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I'm getting a segmentation fault when I do free() in the delete function of the following linked list implementation. Please take a look and tell me where I am going wrong. When I run this program with valgrind, there is no seg. fault, it runs fine. So I am not able to figure out the problem.

typedef struct node {
    char name[100];
    int id;
    struct node* next;
} Node;

void insert(Node** p, char* _name, int _id)
{
    Node *temp, *prev;
    temp = malloc(sizeof(struct node));
    temp->next = NULL;
    strcpy(temp->name,_name);
    temp->id = _id;

    if(*p == NULL) {
            *p = temp;
    }
    else {
            for(prev = *p; prev->next!=NULL; prev=prev->next);
            prev->next=temp;
    }
}

/* Delete entry
  @params p    first element
       _id     ID to delete
*/
void delete_by_id(Node** p, int _id) {
    Node *temp, *prev;
    prev = NULL;
    for(temp = *p; temp!= NULL; prev = temp, temp=temp->next) {
            if(temp->id == _id) {
                printf("Deleting entry with id: %d\n", temp->id);
                if(prev == NULL)
                     *p = temp->next;
                else
                     prev->next= temp->next;
                free(temp);
                return;
            }
    }     
}

Here is part of the code from the main program:

Node* p;  
int main() {
      ...
      ...
      buf[rval]=0;
      char* tokens = strtok(buf, "+");
      char* strArray[5]; /* up-to 5 words can be stored */
      int n = 0;
      while (tokens)
      {
        strArray[n] = malloc(strlen(tokens) + 1);
        strcpy(strArray[n++], tokens);
        tokens = strtok(NULL, "+");
      }
      int type = 0;
      if(strcmp(strArray[0], "1") == 0)
            type = 1;
      else
            type = 2;
      char* name = "";  
      if(type == 1) {
            name = strArray[1];
            insert(&p, name, clients[i]);
            display(&p);
      } else {
            name = strArray[1];
            rval = search(&p, name);
            if(rval) { 
                delete_by_id(&p, rval);
                display(&p);
            }
      }

      for (i = 0; i < 5; i++)
      {
        if (strArray[i]) // check for null data 
            free(strArray[i]);
      }
      ...
      ...
}

int search(Node** p, char* _name) {
    Node *temp;
    for (temp = *p; temp!= NULL; temp = temp->next) {
            if (strcmp((char *)temp->name, _name)==0) {
                    printf("Name matched: %s\n", temp->name);
                    return temp->id;
            }
    }
    return 0;
}

Valgrind is complaining about the malloc and free used for strArray but not for the linked list.

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10  
It would be worth showing a short (10-20 line) main() program that shows how you are allocating and freeing the list using the functions shown. –  Jonathan Leffler Apr 13 '12 at 20:56
    
You should use strncpy to avoid overrunning node.name. –  ergosys Apr 13 '12 at 21:36
    
@Jonathan Leffler I have added the main() code, please take a look. –  ddd Apr 13 '12 at 22:37
    
You don't need to check for NULL when freeing a pointer. free(NULL); is well-defined behaviour (it does nothing, free is defined to ignore the NULL pointer). –  dreamlax Apr 13 '12 at 22:41
    
why do you do char* name = ""; if(type == 1) { name = strArray[1];... ? char *name = ""; creates string literal that is readonly (to be exact undefined behavior, but mostly hardcoded into program to unreadable chunk of memory). –  AoeAoe Apr 13 '12 at 23:06

3 Answers 3

Print out the addresses returned by malloc(), and also print out the value of temp immediately before the call to free(). Make sure that what's being passed to free() matches what you expect. If somehow you are passing a pointer to free() that didn't come from malloc(), you can encounter problems like you are seeing.

There's also a possibility that the function delete_by_id() is using an invalid pointer. The p parameter is dereferenced before it's checked for NULL. I recommend walking through the function in your debugger and making sure that all of the pointers look as you expect them to look.

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Run your program through valgrind. Segfaults on free are usually due to writes outside of the allocated memory (which overwrites/corrupts the wrappers that the system places before/after allocated memory). Valgrind is usually the easiest way to find out when the writes in question happens.

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I used valgrind, but then the program runs fine. There is no seg. fault happening and valgrind doesnt seem to point out any memory errors. The fault is occurring only when I run the program by itself. –  ddd Apr 13 '12 at 21:28
    
In that case, I have to agree with Jonathan Leffler: Please show us how you call the functions in your code. If you haven't tried it, run it through valgrind when compiled with optimizations. Memory errors will somtimes not show themselves until you compile with optimizations. –  Leo Apr 13 '12 at 21:35
    
Ok, Thanks Leo. I have added the main() code, please take a look. –  ddd Apr 13 '12 at 22:37
    
@ddd: Show us how you invoked valgrind. For starters try valgrind -v --leak-check=full ./executable and see what you get. –  dreamlax Apr 13 '12 at 22:42
    
Thanks @dreamlax. I tried that command and this is what I got: ==11512== HEAP SUMMARY: ==11512== in use at exit: 0 bytes in 0 blocks ==11512== total heap usage: 8 allocs, 8 frees, 191 bytes allocated ==11512== ==11512== All heap blocks were freed -- no leaks are possible ==11512== ==11512== Use --track-origins=yes to see where uninitialised values come from ==11512== ERROR SUMMARY: 109 errors from 21 contexts (suppressed: 11 from 6) –  ddd Apr 13 '12 at 22:58

Let your program dump core and analyze the core in GDB:

gdb -c yourprog.core yourprog

then do a full backtrace:

(gdb) bt full

This will show you where exactly the reason for your segfault is and what values were passed to the function.

(edit) Oh, and compile your program with the GCC -g switch to have debugging information.

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