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I have a server that receives a continuous stream of data. As opposed to reading multiple times from a socket, I would like to read the entire data in socket receive buffer with one system call to read().

Of course I can pass a large buffer and read() will try to fill it with all available data. But this would waste a lot of memory as most of the times the malloc'ed buffer would be bigger than actual data available on socket. Is there a way to query the available data on a socket?

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There's really not a good way to do this -- due to message fragmentation on the sender's side, you may not receive one complete application-level message at once. The proper way to do this is to select() and then read() a chunk of some size from the socket, and then see if you have a complete message. If so, remove that message from the buffer and process it. Then go back to select(). –  cdhowie Dec 27 '12 at 0:07
i purposefully did not introduce notion of a message. My question is related to simply reading whatever data was available at the time of the read like system call. –  Jimm Dec 27 '12 at 0:39
Then the answer is "keep calling read() until select() with a timeout of zero (not NULL) returns an empty read-ready list. –  cdhowie Dec 27 '12 at 0:42
It's unclear to me why that's a problem. –  cdhowie Dec 27 '12 at 2:11
Why is "wasting" memory a concern? You said this was a server, and servers these days have lots of memory. For server code, it's usually more efficient to just allocate a "large enough" buffer once on startup than to keep reallocing it for each new blob of data. –  selbie Dec 27 '12 at 10:30
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6 Answers

up vote 5 down vote accepted


#include <sys/ioctl.h>


int count;
ioctl(fd, FIONREAD, &count);
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fizzer, I tried this and ioctl seems to return the number of bytes on the socket, but not the number of messages. Is there a way to get the number of messages or am I reading this value incorrectly? Thanks! –  Poul Oct 28 '13 at 15:50
There's not really such a thing as 'messages' at the TCP layer, just a stream of bytes. Your application is responsible for imposing any additional structure. –  fizzer Oct 28 '13 at 17:15
makes sense. thank you. –  Poul Oct 28 '13 at 20:17
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No, there is not. Even if there were a way to do this, any answer you get would be immediately out of date (because new data may arrive at any time).

Note that when you pass a buffer to read(), the function will return when there is any amount of data to read (at least one byte), instead of waiting for the buffer to completely fill.

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+1. Also, you almost certainly do not want this anyway. Processing data in cache-friendly-sized chunks (few kilobytes) is almost always faster than processing huge chunks. –  Nemo Dec 27 '12 at 0:27
I agree. Although I would add that I think that passing a reasonably large buffer to read() wouldn't be a bad idea. Also, you could allocate a larger buffer, read a bit, store it into the larger buffer and then read a bit more. But it will only mean that the processing takes longer once you do process it. –  Mats Petersson Dec 27 '12 at 0:29
@Nemo how is it efficient to do multiple reads in order of few KB, if the socket have 20MB of data queued to be read as opposed to one system call to drain 20MB? Also what cache are you referring to? L1, L2? OR Are you implying the buffer size should be a multiple of page size ? –  Jimm Dec 27 '12 at 0:37
@MatsPetersson you could do with some sort of circular buffer, provided it has adequately space. Multiple readers can process the buffer, providing parallelism. –  Jimm Dec 27 '12 at 0:42
@Jimm: I was thinking L1 ("few kilobytes"), but the principle applies in general. Even if all you are doing is filling a large in-memory buffer, doing it via small reads will be no slower because you can keep overwriting data in the L1 cache (read into small buffer, copy somewhere else, read into same small buffer again, etc.) But you are presumably going to do something with the data, and my point is that you are better off doing that something on small chunks (fresh in the cache) than large chunks (stale, need to be fetched from RAM). TLB miss penalty also favors small buffers. –  Nemo Dec 27 '12 at 1:11
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i think you are trying to get many packets with single system call to reduce the overhead due to system calls.

so u can try PACKET sockets interfaces for linux 2.4 or 2.6+ kernels try this http://lxr.free-electrons.com/source/Documentation/networking/packet_mmap.txt

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You could use Non-bloking sockets, or select()/poll() for that matter. I prefer non-blocking sockets because I can do other things while waiting for new data.

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This is a "sort of" answer: recv(char* buffer, size_t nytes, int flags) where flags is OR'ed with:

This flag causes the receive operation to return data from the beginning of the receive queue without removing that data from the queue. Thus, a subsequent receive call will return the same data.

Such that you can see if an arbitrary number of bytes exists in the buffer, without irreversibly reading the buffer. This is a half-answer because it is not the most efficient way to do this, and MSG_PEEK is usually employed when messages have known length headers maybe like this:


where 00123 is the length of the whole message including header, DT is the type of message, and 001 is the number of retries by the sender. The idea is that you can fetch something that tells you how many bytes make a complete read of a message. You are not interested in messages. But that is the reason behind MSG_PEEK

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You have to try send and receive command as well as you are able to read and write in socket character by character so no wastage of memory and even better communication.

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