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I'm writing some code in pure C, RHEL 5.5 x64, gcc version 4.1.2 20080704 (Red Hat 4.1.2-48)

I've got an executable which is compiled using 2 static libraries. Each of them uses some global (for a given library) array variables (i.e. in some .c file I have a char var1[VAR_SIZE1];, then in other .c files of the lib I use extern char var1[VAR_SIZE1];, and the same situation with the second lib). Each library is placed in it's own subdir of an executable source dir. I've started to notice that one lib can place its data in another lib's memory. To discover what's going on, I've defined a void pointer to one of the variables in a third lib, (lib 3 is used by both libs in question), assigned this pointer an address in lib1 and looked at the addresses in lib2. What I see now is:

char var1[1000]; /*please mind the length*/
extern void* ptr_to_var2;
printf("var1 addr is %p, var2 addr is %p\n", (void*)&var1, ptr_to_var2);

this code produces

var1 addr is 0xa11b00, var2 addr is 0xa11e00

As you can see, var1 should end up at address 0xa11ee8, and var2's head is INSIDE var1 memory. What am I doing wrong? Are there any limitations on using global vars in static libs? I can't define those vars as static, as they are used throughout a number of files inside each lib, and making those vars dynamic is a big work (there are dozens of such variables).

P.S. Of course, ptr_to_var2 is initialized. What really is going on

void* ptr_to_var2;

#include "hdr_with_my_struct_name_definition.h"
my_struct_name var2[5];
extern void* ptr_to_var2;

int func2(){
   return 1;

<lib 1>
#include "hdr_with_my_struct_name_definition.h"
char var1[1000];
extern void* ptr_to_var2;

int func1(){
   my_struct_name *temp_var_2=(my_struct_name*)ptr_to_var2;
   printf("%d", temp_var_2[0].fld1);
   memset(var1, '\0', sizeof(var1);
   printf("%d", temp_var_2[0].fld1);
   return 1;



All of this returns 12345 0

share|improve this question
Would making them static and "exporting" them by means of dedicated "get()" functions, returning pointers to them, help? – Alexey Frunze Oct 3 '12 at 10:04
The regular limitation is that there should be no multiple global objects sharing the same name. There might be some tools to alter the symbol names within compiled libraries. – Alexey Frunze Oct 3 '12 at 10:06
this is theoretically possible, but there is a really HUGE amount of those variables. Of course, all of them have different names (in reality, those two that I have evidence of have names of "balances" and "fld54" correspondingly. – thedimitrius Oct 3 '12 at 10:24
up vote 1 down vote accepted
printf("var1 addr is %p, var2 addr is %p\n", (void*)&var1, ptr_to_var2);

In this, you are trying to print value of ptr_to_var2 not actually the address of it. As this variable is not initialized yet, its value is random as can be anything.


char v[1000];

void *p1;

int main() {

    printf ("var1 %p, var2 %p  &var2 %p\n", &v[0], p1, &p1);

    return 0;


var1 0x601040, var2 (nil)  &var2 0x601428
share|improve this answer

With the extern clause you are telling the compiler to resolve that symbol when it links. After linking, in the binary file there will be just one symbol with the name ptr_to_var. You, of course, must assure that it gets initialised somewhere. In the code you pasted, we cannot know whether it's been initialised or not. Though it seems you didn't.

By the way, try to make an nm to the libraries. You will see the symbols that you specified as extern as undefined (capital u), except in that library or object file where is it indeed defined (i.e., declared without the extern clause).

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