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The standard method to send data on a stream socket has always been to call send with a chunk of data to write, check the return value to see if all data was sent and then keep calling send again until the whole message has been accepted.

For example this is a simple example of a common scheme:

int send_all(int sock, unsigned char *buffer, int len) {
  int nsent;

  while(len > 0) {
    nsent = send(sock, buffer, len, 0);
    if(nsent == -1) // error
      return -1;

    buffer += nsent;
    len -= nsent;
  return 0; // ok, all data sent

Even the BSD manpage mentions that

...If no messages space is available at the socket to hold the message to be transmitted, then send() normally blocks...

Which indicates that we should assume that send may return without sending all data. Now I find this rather broken but even W. Richard Stevens assumes this in his standard reference book about network programming, not in the beginning chapters, but the more advanced examples uses his own writen (write all data) function instead of calling write.

Now I consider this still to be more or less broken, since if send is not able to transmit all data or accept the data in the underlying buffer and the socket is blocking, then send should block and return when the whole send request has been accepted.

I mean, in the code example above, what will happen if send returns with less data sent is that it will be called right again with a new request. What has changed since last call? At max a few hundred CPU cycles have passed so the buffer is still full. If send now accepts the data why could'nt it accept it before?

Otherwise we will end upp with an inefficient loop where we are trying to send data on a socket that cannot accept data and keep trying, or else?

So it seems like the workaround, if needed, results in heavily inefficient code and in those circumstances blocking sockets should be avoided at all an non blocking sockets together with select should be used instead.

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up vote 14 down vote accepted

The thing that is missing in above description is, in Unix, system calls might get interrupted with signals. That's exactly the reason blocking send(2) might return a short count.

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Wouldn't that result in EINTR? Or will EINTR only happen if the call is interrupted before any data is transmitted as described in and if data has been sent, EINTR is not issued, and instead the amount of data sent is returned? – Ernelli Apr 11 '10 at 21:28
EINTR is only returned if no data has been transferred yet (and the signal handler was not installed with the SA_RESTART flag). – mark4o Apr 12 '10 at 15:22
Is that really the only reason? Would that mean that, if I don't install any signal handlers, the loop around send would be unnecessary? That would simplify things quite a bit for me. Unfortunately, documentation on the matter seems to be pretty scarce... – lxgr Jan 17 '12 at 18:49
@lxgr: SO_SNDTIMEO and possibly also close()ing the fd on another thread may cause short writes. Also, 3rd party libs may do weird things with signals. – ninjalj Feb 24 '14 at 13:27
Ah! I was wondering why it would block and not fulfill your request. How often do signals happen? – Pepijn Apr 10 '14 at 15:06

Essentially, the behaviour just adds flexibility.

Consider what happens if the internal send buffers have room for another 300 bytes, and you ask send() to send 800 bytes.

What tends to happen is that it accepts the first 300 bytes and puts them into the socket buffer, then returns. If you really want to block until all 800 bytes have gone, then you just re-call send() for the last 500 bytes, and it will block (since the send buffer is now full). On the other hand, if you want to do something else now, and try sending the remaining 500 bytes later, you can do that too.

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If that flexibility is of any use, then a non blocking socket should be used. – Ernelli Apr 12 '10 at 9:40
@caf: in that case, send() is supposed to block until there is enough buffer space (or an exceptional condition such as being interrupted by a signal happens), according to POSIX. Of course, minimal network stack implementations' behaviour (uIP, lwIP, ...) may differ. – ninjalj Feb 24 '14 at 13:32
-1: A too small internal buffer can not be the case, as send/write are blocking. – Flow May 6 '14 at 12:01

It is a pretty essential requirement for an efficient transport mechanism that involves device drivers. The King of the heap is TCP, it ensures no matter what you throw at it, it will do its level best to get the data across the wire. It does that quite well, it has a 9 nines delivery guarantee. It normally requires an earth quake or somebody tripping over a power cord to not deliver on that promise.

Which means that you don't have to worry that, when you write data to a socket, that it won't be delivered. Which means that the kernel driver can take the liberty of saying "I've got space to store this, bring it on!" and give the user mode program a quick return to more important things, like keeping the UI updated.

Good Thing. If for some reason your delivery guarantee needs to be stronger than that, maybe 12 nines, then you shouldn't use TCP. It's been done, "reliable UDP" googles well. Although it tends to get re-invented over and over again. Good luck!

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The reason why I asked the question was that since a socket can be created in both blocking or non blocking mode. The blocking mode should behave in a consistent manner e.g. fulfill its contract that, for example send always accepts the whole message that has been passed, otherwise it will block. If the socket behaves the same in both blocking and non blocking mode, then there is no point in ever having blocking/non blocking sockets. Nikolai's answer explains why this can happen, but I'm still not confident since that situation should trigger an EINTR and not a short write. – Ernelli Apr 12 '10 at 9:39
It doesn't have any such thing as a '9 nines delivery guarantee'. It has a 'best-effort' delivery guarantee, and in practice that's pretty good, but nowhere near '9 nines'. – EJP Apr 23 '13 at 23:10
@Ernelli: the point of non-blocking sockets is to never block. Blocking sockets OTOH block until they do their work, or some exceptional condition arises. – ninjalj Feb 24 '14 at 13:51
@ninjalj it might be more accurate to say that blocking sockets block until they can do some work. – Jeremy Friesner Mar 10 '14 at 7:40
@JeremyFriesner: it depends in how you interpret: If space is not available at the sending socket to hold the message to be transmitted, and the socket file descriptor does not have O_NONBLOCK set, send() shall block until space is available. Do you interpret it as space is available (to hold the message) or as (some) space is available ? – ninjalj Mar 10 '14 at 10:22

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