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See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ #ifndef __FRAMEWORK_THREADHELP_FAIRRWLOCK_HXX_ #define __FRAMEWORK_THREADHELP_FAIRRWLOCK_HXX_ //_________________________________________________________________________________________________________________ // my own includes //_________________________________________________________________________________________________________________ #include #include #include //_________________________________________________________________________________________________________________ // interface includes //_________________________________________________________________________________________________________________ #include //_________________________________________________________________________________________________________________ // other includes //_________________________________________________________________________________________________________________ #include #include //_________________________________________________________________________________________________________________ // namespace //_________________________________________________________________________________________________________________ namespace framework{ //_________________________________________________________________________________________________________________ // const //_________________________________________________________________________________________________________________ //_________________________________________________________________________________________________________________ // declarations //_________________________________________________________________________________________________________________ /*-************************************************************************************************************//** @short implement a read/write lock with fairness between read/write accessors @descr These implementation never should used as base class! Use it as a member every time. Use ReadGuard and/or WriteGuard in your methods (which work with these lock) to make your code threadsafe. Fair means: All reading or writing threads are synchronized AND serialzed by using one mutex. For reader this mutex is used to access internal variables of this lock only; for writer this mutex is used to have an exclusiv access on your class member! => It's a multi-reader/single-writer lock, which no preferred accessor. @implements IRWlock @base INonCopyable IRWLock @devstatus ready to use *//*-*************************************************************************************************************/ class FairRWLock : public IRWLock , private INonCopyable { //------------------------------------------------------------------------------------------------------------- // public methods //------------------------------------------------------------------------------------------------------------- public: /*-****************************************************************************************************//** @short standard ctor @descr Initialize instance with right start values for correct working. no reader could exist => m_nReadCount = 0 don't block first coming writer => m_aWriteCondition.set() @seealso - @param - @return - @onerror - *//*-*****************************************************************************************************/ inline FairRWLock() : m_nReadCount( 0 ) { m_aWriteCondition.set(); } inline virtual ~FairRWLock() { } /*-****************************************************************************************************//** @interface IRWLock @short set lock for reading @descr A guard should call this method to acquire read access on your member. Writing isn't allowed then - but nobody could check it for you! @seealso method releaseReadAccess() @param - @return - @onerror - *//*-*****************************************************************************************************/ inline virtual void acquireReadAccess() { // Put call in "SERIALIZE"-queue! // After successful acquiring this mutex we are alone ... ::osl::MutexGuard aSerializeGuard( m_aSerializer ); // ... but we should synchronize us with other reader! // May be - they will unregister himself by using releaseReadAccess()! ::osl::MutexGuard aAccessGuard( m_aAccessLock ); // Now we must register us as reader by increasing counter. // If this the first writer we must close door for possible writer. // Other reader don't look for this barrier - they work parallel to us! if( m_nReadCount == 0 ) { m_aWriteCondition.reset(); } ++m_nReadCount; } /*-****************************************************************************************************//** @interface IRWLock @short reset lock for reading @descr A guard should call this method to release read access on your member. @seealso method acquireReadAccess() @param - @return - @onerror - *//*-*****************************************************************************************************/ inline virtual void releaseReadAccess() { // The access lock is enough at this point // because it's not allowed to wait for all reader or writer here! // That will cause a deadlock! ::osl::MutexGuard aAccessGuard( m_aAccessLock ); // Unregister as reader first! // Open writer barrier then if it was the last reader. --m_nReadCount; if( m_nReadCount == 0 ) { m_aWriteCondition.set(); } } /*-****************************************************************************************************//** @interface IRWLock @short set lock for writing @descr A guard should call this method to acquire write access on your member. Reading is allowed too - of course. After successfully calling of this method you are the only writer. @seealso method releaseWriteAccess() @param - @return - @onerror - *//*-*****************************************************************************************************/ inline virtual void acquireWriteAccess() { // You have to stand in our serialize-queue till all reader // are registered (not for releasing them!) or writer finished their work! // Don't use a guard to do so - because you must hold the mutex till // you call releaseWriteAccess()! // After succesfull acquire you have to wait for current working reader. // Used condition will open by last gone reader object. m_aSerializer.acquire(); m_aWriteCondition.wait(); #ifdef ENABLE_MUTEXDEBUG // A writer is an exclusiv accessor! LOG_ASSERT2( m_nReadCount!=0, "FairRWLock::acquireWriteAccess()", "No threadsafe code detected ... : Read count != 0!" ) #endif } /*-****************************************************************************************************//** @interface IRWLock @short reset lock for writing @descr A guard should call this method to release write access on your member. @seealso method acquireWriteAccess() @param - @return - @onerror - *//*-*****************************************************************************************************/ inline virtual void releaseWriteAccess() { // The only one you have to do here is to release // hold seriliaze-mutex. All other user of these instance are blocked // by these mutex! // You don't need any other mutex here - you are the only one in the moment! #ifdef ENABLE_MUTEXDEBUG // A writer is an exclusiv accessor! LOG_ASSERT2( m_nReadCount!=0, "FairRWLock::releaseWriteAccess()", "No threadsafe code detected ... : Read count != 0!" ) #endif m_aSerializer.release(); } /*-****************************************************************************************************//** @interface IRWLock @short downgrade a write access to a read access @descr A guard should call this method to change a write to a read access. New readers can work too - new writer are blocked! @attention Don't call this method if you are not a writer! Results are not defined then ... An upgrade can't be really implemented ... because acquiring new access will be the same - there no differences! @seealso - @param - @return - @onerror - *//*-*****************************************************************************************************/ inline virtual void downgradeWriteAccess() { // You must be a writer to call this method! // We can't check it - but otherwise it's your problem ... // Thats why you don't need any mutex here. #ifdef ENABLE_MUTEXDEBUG // A writer is an exclusiv accessor! LOG_ASSERT2( m_nReadCount!=0, "FairRWLock::downgradeWriteAccess()", "No threadsafe code detected ... : Read count != 0!" ) #endif // Register himself as "new" reader. // This value must be 0 before - because we support single writer access only! ++m_nReadCount; // Close barrier for other writer! // Why? // You hold the serializer mutex - next one can be a reader OR a writer. // They must blocked then - because you will be a reader after this call // and writer use this condition to wait for current reader! m_aWriteCondition.reset(); // Open door for next waiting thread in serialize queue! m_aSerializer.release(); } //------------------------------------------------------------------------------------------------------------- // private member //------------------------------------------------------------------------------------------------------------- private: ::osl::Mutex m_aAccessLock ; /// regulate access on internal member of this instance ::osl::Mutex m_aSerializer ; /// serialze incoming read/write access threads ::osl::Condition m_aWriteCondition ; /// a writer must wait till current working reader are gone sal_Int32 m_nReadCount ; /// every reader is registered - the last one open the door for waiting writer }; // class FairRWLock } // namespace framework #endif // #ifndef __FRAMEWORK_THREADHELP_FAIRRWLOCK_HXX_