5a0e3ad6af
percpu.h is included by sched.h and module.h and thus ends up being included when building most .c files. percpu.h includes slab.h which in turn includes gfp.h making everything defined by the two files universally available and complicating inclusion dependencies. percpu.h -> slab.h dependency is about to be removed. Prepare for this change by updating users of gfp and slab facilities include those headers directly instead of assuming availability. As this conversion needs to touch large number of source files, the following script is used as the basis of conversion. http://userweb.kernel.org/~tj/misc/slabh-sweep.py The script does the followings. * Scan files for gfp and slab usages and update includes such that only the necessary includes are there. ie. if only gfp is used, gfp.h, if slab is used, slab.h. * When the script inserts a new include, it looks at the include blocks and try to put the new include such that its order conforms to its surrounding. It's put in the include block which contains core kernel includes, in the same order that the rest are ordered - alphabetical, Christmas tree, rev-Xmas-tree or at the end if there doesn't seem to be any matching order. * If the script can't find a place to put a new include (mostly because the file doesn't have fitting include block), it prints out an error message indicating which .h file needs to be added to the file. The conversion was done in the following steps. 1. The initial automatic conversion of all .c files updated slightly over 4000 files, deleting around 700 includes and adding ~480 gfp.h and ~3000 slab.h inclusions. The script emitted errors for ~400 files. 2. Each error was manually checked. Some didn't need the inclusion, some needed manual addition while adding it to implementation .h or embedding .c file was more appropriate for others. This step added inclusions to around 150 files. 3. The script was run again and the output was compared to the edits from #2 to make sure no file was left behind. 4. Several build tests were done and a couple of problems were fixed. e.g. lib/decompress_*.c used malloc/free() wrappers around slab APIs requiring slab.h to be added manually. 5. The script was run on all .h files but without automatically editing them as sprinkling gfp.h and slab.h inclusions around .h files could easily lead to inclusion dependency hell. Most gfp.h inclusion directives were ignored as stuff from gfp.h was usually wildly available and often used in preprocessor macros. Each slab.h inclusion directive was examined and added manually as necessary. 6. percpu.h was updated not to include slab.h. 7. Build test were done on the following configurations and failures were fixed. CONFIG_GCOV_KERNEL was turned off for all tests (as my distributed build env didn't work with gcov compiles) and a few more options had to be turned off depending on archs to make things build (like ipr on powerpc/64 which failed due to missing writeq). * x86 and x86_64 UP and SMP allmodconfig and a custom test config. * powerpc and powerpc64 SMP allmodconfig * sparc and sparc64 SMP allmodconfig * ia64 SMP allmodconfig * s390 SMP allmodconfig * alpha SMP allmodconfig * um on x86_64 SMP allmodconfig 8. percpu.h modifications were reverted so that it could be applied as a separate patch and serve as bisection point. Given the fact that I had only a couple of failures from tests on step 6, I'm fairly confident about the coverage of this conversion patch. If there is a breakage, it's likely to be something in one of the arch headers which should be easily discoverable easily on most builds of the specific arch. Signed-off-by: Tejun Heo <tj@kernel.org> Guess-its-ok-by: Christoph Lameter <cl@linux-foundation.org> Cc: Ingo Molnar <mingo@redhat.com> Cc: Lee Schermerhorn <Lee.Schermerhorn@hp.com>
419 lines
11 KiB
C
419 lines
11 KiB
C
/*
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* fs/logfs/inode.c - inode handling code
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*
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* As should be obvious for Linux kernel code, license is GPLv2
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*
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* Copyright (c) 2005-2008 Joern Engel <joern@logfs.org>
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*/
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#include "logfs.h"
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#include <linux/slab.h>
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#include <linux/writeback.h>
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#include <linux/backing-dev.h>
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/*
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* How soon to reuse old inode numbers? LogFS doesn't store deleted inodes
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* on the medium. It therefore also lacks a method to store the previous
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* generation number for deleted inodes. Instead a single generation number
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* is stored which will be used for new inodes. Being just a 32bit counter,
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* this can obvious wrap relatively quickly. So we only reuse inodes if we
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* know that a fair number of inodes can be created before we have to increment
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* the generation again - effectively adding some bits to the counter.
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* But being too aggressive here means we keep a very large and very sparse
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* inode file, wasting space on indirect blocks.
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* So what is a good value? Beats me. 64k seems moderately bad on both
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* fronts, so let's use that for now...
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*
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* NFS sucks, as everyone already knows.
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*/
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#define INOS_PER_WRAP (0x10000)
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/*
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* Logfs' requirement to read inodes for garbage collection makes life a bit
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* harder. GC may have to read inodes that are in I_FREEING state, when they
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* are being written out - and waiting for GC to make progress, naturally.
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*
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* So we cannot just call iget() or some variant of it, but first have to check
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* wether the inode in question might be in I_FREEING state. Therefore we
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* maintain our own per-sb list of "almost deleted" inodes and check against
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* that list first. Normally this should be at most 1-2 entries long.
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*
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* Also, inodes have logfs-specific reference counting on top of what the vfs
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* does. When .destroy_inode is called, normally the reference count will drop
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* to zero and the inode gets deleted. But if GC accessed the inode, its
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* refcount will remain nonzero and final deletion will have to wait.
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*
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* As a result we have two sets of functions to get/put inodes:
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* logfs_safe_iget/logfs_safe_iput - safe to call from GC context
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* logfs_iget/iput - normal version
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*/
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static struct kmem_cache *logfs_inode_cache;
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static DEFINE_SPINLOCK(logfs_inode_lock);
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static void logfs_inode_setops(struct inode *inode)
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{
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switch (inode->i_mode & S_IFMT) {
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case S_IFDIR:
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inode->i_op = &logfs_dir_iops;
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inode->i_fop = &logfs_dir_fops;
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inode->i_mapping->a_ops = &logfs_reg_aops;
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break;
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case S_IFREG:
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inode->i_op = &logfs_reg_iops;
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inode->i_fop = &logfs_reg_fops;
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inode->i_mapping->a_ops = &logfs_reg_aops;
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break;
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case S_IFLNK:
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inode->i_op = &logfs_symlink_iops;
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inode->i_mapping->a_ops = &logfs_reg_aops;
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break;
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case S_IFSOCK: /* fall through */
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case S_IFBLK: /* fall through */
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case S_IFCHR: /* fall through */
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case S_IFIFO:
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init_special_inode(inode, inode->i_mode, inode->i_rdev);
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break;
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default:
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BUG();
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}
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}
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static struct inode *__logfs_iget(struct super_block *sb, ino_t ino)
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{
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struct inode *inode = iget_locked(sb, ino);
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int err;
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if (!inode)
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return ERR_PTR(-ENOMEM);
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if (!(inode->i_state & I_NEW))
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return inode;
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err = logfs_read_inode(inode);
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if (err || inode->i_nlink == 0) {
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/* inode->i_nlink == 0 can be true when called from
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* block validator */
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/* set i_nlink to 0 to prevent caching */
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inode->i_nlink = 0;
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logfs_inode(inode)->li_flags |= LOGFS_IF_ZOMBIE;
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iget_failed(inode);
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if (!err)
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err = -ENOENT;
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return ERR_PTR(err);
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}
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logfs_inode_setops(inode);
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unlock_new_inode(inode);
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return inode;
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}
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struct inode *logfs_iget(struct super_block *sb, ino_t ino)
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{
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BUG_ON(ino == LOGFS_INO_MASTER);
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BUG_ON(ino == LOGFS_INO_SEGFILE);
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return __logfs_iget(sb, ino);
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}
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/*
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* is_cached is set to 1 if we hand out a cached inode, 0 otherwise.
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* this allows logfs_iput to do the right thing later
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*/
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struct inode *logfs_safe_iget(struct super_block *sb, ino_t ino, int *is_cached)
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{
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struct logfs_super *super = logfs_super(sb);
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struct logfs_inode *li;
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if (ino == LOGFS_INO_MASTER)
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return super->s_master_inode;
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if (ino == LOGFS_INO_SEGFILE)
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return super->s_segfile_inode;
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spin_lock(&logfs_inode_lock);
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list_for_each_entry(li, &super->s_freeing_list, li_freeing_list)
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if (li->vfs_inode.i_ino == ino) {
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li->li_refcount++;
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spin_unlock(&logfs_inode_lock);
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*is_cached = 1;
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return &li->vfs_inode;
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}
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spin_unlock(&logfs_inode_lock);
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*is_cached = 0;
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return __logfs_iget(sb, ino);
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}
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static void __logfs_destroy_inode(struct inode *inode)
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{
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struct logfs_inode *li = logfs_inode(inode);
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BUG_ON(li->li_block);
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list_del(&li->li_freeing_list);
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kmem_cache_free(logfs_inode_cache, li);
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}
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static void logfs_destroy_inode(struct inode *inode)
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{
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struct logfs_inode *li = logfs_inode(inode);
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BUG_ON(list_empty(&li->li_freeing_list));
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spin_lock(&logfs_inode_lock);
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li->li_refcount--;
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if (li->li_refcount == 0)
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__logfs_destroy_inode(inode);
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spin_unlock(&logfs_inode_lock);
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}
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void logfs_safe_iput(struct inode *inode, int is_cached)
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{
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if (inode->i_ino == LOGFS_INO_MASTER)
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return;
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if (inode->i_ino == LOGFS_INO_SEGFILE)
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return;
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if (is_cached) {
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logfs_destroy_inode(inode);
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return;
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}
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iput(inode);
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}
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static void logfs_init_inode(struct super_block *sb, struct inode *inode)
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{
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struct logfs_inode *li = logfs_inode(inode);
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int i;
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li->li_flags = 0;
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li->li_height = 0;
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li->li_used_bytes = 0;
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li->li_block = NULL;
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inode->i_uid = 0;
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inode->i_gid = 0;
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inode->i_size = 0;
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inode->i_blocks = 0;
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inode->i_ctime = CURRENT_TIME;
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inode->i_mtime = CURRENT_TIME;
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inode->i_nlink = 1;
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INIT_LIST_HEAD(&li->li_freeing_list);
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for (i = 0; i < LOGFS_EMBEDDED_FIELDS; i++)
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li->li_data[i] = 0;
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return;
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}
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static struct inode *logfs_alloc_inode(struct super_block *sb)
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{
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struct logfs_inode *li;
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li = kmem_cache_alloc(logfs_inode_cache, GFP_NOFS);
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if (!li)
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return NULL;
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logfs_init_inode(sb, &li->vfs_inode);
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return &li->vfs_inode;
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}
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/*
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* In logfs inodes are written to an inode file. The inode file, like any
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* other file, is managed with a inode. The inode file's inode, aka master
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* inode, requires special handling in several respects. First, it cannot be
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* written to the inode file, so it is stored in the journal instead.
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*
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* Secondly, this inode cannot be written back and destroyed before all other
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* inodes have been written. The ordering is important. Linux' VFS is happily
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* unaware of the ordering constraint and would ordinarily destroy the master
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* inode at umount time while other inodes are still in use and dirty. Not
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* good.
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*
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* So logfs makes sure the master inode is not written until all other inodes
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* have been destroyed. Sadly, this method has another side-effect. The VFS
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* will notice one remaining inode and print a frightening warning message.
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* Worse, it is impossible to judge whether such a warning was caused by the
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* master inode or any other inodes have leaked as well.
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*
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* Our attempt of solving this is with logfs_new_meta_inode() below. Its
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* purpose is to create a new inode that will not trigger the warning if such
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* an inode is still in use. An ugly hack, no doubt. Suggections for
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* improvement are welcome.
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*/
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struct inode *logfs_new_meta_inode(struct super_block *sb, u64 ino)
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{
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struct inode *inode;
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inode = logfs_alloc_inode(sb);
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if (!inode)
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return ERR_PTR(-ENOMEM);
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inode->i_mode = S_IFREG;
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inode->i_ino = ino;
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inode->i_sb = sb;
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/* This is a blatant copy of alloc_inode code. We'd need alloc_inode
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* to be nonstatic, alas. */
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{
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struct address_space * const mapping = &inode->i_data;
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mapping->a_ops = &logfs_reg_aops;
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mapping->host = inode;
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mapping->flags = 0;
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mapping_set_gfp_mask(mapping, GFP_NOFS);
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mapping->assoc_mapping = NULL;
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mapping->backing_dev_info = &default_backing_dev_info;
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inode->i_mapping = mapping;
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inode->i_nlink = 1;
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}
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return inode;
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}
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struct inode *logfs_read_meta_inode(struct super_block *sb, u64 ino)
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{
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struct inode *inode;
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int err;
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inode = logfs_new_meta_inode(sb, ino);
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if (IS_ERR(inode))
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return inode;
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err = logfs_read_inode(inode);
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if (err) {
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destroy_meta_inode(inode);
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return ERR_PTR(err);
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}
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logfs_inode_setops(inode);
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return inode;
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}
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static int logfs_write_inode(struct inode *inode, struct writeback_control *wbc)
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{
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int ret;
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long flags = WF_LOCK;
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/* Can only happen if creat() failed. Safe to skip. */
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if (logfs_inode(inode)->li_flags & LOGFS_IF_STILLBORN)
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return 0;
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ret = __logfs_write_inode(inode, flags);
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LOGFS_BUG_ON(ret, inode->i_sb);
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return ret;
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}
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void destroy_meta_inode(struct inode *inode)
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{
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if (inode) {
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if (inode->i_data.nrpages)
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truncate_inode_pages(&inode->i_data, 0);
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logfs_clear_inode(inode);
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kmem_cache_free(logfs_inode_cache, logfs_inode(inode));
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}
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}
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/* called with inode_lock held */
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static void logfs_drop_inode(struct inode *inode)
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{
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struct logfs_super *super = logfs_super(inode->i_sb);
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struct logfs_inode *li = logfs_inode(inode);
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spin_lock(&logfs_inode_lock);
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list_move(&li->li_freeing_list, &super->s_freeing_list);
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spin_unlock(&logfs_inode_lock);
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generic_drop_inode(inode);
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}
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static void logfs_set_ino_generation(struct super_block *sb,
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struct inode *inode)
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{
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struct logfs_super *super = logfs_super(sb);
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u64 ino;
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mutex_lock(&super->s_journal_mutex);
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ino = logfs_seek_hole(super->s_master_inode, super->s_last_ino);
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super->s_last_ino = ino;
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super->s_inos_till_wrap--;
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if (super->s_inos_till_wrap < 0) {
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super->s_last_ino = LOGFS_RESERVED_INOS;
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super->s_generation++;
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super->s_inos_till_wrap = INOS_PER_WRAP;
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}
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inode->i_ino = ino;
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inode->i_generation = super->s_generation;
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mutex_unlock(&super->s_journal_mutex);
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}
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struct inode *logfs_new_inode(struct inode *dir, int mode)
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{
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struct super_block *sb = dir->i_sb;
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struct inode *inode;
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inode = new_inode(sb);
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if (!inode)
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return ERR_PTR(-ENOMEM);
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logfs_init_inode(sb, inode);
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/* inherit parent flags */
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logfs_inode(inode)->li_flags |=
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logfs_inode(dir)->li_flags & LOGFS_FL_INHERITED;
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inode->i_mode = mode;
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logfs_set_ino_generation(sb, inode);
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inode->i_uid = current_fsuid();
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inode->i_gid = current_fsgid();
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if (dir->i_mode & S_ISGID) {
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inode->i_gid = dir->i_gid;
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if (S_ISDIR(mode))
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inode->i_mode |= S_ISGID;
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}
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logfs_inode_setops(inode);
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insert_inode_hash(inode);
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return inode;
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}
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static void logfs_init_once(void *_li)
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{
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struct logfs_inode *li = _li;
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int i;
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li->li_flags = 0;
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li->li_used_bytes = 0;
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li->li_refcount = 1;
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for (i = 0; i < LOGFS_EMBEDDED_FIELDS; i++)
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li->li_data[i] = 0;
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inode_init_once(&li->vfs_inode);
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}
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static int logfs_sync_fs(struct super_block *sb, int wait)
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{
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/* FIXME: write anchor */
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logfs_super(sb)->s_devops->sync(sb);
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return 0;
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}
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const struct super_operations logfs_super_operations = {
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.alloc_inode = logfs_alloc_inode,
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.clear_inode = logfs_clear_inode,
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.delete_inode = logfs_delete_inode,
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.destroy_inode = logfs_destroy_inode,
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.drop_inode = logfs_drop_inode,
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.write_inode = logfs_write_inode,
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.statfs = logfs_statfs,
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.sync_fs = logfs_sync_fs,
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};
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int logfs_init_inode_cache(void)
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{
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logfs_inode_cache = kmem_cache_create("logfs_inode_cache",
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sizeof(struct logfs_inode), 0, SLAB_RECLAIM_ACCOUNT,
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logfs_init_once);
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if (!logfs_inode_cache)
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return -ENOMEM;
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return 0;
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}
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void logfs_destroy_inode_cache(void)
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{
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kmem_cache_destroy(logfs_inode_cache);
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}
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