/*
- * Copyright (c) 2000-2004 Apple Computer, Inc. All rights reserved.
+ * Copyright (c) 2000-2016 Apple Inc. All rights reserved.
*
* @APPLE_OSREFERENCE_LICENSE_HEADER_START@
*
* any improvements or extensions that they make and grant Carnegie Mellon
* the rights to redistribute these changes.
*/
-#include <mach_kdb.h>
+
+#define ATOMIC_PRIVATE 1
+#define LOCK_PRIVATE 1
+
#include <mach_ldebug.h>
#include <debug.h>
#include <kern/processor.h>
#include <kern/sched_prim.h>
#include <kern/debug.h>
+#include <machine/atomic.h>
+#include <machine/machine_cpu.h>
#include <string.h>
#include <sys/kdebug.h>
+#if CONFIG_DTRACE
+/*
+ * We need only enough declarations from the BSD-side to be able to
+ * test if our probe is active, and to call __dtrace_probe(). Setting
+ * NEED_DTRACE_DEFS gets a local copy of those definitions pulled in.
+ */
+#define NEED_DTRACE_DEFS
+#include <../bsd/sys/lockstat.h>
+#endif
+
#define LCK_MTX_SLEEP_CODE 0
#define LCK_MTX_SLEEP_DEADLINE_CODE 1
#define LCK_MTX_LCK_WAIT_CODE 2
#define LCK_MTX_UNLCK_WAKEUP_CODE 3
+#if MACH_LDEBUG
+#define ALIGN_TEST(p,t) do{if((uintptr_t)p&(sizeof(t)-1)) __builtin_trap();}while(0)
+#else
+#define ALIGN_TEST(p,t) do{}while(0)
+#endif
+
+/* Silence the volatile to _Atomic cast warning */
+#define ATOMIC_CAST(t,p) ((_Atomic t*)(uintptr_t)(p))
+
+/* Enforce program order of loads and stores. */
+#define ordered_load(target, type) \
+ __c11_atomic_load((_Atomic type *)(target), memory_order_relaxed)
+#define ordered_store(target, type, value) \
+ __c11_atomic_store((_Atomic type *)(target), value, memory_order_relaxed)
+
+#define ordered_load_hw(lock) ordered_load(&(lock)->lock_data, uintptr_t)
+#define ordered_store_hw(lock, value) ordered_store(&(lock)->lock_data, uintptr_t, (value))
+
+#define NOINLINE __attribute__((noinline))
+
static queue_head_t lck_grp_queue;
static unsigned int lck_grp_cnt;
-decl_mutex_data(static,lck_grp_lock)
+decl_lck_mtx_data(static,lck_grp_lock)
+static lck_mtx_ext_t lck_grp_lock_ext;
lck_grp_attr_t LockDefaultGroupAttr;
-lck_grp_t LockCompatGroup;
-lck_attr_t LockDefaultLckAttr;
+lck_grp_t LockCompatGroup;
+lck_attr_t LockDefaultLckAttr;
+
+#if CONFIG_DTRACE && __SMP__
+#if defined (__x86_64__)
+uint64_t dtrace_spin_threshold = 500; // 500ns
+#elif defined(__arm__) || defined(__arm64__)
+uint64_t dtrace_spin_threshold = LOCK_PANIC_TIMEOUT / 1000000; // 500ns
+#endif
+#endif
/*
* Routine: lck_mod_init
lck_mod_init(
void)
{
+ /*
+ * Obtain "lcks" options:this currently controls lock statistics
+ */
+ if (!PE_parse_boot_argn("lcks", &LcksOpts, sizeof (LcksOpts)))
+ LcksOpts = 0;
+
+
+#if (DEVELOPMENT || DEBUG) && defined(__x86_64__)
+ if (!PE_parse_boot_argn("-disable_mtx_chk", &LckDisablePreemptCheck, sizeof (LckDisablePreemptCheck)))
+ LckDisablePreemptCheck = 0;
+#endif /* (DEVELOPMENT || DEBUG) && defined(__x86_64__) */
+
queue_init(&lck_grp_queue);
- mutex_init(&lck_grp_lock, 0);
- lck_grp_cnt = 0;
- lck_grp_attr_setdefault( &LockDefaultGroupAttr);
- lck_grp_init( &LockCompatGroup, "Compatibility APIs", LCK_GRP_ATTR_NULL);
+
+ /*
+ * Need to bootstrap the LockCompatGroup instead of calling lck_grp_init() here. This avoids
+ * grabbing the lck_grp_lock before it is initialized.
+ */
+
+ bzero(&LockCompatGroup, sizeof(lck_grp_t));
+ (void) strncpy(LockCompatGroup.lck_grp_name, "Compatibility APIs", LCK_GRP_MAX_NAME);
+
+ if (LcksOpts & enaLkStat)
+ LockCompatGroup.lck_grp_attr = LCK_GRP_ATTR_STAT;
+ else
+ LockCompatGroup.lck_grp_attr = LCK_ATTR_NONE;
+
+ LockCompatGroup.lck_grp_refcnt = 1;
+
+ enqueue_tail(&lck_grp_queue, (queue_entry_t)&LockCompatGroup);
+ lck_grp_cnt = 1;
+
+ lck_grp_attr_setdefault(&LockDefaultGroupAttr);
lck_attr_setdefault(&LockDefaultLckAttr);
+
+ lck_mtx_init_ext(&lck_grp_lock, &lck_grp_lock_ext, &LockCompatGroup, &LockDefaultLckAttr);
}
/*
lck_grp_attr_setstat(
lck_grp_attr_t *attr)
{
- (void)hw_atomic_or((uint32_t *)&attr->grp_attr_val, LCK_GRP_ATTR_STAT);
+ (void)hw_atomic_or(&attr->grp_attr_val, LCK_GRP_ATTR_STAT);
}
/*
- * Routine: lck_grp_alloc_init
+ * Routine: lck_grp_alloc_init
*/
lck_grp_t *
return(grp);
}
-
/*
- * Routine: lck_grp_init
+ * Routine: lck_grp_init
*/
void
-lck_grp_init(
- lck_grp_t *grp,
- const char* grp_name,
- lck_grp_attr_t *attr)
+lck_grp_init(lck_grp_t * grp, const char * grp_name, lck_grp_attr_t * attr)
{
+ /* make sure locking infrastructure has been initialized */
+ assert(lck_grp_cnt > 0);
+
bzero((void *)grp, sizeof(lck_grp_t));
- (void) strncpy(grp->lck_grp_name, grp_name, LCK_GRP_MAX_NAME);
+ (void)strlcpy(grp->lck_grp_name, grp_name, LCK_GRP_MAX_NAME);
if (attr != LCK_GRP_ATTR_NULL)
grp->lck_grp_attr = attr->grp_attr_val;
else if (LcksOpts & enaLkStat)
- grp->lck_grp_attr = LCK_GRP_ATTR_STAT;
- else
- grp->lck_grp_attr = LCK_ATTR_NONE;
+ grp->lck_grp_attr = LCK_GRP_ATTR_STAT;
+ else
+ grp->lck_grp_attr = LCK_ATTR_NONE;
grp->lck_grp_refcnt = 1;
- mutex_lock(&lck_grp_lock);
+ lck_mtx_lock(&lck_grp_lock);
enqueue_tail(&lck_grp_queue, (queue_entry_t)grp);
lck_grp_cnt++;
- mutex_unlock(&lck_grp_lock);
-
+ lck_mtx_unlock(&lck_grp_lock);
}
-
/*
* Routine: lck_grp_free
*/
lck_grp_free(
lck_grp_t *grp)
{
- mutex_lock(&lck_grp_lock);
+ lck_mtx_lock(&lck_grp_lock);
lck_grp_cnt--;
(void)remque((queue_entry_t)grp);
- mutex_unlock(&lck_grp_lock);
+ lck_mtx_unlock(&lck_grp_lock);
lck_grp_deallocate(grp);
}
lck_grp_reference(
lck_grp_t *grp)
{
- (void)hw_atomic_add((uint32_t *)(&grp->lck_grp_refcnt), 1);
+ (void)hw_atomic_add(&grp->lck_grp_refcnt, 1);
}
lck_grp_deallocate(
lck_grp_t *grp)
{
- if (hw_atomic_sub((uint32_t *)(&grp->lck_grp_refcnt), 1) == 0)
+ if (hw_atomic_sub(&grp->lck_grp_refcnt, 1) == 0)
kfree(grp, sizeof(lck_grp_t));
}
return panic("lck_grp_lckcnt_incr(): invalid lock type: %d\n", lck_type);
}
- (void)hw_atomic_add((uint32_t *)lckcnt, 1);
+ (void)hw_atomic_add(lckcnt, 1);
}
/*
lck_type_t lck_type)
{
unsigned int *lckcnt;
+ int updated;
switch (lck_type) {
case LCK_TYPE_SPIN:
lckcnt = &grp->lck_grp_rwcnt;
break;
default:
- return panic("lck_grp_lckcnt_decr(): invalid lock type: %d\n", lck_type);
+ panic("lck_grp_lckcnt_decr(): invalid lock type: %d\n", lck_type);
+ return;
}
- (void)hw_atomic_sub((uint32_t *)lckcnt, 1);
+ updated = (int)hw_atomic_sub(lckcnt, 1);
+ assert(updated >= 0);
}
/*
lck_attr_setdefault(
lck_attr_t *attr)
{
+#if __arm__ || __arm64__
+ /* <rdar://problem/4404579>: Using LCK_ATTR_DEBUG here causes panic at boot time for arm */
+ attr->lck_attr_val = LCK_ATTR_NONE;
+#elif __i386__ || __x86_64__
#if !DEBUG
- if (LcksOpts & enaLkDeb)
- attr->lck_attr_val = LCK_ATTR_DEBUG;
- else
- attr->lck_attr_val = LCK_ATTR_NONE;
+ if (LcksOpts & enaLkDeb)
+ attr->lck_attr_val = LCK_ATTR_DEBUG;
+ else
+ attr->lck_attr_val = LCK_ATTR_NONE;
#else
- attr->lck_attr_val = LCK_ATTR_DEBUG;
-#endif
-
+ attr->lck_attr_val = LCK_ATTR_DEBUG;
+#endif /* !DEBUG */
+#else
+#error Unknown architecture.
+#endif /* __arm__ */
}
lck_attr_setdebug(
lck_attr_t *attr)
{
- (void)hw_atomic_or((uint32_t *)&attr->lck_attr_val, LCK_ATTR_DEBUG);
+ (void)hw_atomic_or(&attr->lck_attr_val, LCK_ATTR_DEBUG);
+}
+
+/*
+ * Routine: lck_attr_setdebug
+ */
+void
+lck_attr_cleardebug(
+ lck_attr_t *attr)
+{
+ (void)hw_atomic_and(&attr->lck_attr_val, ~LCK_ATTR_DEBUG);
}
lck_attr_rw_shared_priority(
lck_attr_t *attr)
{
- (void)hw_atomic_or((uint32_t *)&attr->lck_attr_val, LCK_ATTR_RW_SHARED_PRIORITY);
+ (void)hw_atomic_or(&attr->lck_attr_val, LCK_ATTR_RW_SHARED_PRIORITY);
}
kfree(attr, sizeof(lck_attr_t));
}
+/*
+ * Routine: hw_lock_init
+ *
+ * Initialize a hardware lock.
+ */
+void
+hw_lock_init(hw_lock_t lock)
+{
+ ordered_store_hw(lock, 0);
+}
+
+/*
+ * Routine: hw_lock_lock_contended
+ *
+ * Spin until lock is acquired or timeout expires.
+ * timeout is in mach_absolute_time ticks. Called with
+ * preemption disabled.
+ */
+
+#if __SMP__
+static unsigned int NOINLINE
+hw_lock_lock_contended(hw_lock_t lock, uintptr_t data, uint64_t timeout, boolean_t do_panic)
+{
+ uint64_t end = 0;
+ uintptr_t holder = lock->lock_data;
+ int i;
+
+ if (timeout == 0)
+ timeout = LOCK_PANIC_TIMEOUT;
+#if CONFIG_DTRACE
+ uint64_t begin;
+ boolean_t dtrace_enabled = lockstat_probemap[LS_LCK_SPIN_LOCK_SPIN] != 0;
+ if (__improbable(dtrace_enabled))
+ begin = mach_absolute_time();
+#endif
+ for ( ; ; ) {
+ for (i = 0; i < LOCK_SNOOP_SPINS; i++) {
+ cpu_pause();
+#if (!__ARM_ENABLE_WFE_) || (LOCK_PRETEST)
+ holder = ordered_load_hw(lock);
+ if (holder != 0)
+ continue;
+#endif
+ if (atomic_compare_exchange(&lock->lock_data, 0, data,
+ memory_order_acquire_smp, TRUE)) {
+#if CONFIG_DTRACE
+ if (__improbable(dtrace_enabled)) {
+ uint64_t spintime = mach_absolute_time() - begin;
+ if (spintime > dtrace_spin_threshold)
+ LOCKSTAT_RECORD2(LS_LCK_SPIN_LOCK_SPIN, lock, spintime, dtrace_spin_threshold);
+ }
+#endif
+ return 1;
+ }
+ }
+ if (end == 0) {
+ end = ml_get_timebase() + timeout;
+ }
+ else if (ml_get_timebase() >= end)
+ break;
+ }
+ if (do_panic) {
+ // Capture the actual time spent blocked, which may be higher than the timeout
+ // if a misbehaving interrupt stole this thread's CPU time.
+ panic("Spinlock timeout after %llu ticks, %p = %lx",
+ (ml_get_timebase() - end + timeout), lock, holder);
+ }
+ return 0;
+}
+#endif // __SMP__
+
+/*
+ * Routine: hw_lock_lock
+ *
+ * Acquire lock, spinning until it becomes available,
+ * return with preemption disabled.
+ */
+void
+hw_lock_lock(hw_lock_t lock)
+{
+ thread_t thread;
+ uintptr_t state;
+
+ thread = current_thread();
+ disable_preemption_for_thread(thread);
+ state = LCK_MTX_THREAD_TO_STATE(thread) | PLATFORM_LCK_ILOCK;
+#if __SMP__
+
+#if LOCK_PRETEST
+ if (ordered_load_hw(lock))
+ goto contended;
+#endif // LOCK_PRETEST
+ if (atomic_compare_exchange(&lock->lock_data, 0, state,
+ memory_order_acquire_smp, TRUE)) {
+ goto end;
+ }
+#if LOCK_PRETEST
+contended:
+#endif // LOCK_PRETEST
+ hw_lock_lock_contended(lock, state, 0, TRUE);
+end:
+#else // __SMP__
+ if (lock->lock_data)
+ panic("Spinlock held %p", lock);
+ lock->lock_data = state;
+#endif // __SMP__
+#if CONFIG_DTRACE
+ LOCKSTAT_RECORD(LS_LCK_SPIN_LOCK_ACQUIRE, lock, 0);
+#endif
+ return;
+}
+
+/*
+ * Routine: hw_lock_to
+ *
+ * Acquire lock, spinning until it becomes available or timeout.
+ * Timeout is in mach_absolute_time ticks, return with
+ * preemption disabled.
+ */
+unsigned int
+hw_lock_to(hw_lock_t lock, uint64_t timeout)
+{
+ thread_t thread;
+ uintptr_t state;
+ unsigned int success = 0;
+
+ thread = current_thread();
+ disable_preemption_for_thread(thread);
+ state = LCK_MTX_THREAD_TO_STATE(thread) | PLATFORM_LCK_ILOCK;
+#if __SMP__
+
+#if LOCK_PRETEST
+ if (ordered_load_hw(lock))
+ goto contended;
+#endif // LOCK_PRETEST
+ if (atomic_compare_exchange(&lock->lock_data, 0, state,
+ memory_order_acquire_smp, TRUE)) {
+ success = 1;
+ goto end;
+ }
+#if LOCK_PRETEST
+contended:
+#endif // LOCK_PRETEST
+ success = hw_lock_lock_contended(lock, state, timeout, FALSE);
+end:
+#else // __SMP__
+ (void)timeout;
+ if (ordered_load_hw(lock) == 0) {
+ ordered_store_hw(lock, state);
+ success = 1;
+ }
+#endif // __SMP__
+#if CONFIG_DTRACE
+ if (success)
+ LOCKSTAT_RECORD(LS_LCK_SPIN_LOCK_ACQUIRE, lock, 0);
+#endif
+ return success;
+}
+
+/*
+ * Routine: hw_lock_try
+ *
+ * returns with preemption disabled on success.
+ */
+unsigned int
+hw_lock_try(hw_lock_t lock)
+{
+ thread_t thread = current_thread();
+ int success = 0;
+#if LOCK_TRY_DISABLE_INT
+ long intmask;
+
+ intmask = disable_interrupts();
+#else
+ disable_preemption_for_thread(thread);
+#endif // LOCK_TRY_DISABLE_INT
+
+#if __SMP__
+#if LOCK_PRETEST
+ if (ordered_load_hw(lock))
+ goto failed;
+#endif // LOCK_PRETEST
+ success = atomic_compare_exchange(&lock->lock_data, 0, LCK_MTX_THREAD_TO_STATE(thread) | PLATFORM_LCK_ILOCK,
+ memory_order_acquire_smp, FALSE);
+#else
+ if (lock->lock_data == 0) {
+ lock->lock_data = LCK_MTX_THREAD_TO_STATE(thread) | PLATFORM_LCK_ILOCK;
+ success = 1;
+ }
+#endif // __SMP__
+
+#if LOCK_TRY_DISABLE_INT
+ if (success)
+ disable_preemption_for_thread(thread);
+#if LOCK_PRETEST
+failed:
+#endif // LOCK_PRETEST
+ restore_interrupts(intmask);
+#else
+#if LOCK_PRETEST
+failed:
+#endif // LOCK_PRETEST
+ if (!success)
+ enable_preemption();
+#endif // LOCK_TRY_DISABLE_INT
+#if CONFIG_DTRACE
+ if (success)
+ LOCKSTAT_RECORD(LS_LCK_SPIN_LOCK_ACQUIRE, lock, 0);
+#endif
+ return success;
+}
+
+/*
+ * Routine: hw_lock_unlock
+ *
+ * Unconditionally release lock, release preemption level.
+ */
+void
+hw_lock_unlock(hw_lock_t lock)
+{
+ __c11_atomic_store((_Atomic uintptr_t *)&lock->lock_data, 0, memory_order_release_smp);
+#if __arm__ || __arm64__
+ // ARM tests are only for open-source exclusion
+ set_event();
+#endif // __arm__ || __arm64__
+#if CONFIG_DTRACE
+ LOCKSTAT_RECORD(LS_LCK_SPIN_UNLOCK_RELEASE, lock, 0);
+#endif /* CONFIG_DTRACE */
+ enable_preemption();
+}
+
+/*
+ * Routine hw_lock_held, doesn't change preemption state.
+ * N.B. Racy, of course.
+ */
+unsigned int
+hw_lock_held(hw_lock_t lock)
+{
+ return (ordered_load_hw(lock) != 0);
+}
/*
* Routine: lck_spin_sleep
}
+/*
+ * Routine: lck_mtx_clear_promoted
+ *
+ * Handle clearing of TH_SFLAG_PROMOTED,
+ * adjusting thread priority as needed.
+ *
+ * Called with thread lock held
+ */
+static void
+lck_mtx_clear_promoted (
+ thread_t thread,
+ __kdebug_only uintptr_t trace_lck)
+{
+ thread->sched_flags &= ~TH_SFLAG_PROMOTED;
+
+ if (thread->sched_flags & TH_SFLAG_RW_PROMOTED) {
+ /* Thread still has a RW lock promotion */
+ } else if (thread->sched_flags & TH_SFLAG_DEPRESSED_MASK) {
+ KERNEL_DEBUG_CONSTANT(
+ MACHDBG_CODE(DBG_MACH_SCHED,MACH_DEMOTE) | DBG_FUNC_NONE,
+ thread->sched_pri, DEPRESSPRI, 0, trace_lck, 0);
+ set_sched_pri(thread, DEPRESSPRI);
+ } else {
+ if (thread->base_pri < thread->sched_pri) {
+ KERNEL_DEBUG_CONSTANT(
+ MACHDBG_CODE(DBG_MACH_SCHED,MACH_DEMOTE) | DBG_FUNC_NONE,
+ thread->sched_pri, thread->base_pri, 0, trace_lck, 0);
+ }
+ thread_recompute_sched_pri(thread, FALSE);
+ }
+}
+
+
/*
* Routine: lck_mtx_sleep
*/
wait_interrupt_t interruptible)
{
wait_result_t res;
+ thread_t thread = current_thread();
KERNEL_DEBUG(MACHDBG_CODE(DBG_MACH_LOCKS, LCK_MTX_SLEEP_CODE) | DBG_FUNC_START,
- (int)lck, (int)lck_sleep_action, (int)event, (int)interruptible, 0);
+ VM_KERNEL_UNSLIDE_OR_PERM(lck), (int)lck_sleep_action, VM_KERNEL_UNSLIDE_OR_PERM(event), (int)interruptible, 0);
if ((lck_sleep_action & ~LCK_SLEEP_MASK) != 0)
panic("Invalid lock sleep action %x\n", lck_sleep_action);
+ if (lck_sleep_action & LCK_SLEEP_PROMOTED_PRI) {
+ /*
+ * We overload the RW lock promotion to give us a priority ceiling
+ * during the time that this thread is asleep, so that when it
+ * is re-awakened (and not yet contending on the mutex), it is
+ * runnable at a reasonably high priority.
+ */
+ thread->rwlock_count++;
+ }
+
res = assert_wait(event, interruptible);
if (res == THREAD_WAITING) {
lck_mtx_unlock(lck);
res = thread_block(THREAD_CONTINUE_NULL);
- if (!(lck_sleep_action & LCK_SLEEP_UNLOCK))
- lck_mtx_lock(lck);
+ if (!(lck_sleep_action & LCK_SLEEP_UNLOCK)) {
+ if ((lck_sleep_action & LCK_SLEEP_SPIN))
+ lck_mtx_lock_spin(lck);
+ else if ((lck_sleep_action & LCK_SLEEP_SPIN_ALWAYS))
+ lck_mtx_lock_spin_always(lck);
+ else
+ lck_mtx_lock(lck);
+ }
}
else
if (lck_sleep_action & LCK_SLEEP_UNLOCK)
lck_mtx_unlock(lck);
+ if (lck_sleep_action & LCK_SLEEP_PROMOTED_PRI) {
+ if ((thread->rwlock_count-- == 1 /* field now 0 */) && (thread->sched_flags & TH_SFLAG_RW_PROMOTED)) {
+ /* sched_flags checked without lock, but will be rechecked while clearing */
+ lck_rw_clear_promotion(thread);
+ }
+ }
+
KERNEL_DEBUG(MACHDBG_CODE(DBG_MACH_LOCKS, LCK_MTX_SLEEP_CODE) | DBG_FUNC_END, (int)res, 0, 0, 0, 0);
return res;
uint64_t deadline)
{
wait_result_t res;
+ thread_t thread = current_thread();
KERNEL_DEBUG(MACHDBG_CODE(DBG_MACH_LOCKS, LCK_MTX_SLEEP_DEADLINE_CODE) | DBG_FUNC_START,
- (int)lck, (int)lck_sleep_action, (int)event, (int)interruptible, 0);
+ VM_KERNEL_UNSLIDE_OR_PERM(lck), (int)lck_sleep_action, VM_KERNEL_UNSLIDE_OR_PERM(event), (int)interruptible, 0);
if ((lck_sleep_action & ~LCK_SLEEP_MASK) != 0)
panic("Invalid lock sleep action %x\n", lck_sleep_action);
+ if (lck_sleep_action & LCK_SLEEP_PROMOTED_PRI) {
+ /*
+ * See lck_mtx_sleep().
+ */
+ thread->rwlock_count++;
+ }
+
res = assert_wait_deadline(event, interruptible, deadline);
if (res == THREAD_WAITING) {
lck_mtx_unlock(lck);
res = thread_block(THREAD_CONTINUE_NULL);
- if (!(lck_sleep_action & LCK_SLEEP_UNLOCK))
- lck_mtx_lock(lck);
+ if (!(lck_sleep_action & LCK_SLEEP_UNLOCK)) {
+ if ((lck_sleep_action & LCK_SLEEP_SPIN))
+ lck_mtx_lock_spin(lck);
+ else
+ lck_mtx_lock(lck);
+ }
}
else
if (lck_sleep_action & LCK_SLEEP_UNLOCK)
lck_mtx_unlock(lck);
+ if (lck_sleep_action & LCK_SLEEP_PROMOTED_PRI) {
+ if ((thread->rwlock_count-- == 1 /* field now 0 */) && (thread->sched_flags & TH_SFLAG_RW_PROMOTED)) {
+ /* sched_flags checked without lock, but will be rechecked while clearing */
+ lck_rw_clear_promotion(thread);
+ }
+ }
+
KERNEL_DEBUG(MACHDBG_CODE(DBG_MACH_LOCKS, LCK_MTX_SLEEP_DEADLINE_CODE) | DBG_FUNC_END, (int)res, 0, 0, 0, 0);
return res;
{
thread_t self = current_thread();
lck_mtx_t *mutex;
+ __kdebug_only uintptr_t trace_lck = VM_KERNEL_UNSLIDE_OR_PERM(lck);
+ __kdebug_only uintptr_t trace_holder = VM_KERNEL_UNSLIDE_OR_PERM(holder);
integer_t priority;
spl_t s = splsched();
+#if CONFIG_DTRACE
+ uint64_t sleep_start = 0;
+
+ if (lockstat_probemap[LS_LCK_MTX_LOCK_BLOCK] || lockstat_probemap[LS_LCK_MTX_EXT_LOCK_BLOCK]) {
+ sleep_start = mach_absolute_time();
+ }
+#endif
if (lck->lck_mtx_tag != LCK_MTX_TAG_INDIRECT)
mutex = lck;
else
mutex = &lck->lck_mtx_ptr->lck_mtx;
- KERNEL_DEBUG(MACHDBG_CODE(DBG_MACH_LOCKS, LCK_MTX_LCK_WAIT_CODE) | DBG_FUNC_START, (int)lck, (int)holder, 0, 0, 0);
+ KERNEL_DEBUG(MACHDBG_CODE(DBG_MACH_LOCKS, LCK_MTX_LCK_WAIT_CODE) | DBG_FUNC_START, trace_lck, trace_holder, 0, 0, 0);
priority = self->sched_pri;
- if (priority < self->priority)
- priority = self->priority;
- if (priority > MINPRI_KERNEL)
- priority = MINPRI_KERNEL;
- else
+ if (priority < self->base_pri)
+ priority = self->base_pri;
if (priority < BASEPRI_DEFAULT)
priority = BASEPRI_DEFAULT;
+ /* Do not promote past promotion ceiling */
+ priority = MIN(priority, MAXPRI_PROMOTE);
+
thread_lock(holder);
- if (mutex->lck_mtx_pri == 0)
+ if (mutex->lck_mtx_pri == 0) {
holder->promotions++;
- if (holder->priority < MINPRI_KERNEL) {
- holder->sched_mode |= TH_MODE_PROMOTED;
- if ( mutex->lck_mtx_pri < priority &&
- holder->sched_pri < priority ) {
- KERNEL_DEBUG_CONSTANT(
- MACHDBG_CODE(DBG_MACH_SCHED,MACH_PROMOTE) | DBG_FUNC_NONE,
- holder->sched_pri, priority, (int)holder, (int)lck, 0);
+ holder->sched_flags |= TH_SFLAG_PROMOTED;
+ }
- set_sched_pri(holder, priority);
- }
+ if (mutex->lck_mtx_pri < priority && holder->sched_pri < priority) {
+ KERNEL_DEBUG_CONSTANT(
+ MACHDBG_CODE(DBG_MACH_SCHED,MACH_PROMOTE) | DBG_FUNC_NONE,
+ holder->sched_pri, priority, trace_holder, trace_lck, 0);
+ set_sched_pri(holder, priority);
}
thread_unlock(holder);
splx(s);
mutex->lck_mtx_waiters++;
}
- assert_wait((event_t)(((unsigned int*)lck)+((sizeof(lck_mtx_t)-1)/sizeof(unsigned int))), THREAD_UNINT);
+ thread_set_pending_block_hint(self, kThreadWaitKernelMutex);
+ assert_wait(LCK_MTX_EVENT(mutex), THREAD_UNINT);
lck_mtx_ilk_unlock(mutex);
thread_block(THREAD_CONTINUE_NULL);
KERNEL_DEBUG(MACHDBG_CODE(DBG_MACH_LOCKS, LCK_MTX_LCK_WAIT_CODE) | DBG_FUNC_END, 0, 0, 0, 0, 0);
+#if CONFIG_DTRACE
+ /*
+ * Record the DTrace lockstat probe for blocking, block time
+ * measured from when we were entered.
+ */
+ if (sleep_start) {
+ if (lck->lck_mtx_tag != LCK_MTX_TAG_INDIRECT) {
+ LOCKSTAT_RECORD(LS_LCK_MTX_LOCK_BLOCK, lck,
+ mach_absolute_time() - sleep_start);
+ } else {
+ LOCKSTAT_RECORD(LS_LCK_MTX_EXT_LOCK_BLOCK, lck,
+ mach_absolute_time() - sleep_start);
+ }
+ }
+#endif
}
/*
{
thread_t thread = current_thread();
lck_mtx_t *mutex;
+ integer_t priority;
+ spl_t s;
+ __kdebug_only uintptr_t trace_lck = VM_KERNEL_UNSLIDE_OR_PERM(lck);
if (lck->lck_mtx_tag != LCK_MTX_TAG_INDIRECT)
mutex = lck;
mutex->lck_mtx_waiters--;
}
- if (mutex->lck_mtx_waiters > 0) {
- integer_t priority = mutex->lck_mtx_pri;
- spl_t s = splsched();
+ if (mutex->lck_mtx_waiters)
+ priority = mutex->lck_mtx_pri;
+ else {
+ mutex->lck_mtx_pri = 0;
+ priority = 0;
+ }
+ if (priority || thread->was_promoted_on_wakeup) {
+ s = splsched();
thread_lock(thread);
- thread->promotions++;
- if (thread->priority < MINPRI_KERNEL) {
- thread->sched_mode |= TH_MODE_PROMOTED;
+
+ if (priority) {
+ thread->promotions++;
+ thread->sched_flags |= TH_SFLAG_PROMOTED;
if (thread->sched_pri < priority) {
KERNEL_DEBUG_CONSTANT(
MACHDBG_CODE(DBG_MACH_SCHED,MACH_PROMOTE) | DBG_FUNC_NONE,
- thread->sched_pri, priority, 0, (int)lck, 0);
-
+ thread->sched_pri, priority, 0, trace_lck, 0);
+ /* Do not promote past promotion ceiling */
+ assert(priority <= MAXPRI_PROMOTE);
set_sched_pri(thread, priority);
}
}
+ if (thread->was_promoted_on_wakeup) {
+ thread->was_promoted_on_wakeup = 0;
+ if (thread->promotions == 0)
+ lck_mtx_clear_promoted(thread, trace_lck);
+ }
+
thread_unlock(thread);
splx(s);
}
- else
- mutex->lck_mtx_pri = 0;
+#if CONFIG_DTRACE
+ if (lockstat_probemap[LS_LCK_MTX_LOCK_ACQUIRE] || lockstat_probemap[LS_LCK_MTX_EXT_LOCK_ACQUIRE]) {
+ if (lck->lck_mtx_tag != LCK_MTX_TAG_INDIRECT) {
+ LOCKSTAT_RECORD(LS_LCK_MTX_LOCK_ACQUIRE, lck, 0);
+ } else {
+ LOCKSTAT_RECORD(LS_LCK_MTX_EXT_LOCK_ACQUIRE, lck, 0);
+ }
+ }
+#endif
return (mutex->lck_mtx_waiters);
}
{
thread_t thread = current_thread();
lck_mtx_t *mutex;
+ __kdebug_only uintptr_t trace_lck = VM_KERNEL_UNSLIDE_OR_PERM(lck);
if (lck->lck_mtx_tag != LCK_MTX_TAG_INDIRECT)
mutex = lck;
else
mutex = &lck->lck_mtx_ptr->lck_mtx;
+ if (thread != holder)
+ panic("lck_mtx_unlock_wakeup: mutex %p holder %p\n", mutex, holder);
- KERNEL_DEBUG(MACHDBG_CODE(DBG_MACH_LOCKS, LCK_MTX_UNLCK_WAKEUP_CODE) | DBG_FUNC_START, (int)lck, (int)holder, 0, 0, 0);
+ KERNEL_DEBUG(MACHDBG_CODE(DBG_MACH_LOCKS, LCK_MTX_UNLCK_WAKEUP_CODE) | DBG_FUNC_START, trace_lck, VM_KERNEL_UNSLIDE_OR_PERM(holder), 0, 0, 0);
- if (thread != holder)
- panic("lck_mtx_unlock_wakeup: mutex %x holder %x\n", mutex, holder);
+ assert(mutex->lck_mtx_waiters > 0);
+ if (mutex->lck_mtx_waiters > 1)
+ thread_wakeup_one_with_pri(LCK_MTX_EVENT(lck), lck->lck_mtx_pri);
+ else
+ thread_wakeup_one(LCK_MTX_EVENT(lck));
if (thread->promotions > 0) {
spl_t s = splsched();
thread_lock(thread);
- if ( --thread->promotions == 0 &&
- (thread->sched_mode & TH_MODE_PROMOTED) ) {
- thread->sched_mode &= ~TH_MODE_PROMOTED;
- if (thread->sched_mode & TH_MODE_ISDEPRESSED) {
- KERNEL_DEBUG_CONSTANT(
- MACHDBG_CODE(DBG_MACH_SCHED,MACH_DEMOTE) | DBG_FUNC_NONE,
- thread->sched_pri, DEPRESSPRI, 0, (int)lck, 0);
-
- set_sched_pri(thread, DEPRESSPRI);
- }
- else {
- if (thread->priority < thread->sched_pri) {
- KERNEL_DEBUG_CONSTANT(
- MACHDBG_CODE(DBG_MACH_SCHED,MACH_DEMOTE) |
- DBG_FUNC_NONE,
- thread->sched_pri, thread->priority,
- 0, (int)lck, 0);
- }
-
- compute_priority(thread, FALSE);
- }
- }
+ if (--thread->promotions == 0 && (thread->sched_flags & TH_SFLAG_PROMOTED))
+ lck_mtx_clear_promoted(thread, trace_lck);
thread_unlock(thread);
splx(s);
}
- assert(mutex->lck_mtx_waiters > 0);
- thread_wakeup_one((event_t)(((unsigned int*)lck)+(sizeof(lck_mtx_t)-1)/sizeof(unsigned int)));
KERNEL_DEBUG(MACHDBG_CODE(DBG_MACH_LOCKS, LCK_MTX_UNLCK_WAKEUP_CODE) | DBG_FUNC_END, 0, 0, 0, 0, 0);
}
+void
+lck_mtx_unlockspin_wakeup (
+ lck_mtx_t *lck)
+{
+ assert(lck->lck_mtx_waiters > 0);
+ thread_wakeup_one(LCK_MTX_EVENT(lck));
+
+ KERNEL_DEBUG(MACHDBG_CODE(DBG_MACH_LOCKS, LCK_MTX_UNLCK_WAKEUP_CODE) | DBG_FUNC_NONE, VM_KERNEL_UNSLIDE_OR_PERM(lck), 0, 0, 1, 0);
+#if CONFIG_DTRACE
+ /*
+ * When there are waiters, we skip the hot-patch spot in the
+ * fastpath, so we record it here.
+ */
+ LOCKSTAT_RECORD(LS_LCK_MTX_UNLOCK_RELEASE, lck, 0);
+#endif
+}
+
+
/*
* Routine: mutex_pause
*
* Called by former callers of simple_lock_pause().
*/
+#define MAX_COLLISION_COUNTS 32
+#define MAX_COLLISION 8
+
+unsigned int max_collision_count[MAX_COLLISION_COUNTS];
+
+uint32_t collision_backoffs[MAX_COLLISION] = {
+ 10, 50, 100, 200, 400, 600, 800, 1000
+};
+
void
-mutex_pause(void)
+mutex_pause(uint32_t collisions)
{
wait_result_t wait_result;
+ uint32_t back_off;
+
+ if (collisions >= MAX_COLLISION_COUNTS)
+ collisions = MAX_COLLISION_COUNTS - 1;
+ max_collision_count[collisions]++;
- wait_result = assert_wait_timeout((event_t)mutex_pause, THREAD_UNINT, 1, 1000*NSEC_PER_USEC);
+ if (collisions >= MAX_COLLISION)
+ collisions = MAX_COLLISION - 1;
+ back_off = collision_backoffs[collisions];
+
+ wait_result = assert_wait_timeout((event_t)mutex_pause, THREAD_UNINT, back_off, NSEC_PER_USEC);
assert(wait_result == THREAD_WAITING);
wait_result = thread_block(THREAD_CONTINUE_NULL);
assert(wait_result == THREAD_TIMED_OUT);
}
+
+unsigned int mutex_yield_wait = 0;
+unsigned int mutex_yield_no_wait = 0;
+
+void
+lck_mtx_yield(
+ lck_mtx_t *lck)
+{
+ int waiters;
+
+#if DEBUG
+ lck_mtx_assert(lck, LCK_MTX_ASSERT_OWNED);
+#endif /* DEBUG */
+
+ if (lck->lck_mtx_tag == LCK_MTX_TAG_INDIRECT)
+ waiters = lck->lck_mtx_ptr->lck_mtx.lck_mtx_waiters;
+ else
+ waiters = lck->lck_mtx_waiters;
+
+ if ( !waiters) {
+ mutex_yield_no_wait++;
+ } else {
+ mutex_yield_wait++;
+ lck_mtx_unlock(lck);
+ mutex_pause(0);
+ lck_mtx_lock(lck);
+ }
+}
+
+
/*
* Routine: lck_rw_sleep
*/
{
wait_result_t res;
lck_rw_type_t lck_rw_type;
-
+ thread_t thread = current_thread();
+
if ((lck_sleep_action & ~LCK_SLEEP_MASK) != 0)
panic("Invalid lock sleep action %x\n", lck_sleep_action);
+ if (lck_sleep_action & LCK_SLEEP_PROMOTED_PRI) {
+ /*
+ * Although we are dropping the RW lock, the intent in most cases
+ * is that this thread remains as an observer, since it may hold
+ * some secondary resource, but must yield to avoid deadlock. In
+ * this situation, make sure that the thread is boosted to the
+ * RW lock ceiling while blocked, so that it can re-acquire the
+ * RW lock at that priority.
+ */
+ thread->rwlock_count++;
+ }
+
res = assert_wait(event, interruptible);
if (res == THREAD_WAITING) {
lck_rw_type = lck_rw_done(lck);
if (lck_sleep_action & LCK_SLEEP_UNLOCK)
(void)lck_rw_done(lck);
+ if (lck_sleep_action & LCK_SLEEP_PROMOTED_PRI) {
+ if ((thread->rwlock_count-- == 1 /* field now 0 */) && (thread->sched_flags & TH_SFLAG_RW_PROMOTED)) {
+ /* sched_flags checked without lock, but will be rechecked while clearing */
+
+ /* Only if the caller wanted the lck_rw_t returned unlocked should we drop to 0 */
+ assert(lck_sleep_action & LCK_SLEEP_UNLOCK);
+
+ lck_rw_clear_promotion(thread);
+ }
+ }
+
return res;
}
{
wait_result_t res;
lck_rw_type_t lck_rw_type;
+ thread_t thread = current_thread();
if ((lck_sleep_action & ~LCK_SLEEP_MASK) != 0)
panic("Invalid lock sleep action %x\n", lck_sleep_action);
+ if (lck_sleep_action & LCK_SLEEP_PROMOTED_PRI) {
+ thread->rwlock_count++;
+ }
+
res = assert_wait_deadline(event, interruptible, deadline);
if (res == THREAD_WAITING) {
lck_rw_type = lck_rw_done(lck);
if (lck_sleep_action & LCK_SLEEP_UNLOCK)
(void)lck_rw_done(lck);
+ if (lck_sleep_action & LCK_SLEEP_PROMOTED_PRI) {
+ if ((thread->rwlock_count-- == 1 /* field now 0 */) && (thread->sched_flags & TH_SFLAG_RW_PROMOTED)) {
+ /* sched_flags checked without lock, but will be rechecked while clearing */
+
+ /* Only if the caller wanted the lck_rw_t returned unlocked should we drop to 0 */
+ assert(lck_sleep_action & LCK_SLEEP_UNLOCK);
+
+ lck_rw_clear_promotion(thread);
+ }
+ }
+
return res;
}
+/*
+ * Reader-writer lock promotion
+ *
+ * We support a limited form of reader-writer
+ * lock promotion whose effects are:
+ *
+ * * Qualifying threads have decay disabled
+ * * Scheduler priority is reset to a floor of
+ * of their statically assigned priority
+ * or BASEPRI_BACKGROUND
+ *
+ * The rationale is that lck_rw_ts do not have
+ * a single owner, so we cannot apply a directed
+ * priority boost from all waiting threads
+ * to all holding threads without maintaining
+ * lists of all shared owners and all waiting
+ * threads for every lock.
+ *
+ * Instead (and to preserve the uncontended fast-
+ * path), acquiring (or attempting to acquire)
+ * a RW lock in shared or exclusive lock increments
+ * a per-thread counter. Only if that thread stops
+ * making forward progress (for instance blocking
+ * on a mutex, or being preempted) do we consult
+ * the counter and apply the priority floor.
+ * When the thread becomes runnable again (or in
+ * the case of preemption it never stopped being
+ * runnable), it has the priority boost and should
+ * be in a good position to run on the CPU and
+ * release all RW locks (at which point the priority
+ * boost is cleared).
+ *
+ * Care must be taken to ensure that priority
+ * boosts are not retained indefinitely, since unlike
+ * mutex priority boosts (where the boost is tied
+ * to the mutex lifecycle), the boost is tied
+ * to the thread and independent of any particular
+ * lck_rw_t. Assertions are in place on return
+ * to userspace so that the boost is not held
+ * indefinitely.
+ *
+ * The routines that increment/decrement the
+ * per-thread counter should err on the side of
+ * incrementing any time a preemption is possible
+ * and the lock would be visible to the rest of the
+ * system as held (so it should be incremented before
+ * interlocks are dropped/preemption is enabled, or
+ * before a CAS is executed to acquire the lock).
+ *
+ */
+
+/*
+ * lck_rw_clear_promotion: Undo priority promotions when the last RW
+ * lock is released by a thread (if a promotion was active)
+ */
+void lck_rw_clear_promotion(thread_t thread)
+{
+ assert(thread->rwlock_count == 0);
+
+ /* Cancel any promotions if the thread had actually blocked while holding a RW lock */
+ spl_t s = splsched();
+
+ thread_lock(thread);
+
+ if (thread->sched_flags & TH_SFLAG_RW_PROMOTED) {
+ thread->sched_flags &= ~TH_SFLAG_RW_PROMOTED;
+
+ if (thread->sched_flags & TH_SFLAG_PROMOTED) {
+ /* Thread still has a mutex promotion */
+ } else if (thread->sched_flags & TH_SFLAG_DEPRESSED_MASK) {
+ KERNEL_DEBUG_CONSTANT(MACHDBG_CODE(DBG_MACH_SCHED, MACH_RW_DEMOTE) | DBG_FUNC_NONE,
+ (uintptr_t)thread_tid(thread), thread->sched_pri, DEPRESSPRI, 0, 0);
+
+ set_sched_pri(thread, DEPRESSPRI);
+ } else {
+ KERNEL_DEBUG_CONSTANT(MACHDBG_CODE(DBG_MACH_SCHED, MACH_RW_DEMOTE) | DBG_FUNC_NONE,
+ (uintptr_t)thread_tid(thread), thread->sched_pri, thread->base_pri, 0, 0);
+
+ thread_recompute_sched_pri(thread, FALSE);
+ }
+ }
+
+ thread_unlock(thread);
+ splx(s);
+}
+
+/*
+ * Callout from context switch if the thread goes
+ * off core with a positive rwlock_count
+ *
+ * Called at splsched with the thread locked
+ */
+void
+lck_rw_set_promotion_locked(thread_t thread)
+{
+ if (LcksOpts & disLkRWPrio)
+ return;
+
+ integer_t priority;
+
+ priority = thread->sched_pri;
+
+ if (priority < thread->base_pri)
+ priority = thread->base_pri;
+ if (priority < BASEPRI_BACKGROUND)
+ priority = BASEPRI_BACKGROUND;
+
+ if ((thread->sched_pri < priority) ||
+ !(thread->sched_flags & TH_SFLAG_RW_PROMOTED)) {
+ KERNEL_DEBUG_CONSTANT(
+ MACHDBG_CODE(DBG_MACH_SCHED, MACH_RW_PROMOTE) | DBG_FUNC_NONE,
+ (uintptr_t)thread_tid(thread), thread->sched_pri,
+ thread->base_pri, priority, 0);
+
+ thread->sched_flags |= TH_SFLAG_RW_PROMOTED;
+
+ if (thread->sched_pri < priority)
+ set_sched_pri(thread, priority);
+ }
+}
+
kern_return_t
host_lockgroup_info(
host_t host,
lockgroup_info_t *lockgroup_info;
vm_offset_t lockgroup_info_addr;
vm_size_t lockgroup_info_size;
+ vm_size_t lockgroup_info_vmsize;
lck_grp_t *lck_grp;
unsigned int i;
- vm_size_t used;
vm_map_copy_t copy;
kern_return_t kr;
if (host == HOST_NULL)
return KERN_INVALID_HOST;
- mutex_lock(&lck_grp_lock);
+ lck_mtx_lock(&lck_grp_lock);
- lockgroup_info_size = round_page(lck_grp_cnt * sizeof *lockgroup_info);
+ lockgroup_info_size = lck_grp_cnt * sizeof(*lockgroup_info);
+ lockgroup_info_vmsize = round_page(lockgroup_info_size);
kr = kmem_alloc_pageable(ipc_kernel_map,
- &lockgroup_info_addr, lockgroup_info_size);
+ &lockgroup_info_addr, lockgroup_info_vmsize, VM_KERN_MEMORY_IPC);
if (kr != KERN_SUCCESS) {
- mutex_unlock(&lck_grp_lock);
+ lck_mtx_unlock(&lck_grp_lock);
return(kr);
}
}
*lockgroup_infoCntp = lck_grp_cnt;
- mutex_unlock(&lck_grp_lock);
+ lck_mtx_unlock(&lck_grp_lock);
- used = (*lockgroup_infoCntp) * sizeof *lockgroup_info;
-
- if (used != lockgroup_info_size)
- bzero((char *) lockgroup_info, lockgroup_info_size - used);
+ if (lockgroup_info_size != lockgroup_info_vmsize)
+ bzero((char *)lockgroup_info, lockgroup_info_vmsize - lockgroup_info_size);
kr = vm_map_copyin(ipc_kernel_map, (vm_map_address_t)lockgroup_info_addr,
(vm_map_size_t)lockgroup_info_size, TRUE, ©);
}
/*
- * Compatibility module
+ * Atomic primitives, prototyped in kern/simple_lock.h
+ * Noret versions are more efficient on some architectures
*/
-
-extern lck_rw_t *lock_alloc_EXT( boolean_t can_sleep, unsigned short tag0, unsigned short tag1);
-extern void lock_done_EXT(lck_rw_t *lock);
-extern void lock_free_EXT(lck_rw_t *lock);
-extern void lock_init_EXT(lck_rw_t *lock, boolean_t can_sleep, unsigned short tag0, unsigned short tag1);
-extern void lock_read_EXT(lck_rw_t *lock);
-extern boolean_t lock_read_to_write_EXT(lck_rw_t *lock);
-extern void lock_write_EXT(lck_rw_t *lock);
-extern void lock_write_to_read_EXT(lck_rw_t *lock);
-extern wait_result_t thread_sleep_lock_write_EXT(
- event_t event, lck_rw_t *lock, wait_interrupt_t interruptible);
-
-extern lck_mtx_t *mutex_alloc_EXT(unsigned short tag);
-extern void mutex_free_EXT(lck_mtx_t *mutex);
-extern void mutex_init_EXT(lck_mtx_t *mutex, unsigned short tag);
-extern void mutex_lock_EXT(lck_mtx_t *mutex);
-extern boolean_t mutex_try_EXT(lck_mtx_t *mutex);
-extern void mutex_unlock_EXT(lck_mtx_t *mutex);
-extern wait_result_t thread_sleep_mutex_EXT(
- event_t event, lck_mtx_t *mutex, wait_interrupt_t interruptible);
-extern wait_result_t thread_sleep_mutex_deadline_EXT(
- event_t event, lck_mtx_t *mutex, uint64_t deadline, wait_interrupt_t interruptible);
-
-extern void usimple_lock_EXT(lck_spin_t *lock);
-extern void usimple_lock_init_EXT(lck_spin_t *lock, unsigned short tag);
-extern unsigned int usimple_lock_try_EXT(lck_spin_t *lock);
-extern void usimple_unlock_EXT(lck_spin_t *lock);
-extern wait_result_t thread_sleep_usimple_lock_EXT(event_t event, lck_spin_t *lock, wait_interrupt_t interruptible);
-
-lck_rw_t *
-lock_alloc_EXT(
- __unused boolean_t can_sleep,
- __unused unsigned short tag0,
- __unused unsigned short tag1)
-{
- return( lck_rw_alloc_init( &LockCompatGroup, LCK_ATTR_NULL));
-}
-
-void
-lock_done_EXT(
- lck_rw_t *lock)
-{
- (void) lck_rw_done(lock);
-}
-
-void
-lock_free_EXT(
- lck_rw_t *lock)
-{
- lck_rw_free(lock, &LockCompatGroup);
-}
-
-void
-lock_init_EXT(
- lck_rw_t *lock,
- __unused boolean_t can_sleep,
- __unused unsigned short tag0,
- __unused unsigned short tag1)
-{
- lck_rw_init(lock, &LockCompatGroup, LCK_ATTR_NULL);
-}
-
-void
-lock_read_EXT(
- lck_rw_t *lock)
-{
- lck_rw_lock_shared( lock);
-}
-
-boolean_t
-lock_read_to_write_EXT(
- lck_rw_t *lock)
-{
- return( lck_rw_lock_shared_to_exclusive(lock));
-}
-
-void
-lock_write_EXT(
- lck_rw_t *lock)
-{
- lck_rw_lock_exclusive(lock);
-}
-
-void
-lock_write_to_read_EXT(
- lck_rw_t *lock)
+
+uint32_t
+hw_atomic_add(volatile uint32_t *dest, uint32_t delt)
{
- lck_rw_lock_exclusive_to_shared(lock);
+ ALIGN_TEST(dest,uint32_t);
+ return __c11_atomic_fetch_add(ATOMIC_CAST(uint32_t,dest), delt, memory_order_relaxed) + delt;
}
-wait_result_t
-thread_sleep_lock_write_EXT(
- event_t event,
- lck_rw_t *lock,
- wait_interrupt_t interruptible)
-{
- return( lck_rw_sleep(lock, LCK_SLEEP_EXCLUSIVE, event, interruptible));
-}
-
-lck_mtx_t *
-mutex_alloc_EXT(
- __unused unsigned short tag)
-{
- return(lck_mtx_alloc_init(&LockCompatGroup, LCK_ATTR_NULL));
-}
-
-void
-mutex_free_EXT(
- lck_mtx_t *mutex)
+uint32_t
+hw_atomic_sub(volatile uint32_t *dest, uint32_t delt)
{
- lck_mtx_free(mutex, &LockCompatGroup);
+ ALIGN_TEST(dest,uint32_t);
+ return __c11_atomic_fetch_sub(ATOMIC_CAST(uint32_t,dest), delt, memory_order_relaxed) - delt;
}
-void
-mutex_init_EXT(
- lck_mtx_t *mutex,
- __unused unsigned short tag)
+uint32_t
+hw_atomic_or(volatile uint32_t *dest, uint32_t mask)
{
- lck_mtx_init(mutex, &LockCompatGroup, LCK_ATTR_NULL);
+ ALIGN_TEST(dest,uint32_t);
+ return __c11_atomic_fetch_or(ATOMIC_CAST(uint32_t,dest), mask, memory_order_relaxed) | mask;
}
void
-mutex_lock_EXT(
- lck_mtx_t *mutex)
+hw_atomic_or_noret(volatile uint32_t *dest, uint32_t mask)
{
- lck_mtx_lock(mutex);
+ ALIGN_TEST(dest,uint32_t);
+ __c11_atomic_fetch_or(ATOMIC_CAST(uint32_t,dest), mask, memory_order_relaxed);
}
-boolean_t
-mutex_try_EXT(
- lck_mtx_t *mutex)
+uint32_t
+hw_atomic_and(volatile uint32_t *dest, uint32_t mask)
{
- return(lck_mtx_try_lock(mutex));
+ ALIGN_TEST(dest,uint32_t);
+ return __c11_atomic_fetch_and(ATOMIC_CAST(uint32_t,dest), mask, memory_order_relaxed) & mask;
}
void
-mutex_unlock_EXT(
- lck_mtx_t *mutex)
-{
- lck_mtx_unlock(mutex);
-}
-
-wait_result_t
-thread_sleep_mutex_EXT(
- event_t event,
- lck_mtx_t *mutex,
- wait_interrupt_t interruptible)
+hw_atomic_and_noret(volatile uint32_t *dest, uint32_t mask)
{
- return( lck_mtx_sleep(mutex, LCK_SLEEP_DEFAULT, event, interruptible));
+ ALIGN_TEST(dest,uint32_t);
+ __c11_atomic_fetch_and(ATOMIC_CAST(uint32_t,dest), mask, memory_order_relaxed);
}
-wait_result_t
-thread_sleep_mutex_deadline_EXT(
- event_t event,
- lck_mtx_t *mutex,
- uint64_t deadline,
- wait_interrupt_t interruptible)
+uint32_t
+hw_compare_and_store(uint32_t oldval, uint32_t newval, volatile uint32_t *dest)
{
- return( lck_mtx_sleep_deadline(mutex, LCK_SLEEP_DEFAULT, event, interruptible, deadline));
+ ALIGN_TEST(dest,uint32_t);
+ return __c11_atomic_compare_exchange_strong(ATOMIC_CAST(uint32_t,dest), &oldval, newval,
+ memory_order_acq_rel_smp, memory_order_relaxed);
}
-void
-usimple_lock_EXT(
- lck_spin_t *lock)
-{
- lck_spin_lock(lock);
-}
-
-void
-usimple_lock_init_EXT(
- lck_spin_t *lock,
- __unused unsigned short tag)
-{
- lck_spin_init(lock, &LockCompatGroup, LCK_ATTR_NULL);
-}
-
-unsigned int
-usimple_lock_try_EXT(
- lck_spin_t *lock)
-{
- return(lck_spin_try_lock(lock));
-}
-
-void
-usimple_unlock_EXT(
- lck_spin_t *lock)
-{
- lck_spin_unlock(lock);
-}
-
-wait_result_t
-thread_sleep_usimple_lock_EXT(
- event_t event,
- lck_spin_t *lock,
- wait_interrupt_t interruptible)
-{
- return( lck_spin_sleep(lock, LCK_SLEEP_DEFAULT, event, interruptible));
-}
projects / apple / xnu.git / blobdiff