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Quoting from this socket tutorial:

Sockets come in two primary flavors. An active socket is con­nect­ed to a remote active socket via an open data con­nec­tion... A passive socket is not con­nect­ed, but rather awaits an in­com­ing con­nec­tion, which will spawn a new active socket once a con­nec­tion is es­tab­lished ...

Each port can have a single passive socket binded to it, await­ing in­com­ing con­nec­tions, and mul­ti­ple active sockets, each cor­re­spond­ing to an open con­nec­tion on the port. It's as if the factory worker is waiting for new mes­sages to arrive (he rep­re­sents the passive socket), and when one message arrives from a new sender, he ini­ti­ates a cor­re­spon­dence (a con­nec­tion) with them by del­e­gat­ing someone else (an active socket) to ac­tu­al­ly read the packet and respond back to the sender if nec­es­sary. This permits the factory worker to be free to receive new packets. ...

Then the tutorial explains that, after a connection is established, the active socket continues receiving data until there are no remaining bytes, and then closes the connection.

What I didn't understand is this: Suppose there's an incoming connection to the port, and the sender wants to send some little data every 20 minutes. If the active socket closes the connection when there are no remaining bytes, does the sender have to reconnect to the port every time it wants to send data? How do we persist a once established connection for a longer time? Can you tell me what I'm missing here?

My second question is, who determines the limit of the concurrently working active sockets?

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You are paraphrasing that article and taking bits and pieces from different sections of the article. The contexts are different. In the last section the author is explaining his program. Sockets do not act like that by default, in fact if you forget to close your socket bad things can and will happen. The socket doesn't automagically close when it's received the last byte. –  SRM Jan 14 '11 at 22:58
    
OK, I thought that's the convention and just asked what I'm missing here. I'm new to the concepts and that's why I want to question everything I find hard to understand. –  davsan Jan 14 '11 at 23:06
    
No problem, I just wanted to make sure you understand that you must explicitly close the socket. It might save you some headaches down the line when you are scratching your head trying to figure out why the socket didn't close :). –  SRM Jan 14 '11 at 23:10
    
:] OK, thank you. –  davsan Jan 14 '11 at 23:21
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2 Answers 2

up vote 2 down vote accepted

The sender should send a KEEPALIVE packet at regular intervals to keep the connection alive. The format of the KEEPALIVE depends on the protocol. It could be as small as a single NULL in the TCP data segment.

As to the second question... it depends on the I/O. If it is blocking I/O then you only want a certain number of threads running on your computer, so you won't be able to have many clients. If it's non-blocking, you can have a lot more clients. Programming languages should have support for both blocking and non-blocking I/O. (I know for a fact that Java does.)

It also depends on things like bandwidth, the data transfer for each client, memory, clock speed, etc. But non-blocking vs. blocking can make a huge difference in the number of clients you can accept. You probably can't have more than 5-10 clients blocking without your server crashing... but you can have thousands if you're not blocking.

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So is continuously sending these keepalive packets for 20 minutes a cheaper operation than re-establishing the connection every time? What would be the advantages of keeping the connection alive, besides escaping the overhead of re-connecting? –  davsan Jan 14 '11 at 22:58
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Actually if you will have a lot of clients connecting and each request will be quick (20 seconds like you said) then it's best to use a request/response type pattern. You only have 64k ports available which means only 64k sockets can be accepted on an IP before you get port exhaustion unless those sockets are closed. It really depends on your application though. If you are writing a MMO for example, you need persistent connections. If you are writing a web server though you won't need (and will try to avoid) persistent connections (unless you are utilizing HTML5 but that's a dif. story). –  SRM Jan 14 '11 at 23:04
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From the client's perspective, a simple keepalive to a single server isn't a lot of work. You're probably already sending half a dozen keepalives regularly when you're connected to the internet. From the server's perspective, it might be advantageous to keep the number of sockets in its socket list at a minimum, to improve I/O performance. If it's as long as a 20 minute wait between data transfers, I would create a new connection every time. It's negligible for the client, but not for the server. –  ktm5124 Jan 14 '11 at 23:07
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You can only accept up to 64k connections concurrently so as long as some of the clients drop off you will not reach port exhaustion. Also, only passive sockets can accept and you can only have one passive socket associated with an ip/port pair so you can only listen with one socket but many sockets can connect. –  SRM Jan 14 '11 at 23:21
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Ah, yes, what you said is absolutely correct. That's where a queuing mechanism and a threadpool comes in handy. You can also use a variant of the command pattern in this way where your command handlers are the response handlers and your command pattern is implemented using a threadpool. –  SRM Jan 15 '11 at 5:43
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First question: Yes, once a socket is closed you must do an Open to re-initiate communication.

Second Question: You do. If you want you can create 64k connections to your server and suffer port exhaustion (I don't recommend that). Like ktm5124 stated, it all depends on your application. There are several different ways to make your server scalable including using async I/O and or a thread pool to handle client requests.

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Please see Will 's answer stackoverflow.com/a/2332756/1418457 maybe you misunderstand something about TCP –  onmyway133 May 2 '13 at 11:19
    
Okay, if tcp/ip port exhaustion is a client side thing only (as intimated by the 64k limit per client per server port), then why is there a real world problem of port exhaustion on servers? You can still use up all values of the tuple - maybe my 64k number is wrong, but there is a hard limit to the number of combinations that tuple can hold. When you run out of combinations, unless you are reusing address, you will run out of addresses (unique tuple really) to assign the incomming connection and the connection is refused. –  SRM May 2 '13 at 18:59
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