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6afc662e68
Now, in product, more and more features based on file encryption were introduced, their demand of xattr space is increasing, however, inline xattr has fixed-size of 200 bytes, once inline xattr space is full, new increased xattr data would occupy additional xattr block which may bring us more space usage and performance regression during persisting. In order to resolve above issue, it's better to expand inline xattr size flexibly according to user's requirement. So this patch introduces new filesystem feature 'flexible inline xattr', and new mount option 'inline_xattr_size=%u', once mkfs enables the feature, we can use the option to make f2fs supporting flexible inline xattr size. To support this feature, we add extra attribute i_inline_xattr_size in inode layout, indicating that how many space inline xattr borrows from block address mapping space in inode layout, by this, we can easily locate and store flexible-sized inline xattr data in inode. Inode disk layout: +----------------------+ | .i_mode | | ... | | .i_ext | +----------------------+ | .i_extra_isize | | .i_inline_xattr_size |-----------+ | ... | | +----------------------+ | | .i_addr | | | - block address or | | | - inline data | | +----------------------+<---+ v | inline xattr | +---inline xattr range +----------------------+<---+ | .i_nid | +----------------------+ | node_footer | | (nid, ino, offset) | +----------------------+ Note that, we have to cnosider backward compatibility which reserved inline_data space, 200 bytes, all the time, reported by Sheng Yong. Previous inline data or directory always reserved 200 bytes in inode layout, even if inline_xattr is disabled. In order to keep inline_dentry's structure for backward compatibility, we get the space back only from inline_data. Signed-off-by: Chao Yu <yuchao0@huawei.com> Reported-by: Sheng Yong <shengyong1@huawei.com> Signed-off-by: Jaegeuk Kim <jaegeuk@kernel.org>
560 lines
16 KiB
C
560 lines
16 KiB
C
/*
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* f2fs sysfs interface
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*
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* Copyright (c) 2012 Samsung Electronics Co., Ltd.
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* http://www.samsung.com/
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* Copyright (c) 2017 Chao Yu <chao@kernel.org>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License version 2 as
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* published by the Free Software Foundation.
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*/
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#include <linux/proc_fs.h>
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#include <linux/f2fs_fs.h>
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#include <linux/seq_file.h>
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#include "f2fs.h"
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#include "segment.h"
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#include "gc.h"
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static struct proc_dir_entry *f2fs_proc_root;
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/* Sysfs support for f2fs */
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enum {
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GC_THREAD, /* struct f2fs_gc_thread */
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SM_INFO, /* struct f2fs_sm_info */
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DCC_INFO, /* struct discard_cmd_control */
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NM_INFO, /* struct f2fs_nm_info */
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F2FS_SBI, /* struct f2fs_sb_info */
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#ifdef CONFIG_F2FS_FAULT_INJECTION
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FAULT_INFO_RATE, /* struct f2fs_fault_info */
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FAULT_INFO_TYPE, /* struct f2fs_fault_info */
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#endif
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RESERVED_BLOCKS,
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};
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struct f2fs_attr {
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struct attribute attr;
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ssize_t (*show)(struct f2fs_attr *, struct f2fs_sb_info *, char *);
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ssize_t (*store)(struct f2fs_attr *, struct f2fs_sb_info *,
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const char *, size_t);
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int struct_type;
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int offset;
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int id;
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};
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static unsigned char *__struct_ptr(struct f2fs_sb_info *sbi, int struct_type)
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{
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if (struct_type == GC_THREAD)
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return (unsigned char *)sbi->gc_thread;
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else if (struct_type == SM_INFO)
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return (unsigned char *)SM_I(sbi);
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else if (struct_type == DCC_INFO)
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return (unsigned char *)SM_I(sbi)->dcc_info;
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else if (struct_type == NM_INFO)
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return (unsigned char *)NM_I(sbi);
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else if (struct_type == F2FS_SBI || struct_type == RESERVED_BLOCKS)
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return (unsigned char *)sbi;
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#ifdef CONFIG_F2FS_FAULT_INJECTION
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else if (struct_type == FAULT_INFO_RATE ||
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struct_type == FAULT_INFO_TYPE)
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return (unsigned char *)&sbi->fault_info;
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#endif
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return NULL;
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}
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static ssize_t dirty_segments_show(struct f2fs_attr *a,
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struct f2fs_sb_info *sbi, char *buf)
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{
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return snprintf(buf, PAGE_SIZE, "%llu\n",
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(unsigned long long)(dirty_segments(sbi)));
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}
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static ssize_t lifetime_write_kbytes_show(struct f2fs_attr *a,
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struct f2fs_sb_info *sbi, char *buf)
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{
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struct super_block *sb = sbi->sb;
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if (!sb->s_bdev->bd_part)
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return snprintf(buf, PAGE_SIZE, "0\n");
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return snprintf(buf, PAGE_SIZE, "%llu\n",
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(unsigned long long)(sbi->kbytes_written +
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BD_PART_WRITTEN(sbi)));
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}
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static ssize_t features_show(struct f2fs_attr *a,
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struct f2fs_sb_info *sbi, char *buf)
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{
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struct super_block *sb = sbi->sb;
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int len = 0;
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if (!sb->s_bdev->bd_part)
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return snprintf(buf, PAGE_SIZE, "0\n");
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if (f2fs_sb_has_crypto(sb))
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len += snprintf(buf, PAGE_SIZE - len, "%s",
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"encryption");
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if (f2fs_sb_mounted_blkzoned(sb))
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len += snprintf(buf + len, PAGE_SIZE - len, "%s%s",
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len ? ", " : "", "blkzoned");
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if (f2fs_sb_has_extra_attr(sb))
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len += snprintf(buf + len, PAGE_SIZE - len, "%s%s",
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len ? ", " : "", "extra_attr");
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if (f2fs_sb_has_project_quota(sb))
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len += snprintf(buf + len, PAGE_SIZE - len, "%s%s",
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len ? ", " : "", "projquota");
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if (f2fs_sb_has_inode_chksum(sb))
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len += snprintf(buf + len, PAGE_SIZE - len, "%s%s",
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len ? ", " : "", "inode_checksum");
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if (f2fs_sb_has_flexible_inline_xattr(sb))
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len += snprintf(buf + len, PAGE_SIZE - len, "%s%s",
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len ? ", " : "", "flexible_inline_xattr");
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len += snprintf(buf + len, PAGE_SIZE - len, "\n");
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return len;
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}
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static ssize_t f2fs_sbi_show(struct f2fs_attr *a,
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struct f2fs_sb_info *sbi, char *buf)
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{
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unsigned char *ptr = NULL;
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unsigned int *ui;
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ptr = __struct_ptr(sbi, a->struct_type);
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if (!ptr)
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return -EINVAL;
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ui = (unsigned int *)(ptr + a->offset);
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return snprintf(buf, PAGE_SIZE, "%u\n", *ui);
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}
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static ssize_t f2fs_sbi_store(struct f2fs_attr *a,
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struct f2fs_sb_info *sbi,
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const char *buf, size_t count)
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{
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unsigned char *ptr;
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unsigned long t;
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unsigned int *ui;
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ssize_t ret;
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ptr = __struct_ptr(sbi, a->struct_type);
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if (!ptr)
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return -EINVAL;
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ui = (unsigned int *)(ptr + a->offset);
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ret = kstrtoul(skip_spaces(buf), 0, &t);
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if (ret < 0)
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return ret;
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#ifdef CONFIG_F2FS_FAULT_INJECTION
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if (a->struct_type == FAULT_INFO_TYPE && t >= (1 << FAULT_MAX))
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return -EINVAL;
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#endif
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if (a->struct_type == RESERVED_BLOCKS) {
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spin_lock(&sbi->stat_lock);
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if ((unsigned long)sbi->total_valid_block_count + t >
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(unsigned long)sbi->user_block_count) {
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spin_unlock(&sbi->stat_lock);
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return -EINVAL;
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}
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*ui = t;
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spin_unlock(&sbi->stat_lock);
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return count;
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}
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if (!strcmp(a->attr.name, "discard_granularity")) {
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if (t == 0 || t > MAX_PLIST_NUM)
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return -EINVAL;
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if (t == *ui)
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return count;
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*ui = t;
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return count;
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}
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*ui = t;
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if (!strcmp(a->attr.name, "iostat_enable") && *ui == 0)
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f2fs_reset_iostat(sbi);
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if (!strcmp(a->attr.name, "gc_urgent") && t == 1 && sbi->gc_thread) {
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sbi->gc_thread->gc_wake = 1;
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wake_up_interruptible_all(&sbi->gc_thread->gc_wait_queue_head);
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wake_up_discard_thread(sbi, true);
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}
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return count;
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}
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static ssize_t f2fs_attr_show(struct kobject *kobj,
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struct attribute *attr, char *buf)
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{
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struct f2fs_sb_info *sbi = container_of(kobj, struct f2fs_sb_info,
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s_kobj);
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struct f2fs_attr *a = container_of(attr, struct f2fs_attr, attr);
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return a->show ? a->show(a, sbi, buf) : 0;
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}
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static ssize_t f2fs_attr_store(struct kobject *kobj, struct attribute *attr,
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const char *buf, size_t len)
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{
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struct f2fs_sb_info *sbi = container_of(kobj, struct f2fs_sb_info,
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s_kobj);
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struct f2fs_attr *a = container_of(attr, struct f2fs_attr, attr);
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return a->store ? a->store(a, sbi, buf, len) : 0;
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}
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static void f2fs_sb_release(struct kobject *kobj)
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{
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struct f2fs_sb_info *sbi = container_of(kobj, struct f2fs_sb_info,
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s_kobj);
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complete(&sbi->s_kobj_unregister);
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}
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enum feat_id {
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FEAT_CRYPTO = 0,
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FEAT_BLKZONED,
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FEAT_ATOMIC_WRITE,
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FEAT_EXTRA_ATTR,
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FEAT_PROJECT_QUOTA,
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FEAT_INODE_CHECKSUM,
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FEAT_FLEXIBLE_INLINE_XATTR,
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};
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static ssize_t f2fs_feature_show(struct f2fs_attr *a,
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struct f2fs_sb_info *sbi, char *buf)
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{
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switch (a->id) {
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case FEAT_CRYPTO:
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case FEAT_BLKZONED:
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case FEAT_ATOMIC_WRITE:
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case FEAT_EXTRA_ATTR:
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case FEAT_PROJECT_QUOTA:
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case FEAT_INODE_CHECKSUM:
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case FEAT_FLEXIBLE_INLINE_XATTR:
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return snprintf(buf, PAGE_SIZE, "supported\n");
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}
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return 0;
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}
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#define F2FS_ATTR_OFFSET(_struct_type, _name, _mode, _show, _store, _offset) \
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static struct f2fs_attr f2fs_attr_##_name = { \
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.attr = {.name = __stringify(_name), .mode = _mode }, \
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.show = _show, \
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.store = _store, \
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.struct_type = _struct_type, \
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.offset = _offset \
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}
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#define F2FS_RW_ATTR(struct_type, struct_name, name, elname) \
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F2FS_ATTR_OFFSET(struct_type, name, 0644, \
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f2fs_sbi_show, f2fs_sbi_store, \
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offsetof(struct struct_name, elname))
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#define F2FS_GENERAL_RO_ATTR(name) \
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static struct f2fs_attr f2fs_attr_##name = __ATTR(name, 0444, name##_show, NULL)
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#define F2FS_FEATURE_RO_ATTR(_name, _id) \
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static struct f2fs_attr f2fs_attr_##_name = { \
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.attr = {.name = __stringify(_name), .mode = 0444 }, \
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.show = f2fs_feature_show, \
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.id = _id, \
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}
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F2FS_RW_ATTR(GC_THREAD, f2fs_gc_kthread, gc_urgent_sleep_time,
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urgent_sleep_time);
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F2FS_RW_ATTR(GC_THREAD, f2fs_gc_kthread, gc_min_sleep_time, min_sleep_time);
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F2FS_RW_ATTR(GC_THREAD, f2fs_gc_kthread, gc_max_sleep_time, max_sleep_time);
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F2FS_RW_ATTR(GC_THREAD, f2fs_gc_kthread, gc_no_gc_sleep_time, no_gc_sleep_time);
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F2FS_RW_ATTR(GC_THREAD, f2fs_gc_kthread, gc_idle, gc_idle);
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F2FS_RW_ATTR(GC_THREAD, f2fs_gc_kthread, gc_urgent, gc_urgent);
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F2FS_RW_ATTR(SM_INFO, f2fs_sm_info, reclaim_segments, rec_prefree_segments);
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F2FS_RW_ATTR(DCC_INFO, discard_cmd_control, max_small_discards, max_discards);
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F2FS_RW_ATTR(DCC_INFO, discard_cmd_control, discard_granularity, discard_granularity);
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F2FS_RW_ATTR(RESERVED_BLOCKS, f2fs_sb_info, reserved_blocks, reserved_blocks);
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F2FS_RW_ATTR(SM_INFO, f2fs_sm_info, batched_trim_sections, trim_sections);
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F2FS_RW_ATTR(SM_INFO, f2fs_sm_info, ipu_policy, ipu_policy);
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F2FS_RW_ATTR(SM_INFO, f2fs_sm_info, min_ipu_util, min_ipu_util);
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F2FS_RW_ATTR(SM_INFO, f2fs_sm_info, min_fsync_blocks, min_fsync_blocks);
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F2FS_RW_ATTR(SM_INFO, f2fs_sm_info, min_hot_blocks, min_hot_blocks);
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F2FS_RW_ATTR(NM_INFO, f2fs_nm_info, ram_thresh, ram_thresh);
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F2FS_RW_ATTR(NM_INFO, f2fs_nm_info, ra_nid_pages, ra_nid_pages);
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F2FS_RW_ATTR(NM_INFO, f2fs_nm_info, dirty_nats_ratio, dirty_nats_ratio);
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F2FS_RW_ATTR(F2FS_SBI, f2fs_sb_info, max_victim_search, max_victim_search);
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F2FS_RW_ATTR(F2FS_SBI, f2fs_sb_info, dir_level, dir_level);
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F2FS_RW_ATTR(F2FS_SBI, f2fs_sb_info, cp_interval, interval_time[CP_TIME]);
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F2FS_RW_ATTR(F2FS_SBI, f2fs_sb_info, idle_interval, interval_time[REQ_TIME]);
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F2FS_RW_ATTR(F2FS_SBI, f2fs_sb_info, iostat_enable, iostat_enable);
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#ifdef CONFIG_F2FS_FAULT_INJECTION
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F2FS_RW_ATTR(FAULT_INFO_RATE, f2fs_fault_info, inject_rate, inject_rate);
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F2FS_RW_ATTR(FAULT_INFO_TYPE, f2fs_fault_info, inject_type, inject_type);
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#endif
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F2FS_GENERAL_RO_ATTR(dirty_segments);
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F2FS_GENERAL_RO_ATTR(lifetime_write_kbytes);
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F2FS_GENERAL_RO_ATTR(features);
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#ifdef CONFIG_F2FS_FS_ENCRYPTION
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F2FS_FEATURE_RO_ATTR(encryption, FEAT_CRYPTO);
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#endif
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#ifdef CONFIG_BLK_DEV_ZONED
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F2FS_FEATURE_RO_ATTR(block_zoned, FEAT_BLKZONED);
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#endif
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F2FS_FEATURE_RO_ATTR(atomic_write, FEAT_ATOMIC_WRITE);
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F2FS_FEATURE_RO_ATTR(extra_attr, FEAT_EXTRA_ATTR);
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F2FS_FEATURE_RO_ATTR(project_quota, FEAT_PROJECT_QUOTA);
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F2FS_FEATURE_RO_ATTR(inode_checksum, FEAT_INODE_CHECKSUM);
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F2FS_FEATURE_RO_ATTR(flexible_inline_xattr, FEAT_FLEXIBLE_INLINE_XATTR);
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#define ATTR_LIST(name) (&f2fs_attr_##name.attr)
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static struct attribute *f2fs_attrs[] = {
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ATTR_LIST(gc_urgent_sleep_time),
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ATTR_LIST(gc_min_sleep_time),
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ATTR_LIST(gc_max_sleep_time),
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ATTR_LIST(gc_no_gc_sleep_time),
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ATTR_LIST(gc_idle),
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ATTR_LIST(gc_urgent),
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ATTR_LIST(reclaim_segments),
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ATTR_LIST(max_small_discards),
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ATTR_LIST(discard_granularity),
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ATTR_LIST(batched_trim_sections),
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ATTR_LIST(ipu_policy),
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ATTR_LIST(min_ipu_util),
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ATTR_LIST(min_fsync_blocks),
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ATTR_LIST(min_hot_blocks),
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ATTR_LIST(max_victim_search),
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ATTR_LIST(dir_level),
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ATTR_LIST(ram_thresh),
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ATTR_LIST(ra_nid_pages),
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ATTR_LIST(dirty_nats_ratio),
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ATTR_LIST(cp_interval),
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ATTR_LIST(idle_interval),
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ATTR_LIST(iostat_enable),
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#ifdef CONFIG_F2FS_FAULT_INJECTION
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ATTR_LIST(inject_rate),
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ATTR_LIST(inject_type),
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#endif
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ATTR_LIST(dirty_segments),
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ATTR_LIST(lifetime_write_kbytes),
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ATTR_LIST(features),
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ATTR_LIST(reserved_blocks),
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NULL,
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};
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static struct attribute *f2fs_feat_attrs[] = {
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#ifdef CONFIG_F2FS_FS_ENCRYPTION
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ATTR_LIST(encryption),
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#endif
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#ifdef CONFIG_BLK_DEV_ZONED
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ATTR_LIST(block_zoned),
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#endif
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ATTR_LIST(atomic_write),
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ATTR_LIST(extra_attr),
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ATTR_LIST(project_quota),
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ATTR_LIST(inode_checksum),
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ATTR_LIST(flexible_inline_xattr),
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NULL,
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};
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static const struct sysfs_ops f2fs_attr_ops = {
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.show = f2fs_attr_show,
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.store = f2fs_attr_store,
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};
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static struct kobj_type f2fs_sb_ktype = {
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.default_attrs = f2fs_attrs,
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.sysfs_ops = &f2fs_attr_ops,
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.release = f2fs_sb_release,
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};
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static struct kobj_type f2fs_ktype = {
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.sysfs_ops = &f2fs_attr_ops,
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};
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static struct kset f2fs_kset = {
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.kobj = {.ktype = &f2fs_ktype},
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};
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static struct kobj_type f2fs_feat_ktype = {
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.default_attrs = f2fs_feat_attrs,
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.sysfs_ops = &f2fs_attr_ops,
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};
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static struct kobject f2fs_feat = {
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.kset = &f2fs_kset,
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};
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static int segment_info_seq_show(struct seq_file *seq, void *offset)
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{
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struct super_block *sb = seq->private;
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struct f2fs_sb_info *sbi = F2FS_SB(sb);
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unsigned int total_segs =
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le32_to_cpu(sbi->raw_super->segment_count_main);
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int i;
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seq_puts(seq, "format: segment_type|valid_blocks\n"
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"segment_type(0:HD, 1:WD, 2:CD, 3:HN, 4:WN, 5:CN)\n");
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for (i = 0; i < total_segs; i++) {
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struct seg_entry *se = get_seg_entry(sbi, i);
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if ((i % 10) == 0)
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seq_printf(seq, "%-10d", i);
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seq_printf(seq, "%d|%-3u", se->type,
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get_valid_blocks(sbi, i, false));
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if ((i % 10) == 9 || i == (total_segs - 1))
|
|
seq_putc(seq, '\n');
|
|
else
|
|
seq_putc(seq, ' ');
|
|
}
|
|
|
|
return 0;
|
|
}
|
|
|
|
static int segment_bits_seq_show(struct seq_file *seq, void *offset)
|
|
{
|
|
struct super_block *sb = seq->private;
|
|
struct f2fs_sb_info *sbi = F2FS_SB(sb);
|
|
unsigned int total_segs =
|
|
le32_to_cpu(sbi->raw_super->segment_count_main);
|
|
int i, j;
|
|
|
|
seq_puts(seq, "format: segment_type|valid_blocks|bitmaps\n"
|
|
"segment_type(0:HD, 1:WD, 2:CD, 3:HN, 4:WN, 5:CN)\n");
|
|
|
|
for (i = 0; i < total_segs; i++) {
|
|
struct seg_entry *se = get_seg_entry(sbi, i);
|
|
|
|
seq_printf(seq, "%-10d", i);
|
|
seq_printf(seq, "%d|%-3u|", se->type,
|
|
get_valid_blocks(sbi, i, false));
|
|
for (j = 0; j < SIT_VBLOCK_MAP_SIZE; j++)
|
|
seq_printf(seq, " %.2x", se->cur_valid_map[j]);
|
|
seq_putc(seq, '\n');
|
|
}
|
|
return 0;
|
|
}
|
|
|
|
static int iostat_info_seq_show(struct seq_file *seq, void *offset)
|
|
{
|
|
struct super_block *sb = seq->private;
|
|
struct f2fs_sb_info *sbi = F2FS_SB(sb);
|
|
time64_t now = ktime_get_real_seconds();
|
|
|
|
if (!sbi->iostat_enable)
|
|
return 0;
|
|
|
|
seq_printf(seq, "time: %-16llu\n", now);
|
|
|
|
/* print app IOs */
|
|
seq_printf(seq, "app buffered: %-16llu\n",
|
|
sbi->write_iostat[APP_BUFFERED_IO]);
|
|
seq_printf(seq, "app direct: %-16llu\n",
|
|
sbi->write_iostat[APP_DIRECT_IO]);
|
|
seq_printf(seq, "app mapped: %-16llu\n",
|
|
sbi->write_iostat[APP_MAPPED_IO]);
|
|
|
|
/* print fs IOs */
|
|
seq_printf(seq, "fs data: %-16llu\n",
|
|
sbi->write_iostat[FS_DATA_IO]);
|
|
seq_printf(seq, "fs node: %-16llu\n",
|
|
sbi->write_iostat[FS_NODE_IO]);
|
|
seq_printf(seq, "fs meta: %-16llu\n",
|
|
sbi->write_iostat[FS_META_IO]);
|
|
seq_printf(seq, "fs gc data: %-16llu\n",
|
|
sbi->write_iostat[FS_GC_DATA_IO]);
|
|
seq_printf(seq, "fs gc node: %-16llu\n",
|
|
sbi->write_iostat[FS_GC_NODE_IO]);
|
|
seq_printf(seq, "fs cp data: %-16llu\n",
|
|
sbi->write_iostat[FS_CP_DATA_IO]);
|
|
seq_printf(seq, "fs cp node: %-16llu\n",
|
|
sbi->write_iostat[FS_CP_NODE_IO]);
|
|
seq_printf(seq, "fs cp meta: %-16llu\n",
|
|
sbi->write_iostat[FS_CP_META_IO]);
|
|
seq_printf(seq, "fs discard: %-16llu\n",
|
|
sbi->write_iostat[FS_DISCARD]);
|
|
|
|
return 0;
|
|
}
|
|
|
|
#define F2FS_PROC_FILE_DEF(_name) \
|
|
static int _name##_open_fs(struct inode *inode, struct file *file) \
|
|
{ \
|
|
return single_open(file, _name##_seq_show, PDE_DATA(inode)); \
|
|
} \
|
|
\
|
|
static const struct file_operations f2fs_seq_##_name##_fops = { \
|
|
.open = _name##_open_fs, \
|
|
.read = seq_read, \
|
|
.llseek = seq_lseek, \
|
|
.release = single_release, \
|
|
};
|
|
|
|
F2FS_PROC_FILE_DEF(segment_info);
|
|
F2FS_PROC_FILE_DEF(segment_bits);
|
|
F2FS_PROC_FILE_DEF(iostat_info);
|
|
|
|
int __init f2fs_init_sysfs(void)
|
|
{
|
|
int ret;
|
|
|
|
kobject_set_name(&f2fs_kset.kobj, "f2fs");
|
|
f2fs_kset.kobj.parent = fs_kobj;
|
|
ret = kset_register(&f2fs_kset);
|
|
if (ret)
|
|
return ret;
|
|
|
|
ret = kobject_init_and_add(&f2fs_feat, &f2fs_feat_ktype,
|
|
NULL, "features");
|
|
if (ret)
|
|
kset_unregister(&f2fs_kset);
|
|
else
|
|
f2fs_proc_root = proc_mkdir("fs/f2fs", NULL);
|
|
return ret;
|
|
}
|
|
|
|
void f2fs_exit_sysfs(void)
|
|
{
|
|
kobject_put(&f2fs_feat);
|
|
kset_unregister(&f2fs_kset);
|
|
remove_proc_entry("fs/f2fs", NULL);
|
|
f2fs_proc_root = NULL;
|
|
}
|
|
|
|
int f2fs_register_sysfs(struct f2fs_sb_info *sbi)
|
|
{
|
|
struct super_block *sb = sbi->sb;
|
|
int err;
|
|
|
|
sbi->s_kobj.kset = &f2fs_kset;
|
|
init_completion(&sbi->s_kobj_unregister);
|
|
err = kobject_init_and_add(&sbi->s_kobj, &f2fs_sb_ktype, NULL,
|
|
"%s", sb->s_id);
|
|
if (err)
|
|
return err;
|
|
|
|
if (f2fs_proc_root)
|
|
sbi->s_proc = proc_mkdir(sb->s_id, f2fs_proc_root);
|
|
|
|
if (sbi->s_proc) {
|
|
proc_create_data("segment_info", S_IRUGO, sbi->s_proc,
|
|
&f2fs_seq_segment_info_fops, sb);
|
|
proc_create_data("segment_bits", S_IRUGO, sbi->s_proc,
|
|
&f2fs_seq_segment_bits_fops, sb);
|
|
proc_create_data("iostat_info", S_IRUGO, sbi->s_proc,
|
|
&f2fs_seq_iostat_info_fops, sb);
|
|
}
|
|
return 0;
|
|
}
|
|
|
|
void f2fs_unregister_sysfs(struct f2fs_sb_info *sbi)
|
|
{
|
|
if (sbi->s_proc) {
|
|
remove_proc_entry("iostat_info", sbi->s_proc);
|
|
remove_proc_entry("segment_info", sbi->s_proc);
|
|
remove_proc_entry("segment_bits", sbi->s_proc);
|
|
remove_proc_entry(sbi->sb->s_id, f2fs_proc_root);
|
|
}
|
|
kobject_del(&sbi->s_kobj);
|
|
}
|