//@ revisions: cfail1 cfail2 //@ compile-flags: -O -Zhuman-readable-cgu-names -Cllvm-args=-import-instr-limit=10 //@ build-pass // rust-lang/rust#59535: // // Consider a call-graph like `[A] -> [B -> D] <- [C]` (where the letters are // functions and the modules are enclosed in `[]`) // // In our specific instance, the earlier compilations were inlining the call // to`B` into `A`; thus `A` ended up with an external reference to the symbol `D` // in its object code, to be resolved at subsequent link time. The LTO import // information provided by LLVM for those runs reflected that information: it // explicitly says during those runs, `B` definition and `D` declaration were // imported into `[A]`. // // The change between incremental builds was that the call `D <- C` was removed. // // That change, coupled with other decisions within `rustc`, made the compiler // decide to make `D` an internal symbol (since it was no longer accessed from // other codegen units, this makes sense locally). And then the definition of // `D` was inlined into `B` and `D` itself was eliminated entirely. // // The current LTO import information reported that `B` alone is imported into // `[A]` for the *current compilation*. So when the Rust compiler surveyed the // dependence graph, it determined that nothing `[A]` imports changed since the // last build (and `[A]` itself has not changed either), so it chooses to reuse // the object code generated during the previous compilation. // // But that previous object code has an unresolved reference to `D`, and that // causes a link time failure! fn main() { foo::foo(); bar::baz(); } mod foo { // In cfail1, foo() gets inlined into main. // In cfail2, ThinLTO decides that foo() does not get inlined into main, and // instead bar() gets inlined into foo(). But faulty logic in our incr. // ThinLTO implementation thought that `main()` is unchanged and thus reused // the object file still containing a call to the now non-existent bar(). pub fn foo(){ bar() } // This function needs to be big so that it does not get inlined by ThinLTO // but *does* get inlined into foo() once it is declared `internal` in // cfail2. pub fn bar(){ println!("quux1"); println!("quux2"); println!("quux3"); println!("quux4"); println!("quux5"); println!("quux6"); println!("quux7"); println!("quux8"); println!("quux9"); } } mod bar { #[inline(never)] pub fn baz() { #[cfg(cfail1)] { crate::foo::bar(); } } }