I have a few questions about the socket library in C. Here is a snippet of code I'll refer to in my questions.

char recv_buffer[3000];
recv(socket, recv_buffer, 3000, 0);
  1. How do I decide how big to make recv_buffer? I'm using 3000, but it's arbitrary.
  2. what happens if recv() receives a packet bigger than my buffer?
  3. how can I know if I have received the entire message without calling recv again and have it wait forever when there is nothing to be received?
  4. is there a way I can make a buffer not have a fixed amount of space, so that I can keep adding to it without fear of running out of space? maybe using strcat to concatenate the latest recv() response to the buffer?

I know it's a lot of questions in one, but I would greatly appreciate any responses.

6 Answers 6


The answers to these questions vary depending on whether you are using a stream socket (SOCK_STREAM) or a datagram socket (SOCK_DGRAM) - within TCP/IP, the former corresponds to TCP and the latter to UDP.

How do you know how big to make the buffer passed to recv()?

  • SOCK_STREAM: It doesn't really matter too much. If your protocol is a transactional / interactive one just pick a size that can hold the largest individual message / command you would reasonably expect (3000 is likely fine). If your protocol is transferring bulk data, then larger buffers can be more efficient - a good rule of thumb is around the same as the kernel receive buffer size of the socket (often something around 256kB).

  • SOCK_DGRAM: Use a buffer large enough to hold the biggest packet that your application-level protocol ever sends. If you're using UDP, then in general your application-level protocol shouldn't be sending packets larger than about 1400 bytes, because they'll certainly need to be fragmented and reassembled.

What happens if recv gets a packet larger than the buffer?

  • SOCK_STREAM: The question doesn't really make sense as put, because stream sockets don't have a concept of packets - they're just a continuous stream of bytes. If there's more bytes available to read than your buffer has room for, then they'll be queued by the OS and available for your next call to recv.

  • SOCK_DGRAM: The excess bytes are discarded.

How can I know if I have received the entire message?

  • SOCK_STREAM: You need to build some way of determining the end-of-message into your application-level protocol. Commonly this is either a length prefix (starting each message with the length of the message) or an end-of-message delimiter (which might just be a newline in a text-based protocol, for example). A third, lesser-used, option is to mandate a fixed size for each message. Combinations of these options are also possible - for example, a fixed-size header that includes a length value.

  • SOCK_DGRAM: An single recv call always returns a single datagram.

Is there a way I can make a buffer not have a fixed amount of space, so that I can keep adding to it without fear of running out of space?

No. However, you can try to resize the buffer using realloc() (if it was originally allocated with malloc() or calloc(), that is).

  • 1
    I have an "/r/n/r/n" at the end of a message in the protocol I'm using. And I have a do while loop, inside I'm calling recv I place the message at the beginning of recv_buffer. and my while statement looks like this while((!(strstr(recv_buffer, "\r\n\r\n")); My question is, is it possible for one recv to get "\r\n" and in the next recv get "\r\n", so that my while condition never comes true?
    – adhanlon
    May 20, 2010 at 16:05
  • 3
    Yes, it is. You can solve that problem by looping around if you don't have a complete message and stuffing the bytes from the next recv into the buffer following the partial message. You shouldn't use strstr() on the raw buffer filled by recv() - there's no guarantee that it contains a nul-terminator, so it might cause strstr() to crash.
    – caf
    May 20, 2010 at 21:46
  • 3
    In case of UDP, there is nothing wrong with sending UDP packets above 1400 bytes. Fragmentation is perfectly legal and a fundamental part of the IP protocol (even in IPv6, yet there always the initial sender must perform fragmentation). For UDP you are always save if you use a buffer of 64 KB, since no IP packet (v4 or v6) can be above 64 KB in size (not even when fragmented) and this even includes the headers IIRC, so data will always be below 64 KB for sure.
    – Mecki
    Dec 18, 2012 at 17:59
  • 1
    @caf do you need to empty the buffer on each call to recv()? I'v seen code loop and collect the data and loop it again which should collect more data. But if the buffer ever gets full don't you need to empty it in order to avoid a memory violation due to writing pass the amount of memory allocated for the buffer?
    – Alex_Nabu
    Apr 1, 2015 at 7:30
  • 1
    @Alex_Nabu: You don't need to empty it as long as there's some space remaining in it, and you don't tell recv() to write more bytes than there is space remaining.
    – caf
    Apr 1, 2015 at 8:58

For streaming protocols such as TCP, you can pretty much set your buffer to any size. That said, common values that are powers of 2 such as 4096 or 8192 are recommended.

If there is more data then what your buffer, it will simply be saved in the kernel for your next call to recv.

Yes, you can keep growing your buffer. You can do a recv into the middle of the buffer starting at offset idx, you would do:

recv(socket, recv_buffer + idx, recv_buffer_size - idx, 0);
  • 7
    Power of two can be more efficient in multiple ways, and is strongly suggested.
    – Yann Ramin
    May 19, 2010 at 0:47
  • 3
    elaborating on @theatrus, a notable efficiency is that modulo operator can be replaced by bitwise and with a mask (e.g. x % 1024 == x & 1023), and integer division can be replaced by a shift right operation (e.g. x / 1024 == x / 2^10 == x >> 10)
    – vicatcu
    May 19, 2010 at 0:55

If you have a SOCK_STREAM socket, recv just gets "up to the first 3000 bytes" from the stream. There is no clear guidance on how big to make the buffer: the only time you know how big a stream is, is when it's all done;-).

If you have a SOCK_DGRAM socket, and the datagram is larger than the buffer, recv fills the buffer with the first part of the datagram, returns -1, and sets errno to EMSGSIZE. Unfortunately, if the protocol is UDP, this means the rest of the datagram is lost -- part of why UDP is called an unreliable protocol (I know that there are reliable datagram protocols but they aren't very popular -- I couldn't name one in the TCP/IP family, despite knowing the latter pretty well;-).

To grow a buffer dynamically, allocate it initially with malloc and use realloc as needed. But that won't help you with recv from a UDP source, alas.

  • 7
    As UDP always returns at most one UDP packet (even if multiple are in the socket buffer) and no UDP packet can be above 64 KB (an IP packet may at most be 64 KB, even when fragmented), using a 64 KB buffer is absolutely safe and guarantees, that you never lose any data during a recv on an UDP socket.
    – Mecki
    Dec 18, 2012 at 18:04

For SOCK_STREAM socket, the buffer size does not really matter, because you are just pulling some of the waiting bytes and you can retrieve more in a next call. Just pick whatever buffer size you can afford.

For SOCK_DGRAM socket, you will get the fitting part of the waiting message and the rest will be discarded. You can get the waiting datagram size with the following ioctl:

#include <sys/ioctl.h>
int size;
ioctl(sockfd, FIONREAD, &size);

Alternatively you can use MSG_PEEK and MSG_TRUNC flags of the recv() call to obtain the waiting datagram size.

ssize_t size = recv(sockfd, buf, len, MSG_PEEK | MSG_TRUNC);

You need MSG_PEEK to peek (not receive) the waiting message - recv returns the real, not truncated size; and you need MSG_TRUNC to not overflow your current buffer.

Then you can just malloc(size) the real buffer and recv() datagram.

  • MSG_PEEK|MSG_TRUNC makes no sense.
    – user207421
    Jan 1, 2017 at 20:06
  • 3
    You want MSG_PEEK to peek (not receive) the waiting message, to obtain its size (recv returns the real, not truncated size) and you need MSG_TRUNC to not overflow your current buffer. Once you get the size you allocate the correct buffer and receive (not peek, not truncate) the waiting message.
    – smokku
    Jan 1, 2017 at 23:20
  • 3
    IP protocol supports fragmentation, so the datagram may be larger than a single packet - it will be fragmented and transmitted in multiple packets. Also SOCK_DGRAM is not only UDP.
    – smokku
    May 1, 2020 at 12:21
  • 2
    @smokku on Linux, yes. But not on most other platforms. The behavior is platform-dependent Mar 17, 2021 at 14:18
  • 1
    @smokku Yes, though you might end up over-allocating, that's all. Mar 18, 2021 at 16:10

There is no absolute answer to your question, because technology is always bound to be implementation-specific. I am assuming you are communicating in UDP because incoming buffer size does not bring problem to TCP communication.

According to RFC 768, the packet size (header-inclusive) for UDP can range from 8 to 65 515 bytes. So the fail-proof size for incoming buffer is 65 507 bytes (~64KB)

However, not all large packets can be properly routed by network devices, refer to existing discussion for more information:

What is the optimal size of a UDP packet for maximum throughput?
What is the largest Safe UDP Packet Size on the Internet


16kb is about right; if you're using gigabit ethernet, each packet could be 9kb in size.

  • 5
    TCP sockets are streams, that means a recv may return data accumulated from multiple packets, so the packet size is totally irrelevant for TCP. In case of UDP, each recv call returns at most a single UDP packet, here the packet size is relevant but the correct packet size is about 64 KB, as an UDP packet may (and often will) be fragmented if required. However, no IP packet can be above 64 KB, not even with fragmentation, thus recv on an UDP socket can at most return 64 KB (and what is not returned is discarded for the current packet!)
    – Mecki
    Dec 18, 2012 at 18:07

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