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I am using OpenSSL shared library to do simple encryption using AES_cbc_encrypt() function. I want to know if I use this AES_cbc_encrypt() function from two different program, will both program point to the same location in Physical memory for this AES_cbc_encrypt() function?

My other questions are

1 > If I use shared library will it be automatically pointed to same physical memory location by all programs where it is being used ?


2 > Do I need to follow some other technique to force the programs to load the shared library at the same physical memory in RAM. ( I don't think so it is true then there is no use of shared memory concept. It's my understanding).

3 > How to check whether both program load the shared library function at same physical location.

4> I calculate the location (virtual address) of function in both program by using (& AES_cbc_encrypt) , then using tool capture, I convert this virtual address (VPN) to Physical address (PFN). But, I don't know how to calculate physical address from this VPN, PFN info. So not able to compare further . Any clue ?

For example my virtual address is


Virtual address

Starting address- end address


Physical Page

 : A600000000036E26

 : A60000000008A4C3

In my system

**Virtual address space : 48 bit

Physical address space : 36 bit**

I am using GCC under Linux. Any help or pointer/link will be highly appreciated. Thanks in advance.

share|improve this question
I don't understand why you care about physical RAM. Leave its management to the kernel, it does that very well. – Basile Starynkevitch Feb 3 '14 at 19:41
Why do you ask ? It looks like you misunderstand virtual memory. – Basile Starynkevitch Feb 3 '14 at 19:47

Read Drepper's paper How To Write Shared Libraries.

Shared libraries use position independent code (to minimize relocation). They are mmap(2)-ed by the dynamic linker ld-linux(8). Linux processes have their address space in virtual memory managed by the linux kernel thru paging.

The kernel will generally share read segments (e.g. the text segment) of shared libraries (so their pages use indeed the same RAM for different processes).

You could use /proc/self/maps (or /proc/1234/maps for the process of pid 1234) to find out the memory mapping of a process. See proc(5).

You should not care about (and application don't directly see) RAM pages. Only the kernel manage physical RAM (and it can move pages in the RAM, page out them to disk, etc.) thru the MMU.

See also mincore(2) & mlock(2). Read also about OOM & thrashing & swap space.

Read Advanced Linux Programming !

share|improve this answer
@ Basile ,Thanks for answering. I am trying to verify whether both program points to same physical location in RAM, but unable to do . any clue in that direction. I read from other place where it mentioned (theoretically) both program points to same location. I want to check programatically . – bholanath Feb 3 '14 at 19:35
You should not care. The RAM is managed by the kernel, application code don't see it. Applications only see virtual memory. – Basile Starynkevitch Feb 3 '14 at 19:35
@bholanath: In general you cannot find that mapping. The physical mapping may change from instant to instant. – Oliver Charlesworth Feb 3 '14 at 19:37
You question don't have any sense. The kernel is free to page out RAM pages at will (but it often don't do that, except under stress). By the time you have queried the kernel, the information could be stale.... So it has no sense to application code. – Basile Starynkevitch Feb 3 '14 at 19:42
I think that clflush is only usable inside the kernel. I was talking from the point of view of an application. Don't code inside the kernel if you are not very familiar with Linux application code. – Basile Starynkevitch Feb 3 '14 at 19:58

While I compile with option -fPIC, I got the same virtual addresses(may be coincidentally) as well as Physical address same for whole library from both program.

gcc -fPIC -o aes openssl_aes.c -lcrypto

This proves that shared library is loaded into same physical location.

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