Пример #1
0
        private void SetFunctionCurrentConcurrency(ConcurrencyManager concurrencyManager, string functionId, int concurrency)
        {
            var concurrencyStatus = concurrencyManager.GetStatus(functionId);
            var propertyInfo      = typeof(ConcurrencyStatus).GetProperty("CurrentConcurrency", BindingFlags.Instance | BindingFlags.Public);

            propertyInfo.SetValue(concurrencyStatus, concurrency);
        }
Пример #2
0
            /// <summary>
            /// Check current concurrency levels for this function, and adjust processor concurrency as necessary.
            /// </summary>
            public void UpdateConcurrency()
            {
                if (!_messagesProcessedSinceLastConcurrencyUpdate)
                {
                    // if the function is currently inactive, we can skip the concurrency update check
                    return;
                }
                _messagesProcessedSinceLastConcurrencyUpdate = false;

                // below we'll dynamically update the processor with new concurrency values if any
                // need to be changed
                var concurrencyStatus  = _concurrencyManager.GetStatus(_functionId);
                var currentConcurrency = concurrencyStatus.CurrentConcurrency;

                if (_isSessionsEnabled)
                {
                    var sessionProcessor = _sessionMessageProcessor.Value.Processor;
                    if (currentConcurrency != sessionProcessor.MaxConcurrentSessions)
                    {
                        // Per session call concurrency is limited to 1 meaning sessions are 1:1 with invocations.
                        // So we can scale MaxConcurrentSessions 1:1 with CurrentConcurrency.
                        sessionProcessor.UpdateConcurrency(currentConcurrency, sessionProcessor.MaxConcurrentCallsPerSession);
                    }
                }
                else
                {
                    var processor = _messageProcessor.Value.Processor;
                    if (currentConcurrency != processor.MaxConcurrentCalls)
                    {
                        processor.UpdateConcurrency(currentConcurrency);
                    }
                }
            }
Пример #3
0
        internal int GetMessageReceiveCount()
        {
            int numMessagesToReceive = _queueProcessor.QueuesOptions.BatchSize;

            if (_concurrencyManager != null && _concurrencyManager.Enabled)
            {
                // When not using DC, WaitForNewBatchThreshold cleans up tasks as they complete.
                // When using DC we need to also do cleanup of completed tasks, particularly
                // before we use the count of pending tasks in the calculation below.
                var completedTasks = _processing.Where(p => p.IsCompleted).ToArray();
                foreach (var completedTask in completedTasks)
                {
                    _processing.Remove(completedTask);
                }

                // When DynamicConcurrency is enabled, we determine the number of messages to pull
                // based on the current degree of parallelism for this function and our pending invocation count.
                var concurrencyStatus        = _concurrencyManager.GetStatus(_functionId);
                int availableInvocationCount = concurrencyStatus.GetAvailableInvocationCount(_processing.Count);
                numMessagesToReceive = Math.Min(availableInvocationCount, QueuesOptions.MaxBatchSize);
            }

            return(numMessagesToReceive);
        }