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I downloaded a binary file that was compiled (a C program) using GCC 4.4.4 for x86-64 Red Hat Linux.

Is it normal that when I try to run it on a Mac OS X (running Lion so also x86-64) running GCC 4.2.1 that it would say: cannot execute binary file? It can't detect it as a binary file.

Why would it do that? I believe the gcc version has nothing to do with that since the file has already been compiled. It has been compiled for x86-64 of which both machines run. Can someone please explain?

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4 Answers 4

up vote 8 down vote accepted

It's highly unlikely that a binary compiled for a particular OS will run on another. Either get a binary for Mac, or get the source and compile it yourself.

There are many things that will cause issues - version of libc and libstdc++, there can be difference in versions of .so libraries - different API interface to the OS itself. Or even a different binary format (ie VMS binaries do not run on AIX).

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Don't both run x86-64? In a sense, the compiler will compile both to x86 assembly (which is the same on both machines). So would that mean that the assembler would convert the assembly code to different binary files on each machine? –  Nayefc Feb 10 '12 at 16:44
The compiled result for actual instructions could be the same, but say we have Nayefc OS - you may decide you want the executable laid out with all global variables first, then functions, then hardcoded text strings, now I who wrote Adrian OS I want the functions first, then a gap of 27680 bytes (because I like it) then .. - you get the point. So a windows EXE is different from a Linux exe and possible a Mac exe –  Adrian Cornish Feb 11 '12 at 3:21

There are different binary formats. Linux systems use ELF for executables and libraries, but Mac OS X uses the Mach-O format. Windows uses another still: PE format.

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Although Rad Hat Linux and Mac OS X are both 'Unix based', they cannot run each other's binaries. Just like you can't run Windows binaries on Macs and vice versa.

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binaries in this sense are compiled to make operating system calls, when your program has a printf() that boils down to operating system calls. If the operating system it was compiled for is say a 64 bit redhat linux then that likely means the binary is going to look for redhat linux names for shared libraries in redhat linux paths. Which has absolutely nothing in any way shape or form to do with a completely different operating system, Mac OS X, and its system calls and shared or static libraries, etc. Its like taking a wheel off of a mini cooper and trying to bolt it onto a bicycle. Yes at one point in time it was raw metal and rubber, and could have been formed into a bike tire. But once you make that binary, the car tire or the bike tire, that is what it is. sometimes you find an emulator like wine that emulates windows on top of a posix system. or a virtual machine like vmware that lets you run a whole different operating system on top of another by virtualizing a whole computer.

it is also true that you cannot generally expect to take any old C program and have it compile and run on any operating system that say has a gcc compiler. yes you can learn to write c programs that are portable, but you have to carefully stick to libraries that are supported on all the target platforms. so even taking the source code for your program to the mac and compiling it is not necessarily going to just work.

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But don't both run x86-64? In a sense, the compiler will compile both to x86 assembly (which is the same on both machines). So would that mean that the assembler would convert the assembly code to different binary files on each machine? –  Nayefc Feb 10 '12 at 16:39
the assembler and the compiler have nothing to do with it is the system libraries for that platform that matter and linux and macos are different platforms in the same way that the rubber tire and metal wheel have to be made to fit different size vehicles, the same brand can be on the side of the tire and wheel, the same mechanic can install them that doesnt mean one tire fits all. if the operating systems were the same there wouldnt be a windows and linux and macos, etc. –  dwelch Feb 11 '12 at 0:22
the assembler and compiler and linker from a pure sense only need to know that it is an x86-64. You make a hello world program with a printf for example. Even much of the C library is consistent and portable across platforms but the c library layer that your program sits on has an other side, the other side is where the C library interfaces with the operating system, and that is where things are different someone either on the C library side or on the operating system side or both has to customize it to make system calls for the particular operating system which is ultimately not portable. –  dwelch Feb 11 '12 at 0:26
create something very simple, a printf is complicated but might be simple enough, maybe just a program with a single putchar or putc, compile it on both platforms linking in static not dynamic. disassemble both and compare. –  dwelch Feb 11 '12 at 0:28

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