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d3bc815afb
When a partial write inside EOF fails, it can leave delayed allocation blocks lying around because they don't get punched back out. This leads to assert failures like: XFS: Assertion failed: XFS_FORCED_SHUTDOWN(ip->i_mount) || ip->i_delayed_blks == 0, file: fs/xfs/xfs_super.c, line: 847 when evicting inodes from the cache. This can be trivially triggered by xfstests 083, which takes between 5 and 15 executions on a 512 byte block size filesystem to trip over this. Debugging shows a failed write due to ENOSPC calling xfs_vm_write_failed such as: [ 5012.329024] ino 0xa0026: vwf to 0x17000, sze 0x1c85ae and no action is taken on it. This leaves behind a delayed allocation extent that has no page covering it and no data in it: [ 5015.867162] ino 0xa0026: blks: 0x83 delay blocks 0x1, size 0x2538c0 [ 5015.868293] ext 0: off 0x4a, fsb 0x50306, len 0x1 [ 5015.869095] ext 1: off 0x4b, fsb 0x7899, len 0x6b [ 5015.869900] ext 2: off 0xb6, fsb 0xffffffffe0008, len 0x1 ^^^^^^^^^^^^^^^ [ 5015.871027] ext 3: off 0x36e, fsb 0x7a27, len 0xd [ 5015.872206] ext 4: off 0x4cf, fsb 0x7a1d, len 0xa So the delayed allocation extent is one block long at offset 0x16c00. Tracing shows that a bigger write: xfs_file_buffered_write: size 0x1c85ae offset 0x959d count 0x1ca3f ioflags allocates the block, and then fails with ENOSPC trying to allocate the last block on the page, leading to a failed write with stale delalloc blocks on it. Because we've had an ENOSPC when trying to allocate 0x16e00, it means that we are never goinge to call ->write_end on the page and so the allocated new buffer will not get marked dirty or have the buffer_new state cleared. In other works, what the above write is supposed to end up with is this mapping for the page: +------+------+------+------+------+------+------+------+ UMA UMA UMA UMA UMA UMA UND FAIL where: U = uptodate M = mapped N = new A = allocated D = delalloc FAIL = block we ENOSPC'd on. and the key point being the buffer_new() state for the newly allocated delayed allocation block. Except it doesn't - we're not marking buffers new correctly. That buffer_new() problem goes back to the xfs_iomap removal days, where xfs_iomap() used to return a "new" status for any map with newly allocated blocks, so that __xfs_get_blocks() could call set_buffer_new() on it. We still have the "new" variable and the check for it in the set_buffer_new() logic - except we never set it now! Hence that newly allocated delalloc block doesn't have the new flag set on it, so when the write fails we cannot tell which blocks we are supposed to punch out. WHy do we need the buffer_new flag? Well, that's because we can have this case: +------+------+------+------+------+------+------+------+ UMD UMD UMD UMD UMD UMD UND FAIL where all the UMD buffers contain valid data from a previously successful write() system call. We only want to punch the UND buffer because that's the only one that we added in this write and it was only this write that failed. That implies that even the old buffer_new() logic was wrong - because it would result in all those UMD buffers on the page having set_buffer_new() called on them even though they aren't new. Hence we shoul donly be calling set_buffer_new() for delalloc buffers that were allocated (i.e. were a hole before xfs_iomap_write_delay() was called). So, fix this set_buffer_new logic according to how we need it to work for handling failed writes correctly. Also, restore the new buffer logic handling for blocks allocated via xfs_iomap_write_direct(), because it should still set the buffer_new flag appropriately for newly allocated blocks, too. SO, now we have the buffer_new() being set appropriately in __xfs_get_blocks(), we can detect the exact delalloc ranges that we allocated in a failed write, and hence can now do a walk of the buffers on a page to find them. Except, it's not that easy. When block_write_begin() fails, it unlocks and releases the page that we just had an error on, so we can't use that page to handle errors anymore. We have to get access to the page while it is still locked to walk the buffers. Hence we have to open code block_write_begin() in xfs_vm_write_begin() to be able to insert xfs_vm_write_failed() is the right place. With that, we can pass the page and write range to xfs_vm_write_failed() and walk the buffers on the page, looking for delalloc buffers that are either new or beyond EOF and punch them out. Handling buffers beyond EOF ensures we still handle the existing case that xfs_vm_write_failed() handles. Of special note is the truncate_pagecache() handling - that only should be done for pages outside EOF - pages within EOF can still contain valid, dirty data so we must not punch them out of the cache. That just leaves the xfs_vm_write_end() failure handling. The only failure case here is that we didn't copy the entire range, and generic_write_end() handles that by zeroing the region of the page that wasn't copied, we don't have to punch out blocks within the file because they are guaranteed to contain zeros. Hence we only have to handle the existing "beyond EOF" case and don't need access to the buffers on the page. Hence it remains largely unchanged. Note that xfs_getbmap() can still trip over delalloc blocks beyond EOF that are left there by speculative delayed allocation. Hence this bug fix does not solve all known issues with bmap vs delalloc, but it does fix all the the known accidental occurances of the problem. Signed-off-by: Dave Chinner <david@fromorbit.com> Signed-off-by: Ben Myers <bpm@sgi.com> |
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.. | ||
Kconfig | ||
kmem.c | ||
kmem.h | ||
Makefile | ||
mrlock.h | ||
time.h | ||
uuid.c | ||
uuid.h | ||
xfs_acl.c | ||
xfs_acl.h | ||
xfs_ag.h | ||
xfs_alloc_btree.c | ||
xfs_alloc_btree.h | ||
xfs_alloc.c | ||
xfs_alloc.h | ||
xfs_aops.c | ||
xfs_aops.h | ||
xfs_attr_leaf.c | ||
xfs_attr_leaf.h | ||
xfs_attr_sf.h | ||
xfs_attr.c | ||
xfs_attr.h | ||
xfs_bit.c | ||
xfs_bit.h | ||
xfs_bmap_btree.c | ||
xfs_bmap_btree.h | ||
xfs_bmap.c | ||
xfs_bmap.h | ||
xfs_btree.c | ||
xfs_btree.h | ||
xfs_buf_item.c | ||
xfs_buf_item.h | ||
xfs_buf.c | ||
xfs_buf.h | ||
xfs_da_btree.c | ||
xfs_da_btree.h | ||
xfs_dfrag.c | ||
xfs_dfrag.h | ||
xfs_dinode.h | ||
xfs_dir2_block.c | ||
xfs_dir2_data.c | ||
xfs_dir2_format.h | ||
xfs_dir2_leaf.c | ||
xfs_dir2_node.c | ||
xfs_dir2_priv.h | ||
xfs_dir2_sf.c | ||
xfs_dir2.c | ||
xfs_dir2.h | ||
xfs_discard.c | ||
xfs_discard.h | ||
xfs_dquot_item.c | ||
xfs_dquot_item.h | ||
xfs_dquot.c | ||
xfs_dquot.h | ||
xfs_error.c | ||
xfs_error.h | ||
xfs_export.c | ||
xfs_export.h | ||
xfs_extfree_item.c | ||
xfs_extfree_item.h | ||
xfs_file.c | ||
xfs_filestream.c | ||
xfs_filestream.h | ||
xfs_fs_subr.c | ||
xfs_fs.h | ||
xfs_fsops.c | ||
xfs_fsops.h | ||
xfs_globals.c | ||
xfs_ialloc_btree.c | ||
xfs_ialloc_btree.h | ||
xfs_ialloc.c | ||
xfs_ialloc.h | ||
xfs_iget.c | ||
xfs_inode_item.c | ||
xfs_inode_item.h | ||
xfs_inode.c | ||
xfs_inode.h | ||
xfs_inum.h | ||
xfs_ioctl32.c | ||
xfs_ioctl32.h | ||
xfs_ioctl.c | ||
xfs_ioctl.h | ||
xfs_iomap.c | ||
xfs_iomap.h | ||
xfs_iops.c | ||
xfs_iops.h | ||
xfs_itable.c | ||
xfs_itable.h | ||
xfs_linux.h | ||
xfs_log_cil.c | ||
xfs_log_priv.h | ||
xfs_log_recover.c | ||
xfs_log_recover.h | ||
xfs_log.c | ||
xfs_log.h | ||
xfs_message.c | ||
xfs_message.h | ||
xfs_mount.c | ||
xfs_mount.h | ||
xfs_mru_cache.c | ||
xfs_mru_cache.h | ||
xfs_qm_bhv.c | ||
xfs_qm_syscalls.c | ||
xfs_qm.c | ||
xfs_qm.h | ||
xfs_quota_priv.h | ||
xfs_quota.h | ||
xfs_quotaops.c | ||
xfs_rename.c | ||
xfs_rtalloc.c | ||
xfs_rtalloc.h | ||
xfs_rw.c | ||
xfs_rw.h | ||
xfs_sb.h | ||
xfs_stats.c | ||
xfs_stats.h | ||
xfs_super.c | ||
xfs_super.h | ||
xfs_sync.c | ||
xfs_sync.h | ||
xfs_sysctl.c | ||
xfs_sysctl.h | ||
xfs_trace.c | ||
xfs_trace.h | ||
xfs_trans_ail.c | ||
xfs_trans_buf.c | ||
xfs_trans_dquot.c | ||
xfs_trans_extfree.c | ||
xfs_trans_inode.c | ||
xfs_trans_priv.h | ||
xfs_trans_space.h | ||
xfs_trans.c | ||
xfs_trans.h | ||
xfs_types.h | ||
xfs_utils.c | ||
xfs_utils.h | ||
xfs_vnode.h | ||
xfs_vnodeops.c | ||
xfs_vnodeops.h | ||
xfs_xattr.c | ||
xfs.h |