forked from Minki/linux
Documentation: rw_lock lessons learned
In recent months, two different network projects erroneously strayed down the rw_lock path. Update the Documentation based upon comments by Eric Dumazet and Paul E. McKenney in those threads. Further updates await somebody else with more expertise. Changes: - Merged with extensive content by Stephen Hemminger. - Fix one of the comments by Linus Torvalds. Signed-off-by: William.Allen.Simpson@gmail.com Acked-by: Paul E. McKenney <paulmck@linux.vnet.ibm.com> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
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@ -1,73 +1,8 @@
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SPIN_LOCK_UNLOCKED and RW_LOCK_UNLOCKED defeat lockdep state tracking and
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are hence deprecated.
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Lesson 1: Spin locks
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Please use DEFINE_SPINLOCK()/DEFINE_RWLOCK() or
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__SPIN_LOCK_UNLOCKED()/__RW_LOCK_UNLOCKED() as appropriate for static
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initialization.
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Most of the time, you can simply turn:
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static spinlock_t xxx_lock = SPIN_LOCK_UNLOCKED;
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into:
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static DEFINE_SPINLOCK(xxx_lock);
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Static structure member variables go from:
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struct foo bar {
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.lock = SPIN_LOCK_UNLOCKED;
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};
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to:
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struct foo bar {
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.lock = __SPIN_LOCK_UNLOCKED(bar.lock);
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};
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Declaration of static rw_locks undergo a similar transformation.
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Dynamic initialization, when necessary, may be performed as
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demonstrated below.
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spinlock_t xxx_lock;
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rwlock_t xxx_rw_lock;
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static int __init xxx_init(void)
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{
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spin_lock_init(&xxx_lock);
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rwlock_init(&xxx_rw_lock);
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...
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}
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module_init(xxx_init);
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The following discussion is still valid, however, with the dynamic
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initialization of spinlocks or with DEFINE_SPINLOCK, etc., used
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instead of SPIN_LOCK_UNLOCKED.
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-----------------------
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On Fri, 2 Jan 1998, Doug Ledford wrote:
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>
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> I'm working on making the aic7xxx driver more SMP friendly (as well as
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> importing the latest FreeBSD sequencer code to have 7895 support) and wanted
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> to get some info from you. The goal here is to make the various routines
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> SMP safe as well as UP safe during interrupts and other manipulating
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> routines. So far, I've added a spin_lock variable to things like my queue
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> structs. Now, from what I recall, there are some spin lock functions I can
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> use to lock these spin locks from other use as opposed to a (nasty)
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> save_flags(); cli(); stuff; restore_flags(); construct. Where do I find
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> these routines and go about making use of them? Do they only lock on a
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> per-processor basis or can they also lock say an interrupt routine from
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> mucking with a queue if the queue routine was manipulating it when the
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> interrupt occurred, or should I still use a cli(); based construct on that
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> one?
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See <asm/spinlock.h>. The basic version is:
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spinlock_t xxx_lock = SPIN_LOCK_UNLOCKED;
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The most basic primitive for locking is spinlock.
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static DEFINE_SPINLOCK(xxx_lock);
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unsigned long flags;
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@ -75,13 +10,11 @@ See <asm/spinlock.h>. The basic version is:
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... critical section here ..
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spin_unlock_irqrestore(&xxx_lock, flags);
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and the above is always safe. It will disable interrupts _locally_, but the
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The above is always safe. It will disable interrupts _locally_, but the
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spinlock itself will guarantee the global lock, so it will guarantee that
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there is only one thread-of-control within the region(s) protected by that
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lock.
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Note that it works well even under UP - the above sequence under UP
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essentially is just the same as doing a
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lock. This works well even under UP. The above sequence under UP
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essentially is just the same as doing
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unsigned long flags;
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@ -91,15 +24,13 @@ essentially is just the same as doing a
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so the code does _not_ need to worry about UP vs SMP issues: the spinlocks
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work correctly under both (and spinlocks are actually more efficient on
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architectures that allow doing the "save_flags + cli" in one go because I
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don't export that interface normally).
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architectures that allow doing the "save_flags + cli" in one operation).
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NOTE NOTE NOTE! The reason the spinlock is so much faster than a global
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interrupt lock under SMP is exactly because it disables interrupts only on
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the local CPU. The spin-lock is safe only when you _also_ use the lock
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itself to do locking across CPU's, which implies that EVERYTHING that
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touches a shared variable has to agree about the spinlock they want to
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use.
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NOTE! Implications of spin_locks for memory are further described in:
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Documentation/memory-barriers.txt
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(5) LOCK operations.
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(6) UNLOCK operations.
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The above is usually pretty simple (you usually need and want only one
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spinlock for most things - using more than one spinlock can make things a
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@ -120,20 +51,24 @@ and another sequence that does
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then they are NOT mutually exclusive, and the critical regions can happen
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at the same time on two different CPU's. That's fine per se, but the
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critical regions had better be critical for different things (ie they
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can't stomp on each other).
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can't stomp on each other).
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The above is a problem mainly if you end up mixing code - for example the
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routines in ll_rw_block() tend to use cli/sti to protect the atomicity of
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their actions, and if a driver uses spinlocks instead then you should
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think about issues like the above..
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think about issues like the above.
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This is really the only really hard part about spinlocks: once you start
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using spinlocks they tend to expand to areas you might not have noticed
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before, because you have to make sure the spinlocks correctly protect the
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shared data structures _everywhere_ they are used. The spinlocks are most
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easily added to places that are completely independent of other code (ie
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internal driver data structures that nobody else ever touches, for
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example).
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easily added to places that are completely independent of other code (for
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example, internal driver data structures that nobody else ever touches).
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NOTE! The spin-lock is safe only when you _also_ use the lock itself
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to do locking across CPU's, which implies that EVERYTHING that
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touches a shared variable has to agree about the spinlock they want
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to use.
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----
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@ -141,14 +76,18 @@ Lesson 2: reader-writer spinlocks.
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If your data accesses have a very natural pattern where you usually tend
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to mostly read from the shared variables, the reader-writer locks
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(rw_lock) versions of the spinlocks are often nicer. They allow multiple
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(rw_lock) versions of the spinlocks are sometimes useful. They allow multiple
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readers to be in the same critical region at once, but if somebody wants
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to change the variables it has to get an exclusive write lock. The
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routines look the same as above:
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to change the variables it has to get an exclusive write lock.
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NOTE! reader-writer locks require more atomic memory operations than
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simple spinlocks. Unless the reader critical section is long, you
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are better off just using spinlocks.
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The routines look the same as above:
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rwlock_t xxx_lock = RW_LOCK_UNLOCKED;
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unsigned long flags;
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read_lock_irqsave(&xxx_lock, flags);
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@ -159,18 +98,21 @@ routines look the same as above:
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.. read and write exclusive access to the info ...
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write_unlock_irqrestore(&xxx_lock, flags);
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The above kind of lock is useful for complex data structures like linked
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lists etc, especially when you know that most of the work is to just
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traverse the list searching for entries without changing the list itself,
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for example. Then you can use the read lock for that kind of list
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traversal, which allows many concurrent readers. Anything that _changes_
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the list will have to get the write lock.
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The above kind of lock may be useful for complex data structures like
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linked lists, especially searching for entries without changing the list
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itself. The read lock allows many concurrent readers. Anything that
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_changes_ the list will have to get the write lock.
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Note: you cannot "upgrade" a read-lock to a write-lock, so if you at _any_
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NOTE! RCU is better for list traversal, but requires careful
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attention to design detail (see Documentation/RCU/listRCU.txt).
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Also, you cannot "upgrade" a read-lock to a write-lock, so if you at _any_
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time need to do any changes (even if you don't do it every time), you have
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to get the write-lock at the very beginning. I could fairly easily add a
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primitive to create a "upgradeable" read-lock, but it hasn't been an issue
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yet. Tell me if you'd want one.
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to get the write-lock at the very beginning.
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NOTE! We are working hard to remove reader-writer spinlocks in most
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cases, so please don't add a new one without consensus. (Instead, see
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Documentation/RCU/rcu.txt for complete information.)
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----
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@ -233,4 +175,46 @@ indeed), while write-locks need to protect themselves against interrupts.
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Linus
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----
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Reference information:
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For dynamic initialization, use spin_lock_init() or rwlock_init() as
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appropriate:
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spinlock_t xxx_lock;
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rwlock_t xxx_rw_lock;
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static int __init xxx_init(void)
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{
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spin_lock_init(&xxx_lock);
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rwlock_init(&xxx_rw_lock);
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...
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}
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module_init(xxx_init);
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For static initialization, use DEFINE_SPINLOCK() / DEFINE_RWLOCK() or
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__SPIN_LOCK_UNLOCKED() / __RW_LOCK_UNLOCKED() as appropriate.
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SPIN_LOCK_UNLOCKED and RW_LOCK_UNLOCKED are deprecated. These interfere
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with lockdep state tracking.
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Most of the time, you can simply turn:
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static spinlock_t xxx_lock = SPIN_LOCK_UNLOCKED;
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into:
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static DEFINE_SPINLOCK(xxx_lock);
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Static structure member variables go from:
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struct foo bar {
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.lock = SPIN_LOCK_UNLOCKED;
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};
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to:
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struct foo bar {
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.lock = __SPIN_LOCK_UNLOCKED(bar.lock);
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};
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Declaration of static rw_locks undergo a similar transformation.
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