From a little bit of reading around, it is my understanding that the only way to detect that a client has connected to my service is through writing my own code. I am using a Singleton service. I would like to display a message every time a client connects to my service that client x with ip xxx has connected. There is no built-in event that is generated? Am I correct?
No, I don't think there's any support in WCF for your requirement.
Not sure what you want to achieve with this, either. Your service class (in your case, just a single instance) really doesn't have any business putting up messages (on screen, I presume) - that really not it's job. The service class is used to handle a request and deliver a response - nothing more.
The ServiceHost class might be more of a candidate for this feature - but again, it's job really is to host the service, spin up the WCF runtime etc. - and it's really not a UI component, either.
What you could possibly do is this
have an Admin UI (a Winforms, console, or WPF app) running on your server alongside your service, providing an admin service to call
define a fast connection between the two services (using e.g. netNamedPipe binding which is perfect for intra-application messaging)
when your "real" service gets a call, the first thing it does is send out a message to the admin UI which can then pick up that message and handle it
That way, you could cleanly separate your real service and it's job (to provide that service) and the Admin UI stuff you want to do and build a cleanly separated system.
I have actually implemented my own connect, disconnect and ping service methods which I manually call from my client once the channel has been created. By using them as a kind of header section in all of my ServiceContract interface definitions (and their implementations, of course), they form an makeshift "base service definition" that only requires a bit of cut-n-paste.
The string-based parameters of connect and disconnect will be used to send client info to the server and return server info and (perhaps a unique connection id) to the client. In addition a set of timing reference points may make its way in also.
Note how SessionMode is required and the individual OperationContract properties IsInitiating and IsTerminating are explicitly specified for each method, the end result being what I would call a "single-session" service in that it defines connect and disconnect as the sole session bookends.
Note also that the ping command will be used as the target of a timer-based "heartbeat" call that tests the service connection state and defeats ALL connection timeouts without a single config file :-)
Note also that I haven't determined my fault-handling structure yet which may very well add a method or more and/or require other kinds of changes.
[ServiceContract( SessionMode = SessionMode.Required )]
public interface IRePropDalSvr {
[OperationContract( IsInitiating=true, IsTerminating=false )]
string connect (string pClientInfo);
[OperationContract( IsInitiating=false, IsTerminating=true, IsOneWay=true )]
void disconnect (string pClientInfo);
// ------------------------------------------------------------------------------------------
[OperationContract( IsInitiating=false, IsTerminating=false )]
string ping (string pInp);
// ------------------------------------------------------------------------------------------
// REST OF ServiceContract DEFINITION GOES HERE
One caveat: while I am currently using this code and its implemention in my service classes, I have not verified the code yet.
Related
The project I'm currently working on includes a server that receives C# scripts (partial code) from clients, wraps it to create a complete class, compiles it then load it into a separate AppDomain for execution.
A task (currently running script) can send feedback to the user at any point of it's execution, as defined in the script by the user. And possibly the task might wait for a response from the user (currently assuming it's only right after having sent feedback). And the user might, at any moment, decide to kill a task.
The server is implemented as a Windows Service hosting a WCF Service Library.
As I don't want to overcomplicate the client to make it communicate directly with the dynamically created AppDomains, the (partial) solution that I considered after some research was hosting a second WCF service with named pipe binding to make the dynamic AppDomains use it as a relay between them and the client facing WCF service.
My issue is that now I can't think of a clean way to have the two WCF services interact.
My ideas are:
Having them maintain direct references to each other:
Seeing as Normally both of the services are singletons it shouldn't be hard to do.
But that would be a pain to maintain in the case one of them fails and needs to be restarted. (I'm still new to WCF so I have no idea how common that is, but it's still an issue to consider. I think.)
Introducing some sort of a "message queue" (or two, one for each direction) with properties that can be set and subscribed to. Thus when one service sets a property an event will be triggered in the second. But that feels somewhat hacky to me, even though I can't really think of any clear issues.
I could really use some expert input on what I'm trying to accomplish, be it opinions on my thoughts or new ideas. Even if that involves rethinking the architecture. This project is still in an early enough stage to afford some rework, as long as there is enough reason to do that of course.
Since I've put lots of efforts (read: 2 minutes on paint) to prepare a quick (read: useless) schema of the system, I'll link it here since I don't have the reputation to post images:
Link to schema
Edit:
As I now have the reputation thanks to an upvote:
Still after rereading my question, I feel that perhaps I have been looking at this issue from a too narrow perspective by thinking of the services as something more special than ordinary classes. The more I think about it the more I feel that the observer pattern is probably the best approach to take.
Just for the record, and to avoid leaving my (silly) question unanswered, I've realised that I was looking at this too narrowly by trying to find a solution specific to WCF services.
And finally I ended up using a variation of the observer pattern (based on the IObservable<T>Interface).
I came across the same issue. The way I handled a duplex communication between the two servers is as following:
For each process (AppDomain Seperated Task) create a pair of WCF services. Both services have their Instancing set to PerSession (no need for singleton which may cause problems in the long run like disconnect). This means the Client will be communicating for each process (AppDomain Separated Task) with two distinct Service instances or a service pair (i.e. Service1 and Service2).
We want a duplex communication in between these two services, which means that both can communicate with the other and pass data (in the form of a DataContract class object).
For this:
1- Declare two services (i.e. in a separate class library) and host them (self hosting or else).
2- Create your DataContract class and add any property, collection, enum etc. as you like. Both services must have a get-set property for this class.
3- In the same class library (where the Service1 and 2 classes reside), create another class. This class will act as a depository for the Service pair instances. It has a static List in order to register the service pair instances (you can identify each service with a GUID).
4- We setup the client proxy using svcUtil.exe (or by code). When the client makes a service request, a service (i.e. service1) will be created by the WCF. At service1, create or launch the process (App Domain Separated Task) as client2 and at its constructor create the Service2 proxy by code.
5- Initialize the Service2 instance (i.e. by a call to the service2) and register the service pair instances at static list of the depository (so that it can be retrieved later for duplex communication). Now we have both service instances and both of them are registered as a pair into a static list.
6- Start communication between both services by making a call from Client1 proxy.
7- At Service1 call method, retrieve the service pair from the static list. Deep copy (DeepClone) the Datacontract class object from Service1 to the Service2 using the get-set property mentioned at (2). (Note that you can use one of the many Deep Clone libraries from Nuget like DeepCloner).
8- Make a call back from Service2. Client2 now has the identical DataContract class property values as Client1
9- Repeat steps 6-8 for Client2 proxy for Service2-Service1 communication.
I aplogise if my terminology is inaccurate, still deep in learning.
I am creating a web service to act as an intermediary between Silverlight and XMPP. To start all of this I have created a web service call to enable me to ask the server to log on on my behalf and the idea is that the server will log on and then push back to my client once complete.
I have based the idea on the code form this site: http://weblogs.asp.net/dwahlin/archive/2011/02/06/syncing-data-with-a-server-using-silverlight-and-http-polling-duplex.aspx
Now the problem I have is that the Register call I have created will use an asynchronous call to log into XMPP. But the register call itself is also asychronous. So I don't know the best way for a web service call to wait for another service's async call
What I thought of doing was making the Register a one way call with the idea being that my server will log into XMPP then push the client once logged in (or fileld etc)
[OperationContract(IsOneWay = true)]
void Register(string name, string password, string nickname);
But when I imported the Service Reference the class generated appears to have a RegisterCompleted() call which debug shows is invoked. But I thought one-way meant no response is called so why is it?
One Way means No Response Data. Internet protocols are a request-response model where there is an acknowledgement for the receipt of the request. Your Register service returns no data (void) so RegisterCompleted really did "completed accepting three string parameters and returned no data".
This is a good thing - now you know if you had a problem starting the registration or everything is good so business as usual until you hear back from the server. You don't know yet if you're actually registered yet so that's why your client continues to Poll the server until the server responds - good or bad.
His previous article references an good MSDN example on using the PollingDuplexHttpBinding.
I have a web service that will be consumed by some application (web site currently).
The calls are almost all specific to a certain client but still the same. So one call might be getAllFoo() but I would need some parameter to say from which client the Foo is.
It would become bothersome quickly if I just add a standard parameter to all calls so I was hoping to do it a little bit DRY and automatic. Something that would be included in all service calls.
Is IDispatchMessageInspector the right thing for me here? What kind of info could that include and can I access that info inside the methods?
Should I create some sort of attribute perhaps for the calls?
If anyone could point me towards a solution for this it would be great.
Edit
Another solution I'm thinking off.
Where the service call to a specific client happens on the consumer side, it will be known at instanceCreation so I could instance the ServiceClient with a known client.
Could I use this solution for the ClientBase<> extender somehow.
Let's say I'm serving Domain1 (let's call the client Domain to not confuse it with a serviceclient/consumer) I create a InformationProvider consumer side that has a ClientBase<IInformationService> field. I ensure that the DomainName (domain1) is set at construction so I could parhaps do the same thing when instancing the ClientBase<IInformationService> so It somehow let's the service know what domain I'm calling for.
I'm just still learning about WCF so I'm not sure how one would do this.
I can understand that you want to keep you solution simple and tidy, but ultimately - as you say yourself -
... I would need some parameter to say from which client...
The obvious and simplest solution is to include a client parameter on all your service calls where it is required. Surely there'll be service calls that don't require the client parameter, and in those cases you don't need to include the parameter.
You may be able to do something clever where a client identifier is passed discreetly under the covers, but beware of doing unnecessarily clever things. I would pass the client as a simple parameter because it is being used as a parameter. Two reasons come to mind:
if someone maintains your code they quickly understand what's going on.
if someone needs to use the service it is obvious how to use it.
A possible pattern:
Make sure you service instantiates per session. This means you'll have to use wsHttpBinding, netTcpBinding, or a custom binding as http does not support sessions.
Always call an initialization operation when each session is instantiated that sets the client id for that service.
Put this initialization operation inside a constructor for a proxy.
The steps involved would be something like this:
[ServiceBehavior(InstanceContextMode=InstanceContextMode.PerSession)]
public class MyService : IMyService
{
private int clientId;
public void StartUp(int clientId)
{
this.clientId = clientId;
and then client side, assuming you use the generated proxy, wrap the client inside another proxy.
public class ExtendedClient : MyServiceClient
{
public ExtendedClient(int clientid) : base()
{
this.StartUp(clientid);
}
Now you should instantiate the ExtendedClient, it will create the channel and prime the service by delivering the client id.
I would personally prefer to simply send the client id for each service call, but if you are able to use a session-able binding then this should work.
Just some information on WCF for you. If you have a stateless service, then you'll need to include the client as a parameter in every service call. This does not mean you need to include the client everywhere throughout your code - you could, for example, retrieve it inside the ClientBase constructor. But you will need to add it to every OperationContract and all the service implementations.
The alternative is to have a stateful service - the instance that you first use will remain for you to reuse (except for timeouts / exceptions). In this case you can potentially send the client just once, and then the service will know about the client for subsequent calls. This is the pattern described above. It means that you cannot use http binding. I believe that by doing this you're only increasing the potential for problems in your application (stateful services, having to ensure the initialization operation completes, more service calls being made).
I have been trying to get up to speed on Named Pipes this week. The task I am trying to solve with them is that I have an existing windows service that is acting as a device driver that funnels data from an external device into a database. Now I have to modify this service and add an optional user front end (on the same machine, using a form of IPC) that can monitor the data as it passes between the device and the DB as well as send some commands back to the service.
My initial ideas for the IPC were either named pipes or memory mapped files. So far I have been working through the named pipe idea using WCF Tutorial Basic Interprocess Communication . My idea is to set the Windows service up with an additional thread that implements the WCF NamedPipe Service and use that as a conduit to the internals of my driver.
I have the sample code working, however I can not get my head around 2 issues that I am hoping that someone here can help me with:
In the tutorial the ServiceHost is instantiated with a typeof(StringReverser) rather than by referencing a concrete class. Thus there seems to be no mechanism for the Server to interact with the service itself (between the host.Open() and host.Close() lines). Is it possible to create a link between and pass information between the server and the class that actually implements the service? If so, how?
If I run a single instance of the server and then run multiple instance of the clients, it seems that each client gets a separate instance of the service class. I tried adding some state information to the class implementing the service and it was only retained within the instance of the named pipe. This is possibly related to the first question, but is there anyway to force the named pipes to use the same instance of the class that is implementing the service?
Finally, any thoughts on MMF vs Named Pipes?
Edit - About the solution
As per Tomasr's answer the solution lies in using the correct constructor in order to supply a concrete singleton class that implements the service (ServiceHost Constructor (Object, Uri[])). What I did not appreciate at the time was his reference to ensuring the service class was thread safe. Naively just changing the constructor caused a crash in the server, and that ultimately lead me down the path of understanding InstanceContextMode from this blog entry Instancecontextmode And Concurrencymode. Setting the correct context nicely finished off the solution.
For (1) and (2) the answer is simple: You can ask WCF to use a singleton instance of your service to handle all requests. Mostly all you need to do is use the alternate ServiceHost constructor that takes an Object instance instead of a type.
Notice, however, that you'll be responsible for making your service class thread safe.
As for 3, it really depends a lot on what you need to do, your performance needs, how many clients you expect at the same time, the amount of data you'll be moving and for how long it needs to be available, etc.
I am using wcf 4 and trying to transparently transfer context information between client and server.
I was looking at behaviors and was able to pass things around. My problem is how to flow the context received in the incoming headers to the other services that might be called by a service.
In the service behavior I intercept the the message and read the headers but don't know where to put that data to be accessible to the next service call that the current service might make.
What I am looking for is something like:
public void DoWork()
{
var someId = MyContext.SomeId;
//do something with it here and call another service
using(var proxy = GetProxy<IAnotherService>())
proxy.CallSomeOtherMethodThatShouldGetAccessTo_ MyContextualObject();
}
If I store the headers in thread local storage I might have problems due to thread agility(not sure this happens outside ASP.NET, aka custom service hosts). How would you implement the MyContext in the code above.
I chose the MyContext instead of accessing the headers directly because the initiator of the service call might not be a service in which case the MyContext is backed by HttpContext for example for storage.
In the service behavior I intercept
the the message and read the headers
but don't know where to put that data
to be accessible to the next service
call.
Typically, you don't have any state between calls. Each call is totally autonomous, each call gets a brand new instance of your service class created from scratch. That's the recommended best practice.
If you need to pass that piece of information (language, settings, whatever) to a second, third, fourth call, do so by passing it in their headers, too. Do not start to put state into the WCF server side! WCF services should always be totally autonomous and not retain any state, if at ever possible.
UPDATE: ok, after your comments: what might be of interest to you is the new RoutingService base class that will be shipped with WCF 4. It allows scenarios like you describe - getting a message from the outside and forwarding it to another service somewhere in the background. Google for "WCF4 RoutingService" - you should find a number of articles. I couldn't find antyhing in specific about headers, but I guess those would be transparently transported along.
There's also a two-part article series Building a WCF Router Part 1 (and part 2 here) in MSDN Magazine that accomplishes more or less the same in WCF 3.5 - again, not sure about headers, but maybe that could give you an idea.