refptr.rs - mozsearch

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/* This Source Code Form is subject to the terms of the Mozilla Public

 * License, v. 2.0. If a copy of the MPL was not distributed with this

 * file, You can obtain one at https://mozilla.org/MPL/2.0/. */

//! A rust helper to ease the use of Gecko's refcounted types.

use crate::gecko_bindings::{bindings, structs};

use crate::Atom;

use servo_arc::Arc;

use std::fmt::Write;

use std::marker::PhantomData;

use std::ops::Deref;

use std::{fmt, mem, ptr};

/// Trait for all objects that have Addref() and Release

/// methods and can be placed inside RefPtr<T>

pub unsafe trait RefCounted {

    /// Bump the reference count.

    fn addref(&self);

    /// Decrease the reference count.

    unsafe fn release(&self);

/// Trait for types which can be shared across threads in RefPtr.

pub unsafe trait ThreadSafeRefCounted: RefCounted {}

/// A custom RefPtr implementation to take into account Drop semantics and

/// a bit less-painful memory management.

pub struct RefPtr<T: RefCounted> {

    ptr: *mut T,

    _marker: PhantomData<T>,

impl<T: RefCounted> fmt::Debug for RefPtr<T> {

    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {

        f.write_str("RefPtr { ")?;

        self.ptr.fmt(f)?;

        f.write_char('}')

impl<T: RefCounted> RefPtr<T> {

    /// Create a new RefPtr from an already addrefed pointer obtained from FFI.

///

    /// The pointer must be valid, non-null and have been addrefed.

    pub unsafe fn from_addrefed(ptr: *mut T) -> Self {

        debug_assert!(!ptr.is_null());

        RefPtr {

            ptr,

            _marker: PhantomData,

    /// Returns whether the current pointer is null.

    pub fn is_null(&self) -> bool {

        self.ptr.is_null()

    /// Returns a null pointer.

    pub fn null() -> Self {

        Self {

            ptr: ptr::null_mut(),

            _marker: PhantomData,

    /// Create a new RefPtr from a pointer obtained from FFI.

///

    /// This method calls addref() internally

    pub unsafe fn new(ptr: *mut T) -> Self {

        let ret = RefPtr {

            ptr,

            _marker: PhantomData,

};

        ret.addref();

ret

    /// Produces an FFI-compatible RefPtr that can be stored in style structs.

///

    /// structs::RefPtr does not have a destructor, so this may leak

    pub fn forget(self) -> structs::RefPtr<T> {

        let ret = structs::RefPtr {

            mRawPtr: self.ptr,

            _phantom_0: PhantomData,

};

        mem::forget(self);

ret

    /// Returns the raw inner pointer to be fed back into FFI.

    pub fn get(&self) -> *mut T {

        self.ptr

    /// Addref the inner data, obviously leaky on its own.

    pub fn addref(&self) {

        if !self.ptr.is_null() {

            unsafe {

                (*self.ptr).addref();

    /// Release the inner data.

///

    /// Call only when the data actually needs releasing.

    pub unsafe fn release(&self) {

        if !self.ptr.is_null() {

            (*self.ptr).release();

impl<T: RefCounted> Deref for RefPtr<T> {

    type Target = T;

    fn deref(&self) -> &T {

        debug_assert!(!self.ptr.is_null());

        unsafe { &*self.ptr }

impl<T: RefCounted> structs::RefPtr<T> {

    /// Produces a Rust-side RefPtr from an FFI RefPtr, bumping the refcount.

///

    /// Must be called on a valid, non-null structs::RefPtr<T>.

    pub unsafe fn to_safe(&self) -> RefPtr<T> {

        let r = RefPtr {

            ptr: self.mRawPtr,

            _marker: PhantomData,

};

        r.addref();

    /// Produces a Rust-side RefPtr, consuming the existing one (and not bumping

    /// the refcount).

    pub unsafe fn into_safe(self) -> RefPtr<T> {

        debug_assert!(!self.mRawPtr.is_null());

        RefPtr {

            ptr: self.mRawPtr,

            _marker: PhantomData,

    /// Replace a structs::RefPtr<T> with a different one, appropriately

    /// addref/releasing.

///

    /// Both `self` and `other` must be valid, but can be null.

///

    /// Safe when called on an aliased pointer because the refcount in that case

    /// needs to be at least two.

    pub unsafe fn set(&mut self, other: &Self) {

        self.clear();

        if !other.mRawPtr.is_null() {

            *self = other.to_safe().forget();

    /// Clear an instance of the structs::RefPtr<T>, by releasing

    /// it and setting its contents to null.

///

    /// `self` must be valid, but can be null.

    pub unsafe fn clear(&mut self) {

        if !self.mRawPtr.is_null() {

            (*self.mRawPtr).release();

            self.mRawPtr = ptr::null_mut();

    /// Replace a `structs::RefPtr<T>` with a `RefPtr<T>`,

    /// consuming the `RefPtr<T>`, and releasing the old

    /// value in `self` if necessary.

///

    /// `self` must be valid, possibly null.

    pub fn set_move(&mut self, other: RefPtr<T>) {

        if !self.mRawPtr.is_null() {

            unsafe {

                (*self.mRawPtr).release();

        *self = other.forget();

impl<T> structs::RefPtr<T> {

    /// Returns a new, null refptr.

    pub fn null() -> Self {

        Self {

            mRawPtr: ptr::null_mut(),

            _phantom_0: PhantomData,

    /// Create a new RefPtr from an arc.

    pub fn from_arc(s: Arc<T>) -> Self {

        Self {

            mRawPtr: Arc::into_raw(s) as *mut _,

            _phantom_0: PhantomData,

    /// Sets the contents to an Arc<T>.

    pub fn set_arc(&mut self, other: Arc<T>) {

        unsafe {

            if !self.mRawPtr.is_null() {

                let _ = Arc::from_raw(self.mRawPtr);

            self.mRawPtr = Arc::into_raw(other) as *mut _;

impl<T: RefCounted> Drop for RefPtr<T> {

    fn drop(&mut self) {

        unsafe { self.release() }

impl<T: RefCounted> Clone for RefPtr<T> {

    fn clone(&self) -> Self {

        self.addref();

        RefPtr {

            ptr: self.ptr,

            _marker: PhantomData,

impl<T: RefCounted> PartialEq for RefPtr<T> {

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

        self.ptr == other.ptr

unsafe impl<T: ThreadSafeRefCounted> Send for RefPtr<T> {}

unsafe impl<T: ThreadSafeRefCounted> Sync for RefPtr<T> {}

macro_rules! impl_refcount {

    ($t:ty, $addref:path, $release:path) => {

        unsafe impl RefCounted for $t {

            #[inline]

            fn addref(&self) {

                unsafe { $addref(self as *const _ as *mut _) }

            #[inline]

            unsafe fn release(&self) {

                $release(self as *const _ as *mut _)

};

// Companion of NS_DECL_THREADSAFE_FFI_REFCOUNTING.

//

// Gets you a free RefCounted impl implemented via FFI.

macro_rules! impl_threadsafe_refcount {

    ($t:ty, $addref:path, $release:path) => {

        impl_refcount!($t, $addref, $release);

        unsafe impl ThreadSafeRefCounted for $t {}

};

impl_threadsafe_refcount!(

    structs::mozilla::URLExtraData,

    bindings::Gecko_AddRefURLExtraDataArbitraryThread,

    bindings::Gecko_ReleaseURLExtraDataArbitraryThread

);

impl_threadsafe_refcount!(

    structs::nsIURI,

    bindings::Gecko_AddRefnsIURIArbitraryThread,

    bindings::Gecko_ReleasensIURIArbitraryThread

);

impl_threadsafe_refcount!(

    structs::SheetLoadDataHolder,

    bindings::Gecko_AddRefSheetLoadDataHolderArbitraryThread,

    bindings::Gecko_ReleaseSheetLoadDataHolderArbitraryThread

);

#[inline]

unsafe fn addref_atom(atom: *mut structs::nsAtom) {

    mem::forget(Atom::from_raw(atom));

#[inline]

unsafe fn release_atom(atom: *mut structs::nsAtom) {

    let _ = Atom::from_addrefed(atom);

impl_threadsafe_refcount!(structs::nsAtom, addref_atom, release_atom);