rust/tests/run-make/cross-lang-lto/rmake.rs

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2024-07-29 11:03:14 -05:00
// This test checks that the object files we generate are actually
// LLVM bitcode files (as used by linker LTO plugins) when compiling with
// -Clinker-plugin-lto.
// See https://github.com/rust-lang/rust/pull/50000
#![feature(path_file_prefix)]
use std::path::PathBuf;
use run_make_support::{
cwd, has_extension, has_prefix, llvm_ar, llvm_bcanalyzer, path, rfs, rust_lib_name, rustc,
shallow_find_files, static_lib_name,
};
fn main() {
check_bitcode(LibBuild {
source: path("lib.rs"),
crate_type: Some("staticlib"),
output: path(static_lib_name("liblib")),
lto: None,
emit_obj: false,
});
check_bitcode(LibBuild {
source: path("lib.rs"),
crate_type: Some("staticlib"),
output: path(static_lib_name("liblib-fat-lto")),
lto: Some("fat"),
emit_obj: false,
});
check_bitcode(LibBuild {
source: path("lib.rs"),
crate_type: Some("staticlib"),
output: path(static_lib_name("liblib-thin-lto")),
lto: Some("thin"),
emit_obj: false,
});
check_bitcode(LibBuild {
source: path("lib.rs"),
crate_type: Some("rlib"),
output: path(rust_lib_name("liblib")),
lto: None,
emit_obj: false,
});
check_bitcode(LibBuild {
source: path("lib.rs"),
crate_type: Some("cdylib"),
output: path("cdylib.o"),
lto: None,
emit_obj: true,
});
check_bitcode(LibBuild {
source: path("lib.rs"),
crate_type: Some("dylib"),
output: path("rdylib.o"),
lto: None,
emit_obj: true,
});
check_bitcode(LibBuild {
source: path("main.rs"),
crate_type: None,
output: path("exe.o"),
lto: None,
emit_obj: true,
});
}
#[track_caller]
fn check_bitcode(instructions: LibBuild) {
let mut rustc = rustc();
rustc
.input(instructions.source)
.output(&instructions.output)
.opt_level("2")
.codegen_units(1)
.arg("-Clinker-plugin-lto");
if instructions.emit_obj {
rustc.emit("obj");
}
if let Some(crate_type) = instructions.crate_type {
rustc.crate_type(crate_type);
}
if let Some(lto) = instructions.lto {
rustc.arg(format!("-Clto={lto}"));
}
rustc.run();
if instructions.output.extension().unwrap() != "o" {
// Remove all potential leftover object files, then turn the output into an object file.
for object in shallow_find_files(cwd(), |path| has_extension(path, "o")) {
rfs::remove_file(object);
}
llvm_ar().extract().arg(&instructions.output).run();
}
for object in shallow_find_files(cwd(), |path| {
has_prefix(path, instructions.output.file_prefix().unwrap().to_str().unwrap())
&& has_extension(path, "o")
}) {
// All generated object files should be LLVM bitcode files - this will fail otherwise.
llvm_bcanalyzer().input(object).run();
}
}
struct LibBuild {
source: PathBuf,
crate_type: Option<&'static str>,
output: PathBuf,
lto: Option<&'static str>,
emit_obj: bool,
}