2

I'm experimenting with the python socket library (3.5, on linux mint 18), trying to understand UDP. I'm a hardware person dabbling in software, and UDP seems simpler to get my head around than TCP. I am well aware that UDP does not guarantee to deliver packets one for one.

So far, I can follow the tutorials to echo data back from a server to a client.

However, I like to push things to see what happens when applications don't follow the expected path, I detest writing things that 'hang' when unexpected things happen.

If a server binds a socket to a port number, then the client sends several messages to that port, before the server calls recvfrom() several times, I find that each call returns one message, with the messages in order. In other words, the messages have been buffered, later messages have not overwritten earlier messages in the queue. I was not surprised to see this happen, but also would not have been surprised to find only the last received message available, aka buffer length of one.

Is this buffer, and its depth, a python implementation detail, a linux mint/ubuntu detail, or defined by the UDP protocol?

3
  • 2
    This is all handled in your operating system's network stack.
    – chepner
    Oct 13 '18 at 16:35
  • AFAIK, nothing is guaranteed with UDP. The packets might not arrive, they might get duplicated, they might arrive out of order. As is typical with "not guaranteed," things might seem fine 99.9% of the time. It might be difficult to replicate failure cases in the real world. Oct 13 '18 at 16:40
  • Modern computers have lots of memory, so it can be difficult to overflow the buffers. If you'd tried this 20 years ago you could easily lose packets.
    – Barmar
    Oct 13 '18 at 16:43
2

Is this buffer, and its depth, a python implementation detail, a linux mint/ubuntu detail, or defined by the UDP protocol?

The UDP socket's buffer sizes are an implementation detail of your OS's networking stack. Each OS tries to set reasonable default size based on its expected use-cases, but you can override the OS's default size (up to some maximum value, anyway) on a per-socket basis by calling socket.setsockopt(socket.SOL_SOCKET, socket.SO_SNDBUF, newSizeInBytes) and/or socket.setsockopt(socket.SOL_SOCKET, socket.SO_RCVBUF, newSizeInBytes)

The buffers will queue up as many packets as they have space to hold, then drop any incoming packets that they can't fully fit into the remaining space.

1

UDP buffers are in the operating system's network stack. The size of the buffers will depend on how much memory your computer has and kernel configuration settings. On modern computers with gigabytes of memory, it's likely that the OS will have plenty of space for UDP buffers, and it will be difficult to overflow them unless the computer is extremely overloaded.

There might be some way for you to configure the OS to limit the amount of memory used for UDP buffers, so that you can cause overflows and see what the symptoms are in your test application. I don't know the configuration settings, you could try asking in Unix & Linux or AskUbuntu.com.

3
  • It's actually not too difficult to overflow a default-sized UDP buffer -- each socket has its own buffers, and a socket's buffers are fixed-size and not super-large (e.g. 32-128KB, not megabytes), so it doesn't matter how much RAM the computer has in total. Oct 13 '18 at 17:32
  • I agree with the comment above, even on a Linux system with 32 GiB RAM, udp send buffer is only 212KB. Checking by doing: cat /proc/sys/net/core/wmem_default and got 212992 where wmem_default is The default setting in bytes of the socket send buffer:
    – Ankit
    18 hours ago
  • @Ankit Thanks. I had worked with heavily used Solaris DNS servers in the 90's, and we sometimes ran into UDP buffer limits, but I assumed that default buffer sizes would have increased by now.
    – Barmar
    17 hours ago

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.