library/cpp/threading/light_rw_lock/lightrwlock.cpp


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#include "lightrwlock.h" 
#include <util/system/spinlock.h> 
 
#if defined(_linux_) 
 
using namespace NS_LightRWLock; 
 
void TLightRWLock::WaitForUntrappedShared() { 
    for (;;) { 
        for (ui32 i = 0; i < SpinCount_; ++i) { 
            SpinLockPause(); 
 
            if ((AtomicLoad(Counter_) & 0x7FFFFFFF) == 0) 
                return; 
        } 
 
        SequenceStore(UnshareFutex_, 1); 
        if ((AtomicLoad(Counter_) & 0x7FFFFFFF) == 0) { 
            AtomicStore(UnshareFutex_, 0); 
            return; 
        } 
        FutexWait(UnshareFutex_, 1); 
    } 
} 
 
void TLightRWLock::WaitForExclusiveAndUntrappedShared() { 
    for (;;) { 
        for (ui32 i = 0; i < SpinCount_; ++i) { 
            SpinLockPause(); 
 
            if (AtomicLoad(Counter_) >= 0) 
                goto try_to_get_lock; 
            if (AtomicLoad(TrappedFutex_) == 1) 
                goto skip_store_trapped; 
        } 
 
        SequenceStore(TrappedFutex_, 1); 
    skip_store_trapped: 
 
        if (AtomicLoad(Counter_) < 0) { 
            FutexWait(TrappedFutex_, 1); 
        } 
 
    try_to_get_lock: 
        if (!AtomicSetBit(Counter_, 31)) 
            break; 
    } 
 
    for (ui32 j = 0;; ++j) { 
        for (ui32 i = 0; i < SpinCount_; ++i) { 
            if ((AtomicLoad(Counter_) & 0x7FFFFFFF) == 0) 
                return; 
 
            SpinLockPause(); 
        } 
 
        SequenceStore(UnshareFutex_, 1); 
 
        if ((AtomicLoad(Counter_) & 0x7FFFFFFF) == 0) { 
            AtomicStore(UnshareFutex_, 0); 
            return; 
        } 
 
        FutexWait(UnshareFutex_, 1); 
    } 
} 
 
void TLightRWLock::WaitForUntrappedAndAcquireRead() { 
    if (AtomicFetchAdd(Counter_, -1) < 0) 
        goto skip_lock_try; 
 
    for (;;) { 
    again: 
        if (Y_UNLIKELY(AtomicFetchAdd(Counter_, 1) >= 0)) { 
            return; 
        } else { 
            if (AtomicFetchAdd(Counter_, -1) >= 0) 
                goto again; 
        } 
 
    skip_lock_try: 
        if (AtomicLoad(UnshareFutex_) && (AtomicLoad(Counter_) & 0x7FFFFFFF) == 0) {
            SequenceStore(UnshareFutex_, 0); 
            FutexWake(UnshareFutex_, 1); 
        } 
 
        for (;;) { 
            for (ui32 i = 0; i < SpinCount_; ++i) { 
                SpinLockPause(); 
 
                if (AtomicLoad(Counter_) >= 0) 
                    goto again; 
                if (AtomicLoad(TrappedFutex_) == 1) 
                    goto skip_store_trapped; 
            } 
 
            SequenceStore(TrappedFutex_, 1); 
        skip_store_trapped: 
 
            if (AtomicLoad(Counter_) < 0) { 
                FutexWait(TrappedFutex_, 1); 
                if (AtomicLoad(Counter_) < 0) 
                    goto again; 
            } else if (AtomicLoad(TrappedFutex_)) { 
                SequenceStore(TrappedFutex_, 0); 
                FutexWake(TrappedFutex_, 0x7fffffff); 
            } 
            break; 
        } 
    } 
} 
 
#endif // _linux_