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.

I am using C++ tcp/ip sockets. According to my requirements my client has to connect to a server and read the messages sent by it(that's something really new, isn't it) but... in my application i have to wait for some time(typically 1 - 2 hrs) before i actually start reading messages(through recv() or read()) and the server still keeps on sending the messages

I want to know whether there is a limit on the capacity of the buffer which keeps those messages in case they are not read and whose physical memory is use to buffer those messages? Sender's or reciever's?

share|improve this question
This seems like a silly requirement. The TCP stream may well block at the server when the buffer space gets full at the client. The server buffer space will then get filled up with unsent messages, impacting other clients. Can you give any more details? Can you not buffer the messages in client user-space and process them after the wait time? –  Martin James Oct 17 '12 at 10:23

1 Answer 1

up vote 4 down vote accepted

TCP data is buffered at both sender and receiver. The size of the receiver's socket receive buffer determines how much data can be in flight without acknowledgement, and the size of the sender's send buffer determines how much data can be sent before the sender blocks or gets EAGAIN/EWOULDBLOCK, depending on blocking/non-blocking mode. You can set these socket buffers as large as you like up to 2^32-1 bytes, but if you set the client receive buffer higher than 2^16-1 you must do so before connecting the socket, so that TCP window scaling can be negotiated in the connect handshake, so that the upper 16 bits can come into play. [The server receive buffer isn't relevant here, but if you set it >= 64k you need to set it on the listening socket, from where it will be inherited by accepted sockets, again so the handshake can negotiate window scaling.]

However I agree entirely with Martin James that this is a silly requirement. It wastes a thread, a thread stack, a socket, a large socket send buffer, an FD, and all the other associated resources at the server for two hours, and possibly affects other threads and therefore other clients. It also falsely gives the server the impression that two hours' worth of data has been received, when it has really only been transmitted to the receive buffer, which may lead to unknown complications in recovery situations: for example, the server may be unable to reconstruct the data sent so far ahead. You would better off not connecting until you are ready to start receiving the data, or else reading and spooling the data to yourself at the client for processing later.

share|improve this answer

Your Answer


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.