I'd like to distribute my program as a binary, not in source code form. I have two test systems: An older Linux (openSUSE 11.2 with glibc 2.10) and a recent one (LinuxMint 13 with glibc 2.15). Now when I compile my program on the LinuxMint system with glibc 2.15 and then try to start the binary on the openSUSE system with glibc 2.10 I get the following two errors:
./a.out: /lib/libc.so.6: version 'GLIBC_2.15' not found (required by ./a.out) ./a.out: /lib/libc.so.6: version 'GLIBC_2.11' not found (required by ./a.out)
What is confusing me here is this: Why do I get the "glibc 2.11 not found" error here as well? I would expect the program to require glibc 2.15 now because it has been compiled with glibc 2.15. Why is the program looking for glibc 2.11 as well? Does this mean that my program will run on both glibc versions, i.e. 2.15 AND 2.11? So it requires at least 2.11? Or will it require 2.15 in any case?
Another question: Is the assumption correct that glibc is upwards compatible but not downwards? E.g. is a program compiled with glibc 2.10 guaranteed to work flawlessly with any future version of glibc? If that is the case, what happens if a constant like PATH_MAX is changed in the future? Currently it is set to 4096 and I'm allocating my buffers for the realpath() POSIX function using the PATH_MAX constant. Now if this constant is raised to 8192 in the future, there could be problems because my program allocates only 4096 bytes. Or did I misunderstand something here?
Thanks for explanations!