I need to download some tables from the database, and create static list classes with the information. I can do this in owin startup, or RoleEntryPoint onStart.
I tried to preload the lists in RoleEntryPoint onStart, however, these classes doesnt seem to be available in the runtime, instead they got created again.
If I preload them in Owin Startup, everything works as it should.
However, it takes about 10 seconds for me to preload these lists, and while owin startup is executing, the Onstart already had been executed and therefore the web role becomes available for accepting requests. I dont want this though. I dont want the web role to switch to ready state until all of the lists are preloaded.
it seems like any instances that are created in RoleEntryPoint arent available in the webrole runtime itself.
Is there any way to achieve preloading instances in OnStart and having being able to use them in the runtime?
RoleEntryPoint is the best way to achieve your requirement.
Define static List variables with singleton pattern in the WebRole.cs.
Implement async repository or private methods to fill them. You do not have to populate your static lists on app startup. According to the singleton pattern, they will get filled on first request.
I use the same approach in my static repository instance initialization of WCF service startup process.
Good luck
We're writing a class we'll use in our asp.net site. This class will pull down some json using HttpClients and such, and use it to provide information to other clients.
Some of this information will change very infrequently and it doesn't make sense to query for it on each client request.
For that reason I'm thinking of making a static constructor in this new class for the slow-changing information and stashing the results in a few static member variables. That'll save us a few HttpRequests down the line-- I think.
My question is, how long can I expect that information to be there before the class is recycled by ASP.Net and a new one comes into play, with the static constructor called once more? Is what I'm trying to do worth it? Are there better ways in ASP.Net to go about this?
I'm no expert on ASP.Net thread pooling or how it works and what objects get recycled and when.
Typical use of the new class (MyComponent, let's call it) would be as below, if that helps any.
//from mywebpage.aspx.cs:
var myComponent = new MyComponent();
myComponent.doStuff(); //etc etc.
//Method calls like the above may rely on some
//of the data we stored from the static constructor call.
Static fields last as long as the AppDomain. It is a good strategy that you have in mind but consider that the asp runtime may recycle the app pool or someone may restart the web site/server.
As an extension to your idea, save the data locally (via a separate service dedicated to this or simply to the hard drive) and refresh this at specific intervals as required.
You will still use a static field in asp.net for storing the value, but you will aquire it from the above local service or disk ... here I recommend a System.Lazy with instantiation and publication options on thrread safe (see the constructor documentation).
I was looking through an old project and wanted to see if anyone had a suggestion on how to hide certain methods from being called by various layers. This was a 3 tier project, webapplication -> web service -> database
In the application there is a User object for example. When a User was being updated, the webapplication would create a User object and pass it to the webservice. The webservice would use the DataAccessLayer to save the User object to the database. After looking at this I was wondering if instead I should have made a Save method in the User class. This way the service and simply call the Save on the User object which would trigger the db update.
However doing it this way would expose the Save to be called from the webapplication as well, correct? Since the webapplication also has access to the same User object.
Is there anyway around this, or is it better to avoid this altogether?
There is a separation of concerns by keepeing the User object as object that only holds data with no logic in it. you better keep it separated for the following reasons:
As you stated, it is a bad practice since the Save' functionality will be exposed to other places/classes where it is irrelevant for them (This is an important for programming generally).
Modifying the service layer - I guess you are using WCF web service as you can transfer a .NET object (c#/VB) to the service via SOAP. If you put the saving logic in the 'User' object, you can't replace it another webservice that receives a simple textual data structures like JSON or XML or simply doesn't support .NET objects.
Modifying the data storage layer - If you want, for example, to store the data inside a different place like other database such as MongoDB, RavenDB, Redis or what ever you want, you will have to reimplement each class that responsible for updating the data. This is also relevant for Unit Testing and Mocking, making them more complicated to interrogate.
The context:
(Note: in the following I am using "project" to refer to a collection of software deliverables, intended for a single customer or a specific market. I am not referring to "project" as it is used in Visual Studio to refer to a configuration that builds a single EXE or DLL, within a solution.)
We have a sizable system that consists of three layers:
A layer containing code that is shared across projects
A layer containing code that is shared across different applications within a project
A layer containing code that is specific to a particular application or website within a project.
The first two layers are built into DLL assemblies. The top layer is an assortment of EXEs and/or .aspx web applications.
IIRC, we have a number of different projects that use this pattern. All four share layer 1 (though often in slightly different versions, as managed by the VCS). Each of them has its own layer 2. Each of them has its own set of deliverables, which can range from a website, or a website and a background service, to our largest and most complex (and the bread-and-butter of our business) which consists of something like five independent web applications, 20+ console applications/background services, three or four independent web services, half-a-dozen desktop GUI apps, etc.
It's been our intent to push as much code into levels 1 and 2 as possible, to avoid duplicating logic in the top layers. We've pretty much accomplished that.
Each of layers 1 and 2 produce three deliverables, a DLL containing the code that is not web-related, a DLL containing the code that is web-related, and a DLL containing unit tests.
The problem:
The lower levels were written to make extensive use of singletons.
The non-web DLL in layer 1 contains classes to handle INI files, logging, a custom-built obect-relational mapper, which handles database connections, etc. All of these used singletons.
And when we started building things on the web, all of those singletons became a problem. Different users would hit the website, log in, and start doing different things. They'd do something that generated a query, which would result in a call into the singleton ORM to get a new database connection, which would access the singleton configuration object to get the connection string, and then the connection would be asked to perform a query. And in the query the connection would access the singleton logger to log the SQL statement that was generated, and the logger would access the singleton configuration object to get the current username, so as to include it in the log, and if someone else had logged in in the meantime that singleton configuration object would have a different current user. It was a mess.
So what what we did, when we started writing web applications using this code base was to create a singleton factory class, that was itself a singleton. Every one of the other singletons had a public static instance() method that had been calling a private constructor. Instead, the public static instance() method obtained a reference to the singleton factory object, then called a method on that to get a reference to the single instance of the class in question.
In other words, instead of having a dozen classes that each maintained its own private static reference, we now had a single class that maintained a single static reference, and the object that it maintained a reference to contained a dozen references to the other, formerly singleton classes.
Now we had only one singleton to deal with. And in its public static instance() method, we added some web-specific logic. If we had an HTTPContext and that context had an instance of the factory in its session, we'd return the instance from the session. If we had an HTTPContext, and it didn't have a factory in its session, we'd construct a new factory and store it in the session, and then return it. If we had no HTTPContext, we'd just construct a new factory and return it.
The code for this was placed in classes we derived from Page, WebControl, and MasterPage, and then we used our classes in our higher-level code.
This worked fine, for .aspx web applications, where users logged in and maintained session. It worked fine for .asmx web services running within those web applications. But it has real limits.
In particular, it won't work in situations where there is no session. We're feeling pressure to provide websites that serve a larger user base - that might have tens or hundreds of thousands of users hitting them dynamically. Up to now our users have been pretty typical desktop business users. They log into our websites, and stay in them much of the day, using our web apps as an alternative to a desktop app. A given customer might have as many as six users who might use our websites, and while we have a thousand or more customers, combined they don't make for all that heavy a load. But our current architecture will not scale to that.
We're also running into situations where ASP.NET MVC would be a better fit for building the web UI than .aspx web forms. And we're exploring building mobile apps that would be communicating with stand-alone WFC web services. And while in both of these, it looks like it's possible to run them in an environment that has a session, it looks to limit their flexibility and performance fairly severely.
So, we're really looking at ways to eliminate these singletons.
What I'd really like:
I'm trying to envision a series of refactors, that would eventually lead to a better-structured, more flexible architecture. I could easily see the advantages of an IoC framework, in our situation.
But here's the thing - from what I've seen of IoC frameworks, they need their dependencies provided to them externally via constructor parameters. My logger class, for example, needs an instance of my config class, from which to obtain the current user. Currently, it is using the public static instance() method on the config class to obtain it. To use an IoC framework, I'd need to pass it as a constructor.
In other words, from where I sit, the first, and unavoidable task, is to change every class that uses any of these singletons so as to take the singleton factory as a constructor parameter. And that's a huge amount of work.
As an example, I just spent the afternoon doing exactly that, in the level 1 libraries, to see just how much work it is. I ended up changing over 1300 lines of code. The level 2 libraries will be worse.
So, are there any alternatives?
Typically, you should try to wrap the contextual information into its own instance and provide a static accessor method to refer to it. For example, consider HttpContext and its available every where in web application via HttpContext.Current.
You should try to devise something similar so that instead of returning singleton instance, you would return the instance from the current context. That way, you need to not change your consumer code that refers to these static methods (e.g. Logger.Instance()).
I generally roll-up information such as logger, current user, configuration, security permissions into application context (can be more than one class if need arises). The AppContext.Current static method returns the current context. The method implementation goes something like
public interface IContextStorage
{
// Gets the stored context
AppContext Get();
// Stores the context, context can be null
void Set(AppContext context);
}
public class AppContext
{
private static IContextStorage _storageProvider, _defaultStorageProvider;
public static AppContext Current
{
get
{
var value = _storageProvider.Get();
// If context is not available in storage then lookup
// using default provider for worker (threadpool) therads.
if (null == value && _storageProvider != _defaultStorageProvider
&& Thread.CurrentThread.IsThreadPoolThread)
{
value = _defaultStorageProvider.Get();
}
return value;
}
}
...
}
IContextStorage implementations are application specific. The static variables _storageProvider gets injected at the application start-up time while _defaultStorageProvider is a simple implementation that looks into current call context.
App Context creation happens in multiple stages - for example, a global information such as configuration gets read and cached at application start-up while specific information such as user & security gets formed at authentication stage. Once all info is available, the actual instance is created and stored into the app specific storage location. For example, desktop application will use a singleton instance while web application can probably store the instance into the session state. For web application, you may have logic at start of each request to ensure that the context is initialized.
For a scalable web applications, you can have a storage provider that will store the context instance into the cache and if not present in the cache then re-built it.
I'd recommend starting by implementing "Poor Man's DI" pattern. This is where you define two constructors in your classes, one that accepts an instance of the dependencies (IoC), and another default constructor that new's them up (or calls a singleton).
This way you can introduce IoC incrementally, and still have everything else work using the default constructors. Eventually when you have IoC being used in most places you can start to remove the default constructors (and the singletons).
public class Foo {
public Foo(ILogger log, IConfig config) {
_logger = log;
_config = config;
}
public Foo() : this(Logger.Instance(), Config.Instance()) {}
}
We have many instances in our application where we would like to be able to access things like the currently logged in user id in our business domain and data access layer. On log we push this information to the session, so all of our front end code has access to it fairly easily of course. However, we are having huge issues getting at the data in lower layers of our application. We just can't seem to find a way to store a value in the business domain that has global scope just for the user (static classes and properties are of course shared by the application domain, which means all users in the session share just one copy of the object). We have considered passing in the session to our business classes, but then our domain is very tightly coupled to our web application. We want to keep the prospect of a winforms version of the application possible going forward.
I find it hard to believe we are the first people to have this sort of issue. How are you handling this problem in your applications?
I don't think having your business classes rely on a global object is that great of an idea, and would avoid it if possible. You should be injecting the necessary information into them - this makes them much more testable and scalable.
So rather than passing a Session object directly to them, you should wrap up the information access methods that you need into a repository class. Your business layer can use the repository class as a data source (call GetUser() on it, for example), and the repository for your web app can use session to retrieve the requested information (return _session.User.Identity).
When porting it to winforms, simply implement the repository interface with a new winform-centric class (i.e. GetUser() returns the windows version of the user principal).
In theory people will tell you it's a bad business practice.
In practice, we just needed the data from the session level available in the business layers all the time. :-(
We ended up having different storage engines united under a small interface.
public interface ISessionStorage
{
SomeSessionData Data {get;set;}
...
.. and most of the data we need stored at "session" level
}
//and a singleton to access it
public static ISessionStorage ISessionStorage;
this interface is available from almost anywhere in our code.
Then we have both a Session and/or a singleton implementation
public WebSessionStorage
{
public SomeSessionData Data
{
get { return HttpContext.Current.Session["somekey"] as SomeSessionData;}
set { HttpContext.Current.Session["somekey"] = value;}
}
public WebFormsSessionStorage
{
private static SomeSessionData _SomeSessionData; //this was before automatic get;set;
public SomeSessionData
{
get{ return _SomeSessionData;}
set{ _SomeSessionData=value; }
}
}
On initing the application, the website will do a
Framework.Storage.SessionStorage = new WebSessionStorage();
in Global.asax, and the FormsApp will do
Framework.Storage.SessionStorage = new WebFormsSessionStorage();
I agree with Womp completely - inject the data down from your front-end into your lower tiers.
If you want to do a half-way cheat (but not too much of a cheat), what you can do is create a very small assembly with just a couple POCO classes to store all of this information you want to share across all of your tiers (currently logged-in username, time logged in, etc.) and just pass this object from your front-end into your biz/data tiers. Now if you do this, you MUST avoid the temptation to turn this POCO assembly into a general utility assembly - it MUST stay small or you WILL have problems in the future (trust me or learn the hard way or ask somebody else to elaborate on this one). However, if you have this POCO assembly, injecting this data through the various tiers becomes very easy and since it's POCO, it serializes very well and works nicely with web services, WCF, etc.