Does anyone have knowledge if the HttpRuntime.Cache works in load cluster enviornment? and how to implement them?
What do you mean by Load Cluster Environment? Do you refer to that the content of the cache should be the same on all members of the cluster?
If that is the case this can be done in two ways
Use Sql server to serialize the cache and let all the servers point to the same sql-instance
Use ASPNet state server, which is a windows service asp.net will talk to over tcp. Again, let all your webserver instances point to the same state server.
Another approach is not to use the HttpRuntime.Cache but implement your own cacheprovider and use technologies like memcached.
Related
I need to implement distributed cache in my asp.net mvc 4 application. My application is hosted in AWS in web farm environment. I can see the following options are available.
MemCache
RedisCache
NCache
I am not sure which one i should use. I need to configure session state as well in my cache.
Please Advice
Use NCache. Everything is built in and is open source.
Use
Session state
View State
Comparing Redis & Memcached with NCache you could see the following articles
Redis Comparison
Memcached Comparison
I'm going to use Redis as a cache service.
What is the best practices to access the caching service?
Through a service/API or in-memory component?
I'm not sure I want to have access to the DB from all the services.
Thanks
All your questions depends on topology and/or architecture of your system. I don't think that you would provide a service on separated computer if your application resided completely on one computer.
But suppose you have distributed app.
In this case it makes sense to do caching using separated service on separated node. It's same as within OOP, you can simple encapsulate data also in cache. Other services depends on your cache, not directly on Redis - you can decide to change redis for something else. Another advantage of caching service is that you can cache data in memory depending on throughput and fetches data from redis time to time. Note that you can simple buy a server having a lot of RAM, e.g. 192gb, because caching service needs a memory more than anything else.
For the first time I am developing an app that requires quite a bit of scaling, I have never had an application need to run on multiple instances before.
How is this normally achieved? Do I cluster SQL servers then mirror the programming across all servers and use load balancing?
Or do I separate out the functionality to run some on one server some on another?
Also how do I push out code to all my EC2 windows instances?
This will depend on the requirements you have. But as a general guideline (I am assuming a website) I would separate db, webserver, caching server etc to different instance(s) and use s3(+cloudfont) for static assets. I would also make sure that some proper rate limiting is in place so that only legitimate load is on the infrastructure.
For RDBMS server I might setup a master-slave db setup (RDS makes this easier), use db sharding etc. DB cluster solutions also exists which will be more complex to setup but simplifies database access for the application programmer. I would also check all the db queries and the tune db/sql queries accordingly. In some cases pure NoSQL type databases might be better than RDBMS or a mix of both where the application switches between them depending on the data required.
For webserver I will setup a loadbalancer and then use autoscaling on the webserver instance(s) behind the loadbalancer. Something similar will apply for app server if any. I will also tune the web servers settings.
Caching server will also be separated into its on cluster of instance(s). ElastiCache seems like a nice service. Redis has comparable performance to memcache but has more features(like lists, sets etc) which might come in handy when scaling.
Disclaimer - I'm not going to mention any Windows specifics because I have always worked on Unix machines. These guidelines are fairly generic.
This is a subjective question and everyone would tailor one's own system in a unique style. Here are a few guidelines I follow.
If it's a web application, separate the presentation (front-end), middleware (APIs) and database layers. A sliced architecture scales the best as compared to a monolithic application.
Database - Amazon provides excellent and highly available services (unless you are on us-east availability zone) for SQL and NoSQL data stores. You might want to check out RDS for Relational databases and DynamoDb for NoSQL. Both scale well and you need not worry about managing and load sharding/clustering your data stores once you launch them.
Middleware APIs - This is a crucial part. It is important to have a set of APIs (preferably REST, but you could pretty much use anything here) which expose your back-end functionality as a service. A service oriented architecture can be scaled very easily to cater multiple front-facing clients such as web, mobile, desktop, third-party widgets, etc. Middleware APIs should typically NOT be where your business logic is processed, most of it (or all of it) should be translated to database lookups/queries for higher performance. These services could be load balanced for high availability. Amazon's Elastic Load Balancers (ELB) are good for starters. If you want to get into some more customization like blocking traffic for certain set of IP addresses, performing Blue/Green deployments, then maybe you should consider HAProxy load balancers deployed to separate instances.
Front-end - This is where your presentation layer should reside. It should avoid any direct database queries except for the ones which are limited to the scope of the front-end e.g.: a simple Redis call to get the latest cache keys for front-end fragments. Here is where you could pretty much perform a lot of caching, right from the service calls to the front-end fragments. You could use AWS CloudFront for static assets delivery and AWS ElastiCache for your cache store. ElastiCache is nothing but a managed memcached cluster. You should even consider load balancing the front-end nodes behind an ELB.
All this can be bundled and deployed with AutoScaling using AWS Elastic Beanstalk. It currently supports ASP .NET, PHP, Python, Java and Ruby containers. AWS Elastic Beanstalk still has it's own limitations but is a very cool way to manage your infrastructure with the least hassle for monitoring, scaling and load balancing.
Tip: Identifying the read and write intensive areas of your application helps a lot. You could then go ahead and slice your infrastructure accordingly and perform required optimizations with a read or write focus at a time.
To sum it all, Amazon AWS has pretty much everything you could possibly use to craft your server topology. It's upon you to choose components.
Hope this helps!
The way I would do it would be, to have 1 server as the DB server with mysql running on it. All my data on memcached, which can span across multiple servers and my clients with a simple "if not on memcached, read from db, put it on memcached and return".
Memcached is very easy to scale, as compared to a DB. A db scaling takes a lot of administrative effort. Its a pain to get it right and working. So I choose memcached. Infact I have extra memcached servers up, just to manage downtime (if any of my memcached) servers.
My data is mostly read, and few writes. And when writes happen, I push the data to memcached too. All in all this works better for me, code, administrative, fallback, failover, loadbalancing way. All win. You just need to code a "little" bit better.
Clustering mysql is more tempting, as it seems more easy to code, deploy, maintain and keep up and performing. Remember mysql is harddisk based, and memcached is memory based, so by nature its much more faster (10 times atleast). And since it takes over all the read load from the db, your db config can be REALLY simple.
I really hope someone points to a contrary argument here, I would love to hear it.
We are building a system that would benefit greatly from a Distributed Caching mechanism, like Memcached. But i cant get my head around the configuration of Memcached daemons and clients finding each other on an Amazon Data Center. Do we manually setup the IP addresses of each memcache instance (they wont be dedicated, they will run on Web Servers or Worker Boxes) or is there a automagic way of getting them to talk to each other? I was looking at Microsoft Windows Server App Fabric Caching, but it seems to either need a file share or a domain to work correctly, and i have neither at the moment... given internal IP addresses are Transient on Amazon, i am wondering how you get around this...
I haven't setup a cluster of memcached servers before, but Membase is a solution that could take away all of the pain you are experiencing with memcached. Membase is basically memcached with a persistence layer underneath and comes with great cluster management software. Clustering servers together is as easy since all you need to do is tell the cluster what the ip address of the new node is. If you already have an application written for Memcached it will also work with Membase since Membase uses the Memcached protocol. It might be worth taking a look at.
I believe you could create an elastic ip in EC2 for each of the boxes that hold your memcached servers. These elastic ips can be dynamically mapped to any EC2 instance. Then your memcached clients just use the elastic ips as if they were static ip addresses.
http://alestic.com/2009/06/ec2-elastic-ip-internal
As you seemed to have discovered, Route53 is commonly used for these discovery purposes. For your specific use case, however, I would just use Amazon ElasticCache. Amazon has both memcached and redis compliant versions of ElasticCache and they manage the infrastructure for you including providing you with a DNS entry point. Also for managing things like asp.net session state, you might consider this article on the DynamoDB session state provider.
General rule of thumb: if you are developing a new app then try and leverage what the cloud provides vs. build it, it'll make your life way simpler.
Couldn't find any references on how to deploy a CodeIgniter application distributedly: One (or many, through a load balancer) machine to views + controllers; samething for the Model layer.
Does codeigniter offer a easy setup on this, or will I have to set this up on my own?
Any thoughts appreciated :)
Your HTTP load balancer should handle which server running your codeigniter application should serve the incoming request. All your views, models and controllers will be replicated across all servers, but will communicate with one single data store (eg: mysql db). A unique session between the client and your server will maintain synchronicity between which server instance the client is being served from.
I don't think you really need to worry about creating a soap layer, unless each of your application servers are maintaining their own Databases locally, and then synchronizing to a master DB or among themselves.