DragonFly On-Line Manual Pages
ck_spinlock(3) DragonFly Library Functions Manual ck_spinlock(3)
NAME
ck_spinlock_init, ck_spinlock_lock, ck_spinlock_unlock,
ck_spinlock_locked, ck_spinlock_trylock, ck_spinlock_anderson_init,
ck_spinlock_anderson_locked, ck_spinlock_anderson_lock,
ck_spinlock_anderson_unlock, ck_spinlock_cas_init,
ck_spinlock_cas_locked, ck_spinlock_cas_lock, ck_spinlock_cas_lock_eb,
ck_spinlock_cas_trylock, ck_spinlock_cas_unlock, ck_spinlock_clh_init,
ck_spinlock_clh_locked, ck_spinlock_clh_lock, ck_spinlock_clh_unlock,
ck_spinlock_dec_init, ck_spinlock_dec_locked, ck_spinlock_dec_lock,
ck_spinlock_dec_lock_eb, ck_spinlock_dec_trylock, ck_spinlock_dec_unlock,
ck_spinlock_fas_init, ck_spinlock_fas_lock, ck_spinlock_fas_lock_eb,
ck_spinlock_fas_locked, ck_spinlock_fas_trylock, ck_spinlock_fas_unlock,
ck_spinlock_hclh_init, ck_spinlock_hclh_locked, ck_spinlock_hclh_lock,
ck_spinlock_hclh_unlock, ck_spinlock_mcs_init, ck_spinlock_mcs_locked,
ck_spinlock_mcs_lock, ck_spinlock_mcs_trylock, ck_spinlock_mcs_unlock,
ck_spinlock_ticket_init, ck_spinlock_ticket_locked,
ck_spinlock_ticket_lock, ck_spinlock_ticket_lock_pb,
ck_spinlock_ticket_trylock, ck_spinlock_ticket_unlock - spinlock
implementations
LIBRARY
Concurrency Kit (libck, -lck)
SYNOPSIS
#include <ck_spinlock.h>
ck_spinlock_t spinlock = CK_SPINLOCK_INITIALIZER;
void
ck_spinlock_init(ck_spinlock_t *lock);
void
ck_spinlock_lock(ck_spinlock_t *lock);
void
ck_spinlock_unlock(ck_spinlock_t *lock);
bool
ck_spinlock_locked(ck_spinlock_t *lock);
bool
ck_spinlock_trylock(ck_spinlock_t *lock);
void
ck_spinlock_anderson_init(ck_spinlock_anderson_t *lock,
ck_spinlock_anderson_thread_t *slots, unsigned int count);
bool
ck_spinlock_anderson_locked(ck_spinlock_anderson_t *lock);
void
ck_spinlock_anderson_lock(ck_spinlock_anderson_t *lock,
ck_spinlock_anderson_thread_t **slot);
void
ck_spinlock_anderson_unlock(ck_spinlock_anderson_t *lock,
ck_spinlock_anderson_thread_t *slot);
ck_spinlock_cas_t spinlock = CK_SPINLOCK_CAS_INITIALIZER;
void
ck_spinlock_cas_init(ck_spinlock_cas_t *lock);
bool
ck_spinlock_cas_locked(ck_spinlock_cas_t *lock);
void
ck_spinlock_cas_lock(ck_spinlock_cas_t *lock);
void
ck_spinlock_cas_lock_eb(ck_spinlock_cas_t *lock);
bool
ck_spinlock_cas_trylock(ck_spinlock_cas_t *lock);
void
ck_spinlock_cas_unlock(ck_spinlock_cas_t *lock);
void
ck_spinlock_clh_init(ck_spinlock_clh_t **lock,
ck_spinlock_clh_t *unowned);
bool
ck_spinlock_clh_locked(ck_spinlock_clh_t **lock);
void
ck_spinlock_clh_lock(ck_spinlock_clh_t **lock, ck_spinlock_clh_t *node);
void
ck_spinlock_clh_unlock(ck_spinlock_clh_t **node);
ck_spinlock_dec_t spinlock = CK_SPINLOCK_DEC_INITIALIZER;
void
ck_spinlock_dec_init(ck_spinlock_dec_t *lock);
bool
ck_spinlock_dec_locked(ck_spinlock_dec_t *lock);
void
ck_spinlock_dec_lock(ck_spinlock_dec_t *lock);
void
ck_spinlock_dec_lock_eb(ck_spinlock_dec_t *lock);
bool
ck_spinlock_dec_trylock(ck_spinlock_dec_t *lock);
void
ck_spinlock_dec_unlock(ck_spinlock_dec_t *lock);
ck_spinlock_fas_t spinlock = CK_SPINLOCK_FAS_INITIALIZER;
void
ck_spinlock_fas_init(ck_spinlock_fas_t *lock);
void
ck_spinlock_fas_lock(ck_spinlock_fas_t *lock);
void
ck_spinlock_fas_lock_eb(ck_spinlock_fas_t *lock);
bool
ck_spinlock_fas_locked(ck_spinlock_fas_t *lock);
bool
ck_spinlock_fas_trylock(ck_spinlock_fas_t *lock);
void
ck_spinlock_fas_unlock(ck_spinlock_fas_t *lock);
void
ck_spinlock_hclh_init(ck_spinlock_hclh_t **lock,
ck_spinlock_hclh_t *unowned);
bool
ck_spinlock_hclh_locked(ck_spinlock_hclh_t **lock);
void
ck_spinlock_hclh_lock(ck_spinlock_hclh_t **lock,
ck_spinlock_hclh_t *node);
void
ck_spinlock_hclh_unlock(ck_spinlock_hclh_t **node);
ck_spinlock_mcs_t spinlock = CK_SPINLOCK_MCS_INITIALIZER;
void
ck_spinlock_mcs_init(ck_spinlock_mcs_t **lock);
bool
ck_spinlock_mcs_locked(ck_spinlock_mcs_t **lock);
void
ck_spinlock_mcs_lock(ck_spinlock_mcs_t **lock, ck_spinlock_mcs_t *node);
bool
ck_spinlock_mcs_trylock(ck_spinlock_mcs_t **lock,
ck_spinlock_mcs_t *node);
void
ck_spinlock_mcs_unlock(ck_spinlock_mcs_t **lock,
ck_spinlock_mcs_t *node);
ck_spinlock_ticket_t spinlock = CK_SPINLOCK_TICKET_INITIALIZER;
void
ck_spinlock_ticket_init(ck_spinlock_ticket_t *lock);
bool
ck_spinlock_ticket_locked(ck_spinlock_ticket_t *lock);
void
ck_spinlock_ticket_lock(ck_spinlock_ticket_t *lock);
void
ck_spinlock_ticket_lock_pb(ck_spinlock_ticket_t *lock,
unsigned int period);
bool
ck_spinlock_ticket_trylock(ck_spinlock_ticket_t *lock);
void
ck_spinlock_ticket_unlock(ck_spinlock_ticket_t *lock);
DESCRIPTION
A family of busy-wait spinlock implementations. The ck_spinlock_t
implementation is simply a wrapper around the fetch-and-swap
(ck_spinlock_fas_t) implementation. The table below provides a summary of
the current implementations.
| Namespace | Algorithm | Type | Restrictions | Fair |
'----------------------|-----------------------------|---------------|-------------------------|--------'
ck_spinlock_anderson Anderson Array Fixed number of threads Yes
ck_spinlock_cas Compare-and-Swap Centralized None No
ck_spinlock_clh Craig, Landin and Hagersten Queue Lifetime requirements Yes
ck_spinlock_dec Decrement (Linux kernel) Centralized UINT_MAX concurrency No
ck_spinlock_fas Fetch-and-store Centralized None No
ck_spinlock_hclh Hierarchical CLH Queue Lifetime requirements Yes *
ck_spinlock_mcs Mellor-Crummey and Scott Queue None Yes
ck_spinlock_ticket Ticket Centralized None Yes
* Hierarchical CLH only offers weak fairness for threads accross cluster
nodes.
If contention is low and there is no hard requirement for starvation-
freedom then a centralized greedy (unfair) spinlock is recommended. If
contention is high and there is no requirement for starvation-freedom
then a centralized greedy spinlock is recommended to be used with an
exponential backoff mechanism. If contention is generally low and there
is a hard requirement for starvation-freedom then the ticket lock is
recommended. If contention is high and there is a hard requirement for
starvation-freedom then the Craig and Landin and Hagersten queue spinlock
is recommended unless stack allocation is necessary or NUMA factor is
high, in which case the Mellor-Crummey and Scott spinlock is recommended.
If you cannot afford O(n) space-usage from array or queue spinlocks but
still require fairness under high contention then the ticket lock with
proportional back-off is recommended. If NUMA factor is high but prefer
a greedy lock, then please see ck_cohort(3).
EXAMPLE
#include <ck_spinlock.h>
#include <stdbool.h>
/*
* Alternatively, the mutex may be initialized at run-time with
* ck_spinlock_init(&mutex).
*/
ck_spinlock_t mutex = CK_SPINLOCK_INITIALIZER;
void
example(void)
{
ck_spinlock_lock(&mutex);
/*
* Critical section.
*/
ck_spinlock_unlock(&mutex);
ck_spinlock_lock_eb(&mutex);
/*
* Critical section.
*/
ck_spinlock_unlock(&mutex);
if (ck_spinlock_trylock(&mutex) == true) {
/*
* Critical section.
*/
ck_spinlock_unlock(&mutex);
}
}
SEE ALSO
ck_cohort(3), ck_elide(3)
Additional information available at http://concurrencykit.org/
July 26, 2013.