1aa1b14e7SSheshadri Vasudevan /*
2aa1b14e7SSheshadri Vasudevan * CDDL HEADER START
3aa1b14e7SSheshadri Vasudevan *
4aa1b14e7SSheshadri Vasudevan * The contents of this file are subject to the terms of the
5aa1b14e7SSheshadri Vasudevan * Common Development and Distribution License (the "License").
6aa1b14e7SSheshadri Vasudevan * You may not use this file except in compliance with the License.
7aa1b14e7SSheshadri Vasudevan *
8aa1b14e7SSheshadri Vasudevan * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9aa1b14e7SSheshadri Vasudevan * or http://www.opensolaris.org/os/licensing.
10aa1b14e7SSheshadri Vasudevan * See the License for the specific language governing permissions
11aa1b14e7SSheshadri Vasudevan * and limitations under the License.
12aa1b14e7SSheshadri Vasudevan *
13aa1b14e7SSheshadri Vasudevan * When distributing Covered Code, include this CDDL HEADER in each
14aa1b14e7SSheshadri Vasudevan * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15aa1b14e7SSheshadri Vasudevan * If applicable, add the following below this CDDL HEADER, with the
16aa1b14e7SSheshadri Vasudevan * fields enclosed by brackets "[]" replaced with your own identifying
17aa1b14e7SSheshadri Vasudevan * information: Portions Copyright [yyyy] [name of copyright owner]
18aa1b14e7SSheshadri Vasudevan *
19aa1b14e7SSheshadri Vasudevan * CDDL HEADER END
20aa1b14e7SSheshadri Vasudevan */
21aa1b14e7SSheshadri Vasudevan /*
22e6f8def1SShidokht Yadegari * Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved.
238533946bSYouzhong Yang * Copyright 2017 The MathWorks, Inc. All rights reserved.
24aa1b14e7SSheshadri Vasudevan */
25aa1b14e7SSheshadri Vasudevan
26aa1b14e7SSheshadri Vasudevan #include <stdio.h>
27aa1b14e7SSheshadri Vasudevan #include <stdlib.h>
28aa1b14e7SSheshadri Vasudevan #include <string.h>
29aa1b14e7SSheshadri Vasudevan #include <strings.h>
30aa1b14e7SSheshadri Vasudevan #include <unistd.h>
31aa1b14e7SSheshadri Vasudevan #include <errno.h>
32aa1b14e7SSheshadri Vasudevan #include <fcntl.h>
33aa1b14e7SSheshadri Vasudevan #include <ctype.h>
34aa1b14e7SSheshadri Vasudevan #include <sys/stat.h>
35aa1b14e7SSheshadri Vasudevan #include <sys/types.h>
36aa1b14e7SSheshadri Vasudevan #include <sys/param.h>
37aa1b14e7SSheshadri Vasudevan #include <sys/systeminfo.h>
38aa1b14e7SSheshadri Vasudevan #include <sys/efi_partition.h>
39aa1b14e7SSheshadri Vasudevan #include <sys/byteorder.h>
40aa1b14e7SSheshadri Vasudevan
41aa1b14e7SSheshadri Vasudevan #include <sys/vtoc.h>
42aa1b14e7SSheshadri Vasudevan #include <sys/tty.h>
43aa1b14e7SSheshadri Vasudevan #include <sys/dktp/fdisk.h>
44aa1b14e7SSheshadri Vasudevan #include <sys/dkio.h>
45aa1b14e7SSheshadri Vasudevan #include <sys/mnttab.h>
46aa1b14e7SSheshadri Vasudevan #include "libfdisk.h"
47aa1b14e7SSheshadri Vasudevan
48aa1b14e7SSheshadri Vasudevan #define DEFAULT_PATH_PREFIX "/dev/rdsk/"
49aa1b14e7SSheshadri Vasudevan
50aa1b14e7SSheshadri Vasudevan static void fdisk_free_ld_nodes(ext_part_t *epp);
51aa1b14e7SSheshadri Vasudevan static void fdisk_ext_place_in_sorted_list(ext_part_t *epp,
52aa1b14e7SSheshadri Vasudevan logical_drive_t *newld);
53aa1b14e7SSheshadri Vasudevan static void fdisk_ext_remove_from_sorted_list(ext_part_t *epp,
54aa1b14e7SSheshadri Vasudevan logical_drive_t *delld);
55aa1b14e7SSheshadri Vasudevan static int fdisk_ext_overlapping_parts(ext_part_t *epp, uint32_t begsec,
56aa1b14e7SSheshadri Vasudevan uint32_t endsec);
57aa1b14e7SSheshadri Vasudevan static int fdisk_read_extpart(ext_part_t *epp);
58aa1b14e7SSheshadri Vasudevan static void fdisk_set_CHS_values(ext_part_t *epp, struct ipart *part);
59aa1b14e7SSheshadri Vasudevan static int fdisk_init_master_part_table(ext_part_t *epp);
60aa1b14e7SSheshadri Vasudevan static struct ipart *fdisk_alloc_part_table();
61aa1b14e7SSheshadri Vasudevan static int fdisk_read_master_part_table(ext_part_t *epp);
62aa1b14e7SSheshadri Vasudevan
63aa1b14e7SSheshadri Vasudevan static int
fdisk_init_disk_geom(ext_part_t * epp)64aa1b14e7SSheshadri Vasudevan fdisk_init_disk_geom(ext_part_t *epp)
65aa1b14e7SSheshadri Vasudevan {
66aa1b14e7SSheshadri Vasudevan struct dk_geom disk_geom;
67aa1b14e7SSheshadri Vasudevan struct dk_minfo disk_info;
68aa1b14e7SSheshadri Vasudevan int no_virtgeom_ioctl = 0, no_physgeom_ioctl = 0;
69aa1b14e7SSheshadri Vasudevan
70aa1b14e7SSheshadri Vasudevan /* Get disk's HBA (virtual) geometry */
71aa1b14e7SSheshadri Vasudevan errno = 0;
72aa1b14e7SSheshadri Vasudevan if (ioctl(epp->dev_fd, DKIOCG_VIRTGEOM, &disk_geom)) {
73aa1b14e7SSheshadri Vasudevan if (errno == ENOTTY) {
74aa1b14e7SSheshadri Vasudevan no_virtgeom_ioctl = 1;
75aa1b14e7SSheshadri Vasudevan } else if (errno == EINVAL) {
76aa1b14e7SSheshadri Vasudevan /*
77aa1b14e7SSheshadri Vasudevan * This means that the ioctl exists, but
78aa1b14e7SSheshadri Vasudevan * is invalid for this disk, meaning the
79aa1b14e7SSheshadri Vasudevan * disk doesn't have an HBA geometry
80aa1b14e7SSheshadri Vasudevan * (like, say, it's larger than 8GB).
81aa1b14e7SSheshadri Vasudevan */
82aa1b14e7SSheshadri Vasudevan epp->disk_geom.virt_cyl = epp->disk_geom.virt_heads =
83aa1b14e7SSheshadri Vasudevan epp->disk_geom.virt_sec = 0;
84aa1b14e7SSheshadri Vasudevan } else {
85aa1b14e7SSheshadri Vasudevan return (FDISK_ENOVGEOM);
86aa1b14e7SSheshadri Vasudevan }
87aa1b14e7SSheshadri Vasudevan } else {
88aa1b14e7SSheshadri Vasudevan /* save virtual geometry values obtained by ioctl */
89aa1b14e7SSheshadri Vasudevan epp->disk_geom.virt_cyl = disk_geom.dkg_ncyl;
90aa1b14e7SSheshadri Vasudevan epp->disk_geom.virt_heads = disk_geom.dkg_nhead;
91aa1b14e7SSheshadri Vasudevan epp->disk_geom.virt_sec = disk_geom.dkg_nsect;
92aa1b14e7SSheshadri Vasudevan }
93aa1b14e7SSheshadri Vasudevan
94aa1b14e7SSheshadri Vasudevan errno = 0;
95aa1b14e7SSheshadri Vasudevan if (ioctl(epp->dev_fd, DKIOCG_PHYGEOM, &disk_geom)) {
96aa1b14e7SSheshadri Vasudevan if (errno == ENOTTY) {
97aa1b14e7SSheshadri Vasudevan no_physgeom_ioctl = 1;
98aa1b14e7SSheshadri Vasudevan } else {
99aa1b14e7SSheshadri Vasudevan return (FDISK_ENOPGEOM);
100aa1b14e7SSheshadri Vasudevan }
101aa1b14e7SSheshadri Vasudevan }
102aa1b14e7SSheshadri Vasudevan /*
103aa1b14e7SSheshadri Vasudevan * Call DKIOCGGEOM if the ioctls for physical and virtual
104aa1b14e7SSheshadri Vasudevan * geometry fail. Get both from this generic call.
105aa1b14e7SSheshadri Vasudevan */
106aa1b14e7SSheshadri Vasudevan if (no_virtgeom_ioctl && no_physgeom_ioctl) {
107aa1b14e7SSheshadri Vasudevan errno = 0;
108aa1b14e7SSheshadri Vasudevan if (ioctl(epp->dev_fd, DKIOCGGEOM, &disk_geom)) {
109aa1b14e7SSheshadri Vasudevan return (FDISK_ENOLGEOM);
110aa1b14e7SSheshadri Vasudevan }
111aa1b14e7SSheshadri Vasudevan }
112aa1b14e7SSheshadri Vasudevan
113aa1b14e7SSheshadri Vasudevan epp->disk_geom.phys_cyl = disk_geom.dkg_ncyl;
114aa1b14e7SSheshadri Vasudevan epp->disk_geom.phys_heads = disk_geom.dkg_nhead;
115aa1b14e7SSheshadri Vasudevan epp->disk_geom.phys_sec = disk_geom.dkg_nsect;
116aa1b14e7SSheshadri Vasudevan epp->disk_geom.alt_cyl = disk_geom.dkg_acyl;
117aa1b14e7SSheshadri Vasudevan
118aa1b14e7SSheshadri Vasudevan /*
119aa1b14e7SSheshadri Vasudevan * If DKIOCGMEDIAINFO ioctl succeeds, set the dki_lbsize as the
120aa1b14e7SSheshadri Vasudevan * size of the sector, else default to 512
121aa1b14e7SSheshadri Vasudevan */
122aa1b14e7SSheshadri Vasudevan if (ioctl(epp->dev_fd, DKIOCGMEDIAINFO, (caddr_t)&disk_info) < 0) {
123aa1b14e7SSheshadri Vasudevan /* ioctl failed, falling back to default value of 512 bytes */
124aa1b14e7SSheshadri Vasudevan epp->disk_geom.sectsize = 512;
125aa1b14e7SSheshadri Vasudevan } else {
126aa1b14e7SSheshadri Vasudevan epp->disk_geom.sectsize = ((disk_info.dki_lbsize) ?
127aa1b14e7SSheshadri Vasudevan disk_info.dki_lbsize : 512);
128aa1b14e7SSheshadri Vasudevan }
129aa1b14e7SSheshadri Vasudevan
130aa1b14e7SSheshadri Vasudevan /*
131aa1b14e7SSheshadri Vasudevan * if hba geometry was not set by DKIOC_VIRTGEOM
132aa1b14e7SSheshadri Vasudevan * or we got an invalid hba geometry
133aa1b14e7SSheshadri Vasudevan * then set hba geometry based on max values
134aa1b14e7SSheshadri Vasudevan */
135aa1b14e7SSheshadri Vasudevan if (no_virtgeom_ioctl || disk_geom.dkg_ncyl == 0 ||
136aa1b14e7SSheshadri Vasudevan disk_geom.dkg_nhead == 0 || disk_geom.dkg_nsect == 0 ||
137aa1b14e7SSheshadri Vasudevan disk_geom.dkg_ncyl > MAX_CYL || disk_geom.dkg_nhead > MAX_HEAD ||
138aa1b14e7SSheshadri Vasudevan disk_geom.dkg_nsect > MAX_SECT) {
139aa1b14e7SSheshadri Vasudevan epp->disk_geom.virt_sec = MAX_SECT;
140aa1b14e7SSheshadri Vasudevan epp->disk_geom.virt_heads = MAX_HEAD + 1;
141aa1b14e7SSheshadri Vasudevan epp->disk_geom.virt_cyl = (epp->disk_geom.phys_cyl *
142aa1b14e7SSheshadri Vasudevan epp->disk_geom.phys_heads * epp->disk_geom.phys_sec) /
143aa1b14e7SSheshadri Vasudevan (epp->disk_geom.virt_sec * epp->disk_geom.virt_heads);
144aa1b14e7SSheshadri Vasudevan }
145aa1b14e7SSheshadri Vasudevan return (FDISK_SUCCESS);
146aa1b14e7SSheshadri Vasudevan }
147aa1b14e7SSheshadri Vasudevan
148aa1b14e7SSheshadri Vasudevan /*
149aa1b14e7SSheshadri Vasudevan * Initialise important members of the ext_part_t structure and
150aa1b14e7SSheshadri Vasudevan * other data structures vital to functionality of libfdisk
151aa1b14e7SSheshadri Vasudevan */
152aa1b14e7SSheshadri Vasudevan int
libfdisk_init(ext_part_t ** epp,char * devstr,struct ipart * parttab,int opflag)153aa1b14e7SSheshadri Vasudevan libfdisk_init(ext_part_t **epp, char *devstr, struct ipart *parttab, int opflag)
154aa1b14e7SSheshadri Vasudevan {
155aa1b14e7SSheshadri Vasudevan ext_part_t *temp;
156aa1b14e7SSheshadri Vasudevan struct stat sbuf;
157aa1b14e7SSheshadri Vasudevan int rval = FDISK_SUCCESS;
1586cb5747bSSharath M Srinivasan int found_bad_magic = 0;
159aa1b14e7SSheshadri Vasudevan
160aa1b14e7SSheshadri Vasudevan if ((temp = calloc(1, sizeof (ext_part_t))) == NULL) {
16102032da2SSharath M Srinivasan *epp = NULL;
162aa1b14e7SSheshadri Vasudevan return (ENOMEM);
163aa1b14e7SSheshadri Vasudevan }
164948e002cSSharath M Srinivasan
165948e002cSSharath M Srinivasan (void) strncpy(temp->device_name, devstr,
166948e002cSSharath M Srinivasan sizeof (temp->device_name));
167948e002cSSharath M Srinivasan
168948e002cSSharath M Srinivasan /* Try to stat the node as provided */
169948e002cSSharath M Srinivasan if (stat(temp->device_name, &sbuf) != 0) {
170948e002cSSharath M Srinivasan
171948e002cSSharath M Srinivasan /* Prefix /dev/rdsk/ and stat again */
172aa1b14e7SSheshadri Vasudevan (void) snprintf(temp->device_name, sizeof (temp->device_name),
173aa1b14e7SSheshadri Vasudevan "%s%s", DEFAULT_PATH_PREFIX, devstr);
174948e002cSSharath M Srinivasan
175948e002cSSharath M Srinivasan if (stat(temp->device_name, &sbuf) != 0) {
176948e002cSSharath M Srinivasan
177948e002cSSharath M Srinivasan /*
178948e002cSSharath M Srinivasan * In case of an EFI labeled disk, the device name
179948e002cSSharath M Srinivasan * could be cN[tN]dN. There is no pN. So we add "p0"
180948e002cSSharath M Srinivasan * at the end if we do not find it and stat again.
181948e002cSSharath M Srinivasan */
182948e002cSSharath M Srinivasan if (strrchr(temp->device_name, 'p') == NULL) {
183948e002cSSharath M Srinivasan (void) strcat(temp->device_name, "p0");
184948e002cSSharath M Srinivasan }
185948e002cSSharath M Srinivasan
186948e002cSSharath M Srinivasan if (stat(temp->device_name, &sbuf) != 0) {
187948e002cSSharath M Srinivasan
188948e002cSSharath M Srinivasan /* Failed all options, give up */
18902032da2SSharath M Srinivasan rval = EINVAL;
19002032da2SSharath M Srinivasan goto fail;
191948e002cSSharath M Srinivasan }
192948e002cSSharath M Srinivasan }
193aa1b14e7SSheshadri Vasudevan }
194aa1b14e7SSheshadri Vasudevan
195948e002cSSharath M Srinivasan /* Make sure the device is a raw device */
196948e002cSSharath M Srinivasan if ((sbuf.st_mode & S_IFMT) != S_IFCHR) {
19702032da2SSharath M Srinivasan rval = EINVAL;
19802032da2SSharath M Srinivasan goto fail;
199aa1b14e7SSheshadri Vasudevan }
200948e002cSSharath M Srinivasan
201aa1b14e7SSheshadri Vasudevan temp->ld_head = NULL;
202aa1b14e7SSheshadri Vasudevan temp->sorted_ld_head = NULL;
203aa1b14e7SSheshadri Vasudevan
204aa1b14e7SSheshadri Vasudevan if ((temp->dev_fd = open(temp->device_name, O_RDWR, 0666)) < 0) {
20502032da2SSharath M Srinivasan rval = EINVAL;
20602032da2SSharath M Srinivasan goto fail;
207aa1b14e7SSheshadri Vasudevan }
208aa1b14e7SSheshadri Vasudevan
209aa1b14e7SSheshadri Vasudevan if ((temp->mtable = parttab) == NULL) {
210aa1b14e7SSheshadri Vasudevan if ((rval = fdisk_init_master_part_table(temp)) !=
211aa1b14e7SSheshadri Vasudevan FDISK_SUCCESS) {
2126cb5747bSSharath M Srinivasan /*
2136cb5747bSSharath M Srinivasan * When we have no fdisk magic 0xAA55 on the disk,
2146cb5747bSSharath M Srinivasan * we return FDISK_EBADMAGIC after successfully
2156cb5747bSSharath M Srinivasan * obtaining the disk geometry.
2166cb5747bSSharath M Srinivasan */
2176cb5747bSSharath M Srinivasan if (rval != FDISK_EBADMAGIC)
21802032da2SSharath M Srinivasan goto fail;
2196cb5747bSSharath M Srinivasan else
2206cb5747bSSharath M Srinivasan found_bad_magic = 1;
221aa1b14e7SSheshadri Vasudevan }
222aa1b14e7SSheshadri Vasudevan }
223aa1b14e7SSheshadri Vasudevan
224aa1b14e7SSheshadri Vasudevan temp->op_flag = opflag;
225aa1b14e7SSheshadri Vasudevan
226aa1b14e7SSheshadri Vasudevan if ((rval = fdisk_init_disk_geom(temp)) != FDISK_SUCCESS) {
22702032da2SSharath M Srinivasan goto fail;
228aa1b14e7SSheshadri Vasudevan }
229aa1b14e7SSheshadri Vasudevan
230aa1b14e7SSheshadri Vasudevan *epp = temp;
231aa1b14e7SSheshadri Vasudevan
2326cb5747bSSharath M Srinivasan if (found_bad_magic != 0) {
2336cb5747bSSharath M Srinivasan return (FDISK_EBADMAGIC);
2346cb5747bSSharath M Srinivasan }
2356cb5747bSSharath M Srinivasan
236aa1b14e7SSheshadri Vasudevan if (opflag & FDISK_READ_DISK) {
237aa1b14e7SSheshadri Vasudevan rval = fdisk_read_extpart(*epp);
238aa1b14e7SSheshadri Vasudevan }
239aa1b14e7SSheshadri Vasudevan return (rval);
24002032da2SSharath M Srinivasan
24102032da2SSharath M Srinivasan fail:
24202032da2SSharath M Srinivasan *epp = NULL;
24302032da2SSharath M Srinivasan free(temp);
24402032da2SSharath M Srinivasan return (rval);
245aa1b14e7SSheshadri Vasudevan }
246aa1b14e7SSheshadri Vasudevan
247aa1b14e7SSheshadri Vasudevan int
libfdisk_reset(ext_part_t * epp)248aa1b14e7SSheshadri Vasudevan libfdisk_reset(ext_part_t *epp)
249aa1b14e7SSheshadri Vasudevan {
250aa1b14e7SSheshadri Vasudevan int rval = FDISK_SUCCESS;
251aa1b14e7SSheshadri Vasudevan
252aa1b14e7SSheshadri Vasudevan fdisk_free_ld_nodes(epp);
253aa1b14e7SSheshadri Vasudevan epp->first_ebr_is_null = 1;
254aa1b14e7SSheshadri Vasudevan epp->corrupt_logical_drives = 0;
255aa1b14e7SSheshadri Vasudevan epp->logical_drive_count = 0;
256aa1b14e7SSheshadri Vasudevan epp->invalid_bb_sig[0] = 0;
257aa1b14e7SSheshadri Vasudevan if (epp->op_flag & FDISK_READ_DISK) {
258aa1b14e7SSheshadri Vasudevan rval = fdisk_read_extpart(epp);
259aa1b14e7SSheshadri Vasudevan }
260aa1b14e7SSheshadri Vasudevan return (rval);
261aa1b14e7SSheshadri Vasudevan }
262aa1b14e7SSheshadri Vasudevan
263aa1b14e7SSheshadri Vasudevan void
libfdisk_fini(ext_part_t ** epp)264aa1b14e7SSheshadri Vasudevan libfdisk_fini(ext_part_t **epp)
265aa1b14e7SSheshadri Vasudevan {
26602032da2SSharath M Srinivasan if (*epp == NULL)
26702032da2SSharath M Srinivasan return;
26802032da2SSharath M Srinivasan
269aa1b14e7SSheshadri Vasudevan fdisk_free_ld_nodes(*epp);
270aa1b14e7SSheshadri Vasudevan (void) close((*epp)->dev_fd);
271aa1b14e7SSheshadri Vasudevan free(*epp);
272aa1b14e7SSheshadri Vasudevan *epp = NULL;
273aa1b14e7SSheshadri Vasudevan }
274aa1b14e7SSheshadri Vasudevan
275aa1b14e7SSheshadri Vasudevan int
fdisk_is_linux_swap(ext_part_t * epp,uint32_t part_start,uint64_t * lsm_offset)276e998e519SSheshadri Vasudevan fdisk_is_linux_swap(ext_part_t *epp, uint32_t part_start, uint64_t *lsm_offset)
277aa1b14e7SSheshadri Vasudevan {
278aa1b14e7SSheshadri Vasudevan int i;
279aa1b14e7SSheshadri Vasudevan int rval = -1;
280aa1b14e7SSheshadri Vasudevan off_t seek_offset;
281aa1b14e7SSheshadri Vasudevan uint32_t linux_pg_size;
282aa1b14e7SSheshadri Vasudevan char *buf, *linux_swap_magic;
283aa1b14e7SSheshadri Vasudevan int sec_sz = fdisk_get_disk_geom(epp, PHYSGEOM, SSIZE);
284e998e519SSheshadri Vasudevan off_t label_offset;
285e998e519SSheshadri Vasudevan
286aa1b14e7SSheshadri Vasudevan /*
287aa1b14e7SSheshadri Vasudevan * Known linux kernel page sizes
288aa1b14e7SSheshadri Vasudevan * The linux swap magic is found as the last 10 bytes of a disk chunk
289aa1b14e7SSheshadri Vasudevan * at the beginning of the linux swap partition whose size is that of
290aa1b14e7SSheshadri Vasudevan * kernel page size.
291aa1b14e7SSheshadri Vasudevan */
292aa1b14e7SSheshadri Vasudevan uint32_t linux_pg_size_arr[] = {4096, };
293aa1b14e7SSheshadri Vasudevan
294aa1b14e7SSheshadri Vasudevan if ((buf = calloc(1, sec_sz)) == NULL) {
295aa1b14e7SSheshadri Vasudevan return (ENOMEM);
296aa1b14e7SSheshadri Vasudevan }
297aa1b14e7SSheshadri Vasudevan
298e998e519SSheshadri Vasudevan /*
299e998e519SSheshadri Vasudevan * Check if there is a sane Solaris VTOC
300e998e519SSheshadri Vasudevan * If there is a valid vtoc, no need to lookup
301e998e519SSheshadri Vasudevan * for the linux swap signature.
302e998e519SSheshadri Vasudevan */
303e998e519SSheshadri Vasudevan label_offset = (part_start + DK_LABEL_LOC) * sec_sz;
304e6f8def1SShidokht Yadegari if (lseek(epp->dev_fd, label_offset, SEEK_SET) < 0) {
305e6f8def1SShidokht Yadegari rval = EIO;
306e998e519SSheshadri Vasudevan goto done;
307e6f8def1SShidokht Yadegari }
308e998e519SSheshadri Vasudevan
309e998e519SSheshadri Vasudevan if ((rval = read(epp->dev_fd, buf, sec_sz)) < sec_sz) {
310e998e519SSheshadri Vasudevan rval = EIO;
311e998e519SSheshadri Vasudevan goto done;
312e998e519SSheshadri Vasudevan }
313e998e519SSheshadri Vasudevan
314e998e519SSheshadri Vasudevan
315e998e519SSheshadri Vasudevan if ((((struct dk_label *)buf)->dkl_magic == DKL_MAGIC) &&
316e998e519SSheshadri Vasudevan (((struct dk_label *)buf)->dkl_vtoc.v_sanity == VTOC_SANE)) {
317e998e519SSheshadri Vasudevan rval = -1;
318e998e519SSheshadri Vasudevan goto done;
319e998e519SSheshadri Vasudevan }
320e998e519SSheshadri Vasudevan
321e998e519SSheshadri Vasudevan /* No valid vtoc, so check for linux swap signature */
322aa1b14e7SSheshadri Vasudevan linux_swap_magic = buf + sec_sz - LINUX_SWAP_MAGIC_LENGTH;
323aa1b14e7SSheshadri Vasudevan
324aa1b14e7SSheshadri Vasudevan for (i = 0; i < sizeof (linux_pg_size_arr)/sizeof (uint32_t); i++) {
325aa1b14e7SSheshadri Vasudevan linux_pg_size = linux_pg_size_arr[i];
326aa1b14e7SSheshadri Vasudevan seek_offset = linux_pg_size/sec_sz - 1;
327aa1b14e7SSheshadri Vasudevan seek_offset += part_start;
328aa1b14e7SSheshadri Vasudevan seek_offset *= sec_sz;
329aa1b14e7SSheshadri Vasudevan
330e6f8def1SShidokht Yadegari if (lseek(epp->dev_fd, seek_offset, SEEK_SET) < 0) {
331e6f8def1SShidokht Yadegari rval = EIO;
332aa1b14e7SSheshadri Vasudevan break;
333aa1b14e7SSheshadri Vasudevan }
334aa1b14e7SSheshadri Vasudevan
335aa1b14e7SSheshadri Vasudevan if ((rval = read(epp->dev_fd, buf, sec_sz)) < sec_sz) {
336aa1b14e7SSheshadri Vasudevan rval = EIO;
337aa1b14e7SSheshadri Vasudevan break;
338aa1b14e7SSheshadri Vasudevan }
339aa1b14e7SSheshadri Vasudevan
340aa1b14e7SSheshadri Vasudevan if ((strncmp(linux_swap_magic, "SWAP-SPACE",
341aa1b14e7SSheshadri Vasudevan LINUX_SWAP_MAGIC_LENGTH) == 0) ||
342aa1b14e7SSheshadri Vasudevan (strncmp(linux_swap_magic, "SWAPSPACE2",
343aa1b14e7SSheshadri Vasudevan LINUX_SWAP_MAGIC_LENGTH) == 0)) {
344aa1b14e7SSheshadri Vasudevan /* Found a linux swap */
345aa1b14e7SSheshadri Vasudevan rval = 0;
346e998e519SSheshadri Vasudevan if (lsm_offset != NULL)
347e998e519SSheshadri Vasudevan *lsm_offset = (uint64_t)seek_offset;
348aa1b14e7SSheshadri Vasudevan break;
349aa1b14e7SSheshadri Vasudevan }
350aa1b14e7SSheshadri Vasudevan }
351aa1b14e7SSheshadri Vasudevan
352e998e519SSheshadri Vasudevan done:
353aa1b14e7SSheshadri Vasudevan free(buf);
354aa1b14e7SSheshadri Vasudevan return (rval);
355aa1b14e7SSheshadri Vasudevan }
356aa1b14e7SSheshadri Vasudevan
357aa1b14e7SSheshadri Vasudevan int
fdisk_get_solaris_part(ext_part_t * epp,int * pnum,uint32_t * begsec,uint32_t * numsec)358aa1b14e7SSheshadri Vasudevan fdisk_get_solaris_part(ext_part_t *epp, int *pnum, uint32_t *begsec,
359aa1b14e7SSheshadri Vasudevan uint32_t *numsec)
360aa1b14e7SSheshadri Vasudevan {
361aa1b14e7SSheshadri Vasudevan logical_drive_t *temp = fdisk_get_ld_head(epp);
362aa1b14e7SSheshadri Vasudevan uint32_t part_start;
363aa1b14e7SSheshadri Vasudevan int pno;
364aa1b14e7SSheshadri Vasudevan int rval = -1;
365aa1b14e7SSheshadri Vasudevan
366aa1b14e7SSheshadri Vasudevan for (pno = 5; temp != NULL; temp = temp->next, pno++) {
367aa1b14e7SSheshadri Vasudevan if (fdisk_is_solaris_part(LE_8(temp->parts[0].systid))) {
368aa1b14e7SSheshadri Vasudevan part_start = temp->abs_secnum + temp->logdrive_offset;
369e998e519SSheshadri Vasudevan if ((temp->parts[0].systid == SUNIXOS) &&
370e998e519SSheshadri Vasudevan (fdisk_is_linux_swap(epp, part_start,
371e998e519SSheshadri Vasudevan NULL) == 0)) {
372aa1b14e7SSheshadri Vasudevan continue;
373aa1b14e7SSheshadri Vasudevan }
374aa1b14e7SSheshadri Vasudevan *pnum = pno;
375aa1b14e7SSheshadri Vasudevan *begsec = part_start;
376aa1b14e7SSheshadri Vasudevan *numsec = temp->numsect;
377aa1b14e7SSheshadri Vasudevan rval = FDISK_SUCCESS;
378aa1b14e7SSheshadri Vasudevan }
379aa1b14e7SSheshadri Vasudevan }
380aa1b14e7SSheshadri Vasudevan return (rval);
381aa1b14e7SSheshadri Vasudevan }
382aa1b14e7SSheshadri Vasudevan
383aa1b14e7SSheshadri Vasudevan int
fdisk_get_part_info(ext_part_t * epp,int pnum,uchar_t * sysid,uint32_t * begsec,uint32_t * numsec)384aa1b14e7SSheshadri Vasudevan fdisk_get_part_info(ext_part_t *epp, int pnum, uchar_t *sysid, uint32_t *begsec,
385aa1b14e7SSheshadri Vasudevan uint32_t *numsec)
386aa1b14e7SSheshadri Vasudevan {
387aa1b14e7SSheshadri Vasudevan logical_drive_t *temp = fdisk_get_ld_head(epp);
388aa1b14e7SSheshadri Vasudevan int pno;
389aa1b14e7SSheshadri Vasudevan
390aa1b14e7SSheshadri Vasudevan if ((pnum < 5) || (pnum >= MAX_EXT_PARTS + 5)) {
391aa1b14e7SSheshadri Vasudevan return (EINVAL);
392aa1b14e7SSheshadri Vasudevan }
393aa1b14e7SSheshadri Vasudevan
394aa1b14e7SSheshadri Vasudevan for (pno = 5; (pno < pnum) && (temp != NULL); temp = temp->next, pno++)
395aa1b14e7SSheshadri Vasudevan ;
396aa1b14e7SSheshadri Vasudevan
397aa1b14e7SSheshadri Vasudevan if (temp == NULL) {
398aa1b14e7SSheshadri Vasudevan return (EINVAL);
399aa1b14e7SSheshadri Vasudevan }
400aa1b14e7SSheshadri Vasudevan
401aa1b14e7SSheshadri Vasudevan *sysid = LE_8(temp->parts[0].systid);
402aa1b14e7SSheshadri Vasudevan *begsec = temp->abs_secnum + temp->logdrive_offset;
403aa1b14e7SSheshadri Vasudevan *numsec = temp->numsect;
404aa1b14e7SSheshadri Vasudevan return (FDISK_SUCCESS);
405aa1b14e7SSheshadri Vasudevan }
406aa1b14e7SSheshadri Vasudevan
407aa1b14e7SSheshadri Vasudevan /*
408aa1b14e7SSheshadri Vasudevan * Allocate a node of type logical_drive_t and return the pointer to it
409aa1b14e7SSheshadri Vasudevan */
410aa1b14e7SSheshadri Vasudevan static logical_drive_t *
fdisk_alloc_ld_node()411aa1b14e7SSheshadri Vasudevan fdisk_alloc_ld_node()
412aa1b14e7SSheshadri Vasudevan {
413aa1b14e7SSheshadri Vasudevan logical_drive_t *temp;
414aa1b14e7SSheshadri Vasudevan
415aa1b14e7SSheshadri Vasudevan if ((temp = calloc(1, sizeof (logical_drive_t))) == NULL) {
416aa1b14e7SSheshadri Vasudevan return (NULL);
417aa1b14e7SSheshadri Vasudevan }
418aa1b14e7SSheshadri Vasudevan temp->next = NULL;
419aa1b14e7SSheshadri Vasudevan return (temp);
420aa1b14e7SSheshadri Vasudevan }
421aa1b14e7SSheshadri Vasudevan
422aa1b14e7SSheshadri Vasudevan /*
423aa1b14e7SSheshadri Vasudevan * Free all the logical_drive_t's allocated during the run
424aa1b14e7SSheshadri Vasudevan */
425aa1b14e7SSheshadri Vasudevan static void
fdisk_free_ld_nodes(ext_part_t * epp)426aa1b14e7SSheshadri Vasudevan fdisk_free_ld_nodes(ext_part_t *epp)
427aa1b14e7SSheshadri Vasudevan {
428aa1b14e7SSheshadri Vasudevan logical_drive_t *temp;
429aa1b14e7SSheshadri Vasudevan
430aa1b14e7SSheshadri Vasudevan for (temp = epp->ld_head; temp != NULL; ) {
431aa1b14e7SSheshadri Vasudevan temp = epp->ld_head -> next;
432aa1b14e7SSheshadri Vasudevan free(epp->ld_head);
433aa1b14e7SSheshadri Vasudevan epp->ld_head = temp;
434aa1b14e7SSheshadri Vasudevan }
435aa1b14e7SSheshadri Vasudevan epp->ld_head = NULL;
436aa1b14e7SSheshadri Vasudevan epp->sorted_ld_head = NULL;
437aa1b14e7SSheshadri Vasudevan }
438aa1b14e7SSheshadri Vasudevan
439aa1b14e7SSheshadri Vasudevan /*
440aa1b14e7SSheshadri Vasudevan * Find the first free sector within the extended partition
441aa1b14e7SSheshadri Vasudevan */
442aa1b14e7SSheshadri Vasudevan int
fdisk_ext_find_first_free_sec(ext_part_t * epp,uint32_t * first_free_sec)443aa1b14e7SSheshadri Vasudevan fdisk_ext_find_first_free_sec(ext_part_t *epp, uint32_t *first_free_sec)
444aa1b14e7SSheshadri Vasudevan {
445aa1b14e7SSheshadri Vasudevan logical_drive_t *temp;
446aa1b14e7SSheshadri Vasudevan uint32_t last_free_sec;
447aa1b14e7SSheshadri Vasudevan
448aa1b14e7SSheshadri Vasudevan *first_free_sec = epp->ext_beg_sec;
449aa1b14e7SSheshadri Vasudevan
450aa1b14e7SSheshadri Vasudevan if (epp->ld_head == NULL) {
451aa1b14e7SSheshadri Vasudevan return (FDISK_SUCCESS);
452aa1b14e7SSheshadri Vasudevan }
453aa1b14e7SSheshadri Vasudevan
454aa1b14e7SSheshadri Vasudevan /*
455aa1b14e7SSheshadri Vasudevan * When the first logical drive is out of order, we need to adjust
456aa1b14e7SSheshadri Vasudevan * first_free_sec accordingly. In this case, the first extended
457aa1b14e7SSheshadri Vasudevan * partition sector is not free even though the actual logical drive
458aa1b14e7SSheshadri Vasudevan * does not occupy space from the beginning of the extended partition.
459aa1b14e7SSheshadri Vasudevan * The next free sector would be the second sector of the extended
460aa1b14e7SSheshadri Vasudevan * partition.
461aa1b14e7SSheshadri Vasudevan */
462aa1b14e7SSheshadri Vasudevan if (epp->ld_head->abs_secnum > epp->ext_beg_sec +
463aa1b14e7SSheshadri Vasudevan MAX_LOGDRIVE_OFFSET) {
464aa1b14e7SSheshadri Vasudevan (*first_free_sec)++;
465aa1b14e7SSheshadri Vasudevan }
466aa1b14e7SSheshadri Vasudevan
467aa1b14e7SSheshadri Vasudevan while (*first_free_sec <= epp->ext_end_sec) {
468aa1b14e7SSheshadri Vasudevan for (temp = epp->sorted_ld_head; temp != NULL; temp =
469aa1b14e7SSheshadri Vasudevan temp->sorted_next) {
470aa1b14e7SSheshadri Vasudevan if (temp->abs_secnum == *first_free_sec) {
471aa1b14e7SSheshadri Vasudevan *first_free_sec = temp->abs_secnum +
472aa1b14e7SSheshadri Vasudevan temp->logdrive_offset + temp->numsect;
473aa1b14e7SSheshadri Vasudevan }
474aa1b14e7SSheshadri Vasudevan }
475aa1b14e7SSheshadri Vasudevan
476aa1b14e7SSheshadri Vasudevan last_free_sec = fdisk_ext_find_last_free_sec(epp,
477aa1b14e7SSheshadri Vasudevan *first_free_sec);
478aa1b14e7SSheshadri Vasudevan
479aa1b14e7SSheshadri Vasudevan if ((last_free_sec - *first_free_sec) < MAX_LOGDRIVE_OFFSET) {
480aa1b14e7SSheshadri Vasudevan /*
481aa1b14e7SSheshadri Vasudevan * Minimum size of a partition assumed to be atleast one
482aa1b14e7SSheshadri Vasudevan * sector.
483aa1b14e7SSheshadri Vasudevan */
484aa1b14e7SSheshadri Vasudevan *first_free_sec = last_free_sec + 1;
485aa1b14e7SSheshadri Vasudevan continue;
486aa1b14e7SSheshadri Vasudevan }
487aa1b14e7SSheshadri Vasudevan
488aa1b14e7SSheshadri Vasudevan break;
489aa1b14e7SSheshadri Vasudevan }
490aa1b14e7SSheshadri Vasudevan
491aa1b14e7SSheshadri Vasudevan if (*first_free_sec > epp->ext_end_sec) {
492aa1b14e7SSheshadri Vasudevan return (FDISK_EOOBOUND);
493aa1b14e7SSheshadri Vasudevan }
494aa1b14e7SSheshadri Vasudevan
495aa1b14e7SSheshadri Vasudevan return (FDISK_SUCCESS);
496aa1b14e7SSheshadri Vasudevan }
497aa1b14e7SSheshadri Vasudevan
498aa1b14e7SSheshadri Vasudevan /*
499aa1b14e7SSheshadri Vasudevan * Find the last free sector within the extended partition given, a beginning
500aa1b14e7SSheshadri Vasudevan * sector (so that the range - "begsec to last_free_sec" is contiguous)
501aa1b14e7SSheshadri Vasudevan */
502aa1b14e7SSheshadri Vasudevan uint32_t
fdisk_ext_find_last_free_sec(ext_part_t * epp,uint32_t begsec)503aa1b14e7SSheshadri Vasudevan fdisk_ext_find_last_free_sec(ext_part_t *epp, uint32_t begsec)
504aa1b14e7SSheshadri Vasudevan {
505aa1b14e7SSheshadri Vasudevan logical_drive_t *temp;
506aa1b14e7SSheshadri Vasudevan uint32_t last_free_sec;
507aa1b14e7SSheshadri Vasudevan
508aa1b14e7SSheshadri Vasudevan last_free_sec = epp->ext_end_sec;
509aa1b14e7SSheshadri Vasudevan for (temp = epp->sorted_ld_head; temp != NULL;
510aa1b14e7SSheshadri Vasudevan temp = temp->sorted_next) {
511aa1b14e7SSheshadri Vasudevan if (temp->abs_secnum > begsec) {
512aa1b14e7SSheshadri Vasudevan last_free_sec = temp->abs_secnum - 1;
513aa1b14e7SSheshadri Vasudevan break;
514aa1b14e7SSheshadri Vasudevan }
515aa1b14e7SSheshadri Vasudevan }
516aa1b14e7SSheshadri Vasudevan return (last_free_sec);
517aa1b14e7SSheshadri Vasudevan }
518aa1b14e7SSheshadri Vasudevan
519aa1b14e7SSheshadri Vasudevan /*
520aa1b14e7SSheshadri Vasudevan * Place the given ext_part_t structure in a sorted list, sorted in the
521aa1b14e7SSheshadri Vasudevan * ascending order of their beginning sectors.
522aa1b14e7SSheshadri Vasudevan */
523aa1b14e7SSheshadri Vasudevan static void
fdisk_ext_place_in_sorted_list(ext_part_t * epp,logical_drive_t * newld)524aa1b14e7SSheshadri Vasudevan fdisk_ext_place_in_sorted_list(ext_part_t *epp, logical_drive_t *newld)
525aa1b14e7SSheshadri Vasudevan {
526aa1b14e7SSheshadri Vasudevan logical_drive_t *pre, *cur;
527aa1b14e7SSheshadri Vasudevan
528aa1b14e7SSheshadri Vasudevan if (newld->abs_secnum < epp->sorted_ld_head->abs_secnum) {
529aa1b14e7SSheshadri Vasudevan newld->sorted_next = epp->sorted_ld_head;
530aa1b14e7SSheshadri Vasudevan epp->sorted_ld_head = newld;
531aa1b14e7SSheshadri Vasudevan return;
532aa1b14e7SSheshadri Vasudevan }
533aa1b14e7SSheshadri Vasudevan pre = cur = epp->sorted_ld_head;
534aa1b14e7SSheshadri Vasudevan
535aa1b14e7SSheshadri Vasudevan for (; cur != NULL; pre = cur, cur = cur->sorted_next) {
536aa1b14e7SSheshadri Vasudevan if (newld->abs_secnum < cur->abs_secnum) {
537aa1b14e7SSheshadri Vasudevan break;
538aa1b14e7SSheshadri Vasudevan }
539aa1b14e7SSheshadri Vasudevan }
540aa1b14e7SSheshadri Vasudevan
541aa1b14e7SSheshadri Vasudevan newld->sorted_next = cur;
542aa1b14e7SSheshadri Vasudevan pre->sorted_next = newld;
543aa1b14e7SSheshadri Vasudevan }
544aa1b14e7SSheshadri Vasudevan
545aa1b14e7SSheshadri Vasudevan static void
fdisk_ext_remove_from_sorted_list(ext_part_t * epp,logical_drive_t * delld)546aa1b14e7SSheshadri Vasudevan fdisk_ext_remove_from_sorted_list(ext_part_t *epp, logical_drive_t *delld)
547aa1b14e7SSheshadri Vasudevan {
548aa1b14e7SSheshadri Vasudevan logical_drive_t *pre, *cur;
549aa1b14e7SSheshadri Vasudevan
550aa1b14e7SSheshadri Vasudevan if (delld == epp->sorted_ld_head) {
551aa1b14e7SSheshadri Vasudevan epp->sorted_ld_head = delld->sorted_next;
552aa1b14e7SSheshadri Vasudevan return;
553aa1b14e7SSheshadri Vasudevan }
554aa1b14e7SSheshadri Vasudevan
555aa1b14e7SSheshadri Vasudevan pre = cur = epp->sorted_ld_head;
556aa1b14e7SSheshadri Vasudevan
557aa1b14e7SSheshadri Vasudevan for (; cur != NULL; pre = cur, cur = cur->sorted_next) {
558aa1b14e7SSheshadri Vasudevan if (cur->abs_secnum == delld->abs_secnum) {
559aa1b14e7SSheshadri Vasudevan /* Found */
560aa1b14e7SSheshadri Vasudevan break;
561aa1b14e7SSheshadri Vasudevan }
562aa1b14e7SSheshadri Vasudevan }
563aa1b14e7SSheshadri Vasudevan
564aa1b14e7SSheshadri Vasudevan pre->sorted_next = cur->sorted_next;
565aa1b14e7SSheshadri Vasudevan }
566aa1b14e7SSheshadri Vasudevan
567aa1b14e7SSheshadri Vasudevan static int
fdisk_ext_overlapping_parts(ext_part_t * epp,uint32_t begsec,uint32_t endsec)568aa1b14e7SSheshadri Vasudevan fdisk_ext_overlapping_parts(ext_part_t *epp, uint32_t begsec, uint32_t endsec)
569aa1b14e7SSheshadri Vasudevan {
570aa1b14e7SSheshadri Vasudevan logical_drive_t *temp;
571aa1b14e7SSheshadri Vasudevan uint32_t firstsec, lastsec, last_free_sec;
572aa1b14e7SSheshadri Vasudevan
573aa1b14e7SSheshadri Vasudevan for (temp = epp->ld_head; temp != NULL; temp = temp->next) {
574aa1b14e7SSheshadri Vasudevan firstsec = temp->abs_secnum;
575aa1b14e7SSheshadri Vasudevan lastsec = firstsec + temp->logdrive_offset + temp->numsect - 1;
576aa1b14e7SSheshadri Vasudevan if ((begsec >= firstsec) &&
577aa1b14e7SSheshadri Vasudevan (begsec <= lastsec)) {
578aa1b14e7SSheshadri Vasudevan return (1);
579aa1b14e7SSheshadri Vasudevan }
580aa1b14e7SSheshadri Vasudevan }
581aa1b14e7SSheshadri Vasudevan
582aa1b14e7SSheshadri Vasudevan /*
583aa1b14e7SSheshadri Vasudevan * Find the maximum possible end sector value
584aa1b14e7SSheshadri Vasudevan * given a beginning sector value
585aa1b14e7SSheshadri Vasudevan */
586aa1b14e7SSheshadri Vasudevan last_free_sec = fdisk_ext_find_last_free_sec(epp, begsec);
587aa1b14e7SSheshadri Vasudevan
588aa1b14e7SSheshadri Vasudevan if (endsec > last_free_sec) {
589aa1b14e7SSheshadri Vasudevan return (1);
590aa1b14e7SSheshadri Vasudevan }
591aa1b14e7SSheshadri Vasudevan return (0);
592aa1b14e7SSheshadri Vasudevan }
593aa1b14e7SSheshadri Vasudevan
594aa1b14e7SSheshadri Vasudevan /*
595aa1b14e7SSheshadri Vasudevan * Check if the logical drive boundaries are sane
596aa1b14e7SSheshadri Vasudevan */
597aa1b14e7SSheshadri Vasudevan int
fdisk_validate_logical_drive(ext_part_t * epp,uint32_t begsec,uint32_t offset,uint32_t numsec)598aa1b14e7SSheshadri Vasudevan fdisk_validate_logical_drive(ext_part_t *epp, uint32_t begsec,
599aa1b14e7SSheshadri Vasudevan uint32_t offset, uint32_t numsec)
600aa1b14e7SSheshadri Vasudevan {
601aa1b14e7SSheshadri Vasudevan uint32_t endsec;
602aa1b14e7SSheshadri Vasudevan
603aa1b14e7SSheshadri Vasudevan endsec = begsec + offset + numsec - 1;
604aa1b14e7SSheshadri Vasudevan if (begsec < epp->ext_beg_sec ||
605aa1b14e7SSheshadri Vasudevan begsec > epp->ext_end_sec ||
606aa1b14e7SSheshadri Vasudevan endsec < epp->ext_beg_sec ||
607aa1b14e7SSheshadri Vasudevan endsec > epp->ext_end_sec ||
608aa1b14e7SSheshadri Vasudevan endsec < begsec ||
609aa1b14e7SSheshadri Vasudevan fdisk_ext_overlapping_parts(epp, begsec, endsec)) {
610aa1b14e7SSheshadri Vasudevan return (1);
611aa1b14e7SSheshadri Vasudevan }
612aa1b14e7SSheshadri Vasudevan
613aa1b14e7SSheshadri Vasudevan return (0);
614aa1b14e7SSheshadri Vasudevan }
615aa1b14e7SSheshadri Vasudevan
616aa1b14e7SSheshadri Vasudevan /*
617aa1b14e7SSheshadri Vasudevan * Procedure to walk through the extended partitions and build a Singly
618aa1b14e7SSheshadri Vasudevan * Linked List out of the data.
619aa1b14e7SSheshadri Vasudevan */
6206cb5747bSSharath M Srinivasan static int
fdisk_read_extpart(ext_part_t * epp)621aa1b14e7SSheshadri Vasudevan fdisk_read_extpart(ext_part_t *epp)
622aa1b14e7SSheshadri Vasudevan {
623aa1b14e7SSheshadri Vasudevan struct ipart *fdp, *ext_fdp;
624aa1b14e7SSheshadri Vasudevan int i = 0, j = 0, ext_part_found = 0, lpart = 5;
625aa1b14e7SSheshadri Vasudevan off_t secnum, offset;
626aa1b14e7SSheshadri Vasudevan logical_drive_t *temp, *ep_ptr;
627aa1b14e7SSheshadri Vasudevan unsigned char *ext_buf;
628aa1b14e7SSheshadri Vasudevan int sectsize = epp->disk_geom.sectsize;
629aa1b14e7SSheshadri Vasudevan
630aa1b14e7SSheshadri Vasudevan if ((ext_buf = (uchar_t *)malloc(sectsize)) == NULL) {
631aa1b14e7SSheshadri Vasudevan return (ENOMEM);
632aa1b14e7SSheshadri Vasudevan }
633aa1b14e7SSheshadri Vasudevan fdp = epp->mtable;
634aa1b14e7SSheshadri Vasudevan
635aa1b14e7SSheshadri Vasudevan for (i = 0; (i < FD_NUMPART) && (!ext_part_found); i++, fdp++) {
636aa1b14e7SSheshadri Vasudevan if (fdisk_is_dos_extended(LE_8(fdp->systid))) {
637aa1b14e7SSheshadri Vasudevan ext_part_found = 1;
638aa1b14e7SSheshadri Vasudevan secnum = LE_32(fdp->relsect);
639aa1b14e7SSheshadri Vasudevan offset = secnum * sectsize;
640aa1b14e7SSheshadri Vasudevan epp->ext_beg_sec = secnum;
641aa1b14e7SSheshadri Vasudevan epp->ext_end_sec = secnum + LE_32(fdp->numsect) - 1;
642aa1b14e7SSheshadri Vasudevan epp->ext_beg_cyl =
643aa1b14e7SSheshadri Vasudevan FDISK_SECT_TO_CYL(epp, epp->ext_beg_sec);
644aa1b14e7SSheshadri Vasudevan epp->ext_end_cyl =
645aa1b14e7SSheshadri Vasudevan FDISK_SECT_TO_CYL(epp, epp->ext_end_sec);
646aa1b14e7SSheshadri Vasudevan
647aa1b14e7SSheshadri Vasudevan /*LINTED*/
648aa1b14e7SSheshadri Vasudevan while (B_TRUE) {
649aa1b14e7SSheshadri Vasudevan if (lseek(epp->dev_fd, offset, SEEK_SET) < 0) {
650aa1b14e7SSheshadri Vasudevan return (EIO);
651aa1b14e7SSheshadri Vasudevan }
652aa1b14e7SSheshadri Vasudevan if (read(epp->dev_fd, ext_buf, sectsize) <
653aa1b14e7SSheshadri Vasudevan sectsize) {
654aa1b14e7SSheshadri Vasudevan return (EIO);
655aa1b14e7SSheshadri Vasudevan }
656aa1b14e7SSheshadri Vasudevan /*LINTED*/
657aa1b14e7SSheshadri Vasudevan ext_fdp = (struct ipart *)
658aa1b14e7SSheshadri Vasudevan (&ext_buf[FDISK_PART_TABLE_START]);
659aa1b14e7SSheshadri Vasudevan if ((LE_32(ext_fdp->relsect) == 0) &&
660aa1b14e7SSheshadri Vasudevan (epp->logical_drive_count == 0)) {
661aa1b14e7SSheshadri Vasudevan /* No logical drives defined */
662aa1b14e7SSheshadri Vasudevan epp->first_ebr_is_null = 0;
663aa1b14e7SSheshadri Vasudevan return (FDISK_ENOLOGDRIVE);
664aa1b14e7SSheshadri Vasudevan }
665aa1b14e7SSheshadri Vasudevan
666aa1b14e7SSheshadri Vasudevan temp = fdisk_alloc_ld_node();
667aa1b14e7SSheshadri Vasudevan temp->abs_secnum = secnum;
668aa1b14e7SSheshadri Vasudevan temp->logdrive_offset =
669aa1b14e7SSheshadri Vasudevan LE_32(ext_fdp->relsect);
670aa1b14e7SSheshadri Vasudevan temp ->numsect = LE_32(ext_fdp->numsect);
671aa1b14e7SSheshadri Vasudevan if (epp->ld_head == NULL) {
672aa1b14e7SSheshadri Vasudevan /* adding first logical drive */
673aa1b14e7SSheshadri Vasudevan if (temp->logdrive_offset >
674aa1b14e7SSheshadri Vasudevan MAX_LOGDRIVE_OFFSET) {
675aa1b14e7SSheshadri Vasudevan /* out of order */
676aa1b14e7SSheshadri Vasudevan temp->abs_secnum +=
677aa1b14e7SSheshadri Vasudevan temp->logdrive_offset;
678aa1b14e7SSheshadri Vasudevan temp->logdrive_offset = 0;
679aa1b14e7SSheshadri Vasudevan }
680aa1b14e7SSheshadri Vasudevan }
681aa1b14e7SSheshadri Vasudevan temp->begcyl =
682aa1b14e7SSheshadri Vasudevan FDISK_SECT_TO_CYL(epp, temp->abs_secnum);
683aa1b14e7SSheshadri Vasudevan temp->endcyl = FDISK_SECT_TO_CYL(epp,
684aa1b14e7SSheshadri Vasudevan temp->abs_secnum +
685aa1b14e7SSheshadri Vasudevan temp->logdrive_offset +
686aa1b14e7SSheshadri Vasudevan temp->numsect - 1);
687aa1b14e7SSheshadri Vasudevan
688aa1b14e7SSheshadri Vasudevan /*
689aa1b14e7SSheshadri Vasudevan * Check for sanity of logical drives
690aa1b14e7SSheshadri Vasudevan */
691aa1b14e7SSheshadri Vasudevan if (fdisk_validate_logical_drive(epp,
692aa1b14e7SSheshadri Vasudevan temp->abs_secnum, temp->logdrive_offset,
693aa1b14e7SSheshadri Vasudevan temp->numsect)) {
694aa1b14e7SSheshadri Vasudevan epp->corrupt_logical_drives = 1;
695aa1b14e7SSheshadri Vasudevan free(temp);
696aa1b14e7SSheshadri Vasudevan return (FDISK_EBADLOGDRIVE);
697aa1b14e7SSheshadri Vasudevan }
698aa1b14e7SSheshadri Vasudevan
699aa1b14e7SSheshadri Vasudevan temp->parts[0] = *ext_fdp;
700aa1b14e7SSheshadri Vasudevan ext_fdp++;
701aa1b14e7SSheshadri Vasudevan temp->parts[1] = *ext_fdp;
702aa1b14e7SSheshadri Vasudevan
703aa1b14e7SSheshadri Vasudevan if (epp->ld_head == NULL) {
704aa1b14e7SSheshadri Vasudevan epp->ld_head = temp;
705aa1b14e7SSheshadri Vasudevan epp->sorted_ld_head = temp;
706aa1b14e7SSheshadri Vasudevan ep_ptr = temp;
707aa1b14e7SSheshadri Vasudevan epp->logical_drive_count = 1;
708aa1b14e7SSheshadri Vasudevan } else {
709aa1b14e7SSheshadri Vasudevan ep_ptr->next = temp;
710aa1b14e7SSheshadri Vasudevan ep_ptr = temp;
711aa1b14e7SSheshadri Vasudevan fdisk_ext_place_in_sorted_list(epp,
712aa1b14e7SSheshadri Vasudevan temp);
713aa1b14e7SSheshadri Vasudevan epp->logical_drive_count++;
714aa1b14e7SSheshadri Vasudevan }
715aa1b14e7SSheshadri Vasudevan
716aa1b14e7SSheshadri Vasudevan /*LINTED*/
717aa1b14e7SSheshadri Vasudevan if (LE_16((*(uint16_t *)&ext_buf[510])) !=
718aa1b14e7SSheshadri Vasudevan MBB_MAGIC) {
719aa1b14e7SSheshadri Vasudevan epp->invalid_bb_sig[j++] = lpart;
720aa1b14e7SSheshadri Vasudevan temp->modified = FDISK_MINOR_WRITE;
721aa1b14e7SSheshadri Vasudevan }
722aa1b14e7SSheshadri Vasudevan
723aa1b14e7SSheshadri Vasudevan if (LE_32(ext_fdp->relsect) == 0)
724aa1b14e7SSheshadri Vasudevan break;
725aa1b14e7SSheshadri Vasudevan else {
726aa1b14e7SSheshadri Vasudevan secnum = LE_32(fdp->relsect) +
727aa1b14e7SSheshadri Vasudevan LE_32(ext_fdp->relsect);
728aa1b14e7SSheshadri Vasudevan offset = secnum * sectsize;
729aa1b14e7SSheshadri Vasudevan }
730aa1b14e7SSheshadri Vasudevan lpart++;
731aa1b14e7SSheshadri Vasudevan }
732aa1b14e7SSheshadri Vasudevan }
733aa1b14e7SSheshadri Vasudevan }
734aa1b14e7SSheshadri Vasudevan return (FDISK_SUCCESS);
735aa1b14e7SSheshadri Vasudevan }
736aa1b14e7SSheshadri Vasudevan
737aa1b14e7SSheshadri Vasudevan static int
fdisk_init_master_part_table(ext_part_t * epp)738aa1b14e7SSheshadri Vasudevan fdisk_init_master_part_table(ext_part_t *epp)
739aa1b14e7SSheshadri Vasudevan {
740aa1b14e7SSheshadri Vasudevan int rval;
741aa1b14e7SSheshadri Vasudevan if ((epp->mtable = fdisk_alloc_part_table()) == NULL) {
742aa1b14e7SSheshadri Vasudevan return (ENOMEM);
743aa1b14e7SSheshadri Vasudevan }
744aa1b14e7SSheshadri Vasudevan rval = fdisk_read_master_part_table(epp);
745aa1b14e7SSheshadri Vasudevan if (rval) {
746aa1b14e7SSheshadri Vasudevan return (rval);
747aa1b14e7SSheshadri Vasudevan }
748aa1b14e7SSheshadri Vasudevan return (FDISK_SUCCESS);
749aa1b14e7SSheshadri Vasudevan }
750aa1b14e7SSheshadri Vasudevan
751aa1b14e7SSheshadri Vasudevan static struct ipart *
fdisk_alloc_part_table()752aa1b14e7SSheshadri Vasudevan fdisk_alloc_part_table()
753aa1b14e7SSheshadri Vasudevan {
754aa1b14e7SSheshadri Vasudevan int size = sizeof (struct ipart);
755aa1b14e7SSheshadri Vasudevan struct ipart *table;
756aa1b14e7SSheshadri Vasudevan
757aa1b14e7SSheshadri Vasudevan if ((table = calloc(4, size)) == NULL) {
758aa1b14e7SSheshadri Vasudevan return (NULL);
759aa1b14e7SSheshadri Vasudevan }
760aa1b14e7SSheshadri Vasudevan
761aa1b14e7SSheshadri Vasudevan return (table);
762aa1b14e7SSheshadri Vasudevan }
763aa1b14e7SSheshadri Vasudevan
764aa1b14e7SSheshadri Vasudevan /*
765aa1b14e7SSheshadri Vasudevan * Reads the master fdisk partition table from the device assuming that it has
766aa1b14e7SSheshadri Vasudevan * a valid table.
767aa1b14e7SSheshadri Vasudevan * MBR is supposed to be of 512 bytes no matter what the device block size is.
768aa1b14e7SSheshadri Vasudevan */
769aa1b14e7SSheshadri Vasudevan static int
fdisk_read_master_part_table(ext_part_t * epp)770aa1b14e7SSheshadri Vasudevan fdisk_read_master_part_table(ext_part_t *epp)
771aa1b14e7SSheshadri Vasudevan {
7728533946bSYouzhong Yang struct dk_minfo_ext dkmp_ext;
773*31358b0dSYouzhong Yang struct dk_minfo dkmp;
7748533946bSYouzhong Yang uchar_t *buf;
7758533946bSYouzhong Yang int sectsize;
776aa1b14e7SSheshadri Vasudevan int size = sizeof (struct ipart);
777aa1b14e7SSheshadri Vasudevan int cpcnt = FD_NUMPART * size;
778aa1b14e7SSheshadri Vasudevan
779aa1b14e7SSheshadri Vasudevan if (lseek(epp->dev_fd, 0, SEEK_SET) < 0) {
780aa1b14e7SSheshadri Vasudevan return (EIO);
781aa1b14e7SSheshadri Vasudevan }
7828533946bSYouzhong Yang if (ioctl(epp->dev_fd, DKIOCGMEDIAINFOEXT, &dkmp_ext) < 0) {
783*31358b0dSYouzhong Yang if (ioctl(epp->dev_fd, DKIOCGMEDIAINFO, &dkmp) < 0) {
784*31358b0dSYouzhong Yang return (EIO);
785*31358b0dSYouzhong Yang }
786*31358b0dSYouzhong Yang sectsize = dkmp.dki_lbsize;
787*31358b0dSYouzhong Yang } else {
788*31358b0dSYouzhong Yang sectsize = dkmp_ext.dki_lbsize;
7898533946bSYouzhong Yang }
790*31358b0dSYouzhong Yang if (sectsize < 512) {
7918533946bSYouzhong Yang return (EIO);
7928533946bSYouzhong Yang }
7938533946bSYouzhong Yang buf = calloc(sectsize, sizeof (uchar_t));
7948533946bSYouzhong Yang if (buf == NULL) {
7958533946bSYouzhong Yang return (ENOMEM);
7968533946bSYouzhong Yang }
797aa1b14e7SSheshadri Vasudevan if (read(epp->dev_fd, buf, sectsize) < sectsize) {
7988533946bSYouzhong Yang free(buf);
799aa1b14e7SSheshadri Vasudevan return (EIO);
800aa1b14e7SSheshadri Vasudevan }
801aa1b14e7SSheshadri Vasudevan
802aa1b14e7SSheshadri Vasudevan /*LINTED*/
803aa1b14e7SSheshadri Vasudevan if (LE_16((*(uint16_t *)&buf[510])) != MBB_MAGIC) {
8046cb5747bSSharath M Srinivasan bzero(epp->mtable, cpcnt);
8058533946bSYouzhong Yang free(buf);
806aa1b14e7SSheshadri Vasudevan return (FDISK_EBADMAGIC);
807aa1b14e7SSheshadri Vasudevan }
808aa1b14e7SSheshadri Vasudevan
8096cb5747bSSharath M Srinivasan bcopy(&buf[FDISK_PART_TABLE_START], epp->mtable, cpcnt);
8108533946bSYouzhong Yang free(buf);
8116cb5747bSSharath M Srinivasan
812aa1b14e7SSheshadri Vasudevan return (FDISK_SUCCESS);
813aa1b14e7SSheshadri Vasudevan }
814aa1b14e7SSheshadri Vasudevan
815aa1b14e7SSheshadri Vasudevan int
fdisk_ext_part_exists(ext_part_t * epp)816aa1b14e7SSheshadri Vasudevan fdisk_ext_part_exists(ext_part_t *epp)
817aa1b14e7SSheshadri Vasudevan {
818aa1b14e7SSheshadri Vasudevan int i;
819aa1b14e7SSheshadri Vasudevan struct ipart *part_table = epp->mtable;
820aa1b14e7SSheshadri Vasudevan
821aa1b14e7SSheshadri Vasudevan if (part_table == NULL) {
822aa1b14e7SSheshadri Vasudevan /* No extended partition found */
823aa1b14e7SSheshadri Vasudevan return (0);
824aa1b14e7SSheshadri Vasudevan }
825aa1b14e7SSheshadri Vasudevan
826aa1b14e7SSheshadri Vasudevan for (i = 0; i < FD_NUMPART; i++) {
827aa1b14e7SSheshadri Vasudevan if (fdisk_is_dos_extended(LE_8(part_table[i].systid))) {
828aa1b14e7SSheshadri Vasudevan break;
829aa1b14e7SSheshadri Vasudevan }
830aa1b14e7SSheshadri Vasudevan }
831aa1b14e7SSheshadri Vasudevan
832aa1b14e7SSheshadri Vasudevan if (i == FD_NUMPART) {
833aa1b14e7SSheshadri Vasudevan /* No extended partition found */
834aa1b14e7SSheshadri Vasudevan return (0);
835aa1b14e7SSheshadri Vasudevan }
836aa1b14e7SSheshadri Vasudevan return (1);
837aa1b14e7SSheshadri Vasudevan }
838aa1b14e7SSheshadri Vasudevan
839aa1b14e7SSheshadri Vasudevan int
fdisk_ext_validate_part_start(ext_part_t * epp,uint32_t begcyl,uint32_t * begsec)840aa1b14e7SSheshadri Vasudevan fdisk_ext_validate_part_start(ext_part_t *epp, uint32_t begcyl,
841aa1b14e7SSheshadri Vasudevan uint32_t *begsec)
842aa1b14e7SSheshadri Vasudevan {
843aa1b14e7SSheshadri Vasudevan logical_drive_t *temp;
844aa1b14e7SSheshadri Vasudevan uint32_t first_free_sec;
845aa1b14e7SSheshadri Vasudevan uint32_t first_free_cyl;
846aa1b14e7SSheshadri Vasudevan int rval;
847aa1b14e7SSheshadri Vasudevan
848aa1b14e7SSheshadri Vasudevan rval = fdisk_ext_find_first_free_sec(epp, &first_free_sec);
849aa1b14e7SSheshadri Vasudevan if (rval != FDISK_SUCCESS) {
850aa1b14e7SSheshadri Vasudevan return (rval);
851aa1b14e7SSheshadri Vasudevan }
852aa1b14e7SSheshadri Vasudevan
853aa1b14e7SSheshadri Vasudevan first_free_cyl = FDISK_SECT_TO_CYL(epp, first_free_sec);
854aa1b14e7SSheshadri Vasudevan if (begcyl == first_free_cyl) {
855aa1b14e7SSheshadri Vasudevan *begsec = first_free_sec;
856aa1b14e7SSheshadri Vasudevan return (FDISK_SUCCESS);
857aa1b14e7SSheshadri Vasudevan }
858aa1b14e7SSheshadri Vasudevan
859aa1b14e7SSheshadri Vasudevan /* Check if the cylinder number is beyond the extended partition */
860aa1b14e7SSheshadri Vasudevan if ((begcyl < epp->ext_beg_cyl) || (begcyl > epp->ext_end_cyl)) {
861aa1b14e7SSheshadri Vasudevan return (FDISK_EOOBOUND);
862aa1b14e7SSheshadri Vasudevan }
863aa1b14e7SSheshadri Vasudevan
864aa1b14e7SSheshadri Vasudevan for (temp = epp->ld_head; temp != NULL; temp = temp->next) {
865aa1b14e7SSheshadri Vasudevan if ((begcyl >= temp->begcyl) &&
866aa1b14e7SSheshadri Vasudevan (begcyl <= temp->endcyl)) {
867aa1b14e7SSheshadri Vasudevan return (FDISK_EOVERLAP);
868aa1b14e7SSheshadri Vasudevan }
869aa1b14e7SSheshadri Vasudevan }
870aa1b14e7SSheshadri Vasudevan *begsec = FDISK_CYL_TO_SECT(epp, begcyl);
871aa1b14e7SSheshadri Vasudevan
872aa1b14e7SSheshadri Vasudevan return (FDISK_SUCCESS);
873aa1b14e7SSheshadri Vasudevan }
874aa1b14e7SSheshadri Vasudevan
875aa1b14e7SSheshadri Vasudevan void
fdisk_change_logical_drive_id(ext_part_t * epp,int pno,uchar_t partid)876aa1b14e7SSheshadri Vasudevan fdisk_change_logical_drive_id(ext_part_t *epp, int pno, uchar_t partid)
877aa1b14e7SSheshadri Vasudevan {
878aa1b14e7SSheshadri Vasudevan logical_drive_t *temp;
879aa1b14e7SSheshadri Vasudevan int i;
880aa1b14e7SSheshadri Vasudevan
881aa1b14e7SSheshadri Vasudevan i = FD_NUMPART + 1;
882aa1b14e7SSheshadri Vasudevan for (temp = epp->ld_head; i < pno; temp = temp->next, i++)
883aa1b14e7SSheshadri Vasudevan ;
884aa1b14e7SSheshadri Vasudevan
885aa1b14e7SSheshadri Vasudevan temp->parts[0].systid = LE_8(partid);
886aa1b14e7SSheshadri Vasudevan temp->modified = FDISK_MAJOR_WRITE;
887aa1b14e7SSheshadri Vasudevan }
888aa1b14e7SSheshadri Vasudevan
889aa1b14e7SSheshadri Vasudevan /*
890aa1b14e7SSheshadri Vasudevan * A couple of special scenarios :
891aa1b14e7SSheshadri Vasudevan * 1. Since the first logical drive's EBR is always at the beginning of the
892aa1b14e7SSheshadri Vasudevan * extended partition, any specification that starts the first logical drive
893aa1b14e7SSheshadri Vasudevan * out of order will need to address the following issue :
894aa1b14e7SSheshadri Vasudevan * If the beginning of the drive is not coinciding with the beginning of the
895aa1b14e7SSheshadri Vasudevan * extended partition and :
896aa1b14e7SSheshadri Vasudevan * a) The start is within MAX_LOGDRIVE_OFFSET, the offset changes from the
897aa1b14e7SSheshadri Vasudevan * default of 63 to less than 63.
898aa1b14e7SSheshadri Vasudevan * logdrive_offset is updated to keep track of the space between
899aa1b14e7SSheshadri Vasudevan * the beginning of the logical drive and extended partition. abs_secnum
900aa1b14e7SSheshadri Vasudevan * points to the beginning of the extended partition.
901aa1b14e7SSheshadri Vasudevan * b) The start is greater than MAX_LOGDRIVE_OFFSET, the offset changes from
902aa1b14e7SSheshadri Vasudevan * the default of 63 to greater than 63.
903aa1b14e7SSheshadri Vasudevan * logdrive_offset is set to 0. abs_secnum points to the beginning of the
904aa1b14e7SSheshadri Vasudevan * logical drive, which is at an offset from the extended partition.
905aa1b14e7SSheshadri Vasudevan */
906aa1b14e7SSheshadri Vasudevan void
fdisk_add_logical_drive(ext_part_t * epp,uint32_t begsec,uint32_t endsec,uchar_t partid)907aa1b14e7SSheshadri Vasudevan fdisk_add_logical_drive(ext_part_t *epp, uint32_t begsec, uint32_t endsec,
908aa1b14e7SSheshadri Vasudevan uchar_t partid)
909aa1b14e7SSheshadri Vasudevan {
910aa1b14e7SSheshadri Vasudevan logical_drive_t *temp, *pre, *cur;
911aa1b14e7SSheshadri Vasudevan struct ipart *part;
912aa1b14e7SSheshadri Vasudevan
913aa1b14e7SSheshadri Vasudevan temp = fdisk_alloc_ld_node();
914aa1b14e7SSheshadri Vasudevan temp->abs_secnum = begsec;
915aa1b14e7SSheshadri Vasudevan temp->logdrive_offset = MAX_LOGDRIVE_OFFSET;
916aa1b14e7SSheshadri Vasudevan temp->numsect = endsec - begsec + 1 - MAX_LOGDRIVE_OFFSET;
917aa1b14e7SSheshadri Vasudevan temp->begcyl = FDISK_SECT_TO_CYL(epp, begsec);
918aa1b14e7SSheshadri Vasudevan temp->endcyl = FDISK_SECT_TO_CYL(epp, endsec);
919aa1b14e7SSheshadri Vasudevan temp->modified = FDISK_MAJOR_WRITE;
920aa1b14e7SSheshadri Vasudevan
921aa1b14e7SSheshadri Vasudevan part = &temp->parts[0];
922aa1b14e7SSheshadri Vasudevan part->bootid = 0;
923aa1b14e7SSheshadri Vasudevan part->systid = LE_8(partid);
924aa1b14e7SSheshadri Vasudevan part->relsect = MAX_LOGDRIVE_OFFSET;
925aa1b14e7SSheshadri Vasudevan part->numsect = LE_32(temp->numsect);
926aa1b14e7SSheshadri Vasudevan
927aa1b14e7SSheshadri Vasudevan fdisk_set_CHS_values(epp, part);
928aa1b14e7SSheshadri Vasudevan
929aa1b14e7SSheshadri Vasudevan if (epp->ld_head == NULL) {
930aa1b14e7SSheshadri Vasudevan epp->corrupt_logical_drives = 0;
931aa1b14e7SSheshadri Vasudevan if (begsec != epp->ext_beg_sec) {
932aa1b14e7SSheshadri Vasudevan part->relsect = LE_32(begsec - epp->ext_beg_sec);
933aa1b14e7SSheshadri Vasudevan temp->numsect = endsec - begsec + 1;
934aa1b14e7SSheshadri Vasudevan part->numsect = LE_32(temp->numsect);
935aa1b14e7SSheshadri Vasudevan if (LE_32(part->relsect) > MAX_LOGDRIVE_OFFSET) {
936aa1b14e7SSheshadri Vasudevan temp->logdrive_offset = 0;
937aa1b14e7SSheshadri Vasudevan } else {
938aa1b14e7SSheshadri Vasudevan temp->abs_secnum = epp->ext_beg_sec;
939aa1b14e7SSheshadri Vasudevan temp->logdrive_offset = LE_32(part->relsect);
940aa1b14e7SSheshadri Vasudevan }
941aa1b14e7SSheshadri Vasudevan }
942aa1b14e7SSheshadri Vasudevan epp->first_ebr_is_null = 0;
943aa1b14e7SSheshadri Vasudevan epp->ld_head = temp;
944aa1b14e7SSheshadri Vasudevan epp->sorted_ld_head = temp;
945aa1b14e7SSheshadri Vasudevan epp->logical_drive_count = 1;
946aa1b14e7SSheshadri Vasudevan return;
947aa1b14e7SSheshadri Vasudevan }
948aa1b14e7SSheshadri Vasudevan
949aa1b14e7SSheshadri Vasudevan if (temp->abs_secnum == epp->ext_beg_sec) {
950aa1b14e7SSheshadri Vasudevan part->relsect = LE_32(LE_32(part->relsect) - 1);
951aa1b14e7SSheshadri Vasudevan temp->logdrive_offset--;
952aa1b14e7SSheshadri Vasudevan temp->abs_secnum++;
953aa1b14e7SSheshadri Vasudevan }
954aa1b14e7SSheshadri Vasudevan
955aa1b14e7SSheshadri Vasudevan for (pre = cur = epp->ld_head; cur != NULL; pre = cur, cur = cur->next)
956aa1b14e7SSheshadri Vasudevan ;
957aa1b14e7SSheshadri Vasudevan
958aa1b14e7SSheshadri Vasudevan part = &pre->parts[1];
959aa1b14e7SSheshadri Vasudevan part->bootid = 0;
960aa1b14e7SSheshadri Vasudevan part->systid = LE_8(EXTDOS);
961aa1b14e7SSheshadri Vasudevan part->relsect = LE_32(temp->abs_secnum - epp->ext_beg_sec);
962aa1b14e7SSheshadri Vasudevan part->numsect = LE_32(temp->numsect + temp->logdrive_offset);
963aa1b14e7SSheshadri Vasudevan
964aa1b14e7SSheshadri Vasudevan fdisk_set_CHS_values(epp, part);
965aa1b14e7SSheshadri Vasudevan
966aa1b14e7SSheshadri Vasudevan pre->next = temp;
967aa1b14e7SSheshadri Vasudevan pre->modified = FDISK_MAJOR_WRITE;
968aa1b14e7SSheshadri Vasudevan epp->logical_drive_count++;
969aa1b14e7SSheshadri Vasudevan fdisk_ext_place_in_sorted_list(epp, temp);
970aa1b14e7SSheshadri Vasudevan }
971aa1b14e7SSheshadri Vasudevan
972aa1b14e7SSheshadri Vasudevan /*
973aa1b14e7SSheshadri Vasudevan * There are 2 cases that need to be handled.
974aa1b14e7SSheshadri Vasudevan * 1. Deleting the first extended partition :
975aa1b14e7SSheshadri Vasudevan * The peculiarity of this case is that the offset of the first extended
976aa1b14e7SSheshadri Vasudevan * partition is always indicated by the entry in the master boot record.
977aa1b14e7SSheshadri Vasudevan * (MBR). This never changes, unless the extended partition itself is
978aa1b14e7SSheshadri Vasudevan * deleted. Hence, the location of the first EBR is fixed.
979aa1b14e7SSheshadri Vasudevan * It is only the logical drive which is deleted. This first EBR now gives
980aa1b14e7SSheshadri Vasudevan * information of the next logical drive and the info about the subsequent
981aa1b14e7SSheshadri Vasudevan * extended partition. Hence the "relsect" of the first EBR is modified to
982aa1b14e7SSheshadri Vasudevan * point to the next logical drive.
983aa1b14e7SSheshadri Vasudevan *
984aa1b14e7SSheshadri Vasudevan * 2. Deleting an intermediate extended partition.
985aa1b14e7SSheshadri Vasudevan * This is quite normal and follows the semantics of a normal linked list
986aa1b14e7SSheshadri Vasudevan * delete operation. The node being deleted has the information about the
987aa1b14e7SSheshadri Vasudevan * logical drive that it houses and the location and the size of the next
988aa1b14e7SSheshadri Vasudevan * extended partition. This informationis transferred to the node previous
989aa1b14e7SSheshadri Vasudevan * to the node being deleted.
990aa1b14e7SSheshadri Vasudevan *
991aa1b14e7SSheshadri Vasudevan */
992aa1b14e7SSheshadri Vasudevan
993aa1b14e7SSheshadri Vasudevan void
fdisk_delete_logical_drive(ext_part_t * epp,int pno)994aa1b14e7SSheshadri Vasudevan fdisk_delete_logical_drive(ext_part_t *epp, int pno)
995aa1b14e7SSheshadri Vasudevan {
996aa1b14e7SSheshadri Vasudevan logical_drive_t *pre, *cur;
997aa1b14e7SSheshadri Vasudevan int i;
998aa1b14e7SSheshadri Vasudevan
999aa1b14e7SSheshadri Vasudevan i = FD_NUMPART + 1;
1000aa1b14e7SSheshadri Vasudevan pre = cur = epp->ld_head;
1001aa1b14e7SSheshadri Vasudevan for (; i < pno; i++) {
1002aa1b14e7SSheshadri Vasudevan pre = cur;
1003aa1b14e7SSheshadri Vasudevan cur = cur->next;
1004aa1b14e7SSheshadri Vasudevan }
1005aa1b14e7SSheshadri Vasudevan
1006aa1b14e7SSheshadri Vasudevan if (cur == epp->ld_head) {
1007aa1b14e7SSheshadri Vasudevan /* Deleting the first logical drive */
1008aa1b14e7SSheshadri Vasudevan if (cur->next == NULL) {
1009aa1b14e7SSheshadri Vasudevan /* Deleting the only logical drive left */
1010aa1b14e7SSheshadri Vasudevan free(cur);
1011aa1b14e7SSheshadri Vasudevan epp->ld_head = NULL;
1012aa1b14e7SSheshadri Vasudevan epp->sorted_ld_head = NULL;
1013aa1b14e7SSheshadri Vasudevan epp->logical_drive_count = 0;
1014aa1b14e7SSheshadri Vasudevan epp->first_ebr_is_null = 1;
1015aa1b14e7SSheshadri Vasudevan } else {
1016aa1b14e7SSheshadri Vasudevan pre = epp->ld_head;
1017aa1b14e7SSheshadri Vasudevan cur = pre->next;
1018aa1b14e7SSheshadri Vasudevan cur->parts[0].relsect =
1019aa1b14e7SSheshadri Vasudevan LE_32(LE_32(cur->parts[0].relsect) +
1020aa1b14e7SSheshadri Vasudevan LE_32(pre->parts[1].relsect));
1021aa1b14e7SSheshadri Vasudevan /* Corner case when partitions are out of order */
1022aa1b14e7SSheshadri Vasudevan if ((pre->abs_secnum != epp->ext_beg_sec) &&
1023aa1b14e7SSheshadri Vasudevan (cur->abs_secnum == epp->ext_beg_sec + 1)) {
1024aa1b14e7SSheshadri Vasudevan cur->logdrive_offset++;
1025aa1b14e7SSheshadri Vasudevan cur->abs_secnum = epp->ext_beg_sec;
1026aa1b14e7SSheshadri Vasudevan } else {
1027aa1b14e7SSheshadri Vasudevan cur->abs_secnum = LE_32(cur->parts[0].relsect) +
1028aa1b14e7SSheshadri Vasudevan epp->ext_beg_sec;
1029aa1b14e7SSheshadri Vasudevan cur->logdrive_offset = 0;
1030aa1b14e7SSheshadri Vasudevan }
1031aa1b14e7SSheshadri Vasudevan fdisk_ext_remove_from_sorted_list(epp, pre);
1032aa1b14e7SSheshadri Vasudevan epp->ld_head = cur;
1033aa1b14e7SSheshadri Vasudevan epp->ld_head->modified = FDISK_MAJOR_WRITE;
1034aa1b14e7SSheshadri Vasudevan epp->logical_drive_count--;
1035aa1b14e7SSheshadri Vasudevan free(pre);
1036aa1b14e7SSheshadri Vasudevan }
1037aa1b14e7SSheshadri Vasudevan } else {
1038aa1b14e7SSheshadri Vasudevan pre->parts[1] = cur->parts[1];
1039aa1b14e7SSheshadri Vasudevan pre->next = cur->next;
1040aa1b14e7SSheshadri Vasudevan fdisk_ext_remove_from_sorted_list(epp, cur);
1041aa1b14e7SSheshadri Vasudevan pre->modified = FDISK_MAJOR_WRITE;
1042aa1b14e7SSheshadri Vasudevan free(cur);
1043aa1b14e7SSheshadri Vasudevan epp->logical_drive_count--;
1044aa1b14e7SSheshadri Vasudevan }
1045aa1b14e7SSheshadri Vasudevan }
1046aa1b14e7SSheshadri Vasudevan
1047aa1b14e7SSheshadri Vasudevan static void
fdisk_set_CHS_values(ext_part_t * epp,struct ipart * part)1048aa1b14e7SSheshadri Vasudevan fdisk_set_CHS_values(ext_part_t *epp, struct ipart *part)
1049aa1b14e7SSheshadri Vasudevan {
1050aa1b14e7SSheshadri Vasudevan uint32_t lba, cy, hd, sc;
1051aa1b14e7SSheshadri Vasudevan uint32_t sectors = epp->disk_geom.virt_sec;
1052aa1b14e7SSheshadri Vasudevan uint32_t heads = epp->disk_geom.virt_heads;
1053aa1b14e7SSheshadri Vasudevan
1054aa1b14e7SSheshadri Vasudevan lba = LE_32(part->relsect) + epp->ext_beg_sec;
1055aa1b14e7SSheshadri Vasudevan if (lba >= heads * sectors * MAX_CYL) {
1056aa1b14e7SSheshadri Vasudevan /*
1057aa1b14e7SSheshadri Vasudevan * the lba address cannot be expressed in CHS value
1058aa1b14e7SSheshadri Vasudevan * so store the maximum CHS field values in the CHS fields.
1059aa1b14e7SSheshadri Vasudevan */
1060aa1b14e7SSheshadri Vasudevan cy = MAX_CYL + 1;
1061aa1b14e7SSheshadri Vasudevan hd = MAX_HEAD;
1062aa1b14e7SSheshadri Vasudevan sc = MAX_SECT;
1063aa1b14e7SSheshadri Vasudevan } else {
1064aa1b14e7SSheshadri Vasudevan cy = lba / sectors / heads;
1065aa1b14e7SSheshadri Vasudevan hd = lba / sectors % heads;
1066aa1b14e7SSheshadri Vasudevan sc = lba % sectors + 1;
1067aa1b14e7SSheshadri Vasudevan }
1068aa1b14e7SSheshadri Vasudevan
1069aa1b14e7SSheshadri Vasudevan part->begcyl = cy & 0xff;
1070aa1b14e7SSheshadri Vasudevan part->beghead = (uchar_t)hd;
1071aa1b14e7SSheshadri Vasudevan part->begsect = (uchar_t)(((cy >> 2) & 0xc0) | sc);
1072aa1b14e7SSheshadri Vasudevan
1073aa1b14e7SSheshadri Vasudevan /*
1074aa1b14e7SSheshadri Vasudevan * This code is identical to the code above
1075aa1b14e7SSheshadri Vasudevan * except that it works on ending CHS values
1076aa1b14e7SSheshadri Vasudevan */
1077aa1b14e7SSheshadri Vasudevan lba += LE_32(part->numsect - 1);
1078aa1b14e7SSheshadri Vasudevan if (lba >= heads * sectors * MAX_CYL) {
1079aa1b14e7SSheshadri Vasudevan cy = MAX_CYL + 1;
1080aa1b14e7SSheshadri Vasudevan hd = MAX_HEAD;
1081aa1b14e7SSheshadri Vasudevan sc = MAX_SECT;
1082aa1b14e7SSheshadri Vasudevan } else {
1083aa1b14e7SSheshadri Vasudevan cy = lba / sectors / heads;
1084aa1b14e7SSheshadri Vasudevan hd = lba / sectors % heads;
1085aa1b14e7SSheshadri Vasudevan sc = lba % sectors + 1;
1086aa1b14e7SSheshadri Vasudevan }
1087aa1b14e7SSheshadri Vasudevan part->endcyl = cy & 0xff;
1088aa1b14e7SSheshadri Vasudevan part->endhead = (uchar_t)hd;
1089aa1b14e7SSheshadri Vasudevan part->endsect = (uchar_t)(((cy >> 2) & 0xc0) | sc);
1090aa1b14e7SSheshadri Vasudevan }
1091aa1b14e7SSheshadri Vasudevan
1092aa1b14e7SSheshadri Vasudevan static int
read_modify_write_ebr(ext_part_t * epp,unsigned char * ebr_buf,struct ipart * ebr_tab,uint32_t sec_offset)1093aa1b14e7SSheshadri Vasudevan read_modify_write_ebr(ext_part_t *epp, unsigned char *ebr_buf,
1094aa1b14e7SSheshadri Vasudevan struct ipart *ebr_tab, uint32_t sec_offset)
1095aa1b14e7SSheshadri Vasudevan {
1096aa1b14e7SSheshadri Vasudevan off_t seek_offset;
1097aa1b14e7SSheshadri Vasudevan int sectsize = epp->disk_geom.sectsize;
1098aa1b14e7SSheshadri Vasudevan
1099aa1b14e7SSheshadri Vasudevan seek_offset = (off_t)sec_offset * sectsize;
1100aa1b14e7SSheshadri Vasudevan
1101aa1b14e7SSheshadri Vasudevan if (lseek(epp->dev_fd, seek_offset, SEEK_SET) < 0) {
1102aa1b14e7SSheshadri Vasudevan return (EIO);
1103aa1b14e7SSheshadri Vasudevan }
1104aa1b14e7SSheshadri Vasudevan if (read(epp->dev_fd, ebr_buf, sectsize) < sectsize) {
1105aa1b14e7SSheshadri Vasudevan return (EIO);
1106aa1b14e7SSheshadri Vasudevan }
1107aa1b14e7SSheshadri Vasudevan
1108aa1b14e7SSheshadri Vasudevan bzero(&ebr_buf[FDISK_PART_TABLE_START], 4 * sizeof (struct ipart));
1109aa1b14e7SSheshadri Vasudevan if (ebr_tab != NULL) {
1110aa1b14e7SSheshadri Vasudevan bcopy(ebr_tab, &ebr_buf[FDISK_PART_TABLE_START],
1111aa1b14e7SSheshadri Vasudevan 2 * sizeof (struct ipart));
1112aa1b14e7SSheshadri Vasudevan }
1113aa1b14e7SSheshadri Vasudevan ebr_buf[510] = 0x55;
1114aa1b14e7SSheshadri Vasudevan ebr_buf[511] = 0xAA;
1115aa1b14e7SSheshadri Vasudevan if (lseek(epp->dev_fd, seek_offset, SEEK_SET) < 0) {
1116aa1b14e7SSheshadri Vasudevan return (EIO);
1117aa1b14e7SSheshadri Vasudevan }
1118aa1b14e7SSheshadri Vasudevan if (write(epp->dev_fd, ebr_buf, sectsize) < sectsize) {
1119aa1b14e7SSheshadri Vasudevan return (EIO);
1120aa1b14e7SSheshadri Vasudevan }
1121aa1b14e7SSheshadri Vasudevan return (0);
1122aa1b14e7SSheshadri Vasudevan }
1123aa1b14e7SSheshadri Vasudevan
1124aa1b14e7SSheshadri Vasudevan /*
1125aa1b14e7SSheshadri Vasudevan * XXX - ZFS mounts not detected. Needs to come in as a feature.
1126aa1b14e7SSheshadri Vasudevan * Currently only /etc/mnttab entries are being checked
1127aa1b14e7SSheshadri Vasudevan */
1128aa1b14e7SSheshadri Vasudevan int
fdisk_mounted_logical_drives(ext_part_t * epp)1129aa1b14e7SSheshadri Vasudevan fdisk_mounted_logical_drives(ext_part_t *epp)
1130aa1b14e7SSheshadri Vasudevan {
1131aa1b14e7SSheshadri Vasudevan char *part_str, *canonp;
1132aa1b14e7SSheshadri Vasudevan char compare_pdev_str[PATH_MAX];
1133aa1b14e7SSheshadri Vasudevan char compare_sdev_str[PATH_MAX];
1134aa1b14e7SSheshadri Vasudevan FILE *fp;
1135aa1b14e7SSheshadri Vasudevan struct mnttab mt;
1136aa1b14e7SSheshadri Vasudevan int part;
1137aa1b14e7SSheshadri Vasudevan int look_for_mounted_slices = 0;
1138aa1b14e7SSheshadri Vasudevan uint32_t begsec, numsec;
1139aa1b14e7SSheshadri Vasudevan
1140948e002cSSharath M Srinivasan /*
1141948e002cSSharath M Srinivasan * Do not check for mounted logical drives for
1142948e002cSSharath M Srinivasan * devices other than /dev/rdsk/
1143948e002cSSharath M Srinivasan */
1144948e002cSSharath M Srinivasan if (strstr(epp->device_name, DEFAULT_PATH_PREFIX) == NULL) {
1145948e002cSSharath M Srinivasan return (0);
1146948e002cSSharath M Srinivasan }
1147948e002cSSharath M Srinivasan
1148aa1b14e7SSheshadri Vasudevan if ((fp = fopen(MNTTAB, "r")) == NULL) {
1149aa1b14e7SSheshadri Vasudevan return (ENOENT);
1150aa1b14e7SSheshadri Vasudevan }
1151aa1b14e7SSheshadri Vasudevan
1152aa1b14e7SSheshadri Vasudevan canonp = epp->device_name + strlen(DEFAULT_PATH_PREFIX);
1153aa1b14e7SSheshadri Vasudevan (void) snprintf(compare_pdev_str, PATH_MAX, "%s%s", "/dev/dsk/",
1154aa1b14e7SSheshadri Vasudevan canonp);
1155aa1b14e7SSheshadri Vasudevan part_str = strrchr(compare_pdev_str, 'p');
1156aa1b14e7SSheshadri Vasudevan *(part_str + 1) = '\0';
1157aa1b14e7SSheshadri Vasudevan (void) strcpy(compare_sdev_str, compare_pdev_str);
1158aa1b14e7SSheshadri Vasudevan part_str = strrchr(compare_sdev_str, 'p');
1159aa1b14e7SSheshadri Vasudevan *part_str = 's';
1160aa1b14e7SSheshadri Vasudevan
1161aa1b14e7SSheshadri Vasudevan if (fdisk_get_solaris_part(epp, &part, &begsec, &numsec) ==
1162aa1b14e7SSheshadri Vasudevan FDISK_SUCCESS) {
1163aa1b14e7SSheshadri Vasudevan if (part > FD_NUMPART) {
1164aa1b14e7SSheshadri Vasudevan /*
1165aa1b14e7SSheshadri Vasudevan * Solaris partition is on a logical drive. Look for
1166aa1b14e7SSheshadri Vasudevan * mounted slices.
1167aa1b14e7SSheshadri Vasudevan */
1168aa1b14e7SSheshadri Vasudevan look_for_mounted_slices = 1;
1169aa1b14e7SSheshadri Vasudevan }
1170aa1b14e7SSheshadri Vasudevan }
1171aa1b14e7SSheshadri Vasudevan
1172aa1b14e7SSheshadri Vasudevan while (getmntent(fp, &mt) == 0) {
1173aa1b14e7SSheshadri Vasudevan if (strstr(mt.mnt_special, compare_pdev_str) == NULL) {
1174aa1b14e7SSheshadri Vasudevan if (strstr(mt.mnt_special, compare_sdev_str) == NULL) {
1175aa1b14e7SSheshadri Vasudevan continue;
1176aa1b14e7SSheshadri Vasudevan } else {
1177aa1b14e7SSheshadri Vasudevan if (look_for_mounted_slices) {
1178aa1b14e7SSheshadri Vasudevan return (FDISK_EMOUNTED);
1179aa1b14e7SSheshadri Vasudevan }
1180aa1b14e7SSheshadri Vasudevan }
1181aa1b14e7SSheshadri Vasudevan }
1182aa1b14e7SSheshadri Vasudevan
1183aa1b14e7SSheshadri Vasudevan /*
1184aa1b14e7SSheshadri Vasudevan * Get the partition number that is mounted, which would be
1185aa1b14e7SSheshadri Vasudevan * found just beyond the last 'p' in the device string.
1186aa1b14e7SSheshadri Vasudevan * For example, in /dev/dsk/c0t0d0p12, partition number 12
1187aa1b14e7SSheshadri Vasudevan * is just beyond the last 'p'.
1188aa1b14e7SSheshadri Vasudevan */
1189aa1b14e7SSheshadri Vasudevan part_str = strrchr(mt.mnt_special, 'p');
1190aa1b14e7SSheshadri Vasudevan if (part_str != NULL) {
1191aa1b14e7SSheshadri Vasudevan part_str++;
1192aa1b14e7SSheshadri Vasudevan part = atoi(part_str);
1193aa1b14e7SSheshadri Vasudevan /* Extended partition numbers start from 5 */
1194aa1b14e7SSheshadri Vasudevan if (part >= 5) {
1195aa1b14e7SSheshadri Vasudevan return (FDISK_EMOUNTED);
1196aa1b14e7SSheshadri Vasudevan }
1197aa1b14e7SSheshadri Vasudevan }
1198aa1b14e7SSheshadri Vasudevan }
1199aa1b14e7SSheshadri Vasudevan return (0);
1200aa1b14e7SSheshadri Vasudevan }
1201aa1b14e7SSheshadri Vasudevan
1202aa1b14e7SSheshadri Vasudevan int
fdisk_commit_ext_part(ext_part_t * epp)1203aa1b14e7SSheshadri Vasudevan fdisk_commit_ext_part(ext_part_t *epp)
1204aa1b14e7SSheshadri Vasudevan {
1205aa1b14e7SSheshadri Vasudevan logical_drive_t *temp;
1206aa1b14e7SSheshadri Vasudevan int wflag = 0; /* write flag */
1207aa1b14e7SSheshadri Vasudevan int rval;
1208aa1b14e7SSheshadri Vasudevan int sectsize = epp->disk_geom.sectsize;
1209aa1b14e7SSheshadri Vasudevan unsigned char *ebr_buf;
1210aa1b14e7SSheshadri Vasudevan int ld_count;
1211aa1b14e7SSheshadri Vasudevan uint32_t abs_secnum;
1212aa1b14e7SSheshadri Vasudevan int check_mounts = 0;
1213aa1b14e7SSheshadri Vasudevan
1214aa1b14e7SSheshadri Vasudevan if ((ebr_buf = (unsigned char *)malloc(sectsize)) == NULL) {
1215aa1b14e7SSheshadri Vasudevan return (ENOMEM);
1216aa1b14e7SSheshadri Vasudevan }
1217aa1b14e7SSheshadri Vasudevan
1218aa1b14e7SSheshadri Vasudevan if (epp->first_ebr_is_null) {
1219aa1b14e7SSheshadri Vasudevan /*
1220aa1b14e7SSheshadri Vasudevan * Indicator that the extended partition as a whole was
1221aa1b14e7SSheshadri Vasudevan * modifies (either created or deleted. Must check for mounts
1222aa1b14e7SSheshadri Vasudevan * and must commit
1223aa1b14e7SSheshadri Vasudevan */
1224aa1b14e7SSheshadri Vasudevan check_mounts = 1;
1225aa1b14e7SSheshadri Vasudevan }
1226aa1b14e7SSheshadri Vasudevan
1227aa1b14e7SSheshadri Vasudevan /*
1228aa1b14e7SSheshadri Vasudevan * Pass1 through the logical drives to make sure that commit of minor
1229aa1b14e7SSheshadri Vasudevan * written block dont get held up due to mounts.
1230aa1b14e7SSheshadri Vasudevan */
1231aa1b14e7SSheshadri Vasudevan for (temp = epp->ld_head; temp != NULL; temp = temp->next) {
1232aa1b14e7SSheshadri Vasudevan if (temp == epp->ld_head) {
1233aa1b14e7SSheshadri Vasudevan abs_secnum = epp->ext_beg_sec;
1234aa1b14e7SSheshadri Vasudevan } else {
1235aa1b14e7SSheshadri Vasudevan abs_secnum = temp->abs_secnum;
1236aa1b14e7SSheshadri Vasudevan }
1237aa1b14e7SSheshadri Vasudevan if (temp->modified == FDISK_MINOR_WRITE) {
1238aa1b14e7SSheshadri Vasudevan rval = read_modify_write_ebr(epp, ebr_buf,
1239aa1b14e7SSheshadri Vasudevan temp->parts, abs_secnum);
1240aa1b14e7SSheshadri Vasudevan if (rval) {
1241aa1b14e7SSheshadri Vasudevan goto error;
1242aa1b14e7SSheshadri Vasudevan }
1243aa1b14e7SSheshadri Vasudevan temp->modified = 0;
1244aa1b14e7SSheshadri Vasudevan } else if (temp->modified == FDISK_MAJOR_WRITE) {
1245aa1b14e7SSheshadri Vasudevan check_mounts = 1;
1246aa1b14e7SSheshadri Vasudevan }
1247aa1b14e7SSheshadri Vasudevan }
1248aa1b14e7SSheshadri Vasudevan
1249aa1b14e7SSheshadri Vasudevan if (!check_mounts) {
1250aa1b14e7SSheshadri Vasudevan goto skip_check_mounts;
1251aa1b14e7SSheshadri Vasudevan }
1252aa1b14e7SSheshadri Vasudevan
1253aa1b14e7SSheshadri Vasudevan if ((rval = fdisk_mounted_logical_drives(epp)) != 0) {
1254aa1b14e7SSheshadri Vasudevan /* One/more extended partitions are mounted */
1255aa1b14e7SSheshadri Vasudevan if (ebr_buf) {
1256aa1b14e7SSheshadri Vasudevan free(ebr_buf);
1257aa1b14e7SSheshadri Vasudevan }
1258aa1b14e7SSheshadri Vasudevan return (rval);
1259aa1b14e7SSheshadri Vasudevan }
1260aa1b14e7SSheshadri Vasudevan
1261aa1b14e7SSheshadri Vasudevan skip_check_mounts:
1262aa1b14e7SSheshadri Vasudevan
1263aa1b14e7SSheshadri Vasudevan if (epp->first_ebr_is_null) {
1264aa1b14e7SSheshadri Vasudevan rval = read_modify_write_ebr(epp, ebr_buf, NULL,
1265aa1b14e7SSheshadri Vasudevan epp->ext_beg_sec);
1266aa1b14e7SSheshadri Vasudevan if (rval) {
1267aa1b14e7SSheshadri Vasudevan goto error;
1268aa1b14e7SSheshadri Vasudevan }
1269aa1b14e7SSheshadri Vasudevan wflag = 1;
1270aa1b14e7SSheshadri Vasudevan ld_count = 0;
1271aa1b14e7SSheshadri Vasudevan } else {
1272aa1b14e7SSheshadri Vasudevan if (epp->logical_drive_count == 0) {
1273aa1b14e7SSheshadri Vasudevan /*
1274aa1b14e7SSheshadri Vasudevan * Can hit this case when there is just an extended
1275aa1b14e7SSheshadri Vasudevan * partition with no logical drives, and the user
1276aa1b14e7SSheshadri Vasudevan * committed without making any changes
1277aa1b14e7SSheshadri Vasudevan * We dont have anything to commit. Return success
1278aa1b14e7SSheshadri Vasudevan */
1279aa1b14e7SSheshadri Vasudevan if (ebr_buf) {
1280aa1b14e7SSheshadri Vasudevan free(ebr_buf);
1281aa1b14e7SSheshadri Vasudevan }
1282aa1b14e7SSheshadri Vasudevan return (FDISK_SUCCESS);
1283aa1b14e7SSheshadri Vasudevan }
1284aa1b14e7SSheshadri Vasudevan
1285aa1b14e7SSheshadri Vasudevan /*
1286aa1b14e7SSheshadri Vasudevan * Make sure that the first EBR is written with the first
1287aa1b14e7SSheshadri Vasudevan * logical drive's data, which might not be the first in disk
1288aa1b14e7SSheshadri Vasudevan * order.
1289aa1b14e7SSheshadri Vasudevan */
1290aa1b14e7SSheshadri Vasudevan for (temp = epp->ld_head, ld_count = 0; temp != NULL;
1291aa1b14e7SSheshadri Vasudevan temp = temp->next, ld_count++) {
1292aa1b14e7SSheshadri Vasudevan if (ld_count == 0) {
1293aa1b14e7SSheshadri Vasudevan abs_secnum = epp->ext_beg_sec;
1294aa1b14e7SSheshadri Vasudevan } else {
1295aa1b14e7SSheshadri Vasudevan abs_secnum = temp->abs_secnum;
1296aa1b14e7SSheshadri Vasudevan }
1297aa1b14e7SSheshadri Vasudevan if (temp->modified) {
1298aa1b14e7SSheshadri Vasudevan rval = read_modify_write_ebr(epp, ebr_buf,
1299aa1b14e7SSheshadri Vasudevan temp->parts, abs_secnum);
1300aa1b14e7SSheshadri Vasudevan if (rval) {
1301aa1b14e7SSheshadri Vasudevan if (ld_count) {
1302aa1b14e7SSheshadri Vasudevan /*
1303aa1b14e7SSheshadri Vasudevan * There was atleast one
1304aa1b14e7SSheshadri Vasudevan * write to the disk before
1305aa1b14e7SSheshadri Vasudevan * this failure. Make sure that
1306aa1b14e7SSheshadri Vasudevan * the kernel is notified.
1307aa1b14e7SSheshadri Vasudevan * Issue the ioctl.
1308aa1b14e7SSheshadri Vasudevan */
1309aa1b14e7SSheshadri Vasudevan break;
1310aa1b14e7SSheshadri Vasudevan }
1311aa1b14e7SSheshadri Vasudevan goto error;
1312aa1b14e7SSheshadri Vasudevan }
1313aa1b14e7SSheshadri Vasudevan if ((!wflag) && (temp->modified ==
1314aa1b14e7SSheshadri Vasudevan FDISK_MAJOR_WRITE)) {
1315aa1b14e7SSheshadri Vasudevan wflag = 1;
1316aa1b14e7SSheshadri Vasudevan }
1317aa1b14e7SSheshadri Vasudevan }
1318aa1b14e7SSheshadri Vasudevan }
1319aa1b14e7SSheshadri Vasudevan
1320aa1b14e7SSheshadri Vasudevan if (wflag == 0) {
1321aa1b14e7SSheshadri Vasudevan /* No changes made */
1322aa1b14e7SSheshadri Vasudevan rval = FDISK_SUCCESS;
1323aa1b14e7SSheshadri Vasudevan goto error;
1324aa1b14e7SSheshadri Vasudevan }
1325aa1b14e7SSheshadri Vasudevan }
1326aa1b14e7SSheshadri Vasudevan
1327aa1b14e7SSheshadri Vasudevan /* Issue ioctl to the driver to update extended partition info */
1328aa1b14e7SSheshadri Vasudevan rval = ioctl(epp->dev_fd, DKIOCSETEXTPART);
1329948e002cSSharath M Srinivasan
1330948e002cSSharath M Srinivasan /*
1331948e002cSSharath M Srinivasan * Certain devices ex:lofi do not support DKIOCSETEXTPART.
1332948e002cSSharath M Srinivasan * Extended partitions are still created on these devices.
1333948e002cSSharath M Srinivasan */
1334948e002cSSharath M Srinivasan if (errno == ENOTTY)
1335948e002cSSharath M Srinivasan rval = FDISK_SUCCESS;
1336948e002cSSharath M Srinivasan
1337aa1b14e7SSheshadri Vasudevan error:
1338aa1b14e7SSheshadri Vasudevan if (ebr_buf) {
1339aa1b14e7SSheshadri Vasudevan free(ebr_buf);
1340aa1b14e7SSheshadri Vasudevan }
1341aa1b14e7SSheshadri Vasudevan return (rval);
1342aa1b14e7SSheshadri Vasudevan }
1343aa1b14e7SSheshadri Vasudevan
1344aa1b14e7SSheshadri Vasudevan int
fdisk_init_ext_part(ext_part_t * epp,uint32_t rsect,uint32_t nsect)1345aa1b14e7SSheshadri Vasudevan fdisk_init_ext_part(ext_part_t *epp, uint32_t rsect, uint32_t nsect)
1346aa1b14e7SSheshadri Vasudevan {
1347aa1b14e7SSheshadri Vasudevan epp->first_ebr_is_null = 1;
1348aa1b14e7SSheshadri Vasudevan epp->corrupt_logical_drives = 0;
1349aa1b14e7SSheshadri Vasudevan epp->logical_drive_count = 0;
1350aa1b14e7SSheshadri Vasudevan epp->ext_beg_sec = rsect;
1351aa1b14e7SSheshadri Vasudevan epp->ext_end_sec = rsect + nsect - 1;
1352aa1b14e7SSheshadri Vasudevan epp->ext_beg_cyl = FDISK_SECT_TO_CYL(epp, epp->ext_beg_sec);
1353aa1b14e7SSheshadri Vasudevan epp->ext_end_cyl = FDISK_SECT_TO_CYL(epp, epp->ext_end_sec);
1354aa1b14e7SSheshadri Vasudevan epp->invalid_bb_sig[0] = 0;
1355aa1b14e7SSheshadri Vasudevan return (0);
1356aa1b14e7SSheshadri Vasudevan }
1357aa1b14e7SSheshadri Vasudevan
1358aa1b14e7SSheshadri Vasudevan int
fdisk_delete_ext_part(ext_part_t * epp)1359aa1b14e7SSheshadri Vasudevan fdisk_delete_ext_part(ext_part_t *epp)
1360aa1b14e7SSheshadri Vasudevan {
1361aa1b14e7SSheshadri Vasudevan epp->first_ebr_is_null = 1;
1362aa1b14e7SSheshadri Vasudevan /* Clear the logical drive information */
1363aa1b14e7SSheshadri Vasudevan fdisk_free_ld_nodes(epp);
1364aa1b14e7SSheshadri Vasudevan epp->logical_drive_count = 0;
1365aa1b14e7SSheshadri Vasudevan epp->corrupt_logical_drives = 0;
1366aa1b14e7SSheshadri Vasudevan epp->invalid_bb_sig[0] = 0;
1367aa1b14e7SSheshadri Vasudevan return (0);
1368aa1b14e7SSheshadri Vasudevan }
1369aa1b14e7SSheshadri Vasudevan
1370aa1b14e7SSheshadri Vasudevan int
fdisk_get_disk_geom(ext_part_t * epp,int type,int what)1371aa1b14e7SSheshadri Vasudevan fdisk_get_disk_geom(ext_part_t *epp, int type, int what)
1372aa1b14e7SSheshadri Vasudevan {
1373aa1b14e7SSheshadri Vasudevan switch (type) {
1374aa1b14e7SSheshadri Vasudevan case PHYSGEOM:
1375aa1b14e7SSheshadri Vasudevan switch (what) {
1376aa1b14e7SSheshadri Vasudevan case NCYL:
1377aa1b14e7SSheshadri Vasudevan return ((int)epp->disk_geom.phys_cyl);
1378aa1b14e7SSheshadri Vasudevan case NHEADS:
1379aa1b14e7SSheshadri Vasudevan return ((int)epp->disk_geom.phys_heads);
1380aa1b14e7SSheshadri Vasudevan case NSECTPT:
1381aa1b14e7SSheshadri Vasudevan return ((int)epp->disk_geom.phys_sec);
1382aa1b14e7SSheshadri Vasudevan case SSIZE:
1383aa1b14e7SSheshadri Vasudevan return ((int)epp->disk_geom.sectsize);
1384aa1b14e7SSheshadri Vasudevan case ACYL:
1385aa1b14e7SSheshadri Vasudevan return ((int)epp->disk_geom.alt_cyl);
1386aa1b14e7SSheshadri Vasudevan default:
1387aa1b14e7SSheshadri Vasudevan return (EINVAL);
1388aa1b14e7SSheshadri Vasudevan }
1389aa1b14e7SSheshadri Vasudevan case VIRTGEOM:
1390aa1b14e7SSheshadri Vasudevan switch (what) {
1391aa1b14e7SSheshadri Vasudevan case NCYL:
1392aa1b14e7SSheshadri Vasudevan return ((int)epp->disk_geom.virt_cyl);
1393aa1b14e7SSheshadri Vasudevan case NHEADS:
1394aa1b14e7SSheshadri Vasudevan return ((int)epp->disk_geom.virt_heads);
1395aa1b14e7SSheshadri Vasudevan case NSECTPT:
1396aa1b14e7SSheshadri Vasudevan return ((int)epp->disk_geom.virt_sec);
1397aa1b14e7SSheshadri Vasudevan case SSIZE:
1398aa1b14e7SSheshadri Vasudevan return ((int)epp->disk_geom.sectsize);
1399aa1b14e7SSheshadri Vasudevan case ACYL:
1400aa1b14e7SSheshadri Vasudevan return ((int)epp->disk_geom.alt_cyl);
1401aa1b14e7SSheshadri Vasudevan default:
1402aa1b14e7SSheshadri Vasudevan return (EINVAL);
1403aa1b14e7SSheshadri Vasudevan }
1404aa1b14e7SSheshadri Vasudevan default:
1405aa1b14e7SSheshadri Vasudevan return (EINVAL);
1406aa1b14e7SSheshadri Vasudevan }
1407aa1b14e7SSheshadri Vasudevan }
1408aa1b14e7SSheshadri Vasudevan
1409aa1b14e7SSheshadri Vasudevan int
fdisk_invalid_bb_sig(ext_part_t * epp,uchar_t ** bbsig_arr)1410aa1b14e7SSheshadri Vasudevan fdisk_invalid_bb_sig(ext_part_t *epp, uchar_t **bbsig_arr)
1411aa1b14e7SSheshadri Vasudevan {
1412aa1b14e7SSheshadri Vasudevan *bbsig_arr = &(epp->invalid_bb_sig[0]);
1413aa1b14e7SSheshadri Vasudevan return (epp->invalid_bb_sig[0]);
1414aa1b14e7SSheshadri Vasudevan }
1415