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There's a note in the POSIX rationale that mandating CHAR_BIT be 8 was a concession made that was necessary to maintain alignment with C99 without throwing out sockets/networking, but I've never seen the explanation of what exactly the conflict was. Does anyone have anecdotes or citations for why it was deemed necessary?

Edit: I've gotten a lot of speculative answers regarding why it's desirable for CHAR_BIT to be 8, and I agree, but what I'm really looking for is what the technical conflict between C99 and the networking stuff in POSIX is. My best guess is that it has something to do with C99 requiring uint*_t to be exact-sized types (no padding) whereas the inttypes.h previously in POSIX made no such requirement.

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Is "because a lot of code would break otherwise" a good answer? –  Mehrdad Jul 8 '11 at 23:14
because we are used to that!! –  Ulterior Jul 8 '11 at 23:19
@user: There are lots of things POSIX does which run counter to what "most programmers are used to" -- e.g. fork. When you learn fork it does nothing like anything you've ever seen before. However, it's a core of the Unix process manipulation model. –  Billy ONeal Jul 8 '11 at 23:27
@Billy ONeal I did forks, not related to the question –  Ulterior Jul 8 '11 at 23:29
@R..: I think you might have answered your own question there. If prior versions of Posix required that uint8_t exists, but permit it to have padding, and then C99 comes along and doesn't require uint8_t to exist, but says that if it does then it must not have padding, Posix has two choices if it is to incorporate C99 - un-require that uint8_t exists (which renders programs that were valid, invalid), or else require that it has no padding, (which renders implementations that were conforming, non-conforming). The latter may well be the lesser evil. –  Steve Jessop Jul 8 '11 at 23:53
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3 Answers

Because the vast majority of standards (related to communication) out of ANSI and ISO talk in terms of octets (8-bit values). There is none of that wishy-washy variable-sized character nonsense :-)

And, since a rather large quantity of C code used char or unsigned char for storing and/or manipulating these values, and assumed they were 8 bits wide, the fact that ISO allowed a variable size would cause problems for that code.

Remember one of the over-riding goals of ISO C - existing code is important, existing implementations are not. This is one reason why limits.h exists in the first place rather than just assuming specific values, because there was code around that assumed otherwise.

POSIX also followed that same guideline. By mandating a byte size of 8 bits, they prevented the breakage of a huge amount of code already in the real world.

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In the middle para: "ISO" is a bit confusing, since ISO is famously the author of C99 (which does allow CHAR_BIT != 8), and slightly less famously ratifies Posix standards (which don't). So either it would cause problems if it did, or it does cause problems since it does, depending which standard you're talking about. –  Steve Jessop Jul 8 '11 at 23:27
Sorry, Steve, I was just saying that POSIX has guidelines to follow, just like ISO. I'll try to clarify. –  paxdiablo Jul 8 '11 at 23:29
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Because char is the smallest addressable unit in C, if you made char larger than 8 bits, it would be difficult or impossible to write a sockets implementation, as you said. Networks all run on CHAR_BIT == 8 machines. So, if you were to send a message from a machine where CHAR_BIT == 9 to a machine where CHAR_BIT == 8, what is the sockets library to do with the extra bit? There's no reasonable answer to that question. If you truncate the bit, then it becomes hard to specify even something as simple as a buffer to the client of the sockets code -- "It's a char array but you can only use the first 8 bits" would be unreasonable on such a system. Moreover, going from 8 bit systems to 9 bit would be the same problem -- what's the sockets system to do with that extra bit? If it sets that bit to zero, imagine what happens to someone who puts an int on the wire. You'd have to do all kinds of nasty bitmasking on the 9 bit machine to make it work correctly.

Finally, since 99.9% of machines use 8 bit characters, it's not all that great a limitation. Most machines that use CHAR_BIT != 8 don't have virtual memory either, which would exclude them from POSIX compatibility anyway.

When you're running on a single machine (as standard C assumes), you can do things like be CHAR_BIT agnostic, because both sides of what might be reading or writing data agree on what's going on. When you introduce something like sockets, where more than one machine is involved, they MUST agree on things like character size and endianness. (Endinanness is pretty much just standardized to Big Endian on the wire, though, as many more architectures differ on endianness than they do on byte size)

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Does POSIX require virtual memory? I remember reading the rational for posix_spawn which states "processes are too useful to simply option out of POSIX whenever it must run without address translation or other MMU services." –  Dietrich Epp Jul 8 '11 at 23:28
Yes POSIX requires memory protection, shared memory-mapped files, etc. The text about posix_spawn is in regard to implementors wanting to implement a strict subset of POSIX that's not conformant in itself. –  R.. Jul 8 '11 at 23:29
@Dietrich: Things like fork cannot be implemented without some form of virtual memory. There is a subset of POSIX that is implementable on non-MMU machines, but a fully conforming implementation needs one. –  Billy ONeal Jul 8 '11 at 23:30
@Billy: What your answer still doesn't tell me is why the advent of C99 is what made POSIX decide it was necessary to require CHAR_BIT to be 8. Prior to that, POSIX had networking, and as far as I know CHAR_BIT was allowed to take other values. –  R.. Jul 8 '11 at 23:30
Personally, if I was going to define a CHAR_BIT-agnostic sockets API, I would define all the network functions to take char* buffers, but to only read or write the low 8 bits of those buffers as network octets. You'd then also have to sort out addresses and port numbers - port 257 still has to be represented on the wire as two octets, 0x0101, so hton/ntoh would be defined to do more than just alter byte order, they'd also insert/remove padding bits. It's inefficient communicating between two 16-bit-char machines, using twice as much memory as necessary, but better than no comms at all... –  Steve Jessop Jul 8 '11 at 23:35
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My guesses:

  • Lots of code goes through bits like

    for (int i = 0; i < 8; i++) { ... }

    and all that would break.

  • Most other languages assume it's 8 bits anyway, and they would completely break if it's otherwise

  • Even if most languages didn't require this, most ABIs would still break

  • It's handy in hexadecimal (two nibbles): 0xAA

  • If you start going that route, then you could start thinking: Well, who says we have to use 2-state bits? Why not have tristate bits? etc... it just starts getting less and less practical.

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One could make the argument that such languages/code are simply wrong. (As the C standard (and by extension C++ standard) do) It's easy to fix the first loop by replacing 8 with CHAR_BIT. However, sound reasoning, so +1. –  Billy ONeal Jul 8 '11 at 23:28
"8 bits should be enough for anyone!" :) –  Ben Zotto Jul 8 '11 at 23:28
@Billy: Or you could just say C is overly abstract, making correct programming difficult. :P (Playing devil's advocate here, mostly.) It's practicality vs. extensibility... at some point, the former trumps the latter. @quixoto: It is... isn't it? xD –  Mehrdad Jul 8 '11 at 23:30
@Billy, I suspect most of that code was written before ANSI/ISO started their C work. –  paxdiablo Jul 8 '11 at 23:34
@paxdiablo: well then how come Posix agreed with Mehrdad's argument "it would break lots of code", but ANSI/ISO didn't (and allowed CHAR_BIT !=8 in C)? Are you in effect saying that IEEE is more sensitive to this code than ANSI/ISO are? In which case it's basically just the luck of whoever was on the relevant committees at the time. –  Steve Jessop Jul 8 '11 at 23:49
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