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UDF/OSTA terminology is confusing. Partition Numbers (PNs) are arbitrary 16-bit values, one for each physical partition in the volume. Partition Reference Numbers (PRNs) are indices into the the Partition Map Table and do not necessarily equal the PN of the mapped partition. The current metadata code mistakenly uses the PN instead of the PRN when mapping metadata blocks to physical/sparable blocks. Windows-created UDF 2.5 discs for some reason use large, arbitrary PNs, resulting in mount failure and KASAN read warnings in udf_read_inode(). For example, a NetBSD UDF 2.5 partition might look like this: PRN PN Type --- -- ---- 0 0 Sparable 1 0 Metadata Since PRN == PN, we are fine. But Windows could gives us: PRN PN Type --- ---- ---- 0 8192 Sparable 1 8192 Metadata So udf_read_inode() will start out by checking the partition length in sbi->s_partmaps[8192], which is obviously out of bounds. Fix this by creating a new field (s_phys_partition_ref) in struct udf_meta_data, referencing whatever physical or sparable map has the same partition number as the metadata partition. [JK: Add comment about s_phys_partition_ref, change its name] Signed-off-by: Alden Tondettar <alden.tondettar@gmail.com> Signed-off-by: Jan Kara <jack@suse.cz>
344 lines
8.7 KiB
C
344 lines
8.7 KiB
C
/*
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* partition.c
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*
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* PURPOSE
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* Partition handling routines for the OSTA-UDF(tm) filesystem.
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*
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* COPYRIGHT
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* This file is distributed under the terms of the GNU General Public
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* License (GPL). Copies of the GPL can be obtained from:
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* ftp://prep.ai.mit.edu/pub/gnu/GPL
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* Each contributing author retains all rights to their own work.
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*
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* (C) 1998-2001 Ben Fennema
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*
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* HISTORY
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*
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* 12/06/98 blf Created file.
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*
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*/
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#include "udfdecl.h"
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#include "udf_sb.h"
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#include "udf_i.h"
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#include <linux/fs.h>
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#include <linux/string.h>
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#include <linux/mutex.h>
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uint32_t udf_get_pblock(struct super_block *sb, uint32_t block,
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uint16_t partition, uint32_t offset)
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{
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struct udf_sb_info *sbi = UDF_SB(sb);
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struct udf_part_map *map;
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if (partition >= sbi->s_partitions) {
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udf_debug("block=%d, partition=%d, offset=%d: invalid partition\n",
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block, partition, offset);
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return 0xFFFFFFFF;
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}
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map = &sbi->s_partmaps[partition];
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if (map->s_partition_func)
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return map->s_partition_func(sb, block, partition, offset);
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else
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return map->s_partition_root + block + offset;
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}
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uint32_t udf_get_pblock_virt15(struct super_block *sb, uint32_t block,
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uint16_t partition, uint32_t offset)
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{
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struct buffer_head *bh = NULL;
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uint32_t newblock;
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uint32_t index;
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uint32_t loc;
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struct udf_sb_info *sbi = UDF_SB(sb);
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struct udf_part_map *map;
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struct udf_virtual_data *vdata;
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struct udf_inode_info *iinfo = UDF_I(sbi->s_vat_inode);
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map = &sbi->s_partmaps[partition];
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vdata = &map->s_type_specific.s_virtual;
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if (block > vdata->s_num_entries) {
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udf_debug("Trying to access block beyond end of VAT (%d max %d)\n",
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block, vdata->s_num_entries);
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return 0xFFFFFFFF;
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}
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if (iinfo->i_alloc_type == ICBTAG_FLAG_AD_IN_ICB) {
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loc = le32_to_cpu(((__le32 *)(iinfo->i_ext.i_data +
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vdata->s_start_offset))[block]);
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goto translate;
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}
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index = (sb->s_blocksize - vdata->s_start_offset) / sizeof(uint32_t);
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if (block >= index) {
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block -= index;
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newblock = 1 + (block / (sb->s_blocksize / sizeof(uint32_t)));
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index = block % (sb->s_blocksize / sizeof(uint32_t));
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} else {
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newblock = 0;
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index = vdata->s_start_offset / sizeof(uint32_t) + block;
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}
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loc = udf_block_map(sbi->s_vat_inode, newblock);
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bh = sb_bread(sb, loc);
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if (!bh) {
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udf_debug("get_pblock(UDF_VIRTUAL_MAP:%p,%d,%d) VAT: %d[%d]\n",
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sb, block, partition, loc, index);
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return 0xFFFFFFFF;
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}
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loc = le32_to_cpu(((__le32 *)bh->b_data)[index]);
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brelse(bh);
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translate:
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if (iinfo->i_location.partitionReferenceNum == partition) {
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udf_debug("recursive call to udf_get_pblock!\n");
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return 0xFFFFFFFF;
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}
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return udf_get_pblock(sb, loc,
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iinfo->i_location.partitionReferenceNum,
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offset);
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}
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inline uint32_t udf_get_pblock_virt20(struct super_block *sb, uint32_t block,
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uint16_t partition, uint32_t offset)
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{
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return udf_get_pblock_virt15(sb, block, partition, offset);
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}
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uint32_t udf_get_pblock_spar15(struct super_block *sb, uint32_t block,
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uint16_t partition, uint32_t offset)
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{
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int i;
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struct sparingTable *st = NULL;
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struct udf_sb_info *sbi = UDF_SB(sb);
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struct udf_part_map *map;
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uint32_t packet;
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struct udf_sparing_data *sdata;
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map = &sbi->s_partmaps[partition];
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sdata = &map->s_type_specific.s_sparing;
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packet = (block + offset) & ~(sdata->s_packet_len - 1);
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for (i = 0; i < 4; i++) {
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if (sdata->s_spar_map[i] != NULL) {
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st = (struct sparingTable *)
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sdata->s_spar_map[i]->b_data;
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break;
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}
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}
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if (st) {
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for (i = 0; i < le16_to_cpu(st->reallocationTableLen); i++) {
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struct sparingEntry *entry = &st->mapEntry[i];
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u32 origLoc = le32_to_cpu(entry->origLocation);
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if (origLoc >= 0xFFFFFFF0)
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break;
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else if (origLoc == packet)
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return le32_to_cpu(entry->mappedLocation) +
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((block + offset) &
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(sdata->s_packet_len - 1));
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else if (origLoc > packet)
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break;
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}
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}
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return map->s_partition_root + block + offset;
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}
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int udf_relocate_blocks(struct super_block *sb, long old_block, long *new_block)
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{
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struct udf_sparing_data *sdata;
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struct sparingTable *st = NULL;
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struct sparingEntry mapEntry;
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uint32_t packet;
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int i, j, k, l;
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struct udf_sb_info *sbi = UDF_SB(sb);
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u16 reallocationTableLen;
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struct buffer_head *bh;
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int ret = 0;
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mutex_lock(&sbi->s_alloc_mutex);
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for (i = 0; i < sbi->s_partitions; i++) {
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struct udf_part_map *map = &sbi->s_partmaps[i];
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if (old_block > map->s_partition_root &&
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old_block < map->s_partition_root + map->s_partition_len) {
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sdata = &map->s_type_specific.s_sparing;
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packet = (old_block - map->s_partition_root) &
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~(sdata->s_packet_len - 1);
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for (j = 0; j < 4; j++)
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if (sdata->s_spar_map[j] != NULL) {
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st = (struct sparingTable *)
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sdata->s_spar_map[j]->b_data;
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break;
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}
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if (!st) {
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ret = 1;
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goto out;
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}
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reallocationTableLen =
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le16_to_cpu(st->reallocationTableLen);
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for (k = 0; k < reallocationTableLen; k++) {
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struct sparingEntry *entry = &st->mapEntry[k];
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u32 origLoc = le32_to_cpu(entry->origLocation);
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if (origLoc == 0xFFFFFFFF) {
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for (; j < 4; j++) {
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int len;
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bh = sdata->s_spar_map[j];
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if (!bh)
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continue;
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st = (struct sparingTable *)
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bh->b_data;
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entry->origLocation =
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cpu_to_le32(packet);
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len =
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sizeof(struct sparingTable) +
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reallocationTableLen *
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sizeof(struct sparingEntry);
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udf_update_tag((char *)st, len);
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mark_buffer_dirty(bh);
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}
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*new_block = le32_to_cpu(
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entry->mappedLocation) +
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((old_block -
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map->s_partition_root) &
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(sdata->s_packet_len - 1));
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ret = 0;
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goto out;
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} else if (origLoc == packet) {
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*new_block = le32_to_cpu(
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entry->mappedLocation) +
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((old_block -
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map->s_partition_root) &
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(sdata->s_packet_len - 1));
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ret = 0;
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goto out;
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} else if (origLoc > packet)
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break;
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}
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for (l = k; l < reallocationTableLen; l++) {
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struct sparingEntry *entry = &st->mapEntry[l];
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u32 origLoc = le32_to_cpu(entry->origLocation);
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if (origLoc != 0xFFFFFFFF)
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continue;
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for (; j < 4; j++) {
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bh = sdata->s_spar_map[j];
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if (!bh)
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continue;
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st = (struct sparingTable *)bh->b_data;
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mapEntry = st->mapEntry[l];
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mapEntry.origLocation =
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cpu_to_le32(packet);
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memmove(&st->mapEntry[k + 1],
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&st->mapEntry[k],
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(l - k) *
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sizeof(struct sparingEntry));
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st->mapEntry[k] = mapEntry;
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udf_update_tag((char *)st,
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sizeof(struct sparingTable) +
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reallocationTableLen *
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sizeof(struct sparingEntry));
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mark_buffer_dirty(bh);
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}
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*new_block =
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le32_to_cpu(
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st->mapEntry[k].mappedLocation) +
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((old_block - map->s_partition_root) &
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(sdata->s_packet_len - 1));
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ret = 0;
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goto out;
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}
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ret = 1;
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goto out;
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} /* if old_block */
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}
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if (i == sbi->s_partitions) {
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/* outside of partitions */
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/* for now, fail =) */
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ret = 1;
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}
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out:
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mutex_unlock(&sbi->s_alloc_mutex);
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return ret;
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}
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static uint32_t udf_try_read_meta(struct inode *inode, uint32_t block,
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uint16_t partition, uint32_t offset)
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{
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struct super_block *sb = inode->i_sb;
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struct udf_part_map *map;
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struct kernel_lb_addr eloc;
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uint32_t elen;
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sector_t ext_offset;
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struct extent_position epos = {};
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uint32_t phyblock;
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if (inode_bmap(inode, block, &epos, &eloc, &elen, &ext_offset) !=
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(EXT_RECORDED_ALLOCATED >> 30))
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phyblock = 0xFFFFFFFF;
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else {
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map = &UDF_SB(sb)->s_partmaps[partition];
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/* map to sparable/physical partition desc */
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phyblock = udf_get_pblock(sb, eloc.logicalBlockNum,
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map->s_type_specific.s_metadata.s_phys_partition_ref,
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ext_offset + offset);
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}
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brelse(epos.bh);
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return phyblock;
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}
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uint32_t udf_get_pblock_meta25(struct super_block *sb, uint32_t block,
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uint16_t partition, uint32_t offset)
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{
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struct udf_sb_info *sbi = UDF_SB(sb);
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struct udf_part_map *map;
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struct udf_meta_data *mdata;
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uint32_t retblk;
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struct inode *inode;
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udf_debug("READING from METADATA\n");
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map = &sbi->s_partmaps[partition];
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mdata = &map->s_type_specific.s_metadata;
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inode = mdata->s_metadata_fe ? : mdata->s_mirror_fe;
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if (!inode)
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return 0xFFFFFFFF;
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retblk = udf_try_read_meta(inode, block, partition, offset);
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if (retblk == 0xFFFFFFFF && mdata->s_metadata_fe) {
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udf_warn(sb, "error reading from METADATA, trying to read from MIRROR\n");
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if (!(mdata->s_flags & MF_MIRROR_FE_LOADED)) {
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mdata->s_mirror_fe = udf_find_metadata_inode_efe(sb,
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mdata->s_mirror_file_loc,
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mdata->s_phys_partition_ref);
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if (IS_ERR(mdata->s_mirror_fe))
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mdata->s_mirror_fe = NULL;
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mdata->s_flags |= MF_MIRROR_FE_LOADED;
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}
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inode = mdata->s_mirror_fe;
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if (!inode)
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return 0xFFFFFFFF;
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retblk = udf_try_read_meta(inode, block, partition, offset);
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}
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return retblk;
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}
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