usr.sbin/diskpart/diskpart.c

1.1    cgd /*
1.7  mikel  * Copyright (c) 1983, 1988, 1993
1.7  mikel  *	The Regents of the University of California.  All rights reserved.
1.1    cgd  *
1.1    cgd  * Redistribution and use in source and binary forms, with or without
1.1    cgd  * modification, are permitted provided that the following conditions
1.1    cgd  * are met:
1.1    cgd  * 1. Redistributions of source code must retain the above copyright
1.1    cgd  *    notice, this list of conditions and the following disclaimer.
1.1    cgd  * 2. Redistributions in binary form must reproduce the above copyright
1.1    cgd  *    notice, this list of conditions and the following disclaimer in the
1.1    cgd  *    documentation and/or other materials provided with the distribution.
1.1    cgd  * 3. All advertising materials mentioning features or use of this software
1.1    cgd  *    must display the following acknowledgement:
1.1    cgd  *	This product includes software developed by the University of
1.1    cgd  *	California, Berkeley and its contributors.
1.1    cgd  * 4. Neither the name of the University nor the names of its contributors
1.1    cgd  *    may be used to endorse or promote products derived from this software
1.1    cgd  *    without specific prior written permission.
1.1    cgd  *
1.1    cgd  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
1.1    cgd  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1    cgd  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1    cgd  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
1.1    cgd  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1    cgd  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1    cgd  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1    cgd  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1    cgd  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1    cgd  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1    cgd  * SUCH DAMAGE.
1.1    cgd  */
1.1    cgd
1.1    cgd #ifndef lint
1.7  mikel static char copyright[] =
1.7  mikel "@(#) Copyright (c) 1983, 1988, 1993\n\
1.7  mikel 	The Regents of the University of California.  All rights reserved.\n";
1.1    cgd #endif /* not lint */
1.1    cgd
1.1    cgd #ifndef lint
1.7  mikel /* static char sccsid[] = "from: @(#)diskpart.c	8.3 (Berkeley) 11/30/94"; */
1.7  mikel static char rcsid[] = "$NetBSD: diskpart.c,v 1.7 1997/03/08 07:24:42 mikel Exp $";
1.1    cgd #endif /* not lint */
1.1    cgd
1.1    cgd /*
1.1    cgd  * Program to calculate standard disk partition sizes.
1.1    cgd  */
1.1    cgd #include <sys/param.h>
1.1    cgd #define DKTYPENAMES
1.1    cgd #include <sys/disklabel.h>
1.1    cgd
1.1    cgd #include <stdio.h>
1.7  mikel #include <string.h>
1.1    cgd #include <ctype.h>
1.1    cgd
1.1    cgd #define	for_now			/* show all of `c' partition for disklabel */
1.1    cgd #define	NPARTITIONS	8
1.1    cgd #define	PART(x)		(x - 'a')
1.1    cgd
1.1    cgd /*
1.1    cgd  * Default partition sizes, where they exist.
1.1    cgd  */
1.1    cgd #define	NDEFAULTS	4
1.1    cgd int	defpart[NDEFAULTS][NPARTITIONS] = {
1.1    cgd    { 15884, 66880, 0, 15884, 307200, 0, 0, 291346 },	/* ~ 356+ Mbytes */
1.1    cgd    { 15884, 33440, 0, 15884, 55936, 0, 0, 291346 },	/* ~ 206-355 Mbytes */
1.1    cgd    { 15884, 33440, 0, 15884, 55936, 0, 0, 0 },		/* ~ 61-205 Mbytes */
1.1    cgd    { 15884, 10032, 0, 15884, 0, 0, 0, 0 },		/* ~ 20-60 Mbytes */
1.1    cgd };
1.1    cgd
1.1    cgd /*
1.1    cgd  * Each array defines a layout for a disk;
1.1    cgd  * that is, the collection of partitions totally
1.1    cgd  * covers the physical space on a disk.
1.1    cgd  */
1.1    cgd #define	NLAYOUTS	3
1.1    cgd char	layouts[NLAYOUTS][NPARTITIONS] = {
1.1    cgd    { 'a', 'b', 'h', 'g' },
1.1    cgd    { 'a', 'b', 'h', 'd', 'e', 'f' },
1.1    cgd    { 'c' },
1.1    cgd };
1.1    cgd
1.1    cgd /*
1.1    cgd  * Default disk block and disk block fragment
1.1    cgd  * sizes for each file system.  Those file systems
1.1    cgd  * with zero block and frag sizes are special cases
1.1    cgd  * (e.g. swap areas or for access to the entire device).
1.1    cgd  */
1.1    cgd struct	partition defparam[NPARTITIONS] = {
1.1    cgd 	{ 0, 0, 1024, FS_UNUSED, 8, 0 },		/* a */
1.1    cgd 	{ 0, 0, 1024, FS_SWAP,   8, 0 },		/* b */
1.1    cgd 	{ 0, 0, 1024, FS_UNUSED, 8, 0 },		/* c */
1.1    cgd 	{ 0, 0,  512, FS_UNUSED, 8, 0 },		/* d */
1.1    cgd 	{ 0, 0, 1024, FS_UNUSED, 8, 0 },		/* e */
1.1    cgd 	{ 0, 0, 1024, FS_UNUSED, 8, 0 },		/* f */
1.1    cgd 	{ 0, 0, 1024, FS_UNUSED, 8, 0 },		/* g */
1.1    cgd 	{ 0, 0, 1024, FS_UNUSED, 8, 0 }			/* h */
1.1    cgd };
1.1    cgd
1.1    cgd /*
1.1    cgd  * Each disk has some space reserved for a bad sector
1.1    cgd  * forwarding table.  DEC standard 144 uses the first
1.1    cgd  * 5 even numbered sectors in the last track of the
1.1    cgd  * last cylinder for replicated storage of the bad sector
1.1    cgd  * table; another 126 sectors past this is needed as a
1.1    cgd  * pool of replacement sectors.
1.1    cgd  */
1.1    cgd int	badsecttable = 126;	/* # sectors */
1.1    cgd
1.1    cgd int	pflag;			/* print device driver partition tables */
1.1    cgd int	dflag;			/* print disktab entry */
1.1    cgd
1.1    cgd struct	disklabel *promptfordisk();
1.1    cgd
1.1    cgd main(argc, argv)
1.1    cgd 	int argc;
1.1    cgd 	char *argv[];
1.1    cgd {
1.1    cgd 	struct disklabel *dp;
1.1    cgd 	register int curcyl, spc, def, part, layout, j;
1.1    cgd 	int threshhold, numcyls[NPARTITIONS], startcyl[NPARTITIONS];
1.1    cgd 	int totsize = 0;
1.1    cgd 	char *lp, *tyname;
1.1    cgd
1.1    cgd 	argc--, argv++;
1.1    cgd 	if (argc < 1) {
1.1    cgd 		fprintf(stderr,
1.2    cgd 		    "usage: diskpart [ -p ] [ -d ] [ -s size ] disk-type\n");
1.1    cgd 		exit(1);
1.1    cgd 	}
1.1    cgd 	if (argc > 0 && strcmp(*argv, "-p") == 0) {
1.1    cgd 		pflag++;
1.1    cgd 		argc--, argv++;
1.1    cgd 	}
1.1    cgd 	if (argc > 0 && strcmp(*argv, "-d") == 0) {
1.1    cgd 		dflag++;
1.1    cgd 		argc--, argv++;
1.1    cgd 	}
1.1    cgd 	if (argc > 1 && strcmp(*argv, "-s") == 0) {
1.1    cgd 		totsize = atoi(argv[1]);
1.1    cgd 		argc += 2, argv += 2;
1.1    cgd 	}
1.1    cgd 	dp = getdiskbyname(*argv);
1.1    cgd 	if (dp == NULL) {
1.1    cgd 		if (isatty(0))
1.1    cgd 			dp = promptfordisk(*argv);
1.1    cgd 		if (dp == NULL) {
1.1    cgd 			fprintf(stderr, "%s: unknown disk type\n", *argv);
1.1    cgd 			exit(2);
1.1    cgd 		}
1.1    cgd 	} else {
1.1    cgd 		if (dp->d_flags & D_REMOVABLE)
1.1    cgd 			tyname = "removable";
1.1    cgd 		else if (dp->d_flags & D_RAMDISK)
1.1    cgd 			tyname = "simulated";
1.1    cgd 		else
1.1    cgd 			tyname = "winchester";
1.1    cgd 	}
1.1    cgd 	spc = dp->d_secpercyl;
1.1    cgd 	/*
1.1    cgd 	 * Bad sector table contains one track for the replicated
1.1    cgd 	 * copies of the table and enough full tracks preceding
1.1    cgd 	 * the last track to hold the pool of free blocks to which
1.1    cgd 	 * bad sectors are mapped.
1.1    cgd 	 * If disk size was specified explicitly, use specified size.
1.1    cgd 	 */
1.1    cgd 	if (dp->d_type == DTYPE_SMD && dp->d_flags & D_BADSECT &&
1.1    cgd 	    totsize == 0) {
1.1    cgd 		badsecttable = dp->d_nsectors +
1.1    cgd 		    roundup(badsecttable, dp->d_nsectors);
1.1    cgd 		threshhold = howmany(spc, badsecttable);
1.1    cgd 	} else {
1.1    cgd 		badsecttable = 0;
1.1    cgd 		threshhold = 0;
1.1    cgd 	}
1.1    cgd 	/*
1.1    cgd 	 * If disk size was specified, recompute number of cylinders
1.1    cgd 	 * that may be used, and set badsecttable to any remaining
1.1    cgd 	 * fraction of the last cylinder.
1.1    cgd 	 */
1.1    cgd 	if (totsize != 0) {
1.1    cgd 		dp->d_ncylinders = howmany(totsize, spc);
1.1    cgd 		badsecttable = spc * dp->d_ncylinders - totsize;
1.1    cgd 	}
1.1    cgd
1.1    cgd 	/*
1.1    cgd 	 * Figure out if disk is large enough for
1.1    cgd 	 * expanded swap area and 'd', 'e', and 'f'
1.1    cgd 	 * partitions.  Otherwise, use smaller defaults
1.1    cgd 	 * based on RK07.
1.1    cgd 	 */
1.1    cgd 	for (def = 0; def < NDEFAULTS; def++) {
1.1    cgd 		curcyl = 0;
1.1    cgd 		for (part = PART('a'); part < NPARTITIONS; part++)
1.1    cgd 			curcyl += howmany(defpart[def][part], spc);
1.1    cgd 		if (curcyl < dp->d_ncylinders - threshhold)
1.1    cgd 			break;
1.1    cgd 	}
1.1    cgd 	if (def >= NDEFAULTS) {
1.1    cgd 		fprintf(stderr, "%s: disk too small, calculate by hand\n",
1.1    cgd 			*argv);
1.1    cgd 		exit(3);
1.1    cgd 	}
1.1    cgd
1.1    cgd 	/*
1.1    cgd 	 * Calculate number of cylinders allocated to each disk
1.1    cgd 	 * partition.  We may waste a bit of space here, but it's
1.1    cgd 	 * in the interest of (very backward) compatibility
1.1    cgd 	 * (for mixed disk systems).
1.1    cgd 	 */
1.1    cgd 	for (curcyl = 0, part = PART('a'); part < NPARTITIONS; part++) {
1.1    cgd 		numcyls[part] = 0;
1.1    cgd 		if (defpart[def][part] != 0) {
1.1    cgd 			numcyls[part] = howmany(defpart[def][part], spc);
1.1    cgd 			curcyl += numcyls[part];
1.1    cgd 		}
1.1    cgd 	}
1.1    cgd 	numcyls[PART('f')] = dp->d_ncylinders - curcyl;
1.1    cgd 	numcyls[PART('g')] =
1.1    cgd 		numcyls[PART('d')] + numcyls[PART('e')] + numcyls[PART('f')];
1.1    cgd 	numcyls[PART('c')] = dp->d_ncylinders;
1.1    cgd 	defpart[def][PART('f')] = numcyls[PART('f')] * spc - badsecttable;
1.1    cgd 	defpart[def][PART('g')] = numcyls[PART('g')] * spc - badsecttable;
1.1    cgd 	defpart[def][PART('c')] = numcyls[PART('c')] * spc;
1.1    cgd #ifndef for_now
1.1    cgd 	if (totsize || !pflag)
1.1    cgd #else
1.1    cgd 	if (totsize)
1.1    cgd #endif
1.1    cgd 		defpart[def][PART('c')] -= badsecttable;
1.1    cgd
1.1    cgd 	/*
1.1    cgd 	 * Calculate starting cylinder number for each partition.
1.1    cgd 	 * Note the 'h' partition is physically located before the
1.1    cgd 	 * 'g' or 'd' partition.  This is reflected in the layout
1.1    cgd 	 * arrays defined above.
1.1    cgd 	 */
1.1    cgd 	for (layout = 0; layout < NLAYOUTS; layout++) {
1.1    cgd 		curcyl = 0;
1.1    cgd 		for (lp = layouts[layout]; *lp != 0; lp++) {
1.1    cgd 			startcyl[PART(*lp)] = curcyl;
1.1    cgd 			curcyl += numcyls[PART(*lp)];
1.1    cgd 		}
1.1    cgd 	}
1.1    cgd
1.1    cgd 	if (pflag) {
1.1    cgd 		printf("}, %s_sizes[%d] = {\n", dp->d_typename, NPARTITIONS);
1.1    cgd 		for (part = PART('a'); part < NPARTITIONS; part++) {
1.1    cgd 			if (numcyls[part] == 0) {
1.1    cgd 				printf("\t0,\t0,\n");
1.1    cgd 				continue;
1.1    cgd 			}
1.1    cgd 			if (dp->d_type != DTYPE_MSCP) {
1.1    cgd 			       printf("\t%d,\t%d,\t\t/* %c=cyl %d thru %d */\n",
1.1    cgd 					defpart[def][part], startcyl[part],
1.1    cgd 					'A' + part, startcyl[part],
1.1    cgd 					startcyl[part] + numcyls[part] - 1);
1.1    cgd 				continue;
1.1    cgd 			}
1.1    cgd 			printf("\t%d,\t%d,\t\t/* %c=sectors %d thru %d */\n",
1.1    cgd 				defpart[def][part], spc * startcyl[part],
1.1    cgd 				'A' + part, spc * startcyl[part],
1.1    cgd 				spc * startcyl[part] + defpart[def][part] - 1);
1.1    cgd 		}
1.1    cgd 		exit(0);
1.1    cgd 	}
1.1    cgd 	if (dflag) {
1.1    cgd 		int nparts;
1.1    cgd
1.1    cgd 		/*
1.1    cgd 		 * In case the disk is in the ``in-between'' range
1.1    cgd 		 * where the 'g' partition is smaller than the 'h'
1.1    cgd 		 * partition, reverse the frag sizes so the /usr partition
1.1    cgd 		 * is always set up with a frag size larger than the
1.1    cgd 		 * user's partition.
1.1    cgd 		 */
1.1    cgd 		if (defpart[def][PART('g')] < defpart[def][PART('h')]) {
1.1    cgd 			int temp;
1.1    cgd
1.1    cgd 			temp = defparam[PART('h')].p_fsize;
1.1    cgd 			defparam[PART('h')].p_fsize =
1.1    cgd 				defparam[PART('g')].p_fsize;
1.1    cgd 			defparam[PART('g')].p_fsize = temp;
1.1    cgd 		}
1.1    cgd 		printf("%s:\\\n", dp->d_typename);
1.1    cgd 		printf("\t:ty=%s:ns#%d:nt#%d:nc#%d:", tyname,
1.1    cgd 			dp->d_nsectors, dp->d_ntracks, dp->d_ncylinders);
1.1    cgd 		if (dp->d_secpercyl != dp->d_nsectors * dp->d_ntracks)
1.1    cgd 			printf("sc#%d:", dp->d_secpercyl);
1.1    cgd 		if (dp->d_type == DTYPE_SMD && dp->d_flags & D_BADSECT)
1.1    cgd 			printf("sf:");
1.1    cgd 		printf("\\\n\t:dt=%s:", dktypenames[dp->d_type]);
1.1    cgd 		for (part = NDDATA - 1; part >= 0; part--)
1.1    cgd 			if (dp->d_drivedata[part])
1.1    cgd 				break;
1.1    cgd 		for (j = 0; j <= part; j++)
1.1    cgd 			printf("d%d#%d:", j, dp->d_drivedata[j]);
1.1    cgd 		printf("\\\n");
1.1    cgd 		for (nparts = 0, part = PART('a'); part < NPARTITIONS; part++)
1.1    cgd 			if (defpart[def][part] != 0)
1.1    cgd 				nparts++;
1.1    cgd 		for (part = PART('a'); part < NPARTITIONS; part++) {
1.1    cgd 			if (defpart[def][part] == 0)
1.1    cgd 				continue;
1.1    cgd 			printf("\t:p%c#%d:", 'a' + part, defpart[def][part]);
1.1    cgd 			printf("o%c#%d:b%c#%d:f%c#%d:",
1.1    cgd 			    'a' + part, spc * startcyl[part],
1.1    cgd 			    'a' + part,
1.1    cgd 			    defparam[part].p_frag * defparam[part].p_fsize,
1.1    cgd 			    'a' + part, defparam[part].p_fsize);
1.1    cgd 			if (defparam[part].p_fstype == FS_SWAP)
1.1    cgd 				printf("t%c=swap:", 'a' + part);
1.1    cgd 			nparts--;
1.1    cgd 			printf("%s\n", nparts > 0 ? "\\" : "");
1.1    cgd 		}
1.1    cgd #ifdef for_now
1.1    cgd 		defpart[def][PART('c')] -= badsecttable;
1.1    cgd 		part = PART('c');
1.1    cgd 		printf("#\t:p%c#%d:", 'a' + part, defpart[def][part]);
1.1    cgd 		printf("o%c#%d:b%c#%d:f%c#%d:\n",
1.1    cgd 		    'a' + part, spc * startcyl[part],
1.1    cgd 		    'a' + part,
1.1    cgd 		    defparam[part].p_frag * defparam[part].p_fsize,
1.1    cgd 		    'a' + part, defparam[part].p_fsize);
1.1    cgd #endif
1.1    cgd 		exit(0);
1.1    cgd 	}
1.1    cgd 	printf("%s: #sectors/track=%d, #tracks/cylinder=%d #cylinders=%d\n",
1.1    cgd 		dp->d_typename, dp->d_nsectors, dp->d_ntracks,
1.1    cgd 		dp->d_ncylinders);
1.1    cgd 	printf("\n    Partition\t   Size\t Offset\t   Range\n");
1.1    cgd 	for (part = PART('a'); part < NPARTITIONS; part++) {
1.1    cgd 		printf("\t%c\t", 'a' + part);
1.1    cgd 		if (numcyls[part] == 0) {
1.1    cgd 			printf(" unused\n");
1.1    cgd 			continue;
1.1    cgd 		}
1.1    cgd 		printf("%7d\t%7d\t%4d - %d%s\n",
1.1    cgd 			defpart[def][part], startcyl[part] * spc,
1.1    cgd 			startcyl[part], startcyl[part] + numcyls[part] - 1,
1.1    cgd 			defpart[def][part] % spc ? "*" : "");
1.1    cgd 	}
1.1    cgd }
1.1    cgd
1.1    cgd struct disklabel disk;
1.1    cgd
1.1    cgd struct	field {
1.7  mikel 	char		*f_name;
1.7  mikel 	char		*f_defaults;
1.7  mikel 	u_int32_t	*f_location;
1.1    cgd } fields[] = {
1.1    cgd 	{ "sector size",		"512",	&disk.d_secsize },
1.1    cgd 	{ "#sectors/track",		0,	&disk.d_nsectors },
1.1    cgd 	{ "#tracks/cylinder",		0,	&disk.d_ntracks },
1.1    cgd 	{ "#cylinders",			0,	&disk.d_ncylinders },
1.1    cgd 	{ 0, 0, 0 },
1.1    cgd };
1.1    cgd
1.1    cgd struct disklabel *
1.1    cgd promptfordisk(name)
1.1    cgd 	char *name;
1.1    cgd {
1.1    cgd 	register struct disklabel *dp = &disk;
1.1    cgd 	register struct field *fp;
1.1    cgd 	register i;
1.6    mrg 	char buf[BUFSIZ], **tp, *cp;
1.1    cgd
1.1    cgd 	strncpy(dp->d_typename, name, sizeof(dp->d_typename));
1.1    cgd 	fprintf(stderr,
1.1    cgd 		"%s: unknown disk type, want to supply parameters (y/n)? ",
1.1    cgd 		name);
1.6    mrg 	(void) fgets(buf, BUFSIZ, stdin);
1.1    cgd 	if (*buf != 'y')
1.1    cgd 		return ((struct disklabel *)0);
1.1    cgd 	for (;;) {
1.1    cgd 		fprintf(stderr, "Disk/controller type (%s)? ", dktypenames[1]);
1.6    mrg 		(void) fgets(buf, BUFSIZ, stdin);
1.7  mikel 		if (buf[0] == 0) {
1.1    cgd 			dp->d_type = 1;
1.1    cgd 			break;
1.7  mikel 		}
1.7  mikel 		if ((i = gettype(buf, dktypenames)) >= 0) {
1.7  mikel 			dp->d_type = i;
1.7  mikel 			break;
1.7  mikel 		}
1.1    cgd 		fprintf(stderr, "%s: unrecognized controller type\n", buf);
1.1    cgd 		fprintf(stderr, "use one of:\n", buf);
1.1    cgd 		for (tp = dktypenames; *tp; tp++)
1.7  mikel 			if (strchr(*tp, ' ') == 0)
1.1    cgd 				fprintf(stderr, "\t%s\n", *tp);
1.1    cgd 	}
1.1    cgd gettype:
1.1    cgd 	dp->d_flags = 0;
1.1    cgd 	fprintf(stderr, "type (winchester|removable|simulated)? ");
1.6    mrg 	(void) fgets(buf, BUFSIZ, stdin);
1.1    cgd 	if (strcmp(buf, "removable") == 0)
1.1    cgd 		dp->d_flags = D_REMOVABLE;
1.1    cgd 	else if (strcmp(buf, "simulated") == 0)
1.1    cgd 		dp->d_flags = D_RAMDISK;
1.1    cgd 	else if (strcmp(buf, "winchester")) {
1.1    cgd 		fprintf(stderr, "%s: bad disk type\n", buf);
1.1    cgd 		goto gettype;
1.1    cgd 	}
1.1    cgd 	strncpy(dp->d_typename, buf, sizeof(dp->d_typename));
1.1    cgd 	fprintf(stderr, "(type <cr> to get default value, if only one)\n");
1.1    cgd 	if (dp->d_type == DTYPE_SMD)
1.1    cgd 	   fprintf(stderr, "Do %ss support bad144 bad block forwarding (yes)? ",
1.1    cgd 		dp->d_typename);
1.6    mrg 	(void) fgets(buf, BUFSIZ, stdin);
1.1    cgd 	if (*buf != 'n')
1.1    cgd 		dp->d_flags |= D_BADSECT;
1.1    cgd 	for (fp = fields; fp->f_name != NULL; fp++) {
1.1    cgd again:
1.1    cgd 		fprintf(stderr, "%s ", fp->f_name);
1.1    cgd 		if (fp->f_defaults != NULL)
1.1    cgd 			fprintf(stderr, "(%s)", fp->f_defaults);
1.1    cgd 		fprintf(stderr, "? ");
1.6    mrg 		cp = fgets(buf, BUFSIZ, stdin);
1.1    cgd 		if (*cp == '\0') {
1.1    cgd 			if (fp->f_defaults == NULL) {
1.1    cgd 				fprintf(stderr, "no default value\n");
1.1    cgd 				goto again;
1.1    cgd 			}
1.1    cgd 			cp = fp->f_defaults;
1.1    cgd 		}
1.1    cgd 		*fp->f_location = atol(cp);
1.1    cgd 		if (*fp->f_location == 0) {
1.1    cgd 			fprintf(stderr, "%s: bad value\n", cp);
1.1    cgd 			goto again;
1.1    cgd 		}
1.1    cgd 	}
1.1    cgd 	fprintf(stderr, "sectors/cylinder (%d)? ",
1.1    cgd 	    dp->d_nsectors * dp->d_ntracks);
1.6    mrg 	(void) fgets(buf, BUFSIZ, stdin);
1.1    cgd 	if (buf[0] == 0)
1.1    cgd 		dp->d_secpercyl = dp->d_nsectors * dp->d_ntracks;
1.1    cgd 	else
1.1    cgd 		dp->d_secpercyl = atol(buf);
1.1    cgd 	fprintf(stderr, "Drive-type-specific parameters, <cr> to terminate:\n");
1.1    cgd 	for (i = 0; i < NDDATA; i++) {
1.1    cgd 		fprintf(stderr, "d%d? ", i);
1.6    mrg 		(void) fgets(buf, BUFSIZ, stdin);
1.1    cgd 		if (buf[0] == 0)
1.1    cgd 			break;
1.1    cgd 		dp->d_drivedata[i] = atol(buf);
1.1    cgd 	}
1.1    cgd 	return (dp);
1.1    cgd }
1.1    cgd
1.1    cgd gettype(t, names)
1.1    cgd 	char *t;
1.1    cgd 	char **names;
1.1    cgd {
1.1    cgd 	register char **nm;
1.1    cgd
1.1    cgd 	for (nm = names; *nm; nm++)
1.1    cgd 		if (ustrcmp(t, *nm) == 0)
1.1    cgd 			return (nm - names);
1.1    cgd 	if (isdigit(*t))
1.1    cgd 		return (atoi(t));
1.1    cgd 	return (-1);
1.1    cgd }
1.1    cgd
1.1    cgd ustrcmp(s1, s2)
1.1    cgd 	register char *s1, *s2;
1.1    cgd {
1.1    cgd #define	lower(c)	(islower(c) ? (c) : tolower(c))
1.1    cgd
1.1    cgd 	for (; *s1; s1++, s2++) {
1.1    cgd 		if (*s1 == *s2)
1.1    cgd 			continue;
1.1    cgd 		if (isalpha(*s1) && isalpha(*s2) &&
1.1    cgd 		    lower(*s1) == lower(*s2))
1.1    cgd 			continue;
1.1    cgd 		return (*s2 - *s1);
1.1    cgd 	}
1.1    cgd 	return (0);
1.1    cgd }