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I have a structure allocated like so:

static struct cparray_buffer_t *_cparray;

struct __attribute__ ((__packed__)) cparray_buffer_t 
    u_int64_t buflen;
    u_char buf[buffersize];

_cparray = (struct cparray_buffer_t *)calloc(1024, sizeof(struct cparray_buffer_t);

and later on in the program I try to do a memcpy like so

memcpy(_cparray[0].buf, test, buffersize);

and I get a sigsegv

Am I making the reference correctly in the memcpy?

edit: in gdb, it seems like the address for _cparray is 0x0 when it comes time to actually use the array. I tried to put a data watchpoint on _cparray and I don't see anything freeing it. Interestingly enough, if I put a watching on &_cparray it still has a valid address, but *&_cparray is 0x0

edit2: Don't know if it makes a difference, but the calloc is in thread1, and the segfault is happening in thread2. I was under the impression global statics are visible to all threads though. is this correct?


What is going on?

Here is the output from the watchpoint on _cparray

Old value = (struct cparray_buffer_t *) 0x284ba000
New value = (struct cparray_buffer_t *) 0x0
0x28102c83 in sem_init () from /lib/libc.so.7
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just make sure that _cparray[0].buf and test are allocated, and both larger than buffersize and it should work –  Sam I am Aug 8 '12 at 19:46
edited with more info –  Derek Aug 8 '12 at 19:49
So, calloc() is returning 0x0? Or is _cparray somehow getting overwritten later? –  twalberg Aug 8 '12 at 19:53
in your debugger is _cparray allocated on the line after you believe that you allocate it? –  Sam I am Aug 8 '12 at 19:55
Have you tried using Valgrind to see if you have some sort of memory stomping happening somewhere else unrelated? Have you tried setting a data watchpoint? –  Adam Rosenfield Aug 8 '12 at 20:41

1 Answer 1

Global variables are visible from all threads whether static or not. The static keyword just gives the variable file scope so that it is only visible within the file. Since it is only visible within the file, the code using the variable must be in the file where it is defined.

One problem that I have seen is where people put a static variable into a header file expecting the variable to be visible to more than one file. The result is that the static variable is duplicated in each file the header is included resulting in several different instances of the static variable none of which are shared between the various files because they are different memory locations.

Since this is a multi-threaded application with one thread creating the memory area and a second thread using the memory area, you may have a race condition in which the second thread is accessing the memory area before it has been allocated by the first thread.

I would first of all initialize the pointer to a known value for instance

static struct cparray_buffer_t *_cparray = 0;

In the second thread you can then test whether the variable has an address with a check against 0 and if it is zero then sleep and retry until it becomes nonzero meaning that the first thread has allocated the memory. A preferred approach would be for the first thread to allocate the memory and then start the second thread to use the memory. Or you may use some other thread synchronization so long as the second thread waits until the first thread has allocated the memory before it tries to use the pointer.

The memcpy() function call looks correct assuming that test is a pointer of some kind such as an array. I assume that the code would look something like:

u_char test[buffersize];
// do some things involving test

// save the things put into test
memcpy (_cparray[0].buf, test, buffersize);
share|improve this answer
Globals are automatically initialized to 0. And arrays aren't pointers. –  Carl Norum Aug 9 '12 at 15:17

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