8

Since it's my first time learning systems programming, I'm having a hard time wrapping my head around the rules. Now, I got confused about memory leaks. Let's consider an example. Say, Rust is throwing a pointer (to a string) which Python is gonna catch.

In Rust, (I'm just sending the pointer of the CString)

use std::ffi::CString;

pub extern fn do_something() -> *const c_char {
    CString::new(some_string).unwrap().as_ptr()
}

In Python, (I'm dereferencing the pointer)

def call_rust():
    lib = ctypes.cdll.LoadLibrary(rustLib)
    lib.do_something.restype = ctypes.c_void_p
    c_pointer = lib.do_something()
    some_string = ctypes.c_char_p(c_pointer).value

Now, my question is about freeing the memory. I thought it should be freed in Python, but then ownership pops in. Because, as_ptr seems to take an immutable reference. So, I got confused about whether I should free the memory in Rust or Python (or both?). If it's gonna be Rust, then how should I go about freeing it when the control flow has landed back into Python?

  • 1
    Note that in this case, there is no memory leak. Instead, it is a use-after-free error, which is usually much more destructive. – Shepmaster Jul 13 '15 at 22:38
8

Your Rust function do_something constructs a temporary CString, takes a pointer into it, and then drops the CString. The *const c_char is invalid from the instant you return it. If you're on nightly, you probably want CString#into_ptr instead of CString#as_ptr, as the former consumes the CString without deallocating the memory. On stable, you can mem::forget the CString. Then you can worry about who is supposed to free it.

Freeing from Python will be tricky or impossible, since Rust may use a different allocator. The best approach would be to expose a Rust function that takes a c_char pointer, constructs a CString for that pointer (rather than copying the data into a new allocation), and drops it. Unfortunately the middle part (creating the CString) seems impossible on stable for now: CString::from_ptr is unstable.

A workaround would to pass (a pointer to) the entire CString to Python and provide an accessor function to get the char pointer from it. You simply need to box the CString and transmute the box to a raw pointer. Then you can have another function that transmutes the pointer back to a box and lets it drop.

  • CString is represented as Box<[u8]>; std::raw::Slice (unstable) shows the representation of that type. Transmuting back and forth is likely to be the best way if you want to transfer ownership. – Chris Morgan Jun 26 '15 at 23:12
  • @ChrisMorgan CString became a Box<[u8]> at the same time I added into_ptr; before that, it was a Vec<u8> . – Shepmaster Jun 26 '15 at 23:14
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    @Shepmaster: I see that commenting on it based on the current source code rather than the stable source code is a bad idea. Or rather, transmuting is hazardous. Ah well, at least mem::transmute::<CString, *const [u8]>() would fail to compile because of size mismatch. – Chris Morgan Jun 26 '15 at 23:16
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    @Waffle'sCrazyPeanut I'd love to hear how I could make that documentation clearer. The important point is that Rust must be the thing that frees anything that Rust created. – Shepmaster Jun 26 '15 at 23:49
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    @Waffle'sCrazyPeanut it depends on how long your program will run and how often the function is going to be called. Each time you call the function, memory will be leaked (the amount depends on the length of your string). If you do it very often (and during enough time), you could run out of memory (which would result in a crash). This is not something you would like to have in a web server, for example. – aochagavia Jun 27 '15 at 8:38

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