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Introduce the new interface mtree_dup() in the documentation. Link: https://lkml.kernel.org/r/20231027033845.90608-7-zhangpeng.00@bytedance.com Signed-off-by: Peng Zhang <zhangpeng.00@bytedance.com> Reviewed-by: Liam R. Howlett <Liam.Howlett@oracle.com> Cc: Christian Brauner <brauner@kernel.org> Cc: Jonathan Corbet <corbet@lwn.net> Cc: Mateusz Guzik <mjguzik@gmail.com> Cc: Mathieu Desnoyers <mathieu.desnoyers@efficios.com> Cc: Matthew Wilcox <willy@infradead.org> Cc: Michael S. Tsirkin <mst@redhat.com> Cc: Mike Christie <michael.christie@oracle.com> Cc: Nicholas Piggin <npiggin@gmail.com> Cc: Peter Zijlstra <peterz@infradead.org> Cc: Suren Baghdasaryan <surenb@google.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
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9.2 KiB
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222 lines
9.2 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0+
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==========
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Maple Tree
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==========
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:Author: Liam R. Howlett
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Overview
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========
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The Maple Tree is a B-Tree data type which is optimized for storing
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non-overlapping ranges, including ranges of size 1. The tree was designed to
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be simple to use and does not require a user written search method. It
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supports iterating over a range of entries and going to the previous or next
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entry in a cache-efficient manner. The tree can also be put into an RCU-safe
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mode of operation which allows reading and writing concurrently. Writers must
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synchronize on a lock, which can be the default spinlock, or the user can set
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the lock to an external lock of a different type.
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The Maple Tree maintains a small memory footprint and was designed to use
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modern processor cache efficiently. The majority of the users will be able to
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use the normal API. An :ref:`maple-tree-advanced-api` exists for more complex
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scenarios. The most important usage of the Maple Tree is the tracking of the
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virtual memory areas.
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The Maple Tree can store values between ``0`` and ``ULONG_MAX``. The Maple
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Tree reserves values with the bottom two bits set to '10' which are below 4096
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(ie 2, 6, 10 .. 4094) for internal use. If the entries may use reserved
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entries then the users can convert the entries using xa_mk_value() and convert
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them back by calling xa_to_value(). If the user needs to use a reserved
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value, then the user can convert the value when using the
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:ref:`maple-tree-advanced-api`, but are blocked by the normal API.
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The Maple Tree can also be configured to support searching for a gap of a given
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size (or larger).
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Pre-allocating of nodes is also supported using the
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:ref:`maple-tree-advanced-api`. This is useful for users who must guarantee a
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successful store operation within a given
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code segment when allocating cannot be done. Allocations of nodes are
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relatively small at around 256 bytes.
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.. _maple-tree-normal-api:
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Normal API
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==========
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Start by initialising a maple tree, either with DEFINE_MTREE() for statically
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allocated maple trees or mt_init() for dynamically allocated ones. A
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freshly-initialised maple tree contains a ``NULL`` pointer for the range ``0``
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- ``ULONG_MAX``. There are currently two types of maple trees supported: the
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allocation tree and the regular tree. The regular tree has a higher branching
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factor for internal nodes. The allocation tree has a lower branching factor
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but allows the user to search for a gap of a given size or larger from either
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``0`` upwards or ``ULONG_MAX`` down. An allocation tree can be used by
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passing in the ``MT_FLAGS_ALLOC_RANGE`` flag when initialising the tree.
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You can then set entries using mtree_store() or mtree_store_range().
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mtree_store() will overwrite any entry with the new entry and return 0 on
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success or an error code otherwise. mtree_store_range() works in the same way
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but takes a range. mtree_load() is used to retrieve the entry stored at a
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given index. You can use mtree_erase() to erase an entire range by only
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knowing one value within that range, or mtree_store() call with an entry of
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NULL may be used to partially erase a range or many ranges at once.
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If you want to only store a new entry to a range (or index) if that range is
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currently ``NULL``, you can use mtree_insert_range() or mtree_insert() which
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return -EEXIST if the range is not empty.
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You can search for an entry from an index upwards by using mt_find().
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You can walk each entry within a range by calling mt_for_each(). You must
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provide a temporary variable to store a cursor. If you want to walk each
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element of the tree then ``0`` and ``ULONG_MAX`` may be used as the range. If
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the caller is going to hold the lock for the duration of the walk then it is
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worth looking at the mas_for_each() API in the :ref:`maple-tree-advanced-api`
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section.
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Sometimes it is necessary to ensure the next call to store to a maple tree does
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not allocate memory, please see :ref:`maple-tree-advanced-api` for this use case.
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You can use mtree_dup() to duplicate an entire maple tree. It is a more
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efficient way than inserting all elements one by one into a new tree.
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Finally, you can remove all entries from a maple tree by calling
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mtree_destroy(). If the maple tree entries are pointers, you may wish to free
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the entries first.
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Allocating Nodes
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----------------
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The allocations are handled by the internal tree code. See
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:ref:`maple-tree-advanced-alloc` for other options.
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Locking
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-------
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You do not have to worry about locking. See :ref:`maple-tree-advanced-locks`
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for other options.
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The Maple Tree uses RCU and an internal spinlock to synchronise access:
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Takes RCU read lock:
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* mtree_load()
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* mt_find()
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* mt_for_each()
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* mt_next()
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* mt_prev()
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Takes ma_lock internally:
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* mtree_store()
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* mtree_store_range()
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* mtree_insert()
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* mtree_insert_range()
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* mtree_erase()
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* mtree_dup()
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* mtree_destroy()
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* mt_set_in_rcu()
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* mt_clear_in_rcu()
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If you want to take advantage of the internal lock to protect the data
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structures that you are storing in the Maple Tree, you can call mtree_lock()
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before calling mtree_load(), then take a reference count on the object you
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have found before calling mtree_unlock(). This will prevent stores from
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removing the object from the tree between looking up the object and
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incrementing the refcount. You can also use RCU to avoid dereferencing
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freed memory, but an explanation of that is beyond the scope of this
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document.
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.. _maple-tree-advanced-api:
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Advanced API
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============
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The advanced API offers more flexibility and better performance at the
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cost of an interface which can be harder to use and has fewer safeguards.
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You must take care of your own locking while using the advanced API.
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You can use the ma_lock, RCU or an external lock for protection.
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You can mix advanced and normal operations on the same array, as long
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as the locking is compatible. The :ref:`maple-tree-normal-api` is implemented
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in terms of the advanced API.
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The advanced API is based around the ma_state, this is where the 'mas'
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prefix originates. The ma_state struct keeps track of tree operations to make
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life easier for both internal and external tree users.
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Initialising the maple tree is the same as in the :ref:`maple-tree-normal-api`.
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Please see above.
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The maple state keeps track of the range start and end in mas->index and
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mas->last, respectively.
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mas_walk() will walk the tree to the location of mas->index and set the
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mas->index and mas->last according to the range for the entry.
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You can set entries using mas_store(). mas_store() will overwrite any entry
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with the new entry and return the first existing entry that is overwritten.
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The range is passed in as members of the maple state: index and last.
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You can use mas_erase() to erase an entire range by setting index and
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last of the maple state to the desired range to erase. This will erase
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the first range that is found in that range, set the maple state index
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and last as the range that was erased and return the entry that existed
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at that location.
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You can walk each entry within a range by using mas_for_each(). If you want
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to walk each element of the tree then ``0`` and ``ULONG_MAX`` may be used as
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the range. If the lock needs to be periodically dropped, see the locking
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section mas_pause().
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Using a maple state allows mas_next() and mas_prev() to function as if the
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tree was a linked list. With such a high branching factor the amortized
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performance penalty is outweighed by cache optimization. mas_next() will
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return the next entry which occurs after the entry at index. mas_prev()
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will return the previous entry which occurs before the entry at index.
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mas_find() will find the first entry which exists at or above index on
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the first call, and the next entry from every subsequent calls.
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mas_find_rev() will find the first entry which exists at or below the last on
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the first call, and the previous entry from every subsequent calls.
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If the user needs to yield the lock during an operation, then the maple state
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must be paused using mas_pause().
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There are a few extra interfaces provided when using an allocation tree.
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If you wish to search for a gap within a range, then mas_empty_area()
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or mas_empty_area_rev() can be used. mas_empty_area() searches for a gap
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starting at the lowest index given up to the maximum of the range.
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mas_empty_area_rev() searches for a gap starting at the highest index given
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and continues downward to the lower bound of the range.
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.. _maple-tree-advanced-alloc:
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Advanced Allocating Nodes
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-------------------------
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Allocations are usually handled internally to the tree, however if allocations
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need to occur before a write occurs then calling mas_expected_entries() will
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allocate the worst-case number of needed nodes to insert the provided number of
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ranges. This also causes the tree to enter mass insertion mode. Once
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insertions are complete calling mas_destroy() on the maple state will free the
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unused allocations.
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.. _maple-tree-advanced-locks:
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Advanced Locking
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----------------
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The maple tree uses a spinlock by default, but external locks can be used for
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tree updates as well. To use an external lock, the tree must be initialized
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with the ``MT_FLAGS_LOCK_EXTERN flag``, this is usually done with the
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MTREE_INIT_EXT() #define, which takes an external lock as an argument.
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Functions and structures
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========================
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.. kernel-doc:: include/linux/maple_tree.h
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.. kernel-doc:: lib/maple_tree.c
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