tools/perf/util/sharded_mutex.h - pub/scm/linux/kernel/git/hyperv/linux - Git at Google

 /* SPDX-License-Identifier: GPL-2.0 */
 #ifndef PERF_SHARDED_MUTEX_H
 #define PERF_SHARDED_MUTEX_H

 #include "mutex.h"
 #include "hashmap.h"

 /*
  * In a situation where a lock is needed per object, having a mutex can be
  * relatively memory expensive (40 bytes on x86-64). If the object can be
  * constantly hashed, a sharded mutex is an alternative global pool of mutexes
  * where the mutex is looked up from a hash value. This can lead to collisions
  * if the number of shards isn't large enough.
  */
 struct sharded_mutex {
 	/* mutexes array is 1<<cap_bits in size. */
 	unsigned int cap_bits;
 	struct mutex mutexes[];
 };

 struct sharded_mutex *sharded_mutex__new(size_t num_shards);
 void sharded_mutex__delete(struct sharded_mutex *sm);

 static inline struct mutex *sharded_mutex__get_mutex(struct sharded_mutex *sm, size_t hash)
 {
 	return &sm->mutexes[hash_bits(hash, sm->cap_bits)];
 }

 #endif  /* PERF_SHARDED_MUTEX_H */
	/* SPDX-License-Identifier: GPL-2.0 */
	#ifndef PERF_SHARDED_MUTEX_H
	#define PERF_SHARDED_MUTEX_H

	#include "mutex.h"
	#include "hashmap.h"

	/*
	* In a situation where a lock is needed per object, having a mutex can be
	* relatively memory expensive (40 bytes on x86-64). If the object can be
	* constantly hashed, a sharded mutex is an alternative global pool of mutexes
	* where the mutex is looked up from a hash value. This can lead to collisions
	* if the number of shards isn't large enough.
	*/
	struct sharded_mutex {
	/* mutexes array is 1<<cap_bits in size. */
	unsigned int cap_bits;
	struct mutex mutexes[];
	};

	struct sharded_mutex *sharded_mutex__new(size_t num_shards);
	void sharded_mutex__delete(struct sharded_mutex *sm);

	static inline struct mutex sharded_mutex__get_mutex(struct sharded_mutex sm, size_t hash)
	{
	return &sm->mutexes[hash_bits(hash, sm->cap_bits)];
	}

	#endif /* PERF_SHARDED_MUTEX_H */