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216 lines
5.8 KiB
C
216 lines
5.8 KiB
C
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/* SPDX-License-Identifier: GPL-2.0 */
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#ifndef _LINUX_SIX_H
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#define _LINUX_SIX_H
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/*
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* Shared/intent/exclusive locks: sleepable read/write locks, much like rw
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* semaphores, except with a third intermediate state, intent. Basic operations
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* are:
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*
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* six_lock_read(&foo->lock);
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* six_unlock_read(&foo->lock);
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*
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* six_lock_intent(&foo->lock);
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* six_unlock_intent(&foo->lock);
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*
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* six_lock_write(&foo->lock);
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* six_unlock_write(&foo->lock);
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*
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* Intent locks block other intent locks, but do not block read locks, and you
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* must have an intent lock held before taking a write lock, like so:
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*
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* six_lock_intent(&foo->lock);
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* six_lock_write(&foo->lock);
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* six_unlock_write(&foo->lock);
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* six_unlock_intent(&foo->lock);
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*
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* Other operations:
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*
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* six_trylock_read()
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* six_trylock_intent()
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* six_trylock_write()
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*
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* six_lock_downgrade(): convert from intent to read
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* six_lock_tryupgrade(): attempt to convert from read to intent
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*
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* Locks also embed a sequence number, which is incremented when the lock is
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* locked or unlocked for write. The current sequence number can be grabbed
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* while a lock is held from lock->state.seq; then, if you drop the lock you can
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* use six_relock_(read|intent_write)(lock, seq) to attempt to retake the lock
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* iff it hasn't been locked for write in the meantime.
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*
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* There are also operations that take the lock type as a parameter, where the
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* type is one of SIX_LOCK_read, SIX_LOCK_intent, or SIX_LOCK_write:
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*
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* six_lock_type(lock, type)
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* six_unlock_type(lock, type)
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* six_relock(lock, type, seq)
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* six_trylock_type(lock, type)
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* six_trylock_convert(lock, from, to)
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*
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* A lock may be held multiple times by the same thread (for read or intent,
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* not write). However, the six locks code does _not_ implement the actual
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* recursive checks itself though - rather, if your code (e.g. btree iterator
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* code) knows that the current thread already has a lock held, and for the
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* correct type, six_lock_increment() may be used to bump up the counter for
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* that type - the only effect is that one more call to unlock will be required
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* before the lock is unlocked.
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*/
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#include <linux/lockdep.h>
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#include <linux/sched.h>
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#include <linux/types.h>
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#ifdef CONFIG_SIX_LOCK_SPIN_ON_OWNER
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#include <linux/osq_lock.h>
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#endif
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#define SIX_LOCK_SEPARATE_LOCKFNS
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union six_lock_state {
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struct {
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atomic64_t counter;
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};
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struct {
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u64 v;
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};
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struct {
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/* for waitlist_bitnr() */
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unsigned long l;
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};
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struct {
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unsigned read_lock:27;
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unsigned write_locking:1;
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unsigned intent_lock:1;
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unsigned waiters:3;
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/*
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* seq works much like in seqlocks: it's incremented every time
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* we lock and unlock for write.
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*
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* If it's odd write lock is held, even unlocked.
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*
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* Thus readers can unlock, and then lock again later iff it
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* hasn't been modified in the meantime.
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*/
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u32 seq;
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};
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};
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enum six_lock_type {
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SIX_LOCK_read,
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SIX_LOCK_intent,
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SIX_LOCK_write,
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};
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struct six_lock {
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union six_lock_state state;
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unsigned intent_lock_recurse;
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struct task_struct *owner;
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#ifdef CONFIG_SIX_LOCK_SPIN_ON_OWNER
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struct optimistic_spin_queue osq;
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#endif
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unsigned __percpu *readers;
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raw_spinlock_t wait_lock;
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struct list_head wait_list[2];
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#ifdef CONFIG_DEBUG_LOCK_ALLOC
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struct lockdep_map dep_map;
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#endif
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};
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typedef int (*six_lock_should_sleep_fn)(struct six_lock *lock, void *);
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static __always_inline void __six_lock_init(struct six_lock *lock,
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const char *name,
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struct lock_class_key *key)
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{
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atomic64_set(&lock->state.counter, 0);
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raw_spin_lock_init(&lock->wait_lock);
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INIT_LIST_HEAD(&lock->wait_list[SIX_LOCK_read]);
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INIT_LIST_HEAD(&lock->wait_list[SIX_LOCK_intent]);
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#ifdef CONFIG_DEBUG_LOCK_ALLOC
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debug_check_no_locks_freed((void *) lock, sizeof(*lock));
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lockdep_init_map(&lock->dep_map, name, key, 0);
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#endif
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}
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#define six_lock_init(lock) \
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do { \
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static struct lock_class_key __key; \
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\
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__six_lock_init((lock), #lock, &__key); \
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} while (0)
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#define __SIX_VAL(field, _v) (((union six_lock_state) { .field = _v }).v)
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#define __SIX_LOCK(type) \
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bool six_trylock_##type(struct six_lock *); \
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bool six_relock_##type(struct six_lock *, u32); \
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int six_lock_##type(struct six_lock *, six_lock_should_sleep_fn, void *);\
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void six_unlock_##type(struct six_lock *);
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__SIX_LOCK(read)
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__SIX_LOCK(intent)
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__SIX_LOCK(write)
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#undef __SIX_LOCK
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#define SIX_LOCK_DISPATCH(type, fn, ...) \
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switch (type) { \
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case SIX_LOCK_read: \
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return fn##_read(__VA_ARGS__); \
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case SIX_LOCK_intent: \
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return fn##_intent(__VA_ARGS__); \
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case SIX_LOCK_write: \
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return fn##_write(__VA_ARGS__); \
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default: \
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BUG(); \
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}
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static inline bool six_trylock_type(struct six_lock *lock, enum six_lock_type type)
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{
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SIX_LOCK_DISPATCH(type, six_trylock, lock);
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}
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static inline bool six_relock_type(struct six_lock *lock, enum six_lock_type type,
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unsigned seq)
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{
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SIX_LOCK_DISPATCH(type, six_relock, lock, seq);
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}
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static inline int six_lock_type(struct six_lock *lock, enum six_lock_type type,
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six_lock_should_sleep_fn should_sleep_fn, void *p)
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{
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SIX_LOCK_DISPATCH(type, six_lock, lock, should_sleep_fn, p);
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}
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static inline void six_unlock_type(struct six_lock *lock, enum six_lock_type type)
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{
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SIX_LOCK_DISPATCH(type, six_unlock, lock);
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}
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void six_lock_downgrade(struct six_lock *);
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bool six_lock_tryupgrade(struct six_lock *);
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bool six_trylock_convert(struct six_lock *, enum six_lock_type,
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enum six_lock_type);
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void six_lock_increment(struct six_lock *, enum six_lock_type);
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void six_lock_wakeup_all(struct six_lock *);
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void six_lock_pcpu_free_rcu(struct six_lock *);
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void six_lock_pcpu_free(struct six_lock *);
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void six_lock_pcpu_alloc(struct six_lock *);
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struct six_lock_count {
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unsigned read;
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unsigned intent;
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};
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struct six_lock_count six_lock_counts(struct six_lock *);
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#endif /* _LINUX_SIX_H */
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