Ejemplo n.º 1
0
        public bool EnterAsync(TimeSpan timeout, FastAsyncCallback callback, object state)
        {
            bool flag;

            lock (this.ThisLock)
            {
                if (!this.aborted)
                {
                    if (this.count >= this.maxCount)
                    {
                        AsyncWaitHandle asyncWaitHandle = new AsyncWaitHandle();
                        this.Waiters.Enqueue(asyncWaitHandle);
                        return(asyncWaitHandle.WaitAsync(ThreadNeutralSemaphore.EnteredAsyncCallback, new ThreadNeutralSemaphore.EnterAsyncData(this, asyncWaitHandle, callback, state), timeout));
                    }
                    else
                    {
                        ThreadNeutralSemaphore threadNeutralSemaphore = this;
                        threadNeutralSemaphore.count = threadNeutralSemaphore.count + 1;
                        flag = true;
                    }
                }
                else
                {
                    throw Fx.Exception.AsError(this.CreateObjectAbortedException());
                }
            }
            return(flag);
        }
Ejemplo n.º 2
0
        public bool EnterAsync(TimeSpan timeout, FastAsyncCallback callback, object state)
        {
            Fx.Assert(callback != null, "must have a non-null call back for async purposes");

            AsyncWaitHandle waiter = null;

            lock (this.ThisLock)
            {
                if (this.aborted)
                {
                    throw Fx.Exception.AsError(CreateObjectAbortedException());
                }

                if (this.count < this.maxCount)
                {
                    this.count++;
                    return(true);
                }

                waiter = new AsyncWaitHandle();
                this.Waiters.Enqueue(waiter);
            }

            return(waiter.WaitAsync(EnteredAsyncCallback, new EnterAsyncData(this, waiter, callback, state), timeout));
        }
        public bool EnterAsync(TimeSpan timeout, FastAsyncCallback callback, object state)
        {
            Fx.Assert(callback != null, "must have a non-null call back for async purposes");

            AsyncWaitHandle waiter = null;

            lock (this.ThisLock)
            {
                if (this.aborted)
                {
                    throw Fx.Exception.AsError(CreateObjectAbortedException());
                }

                if (this.count < this.maxCount)
                {
                    this.count++;
                    return true;
                }

                waiter = new AsyncWaitHandle();
                this.Waiters.Enqueue(waiter);
            }

            return waiter.WaitAsync(EnteredAsyncCallback, new EnterAsyncData(this, waiter, callback, state), timeout);
        }
            public bool EnterAsync(TimeSpan timeout, FastAsyncCallback callback, object state)
            {
                bool flag = this.throttle.EnterAsync(timeout, callback, state);

                if (!flag)
                {
                    this.TraceWarning();
                }
                return(flag);
            }
 public bool EnterAsync(TimeSpan timeout, FastAsyncCallback callback, object state)
 {
     AsyncWaitHandle item = null;
     lock (this.ThisLock)
     {
         if (this.aborted)
         {
             throw Fx.Exception.AsError(this.CreateObjectAbortedException());
         }
         if (this.count < this.maxCount)
         {
             this.count++;
             return true;
         }
         item = new AsyncWaitHandle();
         this.Waiters.Enqueue(item);
     }
     return item.WaitAsync(EnteredAsyncCallback, new EnterAsyncData(this, item, callback, state), timeout);
 }
        public bool EnterAsync(TimeSpan timeout, FastAsyncCallback callback, object state)
        {
            AsyncWaitHandle item = null;

            lock (this.ThisLock)
            {
                if (this.aborted)
                {
                    throw Fx.Exception.AsError(this.CreateObjectAbortedException());
                }
                if (this.count < this.maxCount)
                {
                    this.count++;
                    return(true);
                }
                item = new AsyncWaitHandle();
                this.Waiters.Enqueue(item);
            }
            return(item.WaitAsync(EnteredAsyncCallback, new EnterAsyncData(this, item, callback, state), timeout));
        }
        bool AcquireLockAsync(TimeSpan timeout, bool isAbortPriority, bool skipPause, ref bool ownsLock, FastAsyncCallback callback, object state)
        {
            Fx.Assert(!ownsLock, "We should never call acquire if we already think we own the lock.");

            // We cannot just hand off the lock if we are in a handler thread
            // because this might eventually go async (during the operation)
            // and we could have multiple operations occurring concurrently.

            if (!this.executorLock.TryEnter(ref ownsLock))
            {
                Fx.Assert(!ownsLock, "This should always match the return of TryEnter and is only useful in light of exceptions");

                bool incrementedActiveOperations = false;
                bool decrementActiveOperations = true;
                object lockToken = null;

                try
                {
                    lock (this.activeOperationsLock)
                    {
                        try
                        {
                        }
                        finally
                        {
                            this.activeOperations++;
                            incrementedActiveOperations = true;
                        }

                        // An exception occuring before we call PauseScheduler causes no issues/----s since
                        // we'll just cleanup activeOperations and be in the same state as when AcquireLock
                        // was called.

                        if (!skipPause)
                        {
                            this.Controller.RequestPause();
                        }

                        this.executorLock.SetupWaiter(isAbortPriority, ref lockToken);
                    }

                    // If we get the lock here then we should decrement, otherwise
                    // it is up to the lock acquired callback
                    decrementActiveOperations = this.executorLock.EnterAsync(timeout, ref lockToken, ref ownsLock, lockAcquiredAsyncCallback, new AcquireLockAsyncData(this, callback, state));
                    return decrementActiveOperations;
                }
                finally
                {
                    if (incrementedActiveOperations && decrementActiveOperations)
                    {
                        lock (this.activeOperationsLock)
                        {
                            this.activeOperations--;
                        }
                    }

                    this.executorLock.CleanupWaiter(lockToken, ref ownsLock);
                }
            }
            else
            {
                return true;
            }
        }
 bool AcquireLockAsync(TimeSpan timeout, ref bool ownsLock, FastAsyncCallback callback, object state)
 {
     return AcquireLockAsync(timeout, false, false, ref ownsLock, callback, state);
 }
 public AsyncWaiterData(WorkflowExecutionLock owner, FastAsyncCallback callback, object state, object token)
 {
     this.Owner = owner;
     this.Callback = callback;
     this.State = state;
     this.Token = token;
 }
            public bool EnterAsync(TimeSpan timeout, ref object token, ref bool ownsLock, FastAsyncCallback callback, object state)
            {
                Fx.Assert(!ownsLock, "We should never attempt to get the lock if we think we own it.");
                Fx.Assert(callback != null, "must have a non-null call back for async purposes");
                Fx.Assert(token is AsyncWaitHandle, "The token must be an AsyncWaitHandle.");

                AsyncWaitHandle waitHandle = null;

                lock (ThisLock)
                {
                    if (!this.owned)
                    {
                        try
                        {
                        }
                        finally
                        {
                            this.owned = true;
                            ownsLock = true;
                        }

                        return true;
                    }

                    waitHandle = (AsyncWaitHandle)token;
                }

                bool result = false;

                if (waitHandle.WaitAsync(asyncWaiterSignaledCallback, new AsyncWaiterData(this, callback, state, waitHandle), timeout))
                {
                    Fx.Assert(!this.Waiters.Contains(waitHandle), "We should not have this wait handle in the list.");

                    // Since the waiter is only signaled when they own the lock we won't have
                    // to set owned to true if this returns true.  owned was never set to false
                    // by Exit in this case.

                    ownsLock = true;
                    result = true;
                }

                token = null;
                return result;
            }
            bool AcquireLockWithoutPause()
            {
                if (!this.instance.IsHandlerThread && !this.ownsLock)
                {
                    if (onLockAcquired == null)
                    {
                        onLockAcquired = new FastAsyncCallback(OnLockAcquired);
                    }

                    if (this.instance.AcquireLockAsync(this.timeoutHelper.RemainingTime(), false, true, ref this.ownsLock, onLockAcquired, this))
                    {
                        return HandleLockAcquired();
                    }
                    else
                    {
                        return false;
                    }
                }
                else
                {
                    return HandleLockAcquired();
                }
            }
 public AcquireLockAsyncData(WorkflowServiceInstance instance, FastAsyncCallback callback, object state)
 {
     this.instance = instance;
     this.callback = callback;
     this.state = state;
 }
 public bool EnterAsync(TimeSpan timeout, FastAsyncCallback callback, object state)
 {
     bool flag = this.throttle.EnterAsync(timeout, callback, state);
     if (!flag)
     {
         this.TraceWarning();
     }
     return flag;
 }
Ejemplo n.º 14
0
 public EnterAsyncData(ThreadNeutralSemaphore semaphore, AsyncWaitHandle waiter, FastAsyncCallback callback, object state)
 {
     this.Waiter    = waiter;
     this.Semaphore = semaphore;
     this.Callback  = callback;
     this.State     = state;
 }
 private bool AcquireLockAsync(TimeSpan timeout, bool isAbortPriority, bool skipPause, ref bool ownsLock, FastAsyncCallback callback, object state)
 {
     if (!this.executorLock.TryEnter(ref ownsLock))
     {
         bool flag = false;
         bool flag2 = true;
         object token = null;
         try
         {
             lock (this.activeOperationsLock)
             {
                 try
                 {
                 }
                 finally
                 {
                     this.activeOperations++;
                     flag = true;
                 }
                 if (!skipPause)
                 {
                     base.Controller.RequestPause();
                 }
                 this.executorLock.SetupWaiter(isAbortPriority, ref token);
             }
             return this.executorLock.EnterAsync(timeout, ref token, ref ownsLock, lockAcquiredAsyncCallback, new AcquireLockAsyncData(this, callback, state));
         }
         finally
         {
             if (flag && flag2)
             {
                 lock (this.activeOperationsLock)
                 {
                     this.activeOperations--;
                 }
             }
             this.executorLock.CleanupWaiter(token, ref ownsLock);
         }
     }
     return true;
 }
Ejemplo n.º 16
0
 bool WaitForStateLockAsync(TimeSpan timeout, FastAsyncCallback callback, object state)
 {
     return(this.stateLock.EnterAsync(timeout, callback, state));
 }
 public bool EnterAsync(TimeSpan timeout, FastAsyncCallback callback, object state)
 {
     bool success = this.throttle.EnterAsync(timeout, callback, state);
     if (!success)
     {
         TraceWarning();
     }
     return success;
 }
Ejemplo n.º 18
0
 bool WaitForStateLockAsync(TimeSpan timeout, FastAsyncCallback callback, object state)
 {
     return this.stateLock.EnterAsync(timeout, callback, state);
 }
Ejemplo n.º 19
0
		public bool EnterAsync(TimeSpan timeout, FastAsyncCallback callback, object state)
		{
			bool flag;
			lock (this.ThisLock)
			{
				if (!this.aborted)
				{
					if (this.count >= this.maxCount)
					{
						AsyncWaitHandle asyncWaitHandle = new AsyncWaitHandle();
						this.Waiters.Enqueue(asyncWaitHandle);
						return asyncWaitHandle.WaitAsync(ThreadNeutralSemaphore.EnteredAsyncCallback, new ThreadNeutralSemaphore.EnterAsyncData(this, asyncWaitHandle, callback, state), timeout);
					}
					else
					{
						ThreadNeutralSemaphore threadNeutralSemaphore = this;
						threadNeutralSemaphore.count = threadNeutralSemaphore.count + 1;
						flag = true;
					}
				}
				else
				{
					throw Fx.Exception.AsError(this.CreateObjectAbortedException());
				}
			}
			return flag;
		}
 public EnterAsyncData(ThreadNeutralSemaphore semaphore, AsyncWaitHandle waiter, FastAsyncCallback callback, object state)
 {
     this.Waiter = waiter;
     this.Semaphore = semaphore;
     this.Callback = callback;
     this.State = state;
 }
 private bool AcquireLockWithoutPause()
 {
     if (this.instance.IsHandlerThread || this.ownsLock)
     {
         return this.HandleLockAcquired();
     }
     if (onLockAcquired == null)
     {
         onLockAcquired = new FastAsyncCallback(WorkflowServiceInstance.WaitForCanPersistAsyncResult.OnLockAcquired);
     }
     return (this.instance.AcquireLockAsync(this.timeoutHelper.RemainingTime(), false, true, ref this.ownsLock, onLockAcquired, this) && this.HandleLockAcquired());
 }
 public bool EnterAsync(TimeSpan timeout, ref object token, ref bool ownsLock, FastAsyncCallback callback, object state)
 {
     AsyncWaitHandle handle = null;
     lock (this.ThisLock)
     {
         if (!this.owned)
         {
             try
             {
             }
             finally
             {
                 this.owned = true;
                 ownsLock = true;
             }
             return true;
         }
         handle = (AsyncWaitHandle) token;
     }
     bool flag = false;
     if (handle.WaitAsync(asyncWaiterSignaledCallback, new AsyncWaiterData(this, callback, state, handle), timeout))
     {
         ownsLock = true;
         flag = true;
     }
     token = null;
     return flag;
 }