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//! Sanity checking performed by rustbuild before actually executing anything.
//!
//! This module contains the implementation of ensuring that the build
//! environment looks reasonable before progressing. This will verify that
//! various programs like git and python exist, along with ensuring that all C
//! compilers for cross-compiling are found.
//!
//! In theory if we get past this phase it's a bug if a build fails, but in
//! practice that's likely not true!
use std::collections::HashMap;
use std::env;
use std::ffi::{OsStr, OsString};
use std::fs;
use std::path::PathBuf;
use std::process::Command;
use walkdir::WalkDir;
use crate::builder::Kind;
use crate::core::config::Target;
use crate::utils::helpers::output;
use crate::Build;
pub struct Finder {
cache: HashMap<OsString, Option<PathBuf>>,
path: OsString,
}
// During sanity checks, we search for target names to determine if they exist in the compiler's built-in
// target list (`rustc --print target-list`). While a target name may be present in the stage2 compiler,
// it might not yet be included in stage0. In such cases, we handle the targets missing from stage0 in this list.
//
// Targets can be removed from this list once they are present in the stage0 compiler (usually by updating the beta compiler of the bootstrap).
const STAGE0_MISSING_TARGETS: &[&str] = &[
// just a dummy comment so the list doesn't get onelined
"aarch64-apple-visionos",
"aarch64-apple-visionos-sim",
];
impl Finder {
pub fn new() -> Self {
Self { cache: HashMap::new(), path: env::var_os("PATH").unwrap_or_default() }
}
pub fn maybe_have<S: Into<OsString>>(&mut self, cmd: S) -> Option<PathBuf> {
let cmd: OsString = cmd.into();
let path = &self.path;
self.cache
.entry(cmd.clone())
.or_insert_with(|| {
for path in env::split_paths(path) {
let target = path.join(&cmd);
let mut cmd_exe = cmd.clone();
cmd_exe.push(".exe");
if target.is_file() // some/path/git
|| path.join(&cmd_exe).exists() // some/path/git.exe
|| target.join(&cmd_exe).exists()
// some/path/git/git.exe
{
return Some(target);
}
}
None
})
.clone()
}
pub fn must_have<S: AsRef<OsStr>>(&mut self, cmd: S) -> PathBuf {
self.maybe_have(&cmd).unwrap_or_else(|| {
panic!("\n\ncouldn't find required command: {:?}\n\n", cmd.as_ref());
})
}
}
pub fn check(build: &mut Build) {
let mut skip_target_sanity =
env::var_os("BOOTSTRAP_SKIP_TARGET_SANITY").is_some_and(|s| s == "1" || s == "true");
skip_target_sanity |= build.config.cmd.kind() == Kind::Check;
// Skip target sanity checks when we are doing anything with mir-opt tests or Miri
let skipped_paths = [OsStr::new("mir-opt"), OsStr::new("miri")];
skip_target_sanity |= build.config.paths.iter().any(|path| {
path.components().any(|component| skipped_paths.contains(&component.as_os_str()))
});
let path = env::var_os("PATH").unwrap_or_default();
// On Windows, quotes are invalid characters for filename paths, and if
// one is present as part of the PATH then that can lead to the system
// being unable to identify the files properly. See
// https://github.com/rust-lang/rust/issues/34959 for more details.
if cfg!(windows) && path.to_string_lossy().contains('\"') {
panic!("PATH contains invalid character '\"'");
}
let mut cmd_finder = Finder::new();
// If we've got a git directory we're gonna need git to update
// submodules and learn about various other aspects.
if build.rust_info().is_managed_git_subrepository() {
cmd_finder.must_have("git");
}
// We need cmake, but only if we're actually building LLVM or sanitizers.
let building_llvm = build
.hosts
.iter()
.map(|host| {
build.config.llvm_enabled(*host)
&& build
.config
.target_config
.get(host)
.map(|config| config.llvm_config.is_none())
.unwrap_or(true)
})
.any(|build_llvm_ourselves| build_llvm_ourselves);
let need_cmake = building_llvm || build.config.any_sanitizers_to_build();
if need_cmake && cmd_finder.maybe_have("cmake").is_none() {
eprintln!(
"
Couldn't find required command: cmake
You should install cmake, or set `download-ci-llvm = true` in the
`[llvm]` section of `config.toml` to download LLVM rather
than building it.
"
);
crate::exit!(1);
}
build.config.python = build
.config
.python
.take()
.map(|p| cmd_finder.must_have(p))
.or_else(|| env::var_os("BOOTSTRAP_PYTHON").map(PathBuf::from)) // set by bootstrap.py
.or_else(|| cmd_finder.maybe_have("python"))
.or_else(|| cmd_finder.maybe_have("python3"))
.or_else(|| cmd_finder.maybe_have("python2"));
build.config.nodejs = build
.config
.nodejs
.take()
.map(|p| cmd_finder.must_have(p))
.or_else(|| cmd_finder.maybe_have("node"))
.or_else(|| cmd_finder.maybe_have("nodejs"));
build.config.npm = build
.config
.npm
.take()
.map(|p| cmd_finder.must_have(p))
.or_else(|| cmd_finder.maybe_have("npm"));
build.config.gdb = build
.config
.gdb
.take()
.map(|p| cmd_finder.must_have(p))
.or_else(|| cmd_finder.maybe_have("gdb"));
build.config.reuse = build
.config
.reuse
.take()
.map(|p| cmd_finder.must_have(p))
.or_else(|| cmd_finder.maybe_have("reuse"));
// We're gonna build some custom C code here and there, host triples
// also build some C++ shims for LLVM so we need a C++ compiler.
for target in &build.targets {
// On emscripten we don't actually need the C compiler to just
// build the target artifacts, only for testing. For the sake
// of easier bot configuration, just skip detection.
if target.contains("emscripten") {
continue;
}
// We don't use a C compiler on wasm32
if target.contains("wasm32") {
continue;
}
// skip check for cross-targets
if skip_target_sanity && target != &build.build {
continue;
}
let target_str = target.to_string();
// Ignore fake targets that are only used for unit tests in bootstrap.
if !["A-A", "B-B", "C-C"].contains(&target_str.as_str()) {
let mut has_target = false;
let supported_target_list =
output(Command::new(&build.config.initial_rustc).args(["--print", "target-list"]));
// Check if it's a built-in target.
has_target |= supported_target_list.contains(&target_str);
has_target |= STAGE0_MISSING_TARGETS.contains(&target_str.as_str());
if !has_target {
// This might also be a custom target, so check the target file that could have been specified by the user.
if let Some(custom_target_path) = env::var_os("RUST_TARGET_PATH") {
let mut target_filename = OsString::from(&target_str);
// Target filename ends with `.json`.
target_filename.push(".json");
// Recursively traverse through nested directories.
let walker = WalkDir::new(custom_target_path).into_iter();
for entry in walker.filter_map(|e| e.ok()) {
has_target |= entry.file_name() == target_filename;
}
}
}
if !has_target {
panic!(
"No such target exists in the target list,
specify a correct location of the JSON specification file for custom targets!"
);
}
}
if !build.config.dry_run() {
cmd_finder.must_have(build.cc(*target));
if let Some(ar) = build.ar(*target) {
cmd_finder.must_have(ar);
}
}
}
for host in &build.hosts {
if !build.config.dry_run() {
cmd_finder.must_have(build.cxx(*host).unwrap());
}
if build.config.llvm_enabled(*host) {
// Externally configured LLVM requires FileCheck to exist
let filecheck = build.llvm_filecheck(build.build);
if !filecheck.starts_with(&build.out)
&& !filecheck.exists()
&& build.config.codegen_tests
{
panic!("FileCheck executable {filecheck:?} does not exist");
}
}
}
for target in &build.targets {
build
.config
.target_config
.entry(*target)
.or_insert_with(|| Target::from_triple(&target.triple));
if (target.contains("-none-") || target.contains("nvptx"))
&& build.no_std(*target) == Some(false)
{
panic!("All the *-none-* and nvptx* targets are no-std targets")
}
// skip check for cross-targets
if skip_target_sanity && target != &build.build {
continue;
}
// Make sure musl-root is valid.
if target.contains("musl") && !target.contains("unikraft") {
// If this is a native target (host is also musl) and no musl-root is given,
// fall back to the system toolchain in /usr before giving up
if build.musl_root(*target).is_none() && build.config.build == *target {
let target = build.config.target_config.entry(*target).or_default();
target.musl_root = Some("/usr".into());
}
match build.musl_libdir(*target) {
Some(libdir) => {
if fs::metadata(libdir.join("libc.a")).is_err() {
panic!("couldn't find libc.a in musl libdir: {}", libdir.display());
}
}
None => panic!(
"when targeting MUSL either the rust.musl-root \
option or the target.$TARGET.musl-root option must \
be specified in config.toml"
),
}
}
if need_cmake && target.is_msvc() {
// There are three builds of cmake on windows: MSVC, MinGW, and
// Cygwin. The Cygwin build does not have generators for Visual
// Studio, so detect that here and error.
let out = output(Command::new("cmake").arg("--help"));
if !out.contains("Visual Studio") {
panic!(
"
cmake does not support Visual Studio generators.
This is likely due to it being an msys/cygwin build of cmake,
rather than the required windows version, built using MinGW
or Visual Studio.
If you are building under msys2 try installing the mingw-w64-x86_64-cmake
package instead of cmake:
$ pacman -R cmake && pacman -S mingw-w64-x86_64-cmake
"
);
}
}
}
if let Some(ref s) = build.config.ccache {
cmd_finder.must_have(s);
}
}