I have a custom protocol overlaying TCP that can be described as follows:-
Client sends a packet A to the server. The server ACKS the packet A. Client sends a packet B.
In other words, at any point in time, there is only one unacknowledged packet. Hence, the factors that play into account for sending messages as fast as possible are:-
How soon can a packet arrive at the destination. This implies least amount of fragmentation done by TCP. If a packet can arrive in a single segment as opposed to 5 segments, the quicker the server can respond to it.
The unit of work done by the server for that packet. At present, i am not focused on this point, though eventually, i will touch it also.
Also assume, the rate of loss is negligible.
Nagle is disabled.
Typical packet sizes vary from 1KB to 3KB.
Bandwidth is 1Gb/sec
I am thinking that if i configure MTU equal to the biggest message size (3KB + headers), this should impact the number of messages that i can send in a second. My question is that are there any negative consequences in changing MTU. This application runs inside the LAN in a managed environment.
Alternatively, if i set the don't fragment flag, would it be equivalent to the above change?