usr.sbin/memswitch/methods.c

1.8    sevan /*	$NetBSD: methods.c,v 1.8 2018/01/23 21:06:25 sevan Exp $	*/
1.1  minoura
1.1  minoura /*-
1.1  minoura  * Copyright (c) 1999 The NetBSD Foundation, Inc.
1.1  minoura  * All rights reserved.
1.1  minoura  *
1.1  minoura  * This code is derived from software contributed to The NetBSD Foundation
1.1  minoura  * by Minoura Makoto.
1.1  minoura  *
1.1  minoura  * Redistribution and use in source and binary forms, with or without
1.1  minoura  * modification, are permitted provided that the following conditions
1.1  minoura  * are met:
1.1  minoura  * 1. Redistributions of source code must retain the above copyright
1.1  minoura  *    notice, this list of conditions and the following disclaimer.
1.1  minoura  * 2. Redistributions in binary form must reproduce the above copyright
1.1  minoura  *    notice, this list of conditions and the following disclaimer in the
1.1  minoura  *    documentation and/or other materials provided with the distribution.
1.1  minoura  *
1.1  minoura  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.1  minoura  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1  minoura  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1  minoura  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.1  minoura  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1  minoura  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1  minoura  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1  minoura  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1  minoura  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1  minoura  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  minoura  * POSSIBILITY OF SUCH DAMAGE.
1.1  minoura  */
1.1  minoura
1.1  minoura #include <stdio.h>
1.1  minoura #include <string.h>
1.1  minoura #include <err.h>
1.1  minoura #include <sys/types.h>
1.1  minoura
1.1  minoura #include "memswitch.h"
1.2  minoura #include "methods.h"
1.1  minoura
1.1  minoura int
1.8    sevan atoi_(const char **p)
1.1  minoura {
1.2  minoura 	const char *p1 = *p;
1.1  minoura 	int v = 0;
1.1  minoura 	int first = 1;
1.1  minoura
1.1  minoura 	while (*p1 == ' ' || *p1 == '\t')
1.1  minoura 		p1++;
1.1  minoura
1.1  minoura 	if (*p1 == 0) {
1.1  minoura 		*p = 0;
1.1  minoura 		return 0;
1.1  minoura 	}
1.7  minoura 	if (strlen(p1) >= 2 && strncasecmp("0x", p1, 2) == 0) {
1.1  minoura 		p1 += 2;
1.1  minoura 		while (1) {
1.1  minoura 			if (*p1 >= '0' && *p1 <= '9') {
1.1  minoura 				v *= 16;
1.1  minoura 				v += *p1 - '0';
1.1  minoura 				first = 0;
1.1  minoura 			} else if (*p1 >= 'A' && *p1 <= 'F') {
1.1  minoura 				v *= 16;
1.1  minoura 				v += *p1 - 'A' + 10;
1.1  minoura 				first = 0;
1.1  minoura 			} else if (*p1 >= 'a' && *p1 <= 'f') {
1.1  minoura 				v *= 16;
1.1  minoura 				v += *p1 - 'a' + 10;
1.1  minoura 				first = 0;
1.1  minoura 			} else {
1.1  minoura 				break;
1.1  minoura 			}
1.1  minoura 			p1++;
1.1  minoura 		}
1.1  minoura 	} else {
1.1  minoura 		while (1) {
1.1  minoura 			if (*p1 >= '0' && *p1 <= '9') {
1.1  minoura 				v *= 10;
1.1  minoura 				v += *p1 - '0';
1.1  minoura 				first = 0;
1.1  minoura 			} else {
1.1  minoura 				break;
1.1  minoura 			}
1.1  minoura 			p1++;
1.1  minoura 		}
1.1  minoura 	}
1.1  minoura
1.1  minoura 	if (first) {
1.1  minoura 		*p = 0;
1.1  minoura 		return 0;
1.1  minoura 	}
1.1  minoura
1.3  minoura 	while (*p1 == ' ' || *p1 == '\t') p1++;
1.1  minoura 	*p = p1;
1.1  minoura 	return v;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan fill_uchar(struct property *prop)
1.1  minoura {
1.1  minoura 	if (current_values == 0)
1.7  minoura 		alloc_current_values();
1.1  minoura
1.1  minoura 	prop->current_value.byte[0] = current_values[prop->offset];
1.1  minoura 	prop->current_value.byte[1] = 0;
1.1  minoura 	prop->current_value.byte[2] = 0;
1.1  minoura 	prop->current_value.byte[3] = 0;
1.1  minoura 	prop->value_valid = 1;
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan fill_ushort(struct property *prop)
1.1  minoura {
1.1  minoura 	if (current_values == 0)
1.7  minoura 		alloc_current_values();
1.1  minoura
1.1  minoura 	prop->current_value.byte[0] = current_values[prop->offset];
1.1  minoura 	prop->current_value.byte[1] = current_values[prop->offset+1];
1.1  minoura 	prop->current_value.byte[2] = 0;
1.1  minoura 	prop->current_value.byte[3] = 0;
1.1  minoura 	prop->value_valid = 1;
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan fill_ulong(struct property *prop)
1.1  minoura {
1.1  minoura 	if (current_values == 0)
1.7  minoura 		alloc_current_values();
1.1  minoura
1.1  minoura 	prop->current_value.byte[0] = current_values[prop->offset];
1.1  minoura 	prop->current_value.byte[1] = current_values[prop->offset+1];
1.1  minoura 	prop->current_value.byte[2] = current_values[prop->offset+2];
1.1  minoura 	prop->current_value.byte[3] = current_values[prop->offset+3];
1.1  minoura 	prop->value_valid = 1;
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan flush_uchar(struct property *prop)
1.1  minoura {
1.1  minoura 	if (!prop->modified)
1.1  minoura 		return 0;
1.1  minoura
1.1  minoura 	if (modified_values == 0)
1.7  minoura 		alloc_modified_values();
1.1  minoura
1.1  minoura 	modified_values[prop->offset] = prop->modified_value.byte[0];
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan flush_ushort(struct property *prop)
1.1  minoura {
1.1  minoura 	if (!prop->modified)
1.1  minoura 		return 0;
1.1  minoura
1.1  minoura 	if (modified_values == 0)
1.7  minoura 		alloc_modified_values();
1.1  minoura
1.1  minoura 	modified_values[prop->offset] = prop->modified_value.byte[0];
1.1  minoura 	modified_values[prop->offset+1] = prop->modified_value.byte[1];
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan flush_ulong(struct property *prop)
1.1  minoura {
1.1  minoura 	if (!prop->modified)
1.1  minoura 		return 0;
1.1  minoura
1.1  minoura 	if (modified_values == 0)
1.7  minoura 		alloc_modified_values();
1.1  minoura
1.1  minoura 	modified_values[prop->offset] = prop->modified_value.byte[0];
1.1  minoura 	modified_values[prop->offset+1] = prop->modified_value.byte[1];
1.1  minoura 	modified_values[prop->offset+2] = prop->modified_value.byte[2];
1.1  minoura 	modified_values[prop->offset+3] = prop->modified_value.byte[3];
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan flush_dummy(struct property *prop)
1.1  minoura {
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan parse_dummy(struct property *prop, const char *value)
1.1  minoura {
1.7  minoura 	warnx("Cannot modify %s.%s", prop->class, prop->node);
1.1  minoura
1.1  minoura 	return -1;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan parse_byte(struct property *prop, const char *value)
1.1  minoura {
1.1  minoura 	const char *p = value;
1.1  minoura 	int v;
1.1  minoura
1.7  minoura 	v = atoi_(&p);
1.1  minoura 	if (p == 0) {
1.7  minoura 		warnx("%s: Invalid value", value);
1.1  minoura 		return -1;
1.1  minoura 	}
1.1  minoura
1.7  minoura 	if (strcasecmp("MB", p) == 0)
1.1  minoura 		v *= 1024 * 1024;
1.7  minoura 	else if (strcasecmp("KB", p) == 0)
1.1  minoura 		v *= 1024;
1.1  minoura 	else if (*p != 0 &&
1.7  minoura 		 strcasecmp("B", p) != 0) {
1.7  minoura 		warnx("%s: Invalid value", value);
1.1  minoura 		return -1;
1.1  minoura 	}
1.1  minoura
1.1  minoura 	if (v < prop->min) {
1.7  minoura 		warnx("%s: Too small", value);
1.1  minoura 		return -1;
1.1  minoura 	} else if (v > prop->max) {
1.7  minoura 		warnx("%s: Too large", value);
1.1  minoura 		return -1;
1.1  minoura 	}
1.1  minoura
1.1  minoura 	prop->modified = 1;
1.1  minoura 	prop->modified_value.longword = v;
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan parse_uchar(struct property *prop, const char *value)
1.1  minoura {
1.1  minoura 	const char *p = value;
1.1  minoura 	int v;
1.1  minoura
1.7  minoura 	v = atoi_(&p);
1.1  minoura 	if (p == 0) {
1.7  minoura 		warnx("%s: Invalid value", value);
1.1  minoura 		return -1;
1.1  minoura 	}
1.1  minoura
1.1  minoura 	if (v < prop->min) {
1.7  minoura 		warnx("%s: Too small", value);
1.1  minoura 		return -1;
1.1  minoura 	} else if (v > prop->max) {
1.7  minoura 		warnx("%s: Too large", value);
1.1  minoura 		return -1;
1.1  minoura 	}
1.1  minoura
1.1  minoura 	prop->modified = 1;
1.1  minoura 	prop->modified_value.byte[0] = v;
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan parse_ulong(struct property *prop, const char *value)
1.1  minoura {
1.1  minoura 	const char *p = value;
1.1  minoura 	int v;
1.1  minoura
1.7  minoura 	v = atoi_(&p);
1.1  minoura 	if (p == 0) {
1.7  minoura 		warnx("%s: Invalid value", value);
1.1  minoura 		return -1;
1.1  minoura 	}
1.1  minoura
1.1  minoura 	if (v < prop->min) {
1.7  minoura 		warnx("%s: Too small", value);
1.1  minoura 		return -1;
1.1  minoura 	} else if (v > prop->max) {
1.7  minoura 		warnx("%s: Too large", value);
1.1  minoura 		return -1;
1.1  minoura 	}
1.1  minoura
1.1  minoura 	prop->modified = 1;
1.1  minoura 	prop->modified_value.longword = v;
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan parse_ushort(struct property *prop, const char *value)
1.1  minoura {
1.1  minoura 	const char *p = value;
1.1  minoura 	int v;
1.1  minoura
1.7  minoura 	v = atoi_(&p);
1.1  minoura 	if (p == 0) {
1.7  minoura 		warnx("%s: Invalid value", value);
1.1  minoura 		return -1;
1.1  minoura 	}
1.1  minoura
1.1  minoura 	if (v < prop->min) {
1.7  minoura 		warnx("%s: Too small", value);
1.1  minoura 		return -1;
1.1  minoura 	} else if (v > prop->max) {
1.7  minoura 		warnx("%s: Too large", value);
1.1  minoura 		return -1;
1.1  minoura 	}
1.1  minoura
1.1  minoura 	prop->modified = 1;
1.1  minoura 	prop->modified_value.word[0] = v;
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan parse_time(struct property *prop, const char *value)
1.1  minoura {
1.1  minoura 	const char *p = value;
1.1  minoura 	int v;
1.1  minoura
1.3  minoura 	while (*p == ' ' || *p == '\t') p++;
1.1  minoura 	if (*p == '-') {
1.1  minoura 		p++;
1.7  minoura 		v = -atoi_(&p);
1.1  minoura 	} else
1.7  minoura 		v = atoi_(&p);
1.1  minoura 	if (p == 0) {
1.7  minoura 		warnx("%s: Invalid value", value);
1.1  minoura 		return -1;
1.1  minoura 	}
1.1  minoura
1.7  minoura 	if (strcasecmp("hours", p) == 0 || strcasecmp("hour", p) == 0)
1.1  minoura 		v *= 60 * 60;
1.7  minoura 	else if (strcasecmp("minutes", p) == 0 ||
1.7  minoura 		 strcasecmp("minute", p) == 0)
1.1  minoura 		v *= 60;
1.1  minoura 	else if (*p != 0 &&
1.7  minoura 		 strcasecmp("second", p) != 0 &&
1.7  minoura 		 strcasecmp("seconds", p) != 0) {
1.7  minoura 		warnx("%s: Invalid value", value);
1.1  minoura 		return -1;
1.1  minoura 	}
1.1  minoura
1.1  minoura 	if (v < prop->min) {
1.7  minoura 		warnx("%s: Too small", value);
1.1  minoura 		return -1;
1.1  minoura 	} else if (v > prop->max) {
1.7  minoura 		warnx("%s: Too large", value);
1.1  minoura 		return -1;
1.1  minoura 	}
1.1  minoura
1.1  minoura 	prop->modified = 1;
1.1  minoura 	prop->modified_value.longword = v;
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan parse_bootdev(struct property *prop, const char *value)
1.1  minoura {
1.1  minoura 	const char *p = value;
1.1  minoura 	int v;
1.4  minoura 	char expr_scsi[32];
1.1  minoura
1.3  minoura 	while (*p == ' ' || *p == '\t') p++;
1.1  minoura
1.7  minoura 	if (strcasecmp("STD", p) == 0)
1.1  minoura 		v = 0;
1.7  minoura 	else if (strcasecmp("ROM", p) == 0)
1.1  minoura 		v = 0xa000;
1.7  minoura 	else if (strcasecmp("RAM", p) == 0)
1.1  minoura 		v = 0xb000;
1.7  minoura 	else if (strncasecmp("HD", p, 2) == 0) {
1.1  minoura 		p += 2;
1.7  minoura 		v = atoi_(&p);
1.1  minoura 		if (p == 0 || v < 0 || v > 15) {
1.7  minoura 			warnx("%s: Invalid value", value);
1.1  minoura 			return -1;
1.1  minoura 		}
1.1  minoura 		v *= 0x0100;
1.1  minoura 		v += 0x8000;
1.7  minoura 	} else if (strncasecmp("FD", p, 2) == 0) {
1.1  minoura 		p += 2;
1.7  minoura 		v = atoi_(&p);
1.1  minoura 		if (p == 0 || v < 0 || v > 3) {
1.7  minoura 			warnx("%s: Invalid value", value);
1.1  minoura 			return -1;
1.1  minoura 		}
1.1  minoura 		v *= 0x0100;
1.1  minoura 		v += 0x9070;
1.7  minoura 	} else if (strncasecmp("INSCSI", p, 6) == 0 ||
1.7  minoura 		   strncasecmp("EXSCSI", p, 6) == 0) {
1.7  minoura 		int isin = strncasecmp("EXSCSI", p, 6);
1.4  minoura
1.4  minoura 		p += 6;
1.7  minoura 		v = atoi_(&p);
1.4  minoura 		if (p == 0 || v < 0 || v > 7) {
1.7  minoura 			warnx("%s: Invalid value", value);
1.4  minoura 			return -1;
1.4  minoura 		}
1.4  minoura
1.4  minoura 		/* change boot.romaddr */
1.4  minoura 		sprintf(expr_scsi, "boot.romaddr=0x%06x",
1.4  minoura 			(isin ? 0xfc0000 : 0xea0020) + v * 4);
1.4  minoura 		modify_single(expr_scsi);
1.4  minoura
1.4  minoura 		/* boot.device again */
1.4  minoura 		v = 0xa000;
1.1  minoura 	} else {
1.7  minoura 		warnx("%s: Invalid value", value);
1.1  minoura 		return -1;
1.1  minoura 	}
1.1  minoura
1.1  minoura 	prop->modified = 1;
1.1  minoura 	prop->modified_value.word[0] = v;
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan parse_serial(struct property *prop, const char *value)
1.3  minoura #define NEXTSPEC	while (*p == ' ' || *p == '\t') p++;		\
1.3  minoura 			if (*p++ != ',') {				\
1.7  minoura 				warnx("%s: Invalid value", value);	\
1.3  minoura 				return -1;				\
1.3  minoura 			}						\
1.3  minoura 			while (*p == ' ' || *p == '\t') p++;
1.3  minoura {
1.3  minoura 	const char *p = value;
1.3  minoura 	const char *q;
1.3  minoura 	int baud, bit, parity, stop, flow;
1.5     yamt 	static const int bauds[] = {75, 150, 300, 600, 1200, 2400, 4800, 9600,
1.5     yamt 	    17361, 0};
1.5     yamt 	static const char parities[] = "noe";
1.3  minoura 	int i;
1.3  minoura
1.3  minoura 	while (*p == ' ' || *p == '\t') p++;
1.3  minoura
1.3  minoura 	/* speed */
1.7  minoura 	baud = atoi_(&p);
1.3  minoura 	if (p == 0) {
1.7  minoura 		warnx("%s: Invalid value", value);
1.3  minoura 		return -1;
1.3  minoura 	}
1.3  minoura 	for (i = 0; bauds[i]; i++)
1.3  minoura 		if (baud == bauds[i])
1.3  minoura 			break;
1.3  minoura 	if (bauds[i] == 0) {
1.7  minoura 		warnx("%d: Invalid speed", baud);
1.3  minoura 		return -1;
1.3  minoura 	}
1.3  minoura 	baud = i;
1.3  minoura
1.3  minoura 	NEXTSPEC;
1.3  minoura
1.3  minoura 	/* bit size */
1.3  minoura 	if (*p < '5' || *p > '8') {
1.7  minoura 		warnx("%c: Invalid bit size", *p);
1.3  minoura 		return -1;
1.3  minoura 	}
1.3  minoura 	bit = *p++ - '5';
1.3  minoura
1.3  minoura 	NEXTSPEC;
1.3  minoura
1.3  minoura 	/* parity */
1.3  minoura 	q = strchr(parities, *p++);
1.3  minoura 	if (q == 0) {
1.7  minoura 		warnx("%c: Invalid parity spec", *p);
1.3  minoura 		return -1;
1.3  minoura 	}
1.3  minoura 	parity = q - parities;
1.3  minoura
1.3  minoura 	NEXTSPEC;
1.3  minoura
1.3  minoura 	/* stop bit */
1.7  minoura 	if (strncmp(p, "1.5", 3) == 0) {
1.3  minoura 		stop = 2;
1.3  minoura 		p += 3;
1.7  minoura 	} else if (strncmp(p, "2", 1) == 0) {
1.3  minoura 		stop = 0;
1.3  minoura 		p++;
1.7  minoura 	} else if (strncmp(p, "1", 1) == 0) {
1.3  minoura 		stop = 1;
1.3  minoura 		p++;
1.3  minoura 	} else {
1.7  minoura 		warnx("%s: Invalid value", value);
1.3  minoura 		return -1;
1.3  minoura 	}
1.3  minoura
1.3  minoura 	NEXTSPEC;
1.3  minoura
1.3  minoura 	/* flow */
1.3  minoura 	if (*p == '-')
1.3  minoura 		flow = 0;
1.3  minoura 	else if (*p == 's')
1.3  minoura 		flow = 1;
1.3  minoura 	else {
1.7  minoura 		warnx("%s: Invalid value", value);
1.3  minoura 		return -1;
1.3  minoura 	}
1.3  minoura
1.3  minoura 	p++;
1.3  minoura 	while (*p == ' ' || *p == '\t') p++;
1.3  minoura 	if (*p != 0) {
1.7  minoura 		warnx("%s: Invalid value", value);
1.3  minoura 		return -1;
1.3  minoura 	}
1.3  minoura
1.3  minoura 	prop->modified = 1;
1.3  minoura 	prop->modified_value.word[0] = ((stop << 14) +
1.3  minoura 					(parity << 12) +
1.3  minoura 					(bit << 10) +
1.3  minoura 					(flow << 9) +
1.3  minoura 					baud);
1.3  minoura
1.3  minoura 	return 0;
1.3  minoura }
1.3  minoura #undef NEXTSPEC
1.3  minoura
1.3  minoura int
1.8    sevan parse_srammode(struct property *prop, const char *value)
1.3  minoura {
1.5     yamt 	static const char *const sramstrs[] = {"unused", "SRAMDISK", "program"};
1.3  minoura 	int i;
1.3  minoura
1.3  minoura 	for (i = 0; i <= 2; i++) {
1.7  minoura 		if (strcasecmp(value, sramstrs[i]) == 0)
1.3  minoura 			break;
1.3  minoura 	}
1.3  minoura 	if (i > 2) {
1.7  minoura 		warnx("%s: Invalid value", value);
1.3  minoura 		return -1;
1.3  minoura 	}
1.3  minoura
1.3  minoura 	prop->modified = 1;
1.3  minoura 	prop->modified_value.byte[0] = i;
1.3  minoura
1.3  minoura 	return 0;
1.3  minoura }
1.3  minoura
1.3  minoura int
1.8    sevan print_uchar(struct property *prop, char *str)
1.1  minoura {
1.1  minoura 	if (prop->modified)
1.7  minoura 		snprintf(str, MAXVALUELEN,
1.7  minoura 			 "%d", prop->modified_value.byte[0]);
1.1  minoura 	else {
1.1  minoura 		if (!prop->value_valid)
1.7  minoura 			prop->fill(prop);
1.7  minoura 		snprintf(str, MAXVALUELEN, "%d",
1.7  minoura 			 prop->current_value.byte[0]);
1.1  minoura 	}
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan print_ucharh(struct property *prop, char *str)
1.1  minoura {
1.1  minoura 	if (prop->modified)
1.7  minoura 		snprintf(str, MAXVALUELEN,
1.7  minoura 			 "0x%4.4x", prop->modified_value.byte[0]);
1.1  minoura 	else {
1.1  minoura 		if (!prop->value_valid)
1.7  minoura 			prop->fill(prop);
1.7  minoura 		snprintf(str, MAXVALUELEN,
1.7  minoura 			 "0x%4.4x", prop->current_value.byte[0]);
1.1  minoura 	}
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan print_ushorth(struct property *prop, char *str)
1.1  minoura {
1.1  minoura 	if (prop->modified)
1.7  minoura 		snprintf(str, MAXVALUELEN,
1.1  minoura 			  "0x%4.4x", prop->modified_value.word[0]);
1.1  minoura 	else {
1.1  minoura 		if (!prop->value_valid)
1.7  minoura 			prop->fill(prop);
1.7  minoura 		snprintf(str, MAXVALUELEN,
1.7  minoura 			 "0x%4.4x", prop->current_value.word[0]);
1.1  minoura 	}
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan print_ulong(struct property *prop, char *str)
1.1  minoura {
1.1  minoura 	if (prop->modified)
1.7  minoura 		snprintf(str, MAXVALUELEN,
1.7  minoura 			 "%ld", prop->modified_value.longword);
1.1  minoura 	else {
1.1  minoura 		if (!prop->value_valid)
1.7  minoura 			prop->fill(prop);
1.7  minoura 		snprintf(str, MAXVALUELEN,
1.7  minoura 			 "%ld", prop->current_value.longword);
1.1  minoura 	}
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan print_ulongh(struct property *prop, char *str)
1.1  minoura {
1.1  minoura 	if (prop->modified)
1.7  minoura 		snprintf(str, MAXVALUELEN,
1.7  minoura 			 "0x%8.8lx", prop->modified_value.longword);
1.1  minoura 	else {
1.1  minoura 		if (!prop->value_valid)
1.7  minoura 			prop->fill(prop);
1.7  minoura 		snprintf(str, MAXVALUELEN,
1.7  minoura 			 "0x%8.8lx", prop->current_value.longword);
1.1  minoura 	}
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan print_magic(struct property *prop, char *str)
1.1  minoura {
1.1  minoura 	if (!prop->value_valid)
1.7  minoura 		prop->fill(prop);
1.7  minoura 	snprintf(str, MAXVALUELEN, "%c%c%c%c",
1.7  minoura 		 prop->current_value.byte[0],
1.7  minoura 		 prop->current_value.byte[1],
1.7  minoura 		 prop->current_value.byte[2],
1.7  minoura 		 prop->current_value.byte[3]);
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan print_timesec(struct property *prop, char *str)
1.1  minoura {
1.1  minoura 	if (prop->modified)
1.7  minoura 		snprintf(str, MAXVALUELEN,
1.7  minoura 			 "%ld second", prop->modified_value.longword);
1.1  minoura 	else {
1.1  minoura 		if (!prop->value_valid)
1.7  minoura 			prop->fill(prop);
1.7  minoura 		snprintf(str, MAXVALUELEN,
1.7  minoura 			 "%ld second", prop->current_value.longword);
1.1  minoura 	}
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }
1.1  minoura
1.1  minoura int
1.8    sevan print_bootdev(struct property *prop, char *str)
1.1  minoura {
1.1  minoura 	unsigned int v;
1.1  minoura
1.1  minoura 	if (prop->modified)
1.1  minoura 		v = prop->modified_value.word[0];
1.1  minoura 	else {
1.1  minoura 		if (!prop->value_valid)
1.7  minoura 			prop->fill(prop);
1.1  minoura 		v = prop->current_value.word[0];
1.1  minoura 	}
1.1  minoura
1.1  minoura 	if (v == 0)
1.7  minoura 		strcpy(str, "STD");
1.1  minoura 	else if (v == 0xa000)
1.7  minoura 		strcpy(str, "ROM");
1.1  minoura 	else if (v == 0xb000)
1.7  minoura 		strcpy(str, "RAM");
1.1  minoura 	else if (v >= 0x8000 && v < 0x9000)
1.7  minoura 		snprintf(str, MAXVALUELEN, "HD%d", (v & 0x0f00) >> 8);
1.1  minoura 	else if (v >= 0x9000 && v < 0xa000)
1.7  minoura 		snprintf(str, MAXVALUELEN, "FD%d", (v & 0x0f00) >> 8);
1.1  minoura 	else
1.7  minoura 		snprintf(str, MAXVALUELEN, "%8.8x", v);
1.3  minoura
1.3  minoura 	return 0;
1.3  minoura }
1.3  minoura
1.3  minoura int
1.8    sevan print_serial(struct property *prop, char *str)
1.3  minoura {
1.3  minoura 	unsigned int v;
1.4  minoura 	const char *baud, *stop;
1.4  minoura 	char bit, parity, flow;
1.5     yamt 	static const char *const bauds[] = {"75", "150", "300", "600", "1200",
1.4  minoura 			       "2400", "4800", "9600", "17361"};
1.5     yamt 	static const char bits[] = "5678";
1.5     yamt 	static const char parities[] = "noen";
1.5     yamt 	static const char *const stops[] = {"2", "1", "1.5", "2"};
1.5     yamt 	static const char flows[] = "-s";
1.3  minoura
1.3  minoura 	if (prop->modified)
1.3  minoura 		v = prop->modified_value.word[0];
1.3  minoura 	else {
1.3  minoura 		if (!prop->value_valid)
1.7  minoura 			prop->fill(prop);
1.3  minoura 		v = prop->current_value.word[0];
1.3  minoura 	}
1.3  minoura
1.3  minoura 	baud = bauds[v & 0x000f];
1.3  minoura 	bit = bits[(v & 0x0c00) >> 10];
1.3  minoura 	parity = parities[(v & 0x3000) >> 12];
1.3  minoura 	stop = stops[(v & 0xe000) >> 14];
1.3  minoura 	flow = flows[(v & 0x0200) >> 9];
1.7  minoura 	sprintf(str, "%s,%c,%c,%s,%c", baud, bit, parity, stop, flow);
1.3  minoura
1.3  minoura 	return 0;
1.3  minoura }
1.3  minoura
1.3  minoura int
1.8    sevan print_srammode(struct property *prop, char *str)
1.3  minoura {
1.3  minoura 	int v;
1.5     yamt 	static const char *const sramstrs[] = {"unused", "SRAMDISK", "program"};
1.3  minoura
1.3  minoura 	if (prop->modified)
1.3  minoura 		v = prop->modified_value.byte[0];
1.3  minoura 	else {
1.3  minoura 		if (!prop->value_valid)
1.7  minoura 			prop->fill(prop);
1.3  minoura 		v = prop->current_value.byte[0];
1.3  minoura 	}
1.3  minoura
1.3  minoura 	if (v < 0 || v > 2)
1.7  minoura 		strcpy(str, "INVALID");
1.3  minoura 	else
1.7  minoura 		strcpy(str, sramstrs[v]);
1.1  minoura
1.1  minoura 	return 0;
1.1  minoura }