static void Main(string[] args) { try { // Create the platform session. ISession session = GlobalSettings.Sessions.GetSession(); // Open the session session.Open(); // ******************************************************************************************** // Headline Alert Endpoint URL. // ******************************************************************************************** const string alertHeadlinesEndpoint = "https://api.refinitiv.com/alerts/v1/news-headlines-subscriptions"; // Determine if we are using an existing queue or creating one. The QueueManager will assist us here. IQueueManager manager = DeliveryFactory.CreateQueueManager(new QueueManager.Params().Session(session) .Endpoint(alertHeadlinesEndpoint) .OnError((qm, err) => Console.WriteLine(err))); // First, check to see if we have any news headline queues active in the cloud, if not, create one. List <IQueue> queues = manager.GetAllQueues(); // Determine if we retrieved anything...create one if not. IQueue queue = (queues?.Count > 0 ? queues[0] : manager.CreateQueue()); // Ensure our queue is created if (queue != null) { Console.WriteLine($"{Environment.NewLine}{(queues.Count > 0 ? "Using existing" : "Created a new")} queue..."); // Start polling for news headline messages from the queue // A QueueSubscriber provides the mechanisms to poll the queue and capture each headline alert via lambda expressions IQueueSubscriber subscriber = DeliveryFactory.CreateQueueSubscriber( new AWSQueueSubscriber.Params().Queue(queue) .WithMessagePollingInterval(1) .OnResponse((s, response) => { if (response.IsSuccess) { DisplayHeadline(response.Data.Raw); } else { Console.WriteLine(response.Status); } })); // Open the subscriber to begin polling for messages subscriber.StartPolling(); Console.WriteLine("Polling for messages from the queue...hit any key to stop polling"); // Hit any key to stop... Console.ReadKey(); // Close the subscription - stops polling for messages subscriber.StopPolling(); Console.WriteLine($"{Environment.NewLine}Stopped polling for messages from the queue."); // Prompt the user to delete the queue Console.Write("Delete the queue (Y/N) [N]: "); var delete = Console.ReadLine(); if (delete?.ToUpper() == "Y") { if (manager.DeleteQueue(queue)) { Console.WriteLine("Successfully deleted queue."); } else { Console.WriteLine($"Issues deleting queue {manager.Error}"); } } } } catch (Exception e) { Console.WriteLine($"\n**************\nFailed to execute: {e.Message}\n***************"); } }
static void Main(string[] _) { const string newsHeadlinesEndpoint = "https://api.refinitiv.com/message-services/v1/news-headlines/subscriptions"; try { // Create the platform session. using (ISession session = Configuration.Sessions.GetSession()) { // Open the session session.Open(); // Create a QueueManager to actively manage our queues IQueueManager manager = DeliveryFactory.CreateQueueManager(new QueueManager.Params().Session(session) .Endpoint(newsHeadlinesEndpoint) .OnError((qm, err) => Console.WriteLine(err))); // First, check to see if we have any news headline queues active in the cloud... List <IQueue> queues = manager.GetAllQueues(); // Check the error property to determine the result of the last request if (manager.Error == null) { // Determine if we retrieved an active headline queue...create one if not. IQueue queue; if (queues.Count > 0) { queue = queues[0]; } else { queue = CreateQueue(manager, "AA"); // Create a Queue with the new query expression ("AA" - alerts only) } // Ensure our queue is created if (queue != null) { Console.WriteLine($"{Environment.NewLine}{(queues.Count > 0 ? "Using existing" : "Created a new")} queue. Waiting for headlines..."); // Subscribe to the queue. // Note: The subscriber interface has 2 mechanisms to retrieve data from the queue. The first mechanism is to selectively // poll the queue for new messages. The second mechanism is to define a callback/lambda expression and notify the // the subscriber to poll for messages as they come in - this mechansim provides a near realtime result. // // The following example demonstrates the first mechanism. IQueueSubscriber subscriber = DeliveryFactory.CreateQueueSubscriber(new AWSQueueSubscriber.Params().Queue(queue)); // Poll the queue until we hit any key on the keyboard. // Each poll will timeout after 5 seconds. while (!Console.KeyAvailable) { IQueueResponse result = subscriber.GetNextMessage(5); if (result.IsSuccess) { DisplayHeadline(result); } else { Console.WriteLine(result.Status); } } Console.ReadKey(); // Prompt the user to delete the queue Console.Write("\nDelete the queue (Y/N) [N]: "); var delete = Console.ReadLine(); if (delete?.ToUpper() == "Y") { if (manager.DeleteQueue(queue)) { Console.WriteLine("Successfully deleted queue."); } else { Console.WriteLine($"Issues deleting queue {manager.Error}"); } } } } } } catch (Exception e) { Console.WriteLine($"\n**************\nFailed to execute: {e.Message}\n{e.InnerException}\n***************"); } }
static void Main(string[] _) { const string newsStoriesEndpoint = "https://api.refinitiv.com/message-services/v1/news-stories/subscriptions"; try { using (ISession session = Configuration.Sessions.GetSession()) { // Open the session session.Open(); // Create a QueueManager to actively manage our queues IQueueManager manager = DeliveryFactory.CreateQueueManager(new QueueManager.Params().Session(session) .Endpoint(newsStoriesEndpoint) .OnError((qm, err) => Console.WriteLine(err))); // First, check to see if we have any news headline queues active in the cloud... List <IQueue> queues = manager.GetAllQueues(); // Check the error property to determine the result of the last request if (manager.Error == null) { // If no existing queue exists, create one. IQueue queue = (queues.Count > 0 ? queues[0] : manager.CreateQueue()); // Ensure our queue is created if (queue != null) { Console.WriteLine($"{Environment.NewLine}{(queues.Count > 0 ? "Using existing" : "Created a new")} queue. Waiting for stories..."); // Subscribe to the queue. // Note: The subscriber interface has 2 mechanisms to retrieve data from the queue. The first mechanism is to selectively // poll the queue for new messages. The second mechanism is to define a callback/lambda expression and notify the // the subscriber to poll for messages as they come in - this mechansim provides a near realtime result. // // The following example demonstrates the second mechanism. IQueueSubscriber subscriber = DeliveryFactory.CreateQueueSubscriber( new AWSQueueSubscriber.Params().Queue(queue) .OnResponse((s, response) => { if (response.IsSuccess) { DisplayStory(response); } else { Console.WriteLine(response.Status); } })); // Open the subscriber to begin polling for messages. Use Async() as this method is a long running task. subscriber.StartPollingAsync(); Console.ReadKey(); // Close the subscription - stops polling for messages subscriber.StopPolling(); Console.WriteLine("Stopped polling for messages from the queue."); // Prompt the user to delete the queue Console.Write("Delete the queue (Y/N) [N]: "); var delete = Console.ReadLine(); if (delete?.ToUpper() == "Y") { if (manager.DeleteQueue(queue)) { Console.WriteLine("Successfully deleted queue."); } else { Console.WriteLine($"Issues deleting queue {manager.Error}"); } } } } } } catch (Exception e) { Console.WriteLine($"\n**************\nFailed to execute: {e.Message}\n{e.InnerException}\n***************"); } }
static void Main(string[] _) { const string researchEndpoint = "https://api.refinitiv.com/message-services/v1/research/subscriptions"; try { using (ISession session = Configuration.Sessions.GetSession()) { if (session.Open() == Session.State.Opened) { // Create a QueueManager to actively manage our queues IQueueManager manager = DeliveryFactory.CreateQueueManager(new QueueManager.Params().Session(session) .Endpoint(researchEndpoint) .OnError((qm, err) => Console.WriteLine(err))); // First, check to see if we have any news headline queues active in the cloud... List <IQueue> queues = manager.GetAllQueues(); // Check the error property to determine the result of the last request if (manager.Error == null) { // Prepare Research criteria if we plan to create a new AWS queue - we must supply a research ID. JObject criteria = new JObject() { ["transport"] = new JObject() { ["transportType"] = "AWS-SQS" }, ["payloadVersion"] = "2.0", ["userID"] = Configuration.Credentials.ResearchID }; // If no existing queue exists, create one. IQueue queue = (queues.Count > 0 ? queues[0] : manager.CreateQueue(criteria)); if (queue != null) { Console.WriteLine($"{Environment.NewLine}{(queues.Count > 0 ? "Using existing" : "Created a new")} queue..."); // Subscribe to the queue. // Note: The subscriber interface has 2 mechanisms to retrieve data from the queue. The first mechanism is to selectively // poll the queue for new messages. The second mechanism is to define a callback/lambda expression and notify the // the subscriber to poll for messages as they come in - this mechansim provides a near realtime result. // // The following example demonstrates the first mechanism. IQueueSubscriber subscriber = DeliveryFactory.CreateQueueSubscriber(new AWSQueueSubscriber.Params().Queue(queue)); Console.WriteLine("Attempt to retrieve research messages. Hit any key to interrupt fetching..."); // Instead of defining a lambda callback, we manually poll the queue until we hit any key on the keyboard. // Each poll will timeout after 5 seconds. bool noMsgAvailable = false; while (!Console.KeyAvailable) { IQueueResponse result = subscriber.GetNextMessage(5); if (result.IsSuccess) { if (result.IsMessageAvailable) { DisplayResearch(result); } else { Console.Write(noMsgAvailable ? "." : "No Message available from GetNextMessage"); } noMsgAvailable = !result.IsMessageAvailable; } else { Console.WriteLine(result.Status); } } Console.ReadKey(); // Prompt the user to delete the queue Console.Write("\nDelete the queue (Y/N) [N]: "); var delete = Console.ReadLine(); if (delete?.ToUpper() == "Y") { if (manager.DeleteQueue(queue)) { Console.WriteLine("Successfully deleted queue."); } else { Console.WriteLine($"Issues deleting queue {manager.Error}"); } } } } } } } catch (Exception e) { Console.WriteLine($"\n**************\nFailed to execute: {e.Message}\n{e.InnerException}\n***************"); } }