xref: /illumos-gate/usr/src/cmd/format/menu_fdisk.c (revision 28ab0ca48b3e331cbbb231b1c8325f9f24f9af95)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright (c) 1993, 2010, Oracle and/or its affiliates. All rights reserved.
23  * Copyright 2016 Toomas Soome <tsoome@me.com>
24  */
25 
26 /*
27  * This file contains functions that implement the fdisk menu commands.
28  */
29 #include "global.h"
30 #include <errno.h>
31 #include <sys/time.h>
32 #include <sys/resource.h>
33 #include <sys/wait.h>
34 #include <signal.h>
35 #include <string.h>
36 #include <fcntl.h>
37 #include <stdlib.h>
38 #include <sys/dktp/fdisk.h>
39 #include <sys/stat.h>
40 #include <sys/dklabel.h>
41 #ifdef i386
42 #include <libfdisk.h>
43 #endif
44 
45 #include "main.h"
46 #include "analyze.h"
47 #include "menu.h"
48 #include "menu_command.h"
49 #include "menu_defect.h"
50 #include "menu_partition.h"
51 #include "menu_fdisk.h"
52 #include "param.h"
53 #include "misc.h"
54 #include "label.h"
55 #include "startup.h"
56 #include "partition.h"
57 #include "prompts.h"
58 #include "checkdev.h"
59 #include "io.h"
60 #include "ctlr_scsi.h"
61 #include "auto_sense.h"
62 
63 extern	struct menu_item menu_fdisk[];
64 struct mboot boot_sec;
65 uint_t	xstart;
66 
67 /*
68  * Byte swapping macros for accessing struct ipart
69  *	to resolve little endian on Sparc.
70  */
71 #if defined(sparc)
72 #define	les(val)	((((val)&0xFF)<<8)|(((val)>>8)&0xFF))
73 #define	lel(val)	(((unsigned)(les((val)&0x0000FFFF))<<16) | \
74 			(les((unsigned)((val)&0xffff0000)>>16)))
75 
76 #elif	defined(i386)
77 
78 #define	les(val)	(val)
79 #define	lel(val)	(val)
80 
81 #else	/* defined(sparc) */
82 
83 #error	No Platform defined
84 
85 #endif	/* defined(sparc) */
86 
87 
88 /* Function prototypes */
89 #ifdef	__STDC__
90 
91 #if	defined(sparc)
92 
93 static int getbyte(uchar_t **);
94 static int getlong(uchar_t **);
95 
96 #endif	/* defined(sparc) */
97 
98 static int get_solaris_part(int fd, struct ipart *ipart);
99 
100 #else	/* __STDC__ */
101 
102 #if	defined(sparc)
103 
104 static int getbyte();
105 static int getlong();
106 
107 #endif	/* defined(sparc) */
108 
109 static int get_solaris_part();
110 
111 #endif	/* __STDC__ */
112 
113 #ifdef i386
114 int extpart_init(ext_part_t **epp);
115 #endif
116 /*
117  * Handling the alignment problem of struct ipart.
118  */
119 static void
120 fill_ipart(char *bootptr, struct ipart *partp)
121 {
122 #if defined(sparc)
123 	/*
124 	 * Sparc platform:
125 	 *
126 	 * Packing short/word for struct ipart to resolve
127 	 *	little endian on Sparc since it is not
128 	 *	properly aligned on Sparc.
129 	 */
130 	partp->bootid = getbyte((uchar_t **)&bootptr);
131 	partp->beghead = getbyte((uchar_t **)&bootptr);
132 	partp->begsect = getbyte((uchar_t **)&bootptr);
133 	partp->begcyl = getbyte((uchar_t **)&bootptr);
134 	partp->systid = getbyte((uchar_t **)&bootptr);
135 	partp->endhead = getbyte((uchar_t **)&bootptr);
136 	partp->endsect = getbyte((uchar_t **)&bootptr);
137 	partp->endcyl = getbyte((uchar_t **)&bootptr);
138 	partp->relsect = getlong((uchar_t **)&bootptr);
139 	partp->numsect = getlong((uchar_t **)&bootptr);
140 #elif defined(i386)
141 	/*
142 	 * i386 platform:
143 	 *
144 	 * The fdisk table does not begin on a 4-byte boundary within
145 	 * the master boot record; so, we need to recopy its contents
146 	 * to another data structure to avoid an alignment exception.
147 	 */
148 	(void) bcopy(bootptr, partp, sizeof (struct ipart));
149 #else
150 #error  No Platform defined
151 #endif /* defined(sparc) */
152 }
153 
154 /*
155  * Get a correct byte/short/word routines for Sparc platform.
156  */
157 #if defined(sparc)
158 static int
159 getbyte(uchar_t **bp)
160 {
161 	int	b;
162 
163 	b = **bp;
164 	*bp = *bp + 1;
165 	return (b);
166 }
167 
168 #ifdef DEADCODE
169 static int
170 getshort(uchar_t **bp)
171 {
172 	int	b;
173 
174 	b = ((**bp) << 8) | *(*bp + 1);
175 	*bp += 2;
176 	return (b);
177 }
178 #endif /* DEADCODE */
179 
180 static int
181 getlong(uchar_t **bp)
182 {
183 	int	b, bh, bl;
184 
185 	bh = ((**bp) << 8) | *(*bp + 1);
186 	*bp += 2;
187 	bl = ((**bp) << 8) | *(*bp + 1);
188 	*bp += 2;
189 
190 	b = (bh << 16) | bl;
191 	return (b);
192 }
193 #endif /* defined(sparc) */
194 
195 #ifdef i386
196 /*
197  * Convert emcpowerN[a-p,p0,p1,p2,p3,p4] to emcpowerNp0 path,
198  * this is specific for emc powerpath driver.
199  */
200 static void
201 get_emcpower_pname(char *name, char *devname)
202 {
203 	char	*emcp = "emcpower";
204 	char	*npt = NULL;
205 	char	np[MAXNAMELEN];
206 	int	i = strlen(emcp);
207 
208 	(void) strcpy(np, devname);
209 	npt = strstr(np, emcp);
210 	while ((i < strlen(npt)) && (isdigit(npt[i])))
211 		i++;
212 	npt[i] = '\0';
213 	(void) snprintf(name, MAXNAMELEN, "/dev/rdsk/%sp0", npt);
214 }
215 #endif
216 
217 /*
218  * Convert cn[tn]dn to cn[tn]dns2 path
219  */
220 static void
221 get_sname(char *name)
222 {
223 	char		buf[MAXPATHLEN];
224 	char		*devp = "/dev/dsk";
225 	char		*rdevp = "/dev/rdsk";
226 	char		np[MAXNAMELEN];
227 	char		*npt;
228 
229 #ifdef i386
230 	if (emcpower_name(cur_disk->disk_name)) {
231 		get_emcpower_pname(name, cur_disk->disk_name);
232 		return;
233 	}
234 #endif
235 
236 	/*
237 	 * If it is a full path /dev/[r]dsk/cn[tn]dn, use this path
238 	 */
239 	(void) strcpy(np, cur_disk->disk_name);
240 	if (strncmp(rdevp, cur_disk->disk_name, strlen(rdevp)) == 0 ||
241 	    strncmp(devp, cur_disk->disk_name, strlen(devp)) == 0) {
242 		/*
243 		 * Skip if the path is already included with sN
244 		 */
245 		if (strchr(np, 's') == strrchr(np, 's')) {
246 			npt = strrchr(np, 'p');
247 			/* If pN is found, do not include it */
248 			if (npt != NULL) {
249 				*npt = '\0';
250 			}
251 			(void) snprintf(buf, sizeof (buf), "%ss2", np);
252 		} else {
253 			(void) snprintf(buf, sizeof (buf), "%s", np);
254 		}
255 	} else {
256 		(void) snprintf(buf, sizeof (buf), "/dev/rdsk/%ss2", np);
257 	}
258 	(void) strcpy(name, buf);
259 }
260 
261 /*
262  * Convert cn[tn]dnsn to cn[tn]dnp0 path
263  */
264 static void
265 get_pname(char *name)
266 {
267 	char		buf[MAXPATHLEN];
268 	char		*devp = "/dev/dsk";
269 	char		*rdevp = "/dev/rdsk";
270 	char		np[MAXNAMELEN];
271 	char		*npt;
272 
273 	/*
274 	 * If it is a full path /dev/[r]dsk/cn[tn]dnsn, use this path
275 	 */
276 	if (cur_disk == NULL) {
277 		(void) strcpy(np, x86_devname);
278 	} else {
279 		(void) strcpy(np, cur_disk->disk_name);
280 	}
281 
282 #ifdef i386
283 	if (emcpower_name(np)) {
284 		get_emcpower_pname(name, np);
285 		return;
286 	}
287 #endif
288 
289 	if (strncmp(rdevp, np, strlen(rdevp)) == 0 ||
290 	    strncmp(devp, np, strlen(devp)) == 0) {
291 		/*
292 		 * Skip if the path is already included with pN
293 		 */
294 		if (strchr(np, 'p') == NULL) {
295 			npt = strrchr(np, 's');
296 			/* If sN is found, do not include it */
297 			if (isdigit(*++npt)) {
298 				*--npt = '\0';
299 			}
300 			(void) snprintf(buf, sizeof (buf), "%sp0", np);
301 		} else {
302 			(void) snprintf(buf, sizeof (buf), "%s", np);
303 		}
304 	} else {
305 		(void) snprintf(buf, sizeof (buf), "/dev/rdsk/%sp0", np);
306 	}
307 	(void) strcpy(name, buf);
308 }
309 
310 /*
311  * Open file descriptor for current disk (cur_file)
312  *	with "p0" path or cur_disk->disk_path
313  */
314 void
315 open_cur_file(int mode)
316 {
317 	char	*dkpath;
318 	char	pbuf[MAXPATHLEN];
319 
320 	switch (mode) {
321 		case FD_USE_P0_PATH:
322 			(void) get_pname(&pbuf[0]);
323 			dkpath = pbuf;
324 			break;
325 		case FD_USE_CUR_DISK_PATH:
326 			if (cur_disk->fdisk_part.systid == SUNIXOS ||
327 			    cur_disk->fdisk_part.systid == SUNIXOS2) {
328 				(void) get_sname(&pbuf[0]);
329 				dkpath = pbuf;
330 			} else {
331 				dkpath = cur_disk->disk_path;
332 			}
333 			break;
334 		default:
335 			err_print("Error: Invalid mode option for opening "
336 			    "cur_file\n");
337 			fullabort();
338 	}
339 
340 	/* Close previous cur_file */
341 	(void) close(cur_file);
342 	/* Open cur_file with the required path dkpath */
343 	if ((cur_file = open_disk(dkpath, O_RDWR | O_NDELAY)) < 0) {
344 		err_print(
345 		    "Error: can't open selected disk '%s'.\n", dkpath);
346 		fullabort();
347 	}
348 }
349 
350 
351 /*
352  * This routine implements the 'fdisk' command.  It simply runs
353  * the fdisk command on the current disk.
354  * Use of this is restricted to interactive mode only.
355  */
356 int
357 c_fdisk()
358 {
359 
360 	char		buf[MAXPATHLEN];
361 	char		pbuf[MAXPATHLEN];
362 	struct stat	statbuf;
363 
364 	/*
365 	 * We must be in interactive mode to use the fdisk command
366 	 */
367 	if (option_f != (char *)NULL || isatty(0) != 1 || isatty(1) != 1) {
368 		err_print("Fdisk command is for interactive use only!\n");
369 		return (-1);
370 	}
371 
372 	/*
373 	 * There must be a current disk type and a current disk
374 	 */
375 	if (cur_dtype == NULL) {
376 		err_print("Current Disk Type is not set.\n");
377 		return (-1);
378 	}
379 
380 	/*
381 	 * Before running the fdisk command, get file status of
382 	 *	/dev/rdsk/cn[tn]dnp0 path to see if this disk
383 	 *	supports fixed disk partition table.
384 	 */
385 	(void) get_pname(&pbuf[0]);
386 	if (stat(pbuf, (struct stat *)&statbuf) == -1 ||
387 	    !S_ISCHR(statbuf.st_mode)) {
388 		err_print(
389 		"Disk does not support fixed disk partition table\n");
390 		return (0);
391 	}
392 
393 	/*
394 	 * Run the fdisk program.
395 	 */
396 	(void) snprintf(buf, sizeof (buf), "fdisk %s\n", pbuf);
397 	(void) system(buf);
398 
399 	/*
400 	 * Open cur_file with "p0" path for accessing the fdisk table
401 	 */
402 	(void) open_cur_file(FD_USE_P0_PATH);
403 
404 	/*
405 	 * Get solaris partition information in the fdisk partition table
406 	 */
407 	if (get_solaris_part(cur_file, &cur_disk->fdisk_part) == -1) {
408 		err_print("No fdisk solaris partition found\n");
409 		cur_disk->fdisk_part.numsect = 0;  /* No Solaris */
410 	}
411 
412 	/*
413 	 * Restore cur_file with cur_disk->disk_path
414 	 */
415 	(void) open_cur_file(FD_USE_CUR_DISK_PATH);
416 
417 	return (0);
418 }
419 
420 /*
421  * Read MBR on the disk
422  * if the Solaris partition has changed,
423  *	reread the vtoc
424  */
425 #ifdef DEADCODE
426 static void
427 update_cur_parts()
428 {
429 
430 	int i;
431 	register struct partition_info *parts;
432 
433 	for (i = 0; i < NDKMAP; i++) {
434 #if defined(_SUNOS_VTOC_16)
435 		if (cur_parts->vtoc.v_part[i].p_tag &&
436 		    cur_parts->vtoc.v_part[i].p_tag != V_ALTSCTR) {
437 			cur_parts->vtoc.v_part[i].p_start = 0;
438 			cur_parts->vtoc.v_part[i].p_size = 0;
439 
440 #endif
441 			cur_parts->pinfo_map[i].dkl_nblk = 0;
442 			cur_parts->pinfo_map[i].dkl_cylno = 0;
443 			cur_parts->vtoc.v_part[i].p_tag =
444 			    default_vtoc_map[i].p_tag;
445 			cur_parts->vtoc.v_part[i].p_flag =
446 			    default_vtoc_map[i].p_flag;
447 #if defined(_SUNOS_VTOC_16)
448 		}
449 #endif
450 	}
451 	cur_parts->pinfo_map[C_PARTITION].dkl_nblk = ncyl * spc();
452 
453 #if defined(_SUNOS_VTOC_16)
454 	/*
455 	 * Adjust for the boot partitions
456 	 */
457 	cur_parts->pinfo_map[I_PARTITION].dkl_nblk = spc();
458 	cur_parts->pinfo_map[I_PARTITION].dkl_cylno = 0;
459 	cur_parts->vtoc.v_part[C_PARTITION].p_start =
460 	    cur_parts->pinfo_map[C_PARTITION].dkl_cylno * nhead * nsect;
461 	cur_parts->vtoc.v_part[C_PARTITION].p_size =
462 	    cur_parts->pinfo_map[C_PARTITION].dkl_nblk;
463 
464 	cur_parts->vtoc.v_part[I_PARTITION].p_start =
465 	    cur_parts->pinfo_map[I_PARTITION].dkl_cylno;
466 	cur_parts->vtoc.v_part[I_PARTITION].p_size =
467 	    cur_parts->pinfo_map[I_PARTITION].dkl_nblk;
468 
469 #endif	/* defined(_SUNOS_VTOC_16) */
470 	parts = cur_dtype->dtype_plist;
471 	cur_dtype->dtype_ncyl = ncyl;
472 	cur_dtype->dtype_plist = cur_parts;
473 	parts->pinfo_name = cur_parts->pinfo_name;
474 	cur_disk->disk_parts = cur_parts;
475 	cur_ctype->ctype_dlist = cur_dtype;
476 
477 }
478 #endif /* DEADCODE */
479 
480 static int
481 get_solaris_part(int fd, struct ipart *ipart)
482 {
483 	int		i;
484 	struct ipart	ip;
485 	int		status;
486 	char		*mbr;
487 	char		*bootptr;
488 	struct dk_label	update_label;
489 	ushort_t	found = 0;
490 #ifdef i386
491 	uint32_t	relsec, numsec;
492 	int		pno, rval, ext_part_found = 0;
493 	ext_part_t	*epp;
494 #endif
495 
496 	(void) lseek(fd, 0, 0);
497 
498 	/*
499 	 * We may get mbr of different size, but the first 512 bytes
500 	 * are valid information.
501 	 */
502 	mbr = malloc(cur_blksz);
503 	if (mbr == NULL) {
504 		err_print("No memory available.\n");
505 		return (-1);
506 	}
507 	status = read(fd, mbr, cur_blksz);
508 
509 	if (status != cur_blksz) {
510 		err_print("Bad read of fdisk partition. Status = %x\n", status);
511 		err_print("Cannot read fdisk partition information.\n");
512 		free(mbr);
513 		return (-1);
514 	}
515 
516 	(void) memcpy(&boot_sec, mbr, sizeof (struct mboot));
517 	free(mbr);
518 
519 #ifdef i386
520 	(void) extpart_init(&epp);
521 #endif
522 	for (i = 0; i < FD_NUMPART; i++) {
523 		int	ipc;
524 
525 		ipc = i * sizeof (struct ipart);
526 
527 		/* Handling the alignment problem of struct ipart */
528 		bootptr = &boot_sec.parts[ipc];
529 		(void) fill_ipart(bootptr, &ip);
530 
531 #ifdef i386
532 		if (fdisk_is_dos_extended(ip.systid) && (ext_part_found == 0)) {
533 			/* We support only one extended partition per disk */
534 			ext_part_found = 1;
535 			rval = fdisk_get_solaris_part(epp, &pno, &relsec,
536 			    &numsec);
537 			if (rval == FDISK_SUCCESS) {
538 				/*
539 				 * Found a solaris partition inside the
540 				 * extended partition. Update the statistics.
541 				 */
542 				if (nhead != 0 && nsect != 0) {
543 					pcyl = numsec / (nhead * nsect);
544 					xstart = relsec / (nhead * nsect);
545 					ncyl = pcyl - acyl;
546 				}
547 				solaris_offset = relsec;
548 				found = 2;
549 				ip.bootid = 0;
550 				ip.beghead = ip.begsect = ip.begcyl = 0xff;
551 				ip.endhead = ip.endsect = ip.endcyl = 0xff;
552 				ip.systid = SUNIXOS2;
553 				ip.relsect = relsec;
554 				ip.numsect = numsec;
555 				ipart->bootid = ip.bootid;
556 				status = bcmp(&ip, ipart,
557 				    sizeof (struct ipart));
558 				bcopy(&ip, ipart, sizeof (struct ipart));
559 			}
560 			continue;
561 		}
562 #endif
563 
564 		/*
565 		 * we are interested in Solaris and EFI partition types
566 		 */
567 #ifdef i386
568 		if ((ip.systid == SUNIXOS &&
569 		    (fdisk_is_linux_swap(epp, lel(ip.relsect), NULL) != 0)) ||
570 		    ip.systid == SUNIXOS2 ||
571 		    ip.systid == EFI_PMBR) {
572 #else
573 		if (ip.systid == SUNIXOS ||
574 		    ip.systid == SUNIXOS2 ||
575 		    ip.systid == EFI_PMBR) {
576 #endif
577 			/*
578 			 * if the disk has an EFI label, nhead and nsect may
579 			 * be zero.  This test protects us from FPE's, and
580 			 * format still seems to work fine
581 			 */
582 			if (nhead != 0 && nsect != 0) {
583 				pcyl = lel(ip.numsect) / (nhead * nsect);
584 				xstart = lel(ip.relsect) / (nhead * nsect);
585 				ncyl = pcyl - acyl;
586 			}
587 #ifdef DEBUG
588 			else {
589 				err_print("Critical geometry values are zero:\n"
590 				    "\tnhead = %d; nsect = %d\n", nhead, nsect);
591 			}
592 #endif /* DEBUG */
593 
594 			solaris_offset = (uint_t)lel(ip.relsect);
595 			found = 1;
596 			break;
597 		}
598 	}
599 
600 #ifdef i386
601 	libfdisk_fini(&epp);
602 #endif
603 
604 	if (!found) {
605 		err_print("Solaris fdisk partition not found\n");
606 		return (-1);
607 	} else if (found == 1) {
608 		/*
609 		 * Found a primary solaris partition.
610 		 * compare the previous and current Solaris partition
611 		 * but don't use bootid in determination of Solaris partition
612 		 * changes
613 		 */
614 		ipart->bootid = ip.bootid;
615 		status = bcmp(&ip, ipart, sizeof (struct ipart));
616 
617 		bcopy(&ip, ipart, sizeof (struct ipart));
618 	}
619 
620 	/* if the disk partitioning has changed - get the VTOC */
621 	if (status) {
622 		struct extvtoc exvtoc;
623 		struct vtoc vtoc;
624 
625 		status = ioctl(fd, DKIOCGEXTVTOC, &exvtoc);
626 		if (status == -1) {
627 			i = errno;
628 			/* Try the old ioctl DKIOCGVTOC */
629 			status = ioctl(fd, DKIOCGVTOC, &vtoc);
630 			if (status == -1) {
631 				err_print("Bad ioctl DKIOCGEXTVTOC.\n");
632 				err_print("errno=%d %s\n", i, strerror(i));
633 				err_print("Cannot read vtoc information.\n");
634 				return (-1);
635 			}
636 		}
637 
638 		status = read_label(fd, &update_label);
639 		if (status == -1) {
640 			err_print("Cannot read label information.\n");
641 			return (-1);
642 		}
643 
644 		/* copy vtoc information */
645 		cur_parts->vtoc = update_label.dkl_vtoc;
646 
647 #if defined(_SUNOS_VTOC_16)
648 		/*
649 		 * this is to update the slice table on x86
650 		 * we don't care about VTOC8 here
651 		 */
652 		for (i = 0; i < NDKMAP; i ++) {
653 			cur_parts->pinfo_map[i].dkl_cylno =
654 			    update_label.dkl_vtoc.v_part[i].p_start /
655 			    ((int)(update_label.dkl_nhead *
656 			    update_label.dkl_nsect));
657 			cur_parts->pinfo_map[i].dkl_nblk =
658 			    update_label.dkl_vtoc.v_part[i].p_size;
659 		}
660 #endif /* defined(_SUNOS_VTOC_16) */
661 
662 		cur_dtype->dtype_ncyl = update_label.dkl_ncyl;
663 		cur_dtype->dtype_pcyl = update_label.dkl_pcyl;
664 		cur_dtype->dtype_acyl = update_label.dkl_acyl;
665 		cur_dtype->dtype_nhead = update_label.dkl_nhead;
666 		cur_dtype->dtype_nsect = update_label.dkl_nsect;
667 		ncyl = cur_dtype->dtype_ncyl;
668 		acyl = cur_dtype->dtype_acyl;
669 		pcyl = cur_dtype->dtype_pcyl;
670 		nsect = cur_dtype->dtype_nsect;
671 		nhead = cur_dtype->dtype_nhead;
672 	}
673 	return (0);
674 }
675 
676 
677 int
678 copy_solaris_part(struct ipart *ipart)
679 {
680 
681 	int		status, i, fd;
682 	struct mboot	mboot;
683 	char		*mbr;
684 	struct ipart	ip;
685 	char		buf[MAXPATHLEN];
686 	char		*bootptr;
687 	struct stat	statbuf;
688 #ifdef i386
689 	uint32_t	relsec, numsec;
690 	int		pno, rval, ext_part_found = 0;
691 	ext_part_t	*epp;
692 #endif
693 
694 	(void) get_pname(&buf[0]);
695 	if (stat(buf, &statbuf) == -1 ||
696 	    !S_ISCHR(statbuf.st_mode) ||
697 	    ((cur_label == L_TYPE_EFI) &&
698 	    (cur_disk->disk_flags & DSK_LABEL_DIRTY))) {
699 		/*
700 		 * Make sure to reset solaris_offset to zero if it is
701 		 *	previously set by a selected disk that
702 		 *	supports the fdisk table.
703 		 */
704 		solaris_offset = 0;
705 		/*
706 		 * Return if this disk does not support fdisk table or
707 		 * if it uses an EFI label but has not yet been labelled.
708 		 * If the EFI label has not been written then the open
709 		 * on the partition will fail.
710 		 */
711 		return (0);
712 	}
713 
714 	if ((fd = open(buf, O_RDONLY)) < 0) {
715 		/*
716 		 * Labeled device support in lofi provides p0 partition on
717 		 * both x86 and sparc. However, sparc does not implement fdisk
718 		 * partitioning. This workaround will allow format
719 		 * to ignore fdisk errors in case of lofi devices.
720 		 */
721 		if (strcmp(cur_disk->disk_dkinfo.dki_cname, "lofi") == 0) {
722 			solaris_offset = 0;
723 			return (0);
724 		}
725 		err_print("Error: can't open disk '%s'.\n", buf);
726 		return (-1);
727 	}
728 
729 	/*
730 	 * We may get mbr of different size, but the first 512 bytes
731 	 * are valid information.
732 	 */
733 	mbr = malloc(cur_blksz);
734 	if (mbr == NULL) {
735 		err_print("No memory available.\n");
736 		return (-1);
737 	}
738 	status = read(fd, mbr, cur_blksz);
739 
740 	if (status != cur_blksz) {
741 		err_print("Bad read of fdisk partition.\n");
742 		(void) close(fd);
743 		free(mbr);
744 		return (-1);
745 	}
746 
747 	(void) memcpy(&mboot, mbr, sizeof (struct mboot));
748 
749 #ifdef i386
750 	(void) extpart_init(&epp);
751 #endif
752 	for (i = 0; i < FD_NUMPART; i++) {
753 		int	ipc;
754 
755 		ipc = i * sizeof (struct ipart);
756 
757 		/* Handling the alignment problem of struct ipart */
758 		bootptr = &mboot.parts[ipc];
759 		(void) fill_ipart(bootptr, &ip);
760 
761 #ifdef i386
762 		if (fdisk_is_dos_extended(ip.systid) && (ext_part_found == 0)) {
763 			/* We support only one extended partition per disk */
764 			ext_part_found = 1;
765 			rval = fdisk_get_solaris_part(epp, &pno, &relsec,
766 			    &numsec);
767 			if (rval == FDISK_SUCCESS) {
768 				/*
769 				 * Found a solaris partition inside the
770 				 * extended partition. Update the statistics.
771 				 */
772 				if (nhead != 0 && nsect != 0) {
773 					pcyl = numsec / (nhead * nsect);
774 					ncyl = pcyl - acyl;
775 				}
776 				solaris_offset = relsec;
777 				ip.bootid = 0;
778 				ip.beghead = ip.begsect = ip.begcyl = 0xff;
779 				ip.endhead = ip.endsect = ip.endcyl = 0xff;
780 				ip.systid = SUNIXOS2;
781 				ip.relsect = relsec;
782 				ip.numsect = numsec;
783 				bcopy(&ip, ipart, sizeof (struct ipart));
784 			}
785 			continue;
786 		}
787 #endif
788 
789 
790 #ifdef i386
791 		if ((ip.systid == SUNIXOS &&
792 		    (fdisk_is_linux_swap(epp, lel(ip.relsect), NULL) != 0)) ||
793 		    ip.systid == SUNIXOS2 ||
794 		    ip.systid == EFI_PMBR) {
795 #else
796 		if (ip.systid == SUNIXOS ||
797 		    ip.systid == SUNIXOS2 ||
798 		    ip.systid == EFI_PMBR) {
799 #endif
800 			solaris_offset = lel(ip.relsect);
801 			bcopy(&ip, ipart, sizeof (struct ipart));
802 
803 			/*
804 			 * if the disk has an EFI label, we typically won't
805 			 * have values for nhead and nsect.  format seems to
806 			 * work without them, and we need to protect ourselves
807 			 * from FPE's
808 			 */
809 			if (nhead != 0 && nsect != 0) {
810 				pcyl = lel(ip.numsect) / (nhead * nsect);
811 				ncyl = pcyl - acyl;
812 			}
813 #ifdef DEBUG
814 			else {
815 				err_print("Critical geometry values are zero:\n"
816 				    "\tnhead = %d; nsect = %d\n", nhead, nsect);
817 			}
818 #endif /* DEBUG */
819 
820 			break;
821 		}
822 	}
823 #ifdef i386
824 	libfdisk_fini(&epp);
825 #endif
826 
827 	(void) close(fd);
828 	free(mbr);
829 	return (0);
830 }
831 
832 #if defined(_FIRMWARE_NEEDS_FDISK)
833 int
834 auto_solaris_part(struct dk_label *label)
835 {
836 
837 	int		status, i, fd;
838 	struct mboot	mboot;
839 	char		*mbr;
840 	struct ipart	ip;
841 	char		*bootptr;
842 	char		pbuf[MAXPATHLEN];
843 #ifdef i386
844 	uint32_t	relsec, numsec;
845 	int		pno, rval, ext_part_found = 0;
846 	ext_part_t	*epp;
847 #endif
848 
849 	(void) get_pname(&pbuf[0]);
850 	if ((fd = open_disk(pbuf, O_RDONLY)) < 0) {
851 		err_print("Error: can't open selected disk '%s'.\n", pbuf);
852 		return (-1);
853 	}
854 
855 	/*
856 	 * We may get mbr of different size, but the first 512 bytes
857 	 * are valid information.
858 	 */
859 	mbr = malloc(cur_blksz);
860 	if (mbr == NULL) {
861 		err_print("No memory available.\n");
862 		return (-1);
863 	}
864 	status = read(fd, mbr, cur_blksz);
865 
866 	if (status != cur_blksz) {
867 		err_print("Bad read of fdisk partition.\n");
868 		free(mbr);
869 		return (-1);
870 	}
871 
872 	(void) memcpy(&mboot, mbr, sizeof (struct mboot));
873 
874 #ifdef i386
875 	(void) extpart_init(&epp);
876 #endif
877 	for (i = 0; i < FD_NUMPART; i++) {
878 		int	ipc;
879 
880 		ipc = i * sizeof (struct ipart);
881 
882 		/* Handling the alignment problem of struct ipart */
883 		bootptr = &mboot.parts[ipc];
884 		(void) fill_ipart(bootptr, &ip);
885 
886 #ifdef i386
887 		if (fdisk_is_dos_extended(ip.systid) && (ext_part_found == 0)) {
888 			/* We support only one extended partition per disk */
889 			ext_part_found = 1;
890 			rval = fdisk_get_solaris_part(epp, &pno, &relsec,
891 			    &numsec);
892 			if (rval == FDISK_SUCCESS) {
893 				/*
894 				 * Found a solaris partition inside the
895 				 * extended partition. Update the statistics.
896 				 */
897 				if ((label->dkl_nhead != 0) &&
898 				    (label->dkl_nsect != 0)) {
899 					label->dkl_pcyl =
900 					    numsec / (label->dkl_nhead *
901 					    label->dkl_nsect);
902 					label->dkl_ncyl = label->dkl_pcyl -
903 					    label->dkl_acyl;
904 				}
905 				solaris_offset = relsec;
906 			}
907 			continue;
908 		}
909 #endif
910 
911 		/*
912 		 * if the disk has an EFI label, the nhead and nsect fields
913 		 * the label may be zero.  This protects us from FPE's, and
914 		 * format still seems to work happily
915 		 */
916 
917 
918 #ifdef i386
919 		if ((ip.systid == SUNIXOS &&
920 		    (fdisk_is_linux_swap(epp, lel(ip.relsect), NULL) != 0)) ||
921 		    ip.systid == SUNIXOS2 ||
922 		    ip.systid == EFI_PMBR) {
923 #else
924 		if (ip.systid == SUNIXOS ||
925 		    ip.systid == SUNIXOS2 ||
926 		    ip.systid == EFI_PMBR) {
927 #endif
928 			if ((label->dkl_nhead != 0) &&
929 			    (label->dkl_nsect != 0)) {
930 				label->dkl_pcyl = lel(ip.numsect) /
931 				    (label->dkl_nhead * label->dkl_nsect);
932 				label->dkl_ncyl = label->dkl_pcyl -
933 				    label->dkl_acyl;
934 			}
935 #ifdef DEBUG
936 			else {
937 				err_print("Critical label fields aren't "
938 				    "non-zero:\n"
939 				    "\tlabel->dkl_nhead = %d; "
940 				    "label->dkl_nsect = "
941 				    "%d\n", label->dkl_nhead,
942 				    label->dkl_nsect);
943 			}
944 #endif /* DEBUG */
945 
946 		solaris_offset = lel(ip.relsect);
947 		break;
948 		}
949 	}
950 
951 #ifdef i386
952 	libfdisk_fini(&epp);
953 #endif
954 	(void) close(fd);
955 	free(mbr);
956 	return (0);
957 }
958 #endif	/* defined(_FIRMWARE_NEEDS_FDISK) */
959 
960 
961 int
962 good_fdisk()
963 {
964 	char		buf[MAXPATHLEN];
965 	struct stat	statbuf;
966 
967 	(void) get_pname(&buf[0]);
968 	if (stat(buf, &statbuf) == -1 ||
969 	    !S_ISCHR(statbuf.st_mode) ||
970 	    cur_label == L_TYPE_EFI) {
971 		/*
972 		 * Return if this disk does not support fdisk table or
973 		 * if the disk is labeled with EFI.
974 		 */
975 		return (1);
976 	}
977 
978 	if (lel(cur_disk->fdisk_part.numsect) > 0) {
979 		return (1);
980 	} else {
981 		/*
982 		 * Labeled device support in lofi provides p0 partition on
983 		 * both x86 and sparc. However, sparc does not implement fdisk
984 		 * partitioning. This workaround will allow format
985 		 * to ignore fdisk errors in case of lofi devices.
986 		 */
987 		if (strcmp(cur_disk->disk_dkinfo.dki_cname, "lofi") == 0) {
988 			return (1);
989 		}
990 		err_print("WARNING - ");
991 		err_print("This disk may be in use by an application "
992 		    "that has\n\t  modified the fdisk table. Ensure "
993 		    "that this disk is\n\t  not currently in use "
994 		    "before proceeding to use fdisk.\n");
995 		return (0);
996 	}
997 }
998 
999 #ifdef i386
1000 int
1001 extpart_init(ext_part_t **epp)
1002 {
1003 	int		rval, lf_op_flag = 0;
1004 	char		p0_path[MAXPATHLEN];
1005 
1006 	get_pname(&p0_path[0]);
1007 	lf_op_flag |= FDISK_READ_DISK;
1008 	if ((rval = libfdisk_init(epp, p0_path, NULL, lf_op_flag)) !=
1009 	    FDISK_SUCCESS) {
1010 		switch (rval) {
1011 			/*
1012 			 * FDISK_EBADLOGDRIVE, FDISK_ENOLOGDRIVE
1013 			 * and FDISK_EBADMAGIC can be considered
1014 			 * as soft errors and hence we do not exit.
1015 			 */
1016 			case FDISK_EBADLOGDRIVE:
1017 				break;
1018 			case FDISK_ENOLOGDRIVE:
1019 				break;
1020 			case FDISK_EBADMAGIC:
1021 				break;
1022 			case FDISK_ENOVGEOM:
1023 				err_print("Could not get virtual geometry for"
1024 				    " this device\n");
1025 				fullabort();
1026 				break;
1027 			case FDISK_ENOPGEOM:
1028 				err_print("Could not get physical geometry for"
1029 				    " this device\n");
1030 				fullabort();
1031 				break;
1032 			case FDISK_ENOLGEOM:
1033 				err_print("Could not get label geometry for "
1034 				    " this device\n");
1035 				fullabort();
1036 				break;
1037 			default:
1038 				err_print("Failed to initialise libfdisk.\n");
1039 				fullabort();
1040 				break;
1041 		}
1042 	}
1043 	return (0);
1044 }
1045 #endif
1046