- 02 10月, 2012 40 次提交
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由 David Sterba 提交于
Usecase: watch 'grep btrfs < /proc/slabinfo' easy to watch all caches in one go. Signed-off-by: NDavid Sterba <dsterba@suse.cz>
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由 Josef Bacik 提交于
I noticed I was seeing large lags when running my torrent test in a vm on my laptop. While trying to make it lag less I noticed that our overcommit math was taking into account the number of bytes we wanted to reclaim, not the number of bytes we actually wanted to allocate, which means we wouldn't overcommit as often. This patch fixes the overcommit math and makes shrink_delalloc() use that logic so that it will stop looping faster. We still have pretty high spikes of latency, but the test now takes 3 minutes less time (about 5% faster). Thanks, Signed-off-by: NJosef Bacik <jbacik@fusionio.com>
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由 Josef Bacik 提交于
Mitch reported a problem where you could get an ENOSPC error when untarring a kernel git tree onto a 16gb file system with compress-force=zlib. This is because compression is a huge pain, it will return from ->writepages() without having actually created any ordered extents. To get around this we check to see if the async submit counter is up, and if it is wait until it drops to 0 before doing our normal ordered wait dance. With this patch I can now untar a kernel git tree onto a 16gb file system without getting ENOSPC errors. Thanks, Signed-off-by: NJosef Bacik <jbacik@fusionio.com>
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由 Liu Bo 提交于
We're going to use this flag EXTENT_DEFRAG to indicate which range belongs to defragment so that we can implement snapshow-aware defrag: We set the EXTENT_DEFRAG flag when dirtying the extents that need defragmented, so later on writeback thread can differentiate between normal writeback and writeback started by defragmentation. Original-Signed-off-by: NLi Zefan <lizf@cn.fujitsu.com> Signed-off-by: NLiu Bo <bo.li.liu@oracle.com>
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由 Tsutomu Itoh 提交于
ulist_alloc() has the possibility of returning NULL. So, it is necessary to check the return value. Signed-off-by: NTsutomu Itoh <t-itoh@jp.fujitsu.com>
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由 Tsutomu Itoh 提交于
btrfs_iget() never return NULL. So, NULL check is unnecessary. Signed-off-by: NTsutomu Itoh <t-itoh@jp.fujitsu.com>
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由 Miao Xie 提交于
When we ran fsstress(a program in xfstests), the filesystem hung up when it is full. It was because the space reserved in btrfs_fallocate() was wrong, btrfs_fallocate() just used the size of the pre-allocation to reserve the space, didn't took the block size aligning into account, so the size of the reserved space was less than the allocated space, it caused the over reserve problem and made the filesystem hung up when invoking cow_file_range(). Fix it. Signed-off-by: NMiao Xie <miaox@cn.fujitsu.com>
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由 Miao Xie 提交于
Though we dump the stack information when aborting a unused transaction handle, we don't know the correct place where we decide to abort the transaction handle if one function has several place where the transaction abort function is invoked and jumps to the same place after this call. And beside that we also don't know the reason why we jump to abort the current handle. So I modify the transaction abort function and make it output the function name, line and error information. Signed-off-by: NMiao Xie <miaox@cn.fujitsu.com>
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由 Miao Xie 提交于
We forget to protect ->log_batch when syncing a file, this patch fix this problem by atomic operation. And ->log_batch is used to check if there are parallel sync operations or not, so it is unnecessary to reset it to 0 after the sync operation of the current log tree complete. Signed-off-by: NMiao Xie <miaox@cn.fujitsu.com>
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由 Miao Xie 提交于
We should insert/update 6 items(root ref, root backref, dir item, dir index, root item and parent inode) when creating a snapshot, not 5 items, fix it. Signed-off-by: NMiao Xie <miaox@cn.fujitsu.com>
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由 Miao Xie 提交于
The snapshot should be the image of the fs tree before it was created, so the metadata of the snapshot should not exist in the its tree. But now, we found the directory item and directory name index is in both the snapshot tree and the fs tree. It introduces some problems and makes the users feel strange: # mkfs.btrfs /dev/sda1 # mount /dev/sda1 /mnt # mkdir /mnt/1 # cd /mnt/1 # btrfs subvolume snapshot /mnt snap0 # ls -a /mnt/1/snap0/1 . .. [no other file/dir] # ll /mnt/1/snap0/ total 0 drwxr-xr-x 1 root root 10 Ju1 24 12:11 1 ^^^ There is no file/dir in it, but it's size is 10 # cd /mnt/1/snap0/1/snap0 [Enter a unexisted directory successfully...] There is nothing in the directory 1 in snap0, but btrfs told the length of this directory is 10. Beside that, we can enter an unexisted directory, it is very strange to the users. # btrfs subvolume snapshot /mnt/1/snap0 /mnt/snap1 # ll /mnt/1/snap0/1/ total 0 [None] # ll /mnt/snap1/1/ total 0 drwxr-xr-x 1 root root 0 Ju1 24 12:14 snap0 And the source of snap1 did have any directory in Directory 1, but snap1 have a snap0, it is different between the source and the snapshot. So I think we should insert directory item and directory name index and update the parent inode as the last step of snapshot creation, and do not leave the useless metadata in the file tree. Signed-off-by: NMiao Xie <miaox@cn.fujitsu.com>
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由 Miao Xie 提交于
Sometimes we need choose the method of the reservation according to the type of the block reservation, such as the reservation for the delayed inode update. Now we identify the type just by comparing the address of the reservation variants, it is very ugly if it is a temporary one because we need compare it with all the common reservation variants. So we add a new "type" field to keep the type the reservation variants. Signed-off-by: NMiao Xie <miaox@cn.fujitsu.com>
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由 Miao Xie 提交于
The ordered extent allocation is in the fast path of the IO, so use a slab to improve the speed of the allocation. "Size of the struct is 280, so this will fall into the size-512 bucket, giving 8 objects per page, while own slab will pack 14 objects into a page. Another benefit I see is to check for leaked objects when the module is removed (and the cache destroy takes place)." -- David Sterba Signed-off-by: NMiao Xie <miaox@cn.fujitsu.com>
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由 Miao Xie 提交于
If a snapshot is created while we are writing some data into the file, the i_size of the corresponding file in the snapshot will be wrong, it will be beyond the end of the last file extent. And btrfsck will report: root 256 inode 257 errors 100 Steps to reproduce: # mkfs.btrfs <partition> # mount <partition> <mnt> # cd <mnt> # dd if=/dev/zero of=tmpfile bs=4M count=1024 & # for ((i=0; i<4; i++)) > do > btrfs sub snap . $i > done This because the algorithm of disk_i_size update is wrong. Though there are some ordered extents behind the current one which we use to update disk_i_size, it doesn't mean those extents will be dealt with in the same transaction. So We shouldn't use the offset of those extents to update disk_i_size. Or we will get the wrong i_size in the snapshot. We fix this problem by recording the max real i_size. If we find there is a ordered extent which is in front of the current one and doesn't complete, we will record the end of the current one into that ordered extent. Surely, if the current extent holds the end of other extent(it must be greater than the current one because it is behind the current one), we will record the number that the current extent holds. In this way, we can exclude the ordered extents that may not be dealth with in the same transaction, and be easy to know the real disk_i_size. Signed-off-by: NMiao Xie <miaox@cn.fujitsu.com>
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由 Miao Xie 提交于
If we create several snapshots at the same time, the following BUG_ON() will be triggered. kernel BUG at fs/btrfs/extent-tree.c:6047! Steps to reproduce: # mkfs.btrfs <partition> # mount <partition> <mnt> # cd <mnt> # for ((i=0;i<2400;i++)); do touch long_name_to_make_tree_more_deep$i; done # for ((i=0; i<4; i++)) > do > mkdir $i > for ((j=0; j<200; j++)) > do > btrfs sub snap . $i/$j > done & > done The reason is: Before transaction commit, some operations changed the fs tree and new tree blocks were allocated because of COW. We used the implicit non-shared back reference for those newly allocated tree blocks because they were not shared by two or more trees. And then we created the first snapshot for the fs tree, according to the back reference rules, we also used implicit back refs for the child tree blocks of the root node of the fs tree, now those child nodes/leaves were shared by two trees. Then We didn't deal with the delayed references, and continued to change the fs tree(created the second snapshot and inserted the dir item of the new snapshot into the fs tree). According to the rules of the back reference, we added full back refs for those tree blocks whose parents have be shared by two trees. Now some newly allocated tree blocks had two types of the references. As we know, the delayed reference system handles these delayed references from back to front, and the full delayed reference is inserted after the implicit ones. So when we dealt with the back references of those newly allocated tree blocks, the full references was dealt with at first. And if the first reference is a shared back reference and the tree block that the reference points to is newly allocated, It would be considered as a tree block which is shared by two or more trees when it is allocated and should be a full back reference not a implicit one, the flag of its reference also should be set to FULL_BACKREF. But in fact, it was a non-shared tree block with a implicit reference at beginning, so it was not compulsory to set the flags to FULL_BACKREF. So BUG_ON was triggered. We have several methods to fix this bug: 1. deal with delayed references after the snapshot is created and before we change the source tree of the snapshot. This is the easiest and safest way. 2. modify the sort method of the delayed reference tree, make the full delayed references be inserted before the implicit ones. It is also very easy, but I don't know if it will introduce some problems or not. 3. modify select_delayed_ref() and make it select the implicit delayed reference at first. This way is not so good because it may wastes CPU time if we have lots of delayed references. 4. set the flags to FULL_BACKREF, this method is a little complex comparing with the 1st way. I chose the 1st way to fix it. Signed-off-by: NMiao Xie <miaox@cn.fujitsu.com>
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由 Miao Xie 提交于
This patch fixes the following problem: - If we failed to deal with the delayed dir items, we should abort transaction, just as its comment said. Fix it. - If root reference or root back reference insertion failed, we should abort transaction. Fix it. - Fix the double free problem of pending->inherit. - Do not restore the trans->rsv if we doesn't change it. - make the error path more clearly. Signed-off-by: NMiao Xie <miaox@cn.fujitsu.com>
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由 Wei Yongjun 提交于
bbio has been malloced in btrfs_map_block() and should be freed before leaving from the error handling cases. spatch with a semantic match is used to found this problem. (http://coccinelle.lip6.fr/) Signed-off-by: NWei Yongjun <yongjun_wei@trendmicro.com.cn>
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由 Josef Bacik 提交于
I noticed this when I was doing the fsync stuff, we allocate split extents if we drop an extent range that is in the middle of an existing extent. This BUG()'s if we fail to allocate memory, but the fact is this is just a cache, we will just regenerate the cache if we need it, the important part is that we free the range we are given. This can be done without allocations, so if we fail to allocate splits just skip the splitting stage and free our em and look for more extents to drop. This also makes btrfs_drop_extent_cache a void since nobody was checking the return value anyway. Thanks, Signed-off-by: NJosef Bacik <jbacik@fusionio.com>
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由 Sage Weil 提交于
Josef has suggested that this is not necessary. Removing it also avoids this lockdep splat (after the new sb_internal locking stuff was added): [ 604.090449] ====================================================== [ 604.114819] [ INFO: possible circular locking dependency detected ] [ 604.139262] 3.6.0-rc2-ceph-00144-g463b030 #1 Not tainted [ 604.162193] ------------------------------------------------------- [ 604.186139] btrfs-cleaner/6669 is trying to acquire lock: [ 604.209555] (sb_internal#2){.+.+..}, at: [<ffffffffa0042b84>] start_transaction+0x124/0x430 [btrfs] [ 604.257100] [ 604.257100] but task is already holding lock: [ 604.300366] (&fs_info->cleanup_work_sem){.+.+..}, at: [<ffffffffa0048002>] btrfs_run_delayed_iputs+0x72/0x130 [btrfs] [ 604.352989] [ 604.352989] which lock already depends on the new lock. [ 604.352989] [ 604.427104] [ 604.427104] the existing dependency chain (in reverse order) is: [ 604.478493] [ 604.478493] -> #1 (&fs_info->cleanup_work_sem){.+.+..}: [ 604.529313] [<ffffffff810b2c82>] lock_acquire+0xa2/0x140 [ 604.559621] [<ffffffff81632b69>] down_read+0x39/0x4e [ 604.589382] [<ffffffffa004db98>] btrfs_lookup_dentry+0x218/0x550 [btrfs] [ 604.596161] btrfs: unlinked 1 orphans [ 604.675002] [<ffffffffa006aadd>] create_subvol+0x62d/0x690 [btrfs] [ 604.708859] [<ffffffffa006d666>] btrfs_mksubvol.isra.52+0x346/0x3a0 [btrfs] [ 604.772466] [<ffffffffa006d7f2>] btrfs_ioctl_snap_create_transid+0x132/0x190 [btrfs] [ 604.842245] [<ffffffffa006d8ae>] btrfs_ioctl_snap_create+0x5e/0x80 [btrfs] [ 604.912852] [<ffffffffa00708ae>] btrfs_ioctl+0x138e/0x1990 [btrfs] [ 604.951888] [<ffffffff8118e9b8>] do_vfs_ioctl+0x98/0x560 [ 604.989961] [<ffffffff8118ef11>] sys_ioctl+0x91/0xa0 [ 605.026628] [<ffffffff8163d569>] system_call_fastpath+0x16/0x1b [ 605.064404] [ 605.064404] -> #0 (sb_internal#2){.+.+..}: [ 605.126832] [<ffffffff810b25e8>] __lock_acquire+0x1ac8/0x1b90 [ 605.163671] [<ffffffff810b2c82>] lock_acquire+0xa2/0x140 [ 605.200228] [<ffffffff8117dac6>] __sb_start_write+0xc6/0x1b0 [ 605.236818] [<ffffffffa0042b84>] start_transaction+0x124/0x430 [btrfs] [ 605.274029] [<ffffffffa00431a3>] btrfs_start_transaction+0x13/0x20 [btrfs] [ 605.340520] [<ffffffffa004ccfa>] btrfs_evict_inode+0x19a/0x330 [btrfs] [ 605.378720] [<ffffffff811972c8>] evict+0xb8/0x1c0 [ 605.416057] [<ffffffff811974d5>] iput+0x105/0x210 [ 605.452373] [<ffffffffa0048082>] btrfs_run_delayed_iputs+0xf2/0x130 [btrfs] [ 605.521627] [<ffffffffa003b5e1>] cleaner_kthread+0xa1/0x120 [btrfs] [ 605.560520] [<ffffffff810791ee>] kthread+0xae/0xc0 [ 605.598094] [<ffffffff8163e744>] kernel_thread_helper+0x4/0x10 [ 605.636499] [ 605.636499] other info that might help us debug this: [ 605.636499] [ 605.736504] Possible unsafe locking scenario: [ 605.736504] [ 605.801931] CPU0 CPU1 [ 605.835126] ---- ---- [ 605.867093] lock(&fs_info->cleanup_work_sem); [ 605.898594] lock(sb_internal#2); [ 605.931954] lock(&fs_info->cleanup_work_sem); [ 605.965359] lock(sb_internal#2); [ 605.994758] [ 605.994758] *** DEADLOCK *** [ 605.994758] [ 606.075281] 2 locks held by btrfs-cleaner/6669: [ 606.104528] #0: (&fs_info->cleaner_mutex){+.+...}, at: [<ffffffffa003b5d5>] cleaner_kthread+0x95/0x120 [btrfs] [ 606.165626] #1: (&fs_info->cleanup_work_sem){.+.+..}, at: [<ffffffffa0048002>] btrfs_run_delayed_iputs+0x72/0x130 [btrfs] [ 606.231297] [ 606.231297] stack backtrace: [ 606.287723] Pid: 6669, comm: btrfs-cleaner Not tainted 3.6.0-rc2-ceph-00144-g463b030 #1 [ 606.347823] Call Trace: [ 606.376184] [<ffffffff8162a77c>] print_circular_bug+0x1fb/0x20c [ 606.409243] [<ffffffff810b25e8>] __lock_acquire+0x1ac8/0x1b90 [ 606.441343] [<ffffffffa0042b84>] ? start_transaction+0x124/0x430 [btrfs] [ 606.474583] [<ffffffff810b2c82>] lock_acquire+0xa2/0x140 [ 606.505934] [<ffffffffa0042b84>] ? start_transaction+0x124/0x430 [btrfs] [ 606.539429] [<ffffffff8132babd>] ? do_raw_spin_unlock+0x5d/0xb0 [ 606.571719] [<ffffffff8117dac6>] __sb_start_write+0xc6/0x1b0 [ 606.603498] [<ffffffffa0042b84>] ? start_transaction+0x124/0x430 [btrfs] [ 606.637405] [<ffffffffa0042b84>] ? start_transaction+0x124/0x430 [btrfs] [ 606.670165] [<ffffffff81172e75>] ? kmem_cache_alloc+0xb5/0x160 [ 606.702144] [<ffffffffa0042b84>] start_transaction+0x124/0x430 [btrfs] [ 606.735562] [<ffffffffa00256a6>] ? block_rsv_add_bytes+0x56/0x80 [btrfs] [ 606.769861] [<ffffffffa00431a3>] btrfs_start_transaction+0x13/0x20 [btrfs] [ 606.804575] [<ffffffffa004ccfa>] btrfs_evict_inode+0x19a/0x330 [btrfs] [ 606.838756] [<ffffffff81634c6b>] ? _raw_spin_unlock+0x2b/0x40 [ 606.872010] [<ffffffff811972c8>] evict+0xb8/0x1c0 [ 606.903800] [<ffffffff811974d5>] iput+0x105/0x210 [ 606.935416] [<ffffffffa0048082>] btrfs_run_delayed_iputs+0xf2/0x130 [btrfs] [ 606.970510] [<ffffffffa003b5d5>] ? cleaner_kthread+0x95/0x120 [btrfs] [ 607.005648] [<ffffffffa003b5e1>] cleaner_kthread+0xa1/0x120 [btrfs] [ 607.040724] [<ffffffffa003b540>] ? btrfs_destroy_delayed_refs.isra.102+0x220/0x220 [btrfs] [ 607.104740] [<ffffffff810791ee>] kthread+0xae/0xc0 [ 607.137119] [<ffffffff810b379d>] ? trace_hardirqs_on+0xd/0x10 [ 607.169797] [<ffffffff8163e744>] kernel_thread_helper+0x4/0x10 [ 607.202472] [<ffffffff81635430>] ? retint_restore_args+0x13/0x13 [ 607.235884] [<ffffffff81079140>] ? flush_kthread_work+0x1a0/0x1a0 [ 607.268731] [<ffffffff8163e740>] ? gs_change+0x13/0x13 Signed-off-by: NSage Weil <sage@inktank.com>
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由 Sage Weil 提交于
We expect current->journal_info to point to the trans handle we are committing. Signed-off-by: NSage Weil <sage@inktank.com>
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由 Sage Weil 提交于
The freeze rwsem is taken by sb_start_intwrite() and dropped during the commit_ or end_transaction(). In the async case, that happens in a worker thread. Tell lockdep the calling thread is releasing ownership of the rwsem and the async thread is picking it up. XFS plays the same trick in fs/xfs/xfs_aops.c. Signed-off-by: NSage Weil <sage@inktank.com>
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由 Josef Bacik 提交于
This patch adds hole punching via fallocate. Thanks, Signed-off-by: NJosef Bacik <jbacik@fusionio.com>
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由 Josef Bacik 提交于
I audited all users of btrfs_drop_extents and found that nobody actually uses the hint_byte argument. I'm sure it was used for something at some point but it's not used now, and the way the pinning works the disk bytenr would never be immediately useful anyway so lets just remove it. Thanks, Signed-off-by: NJosef Bacik <jbacik@fusionio.com>
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由 Liu Bo 提交于
This is based on Josef's "Btrfs: turbo charge fsync". If an inode is a BTRFS_INODE_NODATASUM one, we don't need to look for csum items any more. Signed-off-by: NLiu Bo <bo.li.liu@oracle.com>
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由 Liu Bo 提交于
This is based on Josef's "Btrfs: turbo charge fsync". The current btrfs checks if an inode is in log by comparing root's last_log_commit to inode's last_sub_trans[2]. But the problem is that this root->last_log_commit is shared among inodes. Say we have N inodes to be logged, after the first inode, root's last_log_commit is updated and the N-1 remained files will be skipped. This fixes the bug by keeping a local copy of root's last_log_commit inside each inode and this local copy will be maintained itself. [1]: we regard each log transaction as a subset of btrfs's transaction, i.e. sub_trans Signed-off-by: NLiu Bo <bo.li.liu@oracle.com>
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由 Miao Xie 提交于
If we add a new orphan item, we should increase the atomic counter, not decrease it. Fix it. Signed-off-by: NMiao Xie <miaox@cn.fujitsu.com>
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由 Liu Bo 提交于
This is based on Josef's "Btrfs: turbo charge fsync". The above Josef's patch performs very good in random sync write test, because we won't have too much extents to merge. However, it does not performs good on the test: dd if=/dev/zero of=foobar bs=4k count=12500 oflag=sync The reason is when we do sequencial sync write, we need to merge the current extent just with the previous one, so that we can get accumulated extents to log: A(4k) --> AA(8k) --> AAA(12k) --> AAAA(16k) ... So we'll have to flush more and more checksum into log tree, which is the bottleneck according to my tests. But we can avoid this by telling fsync the real extents that are needed to be logged. With this, I did the above dd sync write test (size=50m), w/o (orig) w/ (josef's) w/ (this) SATA 104KB/s 109KB/s 121KB/s ramdisk 1.5MB/s 1.5MB/s 10.7MB/s (613%) Signed-off-by: NLiu Bo <bo.li.liu@oracle.com>
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由 Josef Bacik 提交于
We will stop and restart a transaction every time we move to a different leaf when truncating a file. This is for enospc reasons, but really we could probably get away with doing this a little better by actually working until we hit an ENOSPC. So add a ->failfast flag to the block_rsv and set it when we do truncates which will fail as soon as the block rsv runs out of space, and then at that point we can stop and restart the transaction and refill the block rsv and carry on. This will make rm'ing of a file with lots of extents a bit faster. Thanks, Signed-off-by: NJosef Bacik <jbacik@fusionio.com>
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由 Liu Bo 提交于
This is based on Josef's "Btrfs: turbo charge fsync". We should cleanup those extents after we've finished logging inode, otherwise we may do redundant work on them. Signed-off-by: NLiu Bo <bo.li.liu@oracle.com>
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由 Josef Bacik 提交于
I hit this a couple times while working on my fsync patch (all my bugs, not normal operation), but with my new stuff we could have new errors from cases I have not encountered, so instead of BUG()'ing we should be WARN()'ing so that we are notified there is a problem but the user doesn't lose their data. We can easily commit the transaction in the case that the tree logging fails and still be fine, so let's try and be as nice to the user as possible. Thanks, Signed-off-by: NJosef Bacik <jbacik@fusionio.com>
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由 Josef Bacik 提交于
At least for the vm workload. Currently on fsync we will 1) Truncate all items in the log tree for the given inode if they exist and 2) Copy all items for a given inode into the log The problem with this is that for things like VMs you can have lots of extents from the fragmented writing behavior, and worst yet you may have only modified a few extents, not the entire thing. This patch fixes this problem by tracking which transid modified our extent, and then when we do the tree logging we find all of the extents we've modified in our current transaction, sort them and commit them. We also only truncate up to the xattrs of the inode and copy that stuff in normally, and then just drop any extents in the range we have that exist in the log already. Here are some numbers of a 50 meg fio job that does random writes and fsync()s after every write Original Patched SATA drive 82KB/s 140KB/s Fusion drive 431KB/s 2532KB/s So around 2-6 times faster depending on your hardware. There are a few corner cases, for example if you truncate at all we have to do it the old way since there is no way to be sure what is in the log is ok. This probably could be done smarter, but if you write-fsync-truncate-write-fsync you deserve what you get. All this work is in RAM of course so if your inode gets evicted from cache and you read it in and fsync it we'll do it the slow way if we are still in the same transaction that we last modified the inode in. The biggest cool part of this is that it requires no changes to the recovery code, so if you fsync with this patch and crash and load an old kernel, it will run the recovery and be a-ok. I have tested this pretty thoroughly with an fsync tester and everything comes back fine, as well as xfstests. Thanks, Signed-off-by: NJosef Bacik <jbacik@fusionio.com>
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由 Josef Bacik 提交于
While working on my fsync patch my fsync tester kept hitting mismatching md5sums when I would randomly write to a prealloc'ed region, syncfs() and then write to the prealloced region some more and then fsync() and then immediately reboot. This is because the tree logging code will skip writing csums for file extents who's generation is less than the current running transaction. When we mark extents as written we haven't been updating their generation so they were always being skipped. This wouldn't happen if you were to preallocate and then write in the same transaction, but if you for example prealloced a VM you could definitely run into this problem. This patch makes my fsync tester happy again. Thanks, Signed-off-by: NJosef Bacik <jbacik@fusionio.com>
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由 Josef Bacik 提交于
Swinging this pendulum back the other way. We've been allocating chunks up to 2% of the disk no matter how much we actually have allocated. So instead fix this calculation to only allocate chunks if we have more than 80% of the space available allocated. Please test this as it will likely cause all sorts of ENOSPC problems to pop up suddenly. Thanks, Signed-off-by: NJosef Bacik <jbacik@fusionio.com>
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由 Josef Bacik 提交于
There is a completely impossible situation to hit where you can preallocate a file, fsync it, write into the preallocated region, have the transaction commit twice and then fsync and then immediately lose power and lose all of the contents of the write. This patch fixes this just so I feel better about the situation and because it is lightweight, we just update the last_trans when we finish an ordered IO and we don't update the inode itself. This way we are completely safe and I feel better. Thanks, Signed-off-by: NJosef Bacik <jbacik@fusionio.com>
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由 Jan Schmidt 提交于
Signed-off-by: NJan Schmidt <list.btrfs@jan-o-sch.net> Signed-off-by: NChris Mason <chris.mason@fusionio.com>
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由 Chris Mason 提交于
The btrfs send code was assuming the offset of the file item into the extent translated to bytes on disk. If we're compressed, this isn't true, and so it was off into extents owned by other files. It was also improperly handling inline extents. This solves a crash where we may have gone past the end of the file extent item by not testing early enough for an inline extent. It also solves problems where we have a whole between the end of the inline item and the start of the full extent. Signed-off-by: NChris Mason <chris.mason@fusionio.com>
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由 Alexander Block 提交于
We can't do the deleted/reused logic for top/root inodes as it would create a stream that tries to delete and recreate the root dir. Reported-by: NAlex Lyakas <alex.bolshoy.btrfs@gmail.com> Signed-off-by: NAlexander Block <ablock84@googlemail.com>
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由 Alexander Block 提交于
We have to ignore inode/space cache objects in send/receive. Reported-by: NAlex Lyakas <alex.bolshoy.btrfs@gmail.com> Signed-off-by: NAlexander Block <ablock84@googlemail.com>
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由 Alexander Block 提交于
We need to pass the root that we determined earlier to iterate_inode_ref. Reported-by: NAlex Lyakas <alex.bolshoy.btrfs@gmail.com> Signed-off-by: NAlexander Block <ablock84@googlemail.com>
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由 Alexander Block 提交于
Used the wrong compare operator here. Reported-by: NAlex Lyakas <alex.bolshoy.btrfs@gmail.com> Signed-off-by: NAlexander Block <ablock84@googlemail.com>
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