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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_NOADAPTIVE | |
Disable adaptive spinning, rather than sleeping, for lock operations while an exclusive lock holder is executing on another CPU. Adaptive spinning is the default unless the kernel is compiled with options NO_ADAPTIVE_SX . | |
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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