4.2 KiB
XPCOM components in Rust
XPCOM components can be written in Rust.
A tiny example
The following example shows a new type that implements nsIObserver
.
First, create a new empty crate (e.g. with cargo init --lib
), and add the
following dependencies in its Cargo.toml
file.
[dependencies]
libc = "0.2"
nserror = { path = "../../../xpcom/rust/nserror" }
nsstring = { path = "../../../xpcom/rust/nsstring" }
xpcom = { path = "../../../xpcom/rust/xpcom" }
(The number of ../
occurrences will depend on the depth of the crate in the
file hierarchy.)
Next hook it into the build system according to the build documentation.
The Rust code will need to import some basic types. xpcom::interfaces
contains all the usual nsI
interfaces.
use libc::c_char;
use nserror::nsresult;
use std::sync::atomic::{AtomicBool, Ordering};
use xpcom::{interfaces::nsISupports, RefPtr};
The next part declares the implementation.
#[derive(xpcom)]
#[xpimplements(nsIObserver)]
#[refcnt = "atomic"]
struct InitMyObserver {
ran: AtomicBool,
}
It defines an initializer struct, prefixed with Init
, with three attributes.
- Some
derive
magic. - An
xpimplements
declaration naming the interface(s) being implemented. - The reference count type.
Next, all interface methods are declared in the impl
block as unsafe
methods.
impl MyObserver {
#[allow(non_snake_case)]
unsafe fn Observe(
&self,
_subject: *const nsISupports,
_topic: *const c_char,
_data: *const i16,
) -> nsresult {
self.ran.store(true, Ordering::SeqCst);
nserror::NS_OK
}
}
These methods always take &self
, not &mut self
, so we need to use interior
mutability: AtomicBool
, RefCell
, Cell
, etc.
XPCOM methods are unsafe by default, but the
xpcom_method!
macro can be used to clean this up. It also takes care of null-checking and
hiding pointers behind references, lets you return a Result
instead of an
nsresult,
and so on.
To use this type within Rust code, do something like the following.
let observer = MyObserver::allocate(InitMyObserver {
ran: AtomicBool::new(false),
});
let rv = unsafe {
observer.Observe(x.coerce(),
cstr!("some-topic").as_ptr(),
ptr::null())
};
assert!(rv.succeeded());
The implementation has an (auto-generated) allocate
method that takes in an
initialization struct, and returns a RefPtr
to the instance.
coerce
casts any XPCOM object to one of its base interfaces; in this case,
the base interface is nsISupports
. In C++, this would be handled
automatically through inheritance, but Rust doesn’t have inheritance, so the
conversion must be explicit.
Bigger examples
The following XPCOM components are written in Rust.
- kvstore,
which exposes the LMDB key-value store (via the Rkv
library) The API is asynchronous, using
moz_task
to schedule all I/O on a background thread, and supports getting, setting, and iterating over keys. - cert_storage, which stores lists of revoked intermediate certificates.
- bookmark_sync, which merges bookmarks from Firefox Sync with bookmarks in the Places database.
- webext_storage_bridge,
which powers the WebExtension storage.sync API. It's a self-contained example
that pulls in a crate from application-services for the heavy lifting, wraps
that up in a Rust XPCOM component, and then wraps the component in a JS
interface. There's also some boilerplate there around adding a
components.conf
file, and a dummy C++ header that declares the component constructor.