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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/. */
//! This module provides rust bindings for the XPCOM string types.
//!
//! # TL;DR (what types should I use)
//!
//! Use `&{mut,} nsA[C]String` for functions in rust which wish to take or
//! mutate XPCOM strings. The other string types `Deref` to this type.
//!
//! Use `ns[C]String` (`ns[C]String` in C++) for string struct members, and as
//! an intermediate between rust string data structures (such as `String` or
//! `Vec<u16>`) and `&{mut,} nsA[C]String` (using `ns[C]String::from(value)`).
//! These conversions will attempt to re-use the passed-in buffer, appending a
//! null.
//!
//! Use `ns[C]Str` (`nsDependent[C]String` in C++) as an intermediate between
//! borrowed rust data structures (such as `&str` and `&[u16]`) and `&{mut,}
//! nsA[C]String` (using `ns[C]Str::from(value)`). These conversions should not
//! perform any allocations. This type is not safe to share with `C++` as a
//! struct field, but passing the borrowed `&{mut,} nsA[C]String` over FFI is
//! safe.
//!
//! Use `*{const,mut} nsA[C]String` (`{const,} nsA[C]String*` in C++) for
//! function arguments passed across the rust/C++ language boundary.
//!
//! There is currently no Rust equivalent to `nsAuto[C]String`. Implementing a
//! type that contains a pointer to an inline buffer is difficult in Rust due
//! to its move semantics, which require that it be safe to move a value by
//! copying its bits. If such a type is genuinely needed at some point,
//! <https://bugzilla.mozilla.org/show_bug.cgi?id=1403506#c6> has a sketch of
//! how to emulate it via macros.
//!
//! # String Types
//!
//! ## `nsA[C]String`
//!
//! The core types in this module are `nsAString` and `nsACString`. These types
//! are zero-sized as far as rust is concerned, and are safe to pass around
//! behind both references (in rust code), and pointers (in C++ code). They
//! represent a handle to a XPCOM string which holds either `u16` or `u8`
//! characters respectively. The backing character buffer is guaranteed to live
//! as long as the reference to the `nsAString` or `nsACString`.
//!
//! These types in rust are simply used as dummy types. References to them
//! represent a pointer to the beginning of a variable-sized `#[repr(C)]` struct
//! which is common between both C++ and Rust implementations. In C++, their
//! corresponding types are also named `nsAString` or `nsACString`, and they are
//! defined within the `nsTSubstring.{cpp,h}` file.
//!
//! ### Valid Operations
//!
//! An `&nsA[C]String` acts like rust's `&str`, in that it is a borrowed
//! reference to the backing data. When used as an argument to other functions
//! on `&mut nsA[C]String`, optimizations can be performed to avoid copying
//! buffers, as information about the backing storage is preserved.
//!
//! An `&mut nsA[C]String` acts like rust's `&mut Cow<str>`, in that it is a
//! mutable reference to a potentially borrowed string, which when modified will
//! ensure that it owns its own backing storage. This type can be appended to
//! with the methods `.append`, `.append_utf{8,16}`, and with the `write!`
//! macro, and can be assigned to with `.assign`.
//!
//! ## `ns[C]Str<'a>`
//!
//! This type is an maybe-owned string type. It acts similarially to a
//! `Cow<[{u8,u16}]>`. This type provides `Deref` and `DerefMut` implementations
//! to `nsA[C]String`, which provides the methods for manipulating this type.
//! This type's lifetime parameter, `'a`, represents the lifetime of the backing
//! storage. When modified this type may re-allocate in order to ensure that it
//! does not mutate its backing storage.
//!
//! `ns[C]Str`s can be constructed either with `ns[C]Str::new()`, which creates
//! an empty `ns[C]Str<'static>`, or through one of the provided `From`
//! implementations. Only `nsCStr` can be constructed `From<'a str>`, as
//! constructing a `nsStr` would require transcoding. Use `ns[C]String` instead.
//!
//! When passing this type by reference, prefer passing a `&nsA[C]String` or
//! `&mut nsA[C]String`. to passing this type.
//!
//! When passing this type across the language boundary, pass it as `*const
//! nsA[C]String` for an immutable reference, or `*mut nsA[C]String` for a
//! mutable reference.
//!
//! ## `ns[C]String`
//!
//! This type is an owned, null-terminated string type. This type provides
//! `Deref` and `DerefMut` implementations to `nsA[C]String`, which provides the
//! methods for manipulating this type.
//!
//! `ns[C]String`s can be constructed either with `ns[C]String::new()`, which
//! creates an empty `ns[C]String`, or through one of the provided `From`
//! implementations, which will try to avoid reallocating when possible,
//! although a terminating `null` will be added.
//!
//! When passing this type by reference, prefer passing a `&nsA[C]String` or
//! `&mut nsA[C]String`. to passing this type.
//!
//! When passing this type across the language boundary, pass it as `*const
//! nsA[C]String` for an immutable reference, or `*mut nsA[C]String` for a
//! mutable reference. This struct may also be included in `#[repr(C)]` structs
//! shared with C++.
//!
//! ## `ns[C]StringRepr`
//!
//! This crate also provides the type `ns[C]StringRepr` which acts conceptually
//! similar to an `ns[C]String`, however, it does not have a `Drop`
//! implementation.
//!
//! If this type is dropped in rust, it will not free its backing storage. This
//! can be useful when implementing FFI types which contain `ns[C]String` members
//! which invoke their member's destructors through C++ code.
#![allow(non_camel_case_types)]
#![allow(clippy::missing_safety_doc)]
#![allow(clippy::new_without_default)]
#![allow(clippy::result_unit_err)]
use bitflags::bitflags;
use std::borrow;
use std::cmp;
use std::fmt;
use std::marker::PhantomData;
use std::mem;
use std::ops::{Deref, DerefMut};
use std::os::raw::c_void;
use std::ptr;
use std::slice;
use std::str;
mod conversions;
pub use self::conversions::nscstring_fallible_append_latin1_to_utf8_check;
pub use self::conversions::nscstring_fallible_append_utf16_to_latin1_lossy_impl;
pub use self::conversions::nscstring_fallible_append_utf16_to_utf8_impl;
pub use self::conversions::nscstring_fallible_append_utf8_to_latin1_lossy_check;
pub use self::conversions::nsstring_fallible_append_latin1_impl;
pub use self::conversions::nsstring_fallible_append_utf8_impl;
/// A type for showing that `finish()` was called on a `BulkWriteHandle`.
/// Instantiating this type from elsewhere is basically an assertion that
/// there is no `BulkWriteHandle` around, so be very careful with instantiating
/// this type!
pub struct BulkWriteOk;
/// Semi-arbitrary threshold below which we don't care about shrinking
/// buffers to size. Currently matches `CACHE_LINE` in the `conversions`
/// module.
const SHRINKING_THRESHOLD: usize = 64;
///////////////////////////////////
// Internal Implementation Flags //
///////////////////////////////////
bitflags! {
// While this has the same layout as u16, it cannot be passed
// over FFI safely as a u16.
#[repr(C)]
#[derive(Debug, Copy, PartialEq, Eq, Clone, PartialOrd, Ord, Hash)]
struct DataFlags: u16 {
const TERMINATED = 1 << 0; // IsTerminated returns true
const VOIDED = 1 << 1; // IsVoid returns true
const REFCOUNTED = 1 << 2; // mData points to a heap-allocated, shareable, refcounted
// buffer
const OWNED = 1 << 3; // mData points to a heap-allocated, raw buffer
const INLINE = 1 << 4; // mData points to a writable, inline buffer
const LITERAL = 1 << 5; // mData points to a string literal; TERMINATED will also be set
}
}
bitflags! {
// While this has the same layout as u16, it cannot be passed
// over FFI safely as a u16.
#[repr(C)]
#[derive(Debug, Copy, PartialEq, Eq, Clone, PartialOrd, Ord, Hash)]
struct ClassFlags: u16 {
const INLINE = 1 << 0; // |this|'s buffer is inline
const NULL_TERMINATED = 1 << 1; // |this| requires its buffer is null-terminated
}
}
////////////////////////////////////
// Generic String Bindings Macros //
////////////////////////////////////
macro_rules! string_like {
{
char_t = $char_t: ty;
AString = $AString: ident;
String = $String: ident;
Str = $Str: ident;
StringLike = $StringLike: ident;
StringAdapter = $StringAdapter: ident;
} => {
/// This trait is implemented on types which are `ns[C]String`-like, in
/// that they can at very low cost be converted to a borrowed
/// `&nsA[C]String`. Unfortunately, the intermediate type
/// `ns[C]StringAdapter` is required as well due to types like `&[u8]`
/// needing to be (cheaply) wrapped in a `nsCString` on the stack to
/// create the `&nsACString`.
///
/// This trait is used to DWIM when calling the methods on
/// `nsA[C]String`.
pub trait $StringLike {
fn adapt(&self) -> $StringAdapter;
}
impl<'a, T: $StringLike + ?Sized> $StringLike for &'a T {
fn adapt(&self) -> $StringAdapter {
<T as $StringLike>::adapt(*self)
}
}
impl<'a, T> $StringLike for borrow::Cow<'a, T>
where T: $StringLike + borrow::ToOwned + ?Sized {
fn adapt(&self) -> $StringAdapter {
<T as $StringLike>::adapt(self.as_ref())
}
}
impl $StringLike for $AString {
fn adapt(&self) -> $StringAdapter {
$StringAdapter::Abstract(self)
}
}
impl<'a> $StringLike for $Str<'a> {
fn adapt(&self) -> $StringAdapter {
$StringAdapter::Abstract(self)
}
}
impl $StringLike for $String {
fn adapt(&self) -> $StringAdapter {
$StringAdapter::Abstract(self)
}
}
impl $StringLike for [$char_t] {
fn adapt(&self) -> $StringAdapter {
$StringAdapter::Borrowed($Str::from(self))
}
}
impl $StringLike for Vec<$char_t> {
fn adapt(&self) -> $StringAdapter {
$StringAdapter::Borrowed($Str::from(&self[..]))
}
}
impl $StringLike for Box<[$char_t]> {
fn adapt(&self) -> $StringAdapter {
$StringAdapter::Borrowed($Str::from(&self[..]))
}
}
}
}
impl<'a> Drop for nsAStringBulkWriteHandle<'a> {
/// This only runs in error cases. In success cases, `finish()`
/// calls `forget(self)`.
fn drop(&mut self) {
if self.capacity == 0 {
// If capacity is 0, the string is a zero-length
// string, so we have nothing to do.
return;
}
// The old zero terminator may be gone by now, so we need
// to write a new one somewhere and make length match.
// We can use a length between 1 and self.capacity.
// Seems prudent to overwrite the uninitialized memory.
// Using the length 1 leaves the shortest memory to overwrite.
// U+FFFD is the safest placeholder. Merely truncating the
// string to a zero-length string might be dangerous in some
// scenarios. See
// https://www.unicode.org/reports/tr36/#Substituting_for_Ill_Formed_Subsequences
// for closely related scenario.
unsafe {
let mut this = self.string.as_repr_mut();
this.as_mut().length = 1u32;
*(this.as_mut().data.as_mut()) = 0xFFFDu16;
*(this.as_mut().data.as_ptr().add(1)) = 0;
}
}
}
impl<'a> Drop for nsACStringBulkWriteHandle<'a> {
/// This only runs in error cases. In success cases, `finish()`
/// calls `forget(self)`.
fn drop(&mut self) {
if self.capacity == 0 {
// If capacity is 0, the string is a zero-length
// string, so we have nothing to do.
return;
}
// The old zero terminator may be gone by now, so we need
// to write a new one somewhere and make length match.
// We can use a length between 1 and self.capacity.
// Seems prudent to overwrite the uninitialized memory.
// Using the length 1 leaves the shortest memory to overwrite.
// U+FFFD is the safest placeholder, but when it doesn't fit,
// let's use ASCII substitute. Merely truncating the
// string to a zero-length string might be dangerous in some
// scenarios. See
// https://www.unicode.org/reports/tr36/#Substituting_for_Ill_Formed_Subsequences
// for closely related scenario.
unsafe {
let mut this = self.string.as_repr_mut();
if self.capacity >= 3 {
this.as_mut().length = 3u32;
*(this.as_mut().data.as_mut()) = 0xEFu8;
*(this.as_mut().data.as_ptr().add(1)) = 0xBFu8;
*(this.as_mut().data.as_ptr().add(2)) = 0xBDu8;
*(this.as_mut().data.as_ptr().add(3)) = 0;
} else {
this.as_mut().length = 1u32;
*(this.as_mut().data.as_mut()) = 0x1Au8; // U+FFFD doesn't fit
*(this.as_mut().data.as_ptr().add(1)) = 0;
}
}
}
}
macro_rules! define_string_types {
{
char_t = $char_t: ty;
AString = $AString: ident;
String = $String: ident;
Str = $Str: ident;
StringLike = $StringLike: ident;
StringAdapter = $StringAdapter: ident;
StringRepr = $StringRepr: ident;
AutoStringRepr = $AutoStringRepr: ident;
BulkWriteHandle = $BulkWriteHandle: ident;
drop = $drop: ident;
assign = $assign: ident, $fallible_assign: ident;
take_from = $take_from: ident, $fallible_take_from: ident;
append = $append: ident, $fallible_append: ident;
set_length = $set_length: ident, $fallible_set_length: ident;
begin_writing = $begin_writing: ident, $fallible_begin_writing: ident;
start_bulk_write = $start_bulk_write: ident;
} => {
/// The representation of a `ns[C]String` type in C++. This type is
/// used internally by our definition of `ns[C]String` to ensure layout
/// compatibility with the C++ `ns[C]String` type.
///
/// This type may also be used in place of a C++ `ns[C]String` inside of
/// struct definitions which are shared with C++, as it has identical
/// layout to our `ns[C]String` type.
///
/// This struct will leak its data if dropped from rust. See the module
/// documentation for more information on this type.
#[repr(C)]
#[derive(Debug)]
pub struct $StringRepr {
data: ptr::NonNull<$char_t>,
length: u32,
dataflags: DataFlags,
classflags: ClassFlags,
}
impl $StringRepr {
fn new(classflags: ClassFlags) -> $StringRepr {
static NUL: $char_t = 0;
$StringRepr {
data: unsafe { ptr::NonNull::new_unchecked(&NUL as *const _ as *mut _) },
length: 0,
dataflags: DataFlags::TERMINATED | DataFlags::LITERAL,
classflags,
}
}
}
impl Deref for $StringRepr {
type Target = $AString;
fn deref(&self) -> &$AString {
unsafe {
&*(self as *const _ as *const $AString)
}
}
}
impl DerefMut for $StringRepr {
fn deref_mut(&mut self) -> &mut $AString {
unsafe {
&mut *(self as *mut _ as *mut $AString)
}
}
}
#[repr(C)]
#[derive(Debug)]
pub struct $AutoStringRepr {
super_repr: $StringRepr,
inline_capacity: u32,
}
pub struct $BulkWriteHandle<'a> {
string: &'a mut $AString,
capacity: usize,
}
impl<'a> $BulkWriteHandle<'a> {
fn new(string: &'a mut $AString, capacity: usize) -> Self {
$BulkWriteHandle{ string, capacity }
}
pub unsafe fn restart_bulk_write(&mut self,
capacity: usize,
units_to_preserve: usize,
allow_shrinking: bool) -> Result<(), ()> {
self.capacity =
self.string.start_bulk_write_impl(capacity,
units_to_preserve,
allow_shrinking)?;
Ok(())
}
pub fn finish(mut self, length: usize, allow_shrinking: bool) -> BulkWriteOk {
// NOTE: Drop is implemented outside the macro earlier in this file,
// because it needs to deal with different code unit representations
// for the REPLACEMENT CHARACTER in the UTF-16 and UTF-8 cases and
// needs to deal with a REPLACEMENT CHARACTER not fitting in the
// buffer in the UTF-8 case.
assert!(length <= self.capacity);
if length == 0 {
// `truncate()` is OK even when the string
// is in invalid state.
self.string.truncate();
mem::forget(self); // Don't run the failure path in drop()
return BulkWriteOk{};
}
if allow_shrinking && length > SHRINKING_THRESHOLD {
unsafe {
let _ = self.restart_bulk_write(length, length, true);
}
}
unsafe {
let mut this = self.string.as_repr_mut();
this.as_mut().length = length as u32;
*(this.as_mut().data.as_ptr().add(length)) = 0;
if cfg!(debug_assertions) {
// Overwrite the unused part in debug builds. Note
// that capacity doesn't include space for the zero
// terminator, so starting after the zero-terminator
// we wrote ends up overwriting the terminator space
// not reflected in the capacity number.
// write_bytes() takes care of multiplying the length
// by the size of T.
ptr::write_bytes(this.as_mut().data.as_ptr().add(length + 1),
0xE4u8,
self.capacity - length);
}
// We don't have a Rust interface for mozilla/MemoryChecking.h,
// so let's just not communicate with MSan/Valgrind here.
}
mem::forget(self); // Don't run the failure path in drop()
BulkWriteOk{}
}
pub fn as_mut_slice(&mut self) -> &mut [$char_t] {
unsafe {
let mut this = self.string.as_repr_mut();
slice::from_raw_parts_mut(this.as_mut().data.as_ptr(), self.capacity)
}
}
}
/// This type is the abstract type which is used for interacting with
/// strings in rust. Each string type can derefence to an instance of
/// this type, which provides the useful operations on strings.
///
/// NOTE: Rust thinks this type has a size of 0, because the data
/// associated with it is not necessarially safe to move. It is not safe
/// to construct a nsAString yourself, unless it is received by
/// dereferencing one of these types.
///
/// NOTE: The `[u8; 0]` member is zero sized, and only exists to prevent
/// the construction by code outside of this module. It is used instead
/// of a private `()` member because the `improper_ctypes` lint complains
/// about some ZST members in `extern "C"` function declarations.
#[repr(C)]
pub struct $AString {
_prohibit_constructor: [u8; 0],
}
impl $AString {
/// Assign the value of `other` into self, overwriting any value
/// currently stored. Performs an optimized assignment when possible
/// if `other` is a `nsA[C]String`.
pub fn assign<T: $StringLike + ?Sized>(&mut self, other: &T) {
unsafe { $assign(self, other.adapt().as_ptr()) };
}
/// Assign the value of `other` into self, overwriting any value
/// currently stored. Performs an optimized assignment when possible
/// if `other` is a `nsA[C]String`.
///
/// Returns Ok(()) on success, and Err(()) if the allocation failed.
pub fn fallible_assign<T: $StringLike + ?Sized>(&mut self, other: &T) -> Result<(), ()> {
if unsafe { $fallible_assign(self, other.adapt().as_ptr()) } {
Ok(())
} else {
Err(())
}
}
/// Take the value of `other` and set `self`, overwriting any value
/// currently stored. The passed-in string will be truncated.
pub fn take_from(&mut self, other: &mut $AString) {
unsafe { $take_from(self, other) };
}
/// Take the value of `other` and set `self`, overwriting any value
/// currently stored. If this function fails, the source string will
/// be left untouched, otherwise it will be truncated.
///
/// Returns Ok(()) on success, and Err(()) if the allocation failed.
pub fn fallible_take_from(&mut self, other: &mut $AString) -> Result<(), ()> {
if unsafe { $fallible_take_from(self, other) } {
Ok(())
} else {
Err(())
}
}
/// Append the value of `other` into self.
pub fn append<T: $StringLike + ?Sized>(&mut self, other: &T) {
unsafe { $append(self, other.adapt().as_ptr()) };
}
/// Append the value of `other` into self.
///
/// Returns Ok(()) on success, and Err(()) if the allocation failed.
pub fn fallible_append<T: $StringLike + ?Sized>(&mut self, other: &T) -> Result<(), ()> {
if unsafe { $fallible_append(self, other.adapt().as_ptr()) } {
Ok(())
} else {
Err(())
}
}
/// Mark the string's data as void. If `true`, the string will be truncated.
///
/// A void string is generally converted to a `null` JS value by bindings code.
pub fn set_is_void(&mut self, is_void: bool) {
if is_void {
self.truncate();
}
unsafe {
self.as_repr_mut().as_mut().dataflags.set(DataFlags::VOIDED, is_void);
}
}
/// Returns whether the string's data is voided.
pub fn is_void(&self) -> bool {
self.as_repr().dataflags.contains(DataFlags::VOIDED)
}
/// Set the length of the string to the passed-in length, and expand
/// the backing capacity to match. This method is unsafe as it can
/// expose uninitialized memory when len is greater than the current
/// length of the string.
pub unsafe fn set_length(&mut self, len: u32) {
$set_length(self, len);
}
/// Set the length of the string to the passed-in length, and expand
/// the backing capacity to match. This method is unsafe as it can
/// expose uninitialized memory when len is greater than the current
/// length of the string.
///
/// Returns Ok(()) on success, and Err(()) if the allocation failed.
pub unsafe fn fallible_set_length(&mut self, len: u32) -> Result<(), ()> {
if $fallible_set_length(self, len) {
Ok(())
} else {
Err(())
}
}
pub fn truncate(&mut self) {
unsafe {
self.set_length(0);
}
}
/// Get a `&mut` reference to the backing data for this string.
/// This method will allocate and copy if the current backing buffer
/// is immutable or shared.
pub fn to_mut(&mut self) -> &mut [$char_t] {
unsafe {
let len = self.len();
if len == 0 {
// Use an arbitrary but aligned non-null value as the pointer
slice::from_raw_parts_mut(ptr::NonNull::<$char_t>::dangling().as_ptr(), 0)
} else {
slice::from_raw_parts_mut($begin_writing(self), len)
}
}
}
/// Get a `&mut` reference to the backing data for this string.
/// This method will allocate and copy if the current backing buffer
/// is immutable or shared.
///
/// Returns `Ok(&mut [T])` on success, and `Err(())` if the
/// allocation failed.
pub fn fallible_to_mut(&mut self) -> Result<&mut [$char_t], ()> {
unsafe {
let len = self.len();
if len == 0 {
// Use an arbitrary but aligned non-null value as the pointer
Ok(slice::from_raw_parts_mut(
ptr::NonNull::<$char_t>::dangling().as_ptr() as *mut $char_t, 0))
} else {
let ptr = $fallible_begin_writing(self);
if ptr.is_null() {
Err(())
} else {
Ok(slice::from_raw_parts_mut(ptr, len))
}
}
}
}
/// Unshares the buffer of the string and returns a handle
/// from which a writable slice whose length is the rounded-up
/// capacity can be obtained.
///
/// Fails also if the new length doesn't fit in 32 bits.
///
/// # Safety
///
/// Unsafe because of exposure of uninitialized memory.
pub unsafe fn bulk_write(&mut self,
capacity: usize,
units_to_preserve: usize,
allow_shrinking: bool) -> Result<$BulkWriteHandle, ()> {
let capacity =
self.start_bulk_write_impl(capacity, units_to_preserve, allow_shrinking)?;
Ok($BulkWriteHandle::new(self, capacity))
}
unsafe fn start_bulk_write_impl(&mut self,
capacity: usize,
units_to_preserve: usize,
allow_shrinking: bool) -> Result<usize, ()> {
if capacity > u32::MAX as usize {
Err(())
} else {
let capacity32 = capacity as u32;
let rounded = $start_bulk_write(self,
capacity32,
units_to_preserve as u32,
allow_shrinking && capacity > SHRINKING_THRESHOLD);
if rounded == u32::MAX {
return Err(())
}
Ok(rounded as usize)
}
}
fn as_repr(&self) -> &$StringRepr {
// All $AString values point to a struct prefix which is
// identical to $StringRepr, thus we can cast `self`
// into *const $StringRepr to get the reference to the
// underlying data.
unsafe {
&*(self as *const _ as *const $StringRepr)
}
}
fn as_repr_mut(&mut self) -> ptr::NonNull<$StringRepr> {
unsafe { ptr::NonNull::new_unchecked(self as *mut _ as *mut $StringRepr)}
}
fn as_auto_string_repr(&self) -> Option<&$AutoStringRepr> {
if !self.as_repr().classflags.contains(ClassFlags::INLINE) {
return None;
}
unsafe {
Some(&*(self as *const _ as *const $AutoStringRepr))
}
}
/// If this is an autostring, returns the capacity (excluding the
/// zero terminator) of the inline buffer within `Some()`. Otherwise
/// returns `None`.
pub fn inline_capacity(&self) -> Option<usize> {
Some(self.as_auto_string_repr()?.inline_capacity as usize)
}
}
impl Deref for $AString {
type Target = [$char_t];
fn deref(&self) -> &[$char_t] {
unsafe {
// All $AString values point to a struct prefix which is
// identical to $StringRepr, thus we can cast `self`
// into *const $StringRepr to get the reference to the
// underlying data.
let this = &*(self as *const _ as *const $StringRepr);
slice::from_raw_parts(this.data.as_ptr(), this.length as usize)
}
}
}
impl AsRef<[$char_t]> for $AString {
fn as_ref(&self) -> &[$char_t] {
self
}
}
impl cmp::PartialEq for $AString {
fn eq(&self, other: &$AString) -> bool {
&self[..] == &other[..]
}
}
impl cmp::PartialEq<[$char_t]> for $AString {
fn eq(&self, other: &[$char_t]) -> bool {
&self[..] == other
}
}
impl cmp::PartialEq<$String> for $AString {
fn eq(&self, other: &$String) -> bool {
self.eq(&**other)
}
}
impl<'a> cmp::PartialEq<$Str<'a>> for $AString {
fn eq(&self, other: &$Str<'a>) -> bool {
self.eq(&**other)
}
}
#[repr(C)]
pub struct $Str<'a> {
hdr: $StringRepr,
_marker: PhantomData<&'a [$char_t]>,
}
impl $Str<'static> {
pub fn new() -> $Str<'static> {
$Str {
hdr: $StringRepr::new(ClassFlags::empty()),
_marker: PhantomData,
}
}
}
impl<'a> Drop for $Str<'a> {
fn drop(&mut self) {
unsafe {
$drop(&mut **self);
}
}
}
impl<'a> Deref for $Str<'a> {
type Target = $AString;
fn deref(&self) -> &$AString {
&self.hdr
}
}
impl<'a> DerefMut for $Str<'a> {
fn deref_mut(&mut self) -> &mut $AString {
&mut self.hdr
}
}
impl<'a> AsRef<[$char_t]> for $Str<'a> {
fn as_ref(&self) -> &[$char_t] {
&self
}
}
impl<'a> From<&'a [$char_t]> for $Str<'a> {
fn from(s: &'a [$char_t]) -> $Str<'a> {
assert!(s.len() < (u32::MAX as usize));
if s.is_empty() {
return $Str::new();
}
$Str {
hdr: $StringRepr {
data: unsafe { ptr::NonNull::new_unchecked(s.as_ptr() as *mut _) },
length: s.len() as u32,
dataflags: DataFlags::empty(),
classflags: ClassFlags::empty(),
},
_marker: PhantomData,
}
}
}
impl<'a> From<&'a Vec<$char_t>> for $Str<'a> {
fn from(s: &'a Vec<$char_t>) -> $Str<'a> {
$Str::from(&s[..])
}
}
impl<'a> From<&'a $AString> for $Str<'a> {
fn from(s: &'a $AString) -> $Str<'a> {
$Str::from(&s[..])
}
}
impl<'a> fmt::Write for $Str<'a> {
fn write_str(&mut self, s: &str) -> Result<(), fmt::Error> {
$AString::write_str(self, s)
}
}
impl<'a> fmt::Display for $Str<'a> {
fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
<$AString as fmt::Display>::fmt(self, f)
}
}
impl<'a> fmt::Debug for $Str<'a> {
fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
<$AString as fmt::Debug>::fmt(self, f)
}
}
impl<'a> cmp::PartialEq for $Str<'a> {
fn eq(&self, other: &$Str<'a>) -> bool {
$AString::eq(self, other)
}
}
impl<'a> cmp::PartialEq<[$char_t]> for $Str<'a> {
fn eq(&self, other: &[$char_t]) -> bool {
$AString::eq(self, other)
}
}
impl<'a, 'b> cmp::PartialEq<&'b [$char_t]> for $Str<'a> {
fn eq(&self, other: &&'b [$char_t]) -> bool {
$AString::eq(self, *other)
}
}
impl<'a> cmp::PartialEq<str> for $Str<'a> {
fn eq(&self, other: &str) -> bool {
$AString::eq(self, other)
}
}
impl<'a, 'b> cmp::PartialEq<&'b str> for $Str<'a> {
fn eq(&self, other: &&'b str) -> bool {
$AString::eq(self, *other)
}
}
#[repr(C)]
pub struct $String {
hdr: $StringRepr,
}
unsafe impl Send for $String {}
unsafe impl Sync for $String {}
impl $String {
pub fn new() -> $String {
$String {
hdr: $StringRepr::new(ClassFlags::NULL_TERMINATED),
}
}
/// Converts this String into a StringRepr, which will leak if the
/// repr is not passed to something that knows how to free it.
pub fn into_repr(mut self) -> $StringRepr {
mem::replace(&mut self.hdr, $StringRepr::new(ClassFlags::NULL_TERMINATED))
}
}
impl Drop for $String {
fn drop(&mut self) {
unsafe {
$drop(&mut **self);
}
}
}
impl Deref for $String {
type Target = $AString;
fn deref(&self) -> &$AString {
&self.hdr
}
}
impl DerefMut for $String {
fn deref_mut(&mut self) -> &mut $AString {
&mut self.hdr
}
}
impl Clone for $String {
fn clone(&self) -> Self {
let mut copy = $String::new();
copy.assign(self);
copy
}
}
impl AsRef<[$char_t]> for $String {
fn as_ref(&self) -> &[$char_t] {
&self
}
}
impl<'a> From<&'a [$char_t]> for $String {
fn from(s: &'a [$char_t]) -> $String {
let mut res = $String::new();
res.assign(&$Str::from(&s[..]));
res
}
}
impl<'a> From<&'a Vec<$char_t>> for $String {
fn from(s: &'a Vec<$char_t>) -> $String {
$String::from(&s[..])
}
}
impl<'a> From<&'a $AString> for $String {
fn from(s: &'a $AString) -> $String {
$String::from(&s[..])
}
}
impl From<Box<[$char_t]>> for $String {
fn from(s: Box<[$char_t]>) -> $String {
s.into_vec().into()
}
}
impl From<Vec<$char_t>> for $String {
fn from(mut s: Vec<$char_t>) -> $String {
assert!(s.len() < (u32::MAX as usize));
if s.is_empty() {
return $String::new();
}
let length = s.len() as u32;
s.push(0); // null terminator
// SAFETY NOTE: This method produces an data_flags::OWNED
// ns[C]String from a Box<[$char_t]>. this is only safe
// because in the Gecko tree, we use the same allocator for
// Rust code as for C++ code, meaning that our box can be
// legally freed with libc::free().
let ptr = s.as_mut_ptr();
mem::forget(s);
unsafe {
Gecko_IncrementStringAdoptCount(ptr as *mut _);
}
$String {
hdr: $StringRepr {
data: unsafe { ptr::NonNull::new_unchecked(ptr) },
length,
dataflags: DataFlags::OWNED | DataFlags::TERMINATED,
classflags: ClassFlags::NULL_TERMINATED,
}
}
}
}
impl fmt::Write for $String {
fn write_str(&mut self, s: &str) -> Result<(), fmt::Error> {
$AString::write_str(self, s)
}
}
impl fmt::Display for $String {
fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
<$AString as fmt::Display>::fmt(self, f)
}
}
impl fmt::Debug for $String {
fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
<$AString as fmt::Debug>::fmt(self, f)
}
}
impl cmp::PartialEq for $String {
fn eq(&self, other: &$String) -> bool {
$AString::eq(self, other)
}
}
impl cmp::PartialEq<[$char_t]> for $String {
fn eq(&self, other: &[$char_t]) -> bool {
$AString::eq(self, other)
}
}
impl<'a> cmp::PartialEq<&'a [$char_t]> for $String {
fn eq(&self, other: &&'a [$char_t]) -> bool {
$AString::eq(self, *other)
}
}
impl cmp::PartialEq<str> for $String {
fn eq(&self, other: &str) -> bool {
$AString::eq(self, other)
}
}
impl<'a> cmp::PartialEq<&'a str> for $String {
fn eq(&self, other: &&'a str) -> bool {
$AString::eq(self, *other)
}
}
/// An adapter type to allow for passing both types which coerce to
/// &[$char_type], and &$AString to a function, while still performing
/// optimized operations when passed the $AString.
pub enum $StringAdapter<'a> {
Borrowed($Str<'a>),
Abstract(&'a $AString),
}
impl<'a> $StringAdapter<'a> {
fn as_ptr(&self) -> *const $AString {
&**self
}
}
impl<'a> Deref for $StringAdapter<'a> {
type Target = $AString;
fn deref(&self) -> &$AString {
match *self {
$StringAdapter::Borrowed(ref s) => s,
$StringAdapter::Abstract(ref s) => s,
}
}
}
impl<'a> $StringAdapter<'a> {
#[allow(dead_code)]
fn is_abstract(&self) -> bool {
match *self {
$StringAdapter::Borrowed(_) => false,
$StringAdapter::Abstract(_) => true,
}
}
}
string_like! {
char_t = $char_t;
AString = $AString;
String = $String;
Str = $Str;
StringLike = $StringLike;
StringAdapter = $StringAdapter;
}
}
}
///////////////////////////////////////////
// Bindings for nsCString (u8 char type) //
///////////////////////////////////////////
define_string_types! {
char_t = u8;
AString = nsACString;
String = nsCString;
Str = nsCStr;
StringLike = nsCStringLike;
StringAdapter = nsCStringAdapter;
StringRepr = nsCStringRepr;
AutoStringRepr = nsAutoCStringRepr;
BulkWriteHandle = nsACStringBulkWriteHandle;
drop = Gecko_FinalizeCString;
assign = Gecko_AssignCString, Gecko_FallibleAssignCString;
take_from = Gecko_TakeFromCString, Gecko_FallibleTakeFromCString;
append = Gecko_AppendCString, Gecko_FallibleAppendCString;
set_length = Gecko_SetLengthCString, Gecko_FallibleSetLengthCString;
begin_writing = Gecko_BeginWritingCString, Gecko_FallibleBeginWritingCString;
start_bulk_write = Gecko_StartBulkWriteCString;
}
impl nsACString {
/// Gets a CString as an utf-8 str or a String, trying to avoid copies, and
/// replacing invalid unicode sequences with replacement characters.
#[inline]
pub fn to_utf8(&self) -> borrow::Cow<str> {
String::from_utf8_lossy(&self[..])
}
#[inline]
pub unsafe fn as_str_unchecked(&self) -> &str {
if cfg!(debug_assertions) {
str::from_utf8(self).expect("Should be utf-8")
} else {
str::from_utf8_unchecked(self)
}
}
}
impl<'a> From<&'a str> for nsCStr<'a> {
fn from(s: &'a str) -> nsCStr<'a> {
s.as_bytes().into()
}
}
impl<'a> From<&'a String> for nsCStr<'a> {
fn from(s: &'a String) -> nsCStr<'a> {
nsCStr::from(&s[..])
}
}
impl<'a> From<&'a str> for nsCString {
fn from(s: &'a str) -> nsCString {
s.as_bytes().into()
}
}
impl<'a> From<&'a String> for nsCString {
fn from(s: &'a String) -> nsCString {
nsCString::from(&s[..])
}
}
impl From<Box<str>> for nsCString {
fn from(s: Box<str>) -> nsCString {
s.into_string().into()
}
}
impl From<String> for nsCString {
fn from(s: String) -> nsCString {
s.into_bytes().into()
}
}
// Support for the write!() macro for appending to nsACStrings
impl fmt::Write for nsACString {
fn write_str(&mut self, s: &str) -> Result<(), fmt::Error> {
self.append(s);
Ok(())
}
}
impl fmt::Display for nsACString {
fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
fmt::Display::fmt(&self.to_utf8(), f)
}
}
impl fmt::Debug for nsACString {
fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
fmt::Debug::fmt(&self.to_utf8(), f)
}
}
impl cmp::PartialEq<str> for nsACString {
fn eq(&self, other: &str) -> bool {
&self[..] == other.as_bytes()
}
}
impl nsCStringLike for str {
fn adapt(&self) -> nsCStringAdapter {
nsCStringAdapter::Borrowed(nsCStr::from(self))
}
}
impl nsCStringLike for String {
fn adapt(&self) -> nsCStringAdapter {
nsCStringAdapter::Borrowed(nsCStr::from(&self[..]))
}
}
impl nsCStringLike for Box<str> {
fn adapt(&self) -> nsCStringAdapter {
nsCStringAdapter::Borrowed(nsCStr::from(&self[..]))
}
}
// This trait is implemented on types which are Latin1 `nsCString`-like,
// in that they can at very low cost be converted to a borrowed
// `&nsACString` and do not denote UTF-8ness in the Rust type system.
//
// This trait is used to DWIM when calling the methods on
// `nsACString`.
string_like! {
char_t = u8;
AString = nsACString;
String = nsCString;
Str = nsCStr;
StringLike = Latin1StringLike;
StringAdapter = nsCStringAdapter;
}
///////////////////////////////////////////
// Bindings for nsString (u16 char type) //
///////////////////////////////////////////
define_string_types! {
char_t = u16;
AString = nsAString;
String = nsString;
Str = nsStr;
StringLike = nsStringLike;
StringAdapter = nsStringAdapter;
StringRepr = nsStringRepr;
AutoStringRepr = nsAutoStringRepr;
BulkWriteHandle = nsAStringBulkWriteHandle;
drop = Gecko_FinalizeString;
assign = Gecko_AssignString, Gecko_FallibleAssignString;
take_from = Gecko_TakeFromString, Gecko_FallibleTakeFromString;
append = Gecko_AppendString, Gecko_FallibleAppendString;
set_length = Gecko_SetLengthString, Gecko_FallibleSetLengthString;
begin_writing = Gecko_BeginWritingString, Gecko_FallibleBeginWritingString;
start_bulk_write = Gecko_StartBulkWriteString;
}
// NOTE: The From impl for a string slice for nsString produces a <'static>
// lifetime, as it allocates.
impl<'a> From<&'a str> for nsString {
fn from(s: &'a str) -> nsString {
s.encode_utf16().collect::<Vec<u16>>().into()
}
}
impl<'a> From<&'a String> for nsString {
fn from(s: &'a String) -> nsString {
nsString::from(&s[..])
}
}
// Support for the write!() macro for writing to nsStrings
impl fmt::Write for nsAString {
fn write_str(&mut self, s: &str) -> Result<(), fmt::Error> {
// Directly invoke gecko's routines for appending utf8 strings to
// nsAString values, to avoid as much overhead as possible
self.append_str(s);
Ok(())
}
}
impl nsAString {
/// Turns this utf-16 string into a string, replacing invalid unicode
/// sequences with replacement characters.
///
/// This is needed because the default ToString implementation goes through
/// fmt::Display, and thus allocates the string twice.
#[allow(clippy::inherent_to_string_shadow_display)]
pub fn to_string(&self) -> String {
String::from_utf16_lossy(&self[..])
}
}
impl fmt::Display for nsAString {
fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
fmt::Display::fmt(&self.to_string(), f)
}
}
impl fmt::Debug for nsAString {
fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
fmt::Debug::fmt(&self.to_string(), f)
}
}
impl cmp::PartialEq<str> for nsAString {
fn eq(&self, other: &str) -> bool {
other.encode_utf16().eq(self.iter().cloned())
}
}
#[cfg(not(feature = "gecko_debug"))]
#[allow(non_snake_case)]
unsafe fn Gecko_IncrementStringAdoptCount(_: *mut c_void) {}
extern "C" {
#[cfg(feature = "gecko_debug")]
fn Gecko_IncrementStringAdoptCount(data: *mut c_void);
// Gecko implementation in nsSubstring.cpp
fn Gecko_FinalizeCString(this: *mut nsACString);
fn Gecko_AssignCString(this: *mut nsACString, other: *const nsACString);
fn Gecko_TakeFromCString(this: *mut nsACString, other: *mut nsACString);
fn Gecko_AppendCString(this: *mut nsACString, other: *const nsACString);
fn Gecko_SetLengthCString(this: *mut nsACString, length: u32);
fn Gecko_BeginWritingCString(this: *mut nsACString) -> *mut u8;
fn Gecko_FallibleAssignCString(this: *mut nsACString, other: *const nsACString) -> bool;
fn Gecko_FallibleTakeFromCString(this: *mut nsACString, other: *mut nsACString) -> bool;
fn Gecko_FallibleAppendCString(this: *mut nsACString, other: *const nsACString) -> bool;
fn Gecko_FallibleSetLengthCString(this: *mut nsACString, length: u32) -> bool;
fn Gecko_FallibleBeginWritingCString(this: *mut nsACString) -> *mut u8;
fn Gecko_StartBulkWriteCString(
this: *mut nsACString,
capacity: u32,
units_to_preserve: u32,
allow_shrinking: bool,
) -> u32;
fn Gecko_FinalizeString(this: *mut nsAString);
fn Gecko_AssignString(this: *mut nsAString, other: *const nsAString);
fn Gecko_TakeFromString(this: *mut nsAString, other: *mut nsAString);
fn Gecko_AppendString(this: *mut nsAString, other: *const nsAString);
fn Gecko_SetLengthString(this: *mut nsAString, length: u32);
fn Gecko_BeginWritingString(this: *mut nsAString) -> *mut u16;
fn Gecko_FallibleAssignString(this: *mut nsAString, other: *const nsAString) -> bool;
fn Gecko_FallibleTakeFromString(this: *mut nsAString, other: *mut nsAString) -> bool;
fn Gecko_FallibleAppendString(this: *mut nsAString, other: *const nsAString) -> bool;
fn Gecko_FallibleSetLengthString(this: *mut nsAString, length: u32) -> bool;
fn Gecko_FallibleBeginWritingString(this: *mut nsAString) -> *mut u16;
fn Gecko_StartBulkWriteString(
this: *mut nsAString,
capacity: u32,
units_to_preserve: u32,
allow_shrinking: bool,
) -> u32;
}
//////////////////////////////////////
// Repr Validation Helper Functions //
//////////////////////////////////////
pub mod test_helpers {
//! This module only exists to help with ensuring that the layout of the
//! structs inside of rust and C++ are identical.
//!
//! It is public to ensure that these testing functions are avaliable to
//! gtest code.
use super::{nsACString, nsAString};
use super::{nsCStr, nsCString, nsCStringRepr};
use super::{nsStr, nsString, nsStringRepr};
use super::{ClassFlags, DataFlags};
use std::mem;
/// Generates an #[no_mangle] extern "C" function which returns the size and
/// alignment of the given type with the given name.
macro_rules! size_align_check {
($T:ty, $fname:ident) => {
#[no_mangle]
#[allow(non_snake_case)]
pub unsafe extern "C" fn $fname(size: *mut usize, align: *mut usize) {
*size = mem::size_of::<$T>();
*align = mem::align_of::<$T>();
}
};
($T:ty, $U:ty, $V:ty, $fname:ident) => {
#[no_mangle]
#[allow(non_snake_case)]
pub unsafe extern "C" fn $fname(size: *mut usize, align: *mut usize) {
*size = mem::size_of::<$T>();
*align = mem::align_of::<$T>();
assert_eq!(*size, mem::size_of::<$U>());
assert_eq!(*align, mem::align_of::<$U>());
assert_eq!(*size, mem::size_of::<$V>());
assert_eq!(*align, mem::align_of::<$V>());
}
};
}
size_align_check!(
nsStringRepr,
nsString,
nsStr<'static>,
Rust_Test_ReprSizeAlign_nsString
);
size_align_check!(
nsCStringRepr,
nsCString,
nsCStr<'static>,
Rust_Test_ReprSizeAlign_nsCString
);
/// Generates a $[no_mangle] extern "C" function which returns the size,
/// alignment and offset in the parent struct of a given member, with the
/// given name.
///
/// This method can trigger Undefined Behavior if the accessing the member
/// $member on a given type would use that type's `Deref` implementation.
macro_rules! member_check {
($T:ty, $U:ty, $V:ty, $member:ident, $method:ident) => {
#[no_mangle]
#[allow(non_snake_case)]
pub unsafe extern "C" fn $method(
size: *mut usize,
align: *mut usize,
offset: *mut usize,
) {
// Create a temporary value of type T to get offsets, sizes
// and alignments from.
let tmp: mem::MaybeUninit<$T> = mem::MaybeUninit::uninit();
// FIXME: This should use &raw references when available,
// this is technically UB as it creates a reference to
// uninitialized memory, but there's no better way to do
// this right now.
let tmp = &*tmp.as_ptr();
*size = mem::size_of_val(&tmp.$member);
*align = mem::align_of_val(&tmp.$member);
*offset = (&tmp.$member as *const _ as usize) - (tmp as *const $T as usize);
let tmp: mem::MaybeUninit<$U> = mem::MaybeUninit::uninit();
let tmp = &*tmp.as_ptr();
assert_eq!(*size, mem::size_of_val(&tmp.hdr.$member));
assert_eq!(*align, mem::align_of_val(&tmp.hdr.$member));
assert_eq!(
*offset,
(&tmp.hdr.$member as *const _ as usize) - (tmp as *const $U as usize)
);
let tmp: mem::MaybeUninit<$V> = mem::MaybeUninit::uninit();
let tmp = &*tmp.as_ptr();
assert_eq!(*size, mem::size_of_val(&tmp.hdr.$member));
assert_eq!(*align, mem::align_of_val(&tmp.hdr.$member));
assert_eq!(
*offset,
(&tmp.hdr.$member as *const _ as usize) - (tmp as *const $V as usize)
);
}
};
}
member_check!(
nsStringRepr,
nsString,
nsStr<'static>,
data,
Rust_Test_Member_nsString_mData
);
member_check!(
nsStringRepr,
nsString,
nsStr<'static>,
length,
Rust_Test_Member_nsString_mLength
);
member_check!(
nsStringRepr,
nsString,
nsStr<'static>,
dataflags,
Rust_Test_Member_nsString_mDataFlags
);
member_check!(
nsStringRepr,
nsString,
nsStr<'static>,
classflags,
Rust_Test_Member_nsString_mClassFlags
);
member_check!(
nsCStringRepr,
nsCString,
nsCStr<'static>,
data,
Rust_Test_Member_nsCString_mData
);
member_check!(
nsCStringRepr,
nsCString,
nsCStr<'static>,
length,
Rust_Test_Member_nsCString_mLength
);
member_check!(
nsCStringRepr,
nsCString,
nsCStr<'static>,
dataflags,
Rust_Test_Member_nsCString_mDataFlags
);
member_check!(
nsCStringRepr,
nsCString,
nsCStr<'static>,
classflags,
Rust_Test_Member_nsCString_mClassFlags
);
#[no_mangle]
#[allow(non_snake_case)]
pub unsafe extern "C" fn Rust_Test_NsStringFlags(
f_terminated: *mut u16,
f_voided: *mut u16,
f_refcounted: *mut u16,
f_owned: *mut u16,
f_inline: *mut u16,
f_literal: *mut u16,
f_class_inline: *mut u16,
f_class_null_terminated: *mut u16,
) {
*f_terminated = DataFlags::TERMINATED.bits();
*f_voided = DataFlags::VOIDED.bits();
*f_refcounted = DataFlags::REFCOUNTED.bits();
*f_owned = DataFlags::OWNED.bits();
*f_inline = DataFlags::INLINE.bits();
*f_literal = DataFlags::LITERAL.bits();
*f_class_inline = ClassFlags::INLINE.bits();
*f_class_null_terminated = ClassFlags::NULL_TERMINATED.bits();
}
#[no_mangle]
#[allow(non_snake_case)]
pub unsafe extern "C" fn Rust_InlineCapacityFromRust(
cstring: *const nsACString,
string: *const nsAString,
cstring_capacity: *mut usize,
string_capacity: *mut usize,
) {
*cstring_capacity = (*cstring).inline_capacity().unwrap();
*string_capacity = (*string).inline_capacity().unwrap();
}
}
|