np2/i386c/ia32/segments.c - diff

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Diff for /np2/i386c/ia32/segments.c between versions 1.5 and 1.6

version 1.5, 2004/01/14 16:14:49	version 1.6, 2004/01/15 15:50:33
Line 46 load_segreg(int idx, WORD selector, int	Line 46 load_segreg(int idx, WORD selector, int
/* real-mode or vm86 mode */	/* real-mode or vm86 mode */
CPU_REGS_SREG(idx) = selector;	CPU_REGS_SREG(idx) = selector;

	memset(&sd, 0, sizeof(sd));
sd.u.seg.limit = CPU_STAT_SREGLIMIT(idx);	sd.u.seg.limit = CPU_STAT_SREGLIMIT(idx);
CPU_SET_SEGDESC_DEFAULT(&sd, idx, selector);	CPU_SET_SEGDESC_DEFAULT(&sd, idx, selector);
CPU_STAT_SREG(idx) = sd;	CPU_STAT_SREG(idx) = sd;
Line 209 load_descriptor(descriptor_t *descp, DWO	Line 210 load_descriptor(descriptor_t *descp, DWO
descp->addr = addr;	descp->addr = addr;
descp->l = cpu_lmemoryread_d(descp->addr);	descp->l = cpu_lmemoryread_d(descp->addr);
descp->h = cpu_lmemoryread_d(descp->addr + 4);	descp->h = cpu_lmemoryread_d(descp->addr + 4);
	VERBOSE(("load_descriptor: descriptor address = 0x%08x, h = 0x%08x, l = %08x", descp->addr, descp->h, descp->l));

descp->flag = 0;	descp->flag = 0;

Line 217 load_descriptor(descriptor_t *descp, DWO	Line 219 load_descriptor(descriptor_t *descp, DWO
descp->dpl = (descp->h & CPU_DESC_H_DPL) >> 13;	descp->dpl = (descp->h & CPU_DESC_H_DPL) >> 13;
descp->s = (descp->h & CPU_DESC_H_S) == CPU_DESC_H_S;	descp->s = (descp->h & CPU_DESC_H_S) == CPU_DESC_H_S;

	VERBOSE(("load_descriptor: present = %s, type = %d, DPL = %d", descp->p ? "true" : "false", descp->type, descp->dpl));

if (descp->s) {	if (descp->s) {
/* code/data */	/* code/data */
descp->valid = 1;	descp->valid = 1;
Line 230 load_descriptor(descriptor_t *descp, DWO	Line 234 load_descriptor(descriptor_t *descp, DWO
descp->u.seg.segbase = (descp->l >> 16) & 0xffff;	descp->u.seg.segbase = (descp->l >> 16) & 0xffff;
descp->u.seg.segbase \|= (descp->h & 0xff) << 16;	descp->u.seg.segbase \|= (descp->h & 0xff) << 16;
descp->u.seg.segbase \|= descp->h & 0xff000000;	descp->u.seg.segbase \|= descp->h & 0xff000000;

descp->u.seg.limit = (descp->h & 0xf0000) \| (descp->l & 0xffff);	descp->u.seg.limit = (descp->h & 0xf0000) \| (descp->l & 0xffff);
if (descp->u.seg.g) {	if (descp->u.seg.g) {
descp->u.seg.limit <<= 12;	descp->u.seg.limit <<= 12;
descp->u.seg.limit \|= 0xfff;	descp->u.seg.limit \|= 0xfff;
}	}

descp->u.seg.segend = descp->u.seg.segbase + descp->u.seg.limit;	descp->u.seg.segend = descp->u.seg.segbase + descp->u.seg.limit;

VERBOSE(("load_descriptor: %s segment descriptor: addr = 0x%08x, h = 0x%04x, l = %04x, type = %d, DPL = %d, base = 0x%08x, limit = 0x%08x, d = %s, g = %s, %s, %s", descp->u.seg.c ? "code" : "data", descp->addr, descp->h, descp->l, descp->type, descp->dpl, descp->u.seg.segbase, descp->u.seg.limit, descp->d ? "on" : "off", descp->u.seg.g ? "on" : "off", descp->u.seg.c ? (descp->u.seg.wr ? "executable/readable" : "execute-only") : (descp->u.seg.wr ? "writable" : "read-only"), (descp->u.seg.c ? (descp->u.seg.ec ? "conforming" : "non-conforming") : (descp->u.seg.ec ? "expand-down" : "expand-up"))));	VERBOSE(("load_descriptor: %s segment descriptor", descp->u.seg.c ? "code" : "data"));
	VERBOSE(("load_descriptor: segment base address = 0x%08x, segment limit = 0x%08x", descp->u.seg.segbase, descp->u.seg.limit));
	VERBOSE(("load_descriptor: d = %s, g = %s", descp->d ? "on" : "off", descp->u.seg.g ? "on" : "off"));
	VERBOSE(("load_descriptor: %s, %s", descp->u.seg.c ? (descp->u.seg.wr ? "executable/readable" : "execute-only") : (descp->u.seg.wr ? "writable" : "read-only"), (descp->u.seg.c ? (descp->u.seg.ec ? "conforming" : "non-conforming") : (descp->u.seg.ec ? "expand-down" : "expand-up"))));
} else {	} else {
/* system */	/* system */
switch (descp->type) {	switch (descp->type) {
Line 250 load_descriptor(descriptor_t *descp, DWO	Line 255 load_descriptor(descriptor_t *descp, DWO
descp->u.seg.segbase \|= descp->l >> 16;	descp->u.seg.segbase \|= descp->l >> 16;
descp->u.seg.limit = descp->h & 0xf0000;	descp->u.seg.limit = descp->h & 0xf0000;
descp->u.seg.limit \|= descp->l & 0xffff;	descp->u.seg.limit \|= descp->l & 0xffff;
	descp->u.seg.segend = descp->u.seg.segbase + descp->u.seg.limit;

VERBOSE(("load_descriptor: LDT descriptor"));	VERBOSE(("load_descriptor: LDT descriptor"));
	VERBOSE(("load_descriptor: LDT base address = 0x%08x, limit size = 0x%08x", descp->u.seg.segbase, descp->u.seg.limit));
break;	break;

case CPU_SYSDESC_TYPE_TASK:	case CPU_SYSDESC_TYPE_TASK:
descp->valid = 1;	descp->valid = 1;
descp->u.gate.selector = descp->l >> 16;	descp->u.gate.selector = descp->l >> 16;

VERBOSE(("load_descriptor: task descriptor: selector = 0x%04x", descp->u.gate.selector));	VERBOSE(("load_descriptor: task descriptor: selector = 0x%04x", descp->u.gate.selector));
break;	break;

Line 267 load_descriptor(descriptor_t *descp, DWO	Line 276 load_descriptor(descriptor_t *descp, DWO
descp->u.seg.limit = descp->h & 0xf0000;	descp->u.seg.limit = descp->h & 0xf0000;
descp->u.seg.limit \|= descp->l & 0xffff;	descp->u.seg.limit \|= descp->l & 0xffff;
descp->u.seg.segend = descp->u.seg.segbase + descp->u.seg.limit;	descp->u.seg.segend = descp->u.seg.segbase + descp->u.seg.limit;
VERBOSE(("load_descriptor: 16bit %sTSS descriptor: base = 0x%08x, limit = 0x%08x", (descp->type & CPU_SYSDESC_TYPE_TSS_BUSY) ? "busy " : "", descp->u.seg.segbase, descp->u.seg.limit));
	VERBOSE(("load_descriptor: 16bit %sTSS descriptor", (descp->type & CPU_SYSDESC_TYPE_TSS_BUSY) ? "busy " : ""));
	VERBOSE(("load_descriptor: TSS base address = 0x%08x, limit = 0x%08x", descp->u.seg.segbase, descp->u.seg.limit));
break;	break;

case CPU_SYSDESC_TYPE_CALL_16: /* 286 call gate */	case CPU_SYSDESC_TYPE_CALL_16: /* 286 call gate */
Line 278 load_descriptor(descriptor_t *descp, DWO	Line 289 load_descriptor(descriptor_t *descp, DWO
descp->u.gate.selector = descp->l >> 16;	descp->u.gate.selector = descp->l >> 16;
descp->u.gate.offset = descp->l & 0xffff;	descp->u.gate.offset = descp->l & 0xffff;
descp->u.gate.count = descp->h & 0x1f;	descp->u.gate.count = descp->h & 0x1f;
VERBOSE(("load_descriptor: 16bit %s gate descriptor: selector = 0x%04x, offset = 0x%08x, count = %d", (descp->type == CPU_SYSDESC_TYPE_CALL_16) ? "call" : ((descp->type == CPU_SYSDESC_TYPE_INTR_16) ? "interrupt" : "trap"), descp->u.gate.selector, descp->u.gate.offset, descp->u.gate.count));
	VERBOSE(("load_descriptor: 16bit %s gate descriptor", (descp->type == CPU_SYSDESC_TYPE_CALL_16) ? "call" : ((descp->type == CPU_SYSDESC_TYPE_INTR_16) ? "interrupt" : "trap")));
	VERBOSE(("load_descriptor: selector = 0x%04x, offset = 0x%08x, count = %d", descp->u.gate.selector, descp->u.gate.offset, descp->u.gate.count));
} else {	} else {
ia32_panic("load_descriptor: 286 gate is invalid");	ia32_panic("load_descriptor: 286 gate is invalid");
}	}
Line 298 load_descriptor(descriptor_t *descp, DWO	Line 311 load_descriptor(descriptor_t *descp, DWO
descp->u.seg.limit <<= 12;	descp->u.seg.limit <<= 12;
descp->u.seg.limit \|= 0xfff;	descp->u.seg.limit \|= 0xfff;
}	}
VERBOSE(("load_descriptor: 32bit %sTSS descriptor: base = 0x%08x, limit = 0x%08x, d = %s, g = %s", (descp->type & CPU_SYSDESC_TYPE_TSS_BUSY) ? "busy " : "", descp->u.seg.segbase, descp->u.seg.limit, descp->d ? "on" : "off", descp->u.seg.g ? "on" : "off"));	descp->u.seg.segend = descp->u.seg.segbase + descp->u.seg.limit;

	VERBOSE(("load_descriptor: 32bit %sTSS descriptor", (descp->type & CPU_SYSDESC_TYPE_TSS_BUSY) ? "busy " : ""));
	VERBOSE(("load_descriptor: TSS base address = 0x%08x, limit = 0x%08x", descp->u.seg.segbase, descp->u.seg.limit));
	VERBOSE(("load_descriptor: d = %s, g = %s", descp->d ? "on" : "off", descp->u.seg.g ? "on" : "off"));
break;	break;

case CPU_SYSDESC_TYPE_CALL_32: /* 386 call gate */	case CPU_SYSDESC_TYPE_CALL_32: /* 386 call gate */
Line 311 load_descriptor(descriptor_t *descp, DWO	Line 328 load_descriptor(descriptor_t *descp, DWO
descp->u.gate.offset = descp->h & 0xffff0000;	descp->u.gate.offset = descp->h & 0xffff0000;
descp->u.gate.offset \|= descp->l & 0xffff;	descp->u.gate.offset \|= descp->l & 0xffff;
descp->u.gate.count = descp->h & 0x1f;	descp->u.gate.count = descp->h & 0x1f;
VERBOSE(("load_descriptor: 32bit %s gate descriptor: selector = 0x%04x, offset = 0x%08x, count = %d, d = %s", (descp->type == CPU_SYSDESC_TYPE_CALL_16) ? "call" : ((descp->type == CPU_SYSDESC_TYPE_INTR_16) ? "interrupt" : "trap"), descp->u.gate.selector, descp->u.gate.offset, descp->u.gate.count, descp->d ? "on" : "off"));
	VERBOSE(("load_descriptor: 32bit %s gate descriptor", (descp->type == CPU_SYSDESC_TYPE_CALL_32) ? "call" : ((descp->type == CPU_SYSDESC_TYPE_INTR_32) ? "interrupt" : "trap")));
	VERBOSE(("load_descriptor: selector = 0x%04x, offset = 0x%08x, count = %d, d = %s", descp->u.gate.selector, descp->u.gate.offset, descp->u.gate.count, descp->d ? "on" : "off"));
} else {	} else {
ia32_panic("load_descriptor: 286 gate is invalid");	ia32_panic("load_descriptor: 386 gate is invalid");
}	}
break;	break;

case 0: case 8: case 10: case 13: /* reserved */	case 0: case 8: case 10: case 13: /* reserved */
default:	default:
descp->valid = 0;	descp->valid = 0;
ia32_panic("bad segment descriptor (%d)", descp->type);	ia32_panic("bad descriptor (%d)", descp->type);
break;	break;
}	}
}	}

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	Added in v.1.6