378 lines
10 KiB
C
378 lines
10 KiB
C
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// SPDX-License-Identifier: GPL-2.0-only
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/*
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* linux/fs/fat/misc.c
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*
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* Written 1992,1993 by Werner Almesberger
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* 22/11/2000 - Fixed fat_date_unix2dos for dates earlier than 01/01/1980
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* and date_dos2unix for date==0 by Igor Zhbanov(bsg@uniyar.ac.ru)
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*/
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#include "fat.h"
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#include <linux/iversion.h>
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/*
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* fat_fs_error reports a file system problem that might indicate fa data
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* corruption/inconsistency. Depending on 'errors' mount option the
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* panic() is called, or error message is printed FAT and nothing is done,
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* or filesystem is remounted read-only (default behavior).
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* In case the file system is remounted read-only, it can be made writable
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* again by remounting it.
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*/
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void __fat_fs_error(struct super_block *sb, int report, const char *fmt, ...)
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{
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struct fat_mount_options *opts = &MSDOS_SB(sb)->options;
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va_list args;
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struct va_format vaf;
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if (report) {
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va_start(args, fmt);
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vaf.fmt = fmt;
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vaf.va = &args;
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fat_msg(sb, KERN_ERR, "error, %pV", &vaf);
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va_end(args);
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}
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if (opts->errors == FAT_ERRORS_PANIC)
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panic("FAT-fs (%s): fs panic from previous error\n", sb->s_id);
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else if (opts->errors == FAT_ERRORS_RO && !sb_rdonly(sb)) {
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sb->s_flags |= SB_RDONLY;
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fat_msg(sb, KERN_ERR, "Filesystem has been set read-only");
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}
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}
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EXPORT_SYMBOL_GPL(__fat_fs_error);
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/**
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* _fat_msg() - Print a preformatted FAT message based on a superblock.
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* @sb: A pointer to a &struct super_block
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* @level: A Kernel printk level constant
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* @fmt: The printf-style format string to print.
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*
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* Everything that is not fat_fs_error() should be fat_msg().
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*
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* fat_msg() wraps _fat_msg() for printk indexing.
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*/
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void _fat_msg(struct super_block *sb, const char *level, const char *fmt, ...)
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{
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struct va_format vaf;
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va_list args;
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va_start(args, fmt);
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vaf.fmt = fmt;
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vaf.va = &args;
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_printk(FAT_PRINTK_PREFIX "%pV\n", level, sb->s_id, &vaf);
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va_end(args);
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}
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/* Flushes the number of free clusters on FAT32 */
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/* XXX: Need to write one per FSINFO block. Currently only writes 1 */
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int fat_clusters_flush(struct super_block *sb)
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{
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struct msdos_sb_info *sbi = MSDOS_SB(sb);
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struct buffer_head *bh;
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struct fat_boot_fsinfo *fsinfo;
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if (!is_fat32(sbi))
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return 0;
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bh = sb_bread(sb, sbi->fsinfo_sector);
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if (bh == NULL) {
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fat_msg(sb, KERN_ERR, "bread failed in fat_clusters_flush");
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return -EIO;
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}
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fsinfo = (struct fat_boot_fsinfo *)bh->b_data;
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/* Sanity check */
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if (!IS_FSINFO(fsinfo)) {
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fat_msg(sb, KERN_ERR, "Invalid FSINFO signature: "
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"0x%08x, 0x%08x (sector = %lu)",
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le32_to_cpu(fsinfo->signature1),
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le32_to_cpu(fsinfo->signature2),
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sbi->fsinfo_sector);
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} else {
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if (sbi->free_clusters != -1)
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fsinfo->free_clusters = cpu_to_le32(sbi->free_clusters);
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if (sbi->prev_free != -1)
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fsinfo->next_cluster = cpu_to_le32(sbi->prev_free);
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mark_buffer_dirty(bh);
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}
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brelse(bh);
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return 0;
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}
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/*
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* fat_chain_add() adds a new cluster to the chain of clusters represented
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* by inode.
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*/
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int fat_chain_add(struct inode *inode, int new_dclus, int nr_cluster)
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{
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struct super_block *sb = inode->i_sb;
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struct msdos_sb_info *sbi = MSDOS_SB(sb);
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int ret, new_fclus, last;
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/*
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* We must locate the last cluster of the file to add this new
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* one (new_dclus) to the end of the link list (the FAT).
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*/
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last = new_fclus = 0;
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if (MSDOS_I(inode)->i_start) {
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int fclus, dclus;
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ret = fat_get_cluster(inode, FAT_ENT_EOF, &fclus, &dclus);
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if (ret < 0)
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return ret;
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new_fclus = fclus + 1;
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last = dclus;
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}
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/* add new one to the last of the cluster chain */
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if (last) {
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struct fat_entry fatent;
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fatent_init(&fatent);
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ret = fat_ent_read(inode, &fatent, last);
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if (ret >= 0) {
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int wait = inode_needs_sync(inode);
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ret = fat_ent_write(inode, &fatent, new_dclus, wait);
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fatent_brelse(&fatent);
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}
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if (ret < 0)
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return ret;
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/*
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* FIXME:Although we can add this cache, fat_cache_add() is
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* assuming to be called after linear search with fat_cache_id.
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*/
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// fat_cache_add(inode, new_fclus, new_dclus);
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} else {
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MSDOS_I(inode)->i_start = new_dclus;
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MSDOS_I(inode)->i_logstart = new_dclus;
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/*
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* Since generic_write_sync() synchronizes regular files later,
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* we sync here only directories.
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*/
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if (S_ISDIR(inode->i_mode) && IS_DIRSYNC(inode)) {
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ret = fat_sync_inode(inode);
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if (ret)
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return ret;
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} else
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mark_inode_dirty(inode);
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}
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if (new_fclus != (inode->i_blocks >> (sbi->cluster_bits - 9))) {
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fat_fs_error(sb, "clusters badly computed (%d != %llu)",
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new_fclus,
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(llu)(inode->i_blocks >> (sbi->cluster_bits - 9)));
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fat_cache_inval_inode(inode);
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}
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inode->i_blocks += nr_cluster << (sbi->cluster_bits - 9);
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return 0;
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}
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/*
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* The epoch of FAT timestamp is 1980.
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* : bits : value
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* date: 0 - 4: day (1 - 31)
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* date: 5 - 8: month (1 - 12)
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* date: 9 - 15: year (0 - 127) from 1980
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* time: 0 - 4: sec (0 - 29) 2sec counts
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* time: 5 - 10: min (0 - 59)
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* time: 11 - 15: hour (0 - 23)
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*/
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#define SECS_PER_MIN 60
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#define SECS_PER_HOUR (60 * 60)
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#define SECS_PER_DAY (SECS_PER_HOUR * 24)
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/* days between 1.1.70 and 1.1.80 (2 leap days) */
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#define DAYS_DELTA (365 * 10 + 2)
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/* 120 (2100 - 1980) isn't leap year */
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#define YEAR_2100 120
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#define IS_LEAP_YEAR(y) (!((y) & 3) && (y) != YEAR_2100)
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/* Linear day numbers of the respective 1sts in non-leap years. */
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static long days_in_year[] = {
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/* Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec */
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0, 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 0, 0, 0,
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};
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static inline int fat_tz_offset(const struct msdos_sb_info *sbi)
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{
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return (sbi->options.tz_set ?
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-sbi->options.time_offset :
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sys_tz.tz_minuteswest) * SECS_PER_MIN;
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}
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/* Convert a FAT time/date pair to a UNIX date (seconds since 1 1 70). */
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void fat_time_fat2unix(struct msdos_sb_info *sbi, struct timespec64 *ts,
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__le16 __time, __le16 __date, u8 time_cs)
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{
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u16 time = le16_to_cpu(__time), date = le16_to_cpu(__date);
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time64_t second;
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long day, leap_day, month, year;
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year = date >> 9;
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month = max(1, (date >> 5) & 0xf);
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day = max(1, date & 0x1f) - 1;
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leap_day = (year + 3) / 4;
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if (year > YEAR_2100) /* 2100 isn't leap year */
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leap_day--;
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if (IS_LEAP_YEAR(year) && month > 2)
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leap_day++;
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second = (time & 0x1f) << 1;
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second += ((time >> 5) & 0x3f) * SECS_PER_MIN;
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second += (time >> 11) * SECS_PER_HOUR;
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second += (time64_t)(year * 365 + leap_day
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+ days_in_year[month] + day
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+ DAYS_DELTA) * SECS_PER_DAY;
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second += fat_tz_offset(sbi);
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if (time_cs) {
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ts->tv_sec = second + (time_cs / 100);
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ts->tv_nsec = (time_cs % 100) * 10000000;
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} else {
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ts->tv_sec = second;
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ts->tv_nsec = 0;
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}
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}
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/* Export fat_time_fat2unix() for the fat_test KUnit tests. */
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EXPORT_SYMBOL_GPL(fat_time_fat2unix);
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/* Convert linear UNIX date to a FAT time/date pair. */
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void fat_time_unix2fat(struct msdos_sb_info *sbi, struct timespec64 *ts,
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__le16 *time, __le16 *date, u8 *time_cs)
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{
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struct tm tm;
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time64_to_tm(ts->tv_sec, -fat_tz_offset(sbi), &tm);
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/* FAT can only support year between 1980 to 2107 */
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if (tm.tm_year < 1980 - 1900) {
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*time = 0;
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*date = cpu_to_le16((0 << 9) | (1 << 5) | 1);
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if (time_cs)
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*time_cs = 0;
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return;
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}
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if (tm.tm_year > 2107 - 1900) {
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*time = cpu_to_le16((23 << 11) | (59 << 5) | 29);
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*date = cpu_to_le16((127 << 9) | (12 << 5) | 31);
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if (time_cs)
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*time_cs = 199;
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return;
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}
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/* from 1900 -> from 1980 */
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tm.tm_year -= 80;
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/* 0~11 -> 1~12 */
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tm.tm_mon++;
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/* 0~59 -> 0~29(2sec counts) */
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tm.tm_sec >>= 1;
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*time = cpu_to_le16(tm.tm_hour << 11 | tm.tm_min << 5 | tm.tm_sec);
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*date = cpu_to_le16(tm.tm_year << 9 | tm.tm_mon << 5 | tm.tm_mday);
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if (time_cs)
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*time_cs = (ts->tv_sec & 1) * 100 + ts->tv_nsec / 10000000;
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}
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EXPORT_SYMBOL_GPL(fat_time_unix2fat);
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static inline struct timespec64 fat_timespec64_trunc_2secs(struct timespec64 ts)
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{
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return (struct timespec64){ ts.tv_sec & ~1ULL, 0 };
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}
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/*
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* truncate atime to 24 hour granularity (00:00:00 in local timezone)
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*/
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struct timespec64 fat_truncate_atime(const struct msdos_sb_info *sbi,
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const struct timespec64 *ts)
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{
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/* to localtime */
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time64_t seconds = ts->tv_sec - fat_tz_offset(sbi);
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s32 remainder;
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div_s64_rem(seconds, SECS_PER_DAY, &remainder);
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/* to day boundary, and back to unix time */
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seconds = seconds + fat_tz_offset(sbi) - remainder;
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return (struct timespec64){ seconds, 0 };
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}
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/*
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* truncate mtime to 2 second granularity
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*/
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struct timespec64 fat_truncate_mtime(const struct msdos_sb_info *sbi,
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const struct timespec64 *ts)
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{
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return fat_timespec64_trunc_2secs(*ts);
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}
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/*
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* truncate the various times with appropriate granularity:
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* all times in root node are always 0
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*/
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int fat_truncate_time(struct inode *inode, struct timespec64 *now, int flags)
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{
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struct msdos_sb_info *sbi = MSDOS_SB(inode->i_sb);
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struct timespec64 ts;
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if (inode->i_ino == MSDOS_ROOT_INO)
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return 0;
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if (now == NULL) {
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now = &ts;
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ts = current_time(inode);
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}
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if (flags & S_ATIME)
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inode->i_atime = fat_truncate_atime(sbi, now);
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/*
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* ctime and mtime share the same on-disk field, and should be
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* identical in memory. all mtime updates will be applied to ctime,
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* but ctime updates are ignored.
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*/
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if (flags & S_MTIME)
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inode->i_mtime = inode->i_ctime = fat_truncate_mtime(sbi, now);
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return 0;
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}
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EXPORT_SYMBOL_GPL(fat_truncate_time);
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int fat_update_time(struct inode *inode, struct timespec64 *now, int flags)
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{
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int dirty_flags = 0;
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if (inode->i_ino == MSDOS_ROOT_INO)
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return 0;
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if (flags & (S_ATIME | S_CTIME | S_MTIME)) {
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fat_truncate_time(inode, now, flags);
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if (inode->i_sb->s_flags & SB_LAZYTIME)
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dirty_flags |= I_DIRTY_TIME;
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else
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dirty_flags |= I_DIRTY_SYNC;
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}
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if ((flags & S_VERSION) && inode_maybe_inc_iversion(inode, false))
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dirty_flags |= I_DIRTY_SYNC;
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__mark_inode_dirty(inode, dirty_flags);
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return 0;
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}
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EXPORT_SYMBOL_GPL(fat_update_time);
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int fat_sync_bhs(struct buffer_head **bhs, int nr_bhs)
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{
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int i, err = 0;
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for (i = 0; i < nr_bhs; i++)
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write_dirty_buffer(bhs[i], 0);
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for (i = 0; i < nr_bhs; i++) {
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wait_on_buffer(bhs[i]);
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if (!err && !buffer_uptodate(bhs[i]))
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err = -EIO;
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}
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return err;
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}
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