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#include <sys/param.h>
#include <sys/lock.h>
#include <sys/sx.h>
options INVARIANTS
options INVARIANT_SUPPORT
void
sx_assert(const struct sx *sx, int what);
#include <sys/kernel.h>
Shared/exclusive locks are created with either sx_init() or sx_init_flags() where sx is a pointer to space for a struct sx, and description is a pointer to a null-terminated character string that describes the shared/exclusive lock. The opts argument to sx_init_flags() specifies a set of optional flags to alter the behavior of sx. It contains one or more of the following flags:
SX_DUPOK | Witness should not log messages about duplicate locks being acquired. |
SX_NOWITNESS | |
Instruct witness(4) to ignore this lock. | |
SX_NOPROFILE | |
Do not profile this lock. | |
SX_RECURSE | Allow threads to recursively acquire exclusive locks for sx. |
SX_QUIET | Do not log any operations for this lock via ktr(4). |
SX_NEW | If the kernel has been compiled with options INVARIANTS, sx_init() will assert that the sx has not been initialized multiple times without intervening calls to sx_destroy() unless this option is specified. |
Shared/exclusive locks are destroyed with sx_destroy(). The lock sx must not be locked by any thread when it is destroyed.
Threads acquire and release a shared lock by calling sx_slock(), sx_slock_sig() or sx_try_slock() and sx_sunlock() or sx_unlock(). Threads acquire and release an exclusive lock by calling sx_xlock(), sx_xlock_sig() or sx_try_xlock() and sx_xunlock() or sx_unlock(). A thread can attempt to upgrade a currently held shared lock to an exclusive lock by calling sx_try_upgrade(). A thread that has an exclusive lock can downgrade it to a shared lock by calling sx_downgrade().
sx_try_slock() and sx_try_xlock() will return 0 if the shared/exclusive lock cannot be acquired immediately; otherwise the shared/exclusive lock will be acquired and a non-zero value will be returned.
sx_try_upgrade() will return 0 if the shared lock cannot be upgraded to an exclusive lock immediately; otherwise the exclusive lock will be acquired and a non-zero value will be returned.
sx_slock_sig() and sx_xlock_sig() do the same as their normal versions but performing an interruptible sleep. They return a non-zero value if the sleep has been interrupted by a signal or an interrupt, otherwise 0.
A thread can atomically release a shared/exclusive lock while waiting for an event by calling sx_sleep(). For more details on the parameters to this function, see sleep(9).
When compiled with options INVARIANTS and options INVARIANT_SUPPORT, the sx_assert() function tests sx for the assertions specified in what, and panics if they are not met. One of the following assertions must be specified:
SA_LOCKED | Assert that the current thread has either a shared or an exclusive lock on the sx lock pointed to by the first argument. |
SA_SLOCKED | Assert that the current thread has a shared lock on the sx lock pointed to by the first argument. |
SA_XLOCKED | Assert that the current thread has an exclusive lock on the sx lock pointed to by the first argument. |
SA_UNLOCKED | |
Assert that the current thread has no lock on the sx lock pointed to by the first argument. | |
In addition, one of the following optional assertions may be included with either an SA_LOCKED, SA_SLOCKED, or SA_XLOCKED assertion:
SA_RECURSED | Assert that the current thread has a recursed lock on sx. |
SA_NOTRECURSED | |
Assert that the current thread does not have a recursed lock on sx. | |
sx_xholder() will return a pointer to the thread which currently holds an exclusive lock on sx. If no thread holds an exclusive lock on sx, then NULL is returned instead.
sx_xlocked() will return non-zero if the current thread holds the exclusive lock; otherwise, it will return zero.
For ease of programming, sx_unlock() is provided as a macro frontend to the respective functions, sx_sunlock() and sx_xunlock(). Algorithms that are aware of what state the lock is in should use either of the two specific functions for a minor performance benefit.
The SX_SYSINIT() macro is used to generate a call to the sx_sysinit() routine at system startup in order to initialize a given sx lock. The parameters are the same as sx_init() but with an additional argument, name, that is used in generating unique variable names for the related structures associated with the lock and the sysinit routine. The SX_SYSINIT_FLAGS() macro can similarly be used to initialize a given sx lock using sx_init_flags().
A thread may not hold both a shared lock and an exclusive lock on the same lock simultaneously; attempting to do so will result in deadlock.
SX (9) | November 11, 2017 |
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