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Can someone explain to me how high-availability ("HA") works for a web application ... because I assume HA means that there exist no single-point-of-failure.

However, even if a load balancer is used- isn't that the single point of failure?

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Not when you have two load balancers set up to failover. –  Dave Newton Oct 30 '11 at 4:05
    
@Dave Newton, but how do 2 load balancers answer the single request coming in? I'm trying to imagine, so let's I want to visit example.com, my browser resolves the IP address and then sends a single request to the IP of example.com, how is it possible that multiple servers (load balancers) can "answer" the web request coming in from my browser? At some point, it's there a single piece of hardware that is the point of failure? –  nickb Oct 30 '11 at 19:26
    
They don't; one does. If one starts to fail, the other takes over. There are a variety of mechanisms to handle this, all beyond the scope of an SO question, really. Desmond already pretty much said all that. –  Dave Newton Oct 30 '11 at 19:30
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3 Answers

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I have found this article on the subject: http://www.tenereillo.com/GSLBPageOfShame.htm

Basically if you do not require long lasting sticky sessions you can configure your DNS servers to return multiple A records (IP addresses) for your website.

Web browsers are smart enough to try all the addresses until they find one that works.

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HA architecture is a entire field and multiple books were written on it, so it is hard to answer in a short paragraph.

To sum up the ideal situation, you would be using multiple servers, interconnected to a layer of multiple load balancers. The nodes and LB will be located in a few different data centers, and connected to different network backbone. Ideally the data centers will be located all over the world.

In short, all component will have redundancy, including the load balancers.

For a starting point, see Wikipedia for High Availability Cluster

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But at some point, the single request from the users web browser will have to be split to multiple load balancers. At this point, wouldn't it be a single point of failure? Meaning, how is it possible for a single request to come into multiple load balancers? –  nickb Oct 30 '11 at 4:13
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Yes, the user's request will end up in ONE of the load balancer that is online, and it is possible the LB goes down at precisely the moment it is processing request and losing it. The important thing HA address is that if the user immediately retry he will end up in another LB that is online and be successful, so will the other users of the system. HA is concerned about the whole system being available (all failures transient), rather than any particular request being successful. –  Desmond Zhou Oct 30 '11 at 4:22
    
How do you do that? DNS round robin? –  nickb Oct 31 '11 at 4:36
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It works the following way that you setup two HA Proxy servers with heartbeat, so when one fails (stops responding to queries), it's being removed from the cluster. Requests from HA Proxy can be forwarded to web servers in round robin fashion, and if one web server fails, HA Proxy servers do not try to contact it until it's alive. Web servers are storing all dynamic information in database, which is replicated across two MySQL instances. As you can see, HA Proxy and Cluster MySQL (or simply MySQL replication) as well IP Clustering here is the key.

example high availabibility cluster

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But in your diagram, what I don't understand is, how does HAPRoxy work? When the Client DNS resolves, it can only resolve to a single machine. So are HAProxy somehow sharing the same IP address? –  nickb May 2 '13 at 20:35
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