rust/tests/compiletest.rs
2018-10-16 17:57:03 +02:00

198 lines
6.4 KiB
Rust

#![feature(slice_concat_ext)]
extern crate compiletest_rs as compiletest;
extern crate colored;
use colored::*;
use std::slice::SliceConcatExt;
use std::path::{PathBuf, Path};
use std::io::Write;
macro_rules! eprintln {
($($arg:tt)*) => {
let stderr = std::io::stderr();
writeln!(stderr.lock(), $($arg)*).unwrap();
}
}
fn miri_path() -> PathBuf {
if rustc_test_suite().is_some() {
PathBuf::from(option_env!("MIRI_PATH").unwrap())
} else {
PathBuf::from(concat!("target/", env!("PROFILE"), "/miri"))
}
}
fn rustc_test_suite() -> Option<PathBuf> {
option_env!("RUSTC_TEST_SUITE").map(PathBuf::from)
}
fn rustc_lib_path() -> PathBuf {
option_env!("RUSTC_LIB_PATH").unwrap().into()
}
fn have_fullmir() -> bool {
// We assume we have full MIR when MIRI_SYSROOT is set or when we are in rustc
std::env::var("MIRI_SYSROOT").is_ok() || rustc_test_suite().is_some()
}
fn compile_fail(sysroot: &Path, path: &str, target: &str, host: &str, need_fullmir: bool) {
if need_fullmir && !have_fullmir() {
eprintln!("{}", format!(
"## Skipping compile-fail tests in {} against miri for target {} due to missing mir",
path,
target
).yellow().bold());
return;
}
eprintln!("{}", format!(
"## Running compile-fail tests in {} against miri for target {}",
path,
target
).green().bold());
let mut config = compiletest::Config::default().tempdir();
config.mode = "compile-fail".parse().expect("Invalid mode");
config.rustc_path = miri_path();
let mut flags = Vec::new();
if rustc_test_suite().is_some() {
config.run_lib_path = rustc_lib_path();
config.compile_lib_path = rustc_lib_path();
}
flags.push(format!("--sysroot {}", sysroot.display()));
flags.push("-Dwarnings -Dunused".to_owned()); // overwrite the -Aunused in compiletest-rs
config.src_base = PathBuf::from(path.to_string());
flags.push("-Zmir-emit-validate=1".to_owned());
config.target_rustcflags = Some(flags.join(" "));
config.target = target.to_owned();
config.host = host.to_owned();
compiletest::run_tests(&config);
}
fn miri_pass(sysroot: &Path, path: &str, target: &str, host: &str, need_fullmir: bool, opt: bool) {
if need_fullmir && !have_fullmir() {
eprintln!("{}", format!(
"## Skipping run-pass tests in {} against miri for target {} due to missing mir",
path,
target
).yellow().bold());
return;
}
let opt_str = if opt { " with optimizations" } else { "" };
eprintln!("{}", format!(
"## Running run-pass tests in {} against miri for target {}{}",
path,
target,
opt_str
).green().bold());
let mut config = compiletest::Config::default().tempdir();
config.mode = "ui".parse().expect("Invalid mode");
config.src_base = PathBuf::from(path);
config.target = target.to_owned();
config.host = host.to_owned();
config.rustc_path = miri_path();
if rustc_test_suite().is_some() {
config.run_lib_path = rustc_lib_path();
config.compile_lib_path = rustc_lib_path();
}
let mut flags = Vec::new();
flags.push(format!("--sysroot {}", sysroot.display()));
flags.push("-Dwarnings -Dunused".to_owned()); // overwrite the -Aunused in compiletest-rs
if have_fullmir() {
flags.push("-Zmiri-start-fn".to_owned());
}
if opt {
// FIXME: Using level 1 (instead of 3) for now, as the optimizer is pretty broken
// and crashes...
// Level 0 and 1 are not the same, so this still gives us *some* coverage.
// See https://github.com/rust-lang/rust/issues/50411
flags.push("-Zmir-opt-level=1".to_owned());
} else {
flags.push("-Zmir-opt-level=0".to_owned());
// For now, only validate without optimizations. Inlining breaks validation.
flags.push("-Zmir-emit-validate=1".to_owned());
}
config.target_rustcflags = Some(flags.join(" "));
compiletest::run_tests(&config);
}
fn is_target_dir<P: Into<PathBuf>>(path: P) -> bool {
let mut path = path.into();
path.push("lib");
path.metadata().map(|m| m.is_dir()).unwrap_or(false)
}
fn for_all_targets<F: FnMut(String)>(sysroot: &Path, mut f: F) {
let target_dir = sysroot.join("lib").join("rustlib");
for entry in std::fs::read_dir(target_dir).expect("invalid sysroot") {
let entry = entry.unwrap();
if !is_target_dir(entry.path()) {
continue;
}
let target = entry.file_name().into_string().unwrap();
f(target);
}
}
fn get_sysroot() -> PathBuf {
let sysroot = std::env::var("MIRI_SYSROOT").unwrap_or_else(|_| {
let sysroot = std::process::Command::new("rustc")
.arg("--print")
.arg("sysroot")
.output()
.expect("rustc not found")
.stdout;
String::from_utf8(sysroot).expect("sysroot is not utf8")
});
PathBuf::from(sysroot.trim())
}
fn get_host() -> String {
let rustc = rustc_test_suite().unwrap_or(PathBuf::from("rustc"));
println!("using rustc at {}", rustc.display());
let host = std::process::Command::new(rustc)
.arg("-vV")
.output()
.expect("rustc not found for -vV")
.stdout;
let host = std::str::from_utf8(&host).expect("sysroot is not utf8");
let host = host.split("\nhost: ").nth(1).expect(
"no host: part in rustc -vV",
);
let host = host.split('\n').next().expect("no \n after host");
String::from(host)
}
fn run_pass_miri(opt: bool) {
let sysroot = get_sysroot();
let host = get_host();
for_all_targets(&sysroot, |target| {
miri_pass(&sysroot, "tests/run-pass", &target, &host, false, opt);
});
miri_pass(&sysroot, "tests/run-pass-fullmir", &host, &host, true, opt);
}
fn compile_fail_miri() {
let sysroot = get_sysroot();
let host = get_host();
// FIXME: run tests for other targets, too
compile_fail(&sysroot, "tests/compile-fail", &host, &host, false);
compile_fail(&sysroot, "tests/compile-fail-fullmir", &host, &host, true);
}
#[test]
fn test() {
// We put everything into a single test to avoid the parallelism `cargo test`
// introduces. We still get parallelism within our tests because `compiletest`
// uses `libtest` which runs jobs in parallel.
run_pass_miri(false);
run_pass_miri(true);
compile_fail_miri();
}