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I'm using an open-source networking framework that makes it easy for developers to communicate over a service found using Bonjour in Objective-C.

There are a few lines that have had me on edge for a while now, even though they never seem to have caused any problems on any machines I've tested, regardless of whether I'm running the 32-bit of 64-bit version of my application:

int packetLength = [rawPacketData length];
[outgoingBuffer appendBytes:&packetLength length:sizeof(int)];
[outgoingBuffer appendData:rawPacketData];
[self writeToStream];

Note that the first piece of information sent is the length of the data packet, which is pretty standard, and then the data itself is sent. What scares me is the length of the length. Will one machine ever assume an int is 4 bytes, while the other machine believes an int to be 8 bytes?

If the two sizes could be different on different machines, what would cause this? Is it dependent on my compiler, or the end-user's machine architecture? And finally, if it is a problem, how can I take an 8-byte int and scrunch it down to 4-bytes to ensure backwards compatibility? (Since I'll never need more than 4 bytes to represent the size of the data packet.)

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4 Answers 4

up vote 12 down vote accepted

You can't assume that sizeof(int) will always be four bytes. If the size matters, you should either hard-code a size of 4 (and write code to serialize values into four-byte arrays with the proper endianness), or use types like int32_t defined in <stdint.h>.

(However, as a practical matter, most compiler vendors have decided that int should stay four bytes, so you probably don't need to worry about everything breaking tomorrow. Then again, it wasn't so long ago that many compiler vendors let an int be two bytes, leading to many problems when ints became four bytes, so you really ought to do things the right way so guard against future changes.)

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An excellent answer to all 3 parts of my question. :D –  Craig Otis Mar 7 '11 at 14:28
    
Kristopher, will there ever be a penalty to simply casting any larger types (or, just int) to int32_t? Is it safe to assume that the high order bits are truncated? I never expect any packet sizes to be larger than the max size of int32_t, so if the number is in fact larger than int32_t, it's an error elsewhere anyway. –  Craig Otis Mar 10 '11 at 21:35
    
The smart/safe thing to do would be to test the number before casting it to a smaller type. You may not expect values to ever be too big, but if a hacker could exploit this (by sending a too-big packet, or sending a misformed packet), then you need to check. –  Kristopher Johnson Mar 11 '11 at 13:59

It could be different, but this depends on the compiler more than the machine. A different compiler might redeclare int to be 8 bytes.

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I thought only long differed in size on 32 or 64 bit systems?

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Size of int depends on machine architecture; size of int will be the size of the data bus almost always, unless your C compiler does something special and changes it.

That means size of int is not 4 bytes when you compile your program in a 8-bit, 16-bit or 64-bit machine/architecture.

I would define a constant for the buffer size instead of using size of int.

Hope this answers your question.

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I'm not sure about this. When I compile/run my app as 32-bit or 64-bit, the sizeof(int) is 4 in both cases. –  Craig Otis Mar 7 '11 at 14:43
    
The C standard only dictates that sizeof(int) is at least 2. It is supposed to be the most "natural" size for an integer on the machine architecture, but compiler implementors choose whatever size they want. –  Kristopher Johnson Mar 7 '11 at 14:51
    
@craig Because your current machine is a 32-bit machine, the Apple A4 processor,right? –  Only You Mar 7 '11 at 14:54
    
@craig It would be good to know what you get if that same compiled program is executed in a 64-bit machine. –  Only You Mar 7 '11 at 15:02
1  
@Julio: The default for x86_64 using Apple's developer tools is to have 32 bit ints, 64 bit longs and 64 bit pointers. It's a convention known as LP64. –  JeremyP Mar 7 '11 at 23:05

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