# Predicting Network traffic overhead generated by a Java Application

I want to attempt to calculate how much data (bytes) I send/receive over the network. I send/receive both TCP and UDP packets, so I need to be able to calculate the size of these packets including their respective headers. I looked at this questions: Size of empty UDP and TCP packet and it lists the minimum size of the header, but is that libel to change? Should I just add the number of bytes I send in the packet, but the size of the minimum header? Also, I know at some point (n bytes) the data would be too big to fit in just one packet.

One other thing, the client is a mobile device, so it may receive over cellular or wifi. I am not sure if there is a difference in the packet size between the two, but I would probably just want to assume what ever is larger.

So my questions are, assuming the data is n bytes long:

1) How big would the TCP packet be, assuming it all fits in one packet?

2) How big would the UDP packet be, assuming it all fits in one packet?

3) Is there an easy way to determine the number of bytes it would take to overrun one packet? For both TCP and UDP.

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@gamemb what problem do you hope to solve by finding this answer? –  Mike Pennington Apr 17 '11 at 22:12
To estimate network usage of my application, both on the server side and client side. –  gamernb Apr 17 '11 at 22:27

Lets assume we're only talking about ethernet and IPv4

``````Look at your interface MTU, which has already subtracted
the size of the ethernet headers for the OS I can
remember (linux and FreeBSD)

Subtract 20 bytes for a normal IP header (no IP options)

Subtract 20 bytes for a normal TCP header

Or

Subtract 8 bytes for a UDP header
``````

That is how much data you can pack into one IPv4 packet. So, if your TCP data is `n` bytes long, your total ethernet payload is `(n + 20 + 20)`; your ethernet payload for UDP is `(n + 20 + 8)`.

## RE: MTU

Your interface MTU is the largest ethernet payload that your drivers will let you encapsulate onto the wire. I subtract because we're assuming we start from the MTU and work up the encapsulation chain (i.e. `eth -> ip -> tcp|udp`); you cant send TCP or UDP without an IP header, so that must be accounted for as well..

Theoretical calculations about the overhead your application will generate are fine, but I suggest lab testing if you want meaningful numbers. Usage factors like average data transfer per client session, client hit rate per minute and concurrent clients can make a difference in some (unusual) cases.

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Two questions, one: what do you mean by "your interface MTU" and two: why are you subtracting? The goal of this is to calculate exactly how many bytes are sent over the network. All I currently know is that I am putting n bytes of data into a packet (TCP and/or UDP). Also, on the server side I can assume Ethernet, by on the client side, I will have to assume that there is a wireless header on top of that. I know wifi uses 802.11 header, does cellular use something else, assume so? –  gamernb Apr 17 '11 at 21:50
I think you are still misunderstanding my question. I am not asking how much data I can pack into a packet. I am asking how big my packet will be if I start out with n bytes of data to put in it. Keep in mind, I am using Java's socket implementation, and the server is on windows (for now). –  gamernb Apr 17 '11 at 21:59
If it is n bytes long, then add 20 for IP, and 20 for TCP. Either of the books suggested in this post will be very helpful as it seems you are curious about the subject –  Mike Pennington Apr 17 '11 at 22:06
@daniel, if you are trying to find an end to end packet size that the path will support, I would suggest investigating whether you can use TCP path MTU discovery, and set the IP DF (dont fragment bit) in the IP header. That said, I still dont understand the basic concern about how large the packet will be. The OS should handle these details. –  Mike Pennington Apr 17 '11 at 22:21