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/* Copyright 2018-2019 Mozilla Foundation

 * Licensed under the Apache License (Version 2.0), or the MIT license,

 * (the "Licenses") at your option. You may not use this file except in

 * compliance with one of the Licenses. You may obtain copies of the

 * Licenses at:

 *    http://www.apache.org/licenses/LICENSE-2.0

 *    http://opensource.org/licenses/MIT

 * Unless required by applicable law or agreed to in writing, software

 * distributed under the Licenses is distributed on an "AS IS" BASIS,

 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

 * See the Licenses for the specific language governing permissions and

 * limitations under the Licenses. */

use std::ffi::CStr;

use std::marker::PhantomData;

use std::os::raw::c_char;

/// `FfiStr<'a>` is a safe (`#[repr(transparent)]`) wrapper around a

/// nul-terminated `*const c_char` (e.g. a C string). Conceptually, it is

/// similar to [`std::ffi::CStr`], except that it may be used in the signatures

/// of extern "C" functions.

///

/// Functions accepting strings should use this instead of accepting a C string

/// directly. This allows us to write those functions using safe code without

/// allowing safe Rust to cause memory unsafety.

///

/// A single function for constructing these from Rust ([`FfiStr::from_raw`])

/// has been provided. Most of the time, this should not be necessary, and users

/// should accept `FfiStr` in the parameter list directly.

///

/// ## Caveats

///

/// An effort has been made to make this struct hard to misuse, however it is

/// still possible, if the `'static` lifetime is manually specified in the

/// struct. E.g.

///

/// ```rust,no_run

/// # use ffi_support::FfiStr;

/// // NEVER DO THIS

/// #[no_mangle]

/// extern "C" fn never_do_this(s: FfiStr<'static>) {

///     // save `s` somewhere, and access it after this

///     // function returns.

/// }

/// ```

///

/// Instead, one of the following patterns should be used:

///

/// ```

/// # use ffi_support::FfiStr;

/// #[no_mangle]

/// extern "C" fn valid_use_1(s: FfiStr<'_>) {

///     // Use of `s` after this function returns is impossible

/// }

/// // Alternative:

/// #[no_mangle]

/// extern "C" fn valid_use_2(s: FfiStr) {

///     // Use of `s` after this function returns is impossible

/// }

/// ```

#[repr(transparent)]

pub struct FfiStr<'a> {

    cstr: *const c_char,

    _boo: PhantomData<&'a ()>,

impl<'a> FfiStr<'a> {

    /// Construct an `FfiStr` from a raw pointer.

///

    /// This should not be needed most of the time, and users should instead

    /// accept `FfiStr` in function parameter lists.

///

    /// # Safety

///

    /// Dereferences a pointer and is thus unsafe.

    #[inline]

    pub unsafe fn from_raw(ptr: *const c_char) -> Self {

        Self {

            cstr: ptr,

            _boo: PhantomData,

    /// Construct a FfiStr from a `std::ffi::CStr`. This is provided for

    /// completeness, as a safe method of producing an `FfiStr` in Rust.

    #[inline]

    pub fn from_cstr(cstr: &'a CStr) -> Self {

        Self {

            cstr: cstr.as_ptr(),

            _boo: PhantomData,

    /// Get an `&str` out of the `FfiStr`. This will panic in any case that

    /// [`FfiStr::as_opt_str`] would return `None` (e.g. null pointer or invalid

    /// UTF-8).

///

    /// If the string should be optional, you should use [`FfiStr::as_opt_str`]

    /// instead. If an owned string is desired, use [`FfiStr::into_string`] or

    /// [`FfiStr::into_opt_string`].

    #[inline]

    pub fn as_str(&self) -> &'a str {

        self.as_opt_str()

            .expect("Unexpected null string pointer passed to rust")

    /// Get an `Option<&str>` out of the `FfiStr`. If this stores a null

    /// pointer, then None will be returned. If a string containing invalid

    /// UTF-8 was passed, then an error will be logged and `None` will be

    /// returned.

///

    /// If the string is a required argument, use [`FfiStr::as_str`], or

    /// [`FfiStr::into_string`] instead. If `Option<String>` is desired, use

    /// [`FfiStr::into_opt_string`] (which will handle invalid UTF-8 by

    /// replacing with the replacement character).

    pub fn as_opt_str(&self) -> Option<&'a str> {

        if self.cstr.is_null() {

            return None;

        unsafe {

            match std::ffi::CStr::from_ptr(self.cstr).to_str() {

                Ok(s) => Some(s),

                Err(e) => {

                    log::error!("Invalid UTF-8 was passed to rust! {:?}", e);

                    None

    /// Get an `Option<String>` out of the `FfiStr`. Returns `None` if this

    /// `FfiStr` holds a null pointer. Note that unlike [`FfiStr::as_opt_str`],

    /// invalid UTF-8 is replaced with the replacement character instead of

    /// causing us to return None.

///

    /// If the string should be mandatory, you should use

    /// [`FfiStr::into_string`] instead. If an owned string is not needed, you

    /// may want to use [`FfiStr::as_str`] or [`FfiStr::as_opt_str`] instead,

    /// (however, note the differences in how invalid UTF-8 is handled, should

    /// this be relevant to your use).

    pub fn into_opt_string(self) -> Option<String> {

        if !self.cstr.is_null() {

            unsafe { Some(CStr::from_ptr(self.cstr).to_string_lossy().to_string()) }

        } else {

            None

    /// Get a `String` out of a `FfiStr`. This function is essential a

    /// convenience wrapper for `ffi_str.into_opt_string().unwrap()`, with a

    /// message that indicates that a null argument was passed to rust when it

    /// should be mandatory. As with [`FfiStr::into_opt_string`], invalid UTF-8

    /// is replaced with the replacement character if encountered.

///

    /// If the string should *not* be mandatory, you should use

    /// [`FfiStr::into_opt_string`] instead. If an owned string is not needed,

    /// you may want to use [`FfiStr::as_str`] or [`FfiStr::as_opt_str`]

    /// instead, (however, note the differences in how invalid UTF-8 is handled,

    /// should this be relevant to your use).

    #[inline]

    pub fn into_string(self) -> String {

        self.into_opt_string()

            .expect("Unexpected null string pointer passed to rust")

impl<'a> std::fmt::Debug for FfiStr<'a> {

    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {

        if let Some(s) = self.as_opt_str() {

            write!(f, "FfiStr({:?})", s)

        } else {

            write!(f, "FfiStr(null)")

// Conversions...

impl<'a> From<FfiStr<'a>> for String {

    #[inline]

    fn from(f: FfiStr<'a>) -> Self {

        f.into_string()

impl<'a> From<FfiStr<'a>> for Option<String> {

    #[inline]

    fn from(f: FfiStr<'a>) -> Self {

        f.into_opt_string()

impl<'a> From<FfiStr<'a>> for Option<&'a str> {

    #[inline]

    fn from(f: FfiStr<'a>) -> Self {

        f.as_opt_str()

impl<'a> From<FfiStr<'a>> for &'a str {

    #[inline]

    fn from(f: FfiStr<'a>) -> Self {

        f.as_str()

// TODO: `AsRef<str>`?

// Comparisons...

// Compare FfiStr with eachother

impl<'a> PartialEq for FfiStr<'a> {

    #[inline]

    fn eq(&self, other: &FfiStr<'a>) -> bool {

        self.as_opt_str() == other.as_opt_str()

// Compare FfiStr with str

impl<'a> PartialEq<str> for FfiStr<'a> {

    #[inline]

    fn eq(&self, other: &str) -> bool {

        self.as_opt_str() == Some(other)

// Compare FfiStr with &str

impl<'a, 'b> PartialEq<&'b str> for FfiStr<'a> {

    #[inline]

    fn eq(&self, other: &&'b str) -> bool {

        self.as_opt_str() == Some(*other)

// rhs/lhs swap version of above

impl<'a> PartialEq<FfiStr<'a>> for str {

    #[inline]

    fn eq(&self, other: &FfiStr<'a>) -> bool {

        Some(self) == other.as_opt_str()

// rhs/lhs swap...

impl<'a, 'b> PartialEq<FfiStr<'a>> for &'b str {

    #[inline]

    fn eq(&self, other: &FfiStr<'a>) -> bool {

        Some(*self) == other.as_opt_str()