proc_macro/bridge: use the cross-thread executor for nested proc-macros

While working on some other changes in the bridge, I noticed that when running a nested proc-macro (which is currently only possible using the unstable `TokenStream::expand_expr`), any symbols held by the proc-macro client would be invalidated, as the same thread would be used for the nested macro by default, and the interner doesn't handle nested use. After discussing with @eddyb, we decided the best approach might be to force the use of the cross-thread executor for nested invocations, as it will never re-use thread-local storage, avoiding the issue. This shouldn't impact performance, as expand_expr is still unstable, and infrequently used. This was chosen rather than making the client symbol interner handle nested invocations, as that would require replacing the internal interner `Vec` with a `BTreeMap` (as valid symbol id ranges could now be disjoint), and the symbol interner is known to be fairly perf-sensitive. This patch adds checks to the execution strategy to use the cross-thread executor when doing nested invocations. An alternative implementation strategy could be to track this information in the `ExtCtxt`, however a thread-local in the `proc_macro` crate was chosen to add an assertion so that `rust-analyzer` is aware of the issue if it implements `expand_expr` in the future. r? @eddyb
2024-11-01 06:51:58 +00:00 · 2022-09-04 12:53:29 -04:00 · 2022-09-04 12:53:29 -04:00 · efda49712b
commit efda49712b
parent b11bf65e4a
2 changed files with 56 additions and 4 deletions
--- a/library/proc_macro/src/bridge/server.rs
+++ b/library/proc_macro/src/bridge/server.rs
@ -2,6 +2,7 @@

 use super::*;

+use std::cell::Cell;
 use std::marker::PhantomData;

 // FIXME(eddyb) generate the definition of `HandleStore` in `server.rs`.
@ -143,6 +144,38 @@ pub trait ExecutionStrategy {
    ) -> Buffer;
 }

+thread_local! {
+    /// While running a proc-macro with the same-thread executor, this flag will
+    /// be set, forcing nested proc-macro invocations (e.g. due to
+    /// `TokenStream::expand_expr`) to be run using a cross-thread executor.
+    ///
+    /// This is required as the thread-local state in the proc_macro client does
+    /// not handle being re-entered, and will invalidate all `Symbol`s when
+    /// entering a nested macro.
+    static ALREADY_RUNNING_SAME_THREAD: Cell<bool> = Cell::new(false);
+}
+
+/// Keep `ALREADY_RUNNING_SAME_THREAD` (see also its documentation)
+/// set to `true`, preventing same-thread reentrance.
+struct RunningSameThreadGuard(());
+
+impl RunningSameThreadGuard {
+    fn new() -> Self {
+        let already_running = ALREADY_RUNNING_SAME_THREAD.replace(true);
+        assert!(
+            !already_running,
+            "same-thread nesting (\"reentrance\") of proc macro executions is not supported"
+        );
+        RunningSameThreadGuard(())
+    }
+}
+
+impl Drop for RunningSameThreadGuard {
+    fn drop(&mut self) {
+        ALREADY_RUNNING_SAME_THREAD.set(false);
+    }
+}
+
 pub struct MaybeCrossThread<P> {
    cross_thread: bool,
    marker: PhantomData<P>,
@ -165,7 +198,7 @@ where
        run_client: extern "C" fn(BridgeConfig<'_>) -> Buffer,
        force_show_panics: bool,
    ) -> Buffer {
-        if self.cross_thread {
+        if self.cross_thread || ALREADY_RUNNING_SAME_THREAD.get() {
            <CrossThread<P>>::new().run_bridge_and_client(
                dispatcher,
                input,
@ -188,6 +221,8 @@ impl ExecutionStrategy for SameThread {
        run_client: extern "C" fn(BridgeConfig<'_>) -> Buffer,
        force_show_panics: bool,
    ) -> Buffer {
+        let _guard = RunningSameThreadGuard::new();
+
        let mut dispatch = |buf| dispatcher.dispatch(buf);

        run_client(BridgeConfig {
--- a/src/test/ui/proc-macro/auxiliary/expand-expr.rs
+++ b/src/test/ui/proc-macro/auxiliary/expand-expr.rs
@ -80,13 +80,21 @@ fn assert_ts_eq(lhs: &TokenStream, rhs: &TokenStream) {
 pub fn expand_expr_is(input: TokenStream) -> TokenStream {
    let mut iter = input.into_iter();
    let mut expected_tts = Vec::new();
-    loop {
+    let comma = loop {
        match iter.next() {
-            Some(TokenTree::Punct(ref p)) if p.as_char() == ',' => break,
+            Some(TokenTree::Punct(p)) if p.as_char() == ',' => break p,
            Some(tt) => expected_tts.push(tt),
            None => panic!("expected comma"),
        }
-    }
+    };
+
+    // Make sure that `Ident` and `Literal` objects from this proc-macro's
+    // environment are not invalidated when `expand_expr` recursively invokes
+    // another macro by taking a local copy, and checking it after the fact.
+    let pre_expand_span = comma.span();
+    let pre_expand_ident = Ident::new("ident", comma.span());
+    let pre_expand_literal = Literal::string("literal");
+    let pre_expand_call_site = Span::call_site();

    let expected = expected_tts.into_iter().collect::<TokenStream>();
    let expanded = iter.collect::<TokenStream>().expand_expr().expect("expand_expr failed");
@ -100,6 +108,15 @@ pub fn expand_expr_is(input: TokenStream) -> TokenStream {
    // Also compare the raw tts to make sure they line up.
    assert_ts_eq(&expected, &expanded);

+    assert!(comma.span().eq(&pre_expand_span), "pre-expansion span is still equal");
+    assert_eq!(pre_expand_ident.to_string(), "ident", "pre-expansion identifier is still valid");
+    assert_eq!(
+        pre_expand_literal.to_string(),
+        "\"literal\"",
+        "pre-expansion literal is still valid"
+    );
+    assert!(Span::call_site().eq(&pre_expand_call_site), "pre-expansion call-site is still equal");
+
    TokenStream::new()
 }