// Deprecated message for SignedUpdates with the theory of having a single ZmqSocket subscribe to all
// messages for a problem and then separate/parse them by which strategy the message is an update for
// and pass that appropriately to the client(s)
//protected IEnumerable<SignedProblemUpdate> GetProblemUpdates(ZmqSocket subscriber, string signature)
//{
// if (subscriber == null)
// throw new ArgumentNullException("subscriber");
// SignedProblemUpdate update;
// do
// {
// update = null;
// // This is the blocking version of Receiving from a ZMQ Socket - this is okay since we will wrap this call in Rx
// ZmqMessage msg = subscriber.ReceiveMessage();
// // To decouple ProblemUpdate from the Transport Medium, only binary data is passed using byte[] instead of a ZeroMQ.Frame
// update = new SignedProblemUpdate(msg.Select(f => f.Buffer).ToArray());
// if (!signature.Equals(update.Signature))
// continue;
// if (update.IsAction || update.IsInitial)
// yield return update;
// } while ((update != null) && !(update.IsCompletion || update.IsError));
// if (update != null)
// {
// if (update.IsCompletion)
// {
// yield return update;
// }
// else if (update.IsError)
// {
// throw update.GetException<Exception>();
// }
// }
// yield break;
//}
/// <summary>
/// Solve the Problem using a WorkerRole hosted in Azure PaaS Cloud asynchronously by queuing the problem in an Azure Storage CloudQueue and
/// listening on ZmqSockets for update messages from the Worker doing the work as the work is being done.
/// <para>Based on a setting by the Client in the WorkOrder optionally use an Rx Observable sequences over the message stream to signal
/// updates to the Client(s)</para>
/// </summary>
/// <param name="problemToSolve"><see cref="WaterBucket.Domain.Problem"/> to be solved and calculate the results</param>
/// <param name="work">The <see cref="WaterBucketWeb.Models.WorkOrder"/> passed from the Client determining how to perform the work of solving the <see cref="WaterBucket.Domain.Problem"/></param>
/// <returns>Task that can be awaited on for work being completed by the Worker</returns>
/// <seealso cref="Microsoft.WindowsAzure.Storage.Queue.CloudQueue"/>
/// <seealso cref="ZeroMQ"/>
protected async Task SolveProblemWithWorkerAsync(Problem problemToSolve, WorkOrder work)//, int delayStart, int workDelay)
{
// Calling this here will ensure that it is trying to find workers anytime it needs them
// rather than prefetching PublisherAddresses, finding out they're not initialized and
// never being able to use workers after that
// - fortunately or unfortunately, it doesn't matter in SignalR since Hubs are reconstructed
// for every call to the Hub so the result if called in the ctor wouldn't be cached accross calls
//InitPublisherAddresses();
//if (!CanUseWorker)
//{
// Clients.All.addMsg("Cannot use Worker for calculations, reason: " + NoWorkerReason);
// return;
//}
// Check whether the CloudQueue is for the staging or production environment, which use separate Queues in order to provide fully isolated environments
bool isStaging = RoleEnvironmentExt.GetRoleConfigSetting("UseStaging", false);
// Get the CloudQueue on which we want to put messages for the WorkerRoles to get their work
string storageAccountConStr = !isStaging ? RoleEnvironment.GetConfigurationSettingValue("StorageAccount") : RoleEnvironment.GetConfigurationSettingValue("StagingStorageAccount");
CloudStorageAccount storageAccount = CloudStorageAccount.Parse(storageAccountConStr);
CloudQueueClient qClient = storageAccount.CreateCloudQueueClient();
CloudQueue queue = qClient.GetQueueReference(CLOUD_Q_FOR_WORK);
queue.CreateIfNotExists();
try
{
ZmqContext ctx = ZmqContext.Create();
//ZmqSocket socket = ctx.CreateSocket(SocketType.SUB);
//socket.Connect(publishAddress);
//List<ISolutionStrategy> strategies = new List<ISolutionStrategy>();
//strategies.Add(new BigToSmallSingleBucketSolutionStrategy(problemToSolve));
//strategies.Add(new SmallToBigSingleBucketSolutionStrategy(problemToSolve));
//IObservable<SignedProblemUpdate> combinedUpdates = null;
//foreach (var s in strategies)
//{
// socket.Subscribe(Encoding.UTF8.GetBytes(s.Signature));
// if (combinedUpdates == null)
// {
// combinedUpdates = GetProblemUpdates(socket, s.Signature).ToObservable();
// }
// else
// {
// combinedUpdates = combinedUpdates.Union(GetProblemUpdates(socket, s.Signature).ToObservable());
// }
//}
ISolutionStrategy bigToSmall = new BigToSmallSingleBucketSolutionStrategy(problemToSolve);
ISolutionStrategy smallToBig = new SmallToBigSingleBucketSolutionStrategy(problemToSolve);
//socket.Subscribe(Encoding.UTF8.GetBytes(bigToSmall.Signature));
//socket.Subscribe(Encoding.UTF8.GetBytes(smallToBig.Signature));
//var combinedUpdates = (from u in GetProblemUpdates(socket, bigToSmall.Signature)
// select u)
// .Union(
// from u in GetProblemUpdates(socket, smallToBig.Signature)
// select u);
//bool done = false;
//using (combinedUpdates.ToObservable().Subscribe(
// update =>
// {
// if (update.IsAction || update.IsInitial)
// {
// ProblemActionStep(update.IntoType<BucketActionStep>().UpdateState);
// }
// else if (update.IsCompletion)
// {
// ISolutionStrategy signedStrategy = strategies.FirstOrDefault(s => update.Signature.Equals(s.Signature));
// if (signedStrategy != null)
// {
// var solnResult = update.IntoType<SolutionResult>().UpdateState;
// ProblemSolutionCompleted(signedStrategy.StrategyName);
// // Don't need this with the bool done
// signedStrategy.RemoteResult(solnResult);
// SignalSolution(signedStrategy.StrategyName, solnResult);
// }
// //if (bigToSmall.Signature.Equals(update.Signature))
// //{
// // SignalSolution(bigToSmall.StrategyName, update.IntoType<SolutionResult>().UpdateState);
// //}
// //else if (smallToBig.Signature.Equals(update.Signature))
// //{
// // SignalSolution(smallToBig.StrategyName, update.IntoType<SolutionResult>().UpdateState);
// //}
// }
// else if (update.IsError)
// {
// ProblemActionError(update.GetException<Exception>());
// }
// },
// ProblemActionError,
// () => { done = true; }
// ))
//{
// byte[] qMsgBytes = new byte[12];
// Buffer.BlockCopy(BitConverter.GetBytes(problemToSolve.FirstBucket.Capacity), 0, qMsgBytes, 0, 4);
// Buffer.BlockCopy(BitConverter.GetBytes(problemToSolve.SecondBucket.Capacity), 0, qMsgBytes, 4, 4);
// Buffer.BlockCopy(BitConverter.GetBytes(problemToSolve.GoalWaterVolume), 0, qMsgBytes, 8, 4);
// CloudQueueMessage qMsg = new CloudQueueMessage(qMsgBytes);
// queue.AddMessage(qMsg);
// while (!done)
// {
// Thread.Sleep(500);
// }
//}
Task b2sWork, s2bWork;
// Put the work.YieldWeb value in a local value type which is easier to pass to child Tasks
bool yieldOnAction = work.YieldWeb;
// The Client does NOT want to use a Rx Observable to wrap the message stream from the ZmqSocket
if (!work.ObserverOnZmq)
{
// Start tasks to listen for Worker updates on their own ZmqSockets per each SolutionStrategy that will be employed to solve the problem and signal Client(s) as they come in
b2sWork = Task.Run(() =>
{
try
{
foreach (var step in GetWorkerUpdates(ctx, bigToSmall, result => SignalSolution(bigToSmall.StrategyName, result)))
{
ProblemActionStep(step, yieldOnAction);
}
ProblemSolutionCompleted("Big to Small");
}
catch (Exception ex)
{
ProblemActionError(ex);
}
});
s2bWork = Task.Run(() =>
{
try
{
foreach (var step in GetWorkerUpdates(ctx, smallToBig, result => SignalSolution(smallToBig.StrategyName, result)))
{
ProblemActionStep(step, yieldOnAction);
}
ProblemSolutionCompleted("Small to Big");
}
catch (Exception ex)
{
ProblemActionError(ex);
}
});
}
else // The Client wants to use a Rx Observable to wrap the message stream from the ZmqSocket
{
// First create a lazy evaluated Linq Sequence around getting ZmqSocket subscription messages for a specific SolutionStrategy
var b2sUpdates = from u in GetWorkerUpdates(ctx, bigToSmall, result => SignalSolution(bigToSmall.StrategyName, result))
select u;
// Start a task in which a Rx Observable will wrap the message stream and signal the Client(s) when messages are received
b2sWork = Task.Run(() => b2sUpdates.ToObservable()
.Subscribe(step => ProblemActionStep(step, yieldOnAction), ProblemActionError, () => ProblemSolutionCompleted("Big to Small")))
.ContinueWith(t =>
{
if (t.IsCanceled)
{
// TODO: Log this
}
else if (t.IsFaulted)
{
// TODO: Log the Exception
}
else if (t.IsCompleted)
{
t.Result.Dispose();
}
});
// Repeat the above steps for the other SolutionStrategy
var s2bUpdates = from u in GetWorkerUpdates(ctx, smallToBig, result => SignalSolution(smallToBig.StrategyName, result))
select u;
s2bWork = Task.Run(() => s2bUpdates.ToObservable()
.Subscribe(step => ProblemActionStep(step, yieldOnAction), ProblemActionError, () => ProblemSolutionCompleted("Small to Big")))
.ContinueWith(t =>
{
if (t.IsFaulted)
{
// TODO: Log the Exception
}
else if (t.IsCanceled)
{
// TODO: Log this
}
else if (t.IsCompleted)
{
t.Result.Dispose();
}
});
}
// To ensure the Subscriptions occur before any messages are published by the Worker, we could call Thread.Yield here
// and we will get back control once those Tasks block on attempting to receive a message
//Thread.Yield();
// BUT - we want to see the effects of delays on publishing and the Zmq PUB-SUB messaging so we're not doing that now
// Create the message to be put into the Azure Storage CloudQueue that is picked up by the Workers
byte[] qMsgBytes = new byte[20];
Buffer.BlockCopy(BitConverter.GetBytes(problemToSolve.FirstBucket.Capacity), 0, qMsgBytes, 0, 4);
Buffer.BlockCopy(BitConverter.GetBytes(problemToSolve.SecondBucket.Capacity), 0, qMsgBytes, 4, 4);
Buffer.BlockCopy(BitConverter.GetBytes(problemToSolve.GoalWaterVolume), 0, qMsgBytes, 8, 4);
Buffer.BlockCopy(BitConverter.GetBytes(work.StartDelay), 0, qMsgBytes, 12, 4);
// be able to signal to the worker the WorkDelay or whether it should Yield on each Action (workDelay == 0) or Not to Yield (workDelay < 0)
int workDelay = work.WorkDelay > 0 ? work.WorkDelay : work.YieldWorker ? 0 : -1;
Buffer.BlockCopy(BitConverter.GetBytes(workDelay), 0, qMsgBytes, 16, 4);
CloudQueueMessage qMsg = new CloudQueueMessage(qMsgBytes);
queue.AddMessage(qMsg);
// Now wait for the Subscription tasks to complete
await Task.WhenAll(b2sWork, s2bWork);
}
catch (Exception ex)
{
// TODO: Log any uncaught exception
throw new Exception("Encountered Exception during WorkerAsync", ex);
}
}
public override void Run()
{
// This is a sample worker implementation. Replace with your logic.
Trace.WriteLine("WaterBucketWorker entry point called", "Information");
// Check whether the CloudQueue is for the staging or production environment, which use separate Queues in order to provide fully isolated environments
// IF THIS IS CHANGED - the WorkerRole MUST be RESTARTED in order for it to take affect
bool isStaging = RoleEnvironmentExt.GetRoleConfigSetting("UseStaging", false);
// Get the CloudQueue on which we want to get messages from the WebRoles for the work to be done
// NOTE: don't use RoleEnvironmentExt.GetRoleConfigSetting() as the WorkerRole should crash if the setting isn't configured properly
string storageAccountConStr = !isStaging ? RoleEnvironment.GetConfigurationSettingValue("StorageAccount") : RoleEnvironment.GetConfigurationSettingValue("StagingStorageAccount");
CloudStorageAccount storageAccount = CloudStorageAccount.Parse(storageAccountConStr);
CloudQueueClient qClient = storageAccount.CreateCloudQueueClient();
CloudQueue queue = qClient.GetQueueReference(CLOUD_Q_FOR_WORK);
queue.CreateIfNotExists();
// Get the TCP address for publishing update messages for work being done using ZeroMQ
RoleInstanceEndpoint zeromqPubEP = RoleEnvironment.CurrentRoleInstance.InstanceEndpoints.ContainsKey(ZMQ_PUBLISHER) ? RoleEnvironment.CurrentRoleInstance.InstanceEndpoints[ZMQ_PUBLISHER] : null;
// Gracefully just not work to prevent restarts and errors from a known configuration limitation - allows testing WebRoles properly detecting inability to connect by changing the EndPoint name
while (zeromqPubEP == null)
{
Thread.Sleep(1000);
zeromqPubEP = RoleEnvironment.CurrentRoleInstance.InstanceEndpoints.ContainsKey(ZMQ_PUBLISHER) ? RoleEnvironment.CurrentRoleInstance.InstanceEndpoints[ZMQ_PUBLISHER] : null;
}
//if (zeromqPubEP == null)
//{
// throw new Exception("Could not get 'ZmqPublisher' Endpoint");
//}
string publishAddress = string.Format("tcp://{0}:{1}", zeromqPubEP.IPEndpoint.Address.ToString(), zeromqPubEP.IPEndpoint.Port); //this.GetRoleConfigSetting("PublisherAddress", "tcp://127.0.0.1:9898");
//string baseIPAddress;
//try
//{
// baseIPAddress = RoleEnvironment.GetConfigurationSettingValue("BaseIPAddress");
//}
//catch (RoleEnvironmentException rex)
//{
// //ErrorSignal.
// baseIPAddress = "127.0.0.1";
//}
string signalAddress = null;
bool useSignal = false;
try
{
// Not the right way to get addresses for ZmqSockets - need to use Azure EndPoints and configure them in the WebRole/WorkerRoles before publishing
signalAddress = RoleEnvironment.GetConfigurationSettingValue("SignallerAddress");
useSignal = !string.IsNullOrWhiteSpace(signalAddress);
}
catch (RoleEnvironmentException rex)
{
useSignal = false;
}
using (var ctx = ZmqContext.Create())
{
try
{
// Use XPUB-XSUB forwarding from Internal Publish to External TCP Publish or use the clrzmq provided ForwardDevice which uses regular PUB-SUB sockets?
// XPUB-XSUB was designed by the ZeroMQ team for this use case
bool useXForwarder = RoleEnvironmentExt.GetRoleConfigSetting("Forwarder.UseX", false);
using (Device forwarder = !useXForwarder ? new ForwarderDevice(ctx, INTERNAL_PUB_ADDRESS, publishAddress, DeviceMode.Threaded) as Device : new XForwarderDevice(ctx, INTERNAL_PUB_ADDRESS, publishAddress, DeviceMode.Threaded))
{
forwarder.FrontendSetup.SubscribeAll();
forwarder.Start();
//using (ZmqSocket pairSubSocket = ctx.CreateSocket(SocketType.XSUB))
//{
// pairSubSocket.Bind(INTERNAL_PUB_ADDRESS);
// pairSubSocket.SubscribeAll();
// using (ZmqSocket pairPubSocket = ctx.CreateSocket(SocketType.XPUB))
// {
// pairPubSocket.Bind(publishAddress);
// pairSubSocket.Forward(pairPubSocket);
//using (ZmqSocket socket = ctx.CreateSocket(SocketType.PUB))
//{
// socket.Connect("inproc://publishing");
//socket.Bind(publishAddress);
// Wait a beat for work to arrive
Thread.Sleep(3000);
while (true)
{
CloudQueueMessage msg = null;
// Read problem to solve off of the queue
msg = queue.GetMessage(TimeSpan.FromMinutes(3));
// If no problems on the queue
if (msg == null)
{
// Using Signal Sockets to receive work would be more efficient that using Thread.Sleep
if (useSignal)
{
#region Using Signaller Socket
// Instead of waiting in a Sleep cycle, let the application Signal you to wake up when there is a problem to work on
using (var signaller = ctx.CreateSocket(SocketType.PULL))
{
signaller.Bind(signalAddress);
while (true)
{
var signal = signaller.ReceiveMessage();
// Empty messages are false signals
if (signal.IsEmpty)
continue;
// Having now been signalled to wake up, get a problem from the queue
msg = queue.GetMessage(TimeSpan.FromMinutes(3));
// If this is the first worker to get the problem, then attempt to solve it
if (msg != null)
{
break;
}
}
}
#endregion
}
else // If not using a Signal, then sleep and repeat the while loop to get a message
{
Thread.Sleep(500);
continue;
}
}
// Detect if the Work to be done is a poison pill and delete it without working on it
if (msg.DequeueCount > 5)
{
queue.DeleteMessage(msg);
continue;
}
try
{
//bool yieldOnAction = RoleEnvironmentExt.GetRoleConfigSetting("Action.On.Yield", false);
//int workTimeout = RoleEnvironmentExt.GetRoleConfigSetting("Work.Timeout", 0);
// Turn the Queue Message into a Problem and some WorkOrder settings
byte[] problemBytes = msg.AsBytes;
int firstCapacity = BitConverter.ToInt32(problemBytes, 0);
int secondCapacity = BitConverter.ToInt32(problemBytes, 4);
int waterGoal = BitConverter.ToInt32(problemBytes, 8);
int startDelay = BitConverter.ToInt32(problemBytes, 12);
int workDelay = BitConverter.ToInt32(problemBytes, 16);
Problem problemToSolve = new Problem(firstCapacity, secondCapacity, waterGoal);
// Get the SolutionStrategies to be employed in solving the problem
ISolutionStrategy smallToBig, bigToSmall;
smallToBig = new SmallToBigSingleBucketSolutionStrategy(problemToSolve);
bigToSmall = new BigToSmallSingleBucketSolutionStrategy(problemToSolve);
// Get a binary formatter for messages that will be local to the Task thread
BinaryFormatter startSmallFormatter = new BinaryFormatter();
//var scheduler = System.Threading.Tasks.TaskScheduler.FromCurrentSynchronizationContext();
//var startSmallUpdates = from step in problemToSolve.Solve(smallToBig).ToObservable()
// select GetUpdateMessage(smallToBig, step.ActionTaken == BucketActions.Init ? ProblemUpdateType.Initial : ProblemUpdateType.Action, step);
//bool startSmallCompleted = false;
//using (startSmallUpdates.ObserveOn(System.Reactive.Concurrency.CurrentThreadScheduler.Instance).Subscribe(
// actMsg =>
// {
// socket.SendMessage(actMsg);
// },
// ex => SolutionExceptionOccurred(smallToBig, socket, ex, startSmallFormatter),
// () => SolutionCompletion(smallToBig, socket, ref startSmallCompleted, startSmallFormatter)))
//{
// while (!startSmallCompleted)
// {
// Thread.Sleep(300);
// }
// queue.DeleteMessage(msg);
//}
//var scheduler = System.Reactive.Concurrency.Scheduler.CurrentThread;
//var thread = System.Threading.Thread.CurrentThread;
//var s = new System.Reactive.Concurrency.EventLoopScheduler(ts => thread);
if (startDelay > 0)
Thread.Sleep(startDelay);
// Create a task for performing work using a SolutionStrategy and create a ZmqSocket to publish updates internally which
// will be forwarded by the ForwarderDevice to any subscribers listening over our TCP Publish Endpoint
var startSmallTask = Task.Run(() =>
{
using (ZmqSocket smallPubSocket = ctx.CreateSocket(SocketType.PUB))
{
smallPubSocket.Connect(INTERNAL_PUB_ADDRESS);
try
{
// Iterate Each action step for the Small to Big Solution Strategy
foreach (var step in problemToSolve.Solve(smallToBig))
{
SolutionAction(smallToBig, smallPubSocket, step, startSmallFormatter);
// if work order asked for artificial work delay
if (workDelay > 0)
Thread.Sleep(workDelay);
// If work order asked for artificial concurrency
else if (workDelay == 0)
Task.Yield();
}
SolutionCompletion(smallToBig, smallPubSocket, startSmallFormatter);
}
catch (Exception ex)
{
SolutionExceptionOccurred(smallToBig, smallPubSocket, ex, startSmallFormatter);
}
//using (problemToSolve.Solve(smallToBig).ToObservable().Subscribe(
// step => SolutionAction(smallToBig, smallPubSocket, step, startSmallFormatter),
// ex => SolutionExceptionOccurred(smallToBig, smallPubSocket, ex, startSmallFormatter),
// () => SolutionCompletion(smallToBig, smallPubSocket, startSmallFormatter)))
//{
// // All activity is done by the subscribe handlers, we use the using clause to efficiently clean up
// // the IDisposable from the Subscribe method
//}
}
});
// Get a binary formatter for messages that will be local to the Task thread
BinaryFormatter startBigFormatter = new BinaryFormatter();
// Create a task for performing work using a SolutionStrategy and create a ZmqSocket to publish updates internally which
// will be forwarded by the ForwarderDevice to any subscribers listening over our TCP Publish Endpoint
var startBigTask = Task.Run(() =>
{
//bool bigIsComplete = false;
using (ZmqSocket bigPubSocket = ctx.CreateSocket(SocketType.PUB))
{
bigPubSocket.Connect(INTERNAL_PUB_ADDRESS);
try
{
foreach (var step in problemToSolve.Solve(bigToSmall))
{
SolutionAction(bigToSmall, bigPubSocket, step, startBigFormatter);
if (workDelay > 0)
Thread.Sleep(workDelay);
else if (workDelay == 0)
Task.Yield();
}
SolutionCompletion(bigToSmall, bigPubSocket, startBigFormatter);
}
catch (Exception ex)
{
SolutionExceptionOccurred(bigToSmall, bigPubSocket, ex, startBigFormatter);
}
//using (problemToSolve.Solve(bigToSmall).ToObservable().Subscribe(
// step => SolutionAction(bigToSmall, bigPubSocket, step, startBigFormatter),
// ex => SolutionExceptionOccurred(bigToSmall, bigPubSocket, ex, startBigFormatter),
// () => SolutionCompletion(bigToSmall, bigPubSocket, ref bigIsComplete, startBigFormatter)))
//{
// // All activity is done by the subscribe handlers, we use the using clause to efficiently clean up
// // the IDisposable from the Subscribe method
// //while (!bigIsComplete)
// // yield;
//}
}
});
// Wait for the work of both SolutionStrategies to complete before deleting the Queue message
Task.WhenAll(startSmallTask, startBigTask)
.ContinueWith(t =>
{
if (t.IsFaulted)
{
// TODO: Log the t.Exception
}
else if (t.IsCanceled)
{
// TODO: Log the Cancellation of the Task
}
else if (t.IsCompleted)
{
// We can remove the message from the Queue so it's not executed again
queue.DeleteMessage(msg);
}
}).Wait();
}
catch (Exception ex)
{
// log the Exception
}
//}
}
}
}
catch (ZmqDeviceException zde)
{
throw new Exception("Encountered ZmqDeviceException [" + zde.ToString() + " - " + zde.Message + "]", zde);
}
catch (ZmqSocketException zse)
{
throw new Exception("Encountered ZmqSocketException [" + zse.ToString() + " - " + zse.Message + "]", zse);
}
}
}
/// <summary>
/// Solve the Problem locally in the WebRole/Hub asynchronously using Rx Observable sequences to capture and signal updates to the Client(s)
/// </summary>
/// <param name="problemToSolve"><see cref="WaterBucket.Domain.Problem"/> to be solved and calculate the results</param>
/// <param name="work">The <see cref="WaterBucketWeb.Models.WorkOrder"/> passed from the Client determining how to perform the work of solving the <see cref="WaterBucket.Domain.Problem"/></param>
/// <returns>Task resulting in <see cref="WaterBucket.Domain.SolutionResult"/>s for the problem for each <see cref="WaterBucket.Domain.ISolutionStrategy"/> employed</returns>
protected async Task<SolutionResult[]> SolveAProblemAsync(Problem problemToSolve, WorkOrder work)//, int delayStart, int workDelay)
{
if (work.StartDelay > 0)
Thread.Sleep(work.StartDelay);
ISolutionStrategy smallToBig, bigToSmall;
smallToBig = new SmallToBigSingleBucketSolutionStrategy(problemToSolve);
bigToSmall = new BigToSmallSingleBucketSolutionStrategy(problemToSolve);
var startSmall = from step in problemToSolve.Solve(smallToBig)
select step;
//startSmall.ToObservable().Subscribe(ProblemActionStep, ProblemActionError, ProblemSolutionCompleted);
// Example of doing all of the code on a single line
//problemToSolve.Solve(new SmallToBigSingleBucketSolutionStrategy(problemToSolve)).ToObservable().Subscribe(ProblemActionStep, ProblemActionError, () => ProblemSolutionCompleted("Small to Big"));
// Capture as primitive value type rather than rely on reference type for use in Tasks - was burned on this with the PublisherAddresses list
bool yieldOnAction = work.YieldWeb;
// Set up a Task to run the Observable in but don't wait on it yet
var smallToBigTask = Task.Run(() => (work.WorkDelay > 0 ? startSmall.ToObservable().Do(_ => Thread.Sleep(work.WorkDelay)) : startSmall.ToObservable())
.Subscribe(step => ProblemActionStep(step, yieldOnAction), ProblemActionError, () => ProblemSolutionCompleted("Small to Big")))
.ContinueWith(t =>
{
if (t.IsCanceled)
{
}
else if (t.IsFaulted)
{
}
else if (t.IsCompleted)
{
t.Result.Dispose();
SignalSolution(smallToBig.StrategyName, smallToBig.Result);
return smallToBig.Result;
}
return null;
});
var startBig = from step in problemToSolve.Solve(bigToSmall)
select step;
//var startBig = (from step in problemToSolve.Solve(bigToSmall)
// select step).ToObservable();
//if (workDelay > 0)
//{
// var timer = Observable.Interval(TimeSpan.FromMilliseconds(workDelay));
// startBig = startBig.Zip(timer, (bs, _) => bs);
//}
// Set up a Task to run the Observable in but don't wait on it yet
var bigToSmallTask = Task.Run(() => (work.WorkDelay > 0 ? startBig.ToObservable().Do(_ => Thread.Sleep(work.WorkDelay)) : startBig.ToObservable())
.Subscribe(step => ProblemActionStep(step, yieldOnAction), ProblemActionError, () => ProblemSolutionCompleted("Big to Small")))
.ContinueWith(t =>
{
if (t.IsCanceled)
{
}
else if (t.IsFaulted)
{
}
else if (t.IsCompleted)
{
t.Result.Dispose();
SignalSolution(bigToSmall.StrategyName, bigToSmall.Result);
return smallToBig.Result;
}
return null;
});
// Wait for the Observable execution tasks to complete before finishing
return await Task.WhenAll(smallToBigTask, bigToSmallTask);
}
public void TestSocketReceive()
{
// Arrange
var ctx = ZmqContext.Create();
var sub = ctx.CreateSocket(SocketType.SUB);
Problem testProblem = new Problem(3, 5, 4);
byte[] qMsgBytes = new byte[12];
Buffer.BlockCopy(BitConverter.GetBytes(testProblem.FirstBucket.Capacity), 0, qMsgBytes, 0, 4);
Buffer.BlockCopy(BitConverter.GetBytes(testProblem.SecondBucket.Capacity), 0, qMsgBytes, 4, 4);
Buffer.BlockCopy(BitConverter.GetBytes(testProblem.GoalWaterVolume), 0, qMsgBytes, 8, 4);
CloudQueueMessage qMessage = new CloudQueueMessage(qMsgBytes);
var smallToBig = new SmallToBigSingleBucketSolutionStrategy(testProblem);
var bigToSmall = new BigToSmallSingleBucketSolutionStrategy(testProblem);
sub.Connect(_publishAddress);
sub.Subscribe(Encoding.UTF8.GetBytes(smallToBig.Signature));
sub.Subscribe(Encoding.UTF8.GetBytes(bigToSmall.Signature));
// Act
var subTask = Task.Run(() =>
{
ProblemUpdate update = null;
ZmqMessage zqm = sub.ReceiveMessage(TimeSpan.FromSeconds(2));
if (zqm == null)
{
Assert.Fail("Did not receive a message from the subscription socket within 2 seconds of adding message to Queue");
}
int[] numActions = new int[2] { 0, 0 };
bool[] completed = new bool[2] { false, false };
while ((zqm != null) && (!completed.All(c => c)))
{
zqm = sub.ReceiveMessage();
string msgSig = Encoding.UTF8.GetString(zqm.Unwrap().Buffer);
update = new ProblemUpdate(zqm.Select(f => f.Buffer).ToArray());
if (update.IsAction)
{
if (msgSig.Equals(smallToBig.Signature))
{
numActions[SMALL_TO_BIG]++;
}
else if (msgSig.Equals(bigToSmall.Signature))
{
numActions[BIG_TO_SMALL]++;
}
}
else if (update.IsCompletion)
{
if (msgSig.Equals(smallToBig.Signature))
{
completed[SMALL_TO_BIG] = true;
}
else if (msgSig.Equals(bigToSmall.Signature))
{
completed[BIG_TO_SMALL] = true;
}
}
}
// Assert
Assert.IsFalse(update.IsError, "Received an Exception from the Socket");
Assert.IsTrue(completed.All(c => c), "Not all strategies completed");
Assert.AreEqual(NUM_ACTIONS[SMALL_TO_BIG], numActions[SMALL_TO_BIG], "Small to Big strategy received wrong number of action messages (" + numActions[SMALL_TO_BIG] + ") from socket - expected " + NUM_ACTIONS[SMALL_TO_BIG]);
Assert.AreEqual(NUM_ACTIONS[BIG_TO_SMALL], numActions[BIG_TO_SMALL], "Big to Small strategy received wrong number of action messages (" + numActions[BIG_TO_SMALL] + ") from socket - expected " + NUM_ACTIONS[BIG_TO_SMALL]);
});
//if ((subTask.Status == TaskStatus.WaitingToRun))// || (subTask.Status == TaskStatus.WaitingForActivation))
// subTask.Start();
_queue.AddMessage(qMessage);
subTask.ContinueWith(t =>
{
if (t.IsFaulted)
Assert.Fail("subTask threw Exception: " + t.Exception.ToString() + " " + t.Exception.Message);
sub.UnsubscribeAll();
sub.Disconnect(_publishAddress);
sub.Dispose();
ctx.Dispose();
});
}
