Is there a memory leak in the following code example as I have allocated memory on the heap for name which hasn't been freed? If I add free(person->name); before the free(person); line then I get a runtime error in VS "CRT detected that the application wrote to memory after end of heap buffer".


#ifndef HEADER
#define HEADER

typedef struct person {
 char *name;
} Person;



#include <stdio.h>
#include <stdlib.h>
#include "header.h"

#define BUFFERSIZE 500

int main (int argc, char* argv[]){
 Person *person = NULL;
 char buffer[BUFFERSIZE];
 printf("Enter name\n");
 fgets(buffer, BUFFERSIZE, stdin);
  char *name; 
  person = malloc(sizeof(Person));
  name = malloc(strlen(buffer));
  strcpy (name,buffer);
  person->name = name;
 return 0;

Thanks, Rob

  • 4
    2 allocs vs 1 free. What do you expect? – ruslik Oct 24 '10 at 19:11
  • 1
    Compare: mkdir person; mkdir person\name; deltree /Y person. Two resource allocations, one resource release. free doesn't work that way, and now he knows. – Thomas L Holaday Oct 24 '10 at 19:21

Yes, the code has a memory leak.

The culprit is: name = malloc(strlen(buffer)); which should be
name = malloc(strlen(buffer)+1); to account for \0.

You should now be able to free person->name.


strlen doesn't account for the null-terminator that strcpy adds, you'll need to "malloc(strlen(buffer)+1)"

  • 1
    You can call strdup, for a one pass, malloc+1 and copy on a string operation. – Chris Becke Oct 24 '10 at 19:10
  • 1
    strdup() is, however, nonstandard C. :) – Jonathan Grynspan Oct 24 '10 at 19:12

Yes. There is a memory leak.

You allocate a name buffer:

name = malloc(strlen(buffer));

and never deallocate it. Then when you deallocate the Person,


you lose your last pointer to that buffer, so you can never deallocate it.

The error message you are getting is a separate issue related to the length of the name buffer that you allocate being insufficient to include the null termination of the string you try to copy into it.


name is never freed, so it leaks.

Complex heap-allocated structures like this are often best handled by a move to C++, or (if that isn't feasible) by wrapping the memory management in custom create/destroy/manipulation functions:

Person *CreatePerson(void) {
    /* you can use calloc() here, of course */
    Person *result = malloc(sizeof(Person));
    if (result) {
        memset(result, 0, sizeof(Person));
    return result;

void DestroyPerson(Person *p) {
    if (p) {

void SetPersonName(Person *p, const char *name) {
    if (p) {
        if (p->name) {
            p->name = NULL;

        if (name) {
            size_t len = strlen(name);
            p->name = malloc(len + 1);
            if (p->name) {
                strncpy(p->name, name, len);
                p->name[len] = 0;

const char *GetPersonName(const Person *p) {
    if (p)
        return p->name;
    return NULL;

However, as you can see by the amount of code involved, C++ is often the better choice:

class Person {
    private: std::string name;

    public: const std::string& getName(void) const {
        return this->name;

    public: void setName(const std::string& newName) {
        this->name = newName;

Much shorter, cleaner, and clearer!

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