I understood that both of them disable Nagle's algorithm.

When should/ shouldn't I use each one of them?

4 Answers 4


First of all not both of them disables Nagle's algorithm.

Nagle's algorithm is for reducing more number of small network packets in wire. The algorithm is: if data is smaller than a limit (usually MSS), wait until receiving ACK for previously sent packets and in the mean time accumulate data from user. Then send the accumulated data.

if [ data > MSS ]
    wait until ACK for previously sent data and accumulate data in send buffer (data)
    And after receiving the ACK send(data)

This will help in applications like telnet. However, waiting for the ACK may increase latency when sending streaming data. Additionally, if the receiver implements the 'delayed ACK policy', it will cause a temporary deadlock situation. In such cases, disabling Nagle's algorithm is a better option.

So TCP_NODELAY is used for disabling Nagle's algorithm.

TCP_CORK aggressively accumulates data. If TCP_CORK is enabled in a socket, it will not send data until the buffer fills to a fixed limit. Similar to Nagle's algorithm, it also accumulates data from user but until the buffer fills to a fixed limit not until receiving ACK. This will be useful while sending multiple blocks of data. But you have to be more careful while using TCP_CORK.

Until 2.6 kernel, both of these options are mutually exclusive. But in later kernel, both of them can exist together. In such case, TCP_CORK will be given more preference.


  • 11
    Keep in mind Hussein Galal's answer which clarifies that TCP_CORK only delays a maximum of 200 ms before sending data.
    – b4hand
    Mar 7, 2016 at 22:04
  • 4
    "This will help in applications like telnet."? Rather the contrary is true. If you press a key, this will delay sending your keypress to the other side until an ACK for the last keypress has been received. This introduces high delay between key press and key sent and I wouldn't know of any situation where this is desirable.
    – Mecki
    May 18, 2020 at 12:24
  • @Mecki it will help with telnet but the explanation was unclear how. Telnet sends every keypress. What Nagle's algorithm helps with is to not have the network traffic of all those characters potentially each in its own packet. You are right that it does indeed delay telnet communication but even that is appropriate for telnet. Feb 20 at 20:41
  • @MarlinPierce If you want to a 5 character word, it may be an advantage to send all 5 characters in on package, instead of sending 5 individual packages, but if the other side just says "Hit any key to continue" or "Are you sure? [Y/N]", you don't want an extra delay. You also don't want an extra delay when moving around the cursor with arrow keys, as you want visual feedback of what you are doing and you only will see the feedback once your keypress has been send and the reaction to that keypress has been sent back to you.
    – Mecki
    Feb 23 at 1:38
  • 1
    @Mecki This was not mentioned or not clarified, but Nagle's algorithm will send the first write without delay. Only later writes are delayed, but when the write buffer has a full frame will send that without delay. In the steady state with no recent writes, all network sends have been acknowledged so a write is not delayed. Only after that send is unacknowledged is there any delay. But again, it is not designed to make Telnet work well, but to prevent Telnet from polluting the network. Feb 27 at 18:38


Used to disable Nagle's algorithm to improve TCP/IP networks and decrease the number of packets by waiting until an acknowledgment of previously sent data is received to send the accumulated packets.

//From the tcp(7) manual:


If set, don't send out partial frames. All queued partial frames are sent when the option is cleared again. This is useful for prepending headers before calling sendfile(2), or for throughput optimization. As currently implemented, there is a 200-millisecond ceiling on the time for which output is corked by TCP_CORK. If this ceiling is reached, then queued data is automatically transmitted. This option can be combined with TCP_NODELAY only since Linux 2.5.71. This option should not be used in code intended to be portable.

  • 8
    Thankyou for pointing out what many guides have gotten totally wrong, that TCP_CORK only delays for 200ms (max), it's not literally a CORK that can jam until removed. May 18, 2015 at 4:40
  • Nagle's algorithm decreases the number of packets. TCP_NODELAY disables this so there would then potentially be more packets because they do not wait until there is an acknowledgement. Feb 20 at 20:46

It's an optimisation, so like any optimisation:

  1. Do not use it
  2. Wait until performance becomes a problem, then having determined that socket latency is definitely the cause of it, and testing proves that this will definitely fix it, AND this is the easiest way of fixing it, do it.

Basically the aim is to avoid having to send out several frames where a single frame can be used, with sendfile() and its friends.

So for example, in a web server, you send the headers followed by the file contents, the headers will be assembled in-memory, the file will then be sent directly by the kernel. TCP_CORK allows you to have the headers and the beginning of the file sent in a single frame, even with TCP_NODELAY, which would otherwise cause the first chunk to be sent out immediately.

  • 62
    Nagle itself is an optimisation, so by your logic you should turn it off and only put it on if needed :-)
    – camh
    Sep 22, 2010 at 5:48
  • 3
    Nagle is enabled by default and you don't need to write any code to enable it, so it will happen anyway. And no, if you were writing your own TCP stack, if you didn't need to implement Nagle, you wouldn't do so.
    – MarkR
    Sep 22, 2010 at 12:38
  • 8
    I wouldn't be surprised if that actually happened in a few years from now (someone no longer implementing it). The main concern some 30 or 40 years ago was that people typing on telnet at roughly 2 characters per second would generate one packet for every character. This is hardly an issue nowadays with bandwitdth being much higher, remote login not playing a big role traffic-wise, and block ciphers being applied to pretty much every remote login traffic anyway. There's no way you can send less than 16 bytes with a 128-bit block cipher (not if you want to decode it on the other end, anyway).
    – Damon
    Nov 15, 2013 at 10:49
  • 2
    @camh I know you were kidding, but in defense of OP, the act of disabling Nagle is sometimes an optimization in the latency variable. Oct 29, 2019 at 1:09
  • 2
    @camh Honestly I read Mark's advice initially as "use NODELAY until you determine that you need delay" precisely because Nagle is the "optimization" in my mind. It was definitely a vague suggestion in this context. Mar 16, 2021 at 5:33

TCP_CORK is the opposite of TCP_NODELAY. The former forces packet-accumulation delay; the latter disables it.

  • 22
    TCP_CORK is not the opposite of TCP_NODELAY. Nagle's algorithm aggregates data while waiting for a return ACK, which the latter option disables; the former aggregates data based on buffer pressure instead.
    – joshperry
    Sep 22, 2015 at 0:52

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