stand/bootpref/bootpref.c

1.1  leo /*	$NetBSD: bootpref.c,v 1.1 1998/05/28 12:39:23 leo Exp $	*/
1.1  leo /*-
1.1  leo  * Copyright (c) 1998 The NetBSD Foundation, Inc.
1.1  leo  * All rights reserved.
1.1  leo  *
1.1  leo  * This code is derived from software contributed to The NetBSD Foundation
1.1  leo  * by Julian Coleman.
1.1  leo  *
1.1  leo  * Redistribution and use in source and binary forms, with or without
1.1  leo  * modification, are permitted provided that the following conditions
1.1  leo  * are met:
1.1  leo  * 1. Redistributions of source code must retain the above copyright
1.1  leo  *    notice, this list of conditions and the following disclaimer.
1.1  leo  * 2. Redistributions in binary form must reproduce the above copyright
1.1  leo  *    notice, this list of conditions and the following disclaimer in the
1.1  leo  *    documentation and/or other materials provided with the distribution.
1.1  leo  * 3. All advertising materials mentioning features or use of this software
1.1  leo  *    must display the following acknowledgement:
1.1  leo  *        This product includes software developed by the NetBSD
1.1  leo  *        Foundation, Inc. and its contributors.
1.1  leo  * 4. Neither the name of The NetBSD Foundation nor the names of its
1.1  leo  *    contributors may be used to endorse or promote products derived
1.1  leo  *    from this software without specific prior written permission.
1.1  leo  *
1.1  leo  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.1  leo  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1  leo  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1  leo  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.1  leo  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1  leo  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1  leo  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1  leo  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1  leo  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1  leo  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  leo  * POSSIBILITY OF SUCH DAMAGE.
1.1  leo  */
1.1  leo #include <sys/types.h>
1.1  leo #include <unistd.h>
1.1  leo #include <string.h>
1.1  leo #include <stdlib.h>
1.1  leo #include <stdio.h>
1.1  leo #include <fcntl.h>
1.1  leo #include <errno.h>
1.1  leo #include <err.h>
1.1  leo #include <sys/mman.h>
1.1  leo #include "bootpref.h"
1.1  leo
1.1  leo static void	usage __P ((void));
1.1  leo static int	openNVRAM __P ((void));
1.1  leo static void	closeNVRAM __P ((int));
1.1  leo static u_char	readNVRAM __P ((int, int));
1.1  leo static void	writeNVRAM __P ((int, int, u_char));
1.1  leo static void	getNVpref __P ((int, u_char[]));
1.1  leo static void	setNVpref __P ((int, u_char[], int, int));
1.1  leo static void	showOS __P ((u_char));
1.1  leo static void	showLang __P ((u_char));
1.1  leo static void	showKbdLang __P ((u_char));
1.1  leo static void	showDateFmt __P ((u_char));
1.1  leo static void	showDateSep __P ((u_char));
1.1  leo static void	showVideo2 __P ((u_char));
1.1  leo static void	showVideo1 __P ((u_char, u_char));
1.1  leo static int	checkOS __P ((u_char *, char *));
1.1  leo static int	checkLang __P ((u_char *, char *));
1.1  leo static int	checkKbdLang __P ((u_char *, char *));
1.1  leo static int	checkInt __P ((u_char *, char *, int, int));
1.1  leo static int 	checkDateFmt __P ((u_char *, char *));
1.1  leo static void 	checkDateSep __P ((u_char *, char *));
1.1  leo static int 	checkColours __P ((u_char *, char *));
1.1  leo
1.1  leo #define SET_OS		0x001
1.1  leo #define SET_LANG	0x002
1.1  leo #define SET_KBDLANG	0x004
1.1  leo #define SET_HOSTID	0x008
1.1  leo #define SET_DATIME	0x010
1.1  leo #define SET_DATESEP	0x020
1.1  leo #define SET_BOOTDLY	0x040
1.1  leo #define SET_VID1	0x080
1.1  leo #define SET_VID2	0x100
1.1  leo
1.1  leo #define ARRAY_OS	0
1.1  leo #define ARRAY_LANG	1
1.1  leo #define ARRAY_KBDLANG	2
1.1  leo #define ARRAY_HOSTID	3
1.1  leo #define ARRAY_DATIME	4
1.1  leo #define ARRAY_DATESEP	5
1.1  leo #define ARRAY_BOOTDLY	6
1.1  leo #define ARRAY_VID1	7
1.1  leo #define ARRAY_VID2	8
1.1  leo
1.1  leo static const char	nvrdev[] = PATH_NVRAM;
1.1  leo
1.1  leo int
1.1  leo main (argc, argv)
1.1  leo 	int	argc;
1.1  leo 	char	*argv[];
1.1  leo {
1.1  leo 	int	c, set = 0, verbose = 0;
1.1  leo 	int	fd;
1.1  leo 	u_char	bootpref[] = {0, 0, 0, 0, 0, 0, 0, 0, 0};
1.1  leo 	u_char	check_hour = 0, check_video1 = 0, check_video2 = 0;
1.1  leo
1.1  leo 	fd = openNVRAM ();
1.1  leo 	bootpref[ARRAY_VID2] = readNVRAM (fd, NVRAM_VID2);
1.1  leo 	bootpref[ARRAY_VID1] = readNVRAM (fd, NVRAM_VID1);
1.1  leo 	/* parse options */
1.1  leo 	while ((c = getopt (argc, argv, "Vb:d:k:l:s:f:12e:c:nptv48oOxXiI")) != -1) {
1.1  leo 		switch (c) {
1.1  leo 		case 'V':
1.1  leo 			verbose = 1;
1.1  leo 			break;
1.1  leo 		case 'b':
1.1  leo 			if (checkOS (&bootpref[ARRAY_OS], optarg))
1.1  leo 				set |= SET_OS;
1.1  leo 			else
1.1  leo 				usage ();
1.1  leo 			break;
1.1  leo 		case 'd':
1.1  leo 			if (checkInt (&bootpref[ARRAY_BOOTDLY], optarg,
1.1  leo 			   0, 255))
1.1  leo 				set |= SET_BOOTDLY;
1.1  leo 			else
1.1  leo 				usage ();
1.1  leo 			break;
1.1  leo 		case 'k':
1.1  leo 			if (checkKbdLang (&bootpref[ARRAY_KBDLANG], optarg))
1.1  leo 				set |= SET_KBDLANG;
1.1  leo 			else
1.1  leo 				usage ();
1.1  leo 			break;
1.1  leo 		case 'l':
1.1  leo 			if (checkLang (&bootpref[ARRAY_LANG], optarg))
1.1  leo 				set |= SET_LANG;
1.1  leo 			else
1.1  leo 				usage ();
1.1  leo 			break;
1.1  leo 		case 's':
1.1  leo 			if (checkInt (&bootpref[ARRAY_HOSTID], optarg,
1.1  leo 			    0, 7))
1.1  leo 				set |= SET_HOSTID;
1.1  leo 			else
1.1  leo 				usage ();
1.1  leo 			break;
1.1  leo 		case 'f':
1.1  leo 			if (checkDateFmt (&bootpref[ARRAY_DATIME], optarg))
1.1  leo 				set |= SET_DATIME;
1.1  leo 			else
1.1  leo 				usage ();
1.1  leo 			break;
1.1  leo 		case '1':
1.1  leo 			if (check_hour & DATIME_24H) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_DATIME] &= ~DATIME_24H;
1.1  leo 				set |= SET_DATIME;
1.1  leo 				check_hour |= DATIME_24H;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		case '2':
1.1  leo 			if (check_hour & DATIME_24H) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_DATIME] |= DATIME_24H;
1.1  leo 				set |= SET_DATIME;
1.1  leo 				check_hour |= DATIME_24H;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		case 'e':
1.1  leo 			checkDateSep (&bootpref[ARRAY_DATESEP], optarg);
1.1  leo 			set |= SET_DATESEP;
1.1  leo 			break;
1.1  leo 		case 'c':
1.1  leo 			if (checkColours (&bootpref[ARRAY_VID2], optarg))
1.1  leo 				set |= SET_VID2;
1.1  leo 			else
1.1  leo 				usage ();
1.1  leo 			break;
1.1  leo 		case 'n':
1.1  leo 			if (check_video2 & VID2_PAL) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_VID2] &= ~VID2_PAL;
1.1  leo 				set |= SET_VID2;
1.1  leo 				check_video2 |= VID2_PAL;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		case 'p':
1.1  leo 			if (check_video2 & VID2_PAL) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_VID2] |= VID2_PAL;
1.1  leo 				set |= SET_VID2;
1.1  leo 				check_video2 |= VID2_PAL;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		case 't':
1.1  leo 			if (check_video2 & VID2_VGA) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_VID2] &= ~VID2_VGA;
1.1  leo 				set |= SET_VID2;
1.1  leo 				check_video2 |= VID2_VGA;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		case 'v':
1.1  leo 			if (check_video2 & VID2_VGA) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_VID2] |= VID2_VGA;
1.1  leo 				set |= SET_VID2;
1.1  leo 				check_video2 |= VID2_VGA;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		case '4':
1.1  leo 			if (check_video2 & VID2_80CLM) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_VID2] &= ~VID2_80CLM;
1.1  leo 				set |= SET_VID2;
1.1  leo 				check_video2 |= VID2_80CLM;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		case '8':
1.1  leo 			if (check_video2 & VID2_80CLM) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_VID2] |= VID2_80CLM;
1.1  leo 				set |= SET_VID2;
1.1  leo 				check_video2 |= VID2_80CLM;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		case 'o':
1.1  leo 			if (check_video2 & VID2_OVERSCAN) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_VID2] |= VID2_OVERSCAN;
1.1  leo 				set |= SET_VID2;
1.1  leo 				check_video2 |= VID2_OVERSCAN;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		case 'O':
1.1  leo 			if (check_video2 & VID2_OVERSCAN) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_VID2] &= ~VID2_OVERSCAN;
1.1  leo 				set |= SET_VID2;
1.1  leo 				check_video2 |= VID2_OVERSCAN;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		case 'x':
1.1  leo 			if (check_video2 & VID2_COMPAT) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_VID2] |= VID2_COMPAT;
1.1  leo 				set |= SET_VID2;
1.1  leo 				check_video2 |= VID2_COMPAT;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		case 'X':
1.1  leo 			if (check_video2 & VID2_COMPAT) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_VID2] &= ~VID2_COMPAT;
1.1  leo 				set |= SET_VID2;
1.1  leo 				check_video2 |= VID2_COMPAT;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		case 'i':
1.1  leo 			if (check_video1 & VID1_INTERLACE) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_VID1] |= VID1_INTERLACE;
1.1  leo 				set |= SET_VID1;
1.1  leo 				check_video1 |= VID1_INTERLACE;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		case 'I':
1.1  leo 			if (check_video1 & VID1_INTERLACE) {
1.1  leo 				usage();
1.1  leo 			} else {
1.1  leo 				bootpref[ARRAY_VID1] &= ~VID1_INTERLACE;
1.1  leo 				set |= SET_VID1;
1.1  leo 				check_video1 |= VID1_INTERLACE;
1.1  leo 			}
1.1  leo 			break;
1.1  leo 		default:
1.1  leo 			usage ();
1.1  leo 		}
1.1  leo 	}
1.1  leo 	if (optind != argc) {
1.1  leo 		usage ();
1.1  leo 	}
1.1  leo 	if (set) {
1.1  leo 		setNVpref (fd, bootpref, set, verbose);
1.1  leo 	} else {
1.1  leo 		getNVpref (fd, bootpref);
1.1  leo 	}
1.1  leo 	closeNVRAM (fd);
1.1  leo 	return (EXIT_SUCCESS);
1.1  leo }
1.1  leo
1.1  leo static void
1.1  leo usage (void)
1.1  leo {
1.1  leo 	fprintf (stderr,
1.1  leo 		"usage: bootpref [-V] [-b os] [-d delay] [-k kbd] [-l lang] "
1.1  leo 		"[-s id]\n"
1.1  leo 		"\t[-f fmt] [-1] [-2] [-e sep]\n"
1.1  leo 		"\t[-c colours] [-n] [-p] [-t] [-v] [-4] [-8]\n"
1.1  leo 		"\t[-o] [-O] [-x] [-X] [-i] [-I]\n");
1.1  leo 	exit (EXIT_FAILURE);
1.1  leo }
1.1  leo
1.1  leo static int
1.1  leo openNVRAM ()
1.1  leo {
1.1  leo 	int fd;
1.1  leo
1.1  leo 	if ((fd = open (nvrdev, O_RDWR)) < 0) {
1.1  leo 		err (EXIT_FAILURE, "%s", nvrdev);
1.1  leo 	}
1.1  leo 	return (fd);
1.1  leo }
1.1  leo
1.1  leo static void
1.1  leo closeNVRAM (fd)
1.1  leo 	int fd;
1.1  leo {
1.1  leo 	if (close (fd) < 0) {
1.1  leo 		err (EXIT_FAILURE, "%s", nvrdev);
1.1  leo 	}
1.1  leo }
1.1  leo
1.1  leo static u_char
1.1  leo readNVRAM (fd, pos)
1.1  leo 	int fd, pos;
1.1  leo {
1.1  leo 	u_char val;
1.1  leo
1.1  leo 	if (lseek(fd, (off_t)pos, SEEK_SET) != pos) {
1.1  leo 		err(EXIT_FAILURE, "%s", nvrdev);
1.1  leo 	}
1.1  leo 	if (read (fd, &val, (size_t)1) != 1) {
1.1  leo 		err(EXIT_FAILURE, "%s", nvrdev);
1.1  leo 	}
1.1  leo 	return (val);
1.1  leo }
1.1  leo
1.1  leo static void
1.1  leo writeNVRAM (fd, pos, val)
1.1  leo 	int fd, pos;
1.1  leo 	u_char val;
1.1  leo {
1.1  leo 	if (lseek(fd, (off_t)pos, SEEK_SET) != pos) {
1.1  leo 		err(EXIT_FAILURE, "%s", nvrdev);
1.1  leo 	}
1.1  leo 	if (write (fd, &val, (size_t)1) != 1) {
1.1  leo 		err(EXIT_FAILURE, "%s", nvrdev);
1.1  leo 	}
1.1  leo }
1.1  leo
1.1  leo static void
1.1  leo getNVpref (fd, bootpref)
1.1  leo 	int fd;
1.1  leo 	u_char bootpref[];
1.1  leo {
1.1  leo 	/* Boot OS */
1.1  leo 	printf ("Boot OS is ");
1.1  leo 	showOS (readNVRAM (fd, NVRAM_BOOTPREF));
1.1  leo 	/* Boot Delay */
1.1  leo 	printf ("Boot delay is %d seconds\n", readNVRAM (fd, NVRAM_BOOTDLY));
1.1  leo 	/* TOS Language */
1.1  leo 	printf ("Language is ");
1.1  leo 	showLang (readNVRAM (fd, NVRAM_LANG));
1.1  leo 	/* Keyboard Language */
1.1  leo 	printf ("Keyboard is ");
1.1  leo 	showKbdLang (readNVRAM (fd, NVRAM_KBDLANG));
1.1  leo 	/* SCSI Host ID */
1.1  leo 	printf ("SCSI host ID is ");
1.1  leo 	if (readNVRAM (fd, NVRAM_HOSTID) & HOSTID_VALID) {
1.1  leo 		printf ("%d\n", readNVRAM (fd, NVRAM_HOSTID) ^ HOSTID_VALID);
1.1  leo 	} else {
1.1  leo 		printf ("invalid");
1.1  leo 	}
1.1  leo 	/* Date format/separator */
1.1  leo 	printf ("Date format is ");
1.1  leo 	showDateFmt (readNVRAM (fd, NVRAM_DATIME));
1.1  leo 	printf ("Date separator is ");
1.1  leo 	showDateSep (readNVRAM (fd, NVRAM_DATESEP));
1.1  leo 	/* Video */
1.1  leo 	printf ("Video is (0x%02x, 0x%02x) :\n", readNVRAM (fd, NVRAM_VID2),
1.1  leo 	    readNVRAM (fd, NVRAM_VID1));
1.1  leo 	showVideo2 (readNVRAM (fd, NVRAM_VID2));
1.1  leo 	showVideo1 (readNVRAM (fd, NVRAM_VID1), readNVRAM (fd, NVRAM_VID2));
1.1  leo }
1.1  leo
1.1  leo static void
1.1  leo setNVpref (fd, bootpref, set, verbose)
1.1  leo 	int fd;
1.1  leo 	u_char bootpref[];
1.1  leo 	int verbose;
1.1  leo {
1.1  leo 	/* Boot OS */
1.1  leo 	if (set & SET_OS) {
1.1  leo 		writeNVRAM (fd, NVRAM_BOOTPREF, bootpref[ARRAY_OS]);
1.1  leo 		if (verbose) {
1.1  leo 			printf ("Boot OS set to ");
1.1  leo 			showOS (readNVRAM (fd, NVRAM_BOOTPREF));
1.1  leo 		}
1.1  leo 	}
1.1  leo 	/* Boot Delay */
1.1  leo 	if (set & SET_BOOTDLY) {
1.1  leo 		writeNVRAM (fd, NVRAM_BOOTDLY, bootpref[ARRAY_BOOTDLY]);
1.1  leo 		if (verbose) {
1.1  leo 			printf ("Boot delay set to %d seconds\n", readNVRAM (fd,
1.1  leo 			    NVRAM_BOOTDLY));
1.1  leo 		}
1.1  leo 	}
1.1  leo 	/* TOS Language */
1.1  leo 	if (set & SET_LANG) {
1.1  leo 		writeNVRAM (fd, NVRAM_LANG, bootpref[ARRAY_LANG]);
1.1  leo 		if (verbose) {
1.1  leo 			printf ("Language set to ");
1.1  leo 			showLang (readNVRAM (fd, NVRAM_LANG));
1.1  leo 		}
1.1  leo 	}
1.1  leo 	/* Keyboard Language */
1.1  leo 	if (set & SET_KBDLANG) {
1.1  leo 		writeNVRAM (fd, NVRAM_KBDLANG, bootpref[ARRAY_KBDLANG]);
1.1  leo 		if (verbose) {
1.1  leo 			printf ("Keyboard set to ");
1.1  leo 			showKbdLang (readNVRAM (fd, NVRAM_KBDLANG));
1.1  leo 		}
1.1  leo 	}
1.1  leo 	/* SCSI Host ID */
1.1  leo 	if (set & SET_HOSTID) {
1.1  leo 		writeNVRAM (fd, NVRAM_HOSTID, bootpref[ARRAY_HOSTID] |
1.1  leo 		    HOSTID_VALID);
1.1  leo 		if (verbose) {
1.1  leo 			printf ("SCSI host ID set to ");
1.1  leo 			printf ("%d\n", readNVRAM (fd, NVRAM_HOSTID) ^
1.1  leo 				HOSTID_VALID);
1.1  leo 		}
1.1  leo 	}
1.1  leo 	/* Date format/separator */
1.1  leo 	if (set & SET_DATIME) {
1.1  leo 		writeNVRAM (fd, NVRAM_DATIME, bootpref[ARRAY_DATIME]);
1.1  leo 		if (verbose) {
1.1  leo 			printf ("Date format set to ");
1.1  leo 			showDateFmt (readNVRAM (fd, NVRAM_DATIME));
1.1  leo 			printf ("\n");
1.1  leo 		}
1.1  leo 	}
1.1  leo 	if (set & SET_DATESEP) {
1.1  leo 		writeNVRAM (fd, NVRAM_DATESEP, bootpref[ARRAY_DATESEP]);
1.1  leo 		if (verbose) {
1.1  leo 			printf ("Date separator set to ");
1.1  leo 			showDateSep (readNVRAM (fd, NVRAM_DATESEP));
1.1  leo 		}
1.1  leo 	}
1.1  leo 	/* Video */
1.1  leo 	if ((set & SET_VID2) || (set & SET_VID1)) {
1.1  leo 		if (set & SET_VID2) {
1.1  leo 			writeNVRAM (fd, NVRAM_VID2, bootpref[ARRAY_VID2]);
1.1  leo 		}
1.1  leo 		if (set & SET_VID1) {
1.1  leo 			writeNVRAM (fd, NVRAM_VID1, bootpref[ARRAY_VID1]);
1.1  leo 		}
1.1  leo 		if (verbose) {
1.1  leo 			printf ("Video set to (0x%02x, 0x%02x) :\n",
1.1  leo 			    readNVRAM (fd, NVRAM_VID2),
1.1  leo 			    readNVRAM (fd, NVRAM_VID1));
1.1  leo 			showVideo2 (readNVRAM (fd, NVRAM_VID2));
1.1  leo 			showVideo1 (readNVRAM (fd, NVRAM_VID1),
1.1  leo 			    readNVRAM (fd, NVRAM_VID2));
1.1  leo 		}
1.1  leo 	}
1.1  leo }
1.1  leo
1.1  leo static void
1.1  leo showOS (bootos)
1.1  leo 	u_char bootos;
1.1  leo {
1.1  leo 	switch (bootos) {
1.1  leo 	case BOOTPREF_NETBSD:
1.1  leo 		printf ("NetBSD");
1.1  leo 		break;
1.1  leo 	case BOOTPREF_TOS:
1.1  leo 		printf ("TOS");
1.1  leo 		break;
1.1  leo 	case BOOTPREF_MAGIC:
1.1  leo 		printf ("MAGIC");
1.1  leo 		break;
1.1  leo 	case BOOTPREF_LINUX:
1.1  leo 		printf ("Linux");
1.1  leo 		break;
1.1  leo 	case BOOTPREF_SYSV:
1.1  leo 		printf ("System V");
1.1  leo 		break;
1.1  leo 	case BOOTPREF_NONE:
1.1  leo 		printf ("none");
1.1  leo 		break;
1.1  leo 	default:
1.1  leo 		printf ("unknown");
1.1  leo 		break;
1.1  leo 	}
1.1  leo 	printf (" (0x%x).\n", bootos);
1.1  leo }
1.1  leo
1.1  leo static void
1.1  leo showLang (lang)
1.1  leo 	u_char lang;
1.1  leo {
1.1  leo 	switch (lang) {
1.1  leo 	case LANG_GB:
1.1  leo 		printf ("English");
1.1  leo 		break;
1.1  leo 	case LANG_D:
1.1  leo 		printf ("German");
1.1  leo 		break;
1.1  leo 	case LANG_FR:
1.1  leo 		printf ("French");
1.1  leo 		break;
1.1  leo 	case LANG_ESP:
1.1  leo 		printf ("Spanish");
1.1  leo 		break;
1.1  leo 	case LANG_I:
1.1  leo 		printf ("Italian");
1.1  leo 		break;
1.1  leo 	default:
1.1  leo 		printf ("unknown");
1.1  leo 		break;
1.1  leo 	}
1.1  leo 	printf (" (0x%x).\n", lang);
1.1  leo }
1.1  leo
1.1  leo static void
1.1  leo showKbdLang (lang)
1.1  leo 	u_char lang;
1.1  leo {
1.1  leo 	switch (lang) {
1.1  leo 	case KBDLANG_USA:
1.1  leo 		printf ("American");
1.1  leo 		break;
1.1  leo 	case KBDLANG_D:
1.1  leo 		printf ("German");
1.1  leo 		break;
1.1  leo 	case KBDLANG_FR:
1.1  leo 		printf ("French");
1.1  leo 		break;
1.1  leo 	case KBDLANG_GB:
1.1  leo 		printf ("British");
1.1  leo 		break;
1.1  leo 	case KBDLANG_ESP:
1.1  leo 		printf ("Spanish");
1.1  leo 		break;
1.1  leo 	case KBDLANG_I:
1.1  leo 		printf ("Italian");
1.1  leo 		break;
1.1  leo 	case KBDLANG_CHF:
1.1  leo 		printf ("Swiss (French)");
1.1  leo 		break;
1.1  leo 	case KBDLANG_CHD:
1.1  leo 		printf ("Swiss (German)");
1.1  leo 		break;
1.1  leo 	default:
1.1  leo 		printf ("unknown");
1.1  leo 		break;
1.1  leo 	}
1.1  leo 	printf (" (0x%x).\n", lang);
1.1  leo }
1.1  leo
1.1  leo static void
1.1  leo showDateFmt (fmt)
1.1  leo 	u_char fmt;
1.1  leo {
1.1  leo 	if (fmt & DATIME_24H) {
1.1  leo 		printf ("24 hour clock, ");
1.1  leo 	} else {
1.1  leo 		printf ("12 hour clock, ");
1.1  leo 	}
1.1  leo 	switch (fmt & ~DATIME_24H) {
1.1  leo 	case DATIME_MMDDYY:
1.1  leo 		printf ("MMDDYY");
1.1  leo 		break;
1.1  leo 	case DATIME_DDMMYY:
1.1  leo 		printf ("DDMMYY");
1.1  leo 		break;
1.1  leo 	case DATIME_YYMMDD:
1.1  leo 		printf ("YYMMDD");
1.1  leo 		break;
1.1  leo 	case DATIME_YYDDMM:
1.1  leo 		printf ("YYDDMM");
1.1  leo 		break;
1.1  leo 	default:
1.1  leo 		printf ("unknown");
1.1  leo 		break;
1.1  leo 	}
1.1  leo 	printf (" (0x%02x)\n", fmt);
1.1  leo }
1.1  leo
1.1  leo static void
1.1  leo showDateSep (sep)
1.1  leo 	u_char sep;
1.1  leo {
1.1  leo 	if (sep) {
1.1  leo 		if (sep >= 0x20) {
1.1  leo 			printf ("\"%c\" ", sep);
1.1  leo 		}
1.1  leo 	} else {
1.1  leo 		printf ("\"/\" ");
1.1  leo 	}
1.1  leo 	printf ("(0x%02x)\n", sep);
1.1  leo }
1.1  leo
1.1  leo static void
1.1  leo showVideo2 (vid2)
1.1  leo 	u_char vid2;
1.1  leo {
1.1  leo 	u_char colours;
1.1  leo
1.1  leo 	colours = vid2 & 0x07;
1.1  leo 	printf ("\t");
1.1  leo 	switch (colours) {
1.1  leo 	case VID2_2COL:
1.1  leo 		printf ("2");
1.1  leo 		break;
1.1  leo 	case VID2_4COL:
1.1  leo 		printf ("4");
1.1  leo 		break;
1.1  leo 	case VID2_16COL:
1.1  leo 		printf ("16");
1.1  leo 		break;
1.1  leo 	case VID2_256COL:
1.1  leo 		printf ("256");
1.1  leo 		break;
1.1  leo 	case VID2_65535COL:
1.1  leo 		printf ("65535");
1.1  leo 		break;
1.1  leo 	}
1.1  leo 	printf (" colours, ");
1.1  leo 	if (vid2 & VID2_80CLM) {
1.1  leo 		printf ("80");
1.1  leo 	} else {
1.1  leo 		printf ("40");
1.1  leo 	}
1.1  leo 	printf (" column, ");
1.1  leo 	if (vid2 & VID2_VGA) {
1.1  leo 		printf ("VGA");
1.1  leo 	} else {
1.1  leo 		printf ("TV");
1.1  leo 	}
1.1  leo 	printf (", ");
1.1  leo 	if (vid2 & VID2_PAL) {
1.1  leo 		printf ("PAL\n");
1.1  leo 	} else {
1.1  leo 		printf ("NTSC\n");
1.1  leo 	}
1.1  leo 	printf ("\tOverscan ");
1.1  leo 	if (vid2 & VID2_OVERSCAN) {
1.1  leo 		printf ("on\n");
1.1  leo 	} else {
1.1  leo 		printf ("off\n");
1.1  leo 	}
1.1  leo 	printf ("\tST compatibility ");
1.1  leo 	if (vid2 & VID2_COMPAT) {
1.1  leo 		printf ("on\n");
1.1  leo 	} else {
1.1  leo 		printf ("off\n");
1.1  leo 	}
1.1  leo }
1.1  leo
1.1  leo static void
1.1  leo showVideo1 (vid1, vid2)
1.1  leo 	u_char vid1, vid2;
1.1  leo {
1.1  leo 	if (vid2 & VID2_VGA) {
1.1  leo 		printf ("\tDouble line ");
1.1  leo 		if (vid1 & VID1_INTERLACE) {
1.1  leo 			printf ("on");
1.1  leo 		} else {
1.1  leo 			printf ("off");
1.1  leo 		}
1.1  leo 	} else {
1.1  leo 		printf ("\tInterlace ");
1.1  leo 		if (vid1 & VID1_INTERLACE) {
1.1  leo 			printf ("on");
1.1  leo 		} else {
1.1  leo 			printf ("off");
1.1  leo 		}
1.1  leo 	}
1.1  leo 	printf ("\n");
1.1  leo }
1.1  leo
1.1  leo static int
1.1  leo checkOS (val, str)
1.1  leo 	u_char *val;
1.1  leo 	char *str;
1.1  leo {
1.1  leo 	if (!strncasecmp (str, "ne", 2)) {
1.1  leo 		*val = BOOTPREF_NETBSD;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "t", 1)) {
1.1  leo 		*val = BOOTPREF_TOS;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "m", 1)) {
1.1  leo 		*val = BOOTPREF_MAGIC;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "l", 1)) {
1.1  leo 		*val = BOOTPREF_LINUX;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "s", 1)) {
1.1  leo 		*val = BOOTPREF_SYSV;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "no", 2)) {
1.1  leo 		*val = BOOTPREF_NONE;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	return (0);
1.1  leo }
1.1  leo
1.1  leo static int
1.1  leo checkLang (val, str)
1.1  leo 	u_char *val;
1.1  leo 	char *str;
1.1  leo {
1.1  leo 	if (!strncasecmp (str, "e", 1)) {
1.1  leo 		*val = LANG_GB;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "g", 1)) {
1.1  leo 		*val = LANG_D;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "f", 1)) {
1.1  leo 		*val = LANG_FR;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "s", 1)) {
1.1  leo 		*val = LANG_ESP;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "i", 1)) {
1.1  leo 		*val = LANG_I;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	return (0);
1.1  leo }
1.1  leo
1.1  leo static int
1.1  leo checkKbdLang (val, str)
1.1  leo 	u_char *val;
1.1  leo 	char *str;
1.1  leo {
1.1  leo 	if (!strncasecmp (str, "a", 1)) {
1.1  leo 		*val = KBDLANG_USA;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "g", 1)) {
1.1  leo 		*val = KBDLANG_D;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "f", 1)) {
1.1  leo 		*val = KBDLANG_FR;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "b", 1)) {
1.1  leo 		*val = KBDLANG_GB;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "sp", 2)) {
1.1  leo 		*val = KBDLANG_ESP;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "i", 1)) {
1.1  leo 		*val = KBDLANG_I;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "swiss f", 7) || !strncasecmp (str, "sw f", 4)) {
1.1  leo 		*val = KBDLANG_CHF;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "swiss g", 7) || !strncasecmp (str, "sw g", 4)) {
1.1  leo 		*val = KBDLANG_CHD;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	return (0);
1.1  leo }
1.1  leo
1.1  leo static int
1.1  leo checkInt (val, str, min, max)
1.1  leo 	u_char *val;
1.1  leo 	char *str;
1.1  leo 	int min, max;
1.1  leo {
1.1  leo 	int num;
1.1  leo 	if (1 == sscanf (str, "%d", &num) && num >= min && num <= max) {
1.1  leo 		*val = num;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	return (0);
1.1  leo }
1.1  leo
1.1  leo static int
1.1  leo checkDateFmt (val, str)
1.1  leo 	u_char *val;
1.1  leo 	char *str;
1.1  leo {
1.1  leo 	if (!strncasecmp (str, "m", 1)) {
1.1  leo 		*val |= DATIME_MMDDYY;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "d", 1)) {
1.1  leo 		*val |= DATIME_DDMMYY;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "yym", 3)) {
1.1  leo 		*val |= DATIME_YYMMDD;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "yyd", 3)) {
1.1  leo 		*val |= DATIME_YYDDMM;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	return (0);
1.1  leo }
1.1  leo
1.1  leo static void
1.1  leo checkDateSep (val, str)
1.1  leo 	u_char *val;
1.1  leo 	char *str;
1.1  leo {
1.1  leo 	if (str[0] == '/') {
1.1  leo 		*val = 0;
1.1  leo 	} else {
1.1  leo 		*val = str[0];
1.1  leo 	}
1.1  leo }
1.1  leo
1.1  leo static int
1.1  leo checkColours (val, str)
1.1  leo 	u_char *val;
1.1  leo 	char *str;
1.1  leo {
1.1  leo 	*val &= ~0x07;
1.1  leo 	if (!strncasecmp (str, "6", 1)) {
1.1  leo 		*val |= VID2_65535COL;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "25", 2)) {
1.1  leo 		*val |= VID2_256COL;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "1", 1)) {
1.1  leo 		*val |= VID2_16COL;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "4", 1)) {
1.1  leo 		*val |= VID2_4COL;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	if (!strncasecmp (str, "2", 1)) {
1.1  leo 		*val |= VID2_2COL;
1.1  leo 		return (1);
1.1  leo 	}
1.1  leo 	return (0);
1.1  leo }