I've used TCP for many things over the years and understand it pretty well. I now have a requirement to use UDP.
Short version: A server allows a small number (5-10) of clients to connect. The server is running a simulation. Clients should be able to update parameters for the simulation and see (a subset) of the simulation results.
In this instance, timing (when the parameters change) is important and the delay between the client requesting a change and it being implemented must be as low as possible.
Can someone please confirm/deny my understanding...
- A datagram is stored inside a single packet
- The largest payload I can reliably send is 506 bytes (576 MTU - 60 IP header - 8 UDP header)
- Sending more than that may cause fragmentation
- Fragmentation isn't handled at a lower level and would require me to recombine datagrams (Not sure about this - if it's handled automatically, why do I care about fragmentation?)
- I need to implement my own ACK/Throttling mechanism
So... If I want to send (say) 800 bytes of data from the client to the server, I need to:
- Determine an arbitrary "Protocol" id to be used represented by a Byte(2) that is common between client and server and is used to filter out messages not meant for my app.
- Create a random message id
- Split the data into two, add the message id and a global sequence so they can be rejoined at the other end
- Record the data against the sequence id somewhere in memory
- Send them to the server
- If an Ack isn't received in a given timespan (Say RTT * 3), resend that packet.
- Inside simulation loop, check (non-blocking) if there is a message on the socket.
- If so, immediately send back a new packet containing an ACK for the sequence Id (actually, to mitigate Ack packet loss, I should Ack the last 30 or so received packets)
- Store the packet in memory until I've received the 2nd half
- Combine the two and process the payload
For messages going in the other direction, I need to do exactly the same in reverse.
I can't help feeling I'm missing something and don't quite understand the implications of a packet fragmenting. Can someone please clarify / point to a better resource?