- 01 Sep, 2013 40 commits
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Mike Frysinger authored
Signed-off-by:
Mike Frysinger <vapier@gentoo.org> Signed-off-by:
Josef Bacik <jbacik@fusionio.com> Signed-off-by:
Chris Mason <chris.mason@fusionio.com>
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Filipe David Borba Manana authored
After we set force_compress with a new value (which was not being done while holding the inode mutex), if an error happens and we jump to the label out_ra, the force_compress property of the inode is not set to BTRFS_COMPRESS_NONE (unlike in the case where no errors happen). Signed-off-by:
Filipe David Borba Manana <fdmanana@gmail.com> Signed-off-by:
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Stefan Behrens authored
This should never be needed, but since all functions are there to check and rebuild the UUID tree, a mount option is added that allows to force this check and rebuild procedure. Signed-off-by:
Stefan Behrens <sbehrens@giantdisaster.de> Signed-off-by:
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Stefan Behrens authored
If the filesystem was mounted with an old kernel that was not aware of the UUID tree, this is detected by looking at the uuid_tree_generation field of the superblock (similar to how the free space cache is doing it). If a mismatch is detected at mount time, a thread is started that does two things: 1. Iterate through the UUID tree, check each entry, delete those entries that are not valid anymore (i.e., the subvol does not exist anymore or the value changed). 2. Iterate through the root tree, for each found subvolume, add the UUID tree entries for the subvolume (if they are not already there). This mechanism is also used to handle and repair errors that happened during the initial creation and filling of the tree. The update of the uuid_tree_generation field (which indicates that the state of the UUID tree is up to date) is blocked until all create and repair operations are successfully completed. Signed-off-by:
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Stefan Behrens authored
In order to be able to detect the case that a filesystem is mounted with an old kernel, add a uuid-tree-gen field like the free space cache is doing it. It is part of the super block and written with each commit. Old kernels do not know this field and don't update it. Signed-off-by:
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Stefan Behrens authored
When the UUID tree is initially created, a task is spawned that walks through the root tree. For each found subvolume root_item, the uuid and received_uuid entries in the UUID tree are added. This is such a quick operation so that in case somebody wants to unmount the filesystem while the task is still running, the unmount is delayed until the UUID tree building task is finished. Signed-off-by:
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Stefan Behrens authored
When a new subvolume or snapshot is created, a new UUID item is added to the UUID tree. Such items are removed when the subvolume is deleted. The ioctl to set the received subvolume UUID is also touched and will now also add this received UUID into the UUID tree together with the ID of the subvolume. The latter is also done when read-only snapshots are created which inherit all the send/receive information from the parent subvolume. User mode programs use the BTRFS_IOC_TREE_SEARCH ioctl to search and read in the UUID tree. Signed-off-by:
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Stefan Behrens authored
This tree is not created by mkfs.btrfs. Therefore when a filesystem is mounted writable and the UUID tree does not exist, this tree is created if required. The tree is also added to the fs_info structure and initialized, but this commit does not yet read or write UUID tree elements. Signed-off-by:
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Stefan Behrens authored
This commit adds support to print UUID tree elements to print-tree.c. Signed-off-by:
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Stefan Behrens authored
Mapping UUIDs to subvolume IDs is an operation with a high effort today. Today, the algorithm even has quadratic effort (based on the number of existing subvolumes), which means, that it takes minutes to send/receive a single subvolume if 10,000 subvolumes exist. But even linear effort would be too much since it is a waste. And these data structures to allow mapping UUIDs to subvolume IDs are created every time a btrfs send/receive instance is started. It is much more efficient to maintain a searchable persistent data structure in the filesystem, one that is updated whenever a subvolume/snapshot is created and deleted, and when the received subvolume UUID is set by the btrfs-receive tool. Therefore kernel code is added with this commit that is able to maintain data structures in the filesystem that allow to quickly search for a given UUID and to retrieve data that is assigned to this UUID, like which subvolume ID is related to this UUID. This commit adds a new tree to hold UUID-to-data mapping items. The key of the items is the full UUID plus the key type BTRFS_UUID_KEY. Multiple data blocks can be stored for a given UUID, a type/length/ value scheme is used. Now follows the lengthy justification, why a new tree was added instead of using the existing root tree: The first approach was to not create another tree that holds UUID items. Instead, the items should just go into the top root tree. Unfortunately this confused the algorithm to assign the objectid of subvolumes and snapshots. The reason is that btrfs_find_free_objectid() calls btrfs_find_highest_objectid() for the first created subvol or snapshot after mounting a filesystem, and this function simply searches for the largest used objectid in the root tree keys to pick the next objectid to assign. Of course, the UUID keys have always been the ones with the highest offset value, and the next assigned subvol ID was wastefully huge. To use any other existing tree did not look proper. To apply a workaround such as setting the objectid to zero in the UUID item key and to implement collision handling would either add limitations (in case of a btrfs_extend_item() approach to handle the collisions) or a lot of complexity and source code (in case a key would be looked up that is free of collisions). Adding new code that introduces limitations is not good, and adding code that is complex and lengthy for no good reason is also not good. That's the justification why a completely new tree was introduced. Signed-off-by:
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Sergei Trofimovich authored
Cc: Josef Bacik <jbacik@fusionio.com> Cc: Chris Mason <chris.mason@fusionio.com> Signed-off-by:
Sergei Trofimovich <slyfox@gentoo.org> Signed-off-by:
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Stefan Behrens authored
make C=2 fs/btrfs/ CF=-D__CHECK_ENDIAN__ I tried to filter out the warnings for which patches have already been sent to the mailing list, pending for inclusion in btrfs-next. All these changes should be obviously safe. Signed-off-by:
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Filipe David Borba Manana authored
If the inode ref key was not found and the current leaf slot was 0 (first item in the leaf) the code would always return -ENOENT. This was not correct because the desired inode ref item might be the last item in the previous leaf. Signed-off-by:
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Filipe David Borba Manana authored
If the path doesn't fit in the input buffer, return ENAMETOOLONG instead of returning with a success code (0) and a partially filled and right justified buffer. Also removed useless buffer pointer check outside the while loop. Signed-off-by:
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Wang Shilong authored
We have checked 'quota_root' with qgroup_ioctl_lock held before,So here the check is reduplicate, remove it. Signed-off-by:
Wang Shilong <wangsl.fnst@cn.fujitsu.com> Reviewed-by:
Miao Xie <miaox@cn.fujitsu.com> Reviewed-by:
Arne Jansen <sensille@gmx.net> Signed-off-by:
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Wang Shilong authored
btrfs_free_qgroup_config() is not only called by open/close_ctree(),but also btrfs_disable_quota().And for btrfs_disable_quota(),we have set 'quota_root' to be null before calling btrfs_free_qgroup_config(),so it is safe to cleanup in-memory structures without lock held. Signed-off-by:
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Wang Shilong authored
When disabling quota, we should clear out list 'dirty_qgroups',otherwise, we will get oops if enabling quota again. Fix this by abstracting similar code from del_qgroup_rb(). Signed-off-by:
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Josef Bacik authored
If you are sending a snapshot and specifying a parent snapshot we will walk the trees and figure out where they differ and send the differences only. The way we check for differences are if the leaves aren't the same and if the keys are not the same within the leaves. So if neither leaf is the same (ie the leaf has been cow'ed from the parent snapshot) we walk each item in the send root and check it against the parent root. If the items match exactly then we don't do anything. This doesn't quite work for inode refs, since they will just have the name and the parent objectid. If you move the file from a directory and then remove that directory and re-create a directory with the same inode number as the old directory and then move that file back into that directory we will assume that nothing changed and you will get errors when you try to receive. In order to fix this we need to do extra checking to see if the inode ref really is the same or not. So do this by passing down BTRFS_COMPARE_TREE_SAME if the items match. Then if the key type is an inode ref we can do some extra checking, otherwise we just keep processing. The extra checking is to look up the generation of the directory in the parent volume and compare it to the generation of the send volume. If they match then they are the same directory and we are good to go. If they don't we have to add them to the changed refs list. This means we have to track the generation of the ref we're trying to lookup when we iterate all the refs for a particular inode. So in the case of looking for new refs we have to get the generation from the parent volume, and in the case of looking for deleted refs we have to get the generation from the send volume to compare with. There was also the issue of using a ulist to keep track of the directories we needed to check. Because we can get a deleted ref and a new ref for the same inode number the ulist won't work since it indexes based on the value. So instead just dup any directory ref we find and add it to a local list, and then process that list as normal and do away with using a ulist for this altogether. Before we would fail all of the tests in the far-progs that related to moving directories (test group 32). With this patch we now pass these tests, and all of the tests in the far-progs send testing suite. Thanks, Signed-off-by:
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Josef Bacik authored
The plan is to have a bunch of unit tests that run when btrfs is loaded when you build with the appropriate config option. My ultimate goal is to have a test for every non-static function we have, but at first I'm going to focus on the things that cause us the most problems. To start out with this just adds a tests/ directory and moves the existing free space cache tests into that directory and sets up all of the infrastructure. Thanks, Signed-off-by:
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Josef Bacik authored
I noticed while looking at a deadlock that we are always starting a transaction in cow_file_range(). This isn't really needed since we only need a transaction if we are doing an inline extent, or if the allocator needs to allocate a chunk. So push down all the transaction start stuff to be closer to where we actually need a transaction in all of these cases. This will hopefully reduce our write latency when we are committing often. Thanks, Signed-off-by:
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Josef Bacik authored
I added a patch where we started taking the ordered operations mutex when we waited on ordered extents. We need this because we splice the list and process it, so if a flusher came in during this scenario it would think the list was empty and we'd usually get an early ENOSPC. The problem with this is that this lock is used in transaction committing. So we end up with something like this Transaction commit -> wait on writers Delalloc flusher -> run_ordered_operations (holds mutex) ->wait for filemap-flush to do its thing flush task -> cow_file_range ->wait on btrfs_join_transaction because we're commiting some other task -> commit_transaction because we notice trans->transaction->flush is set -> run_ordered_operations (hang on mutex) We need to disentangle the ordered operations flushing from the delalloc flushing, since they are separate things. This solves the deadlock issue I was seeing. Thanks, Signed-off-by:
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Josef Bacik authored
There are several places where we BUG_ON() if we fail to remove the orphan items and such, which is not ok, so remove those and either abort or just carry on. This also fixes a problem where if we couldn't start a transaction we wouldn't actually remove the orphan item reserve for the inode. Thanks, Signed-off-by:
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Josef Bacik authored
Eric pointed out that btrfs will happily allow you to delete the default subvol. This is a problem obviously since the next time you go to mount the file system it will freak out because it can't find the root. Fix this by adding a check to see if our default subvol points to the subvol we are trying to delete, and if it does not allowing it to happen. Thanks, Signed-off-by:
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Josef Bacik authored
We have logic to see if we've already created a parent directory by check to see if an inode inside of that directory has a lower inode number than the one we are currently processing. The logic is that if there is a lower inode number then we would have had to made sure the directory was created at that previous point. The problem is that subvols inode numbers count from the lowest objectid in the root tree, which may be less than our current progress. So just skip if our dir item key is a root item. This fixes the original test and the xfstest version I made that added an extra subvol create. Thanks, Reported-by:
Emil Karlson <jekarlson@gmail.com> Signed-off-by:
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Mark Fasheh authored
This patch adds an ioctl, BTRFS_IOC_FILE_EXTENT_SAME which will try to de-duplicate a list of extents across a range of files. Internally, the ioctl re-uses code from the clone ioctl. This avoids rewriting a large chunk of extent handling code. Userspace passes in an array of file, offset pairs along with a length argument. The ioctl will then (for each dedupe) do a byte-by-byte comparison of the user data before deduping the extent. Status and number of bytes deduped are returned for each operation. Signed-off-by:
Mark Fasheh <mfasheh@suse.de> Reviewed-by:
Zach Brown <zab@redhat.com> Signed-off-by:
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Mark Fasheh authored
We want this for btrfs_extent_same. Basically readpage and friends do their own extent locking but for the purposes of dedupe, we want to have both files locked down across a set of readpage operations (so that we can compare data). Introduce this variant and a flag which can be set for extent_read_full_page() to indicate that we are already locked. Partial credit for this patch goes to Gabriel de Perthuis <g2p.code@gmail.com> as I have included a fix from him to the original patch which avoids a deadlock on compressed extents. Signed-off-by:
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Mark Fasheh authored
There's some 250+ lines here that are easily encapsulated into their own function. I don't change how anything works here, just create and document the new btrfs_clone() function from btrfs_ioctl_clone() code. Signed-off-by:
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Mark Fasheh authored
The range locking in btrfs_ioctl_clone is trivially broken out into it's own function. This reduces the complexity of btrfs_ioctl_clone() by a small bit and makes that locking code available to future functions in fs/btrfs/ioctl.c Signed-off-by:
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Wang Shilong authored
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Filipe David Borba Manana authored
In extent-tree.c:do_chunk_alloc(), early on we returned 0 (success) when the target space was full and when chunk allocation is needed. However, later on in that same function we return ENOSPC if btrfs_alloc_chunk() fails (and chunk allocation was needed) and set the space's full flag. This was inconsistent, as -ENOSPC should be returned if the space is full and a chunk allocation needs to performed. If the space is full but no chunk allocation is needed, just return 0 (success). Signed-off-by:
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Filipe David Borba Manana authored
tree-log.c was ignoring the return value from btrfs_run_delayed_items() in several places. Signed-off-by:
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Filipe David Borba Manana authored
In tree-log.c:replay_one_name(), if memory allocation for the name fails, ensure we iput the dir inode we got before before we return. Signed-off-by:
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Liu Bo authored
The rule originally comes from nocow writing, but snapshot-aware defrag is a different case, the extent has been writen and we're not going to change the extent but add a reference on the data. So we're able to allow such compressed extents to be merged into one bigger extent if they're pointing to the same data. Reviewed-by:
Liu Bo <bo.li.liu@oracle.com> Signed-off-by:
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David Sterba authored
I'ts hardcoded to 30 seconds which is fine for most users. Higher values defer data being synced to permanent storage with obvious consequences when the system crashes. The upper bound is not forced, but a warning is printed if it's more than 300 seconds (5 minutes). Signed-off-by:
David Sterba <dsterba@suse.cz> Signed-off-by:
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Josef Bacik authored
There is no reason we can't just set the path to blocking and then do normal GFP_NOFS allocations for these extent buffers. Thanks, Signed-off-by:
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Josef Bacik authored
We can get ENOMEM trying to allocate dummy bufs for the rewind operation of the tree mod log. Instead of BUG_ON()'ing in this case pass up ENOMEM. I looked back through the callers and I'm pretty sure I got everybody who did BUG_ON(ret) in this path. Thanks, Signed-off-by:
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Josef Bacik authored
When doing a send with a parent subvol we will check to see if the file we are acting on is being overwritten and move it if we think it may be needed further down the line during the send. We check this by checking its directory and making sure it existed in the parent and making sure the file existed in the parent. The problem with this check is that if we create a directory and a file in that directory, and then snapshot, and then remove and re-create that same directory and file with different inode numbers and then try to snapshot and send with the original parent we will try and save the original file inside of that directory. This is a problem because during the receive we move the directory out of the way because it is a completely new inode, which makes us unable to find the old file inside of the directory when we try to move that out of the way for the overwrite. We fix this by checking the parent directory of the inode we think we are overwriting. If the parent directory generation in the send root != the parent directory generation in the parent root then we know it is a completely new directory and we need not bother with moving the file out of the way because it would have been completely destroyed. This fixes bz 60673. Thanks, Signed-off-by:
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Josef Bacik authored
Alex Lyakas reported a bug where wait_block_group_cache_progress() would wait forever if a drive failed. This is because we just bail out if there is an error while trying to cache a block group, we don't update anybody who may be waiting. So this introduces a new enum for the cache state in case of error and makes everybody bail out if we have an error. Alex tested and verified this patch fixed his problem. This fixes bz 59431. Thanks, Signed-off-by:
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Filipe David Borba Manana authored
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Dave Jones authored
If we bail out when the stripe alloc fails, we need to undo the earlier allocation of raid_map. Signed-off-by:
Dave Jones <davej@redhat.com> Signed-off-by:
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