//! Client-side types. use super::*; macro_rules! define_handles { ( 'owned: $($oty:ident,)* 'interned: $($ity:ident,)* ) => { #[repr(C)] #[allow(non_snake_case)] pub struct HandleCounters { $($oty: AtomicUsize,)* $($ity: AtomicUsize,)* } impl HandleCounters { // FIXME(eddyb) use a reference to the `static COUNTERS`, instead of // a wrapper `fn` pointer, once `const fn` can reference `static`s. extern "C" fn get() -> &'static Self { static COUNTERS: HandleCounters = HandleCounters { $($oty: AtomicUsize::new(1),)* $($ity: AtomicUsize::new(1),)* }; &COUNTERS } } // FIXME(eddyb) generate the definition of `HandleStore` in `server.rs`. #[repr(C)] #[allow(non_snake_case)] pub(super) struct HandleStore { $($oty: handle::OwnedStore,)* $($ity: handle::InternedStore,)* } impl HandleStore { pub(super) fn new(handle_counters: &'static HandleCounters) -> Self { HandleStore { $($oty: handle::OwnedStore::new(&handle_counters.$oty),)* $($ity: handle::InternedStore::new(&handle_counters.$ity),)* } } } $( #[repr(C)] pub(crate) struct $oty(handle::Handle); // Forward `Drop::drop` to the inherent `drop` method. impl Drop for $oty { fn drop(&mut self) { $oty(self.0).drop(); } } impl Encode for $oty { fn encode(self, w: &mut Writer, s: &mut S) { let handle = self.0; mem::forget(self); handle.encode(w, s); } } impl DecodeMut<'_, '_, HandleStore>> for Marked { fn decode(r: &mut Reader<'_>, s: &mut HandleStore>) -> Self { s.$oty.take(handle::Handle::decode(r, &mut ())) } } impl Encode for &$oty { fn encode(self, w: &mut Writer, s: &mut S) { self.0.encode(w, s); } } impl<'s, S: server::Types> Decode<'_, 's, HandleStore>> for &'s Marked { fn decode(r: &mut Reader<'_>, s: &'s HandleStore>) -> Self { &s.$oty[handle::Handle::decode(r, &mut ())] } } impl Encode for &mut $oty { fn encode(self, w: &mut Writer, s: &mut S) { self.0.encode(w, s); } } impl<'s, S: server::Types> DecodeMut<'_, 's, HandleStore>> for &'s mut Marked { fn decode( r: &mut Reader<'_>, s: &'s mut HandleStore> ) -> Self { &mut s.$oty[handle::Handle::decode(r, &mut ())] } } impl Encode>> for Marked { fn encode(self, w: &mut Writer, s: &mut HandleStore>) { s.$oty.alloc(self).encode(w, s); } } impl DecodeMut<'_, '_, S> for $oty { fn decode(r: &mut Reader<'_>, s: &mut S) -> Self { $oty(handle::Handle::decode(r, s)) } } )* $( #[repr(C)] #[derive(Copy, Clone, PartialEq, Eq, Hash)] pub(crate) struct $ity(handle::Handle); impl Encode for $ity { fn encode(self, w: &mut Writer, s: &mut S) { self.0.encode(w, s); } } impl DecodeMut<'_, '_, HandleStore>> for Marked { fn decode(r: &mut Reader<'_>, s: &mut HandleStore>) -> Self { s.$ity.copy(handle::Handle::decode(r, &mut ())) } } impl Encode>> for Marked { fn encode(self, w: &mut Writer, s: &mut HandleStore>) { s.$ity.alloc(self).encode(w, s); } } impl DecodeMut<'_, '_, S> for $ity { fn decode(r: &mut Reader<'_>, s: &mut S) -> Self { $ity(handle::Handle::decode(r, s)) } } )* } } define_handles! { 'owned: FreeFunctions, TokenStream, TokenStreamBuilder, TokenStreamIter, Group, Literal, SourceFile, MultiSpan, Diagnostic, 'interned: Punct, Ident, Span, } // FIXME(eddyb) generate these impls by pattern-matching on the // names of methods - also could use the presence of `fn drop` // to distinguish between 'owned and 'interned, above. // Alternatively, special 'modes" could be listed of types in with_api // instead of pattern matching on methods, here and in server decl. impl Clone for TokenStream { fn clone(&self) -> Self { self.clone() } } impl Clone for TokenStreamIter { fn clone(&self) -> Self { self.clone() } } impl Clone for Group { fn clone(&self) -> Self { self.clone() } } impl Clone for Literal { fn clone(&self) -> Self { self.clone() } } impl fmt::Debug for Literal { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.debug_struct("Literal") // format the kind without quotes, as in `kind: Float` .field("kind", &format_args!("{}", &self.debug_kind())) .field("symbol", &self.symbol()) // format `Some("...")` on one line even in {:#?} mode .field("suffix", &format_args!("{:?}", &self.suffix())) .field("span", &self.span()) .finish() } } impl Clone for SourceFile { fn clone(&self) -> Self { self.clone() } } impl fmt::Debug for Span { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.write_str(&self.debug()) } } macro_rules! define_client_side { ($($name:ident { $(fn $method:ident($($arg:ident: $arg_ty:ty),* $(,)?) $(-> $ret_ty:ty)*;)* }),* $(,)?) => { $(impl $name { $(pub(crate) fn $method($($arg: $arg_ty),*) $(-> $ret_ty)* { Bridge::with(|bridge| { let mut b = bridge.cached_buffer.take(); b.clear(); api_tags::Method::$name(api_tags::$name::$method).encode(&mut b, &mut ()); reverse_encode!(b; $($arg),*); b = bridge.dispatch.call(b); let r = Result::<_, PanicMessage>::decode(&mut &b[..], &mut ()); bridge.cached_buffer = b; r.unwrap_or_else(|e| panic::resume_unwind(e.into())) }) })* })* } } with_api!(self, self, define_client_side); enum BridgeState<'a> { /// No server is currently connected to this client. NotConnected, /// A server is connected and available for requests. Connected(Bridge<'a>), /// Access to the bridge is being exclusively acquired /// (e.g., during `BridgeState::with`). InUse, } enum BridgeStateL {} impl<'a> scoped_cell::ApplyL<'a> for BridgeStateL { type Out = BridgeState<'a>; } thread_local! { static BRIDGE_STATE: scoped_cell::ScopedCell = scoped_cell::ScopedCell::new(BridgeState::NotConnected); } impl BridgeState<'_> { /// Take exclusive control of the thread-local /// `BridgeState`, and pass it to `f`, mutably. /// The state will be restored after `f` exits, even /// by panic, including modifications made to it by `f`. /// /// N.B., while `f` is running, the thread-local state /// is `BridgeState::InUse`. fn with(f: impl FnOnce(&mut BridgeState<'_>) -> R) -> R { BRIDGE_STATE.with(|state| { state.replace(BridgeState::InUse, |mut state| { // FIXME(#52812) pass `f` directly to `replace` when `RefMutL` is gone f(&mut state) }) }) } } impl Bridge<'_> { pub(crate) fn is_available() -> bool { BridgeState::with(|state| match state { BridgeState::Connected(_) | BridgeState::InUse => true, BridgeState::NotConnected => false, }) } fn enter(self, f: impl FnOnce() -> R) -> R { let force_show_panics = self.force_show_panics; // Hide the default panic output within `proc_macro` expansions. // NB. the server can't do this because it may use a different libstd. static HIDE_PANICS_DURING_EXPANSION: Once = Once::new(); HIDE_PANICS_DURING_EXPANSION.call_once(|| { let prev = panic::take_hook(); panic::set_hook(Box::new(move |info| { let show = BridgeState::with(|state| match state { BridgeState::NotConnected => true, BridgeState::Connected(_) | BridgeState::InUse => force_show_panics, }); if show { prev(info) } })); }); BRIDGE_STATE.with(|state| state.set(BridgeState::Connected(self), f)) } fn with(f: impl FnOnce(&mut Bridge<'_>) -> R) -> R { BridgeState::with(|state| match state { BridgeState::NotConnected => { panic!("procedural macro API is used outside of a procedural macro"); } BridgeState::InUse => { panic!("procedural macro API is used while it's already in use"); } BridgeState::Connected(bridge) => f(bridge), }) } } /// A client-side "global object" (usually a function pointer), /// which may be using a different `proc_macro` from the one /// used by the server, but can be interacted with compatibly. /// /// N.B., `F` must have FFI-friendly memory layout (e.g., a pointer). /// The call ABI of function pointers used for `F` doesn't /// need to match between server and client, since it's only /// passed between them and (eventually) called by the client. #[repr(C)] #[derive(Copy, Clone)] pub struct Client { // FIXME(eddyb) use a reference to the `static COUNTERS`, instead of // a wrapper `fn` pointer, once `const fn` can reference `static`s. pub(super) get_handle_counters: extern "C" fn() -> &'static HandleCounters, pub(super) run: extern "C" fn(Bridge<'_>, F) -> Buffer, pub(super) f: F, } /// Client-side helper for handling client panics, entering the bridge, /// deserializing input and serializing output. // FIXME(eddyb) maybe replace `Bridge::enter` with this? fn run_client DecodeMut<'a, 's, ()>, R: Encode<()>>( mut bridge: Bridge<'_>, f: impl FnOnce(A) -> R, ) -> Buffer { // The initial `cached_buffer` contains the input. let mut b = bridge.cached_buffer.take(); panic::catch_unwind(panic::AssertUnwindSafe(|| { bridge.enter(|| { let reader = &mut &b[..]; let input = A::decode(reader, &mut ()); // Put the `cached_buffer` back in the `Bridge`, for requests. Bridge::with(|bridge| bridge.cached_buffer = b.take()); let output = f(input); // Take the `cached_buffer` back out, for the output value. b = Bridge::with(|bridge| bridge.cached_buffer.take()); // HACK(eddyb) Separate encoding a success value (`Ok(output)`) // from encoding a panic (`Err(e: PanicMessage)`) to avoid // having handles outside the `bridge.enter(|| ...)` scope, and // to catch panics that could happen while encoding the success. // // Note that panics should be impossible beyond this point, but // this is defensively trying to avoid any accidental panicking // reaching the `extern "C"` (which should `abort` but might not // at the moment, so this is also potentially preventing UB). b.clear(); Ok::<_, ()>(output).encode(&mut b, &mut ()); }) })) .map_err(PanicMessage::from) .unwrap_or_else(|e| { b.clear(); Err::<(), _>(e).encode(&mut b, &mut ()); }); b } impl Client super::super::TokenStream> { pub fn expand1(f: fn(super::super::TokenStream) -> super::super::TokenStream) -> Self { extern "C" fn run( bridge: Bridge<'_>, f: impl FnOnce(super::super::TokenStream) -> super::super::TokenStream, ) -> Buffer { run_client(bridge, |input| f(super::super::TokenStream(input)).0) } Client { get_handle_counters: HandleCounters::get, run, f } } } impl Client super::super::TokenStream> { pub fn expand2( f: fn(super::super::TokenStream, super::super::TokenStream) -> super::super::TokenStream, ) -> Self { extern "C" fn run( bridge: Bridge<'_>, f: impl FnOnce( super::super::TokenStream, super::super::TokenStream, ) -> super::super::TokenStream, ) -> Buffer { run_client(bridge, |(input, input2)| { f(super::super::TokenStream(input), super::super::TokenStream(input2)).0 }) } Client { get_handle_counters: HandleCounters::get, run, f } } } #[repr(C)] #[derive(Copy, Clone)] pub enum ProcMacro { CustomDerive { trait_name: &'static str, attributes: &'static [&'static str], client: Client super::super::TokenStream>, }, Attr { name: &'static str, client: Client< fn(super::super::TokenStream, super::super::TokenStream) -> super::super::TokenStream, >, }, Bang { name: &'static str, client: Client super::super::TokenStream>, }, } impl ProcMacro { pub fn name(&self) -> &'static str { match self { ProcMacro::CustomDerive { trait_name, .. } => trait_name, ProcMacro::Attr { name, .. } => name, ProcMacro::Bang { name, .. } => name, } } pub fn custom_derive( trait_name: &'static str, attributes: &'static [&'static str], expand: fn(super::super::TokenStream) -> super::super::TokenStream, ) -> Self { ProcMacro::CustomDerive { trait_name, attributes, client: Client::expand1(expand) } } pub fn attr( name: &'static str, expand: fn( super::super::TokenStream, super::super::TokenStream, ) -> super::super::TokenStream, ) -> Self { ProcMacro::Attr { name, client: Client::expand2(expand) } } pub fn bang( name: &'static str, expand: fn(super::super::TokenStream) -> super::super::TokenStream, ) -> Self { ProcMacro::Bang { name, client: Client::expand1(expand) } } }