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I have the following C code:

static void* heap;
static unsigned int ptr;

int main(void) {
    ...
    heap=(void*)malloc(10000*sizeof(char));
    ptr=&heap;

    /*Actual sniffing*/
    pcap_loop(handle,-1,callback,NULL);

    return 0;
}

And here is the callback function that gets called every once in a while:

void callback(u_char *useless,const struct pcap_pkthdr* header,const u_char* packet){
   const u_char *payload;
   ...
   payload = (u_char *)(packet + size_ethernet + size_ip + size_tcp);

   unsigned int hash=DJBHash(payload,strlen(payload));
   printf("%u\n",hash);   //ok

   int len=strlen(payload)*sizeof(u_char);

   printf("len:%d, ptr:%d\n",len,ptr);   //ok

   memcpy(ptr,(char)payload,len*sizeof(u_char));   //I'm getting a seg fault here!
   ptr+=len;
}

Here is my dump from valgrind:

==8687== Memcheck, a memory error detector
==8687== Copyright (C) 2002-2010, and GNU GPL'd, by Julian Seward et al.
==8687== Using Valgrind-3.6.1 and LibVEX; rerun with -h for copyright info
==8687== Command: ./ByteCache
==8687== 
==8687== Syscall param socketcall.setsockopt(optval) points to uninitialised byte(s)
==8687==    at 0x514D12A: setsockopt (syscall-template.S:82)
==8687==    by 0x4E34991: ??? (in /usr/lib/libpcap.so.1.1.1)
==8687==    by 0x4E34AB2: ??? (in /usr/lib/libpcap.so.1.1.1)
==8687==    by 0x401A3F: main (ByteCache.c:123)
==8687==  Address 0x7fefffb42 is on thread 1's stack
==8687== 
2912431451
len:12, ptr:6304012
==8687== Invalid read of size 8
==8687==    at 0x4C2A337: memcpy (mc_replace_strmem.c:635)
==8687==    by 0x4018CB: callback (ByteCache.c:77)
==8687==    by 0x4E34E24: ??? (in /usr/lib/libpcap.so.1.1.1)
==8687==    by 0x4E3A818: pcap_loop (in /usr/lib/libpcap.so.1.1.1)
==8687==    by 0x401AB4: main (ByteCache.c:133)
==8687==  Address 0x80 is not stack'd, malloc'd or (recently) free'd
==8687== 
==8687== 
==8687== Process terminating with default action of signal 11 (SIGSEGV)
==8687==  Access not within mapped region at address 0x80
==8687==    at 0x4C2A337: memcpy (mc_replace_strmem.c:635)
==8687==    by 0x4018CB: callback (ByteCache.c:77)
==8687==    by 0x4E34E24: ??? (in /usr/lib/libpcap.so.1.1.1)
==8687==    by 0x4E3A818: pcap_loop (in /usr/lib/libpcap.so.1.1.1)
==8687==    by 0x401AB4: main (ByteCache.c:133)
==8687==  If you believe this happened as a result of a stack
==8687==  overflow in your program's main thread (unlikely but
==8687==  possible), you can try to increase the size of the
==8687==  main thread stack using the --main-stacksize= flag.
==8687==  The main thread stack size used in this run was 8388608.
==8687== 
==8687== HEAP SUMMARY:
==8687==     in use at exit: 22,711 bytes in 11 blocks
==8687==   total heap usage: 41 allocs, 30 frees, 38,352 bytes allocated
==8687== 
==8687== LEAK SUMMARY:
==8687==    definitely lost: 0 bytes in 0 blocks
==8687==    indirectly lost: 0 bytes in 0 blocks
==8687==      possibly lost: 0 bytes in 0 blocks
==8687==    still reachable: 22,711 bytes in 11 blocks
==8687==         suppressed: 0 bytes in 0 blocks
==8687== Reachable blocks (those to which a pointer was found) are not shown.
==8687== To see them, rerun with: --leak-check=full --show-reachable=yes
==8687== 
==8687== For counts of detected and suppressed errors, rerun with: -v
==8687== Use --track-origins=yes to see where uninitialised values come from
==8687== ERROR SUMMARY: 2 errors from 2 contexts (suppressed: 4 from 4)
Segmentation fault

Unfortunately, I can't seem to make much sense of it.

Any insight greatly appreciated.

Many thanks in advance,


Thanks to Kerrick SB, I've gotten one step further.

Here now is the output:

eamorr@Compaq6000:/mnt/eamorr/workspace/ByteCache/Debug# ./ByteCache
361457034
len:872, ptr:6304000
46267872
len:12, ptr:-92779411
Segmentation fault

I can see a negative ptr? I have no idea how this is possible. I've even changed ptr to type unsigned int.

share|improve this question
    
May it happen that the function is called many times and increment ptr so much it overruns the buffer? –  sharptooth Jul 28 '11 at 9:05
    
Yes, the function is called many times and the buffer could be overrun. However, I'm getting the seg fault the very first time callback is called... –  Eamorr Jul 28 '11 at 9:06
    
Why are you printing an unsigned value with %d? It should be %u. Anyway, it looks like something else is messing up the value of ptr between calls. –  Kerrek SB Jul 28 '11 at 9:17
    
Yes, it should indeed be %u. I don't really know what could be messing up ptr between calls. –  Eamorr Jul 28 '11 at 9:19

2 Answers 2

up vote 3 down vote accepted

memcpy takes void pointers as its arguments, yet you're casting the second argument to a char. To fix this:

memcpy(ptr, (const void *) payload, len * sizeof(u_char));

For that matter, why don't you declare ptr as void** (i.e. say static void ** ptr;)?

Also, why all the excessive casting? You don't need to cast the result of malloc() or of the payload = assignment, as they're already the correct type. Finally, len should probably be of type size_t, because it's a size type (i.e. unsigned).

share|improve this answer
    
Hi, many thanks for the response! When I replace my memcpy(...) with your line, I get one step further - I now get a seg fault when entering the callback function for the second time... Also, I have to figure out how to declar ptr as void** - I'm a bit of a noob at pointers... I've updated the OP to include the output. –  Eamorr Jul 28 '11 at 9:09
    
also, in case you want to keep ptr as an integer as opposed to a pointer, then at least use a long, as int is only 32bit long on 64bit machines and it will fail storing the pointer correctly. –  Soren Jul 29 '11 at 1:49

I don't think you want to do ptr = &heap, you want ptr = heap. malloc returns a pointer to the memory it allocated, which seems to be what you're trying to refer to in your callback.

You only want to use the & to get the address of something. For example: MyStructure MyVariable; void* pAPointer = &MyVariable;

If you're malloc-ing you get a pointer returned so: MyStructure *pPointerToStructure = malloc(sizeof(MyStructure));

to use the & on pPointerToStructure gives you the pointer to the pointer, not to the allocated memory from the malloc call

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