2 * partition.c - partition table support
4 * Copyright (C) 2004 Sven Luther
6 * Copyright (C) 2001, 2002 Ethan Benson
8 * Copyright (C) 1999 Benjamin Herrenschmidt
10 * This program is free software; you can redistribute it and/or modify
11 * it under the terms of the GNU General Public License as published by
12 * the Free Software Foundation; either version 2 of the License, or
13 * (at your option) any later version.
15 * This program is distributed in the hope that it will be useful,
16 * but WITHOUT ANY WARRANTY; without even the implied warranty of
17 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 * GNU General Public License for more details.
20 * You should have received a copy of the GNU General Public License
21 * along with this program; if not, write to the Free Software
22 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
26 * Todo: Add disklabel (or let OF do it ?). Eventually think about
27 * fixing CDROM handling by directly using the ATAPI layer.
35 #include "fdisk-part.h"
36 #include "amiga-part.h"
37 #include "partition.h"
40 #include "linux/iso_fs.h"
43 #include "byteorder.h"
45 /* We currently don't check the partition type, some users
46 * are putting crap there and still expect it to work...
48 #undef CHECK_FOR_VALID_MAC_PARTITION_TYPE
50 #ifdef CHECK_FOR_VALID_MAC_PARTITION_TYPE
51 static const char *valid_mac_partition_types[] = {
62 #define MAX_BLOCK_SIZE 2048
63 static unsigned char block_buffer[MAX_BLOCK_SIZE];
66 add_new_partition(struct partition_t** list, int part_number, const char *part_type,
67 const char *part_name, unsigned long part_start, unsigned long part_size,
68 unsigned short part_blocksize, int sys_ind)
70 struct partition_t* part;
71 part = (struct partition_t*)malloc(sizeof(struct partition_t));
73 part->part_number = part_number;
74 strncpy(part->part_type, part_type, MAX_PART_NAME);
75 strncpy(part->part_name, part_name, MAX_PART_NAME);
76 part->part_start = part_start;
77 part->part_size = part_size;
78 part->blocksize = part_blocksize;
79 part->sys_ind = sys_ind;
81 /* Tack this entry onto the list */
86 /* Note, we rely on partitions being dev-block-size aligned,
87 * I have to check if it's true. If it's not, then things will get
88 * a bit more complicated
91 partition_mac_lookup( const char *dev_name, prom_handle disk,
92 unsigned int prom_blksize, struct partition_t** list )
96 /* block_buffer contains block 0 from the partitions_lookup() stage */
97 struct mac_partition* part = (struct mac_partition *)block_buffer;
98 unsigned short ptable_block_size =
99 ((struct mac_driver_desc *)block_buffer)->block_size;
102 for (block=1; block < map_size + 1; block++)
104 #ifdef CHECK_FOR_VALID_MAC_PARTITION_TYPE
108 if (prom_readblocks(disk, block, 1, block_buffer) != 1) {
109 prom_printf("Can't read partition %d\n", block);
112 if (part->signature != MAC_PARTITION_MAGIC) {
114 prom_printf("Wrong partition %d signature\n", block);
119 map_size = part->map_count;
121 #ifdef CHECK_FOR_VALID_MAC_PARTITION_TYPE
122 /* We don't bother looking at swap partitions of any type,
123 * and the rest are the ones we know about */
124 for (ptype = valid_mac_partition_types; ptype; ptype++)
125 if (!strcmp (part->type, ptype))
132 prom_printf( "MAC: Unsupported partition #%d; type=%s\n",
138 #ifdef CHECK_FOR_VALID_MAC_PARTITION_TYPE
141 /* We use the partition block size from the partition table.
142 * The filesystem implmentations are responsible for mapping
143 * to their own fs blocksize */
145 list, /* partition list */
146 block, /* partition number */
147 part->type, /* type */
148 part->name, /* name */
149 part->start_block + part->data_start, /* start */
150 part->data_count, /* size */
157 * Same function as partition_mac_lookup(), except for fdisk
161 partition_fdisk_lookup( const char *dev_name, prom_handle disk,
162 unsigned int prom_blksize, struct partition_t** list )
166 /* fdisk partition tables start at offset 0x1be
167 * from byte 0 of the boot drive.
169 struct fdisk_partition* part =
170 (struct fdisk_partition *) (block_buffer + 0x1be);
172 for (partition=1; partition <= 4 ;partition++, part++) {
173 if (part->sys_ind == LINUX_NATIVE || part->sys_ind == LINUX_RAID) {
174 add_new_partition( list,
178 le32_to_cpu(*(unsigned int *)part->start4),
179 le32_to_cpu(*(unsigned int *)part->size4),
181 part->sys_ind /* partition type */ );
186 /* I don't know if it's possible to handle multisession and other multitrack
187 * stuffs with the current OF disklabel package. This can still be implemented
188 * with direct calls to atapi stuffs.
189 * Currently, we enter this code for any device of block size 0x2048 who lacks
190 * a MacOS partition map signature.
193 identify_iso_fs(ihandle device, unsigned int *iso_root_block)
197 for (block = 16; block < 100; block++) {
198 struct iso_volume_descriptor * vdp;
200 if (prom_readblocks(device, block, 1, block_buffer) != 1) {
201 prom_printf("Can't read volume desc block %d\n", block);
205 vdp = (struct iso_volume_descriptor *)block_buffer;
207 /* Due to the overlapping physical location of the descriptors,
208 * ISO CDs can match hdp->id==HS_STANDARD_ID as well. To ensure
209 * proper identification in this case, we first check for ISO.
211 if (strncmp (vdp->id, ISO_STANDARD_ID, sizeof vdp->id) == 0) {
212 *iso_root_block = block;
221 * Detects and read amiga partition tables.
225 _amiga_checksum (unsigned int blk_size)
229 unsigned int *amiga_block = (unsigned int *) block_buffer;
231 sum = amiga_block[0];
232 end = amiga_block[AMIGA_LENGTH];
234 if (end > blk_size) end = blk_size;
236 for (i = 1; i < end; i++) sum += amiga_block[i];
242 _amiga_find_rdb (const char *dev_name, prom_handle disk, unsigned int prom_blksize)
245 unsigned int *amiga_block = (unsigned int *) block_buffer;
247 for (i = 0; i<AMIGA_RDB_MAX; i++) {
249 if (prom_readblocks(disk, i, 1, block_buffer) != 1) {
250 prom_printf("Can't read boot block %d\n", i);
254 if ((amiga_block[AMIGA_ID] == AMIGA_ID_RDB) && (_amiga_checksum (prom_blksize) == 0))
257 /* Amiga partition table not found, let's reread block 0 */
258 if (prom_readblocks(disk, 0, 1, block_buffer) != 1) {
259 prom_printf("Can't read boot blocks\n");
260 return 0; /* TODO: something bad happened, should fail more verbosely */
266 partition_amiga_lookup( const char *dev_name, prom_handle disk,
267 unsigned int prom_blksize, struct partition_t** list )
270 unsigned int blockspercyl;
271 unsigned int *amiga_block = (unsigned int *) block_buffer;
272 unsigned int *used = NULL;
273 unsigned int possible;
277 blockspercyl = amiga_block[AMIGA_SECT] * amiga_block[AMIGA_HEADS];
278 possible = amiga_block[AMIGA_RDBLIMIT]/32 +1;
280 used = (unsigned int *) malloc (sizeof (unsigned int) * (possible + 1));
282 prom_printf("Can't allocate memory\n");
286 for (i=0; i < possible; i++) used[i] = 0;
289 for (part = amiga_block[AMIGA_PARTITIONS], partition = 0;
291 part = amiga_block[AMIGA_PART_NEXT], partition++)
293 if (prom_readblocks(disk, part, 1, block_buffer) != 1) {
294 prom_printf("Can't read partition block %d\n", part);
297 checksum = _amiga_checksum (prom_blksize);
298 if ((amiga_block[AMIGA_ID] == AMIGA_ID_PART) &&
300 ((used[part/32] & (0x1 << (part % 32))) == 0))
302 used[part/32] |= (0x1 << (part % 32));
304 prom_printf("Amiga partition table corrupted at block %d\n", part);
305 if (amiga_block[AMIGA_ID] != AMIGA_ID_PART)
306 prom_printf ("block type is not partition but %08x\n", amiga_block[AMIGA_ID]);
308 prom_printf ("block checsum is bad : %d\n", checksum);
309 if ((used[part/32] & (0x1 << (part % 32))) != 0)
310 prom_printf ("partition table is looping, block %d already traveled\n", part);
314 /* We use the partition block size from the partition table.
315 * The filesystem implmentations are responsible for mapping
316 * to their own fs blocksize */
318 list, /* partition list */
319 partition, /* partition number */
322 blockspercyl * amiga_block[AMIGA_PART_LOWCYL], /* start */
323 blockspercyl * (amiga_block[AMIGA_PART_HIGHCYL] - amiga_block[AMIGA_PART_LOWCYL] + 1), /* size */
332 partitions_lookup(const char *device)
335 struct mac_driver_desc *desc = (struct mac_driver_desc *)block_buffer;
336 struct partition_t* list = NULL;
337 unsigned int prom_blksize, iso_root_block;
339 strncpy(block_buffer, device, 2040);
340 strcat(block_buffer, ":0");
343 disk = prom_open(block_buffer);
345 prom_printf("Can't open device <%s>\n", block_buffer);
348 prom_blksize = prom_getblksize(disk);
349 DEBUG_F("block size of device is %d\n", prom_blksize);
351 if (prom_blksize <= 1)
353 if (prom_blksize > MAX_BLOCK_SIZE) {
354 prom_printf("block_size %d not supported !\n", prom_blksize);
358 /* Read boot blocs */
359 if (prom_readblocks(disk, 0, 1, block_buffer) != 1) {
360 prom_printf("Can't read boot blocks\n");
363 if (desc->signature == MAC_DRIVER_MAGIC) {
364 /* pdisk partition format */
365 partition_mac_lookup(device, disk, prom_blksize, &list);
366 } else if ((block_buffer[510] == 0x55) && (block_buffer[511] == 0xaa)) {
367 /* fdisk partition format */
368 partition_fdisk_lookup(device, disk, prom_blksize, &list);
369 } else if (prom_blksize == 2048 && identify_iso_fs(disk, &iso_root_block)) {
370 add_new_partition(&list,
378 prom_printf("ISO9660 disk\n");
379 } else if (_amiga_find_rdb(device, disk, prom_blksize) != -1) {
380 /* amiga partition format */
381 partition_amiga_lookup(device, disk, prom_blksize, &list);
383 prom_printf("No supported partition table detected\n");
394 get_part_type(char *device, int partition)
396 struct partition_t* parts;
397 struct partition_t* p;
398 struct partition_t* found;
401 if (prom_get_devtype(device) != FILE_DEVICE_BLOCK)
404 parts = partitions_lookup(device);
410 for (p = parts; p && !found; p=p->next) {
411 DEBUG_F("number: %02d, start: 0x%08lx, length: 0x%08lx, type: %s, name: %s\n",
412 p->part_number, p->part_start, p->part_size, p->part_type, p->part_name);
413 if ((partition >= 0) && (partition == p->part_number)) {
414 type = strdup(p->part_type);
419 partitions_free(parts);
423 /* Freed in reverse order of allocation to help malloc'ator */
425 partitions_free(struct partition_t* list)
427 struct partition_t* next;
439 * c-file-style: "k&r"