rust/tests/run-make/compiler-builtins/rmake.rs
2024-06-11 09:53:31 -04:00

129 lines
5.0 KiB
Rust

//! The compiler_builtins library is special. It can call functions in core, but it must not
//! require linkage against a build of core. If it ever does, building the standard library *may*
//! result in linker errors, depending on whether the linker in use applies optimizations first or
//! resolves symbols first. So the portable and safe approach is to forbid such a linkage
//! requirement entirely.
//!
//! In addition, whether compiler_builtins requires linkage against core can depend on optimization
//! settings. Turning off optimizations and enabling debug assertions tends to produce the most
//! dependence on core that is possible, so that is the configuration we test here.
// wasm and nvptx targets don't produce rlib files that object can parse.
//@ ignore-wasm
//@ ignore-nvptx64
#![deny(warnings)]
use run_make_support::fs_wrapper::{read, read_dir};
use run_make_support::object::read::archive::ArchiveFile;
use run_make_support::object::read::Object;
use run_make_support::object::ObjectSection;
use run_make_support::object::ObjectSymbol;
use run_make_support::object::RelocationTarget;
use run_make_support::{cmd, env_var, object};
use std::collections::HashSet;
use std::path::PathBuf;
fn main() {
let target_dir = PathBuf::from("target");
let target = env_var("TARGET");
println!("Testing compiler_builtins for {}", target);
let manifest_path = PathBuf::from("Cargo.toml");
let path = env_var("PATH");
let rustc = env_var("RUSTC");
let bootstrap_cargo = env_var("BOOTSTRAP_CARGO");
let mut cmd = cmd(bootstrap_cargo);
cmd.args(&[
"build",
"--manifest-path",
manifest_path.to_str().unwrap(),
"-Zbuild-std=core",
"--target",
&target,
])
.env("PATH", path)
.env("RUSTC", rustc)
.env("RUSTFLAGS", "-Copt-level=0 -Cdebug-assertions=yes")
.env("CARGO_TARGET_DIR", &target_dir)
.env("RUSTC_BOOTSTRAP", "1")
// Visual Studio 2022 requires that the LIB env var be set so it can
// find the Windows SDK.
.env("LIB", std::env::var("LIB").unwrap_or_default());
cmd.run();
let rlibs_path = target_dir.join(target).join("debug").join("deps");
let compiler_builtins_rlib = read_dir(rlibs_path)
.find_map(|e| {
let path = e.unwrap().path();
let file_name = path.file_name().unwrap().to_str().unwrap();
if file_name.starts_with("libcompiler_builtins") && file_name.ends_with(".rlib") {
Some(path)
} else {
None
}
})
.unwrap();
// rlib files are archives, where the archive members each a CGU, and we also have one called
// lib.rmeta which is the encoded metadata. Each of the CGUs is an object file.
let data = read(compiler_builtins_rlib);
let mut defined_symbols = HashSet::new();
let mut undefined_relocations = HashSet::new();
let archive = ArchiveFile::parse(&*data).unwrap();
for member in archive.members() {
let member = member.unwrap();
if member.name() == b"lib.rmeta" {
continue;
}
let data = member.data(&*data).unwrap();
let object = object::File::parse(&*data).unwrap();
// Record all defined symbols in this CGU.
for symbol in object.symbols() {
if !symbol.is_undefined() {
let name = symbol.name().unwrap();
defined_symbols.insert(name);
}
}
// Find any relocations against undefined symbols. Calls within this CGU are relocations
// against a defined symbol.
for (_offset, relocation) in object.sections().flat_map(|section| section.relocations()) {
let RelocationTarget::Symbol(symbol_index) = relocation.target() else {
continue;
};
let symbol = object.symbol_by_index(symbol_index).unwrap();
if symbol.is_undefined() {
let name = symbol.name().unwrap();
undefined_relocations.insert(name);
}
}
}
// We can have symbols in the compiler_builtins rlib that are actually from core, if they were
// monomorphized in the compiler_builtins crate. This is totally fine, because though the call
// is to a function in core, it's resolved internally.
//
// It is normal to have relocations against symbols not defined in the rlib for things like
// unwinding, or math functions provided the target's platform libraries. Finding these is not
// a problem, we want to specifically ban relocations against core which are not resolved
// internally.
undefined_relocations
.retain(|symbol| !defined_symbols.contains(symbol) && symbol.contains("core"));
if !undefined_relocations.is_empty() {
panic!(
"compiler_builtins must not link against core, but it does. \n\
These symbols may be undefined in a debug build of compiler_builtins:\n\
{:?}",
undefined_relocations
);
}
}