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Here is a question I've been trying to solve since quite some time ago. This does not attain a particular languaje, although it's not really beneficial for some that have a VM that specifies endianess. I know, like the 99.9999% of people that use sockets to send data using TCP/IP, that the protocol specifies a endianess for the transmission elements, like destination address, port and such. The thing I don't know is if it requires the payload to be in a specific format to prevent incompatibilities.

For example, let's say I develop a protocol that is not a presentation layer, and that I, due to the inmense dominance that little endian devices have nowadays, decide to make it little endian (for example the positions of the players and such are transmitted in little endian order). For example a network module for a game engine, where latencies matter and byte conversion would cost a noticeable amount of time. Of course the address, port and all of that data that is protocol related would be specified in big endian as is mandatory, I'm talking about the payload, and only that.

Would that protocol work out of the box (translating the contents as necessary, of course, once the the transmission is received) on a big endian machine? Or would the checksums of the IP protocol or something of the kind get computed wrong since the data is in a different order, and the programmer does not have control of them if raw_sockets aren't used?

Since the whole explanation can be misleading, feel free to ask for clarifications.

Thank you very much.

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up vote 5 down vote accepted

The thing I don't know is if it requires the payload to be in a specific format to prevent incompatibilities.

It doesn't, and it doesn't have a way of telling. To TCP it's just a byte-stream. It is up to the application protocol to decide endian-ness, and it is up to the implementors at each end to implement it correctly. There is a convention to use big-endian, but there's no compulsion.

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@Yn5an3 Ask your teacher how TCP knows where a 16-bit binary integer starts in a data stream built according to an application protocol. – EJP Feb 12 '13 at 23:24
    
Sry, I deleted the comment since I tought it was out of place :) I'll do, thanks. – user883128 Feb 12 '13 at 23:26

Application-layer protocols dictate their own endianness. However, by convention, multi-byte integer values should be sent in network-byte order (big endian) for consistency across platforms, such as by using platform-provided hton...() (host-to-network) and ntoh...() (network-to-host) function implementations in your code. On little-endian systems, they will do the necessary byte swapping. On big endian systems, they are no-ops. The functions provide an abtraction layer so code does not have to worry about that.

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It's ok, but I was asking, to be brief, if it was possible to follow the convention in reverse. This is, working all the time with LE, instead of BE. – user883128 Feb 13 '13 at 23:17
    
You should work with data in the platform's native endian, converting back and forth between platform endian and network endian only during actual transmissions. – Remy Lebeau Feb 14 '13 at 2:36

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