpu_memoryread_w(task_paddr + 42);	ldtr = cpu_memoryread_w(task_paddr + 42);
iobase = 0;	iobase = 0;
t = 0;	t = 0;
Line 288 task_switch(selector_t *task_sel, task_s	Line 293 task_switch(selector_t *task_sel, task_s
VERBOSE(("task_switch: eip = 0x%08x", CPU_EIP));	VERBOSE(("task_switch: eip = 0x%08x", CPU_EIP));
VERBOSE(("task_switch: eflags = 0x%08x", old_flags));	VERBOSE(("task_switch: eflags = 0x%08x", old_flags));
for (i = 0; i < CPU_REG_NUM; i++) {	for (i = 0; i < CPU_REG_NUM; i++) {
VERBOSE(("task_switch: regs[%d] = 0x%08x", i, CPU_REGS_DWORD(i)));	VERBOSE(("task_switch: %s = 0x%08x", reg32_str[i],
	CPU_REGS_DWORD(i)));
}	}
for (i = 0; i < CPU_SEGREG_NUM; i++) {	for (i = 0; i < CPU_SEGREG_NUM; i++) {
VERBOSE(("task_switch: sreg[%d] = 0x%04x", i, CPU_REGS_SREG(i)));	VERBOSE(("task_switch: %s = 0x%04x", sreg_str[i],
	CPU_REGS_SREG(i)));
}	}
VERBOSE(("task_switch: ldtr = 0x%04x", CPU_LDTR));	VERBOSE(("task_switch: ldtr = 0x%04x", CPU_LDTR));

Line 302 task_switch(selector_t *task_sel, task_s	Line 309 task_switch(selector_t *task_sel, task_s
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++) {
VERBOSE(("task_switch: regs[%d] = 0x%08x", i, regs[i]));	VERBOSE(("task_switch: %s = 0x%08x", reg32_str[i], regs[i]));
}	}
for (i = 0; i < CPU_SEGREG_NUM; i++) {	for (i = 0; i < CPU_SEGREG_NUM; i++) {
VERBOSE(("task_switch: sreg[%d] = 0x%04x", i, sreg[i]));	VERBOSE(("task_switch: %s = 0x%04x", sreg_str[i], sreg[i]));
}	}
VERBOSE(("task_switch: ldtr = 0x%04x", ldtr));	VERBOSE(("task_switch: ldtr = 0x%04x", ldtr));
if (!task16) {	if (!task16) {
Line 332 task_switch(selector_t *task_sel, task_s	Line 339 task_switch(selector_t *task_sel, task_s
break;	break;

default:	default:
ia32_panic("task_switch(): task switch type is invalid");	ia32_panic("task_switch: task switch type is invalid");
break;	break;
}	}

Line 341 task_switch(selector_t *task_sel, task_s	Line 348 task_switch(selector_t *task_sel, task_s
cpu_memorywrite_d(cur_paddr + 32, CPU_EIP);	cpu_memorywrite_d(cur_paddr + 32, CPU_EIP);
cpu_memorywrite_d(cur_paddr + 36, old_flags);	cpu_memorywrite_d(cur_paddr + 36, old_flags);
for (i = 0; i < CPU_REG_NUM; i++) {	for (i = 0; i < CPU_REG_NUM; i++) {
cpu_memorywrite_d(cur_paddr + 40 + i * 4, CPU_REGS_DWORD(i));	cpu_memorywrite_d(cur_paddr + 40 + i * 4,
	CPU_REGS_DWORD(i));
}	}
for (i = 0; i < CPU_SEGREG_NUM; i++) {	for (i = 0; i < CPU_SEGREG_NUM; i++) {
cpu_memorywrite_w(cur_paddr + 72 + i * 4, CPU_REGS_SREG(i));	cpu_memorywrite_w(cur_paddr + 72 + i * 4,
	CPU_REGS_SREG(i));
}	}
} else {	} else {
cpu_memorywrite_w(cur_paddr + 14, CPU_IP);	cpu_memorywrite_w(cur_paddr + 14, CPU_IP);
cpu_memorywrite_w(cur_paddr + 16, (UINT16)old_flags);	cpu_memorywrite_w(cur_paddr + 16, (UINT16)old_flags);
for (i = 0; i < CPU_REG_NUM; i++) {	for (i = 0; i < CPU_REG_NUM; i++) {
cpu_memorywrite_w(cur_paddr + 18 + i * 2, CPU_REGS_WORD(i));	cpu_memorywrite_w(cur_paddr + 18 + i * 2,
	CPU_REGS_WORD(i));
}	}
for (i = 0; i < CPU_SEGREG286_NUM; i++) {	for (i = 0; i < CPU_SEGREG286_NUM; i++) {
cpu_memorywrite_w(cur_paddr + 34 + i * 2, CPU_REGS_SREG(i));	cpu_memorywrite_w(cur_paddr + 34 + i * 2,
	CPU_REGS_SREG(i));
}	}
}	}

Line 364 task_switch(selector_t *task_sel, task_s	Line 375 task_switch(selector_t *task_sel, task_s
/* set back link selector */	/* set back link selector */
cpu_memorywrite_w(task_paddr, CPU_TR);	cpu_memorywrite_w(task_paddr, CPU_TR);
break;	break;

case TASK_SWITCH_IRET:	case TASK_SWITCH_IRET:
case TASK_SWITCH_JMP:	case TASK_SWITCH_JMP:
/* Nothing to do */	/* Nothing to do */
break;	break;

default:	default:
ia32_panic("task_switch(): task switch type is invalid");	ia32_panic("task_switch: task switch type is invalid");
break;	break;
}	}

#if defined(MORE_DEBUG)	#if defined(MORE_DEBUG)
{	VERBOSE(("task_switch: current task"));
UINT32 v;	for (i = 0; i < CPU_TR_LIMIT; i += 4) {
	VERBOSE(("task_switch: 0x%08x: %08x", cur_base + i,
VERBOSE(("task_switch: current task"));	cpu_memoryread_d(cur_paddr + i)));
for (i = 0; i < CPU_TR_LIMIT; i += 4) {
v = cpu_memoryread_d(cur_paddr + i);
VERBOSE(("task_switch: 0x%08x: %08x", cur_base + i, v));
}
}	}
#endif	#endif

Line 413 task_switch(selector_t *task_sel, task_s	Line 420 task_switch(selector_t *task_sel, task_s
break;	break;

default:	default:
ia32_panic("task_switch(): task switch type is invalid");	ia32_panic("task_switch: task switch type is invalid");
break;	break;
}	}

Line 457 task_switch(selector_t *task_sel, task_s	Line 464 task_switch(selector_t *task_sel, task_s
CPU_STAT_IOLIMIT = (UINT16)(CPU_TR_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));

/* 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);

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

Removed from v.1.34
changed lines
	Added in v.1.38