This article talks about the
ASP.NET application life cycle and Page life cycle. We will try to see the
what all events are usually of the importance for an
ASP.NET developer and what needs to be done in these
ASP.NET developer, it is crucial to understand the
ASP.NET application life cycle and Page
life cycle. With the ease of development provided by Visual Studio, sometimes new programmers get started
ASP.NET pages without understanding the Application and Page life cycle.
From an end user's perspective, a request for a web page is made to the web server and web server will
return the page to the user. For a little bit technical users, we can also state that the web server will receive the request, perform some server side activities like reading from database and tailor the HTML
output and push it back to the user. From an
ASP.NET developer's perspective this is just the tip of the
ice berg. As an
ASP.NET developer, one need to understand how this request is being processed i.e. the
Application life cycle and how the web page is being processed and getting served to the user i.e. the
Page life cycle.
Using the code
Let us start our discussion with how the
ASP.NET process the request. Then we will look at the Application
life cycle to take better control over the request and response. Finally, we will see the page life cycle to
understand what need to be done when to serve the request in a proper manner.
Understanding the Application Life Cycle
Whenever the user requests for a web page the request goes to
IIS then checks the
ISAPI (Internet Server Application Programming Interface) extension of the request to check how to process
the request. If the request is for an
.aspx page then the request will be redirected to the
ASP.NET engine receives the request it check whether an Application Domain exist for this
request to run. If yes, it will use that application domain, if not it will create one and pass on the request
to that Application domain.
Note: Application domain provides the actual isolation levels so that various website hosted in the same
servers will not interfere with each other.
Once the Application domain has been created the objects required to serve the incoming requests and
generate the proper response are created. Following objects are created to achieve the same
HttpContext object contains the reference to the
HTTPResponse(these are the object containing the information about the current request). The
HTTPRequest object specifically contains the information about the current request i.e. browser related info and existing cookies.
HTTPResponse object contains the information about the response that will be sent from the server to
the client i.e. cookies to be written etc.
Once these objects are created the object of
HTTPApplication will be created. This object contains the methods and
events that are common for the application(the current application domain). The reason this object is of particular
interest is that this object raises events that could be useful for the developer. If we have a
global.asax file in our
application, we can handle all the events raised by this object and perform our application specific operations
(We will see the events in details later).
HTTPApplication object is done with the request initialization, authentication and authorization events, it
passes the request to the Page. This is the point typically where we write most of our code. We handle all the page life
cycle events to tailor the page as per the user request(We will see the Page events and life cycle shortly).
Once the page processing is done, the
HTTPApplication will execute the cleanup and end request events and then the response
will be sent to the user. SO if we try to visualize the above process in form of an algorithm.
1. User initiates the request.
2. Request is received by IIS and checked with ISAPI
2a. If the request is for an .aspx, pass it on to the ASP.NET
3. Check for the AppDmain.
3a. If application domain exists, use it.
3b. If AppDomain does not exist create it.
4. Create the core objects for HTTPContext, HTTPRequest and HTTPResponse.
5. Check if the HTTPApplication object exist.
5a. If it exist pass on the core objects to it.
5b. If it doesn't create it and then pass the core objects.
6.HTTPApplication object will process the request.
6a. HTTPApplication begin, authentication and authorization events will run.
7. The request will then be passed to the Page.
7a. Page events and complete Page life cycle will run.
8. The HTTPApplication object will run the cleanup and end events and pass on the response to the user.
A Note on HTTPHandlers and HTTPModules
HTTPHandlers are used by
ASP.NET to handle the specific requests based on extensions.
HTTPModule, on the other hand, is used if we want to have our own functionality working
along with the default ASP.NET functionality. There is one Handler for a specific request
but there could be N number of modules for that.
Why is this important? This is important because once the
HTTPApplication object get hold of the core
request and response object, all the
HTTPModules will be created and the
init() method for them will be called.
So if we have modules in our application, we could also handle the Application events there along with the
And for the
HTTPHandlers, they will be called after the Application events(both in
global.asax and modules) are
executed. If we have a handler registered for any particular extension then it will always be called after the Application
begin, authentication and authorization events.
HTTPModules in our application can also be used to handle application events i.e. 6 and 8 in our algorithm. Where as the
HTTPHandlers will come in picture once the Application begin, authentication and authorization events are executed i.e. between
6 and 7 in our algorithm.
A Deeper look into Application Events
Now we have understood the basic Application life cycle. the next important thing for us is to look at the
Application events' sequence so that we can have our custom logic written either in
global.asax file or in a module.
Understanding the sequence of events is important because we should know what could and should be done in each event.
Note: We will only look at some important and frequently used Application events. For a comprehensive list
MSDN is a good place to look into.
What should be done
This event will be called in every request. This event indicates the beginning of a new request.
This event is fired when the ASP.NET is ready for authentication. All the code that is for the
authentication of the user should come here.
This event is fired when the ASP.NET is ready for authorization. All the code that is for the
authorization of the user should come here.
This event is important because at this point the AS.NET is ready to accept and play with Session
variables. If we need to initialize some session variable, it could be done in here or here onwards any event.
Here the Required |
HTTPHandler will get executed. If it is an
aspx page the respective handler will
get executed and the request will be passed on to the page.
PAGE EVENTS WILL COME HERE
This event is important because this is the last point play with Session variables.
This event will be fired just before the response will be sent to the user.
Understanding the Page Life Cycle
Having talked about the application life cycle and application events, It the the right time to discuss the
Page life cycle and Page events. A page life cycle basically consist of:
- Event Handling
The Start phase is not associated with any event. It is just to indicate that the request has been passed on
to the page. Similarly the Validate and Event handling is not associated with any predefined event. Its just
that the validation will occur once the Load is done and the user defined controls' events will be fired after validation
and before Render.
For rest of the phases i.e.
Unload there are predefined events associated with them. For Unload
there is only one event but for rest of them there are 3 events associated with each. One fired before the phase starts, second during
the phase and last one after the work is done. So following list shows the typical events sequence for the Page.
One more event that has significance in the Page life cycle is
SaveStateComplete. It will be called after
and this indicates that from this point onwards changes in
ViewState will not be preserved i.e.
ViewState has been saved for the
So if we now try to draw a matrix on sequence of events and what should be done in each event.
All the Dynamic Controls, Master pages, Profiles and themes should be set in this event.
This should be used to set the initial value of the Control properties.
This should be used to have custom |
ViewState data. This is the first place where
ViewState has been
loaded and can be changed.
This can be used to set the properties of the controls.
All the Database connections and Data Binding can be performed here. Before this event finishes up all
the validations will be done. Once the event is finished, the events for all the controls will execute
before calling the next event in this list.
This event can be used for activities on controls that require them to be fully loaded.s
This is the last page where the visual properties of the controls can be changed before getting
them displayed on the page.
This will be called when the page is ready and no changes in visual elements can be made. All data binding are done at this point.
View State has been saved and from this point onwards changes in |
ViewState will not
be preserved i.e.
ViewState has been saved for the page already.
The Page processing is done now. This is the last event that will be called.
The important thing to consider here is that all these events will call the respective events of
their child controls. The Page will also keep the events of all the child controls in sync with
its own events. That is why is is a good idea to add dynamic controls in
PreInit only. If we add
dynamic controls later like in
Load then the page will wait till all the added controls reach the
state and fully catch up with the page events.
Let us now go ahead and see all these sequence of events in a toy application. The sample application contains
all the events handled on an empty single page website. All the events have a sequence number and the event name
message getting printed on the debug console to illustrate how these events are getting fired. Here is a couple of
sample functions from the code:
void Application_BeginRequest(object sender, EventArgs e)
System.Diagnostics.Debug.WriteLine("MyLog: 1. Application_BeginRequest");
void Application_AuthenticateRequest(object sender, EventArgs e)
System.Diagnostics.Debug.WriteLine("MyLog: 2. Application_AuthenticateRequest");
And the output for this looks like:
The red highlighted area represent the phase when the respective handler gets called and in this case which would call
Point of interest
In this article, I tried to discuss the
ASP.NET application life cycle and page life cycle from a beginner's perspective.
Most experienced programmers might already be aware of this stuff. I still hope this has been informative.
- 12 September 2012: First version.