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I have a two node system where I'm trying to replicate in-memory state between the nodes... To simplify, just think Master-Slave (Active-Passive). Node A has a relatively constant flow of changes coming in, and then tries to push the state to Node B. Currently, this occurs on a periodic schedule by batching the state and pushing it with an instance of a TcpClient.

The current TcpClient process seems like it's somewhat inefficient. Is this a way that I can establish a link between two systems and stream state from one to the next for as long as the channel is established.

For performance reasons I can't use anything like WCF or Remoting... I'm relatively inexperienced with lower level networking constructs, but I'm perfectly willing to try anything new. Ideally, the solution would be something I can accomplish with native C# 4 and not need any new products.

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From your description it is unclear what the problem is. If TCP is not efficient, how did you measure it and what your requirements are? – Zepplock Dec 20 '11 at 21:00
If you've coded it correctly, TCP should be able to push data as fast as your line can handle. One issue you may have with TCP is aggressive back-off on packet loss, but that shouldn't be an issue with an intranets. – Bengie Dec 20 '11 at 21:05
@Zepplock Sorry... it's my inexperience showing. I did not mean to say the "TCP" was inefficient. I meant to say that the TcpClient process seemed inefficient. For example, on the sender side, I keep new'ing up a new instance of the client for each transmission. I assumed there was a way to establish on link and then keep using it for a longer period of time. Is that more clear? – JoeGeeky Dec 20 '11 at 21:05
@JoeGeeky: I would check your link saturation during syncs. I would think the amount of data may be too great for your link. Depending on your application, you could have a lot of state and it's just too much for whatever NIC you're using. List of things I'm curious about: #1) NIC utilization during state transfer #2) total data transfered #3) Link speed. We need to find where the bottleneck is. TCP shouldn't be a problem. It's about the best you'll get, and highly hardware accelerated on server/workstation hardware. – Bengie Dec 20 '11 at 21:14
@JoeGeeky: I incorrectly used the word "asynchronously". What I meant is to buffer/queue state changes and push them immediately, which seems to be what you're saying in your last comment. Typically, "Batching" involves waiting for a certain amount of data or a time to elapse. While you still want your changes to be atomic and need to batch/group certain states, you don't want to batch the groups of states. I would use a Producer Consumer pattern with a queue that pushes atomic groups of state immediately. Leave the connection open if you can. Last Q. What's the time lapse between pushes? – Bengie Dec 20 '11 at 21:22
up vote 2 down vote accepted

You're right to use TCP. You should make the connection and hold it open until you're all done. You can't really beat it for speed.

If the changes are not too large, it is best to send only delta changes, not whole copies of the data. The way I've done this in the past is to use Differental Execution. That may be more than you want to attempt, but the basic idea is you write a function to walk over the data. Think of it as a simultaneous serializer/deserializer. Under that control structure it automatically detects all changes since the previous time it walked. You can grab those changes and send them to a receiver on the other end that works the same way, but folds in the changes.

That may be a bit much for what you're doing, but regardless, TCP is the way to go. BTW, try to avoid new-ing. That's costly.

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Excellent! I have to read more on Differental Execution, but this sounds like a go'er. I'm trying to do some testing now. Thanks. – JoeGeeky Dec 20 '11 at 21:52

TCP is a lowish level connection based streaming protocol. It seems the right choice.

about the only problem you get with TCP is latency issues.

You could use UDP, but from the sounds of it, you'd end up emulating TCP over UDP.

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