I'm trying to figure out why mysql uses Unix socket (/tmp/mysql.sock) by default, instead of normal TCP/IP sockets.

It doesn't seem like a security thing, as you can listen only on which should be equally safe (socket file is world-writable, so you don't get Unix accounts based protection).

And surely all operating systems rely on high performance TCP/IP so much that it cannot be significantly slower than Unix sockets - Linux does all sort of zero-copy tricks even for network traffic, so it surely must be fast for loopback.

So is there any legitimate reason for using Unix sockets here, or is it just some weird historical accident?


2 Answers 2


While you don't hit the entire IP stack when going over localhost, you still hit a big part of it. A unix socket is essentially just a 2-way pipe. It's faster and lighter.

Unix sockets also allow you to control access without managing firewall rules, as access can be given through filesystem permissions.

One other feature unix sockets provide is the ability to pass file descriptor from one process to another.

  • Any file descriptor can be sent from one process to another using sendmsg() and received using receivemsg(), see stackoverflow.com/questions/2358684/…. This is not specific to UNIX sockets.
    – damjan
    Oct 27, 2015 at 16:33
  • @damjan No, that is not the case. You cannot send file descriptor over pipes, or an UDP socket, or a TCP socket, or anything except a unix socket. You can try, but it is not going to work.
    – nos
    Oct 27, 2015 at 18:04

There is less overhead in using Unix Sockets instead of TCP/IP, as this is basically a byte stream without the extra network bookkeeping. See wikipedia for a little bit more info.

Unix domain connections appear as byte streams, much like network connections, but all data remains within the local computer. UNIX domain sockets use the file system as address name space, i.e. they are referenced by processes as inodes in the file system. This allows two distinct processes to open the same socket in order to communicate. However, the actual communication (the data exchange) does not use the file system, but buffers in kernel memory.

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