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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgo/] [runtime/] [lock_sema.c] - Blame information for rev 747

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Line No. Rev Author Line
1 747 jeremybenn
// Copyright 2011 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// +build darwin netbsd openbsd plan9 windows
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#include "runtime.h"
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// This implementation depends on OS-specific implementations of
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//
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//      uintptr runtime_semacreate(void)
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//              Create a semaphore, which will be assigned to m->waitsema.
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//              The zero value is treated as absence of any semaphore,
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//              so be sure to return a non-zero value.
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//
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//      int32 runtime_semasleep(int64 ns)
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//              If ns < 0, acquire m->waitsema and return 0.
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//              If ns >= 0, try to acquire m->waitsema for at most ns nanoseconds.
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//              Return 0 if the semaphore was acquired, -1 if interrupted or timed out.
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//
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//      int32 runtime_semawakeup(M *mp)
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//              Wake up mp, which is or will soon be sleeping on mp->waitsema.
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//
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enum
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{
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        LOCKED = 1,
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        ACTIVE_SPIN = 4,
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        ACTIVE_SPIN_CNT = 30,
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        PASSIVE_SPIN = 1,
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};
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void
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runtime_lock(Lock *l)
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{
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        M *m;
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        uintptr v;
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        uint32 i, spin;
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        m = runtime_m();
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        if(m->locks++ < 0)
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                runtime_throw("runtime_lock: lock count");
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        // Speculative grab for lock.
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        if(runtime_casp(&l->waitm, nil, (void*)LOCKED))
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                return;
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        if(m->waitsema == 0)
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                m->waitsema = runtime_semacreate();
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        // On uniprocessor's, no point spinning.
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        // On multiprocessors, spin for ACTIVE_SPIN attempts.
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        spin = 0;
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        if(runtime_ncpu > 1)
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                spin = ACTIVE_SPIN;
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        for(i=0;; i++) {
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                v = (uintptr)runtime_atomicloadp(&l->waitm);
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                if((v&LOCKED) == 0) {
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unlocked:
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                        if(runtime_casp(&l->waitm, (void*)v, (void*)(v|LOCKED)))
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                                return;
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                        i = 0;
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                }
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                if(i<spin)
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                        runtime_procyield(ACTIVE_SPIN_CNT);
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                else if(i<spin+PASSIVE_SPIN)
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                        runtime_osyield();
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                else {
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                        // Someone else has it.
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                        // l->waitm points to a linked list of M's waiting
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                        // for this lock, chained through m->nextwaitm.
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                        // Queue this M.
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                        for(;;) {
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                                m->nextwaitm = (void*)(v&~LOCKED);
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                                if(runtime_casp(&l->waitm, (void*)v, (void*)((uintptr)m|LOCKED)))
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                                        break;
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                                v = (uintptr)runtime_atomicloadp(&l->waitm);
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                                if((v&LOCKED) == 0)
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                                        goto unlocked;
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                        }
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                        if(v&LOCKED) {
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                                // Queued.  Wait.
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                                runtime_semasleep(-1);
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                                i = 0;
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                        }
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                }
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        }
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}
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void
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runtime_unlock(Lock *l)
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{
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        uintptr v;
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        M *mp;
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        if(--runtime_m()->locks < 0)
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                runtime_throw("runtime_unlock: lock count");
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        for(;;) {
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                v = (uintptr)runtime_atomicloadp(&l->waitm);
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                if(v == LOCKED) {
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                        if(runtime_casp(&l->waitm, (void*)LOCKED, nil))
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                                break;
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                } else {
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                        // Other M's are waiting for the lock.
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                        // Dequeue an M.
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                        mp = (void*)(v&~LOCKED);
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                        if(runtime_casp(&l->waitm, (void*)v, mp->nextwaitm)) {
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                                // Dequeued an M.  Wake it.
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                                runtime_semawakeup(mp);
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                                break;
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                        }
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                }
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        }
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}
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// One-time notifications.
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void
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runtime_noteclear(Note *n)
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{
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        n->waitm = nil;
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}
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void
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runtime_notewakeup(Note *n)
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{
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        M *mp;
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        do
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                mp = runtime_atomicloadp(&n->waitm);
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        while(!runtime_casp(&n->waitm, mp, (void*)LOCKED));
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        // Successfully set waitm to LOCKED.
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        // What was it before?
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        if(mp == nil) {
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                // Nothing was waiting.  Done.
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        } else if(mp == (M*)LOCKED) {
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                // Two notewakeups!  Not allowed.
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                runtime_throw("notewakeup - double wakeup");
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        } else {
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                // Must be the waiting m.  Wake it up.
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                runtime_semawakeup(mp);
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        }
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}
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void
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runtime_notesleep(Note *n)
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{
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        M *m;
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        m = runtime_m();
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        if(m->waitsema == 0)
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                m->waitsema = runtime_semacreate();
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        if(!runtime_casp(&n->waitm, nil, m)) {  // must be LOCKED (got wakeup)
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                if(n->waitm != (void*)LOCKED)
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                        runtime_throw("notesleep - waitm out of sync");
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                return;
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        }
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        // Queued.  Sleep.
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        runtime_semasleep(-1);
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}
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void
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runtime_notetsleep(Note *n, int64 ns)
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{
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        M *m;
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        M *mp;
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        int64 deadline, now;
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        if(ns < 0) {
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                runtime_notesleep(n);
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                return;
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        }
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        m = runtime_m();
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        if(m->waitsema == 0)
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                m->waitsema = runtime_semacreate();
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        // Register for wakeup on n->waitm.
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        if(!runtime_casp(&n->waitm, nil, m)) {  // must be LOCKED (got wakeup already)
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                if(n->waitm != (void*)LOCKED)
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                        runtime_throw("notetsleep - waitm out of sync");
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                return;
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        }
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        deadline = runtime_nanotime() + ns;
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        for(;;) {
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                // Registered.  Sleep.
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                if(runtime_semasleep(ns) >= 0) {
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                        // Acquired semaphore, semawakeup unregistered us.
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                        // Done.
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                        return;
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                }
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                // Interrupted or timed out.  Still registered.  Semaphore not acquired.
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                now = runtime_nanotime();
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                if(now >= deadline)
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                        break;
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                // Deadline hasn't arrived.  Keep sleeping.
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                ns = deadline - now;
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        }
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        // Deadline arrived.  Still registered.  Semaphore not acquired.
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        // Want to give up and return, but have to unregister first,
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        // so that any notewakeup racing with the return does not
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        // try to grant us the semaphore when we don't expect it.
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        for(;;) {
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                mp = runtime_atomicloadp(&n->waitm);
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                if(mp == m) {
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                        // No wakeup yet; unregister if possible.
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                        if(runtime_casp(&n->waitm, mp, nil))
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                                return;
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                } else if(mp == (M*)LOCKED) {
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                        // Wakeup happened so semaphore is available.
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                        // Grab it to avoid getting out of sync.
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                        if(runtime_semasleep(-1) < 0)
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                                runtime_throw("runtime: unable to acquire - semaphore out of sync");
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                        return;
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                } else {
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                        runtime_throw("runtime: unexpected waitm - semaphore out of sync");
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                }
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        }
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}

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