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I have a question regarding this code. I write this code in my framework, and it caused the framework crashed. But when I rewrite this code below in a single file, but it works just fine. I was just wondering, is the code below is correct for memory allocation and freeing it? (especially for the part of msg->context_var.type = f;) Thank you

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

typedef struct
  int value;
  int price;
  int old;
} type_t;

typedef struct {
  type_t            *type;  
} context_t;

typedef struct {
  context_t context_var; 
} send_request;

void send_Message(send_request *msg)

type_t *f = 0;
f = malloc(sizeof(f));
msg->context_var.type = f;
msg->context_var.type->price = 1;
msg->context_var.type->value = 100;
msg->context_var.type->old =120;

printf("value of %d/n", msg->context_var.type->price);

int main()

    send_request *msg = 0;
    msg = (send_request *) malloc(sizeof(send_request));

    return 0;
share|improve this question
up vote 7 down vote accepted

It's wrong.

f = malloc(sizeof(f)); /* Wrong */
f = malloc(sizeof(*f)); /* Better ? */

sizeof(f) will give you the size of a pointer on your machine; sizeof(*f) will give you the size of the object pointed to.

EDIT As requested by @Perception

When you allocate less than you need you're eliciting Undefined Behavior. Anything can happen (even the desired behavior) and it all depends on the platform, the environment (the moon phase, etc).

msg->context_var.type->value = 100; /* Writes beyond what's allocated. */

So, depending on the memory layout of the "framework" this might simply overwrite some memory and "work", or it could crash. Frankly I prefer when it crashes straight away.

share|improve this answer
Another way might be to combine the declaration and assignment, and pass sizeof(type_t) to malloc. – Martin Törnwall Jul 13 '11 at 17:03
@Martin Törnwall I like it but sadly I have to avoid it when using non-c99 compilers (like cl). – cnicutar Jul 13 '11 at 17:04
@Martin Törnwall , what do you mean with combining declaration and assignment? Sorry I do not get it.. – heike Jul 13 '11 at 17:05
@cnicutar - could you expand your answer to include why it 'appears' to work, then crashes in his framework. Re: access to unallocated memory segments. Thanks. – Perception Jul 13 '11 at 17:52
@Perception Done. – cnicutar Jul 13 '11 at 17:59

Not only are you allocating wrong size (see cnicutar's answer)-- If you are attaching f to message that is passed by the framework, you probably don't want to free it before the function returns. You'll need to free it later, though-- probably through some other facility provided by the framework?

share|improve this answer

You allocate an instance of context_t on the heap, and then msg->context_var.type gets the value of the resulting pointer f.

Since msg is a pointer parameter to the send_Message function, no reliable assumptions can be made about what is done with msg and its contents after your function exists. As such, when you go on to free the memory pointed to by f, you leave a dangling pointer in msg->context_var.type.

If the memory it points to is accessed after send_Message exists, there's a fair chance that you corrupt something vital (or read something crazy, like a pointer to 0xdeadbeef), as it might contain something completely different now.

share|improve this answer
... but the actual problem is probably that described by cnicutar above. I facepalm myself for missing that. :) – Martin Törnwall Jul 13 '11 at 17:00
i think the same at first like you. then you mean I should also write free(msg->context_var.type) ? I tried free(f) and free(msg->context_var.type) and the framework showed a complete crash :D .. – heike Jul 13 '11 at 17:04

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