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Session management for Web-Applications on AWS Cloud

Author: Nitheesh Poojary, Cloud Architect – Six Nines IT
Editors: Vinny Carpenter, Justin Alan Ryan

Introduction

When a user uses web pages in a given browser, a user session is created by the server and the session ID is managed internally during the web session of the user. For example, when a user viewed three pages and logs out, this is termed as one web session. The HTTP protocol is stateless, so the server and the browser should have a way of storing the identity of each user session. Each HTTP request-response between the client and application happens on a separate TCP connection. Each request to the web server is executed independently without any knowledge of any previous requests. Hence it is very important to store & manage the web session of a user.

Below is the typical example for session scenarios in real world web application:

  1. The user’s browser send the first request to the server.
  2. The server checks whether the browser has passed along the browser cookie that contained session information.
  3. If the server does not ‘know’ the client
  4. The server creates a new unique identifier and puts it in a Map (roughly), as a key, whose value is the newly created Session. It also sends a cookie response containing the unique identifier.
  5. The browser stores the session cookie containing the unique identifier and uses it for each subsequent request to identify itself uniquely with web server
  6. If the server already knows the client – the server obtains the session data corresponding to the passed unique identifier found in the session cookie and serves the requested page. The data is typically stored in server memory and looked upon each request via session key.
Example: In most shopping cart applications, when a user adds an item to their cart and continues browsing the site, a session is created and stored on the server side.

On-Premise Web Server Architecture

  1. Load Balancing: Load Balancing automatically distributes the incoming traffic across multiple instances attached to the load balancer.
  2. Application/WebTier: It controls application functionality by performing detailed processing such as calculation or making decisions. This layer typically communicates with all other parts of the architecture such as a database, caching, queue, web service calls, etc. The process data will be provided back to presentation layer i.e. web server which serves the web pages.
  3. Database-Tier: This is the persistent layer which will have RDBMS servers where information is stored and retrieved. The information is then passed back to the logic tier for processing and then eventually back to the user. In some older architectures, sessions were handled at Database Tier.

Alternatives solution on AWS for session management

Sticky Session

The solution described above works fine when we are running application on a single server. Current business scenario demands high scalability & availability of the hosted solution, but this approach has limitations of horizontal scaling for large scale system requirements. AWS cloud platform has all the required infrastructure, network components designed for horizontal scaling across multiple zones to ensure high availability on demand to make most efficient use of resources and minimize the cost. Application deployment / migration on AWS requires pro-active thinking especially in the case of application session management.

Considering our scenario mentioned above, the developer enables server sessions. When our application needs scale up (Horizontal Scaling) from one to many servers, we will deploy the application server behind a load balancer. By default Elastic load balancer routes each user’s request to the application instance with less load using round robin algorithm (Is this true for the classic ELB without using weighted ELB?). We have to ensure that load balancer sends all requests from a single user to the same server where is session is created. In this scenario, ELB sticky session (also known as session affinity) comes in handy as it does NOT require any code changes within the application. When we enable sticky session in ELB, the ELB keeps track of all user requests and which server it has routed their past requests and start sending requests to the same server.

ELB supports two ways of managing the stickiness’ duration: either by specifying the duration explicitly or by indicating that the stickiness expiration should follow the expiration of the application server’s session cookie.

Web Application Architecture on AWS

Challenges with Sticky Session

  1. Scaling instance Down: This problem comes in when a load balancer is forced to redirect users to a different server because one of the servers fails health checks. ELB by design does not route requests to unhealthy servers leading to loss of all user’s session data associated with that unhealthy server. Users will be logged out of the application abruptly and asked to login again leading to user dissatisfaction. When scaling up (adding more servers), ELB maintains stickiness of existing sessions. Only new connections will be forwarded to the newly-added servers.
  2. ELB Round-Robin Algorithm: ELB used round robin algorithm to distribute the load to the servers. ELB sends load fairly evenly to all servers. If the server becomes unresponsive for some reasons, ELB detects this and begins to redirect the traffic to the different server. The resulting application server will be up and user experience a glitch rather than an outage.
  3. Request from same IP: ELB associates sessions with a user is through the IP address of the requests. If Multiple users are passing through NAT, all user requests redirected the same server.

Best Practices

As sticky session implementation of session management has challenges when the concurrency usage is higher as well as thicker, we can also use some of the technologies highlighted below to create a more scalable as well as manageable architecture.

  1. Session storing using RDBMS with Read Replica: Common solution to overcome this problem is to setup a dedicated session-state server with a database. The Web Session is created and written to the RDS Master database, and subsequent Session reads are done from the Read Replica slaves. JBoss and Tomcat have built-in mechanisms to handle session from a dedicated server such as MySQL. Web Sessions from the Application layer are synchronized in the Centralized Master database.  This approach is not recommended for applications which have heavy traffic and required high scalability. This solution requires a high-performance SSD storage with dedicated IOPS.  This approach has a few drawbacks like DB license, growth management, failover / high availability mechanism, etc.
  2. NoSQL-Dynamo DB: The challenges faced while using RDBMS for Session storing was its administration workload as well as scalability. AWS Dynamo DB is a NoSQL database that can handle massive concurrent read and writes. Using AWS Dynamo DB console one can configure reads/writes per second and accordingly Dynamo DB will provision the required infrastructure at the backend. So scalability and administration needs are taken care by the service itself. Internally all data items are stored on Solid State Drives (SSDs) and are automatically replicated across three Availability Zones in a Region to provide built-in high availability and data durability. AWS Dynamo DB also provides SDK’s and session state extensions for a variety of languages such as Java, Net, PHP, Ruby, etc.

References

Following links can be used handling session management for Java and PHP application:

First Publish by AWSAdvent.com on 12/17/16 here:

 


About Author: Ben Rodrigue

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