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On my little-endian z80-esque processor I have a 32-bit long int msk = 0xFFFFFF00 (Subnet Mask). I learned about endian-ness this morning when I tried passing (unsigned char *)&msk to a void bar(unsigned char * c); function that walks through the values of this &msk and stores them to a database.

Unfortunately due to the little-endian-ness of z80 processors, the database stores the values "backwards", and when another function reads the bytes back, it sees 0x00FFFFFF, which is not the correct subnet mask.

Is there any trivial way around this with unions? I'd like char[3] to map to the LSB of my long int msk, instead of what it currently is (char[0] gets the LSB).

In conclusion, Big-Endian is better.

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There are many answers on stackoverflow about converting big endian to little endian, and vice versa. Have you tried any of those approaches? – Ari Oct 26 '12 at 18:29
up vote 2 down vote accepted

To fix endian issues: Whenever you serialize your integers to disk or to the network, convert them to a known byte order. Network order aka big-endian, is the easiest because the htonl and htons functions already exist. Or you may do it manually by repeatedly pulling off the low-order byte with byte & 0xFF; byte >>= 8 or the high-order byte with ((byte >> i*8) & 0xFF)

If you have a long int value and want the LSB of it, it is far more portable to use bit shift and mask operations rather than unions or casts.

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thanks, didn't know about those funcs! – paIncrease Oct 29 '12 at 18:35

ntohl will swap the endianess of a 32-bit integer

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Just a note: ntohl does absolutely nothing if you are running on a big-endian system. So you cannot use it for generic byte swapping. – Zan Lynx Oct 26 '12 at 19:26
I think that, more specifically, htonl will always convert longs to big-endianness, and ntohl will always convert longs to whatever the system uses. This makes them cross-compatibile. – Xymostech Oct 26 '12 at 21:17
Weird on my system it was reversible, ie ntohl(ntohl(data))=data. – asbumste Oct 29 '12 at 14:57
thanks, those are great functions. Unfortunately I don't access to them so I suppose I'll just implement my own! – paIncrease Oct 29 '12 at 18:35
@asbumste: They are reversible because the functions do not know the byte order of the integer: they trust the programmer to know. And big-endian to little-endian is reversible either way. I don't think some rare ones like PDP-endian are reversible. – Zan Lynx Oct 29 '12 at 19:29

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