Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Couldn't find anything about this topic.

I have a Windows TCP C++ server application which I want to update from time to time.


As you obviously understand this introduces a problem - the server should be 24/7 from the users' perspective.
When updating, it is also desired to keep the current TCP connections with the users.


I've been thinking about a module-like system so for example the socket handling module would reside at "sockets.dll", the server's logic would reside in "logic.dll".
Going for this approach seems like opening Pandora's box;
- How will I make the actual "swapping" of the modules? Imagine that X worker threads keep sending data from one module to another - when swapping I'll need a (light & fast) way to halt/pause them; signals maybe?
- Protocol version, or even functions signature might change when updating. How to handle that?
- Other problems such as unnoticed logic bugs.
- Who knows kind of other issues will arise.


Besides the above I have concerns like how do I update say 10 servers? I mean, they are all connected to each other, communicating.
If the update introduces a protocol modification it might cause huge problems, and in such case I'll need to update the whole cluster (of servers) as a whole; shut-down the whole operation? That doesn't sound right, at all! How do I do that? Which concept(s) am I missing here and how do I learn it/them?


Is there anything I can do about it?
What would you do? Have you done such a thing?
Do you know of any mechanism/article/project/source-example/etc' that solves the problem?

Any valuable advice is highly appriciated!!

share|improve this question

2 Answers 2

up vote 0 down vote accepted

In terms of protocol changes, I recommend you version your protocol. At the beginning of a connection between participating servers, have either the initiator or the receiver (doesn't really matter which, I think) announce the newest version of the protocol it understands, and then the other side responds in kind. They fall back to the newest version they both understand.

Yes, this means maintaining code for both protocol versions for a while, but you can retire the old code once you know all of your servers are updated and working with the new protocol.

Assuming you have control over all possible client software, as well, you can do the same with your clients. Of course, this may entail maintaining old protocol code longer, if you don't have control over when users upgrade.

share|improve this answer
    
Accepted for being the most reasonable answer so far! –  Poni Sep 16 '10 at 5:15

Here's an idea:

  • Old version downloads update and starts it.
  • Old version stops accepting new connections by forwarding them to the updated version (which listens on a different port).
  • Old version shuts down when it finishes with its connections.
  • New version detects when old version quits and switches ports.

Basically, the idea is to have both versions running at the same time.

share|improve this answer
    
"Old version stops accepting new connections by forwarding them to the updated version (which listens on a different port)." ... I don't think you need to do this. At the point the new version is up and running, the old version can simply close its listener socket (assuming a BSD-style socket stack) without closing its active connections. Then the new version can start listening for connections on the same port. No need for forwarding or multiple ports. –  Mike DeSimone Sep 12 '10 at 1:04
    
@Mike: BUT the OP specified an operating system: Windows. –  Nathan Osman Sep 12 '10 at 1:05
    
Windows IS a BSD-style stack. –  Andrew McGregor Sep 12 '10 at 1:09
    
@George: 1) I was trying to make my comment more general. 2) What @Andrew said, but not having developed on Windows, I don't know how much BSD-ness Microsoft preserved. Anyway, the key functions here are listen() and accept(); listen() is used with the listening socket, which is the one you close when you want to stop listening on a port, and accept() has to give you a new socket with the actual connection, and not just reuse the listener socket it was given. –  Mike DeSimone Sep 12 '10 at 1:34
    
Thank you all for sharing thoughts here! I want to confirm: It IS possible to close the accepting port yet keep communicating with already-connected ones (which were accepted through that port). Anyway, this solves only minor part of the question, I think. –  Poni Sep 12 '10 at 1:41

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.