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I've built a TCP server which handles RPC (request/reply) type requests from clients, but it also allows services to push events down at ad-hoc times.

If I need to scale in the future, the RPC stuff is quite easy, like web infrastructure, I'll just add more nodes and load-balance.

To scale the push messages, I will need all the servers to coordinate as the client(s) subscribed to the events could be on any server.

My options are:

  1. broadcast the events to all the servers using UDP multicast/broadcast (e.g. emcaster)
  2. fully interconnect the servers to each other using TCP
  3. central server where all the events are sent, and all the worker servers connect to that one
  4. [3] but with several layers to form a tree

My temptation is to go with [1] as it is simple and probably works well for up to 20-30 nodes. Is there a consensus on what the best strategies are for different ranges of N, where N is the number of nodes?

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5 Answers 5

up vote 1 down vote accepted

Its hard to advise which would be the best strategy without knowing more details. Perhaps what might help would be to list some things to consider for each item:

  1. UDP Broadcast

    • As you mention, this will be the easiest to implement.
    • Why is the limit 20-30 nodes? Will that limit work with your requirements? If so, go with it.
    • Will the UDP broadcast messages possibly be affected by NW elements such as firewals?
  2. Interconnected TCP NW

    • This option seems like it could be a maintenance nightmare to configure and maintain a consistent list of IP addresses.
    • How will a particular server know which is the next server to send the message to? This logic could become complex.
  3. Central Server

    • Personally, I would consider this to be the second possible solution after [1.]
    • This central server may need some quite complex processing to know where to send the messages.
  4. Central Server with a tree

    • Configuration and Maintenance nightmare
    • The complex logic mentioned in 4 will be even worse with this solution.

Personally, I would look at the pros and cons of each and also consider how each solution addresses the requirements. Hopefully that lesson will make the decision easier.

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That's a pretty good answer. The only problem with UDP broadcast is that (and that's why I made up the 20-30 number) presumably at some point the network will be saturated, since there is no logic anywhere that filters what message reaches which server. Which also means every server will be processing a large proportion of messages which they don't care about. Was wondering what people do once that stage is reached, although I will almost definitely not reach that point so will go with UDP. –  Harry Mexican Sep 19 '12 at 15:50

You should check out the zeromq guide. If you need that udp broadcast to compensate for lost packets, then zeromq would be a good way to go. It is a light weight message passing interface built for efficiency. Here is the intro guide in C (library language) and python:


The examples have also been translated into wrappers for C++, C#, CL, Erlang, F#, Felix, Haskell, Java, Objective-C, Ruby, Ada, Basic, Clojure, Go, Haxe, Node.js, ooc, Perl, Scala, Lua, Haxe and PHP.


Sorry, it appears that the links do not change all the code examples from C to python, but you can get alternate language translations...

Specifically for your push topology, they have a page on how to implement pub/sub in zeromq:

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ZMQ implements all this patterns for you, while being very scalable and fast: You can implement your RPC using it, and it will loadbalance as you scale it to more servers (REQ/REP pattern, see the links), You can implement your notification using it, and it allows you to scale to an infinite number of server (using devices and the PUB/SUB pattern), using tcp or udp broadcast. –  Ohad Sep 28 '12 at 7:13
@Ohad thanks for the clarification. I have only just started looking at zmq myself. REQ/REP pattern is probably better for RPC and the built in load balancing is awesome. Also they have error correcting UDP transports (NAK based pragmatic multicast) so that a single message to all clients can be transported once, but the clients check for missed packets: <br> link <br> (Also, thanks Styxxy for editing the answer to fix my urls) –  dhj Sep 29 '12 at 4:17
Thanks for the heads up on zeromq. Am probably going to use it so have up voted but accepted more generic answer about topologies. –  Harry Mexican Oct 1 '12 at 12:23
Thanks for the upvote... agreed that @Brady 's answer is much better regarding topologies. –  dhj Oct 11 '12 at 7:58

Try using some already-invented-wheel open source software in the middle. I can just think of one at the time but I am 900% sure that there will be tents of copycats in the market.

Redis is a good example, scalable, fast and has already many toys, plugins and clients. With more or less 3 lines of code you can implement publisher/subscriber stuff.

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Last I checked the cluster stuff is not ready/mature otherwise this would be perfect. Without it the central server will not be scalable horizontally. –  Harry Mexican Oct 1 '12 at 12:27

Are your clients uniquely identifiable? If so, you can partition them across the various servers and integrate the logic for which server to connect to (UNIQUE_ID mod N?) into each client/server

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This is quite a smart/efficient idea. Changes in N would be quite a painful process tho? –  Harry Mexican Oct 1 '12 at 12:29

I would select #3 - Central Server. It would scale much better than the other options and could be designed to function like a router table to ensure traffic is only generated to a server when necessary. Additional server nodes could be added on-the-fly.

Out of curiosity, what language have you developed your server in?

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Language is c#. Problem with central server is that it's not inherently scalable. Something like a Redis cluster would be perfect as the central state/server but I don't think it's mature yet. Maybe mongodb or Cassandra insteas –  Harry Mexican Oct 1 '12 at 12:25
You should write the central server in C. Check out the EPOLL system call, which provides almost limitless performance due to its edge-triggered behaviour. Adopting a pre-built framework might seem like a good idea however if you want max performance, this is the only way to go... –  blearn Oct 1 '12 at 15:31

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