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Okay, for my application I'm trying to decide on an architecture that's as DDoS resistant as possible. Obviously it will never be perfect but I'd like protection against simple attacks.

There's a few that I've thought of so far:

1) Single thread per connection.

This method seems to have unbelievable scalability problems, and with a tonne of connections, having too many threads seems like it would be a scheduling nightmare for the OS.

2) 2 threads. first thread will accept connections and append them to a list, the second thread loops through the list (with the proper synchro here) and checks if there's anything in the InputStream. Upon finding something, read a line. Any of the actual work will be done, including the reply, in a new event thread. The new thread is just passed the line that is read.

This method seems to have even bigger problems. It appears as though a simple cat /dev/urandom | telnet server port would lock it down.

3) This is similar to #2, but only read a single byte from each connection at each iteration, and processing it as a string when I get to a newline byte.

This seems like my best option so far, but it means that if the attack initiates a lot of connections and sends input on all of them, it could slow the loop down considerably.

Are there any other potential architectures that might be better suited for the job?

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The problem with your solutions is that they seem to be trying to rate limit, which is the opposite of what you want to do. When faced with a DDoS attack, you want to INCREASE your capacity so you can absorb the DDoS traffic in addition to your normal user traffic. Rate limiting will drop both user and attacker connections, but the attacker doesn't care so it only hurts the user. – akirilov Feb 24 '14 at 19:21
@akirilov what do you mean they rate limit? The first one is the naive approach that everyone learns at the beginning. The others are just architectures that I've come up with, that I've noticed flaws in. DDoS has been a big thing lately, so I'm afflicted with seeing the potential problems before I write it. I don't know what to do. Should I just accept that DDoS is a force to be reckoned with? The only one that I've designed with the intention of preventing DDoS is the third one, but the other 2 are obviously worse – Cruncher Feb 24 '14 at 19:24
Basically, these approaches only have two worker threads at most. This is not nearly enough for a large amount of legitimate traffic, let alone for a DDoS attack. Basically, DDoS relies on flooding you with lots of garbage connections which starves the legitimate users (they're stuck waiting for the server to handle the garbage connections and often end up timing out). – akirilov Feb 24 '14 at 20:17
@akirilov I should probably have mentioned that the worker threads are just for finding input. Any actions to be taken would spawn event threads. – Cruncher Feb 24 '14 at 20:18
ah ok. In that case, the idea in #2 is on the right track and would help mitigate a very simple DDoS attack that sends empty requests, but I think that's an unlikely scenario. Basically, I would go with the one that could process the most connections the fastest (probably #2, although I would also advocate for having multiple threads that can accept connections). DDoS is essentially a very inelegant yet difficult attack to mitigate. It's a battle of brute-forcing. Your best bet is to have a lot of powerful servers. – akirilov Feb 24 '14 at 20:24

Large companies have entire teams that spend all day every day working to combat various DOS attacks. It' too much to discuss here. After trivial mitigation techniques (like SYN-cookies, etc.), your best bet is simply to have sufficient capacity to "eat it".

I would recommend writing your code for efficiency and then running it on a hosted service like Google's or Amazon's and let them deal with fending of DOS attacks and scaling your service to handle such spikes.

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I think you're taking the wrong tack when trying to consider DDOS protection. Having a thread per connection can have two consequences:

  1. Garbage connections can exhaust your thread pool quickly and starve out legitimate users
  2. You'll have too many threads which will result in CPU thrashing and reduce the throughput of your system

You're better off designing your system for efficiency and scalability. Choose a good web framework for scalability (e.g. something Akka-based like Play), build the system so that it's stateless - so you can instantly scale out horizonally by adding more instances. Then deploy to cloud infrastructure such as AWS.

For example, put your application behind an AWS load balancer. They can deal with the direct consequences of a DOS attack. Then your system will be able to handle peak workloads efficiently, as you can simply add more instances to the pool behind the load balancer.

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