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I want to use same library functions (i.e. OpenSSL library ) in two different programs in C for computation. How can I make sure that both program use a common library , means only one copy of library is loaded into shared main memory and both program access the library from that memory location for computation?

For example, when 1st program access the library for computation it is loaded into cache from main memory and when the 2nd program wants to access it later , it will access the data from cache ( already loaded by 1st program), not from main memory again.

I am using GCC under Linux. Any explanation or pointer will be highly appreciated .

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2  
Use shared libraries. Afterwards the OS is taking care of the rest. – pmr Jan 30 '14 at 11:56
    
use shared libraries, for more cprogramming.com/tutorial/shared-libraries-linux-gcc.html – Trilok M Jan 30 '14 at 11:59
    
Are you talking about code segment or data segment? Code segment is per-shared object, data segment is per-process, I suppose. – adrin Jan 30 '14 at 11:59
    
@ adrin , I want to do same computation of different data sets and that too in different program , but using same library. – bholanath Jan 30 '14 at 12:01
    
This is what shared libraries are for. – Filipe Gonçalves Jan 30 '14 at 12:09

Code gets shared by the operating system, not only of shared libraries but also of executables of the same binary — you don't have to do anything to have this feature. It is part of the system's memory management.

Data will not get shared between the two processes. You would need threads in one process to share data. But unless you want that, just make sure both programs use exactly the same shared library file (.so file). Normally you won't have to think about that; it only might be important if two programs use different versions of a library (they would not get shared of course).

Have a look at the output of ldd /path/to/binary to see which shared libraries are used by a binary.

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Thanks @ Alfe . I will check and let you know. – bholanath Jan 30 '14 at 12:29
    
ldd it's not 100% reliable on this, you need to know what ldd does to be able to interpret its own output. ldd is also influenced by the environment in which it runs, and that environment can be a totally different story from the one where your app will run. – user2485710 Jan 30 '14 at 12:33
    
Of course. I didn't think of the possibility that OP might try to use a different computer to find out which shared library his binary will use. Does it make sense to mention that in my answer? It seems so far-fetched to use a different machine that I think it is enough to have that considered in the comments here. – Alfe Jan 30 '14 at 12:37
    
a different environment it's not a different computer, I don't think you know what ldd operates if you write that; that's really not the point. – user2485710 Jan 30 '14 at 13:02
    
I find it too obvious to write into the answer that the call to ldd should be done in the environment in which also the execution would take place (same computer, same user, same configuration). I fail to understand in what aspect your objection differs from one stating that the use of ls or du or a similar Unix tool depends on a lot of things and may give different results in different situations. Well, of course it does. Stating the obvious won't make the answer any better. But since this might go unnoticed by the future reader, I find it okay to have that stated in a comment. – Alfe Jan 31 '14 at 8:20

Read Drepper's paper How to Write Shared Libraries and Program Library HowTo

To make one, compile your code as position independent code, e.g.

 gcc -c -fPIC -O -Wall src1.c -o src1.pic.o
 gcc -c -fPIC -O -Wall src2.c -o src2.pic.o

then link it into a shared object

 gcc -shared src1.pic.o src2.pic.o -lsome -o libfoo.so

you may link a shared library -lsome into another one libfoo.so

Internally, the dynamic linker ld-linux.so(8) is using mmap(2) (and will do some relocation at dynamic link time) and what matters are inodes. The kernel will use the file system cache to avoid reading twice a shared library used by different processes. See also linuxatemyram.com

Use e.g. ldd(1), pmap(1) and proc(5). See also dlopen(3). Try

cat /proc/self/maps

to understand the address space of the virtual memory used by the process running that cat command; not everything of an ELF shared library is shared between processes, only some segments, including the text segment...

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