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Update: the original answer is not valid anymore in Rust 1.0.0-alpha (and in later versions as well). It can be found below for historical reasons.

The best way to convert a C string to a Rust string is to use functions provided by std::ffi module, namely c_str_to_bytes() and c_str_to_bytes_with_nul(). These functions get a reference to the pointer to c_char and create a slice of u8 with the same lifetime as the pointer. Then, if you know that the string is in UTF-8, you can create a string slice or allocate a new owned string from these bytes:

use libc::c_char;
use std::ffi;
use std::str;

extern {
    fn hello() -> *const c_char;

fn main() {
    let c_buf: *c_char = unsafe { hello() };
    let buf: &[u8] = unsafe { ffi::c_str_to_bytes(&c_buf) };
    let str_slice: &str = std::from_utf8(buf).unwrap();
    let str_buf: String = String::from_utf8(buf.to_vec()).unwrap();

You need, however, take into account the lifetime of your *c_char pointers and who owns them. Depending on the C API you may need to call special deallocation function on the string. Hence you need to carefully arrange conversions so the slices won't outlive the pointer. The fact that c_str_to_bytes() take a reference to a pointer and returns a slice of the same lifetime as this reference helps; for example, you can encapsulate your C string into a structure and provide a deref conversion so you can use your struct as if it was a string slice:

extern {
    fn hello() -> *const c_char;
    fn goodbye(s: *const c_char);

struct Greeting {
    message: *const c_char

impl Drop for Greeting {
    fn drop(&mut self) {
        unsafe { goodbye(self.message); }

impl Greeting {
    fn new() -> Greeting {
        Greeting {
            message: unsafe { hello() }

impl Deref for Greeting {
    type Target = str;

    fn deref<'a>(&'a self) -> &'a str {
        let bytes = unsafe {

There is also another type in std::ffi module, namely CString, which helps with another problem: how to use Rust string in C world. CString is a special type which encapsulates a Vec<u8> and provides a guarantee that it ends with a zero byte, much like the regular String which provides a guarantee that it contains a valid UTF-8 sequence. The unfortunate thing is that in order to pass Rust strings to C functions you need to allocate because C strings ends with a zero character and Rust strings do not. If you do own your string, however, full allocation may be unnecessary because CString can take an ownership over some existing Vec and just append a single byte to it, which may not require a reallocation.

There are two ways to create a CString: from a slice of bytes and from a Vec of bytes:

 // will allocate a new buffer and copy all of the slice contents to it
 let s = CString::from_slice("abcde".as_bytes());

 let v = "abcde".as_bytes().into_vec();
 // will take ownership of the Vec<u8> and append a single byte to it
 let s = CString::from_vec(v);

CString has a deref conversion to &[c_char], so you can obtain *const c_char via as_ptr() method defined on slices:

 let p: *const c_char = s.as_ptr();
 unsafe { some_c_function(p); }

Obsolete information below

The best way to use C strings in Rust is to wrap them into std::c_str::CString structure:

use std::c_str::CString;

let s = unsafe {
    let c_ptr = hello();
    CString::new(c_ptr, false)  // false because you don't own this string, it is static

Then you can obtain &str from s:

let s_slice: &str = s.as_str().unwrap();

as_str() returns Option<&'a str> because the buffer might not contain a valid UTF-8 sequence (though this is not your case, so I'm just unwrapping it here).

CString is very convenient; you can look through its documentation to find out what more it can do. For example, if your C library is designed in such way that you need to free returned strings by yourself, you can leave it to CString destructor (by passing true as the second argument of CString::new() method).