Let's first do a recap of how PMTU works for UDP.
- An IP endpoint starts with a given MTU, usually the MTU of it's directly connected link.
- When sending packets the endpoint always sets the DF bit.
- If a transit router decides it cannot send out the packet without fragmentating the packet, it will return an
ICMP Destination Unreachable
packet with error code 4 and the next-hop MTU.
- The IP endpoint receives the ICMP unreachable and adapts its PMTU.
- The IP endpoint decides what to do with the original packet (retransmit, signal app layer, ...).
Very important to note here is that PMTU does not happen automatically. There is no built-in probe packet that will find out the MTU before you (the application) starts sending actual data.
So Linux controls this (for datagrams) using the following flags:
IP_PMTUDISC_WANT
Performs PMTU as described above. If the application sends a packet that is too large for the known MTU, the socket layer will fragment it. Outgoing packets (including fragments) will have the DF bit set.
IP_PMTUDISC_DONT
Don't do PMTU discovery.
IP_PMTUDISC_DO
Do PMTU discovery. If the application sends a packet that is too large for the known MTU, send an error to the application.
IP_PMTUDISC_PROBE
Sets the DF bit to do PMTU discovery but ignores the currently learned MTU. So if the application sends a too large packet, it will try to send it out anyway. This is useful to send a probe from time to time to see if the PMTU hasn't increased.
Now one part of notice is that IP_PMTUDISC_DONT
does not specify what to do if the packet is actually larger than your current MTU, i.e. the one of your direct link. So most likely it leaves this choice up to the interface that actually has to send out the packet. Most interfaces should actually fragment the packet as the DF bit is not sent. However, you use the link-local interface which is a usually a software interface with a bit less capabilities. It is possible that on your distribution this does not support fragmentation and therefore sends the error. This makes sense, take this output from my machine:
In [6]: s.getsockopt(socket.IPPROTO_IP, 14) #14 = IP_MTU, just wasn't in my python lib.
Out[6]: 16436
This shows that the MTU for the link-local interface is quite huge in network terms, so why should it bother supporting fragmentation to begin with. That being said, on my system this actually worked fine.