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fuchsia / third_party / rust / 295ec09b63b1c8352d4a75895eb5d8bd85975b16 / . / src / bootstrap / llvm.rs
blob: 07288a1863ad8a14121fd1f1dc0ac3f554346ecb [file] [log] [blame]
//! Compilation of native dependencies like LLVM.
//!
//! Native projects like LLVM unfortunately aren't suited just yet for
//! compilation in build scripts that Cargo has. This is because the
//! compilation takes a *very* long time but also because we don't want to
//! compile LLVM 3 times as part of a normal bootstrap (we want it cached).
//!
//! LLVM and compiler-rt are essentially just wired up to everything else to
//! ensure that they're always in place if needed.
use std::env;
use std::env::consts::EXE_EXTENSION;
use std::ffi::{OsStr, OsString};
use std::fs::{self, File};
use std::io;
use std::path::{Path, PathBuf};
use std::process::Command;
use crate::builder::{Builder, RunConfig, ShouldRun, Step};
use crate::channel;
use crate::config::{Config, TargetSelection};
use crate::util::get_clang_cl_resource_dir;
use crate::util::{self, exe, output, t, up_to_date};
use crate::{CLang, GitRepo, Kind};
use build_helper::ci::CiEnv;
use build_helper::git::get_git_merge_base;
#[derive(Clone)]
pub struct LlvmResult {
/// Path to llvm-config binary.
/// NB: This is always the host llvm-config!
pub llvm_config: PathBuf,
/// Path to LLVM cmake directory for the target.
pub llvm_cmake_dir: PathBuf,
}
pub struct Meta {
stamp: HashStamp,
res: LlvmResult,
out_dir: PathBuf,
root: String,
}
// Linker flags to pass to LLVM's CMake invocation.
#[derive(Debug, Clone, Default)]
struct LdFlags {
// CMAKE_EXE_LINKER_FLAGS
exe: OsString,
// CMAKE_SHARED_LINKER_FLAGS
shared: OsString,
// CMAKE_MODULE_LINKER_FLAGS
module: OsString,
}
impl LdFlags {
fn push_all(&mut self, s: impl AsRef<OsStr>) {
let s = s.as_ref();
self.exe.push(" ");
self.exe.push(s);
self.shared.push(" ");
self.shared.push(s);
self.module.push(" ");
self.module.push(s);
}
}
/// This returns whether we've already previously built LLVM.
///
/// It's used to avoid busting caches during x.py check -- if we've already built
/// LLVM, it's fine for us to not try to avoid doing so.
///
/// This will return the llvm-config if it can get it (but it will not build it
/// if not).
pub fn prebuilt_llvm_config(
builder: &Builder<'_>,
target: TargetSelection,
) -> Result<LlvmResult, Meta> {
builder.config.maybe_download_ci_llvm();
// If we're using a custom LLVM bail out here, but we can only use a
// custom LLVM for the build triple.
if let Some(config) = builder.config.target_config.get(&target) {
if let Some(ref s) = config.llvm_config {
check_llvm_version(builder, s);
let llvm_config = s.to_path_buf();
let mut llvm_cmake_dir = llvm_config.clone();
llvm_cmake_dir.pop();
llvm_cmake_dir.pop();
llvm_cmake_dir.push("lib");
llvm_cmake_dir.push("cmake");
llvm_cmake_dir.push("llvm");
return Ok(LlvmResult { llvm_config, llvm_cmake_dir });
}
}
let root = "src/llvm-project/llvm";
let out_dir = builder.llvm_out(target);
let mut llvm_config_ret_dir = builder.llvm_out(builder.config.build);
if !builder.config.build.contains("msvc") || builder.ninja() {
llvm_config_ret_dir.push("build");
}
llvm_config_ret_dir.push("bin");
let build_llvm_config = llvm_config_ret_dir.join(exe("llvm-config", builder.config.build));
let llvm_cmake_dir = out_dir.join("lib/cmake/llvm");
let res = LlvmResult { llvm_config: build_llvm_config, llvm_cmake_dir };
let stamp = out_dir.join("llvm-finished-building");
let stamp = HashStamp::new(stamp, builder.in_tree_llvm_info.sha());
if stamp.is_done() {
if stamp.hash.is_none() {
builder.info(
"Could not determine the LLVM submodule commit hash. \
Assuming that an LLVM rebuild is not necessary.",
);
builder.info(&format!(
"To force LLVM to rebuild, remove the file `{}`",
stamp.path.display()
));
}
return Ok(res);
}
Err(Meta { stamp, res, out_dir, root: root.into() })
}
/// This retrieves the LLVM sha we *want* to use, according to git history.
pub(crate) fn detect_llvm_sha(config: &Config, is_git: bool) -> String {
let llvm_sha = if is_git {
// We proceed in 2 steps. First we get the closest commit that is actually upstream. Then we
// walk back further to the last bors merge commit that actually changed LLVM. The first
// step will fail on CI because only the `auto` branch exists; we just fall back to `HEAD`
// in that case.
let closest_upstream =
get_git_merge_base(Some(&config.src)).unwrap_or_else(|_| "HEAD".into());
let mut rev_list = config.git();
rev_list.args(&[
PathBuf::from("rev-list"),
format!("--author={}", config.stage0_metadata.config.git_merge_commit_email).into(),
"-n1".into(),
"--first-parent".into(),
closest_upstream.into(),
"--".into(),
config.src.join("src/llvm-project"),
config.src.join("src/bootstrap/download-ci-llvm-stamp"),
// the LLVM shared object file is named `LLVM-12-rust-{version}-nightly`
config.src.join("src/version"),
]);
output(&mut rev_list).trim().to_owned()
} else if let Some(info) = channel::read_commit_info_file(&config.src) {
info.sha.trim().to_owned()
} else {
"".to_owned()
};
if llvm_sha.is_empty() {
eprintln!("error: could not find commit hash for downloading LLVM");
eprintln!("help: maybe your repository history is too shallow?");
eprintln!("help: consider disabling `download-ci-llvm`");
eprintln!("help: or fetch enough history to include one upstream commit");
panic!();
}
llvm_sha
}
/// Returns whether the CI-found LLVM is currently usable.
///
/// This checks both the build triple platform to confirm we're usable at all,
/// and then verifies if the current HEAD matches the detected LLVM SHA head,
/// in which case LLVM is indicated as not available.
pub(crate) fn is_ci_llvm_available(config: &Config, asserts: bool) -> bool {
// This is currently all tier 1 targets and tier 2 targets with host tools
// (since others may not have CI artifacts)
// https://doc.rust-lang.org/rustc/platform-support.html#tier-1
let supported_platforms = [
// tier 1
("aarch64-unknown-linux-gnu", false),
("i686-pc-windows-gnu", false),
("i686-pc-windows-msvc", false),
("i686-unknown-linux-gnu", false),
("x86_64-unknown-linux-gnu", true),
("x86_64-apple-darwin", true),
("x86_64-pc-windows-gnu", true),
("x86_64-pc-windows-msvc", true),
// tier 2 with host tools
("aarch64-apple-darwin", false),
("aarch64-pc-windows-msvc", false),
("aarch64-unknown-linux-musl", false),
("arm-unknown-linux-gnueabi", false),
("arm-unknown-linux-gnueabihf", false),
("armv7-unknown-linux-gnueabihf", false),
("loongarch64-unknown-linux-gnu", false),
("mips-unknown-linux-gnu", false),
("mips64-unknown-linux-gnuabi64", false),
("mips64el-unknown-linux-gnuabi64", false),
("mipsel-unknown-linux-gnu", false),
("powerpc-unknown-linux-gnu", false),
("powerpc64-unknown-linux-gnu", false),
("powerpc64le-unknown-linux-gnu", false),
("riscv64gc-unknown-linux-gnu", false),
("s390x-unknown-linux-gnu", false),
("x86_64-unknown-freebsd", false),
("x86_64-unknown-illumos", false),
("x86_64-unknown-linux-musl", false),
("x86_64-unknown-netbsd", false),
];
if !supported_platforms.contains(&(&*config.build.triple, asserts))
&& (asserts || !supported_platforms.contains(&(&*config.build.triple, true)))
{
return false;
}
if is_ci_llvm_modified(config) {
eprintln!("Detected LLVM as non-available: running in CI and modified LLVM in this change");
return false;
}
true
}
/// Returns true if we're running in CI with modified LLVM (and thus can't download it)
pub(crate) fn is_ci_llvm_modified(config: &Config) -> bool {
CiEnv::is_ci() && config.rust_info.is_managed_git_subrepository() && {
// We assume we have access to git, so it's okay to unconditionally pass
// `true` here.
let llvm_sha = detect_llvm_sha(config, true);
let head_sha = output(config.git().arg("rev-parse").arg("HEAD"));
let head_sha = head_sha.trim();
llvm_sha == head_sha
}
}
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
pub struct Llvm {
pub target: TargetSelection,
}
impl Step for Llvm {
type Output = LlvmResult;
const ONLY_HOSTS: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.path("src/llvm-project").path("src/llvm-project/llvm")
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(Llvm { target: run.target });
}
/// Compile LLVM for `target`.
fn run(self, builder: &Builder<'_>) -> LlvmResult {
let target = self.target;
let target_native = if self.target.starts_with("riscv") {
// RISC-V target triples in Rust is not named the same as C compiler target triples.
// This converts Rust RISC-V target triples to C compiler triples.
let idx = target.triple.find('-').unwrap();
format!("riscv{}{}", &target.triple[5..7], &target.triple[idx..])
} else if self.target.starts_with("powerpc") && self.target.ends_with("freebsd") {
// FreeBSD 13 had incompatible ABI changes on all PowerPC platforms.
// Set the version suffix to 13.0 so the correct target details are used.
format!("{}{}", self.target, "13.0")
} else {
target.to_string()
};
let Meta { stamp, res, out_dir, root } = match prebuilt_llvm_config(builder, target) {
Ok(p) => return p,
Err(m) => m,
};
builder.update_submodule(&Path::new("src").join("llvm-project"));
if builder.llvm_link_shared() && target.contains("windows") {
panic!("shared linking to LLVM is not currently supported on {}", target.triple);
}
let _guard = builder.msg_unstaged(Kind::Build, "LLVM", target);
t!(stamp.remove());
let _time = util::timeit(&builder);
t!(fs::create_dir_all(&out_dir));
// https://llvm.org/docs/CMake.html
let mut cfg = cmake::Config::new(builder.src.join(root));
let mut ldflags = LdFlags::default();
let profile = match (builder.config.llvm_optimize, builder.config.llvm_release_debuginfo) {
(false, _) => "Debug",
(true, false) => "Release",
(true, true) => "RelWithDebInfo",
};
// NOTE: remember to also update `config.example.toml` when changing the
// defaults!
let llvm_targets = match &builder.config.llvm_targets {
Some(s) => s,
None => {
"AArch64;ARM;BPF;Hexagon;LoongArch;MSP430;Mips;NVPTX;PowerPC;RISCV;\
Sparc;SystemZ;WebAssembly;X86"
}
};
let llvm_exp_targets = match builder.config.llvm_experimental_targets {
Some(ref s) => s,
None => "AVR;M68k;CSKY",
};
let assertions = if builder.config.llvm_assertions { "ON" } else { "OFF" };
let plugins = if builder.config.llvm_plugins { "ON" } else { "OFF" };
let enable_tests = if builder.config.llvm_tests { "ON" } else { "OFF" };
let enable_warnings = if builder.config.llvm_enable_warnings { "ON" } else { "OFF" };
cfg.out_dir(&out_dir)
.profile(profile)
.define("LLVM_ENABLE_ASSERTIONS", assertions)
.define("LLVM_UNREACHABLE_OPTIMIZE", "OFF")
.define("LLVM_ENABLE_PLUGINS", plugins)
.define("LLVM_TARGETS_TO_BUILD", llvm_targets)
.define("LLVM_EXPERIMENTAL_TARGETS_TO_BUILD", llvm_exp_targets)
.define("LLVM_INCLUDE_EXAMPLES", "OFF")
.define("LLVM_INCLUDE_DOCS", "OFF")
.define("LLVM_INCLUDE_BENCHMARKS", "OFF")
.define("LLVM_INCLUDE_TESTS", enable_tests)
.define("LLVM_ENABLE_TERMINFO", "OFF")
.define("LLVM_ENABLE_LIBEDIT", "OFF")
.define("LLVM_ENABLE_BINDINGS", "OFF")
.define("LLVM_ENABLE_Z3_SOLVER", "OFF")
.define("LLVM_PARALLEL_COMPILE_JOBS", builder.jobs().to_string())
.define("LLVM_TARGET_ARCH", target_native.split('-').next().unwrap())
.define("LLVM_DEFAULT_TARGET_TRIPLE", target_native)
.define("LLVM_ENABLE_WARNINGS", enable_warnings);
// Parts of our test suite rely on the `FileCheck` tool, which is built by default in
// `build/$TARGET/llvm/build/bin` is but *not* then installed to `build/$TARGET/llvm/bin`.
// This flag makes sure `FileCheck` is copied in the final binaries directory.
cfg.define("LLVM_INSTALL_UTILS", "ON");
if builder.config.llvm_profile_generate {
cfg.define("LLVM_BUILD_INSTRUMENTED", "IR");
if let Ok(llvm_profile_dir) = std::env::var("LLVM_PROFILE_DIR") {
cfg.define("LLVM_PROFILE_DATA_DIR", llvm_profile_dir);
}
cfg.define("LLVM_BUILD_RUNTIME", "No");
}
if let Some(path) = builder.config.llvm_profile_use.as_ref() {
cfg.define("LLVM_PROFDATA_FILE", &path);
}
// Disable zstd to avoid a dependency on libzstd.so.
cfg.define("LLVM_ENABLE_ZSTD", "OFF");
if !target.contains("windows") {
cfg.define("LLVM_ENABLE_ZLIB", "ON");
} else {
cfg.define("LLVM_ENABLE_ZLIB", "OFF");
}
// Are we compiling for iOS/tvOS/watchOS?
if target.contains("apple-ios")
|| target.contains("apple-tvos")
|| target.contains("apple-watchos")
{
// These two defines prevent CMake from automatically trying to add a MacOSX sysroot, which leads to a compiler error.
cfg.define("CMAKE_OSX_SYSROOT", "/");
cfg.define("CMAKE_OSX_DEPLOYMENT_TARGET", "");
// Prevent cmake from adding -bundle to CFLAGS automatically, which leads to a compiler error because "-bitcode_bundle" also gets added.
cfg.define("LLVM_ENABLE_PLUGINS", "OFF");
// Zlib fails to link properly, leading to a compiler error.
cfg.define("LLVM_ENABLE_ZLIB", "OFF");
}
// This setting makes the LLVM tools link to the dynamic LLVM library,
// which saves both memory during parallel links and overall disk space
// for the tools. We don't do this on every platform as it doesn't work
// equally well everywhere.
if builder.llvm_link_shared() {
cfg.define("LLVM_LINK_LLVM_DYLIB", "ON");
}
if (target.starts_with("riscv") || target.starts_with("csky"))
&& !target.contains("freebsd")
&& !target.contains("openbsd")
&& !target.contains("netbsd")
{
// RISC-V and CSKY GCC erroneously requires linking against
// `libatomic` when using 1-byte and 2-byte C++
// atomics but the LLVM build system check cannot
// detect this. Therefore it is set manually here.
// Some BSD uses Clang as its system compiler and
// provides no libatomic in its base system so does
// not want this.
ldflags.exe.push(" -latomic");
ldflags.shared.push(" -latomic");
}
if target.contains("msvc") {
cfg.define("LLVM_USE_CRT_DEBUG", "MT");
cfg.define("LLVM_USE_CRT_RELEASE", "MT");
cfg.define("LLVM_USE_CRT_RELWITHDEBINFO", "MT");
cfg.static_crt(true);
}
if target.starts_with("i686") {
cfg.define("LLVM_BUILD_32_BITS", "ON");
}
let mut enabled_llvm_projects = Vec::new();
if util::forcing_clang_based_tests() {
enabled_llvm_projects.push("clang");
enabled_llvm_projects.push("compiler-rt");
}
if builder.config.llvm_polly {
enabled_llvm_projects.push("polly");
}
if builder.config.llvm_clang {
enabled_llvm_projects.push("clang");
}
// We want libxml to be disabled.
// See https://github.com/rust-lang/rust/pull/50104
cfg.define("LLVM_ENABLE_LIBXML2", "OFF");
if !enabled_llvm_projects.is_empty() {
enabled_llvm_projects.sort();
enabled_llvm_projects.dedup();
cfg.define("LLVM_ENABLE_PROJECTS", enabled_llvm_projects.join(";"));
}
if let Some(num_linkers) = builder.config.llvm_link_jobs {
if num_linkers > 0 {
cfg.define("LLVM_PARALLEL_LINK_JOBS", num_linkers.to_string());
}
}
// https://llvm.org/docs/HowToCrossCompileLLVM.html
if target != builder.config.build {
let LlvmResult { llvm_config, .. } =
builder.ensure(Llvm { target: builder.config.build });
if !builder.config.dry_run() {
let llvm_bindir = output(Command::new(&llvm_config).arg("--bindir"));
let host_bin = Path::new(llvm_bindir.trim());
cfg.define(
"LLVM_TABLEGEN",
host_bin.join("llvm-tblgen").with_extension(EXE_EXTENSION),
);
// LLVM_NM is required for cross compiling using MSVC
cfg.define("LLVM_NM", host_bin.join("llvm-nm").with_extension(EXE_EXTENSION));
}
cfg.define("LLVM_CONFIG_PATH", llvm_config);
if builder.config.llvm_clang {
let build_bin = builder.llvm_out(builder.config.build).join("build").join("bin");
let clang_tblgen = build_bin.join("clang-tblgen").with_extension(EXE_EXTENSION);
if !builder.config.dry_run() && !clang_tblgen.exists() {
panic!("unable to find {}", clang_tblgen.display());
}
cfg.define("CLANG_TABLEGEN", clang_tblgen);
}
}
let llvm_version_suffix = if let Some(ref suffix) = builder.config.llvm_version_suffix {
// Allow version-suffix="" to not define a version suffix at all.
if !suffix.is_empty() { Some(suffix.to_string()) } else { None }
} else if builder.config.channel == "dev" {
// Changes to a version suffix require a complete rebuild of the LLVM.
// To avoid rebuilds during a time of version bump, don't include rustc
// release number on the dev channel.
Some("-rust-dev".to_string())
} else {
Some(format!("-rust-{}-{}", builder.version, builder.config.channel))
};
if let Some(ref suffix) = llvm_version_suffix {
cfg.define("LLVM_VERSION_SUFFIX", suffix);
}
configure_cmake(builder, target, &mut cfg, true, ldflags, &[]);
configure_llvm(builder, target, &mut cfg);
for (key, val) in &builder.config.llvm_build_config {
cfg.define(key, val);
}
if builder.config.dry_run() {
return res;
}
cfg.build();
// Helper to find the name of LLVM's shared library on darwin and linux.
let find_llvm_lib_name = |extension| {
let mut cmd = Command::new(&res.llvm_config);
let version = output(cmd.arg("--version"));
let major = version.split('.').next().unwrap();
match &llvm_version_suffix {
Some(version_suffix) => format!("libLLVM-{major}{version_suffix}.{extension}"),
None => format!("libLLVM-{major}.{extension}"),
}
};
// When building LLVM with LLVM_LINK_LLVM_DYLIB for macOS, an unversioned
// libLLVM.dylib will be built. However, llvm-config will still look
// for a versioned path like libLLVM-14.dylib. Manually create a symbolic
// link to make llvm-config happy.
if builder.llvm_link_shared() && target.contains("apple-darwin") {
let lib_name = find_llvm_lib_name("dylib");
let lib_llvm = out_dir.join("build").join("lib").join(lib_name);
if !lib_llvm.exists() {
t!(builder.symlink_file("libLLVM.dylib", &lib_llvm));
}
}
// When building LLVM as a shared library on linux, it can contain unexpected debuginfo:
// some can come from the C++ standard library. Unless we're explicitly requesting LLVM to
// be built with debuginfo, strip it away after the fact, to make dist artifacts smaller.
if builder.llvm_link_shared()
&& builder.config.llvm_optimize
&& !builder.config.llvm_release_debuginfo
{
// Find the name of the LLVM shared library that we just built.
let lib_name = find_llvm_lib_name("so");
// If the shared library exists in LLVM's `/build/lib/` or `/lib/` folders, strip its
// debuginfo.
crate::compile::strip_debug(builder, target, &out_dir.join("lib").join(&lib_name));
crate::compile::strip_debug(
builder,
target,
&out_dir.join("build").join("lib").join(&lib_name),
);
}
t!(stamp.write());
res
}
}
fn check_llvm_version(builder: &Builder<'_>, llvm_config: &Path) {
if builder.config.dry_run() {
return;
}
let mut cmd = Command::new(llvm_config);
let version = output(cmd.arg("--version"));
let mut parts = version.split('.').take(2).filter_map(|s| s.parse::<u32>().ok());
if let (Some(major), Some(_minor)) = (parts.next(), parts.next()) {
if major >= 15 {
return;
}
}
panic!("\n\nbad LLVM version: {version}, need >=15.0\n\n")
}
fn configure_cmake(
builder: &Builder<'_>,
target: TargetSelection,
cfg: &mut cmake::Config,
use_compiler_launcher: bool,
mut ldflags: LdFlags,
extra_compiler_flags: &[&str],
) {
// Do not print installation messages for up-to-date files.
// LLVM and LLD builds can produce a lot of those and hit CI limits on log size.
cfg.define("CMAKE_INSTALL_MESSAGE", "LAZY");
// Do not allow the user's value of DESTDIR to influence where
// LLVM will install itself. LLVM must always be installed in our
// own build directories.
cfg.env("DESTDIR", "");
if builder.ninja() {
cfg.generator("Ninja");
}
cfg.target(&target.triple).host(&builder.config.build.triple);
if target != builder.config.build {
cfg.define("CMAKE_CROSSCOMPILING", "True");
if target.contains("netbsd") {
cfg.define("CMAKE_SYSTEM_NAME", "NetBSD");
} else if target.contains("dragonfly") {
cfg.define("CMAKE_SYSTEM_NAME", "DragonFly");
} else if target.contains("freebsd") {
cfg.define("CMAKE_SYSTEM_NAME", "FreeBSD");
} else if target.contains("windows") {
cfg.define("CMAKE_SYSTEM_NAME", "Windows");
} else if target.contains("haiku") {
cfg.define("CMAKE_SYSTEM_NAME", "Haiku");
} else if target.contains("solaris") || target.contains("illumos") {
cfg.define("CMAKE_SYSTEM_NAME", "SunOS");
} else if target.contains("linux") {
cfg.define("CMAKE_SYSTEM_NAME", "Linux");
} else {
builder.info(&format!(
"could not determine CMAKE_SYSTEM_NAME from the target `{target}`, build may fail",
));
}
// When cross-compiling we should also set CMAKE_SYSTEM_VERSION, but in
// that case like CMake we cannot easily determine system version either.
//
// Since, the LLVM itself makes rather limited use of version checks in
// CMakeFiles (and then only in tests), and so far no issues have been
// reported, the system version is currently left unset.
if target.contains("darwin") {
// Make sure that CMake does not build universal binaries on macOS.
// Explicitly specify the one single target architecture.
if target.starts_with("aarch64") {
// macOS uses a different name for building arm64
cfg.define("CMAKE_OSX_ARCHITECTURES", "arm64");
} else if target.starts_with("i686") {
// macOS uses a different name for building i386
cfg.define("CMAKE_OSX_ARCHITECTURES", "i386");
} else {
cfg.define("CMAKE_OSX_ARCHITECTURES", target.triple.split('-').next().unwrap());
}
}
}
let sanitize_cc = |cc: &Path| {
if target.contains("msvc") {
OsString::from(cc.to_str().unwrap().replace("\\", "/"))
} else {
cc.as_os_str().to_owned()
}
};
// MSVC with CMake uses msbuild by default which doesn't respect these
// vars that we'd otherwise configure. In that case we just skip this
// entirely.
if target.contains("msvc") && !builder.ninja() {
return;
}
let (cc, cxx) = match builder.config.llvm_clang_cl {
Some(ref cl) => (cl.into(), cl.into()),
None => (builder.cc(target), builder.cxx(target).unwrap()),
};
// Handle msvc + ninja + ccache specially (this is what the bots use)
if target.contains("msvc") && builder.ninja() && builder.config.ccache.is_some() {
let mut wrap_cc = env::current_exe().expect("failed to get cwd");
wrap_cc.set_file_name("sccache-plus-cl.exe");
cfg.define("CMAKE_C_COMPILER", sanitize_cc(&wrap_cc))
.define("CMAKE_CXX_COMPILER", sanitize_cc(&wrap_cc));
cfg.env("SCCACHE_PATH", builder.config.ccache.as_ref().unwrap())
.env("SCCACHE_TARGET", target.triple)
.env("SCCACHE_CC", &cc)
.env("SCCACHE_CXX", &cxx);
// Building LLVM on MSVC can be a little ludicrous at times. We're so far
// off the beaten path here that I'm not really sure this is even half
// supported any more. Here we're trying to:
//
// * Build LLVM on MSVC
// * Build LLVM with `clang-cl` instead of `cl.exe`
// * Build a project with `sccache`
// * Build for 32-bit as well
// * Build with Ninja
//
// For `cl.exe` there are different binaries to compile 32/64 bit which
// we use but for `clang-cl` there's only one which internally
// multiplexes via flags. As a result it appears that CMake's detection
// of a compiler's architecture and such on MSVC **doesn't** pass any
// custom flags we pass in CMAKE_CXX_FLAGS below. This means that if we
// use `clang-cl.exe` it's always diagnosed as a 64-bit compiler which
// definitely causes problems since all the env vars are pointing to
// 32-bit libraries.
//
// To hack around this... again... we pass an argument that's
// unconditionally passed in the sccache shim. This'll get CMake to
// correctly diagnose it's doing a 32-bit compilation and LLVM will
// internally configure itself appropriately.
if builder.config.llvm_clang_cl.is_some() && target.contains("i686") {
cfg.env("SCCACHE_EXTRA_ARGS", "-m32");
}
} else {
// If ccache is configured we inform the build a little differently how
// to invoke ccache while also invoking our compilers.
if use_compiler_launcher {
if let Some(ref ccache) = builder.config.ccache {
cfg.define("CMAKE_C_COMPILER_LAUNCHER", ccache)
.define("CMAKE_CXX_COMPILER_LAUNCHER", ccache);
}
}
cfg.define("CMAKE_C_COMPILER", sanitize_cc(&cc))
.define("CMAKE_CXX_COMPILER", sanitize_cc(&cxx))
.define("CMAKE_ASM_COMPILER", sanitize_cc(&cc));
}
cfg.build_arg("-j").build_arg(builder.jobs().to_string());
let mut cflags: OsString = builder.cflags(target, GitRepo::Llvm, CLang::C).join(" ").into();
if let Some(ref s) = builder.config.llvm_cflags {
cflags.push(" ");
cflags.push(s);
}
// Some compiler features used by LLVM (such as thread locals) will not work on a min version below iOS 10.
if target.contains("apple-ios") {
if target.contains("86-") {
cflags.push(" -miphonesimulator-version-min=10.0");
} else {
cflags.push(" -miphoneos-version-min=10.0");
}
}
if builder.config.llvm_clang_cl.is_some() {
cflags.push(&format!(" --target={target}"));
}
for flag in extra_compiler_flags {
cflags.push(&format!(" {flag}"));
}
cfg.define("CMAKE_C_FLAGS", cflags);
let mut cxxflags: OsString = builder.cflags(target, GitRepo::Llvm, CLang::Cxx).join(" ").into();
if let Some(ref s) = builder.config.llvm_cxxflags {
cxxflags.push(" ");
cxxflags.push(s);
}
if builder.config.llvm_clang_cl.is_some() {
cxxflags.push(&format!(" --target={target}"));
}
for flag in extra_compiler_flags {
cxxflags.push(&format!(" {flag}"));
}
cfg.define("CMAKE_CXX_FLAGS", cxxflags);
if let Some(ar) = builder.ar(target) {
if ar.is_absolute() {
// LLVM build breaks if `CMAKE_AR` is a relative path, for some reason it
// tries to resolve this path in the LLVM build directory.
cfg.define("CMAKE_AR", sanitize_cc(&ar));
}
}
if let Some(ranlib) = builder.ranlib(target) {
if ranlib.is_absolute() {
// LLVM build breaks if `CMAKE_RANLIB` is a relative path, for some reason it
// tries to resolve this path in the LLVM build directory.
cfg.define("CMAKE_RANLIB", sanitize_cc(&ranlib));
}
}
if let Some(ref flags) = builder.config.llvm_ldflags {
ldflags.push_all(flags);
}
if let Some(flags) = get_var("LDFLAGS", &builder.config.build.triple, &target.triple) {
ldflags.push_all(&flags);
}
// For distribution we want the LLVM tools to be *statically* linked to libstdc++.
// We also do this if the user explicitly requested static libstdc++.
if builder.config.llvm_static_stdcpp
&& !target.contains("msvc")
&& !target.contains("netbsd")
&& !target.contains("solaris")
{
if target.contains("apple") || target.contains("windows") {
ldflags.push_all("-static-libstdc++");
} else {
ldflags.push_all("-Wl,-Bsymbolic -static-libstdc++");
}
}
cfg.define("CMAKE_SHARED_LINKER_FLAGS", &ldflags.shared);
cfg.define("CMAKE_MODULE_LINKER_FLAGS", &ldflags.module);
cfg.define("CMAKE_EXE_LINKER_FLAGS", &ldflags.exe);
if env::var_os("SCCACHE_ERROR_LOG").is_some() {
cfg.env("RUSTC_LOG", "sccache=warn");
}
}
fn configure_llvm(builder: &Builder<'_>, target: TargetSelection, cfg: &mut cmake::Config) {
// ThinLTO is only available when building with LLVM, enabling LLD is required.
// Apple's linker ld64 supports ThinLTO out of the box though, so don't use LLD on Darwin.
if builder.config.llvm_thin_lto {
cfg.define("LLVM_ENABLE_LTO", "Thin");
if !target.contains("apple") {
cfg.define("LLVM_ENABLE_LLD", "ON");
}
}
if let Some(ref linker) = builder.config.llvm_use_linker {
cfg.define("LLVM_USE_LINKER", linker);
}
if builder.config.llvm_allow_old_toolchain {
cfg.define("LLVM_TEMPORARILY_ALLOW_OLD_TOOLCHAIN", "YES");
}
}
// Adapted from https://github.com/alexcrichton/cc-rs/blob/fba7feded71ee4f63cfe885673ead6d7b4f2f454/src/lib.rs#L2347-L2365
fn get_var(var_base: &str, host: &str, target: &str) -> Option<OsString> {
let kind = if host == target { "HOST" } else { "TARGET" };
let target_u = target.replace("-", "_");
env::var_os(&format!("{var_base}_{target}"))
.or_else(|| env::var_os(&format!("{}_{}", var_base, target_u)))
.or_else(|| env::var_os(&format!("{}_{}", kind, var_base)))
.or_else(|| env::var_os(var_base))
}
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
pub struct Lld {
pub target: TargetSelection,
}
impl Step for Lld {
type Output = PathBuf;
const ONLY_HOSTS: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.path("src/llvm-project/lld")
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(Lld { target: run.target });
}
/// Compile LLD for `target`.
fn run(self, builder: &Builder<'_>) -> PathBuf {
if builder.config.dry_run() {
return PathBuf::from("lld-out-dir-test-gen");
}
let target = self.target;
let LlvmResult { llvm_config, llvm_cmake_dir } = builder.ensure(Llvm { target });
// The `dist` step packages LLD next to LLVM's binaries for download-ci-llvm. The root path
// we usually expect here is `./build/$triple/ci-llvm/`, with the binaries in its `bin`
// subfolder. We check if that's the case, and if LLD's binary already exists there next to
// `llvm-config`: if so, we can use it instead of building LLVM/LLD from source.
let ci_llvm_bin = llvm_config.parent().unwrap();
if ci_llvm_bin.is_dir() && ci_llvm_bin.file_name().unwrap() == "bin" {
let lld_path = ci_llvm_bin.join(exe("lld", target));
if lld_path.exists() {
// The following steps copying `lld` as `rust-lld` to the sysroot, expect it in the
// `bin` subfolder of this step's out dir.
return ci_llvm_bin.parent().unwrap().to_path_buf();
}
}
let out_dir = builder.lld_out(target);
let done_stamp = out_dir.join("lld-finished-building");
if done_stamp.exists() {
return out_dir;
}
let _guard = builder.msg_unstaged(Kind::Build, "LLD", target);
let _time = util::timeit(&builder);
t!(fs::create_dir_all(&out_dir));
let mut cfg = cmake::Config::new(builder.src.join("src/llvm-project/lld"));
let mut ldflags = LdFlags::default();
// When building LLD as part of a build with instrumentation on windows, for example
// when doing PGO on CI, cmake or clang-cl don't automatically link clang's
// profiler runtime in. In that case, we need to manually ask cmake to do it, to avoid
// linking errors, much like LLVM's cmake setup does in that situation.
if builder.config.llvm_profile_generate && target.contains("msvc") {
if let Some(clang_cl_path) = builder.config.llvm_clang_cl.as_ref() {
// Find clang's runtime library directory and push that as a search path to the
// cmake linker flags.
let clang_rt_dir = get_clang_cl_resource_dir(clang_cl_path);
ldflags.push_all(&format!("/libpath:{}", clang_rt_dir.display()));
}
}
// LLD is built as an LLVM tool, but is distributed outside of the `llvm-tools` component,
// which impacts where it expects to find LLVM's shared library. This causes #80703.
//
// LLD is distributed at "$root/lib/rustlib/$host/bin/rust-lld", but the `libLLVM-*.so` it
// needs is distributed at "$root/lib". The default rpath of "$ORIGIN/../lib" points at the
// lib path for LLVM tools, not the one for rust binaries.
//
// (The `llvm-tools` component copies the .so there for the other tools, and with that
// component installed, one can successfully invoke `rust-lld` directly without rustup's
// `LD_LIBRARY_PATH` overrides)
//
if builder.config.rpath_enabled(target)
&& util::use_host_linker(target)
&& builder.config.llvm_link_shared()
&& target.contains("linux")
{
// So we inform LLD where it can find LLVM's libraries by adding an rpath entry to the
// expected parent `lib` directory.
//
// Be careful when changing this path, we need to ensure it's quoted or escaped:
// `$ORIGIN` would otherwise be expanded when the `LdFlags` are passed verbatim to
// cmake.
ldflags.push_all("-Wl,-rpath,'$ORIGIN/../../../'");
}
configure_cmake(builder, target, &mut cfg, true, ldflags, &[]);
configure_llvm(builder, target, &mut cfg);
// Re-use the same flags as llvm to control the level of debug information
// generated for lld.
let profile = match (builder.config.llvm_optimize, builder.config.llvm_release_debuginfo) {
(false, _) => "Debug",
(true, false) => "Release",
(true, true) => "RelWithDebInfo",
};
cfg.out_dir(&out_dir)
.profile(profile)
.define("LLVM_CMAKE_DIR", llvm_cmake_dir)
.define("LLVM_INCLUDE_TESTS", "OFF");
if target != builder.config.build {
// Use the host llvm-tblgen binary.
cfg.define(
"LLVM_TABLEGEN_EXE",
llvm_config.with_file_name("llvm-tblgen").with_extension(EXE_EXTENSION),
);
}
cfg.build();
t!(File::create(&done_stamp));
out_dir
}
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
pub struct Sanitizers {
pub target: TargetSelection,
}
impl Step for Sanitizers {
type Output = Vec<SanitizerRuntime>;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.alias("sanitizers")
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(Sanitizers { target: run.target });
}
/// Builds sanitizer runtime libraries.
fn run(self, builder: &Builder<'_>) -> Self::Output {
let compiler_rt_dir = builder.src.join("src/llvm-project/compiler-rt");
if !compiler_rt_dir.exists() {
return Vec::new();
}
let out_dir = builder.native_dir(self.target).join("sanitizers");
let runtimes = supported_sanitizers(&out_dir, self.target, &builder.config.channel);
if runtimes.is_empty() {
return runtimes;
}
let LlvmResult { llvm_config, .. } = builder.ensure(Llvm { target: builder.config.build });
if builder.config.dry_run() {
return runtimes;
}
let stamp = out_dir.join("sanitizers-finished-building");
let stamp = HashStamp::new(stamp, builder.in_tree_llvm_info.sha());
if stamp.is_done() {
if stamp.hash.is_none() {
builder.info(&format!(
"Rebuild sanitizers by removing the file `{}`",
stamp.path.display()
));
}
return runtimes;
}
let _guard = builder.msg_unstaged(Kind::Build, "sanitizers", self.target);
t!(stamp.remove());
let _time = util::timeit(&builder);
let mut cfg = cmake::Config::new(&compiler_rt_dir);
cfg.profile("Release");
cfg.define("CMAKE_C_COMPILER_TARGET", self.target.triple);
cfg.define("COMPILER_RT_BUILD_BUILTINS", "OFF");
cfg.define("COMPILER_RT_BUILD_CRT", "OFF");
cfg.define("COMPILER_RT_BUILD_LIBFUZZER", "OFF");
cfg.define("COMPILER_RT_BUILD_PROFILE", "OFF");
cfg.define("COMPILER_RT_BUILD_SANITIZERS", "ON");
cfg.define("COMPILER_RT_BUILD_XRAY", "OFF");
cfg.define("COMPILER_RT_DEFAULT_TARGET_ONLY", "ON");
cfg.define("COMPILER_RT_USE_LIBCXX", "OFF");
cfg.define("LLVM_CONFIG_PATH", &llvm_config);
// On Darwin targets the sanitizer runtimes are build as universal binaries.
// Unfortunately sccache currently lacks support to build them successfully.
// Disable compiler launcher on Darwin targets to avoid potential issues.
let use_compiler_launcher = !self.target.contains("apple-darwin");
let extra_compiler_flags: &[&str] =
if self.target.contains("apple") { &["-fembed-bitcode=off"] } else { &[] };
configure_cmake(
builder,
self.target,
&mut cfg,
use_compiler_launcher,
LdFlags::default(),
extra_compiler_flags,
);
t!(fs::create_dir_all(&out_dir));
cfg.out_dir(out_dir);
for runtime in &runtimes {
cfg.build_target(&runtime.cmake_target);
cfg.build();
}
t!(stamp.write());
runtimes
}
}
#[derive(Clone, Debug)]
pub struct SanitizerRuntime {
/// CMake target used to build the runtime.
pub cmake_target: String,
/// Path to the built runtime library.
pub path: PathBuf,
/// Library filename that will be used rustc.
pub name: String,
}
/// Returns sanitizers available on a given target.
fn supported_sanitizers(
out_dir: &Path,
target: TargetSelection,
channel: &str,
) -> Vec<SanitizerRuntime> {
let darwin_libs = |os: &str, components: &[&str]| -> Vec<SanitizerRuntime> {
components
.iter()
.map(move |c| SanitizerRuntime {
cmake_target: format!("clang_rt.{}_{}_dynamic", c, os),
path: out_dir
.join(&format!("build/lib/darwin/libclang_rt.{}_{}_dynamic.dylib", c, os)),
name: format!("librustc-{}_rt.{}.dylib", channel, c),
})
.collect()
};
let common_libs = |os: &str, arch: &str, components: &[&str]| -> Vec<SanitizerRuntime> {
components
.iter()
.map(move |c| SanitizerRuntime {
cmake_target: format!("clang_rt.{}-{}", c, arch),
path: out_dir.join(&format!("build/lib/{}/libclang_rt.{}-{}.a", os, c, arch)),
name: format!("librustc-{}_rt.{}.a", channel, c),
})
.collect()
};
match &*target.triple {
"aarch64-apple-darwin" => darwin_libs("osx", &["asan", "lsan", "tsan"]),
"aarch64-apple-ios" => darwin_libs("ios", &["asan", "tsan"]),
"aarch64-apple-ios-sim" => darwin_libs("iossim", &["asan", "tsan"]),
"aarch64-unknown-fuchsia" => common_libs("fuchsia", "aarch64", &["asan"]),
"aarch64-unknown-linux-gnu" => {
common_libs("linux", "aarch64", &["asan", "lsan", "msan", "tsan", "hwasan"])
}
"aarch64-unknown-linux-ohos" => {
common_libs("linux", "aarch64", &["asan", "lsan", "msan", "tsan", "hwasan"])
}
"x86_64-apple-darwin" => darwin_libs("osx", &["asan", "lsan", "tsan"]),
"x86_64-unknown-fuchsia" => common_libs("fuchsia", "x86_64", &["asan"]),
"x86_64-apple-ios" => darwin_libs("iossim", &["asan", "tsan"]),
"x86_64-unknown-freebsd" => common_libs("freebsd", "x86_64", &["asan", "msan", "tsan"]),
"x86_64-unknown-netbsd" => {
common_libs("netbsd", "x86_64", &["asan", "lsan", "msan", "tsan"])
}
"x86_64-unknown-illumos" => common_libs("illumos", "x86_64", &["asan"]),
"x86_64-pc-solaris" => common_libs("solaris", "x86_64", &["asan"]),
"x86_64-unknown-linux-gnu" => {
common_libs("linux", "x86_64", &["asan", "lsan", "msan", "safestack", "tsan"])
}
"x86_64-unknown-linux-musl" => {
common_libs("linux", "x86_64", &["asan", "lsan", "msan", "tsan"])
}
"s390x-unknown-linux-gnu" => {
common_libs("linux", "s390x", &["asan", "lsan", "msan", "tsan"])
}
"s390x-unknown-linux-musl" => {
common_libs("linux", "s390x", &["asan", "lsan", "msan", "tsan"])
}
"x86_64-unknown-linux-ohos" => {
common_libs("linux", "x86_64", &["asan", "lsan", "msan", "tsan"])
}
_ => Vec::new(),
}
}
struct HashStamp {
path: PathBuf,
hash: Option<Vec<u8>>,
}
impl HashStamp {
fn new(path: PathBuf, hash: Option<&str>) -> Self {
HashStamp { path, hash: hash.map(|s| s.as_bytes().to_owned()) }
}
fn is_done(&self) -> bool {
match fs::read(&self.path) {
Ok(h) => self.hash.as_deref().unwrap_or(b"") == h.as_slice(),
Err(e) if e.kind() == io::ErrorKind::NotFound => false,
Err(e) => {
panic!("failed to read stamp file `{}`: {}", self.path.display(), e);
}
}
}
fn remove(&self) -> io::Result<()> {
match fs::remove_file(&self.path) {
Ok(()) => Ok(()),
Err(e) => {
if e.kind() == io::ErrorKind::NotFound {
Ok(())
} else {
Err(e)
}
}
}
}
fn write(&self) -> io::Result<()> {
fs::write(&self.path, self.hash.as_deref().unwrap_or(b""))
}
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
pub struct CrtBeginEnd {
pub target: TargetSelection,
}
impl Step for CrtBeginEnd {
type Output = PathBuf;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.path("src/llvm-project/compiler-rt/lib/crt")
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(CrtBeginEnd { target: run.target });
}
/// Build crtbegin.o/crtend.o for musl target.
fn run(self, builder: &Builder<'_>) -> Self::Output {
builder.update_submodule(&Path::new("src/llvm-project"));
let out_dir = builder.native_dir(self.target).join("crt");
if builder.config.dry_run() {
return out_dir;
}
let crtbegin_src = builder.src.join("src/llvm-project/compiler-rt/lib/builtins/crtbegin.c");
let crtend_src = builder.src.join("src/llvm-project/compiler-rt/lib/builtins/crtend.c");
if up_to_date(&crtbegin_src, &out_dir.join("crtbegin.o"))
&& up_to_date(&crtend_src, &out_dir.join("crtendS.o"))
{
return out_dir;
}
let _guard = builder.msg_unstaged(Kind::Build, "crtbegin.o and crtend.o", self.target);
t!(fs::create_dir_all(&out_dir));
let mut cfg = cc::Build::new();
if let Some(ar) = builder.ar(self.target) {
cfg.archiver(ar);
}
cfg.compiler(builder.cc(self.target));
cfg.cargo_metadata(false)
.out_dir(&out_dir)
.target(&self.target.triple)
.host(&builder.config.build.triple)
.warnings(false)
.debug(false)
.opt_level(3)
.file(crtbegin_src)
.file(crtend_src);
// Those flags are defined in src/llvm-project/compiler-rt/lib/crt/CMakeLists.txt
// Currently only consumer of those objects is musl, which use .init_array/.fini_array
// instead of .ctors/.dtors
cfg.flag("-std=c11")
.define("CRT_HAS_INITFINI_ARRAY", None)
.define("EH_USE_FRAME_REGISTRY", None);
cfg.compile("crt");
t!(fs::copy(out_dir.join("crtbegin.o"), out_dir.join("crtbeginS.o")));
t!(fs::copy(out_dir.join("crtend.o"), out_dir.join("crtendS.o")));
out_dir
}
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
pub struct Libunwind {
pub target: TargetSelection,
}
impl Step for Libunwind {
type Output = PathBuf;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.path("src/llvm-project/libunwind")
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(Libunwind { target: run.target });
}
/// Build libunwind.a
fn run(self, builder: &Builder<'_>) -> Self::Output {
builder.update_submodule(&Path::new("src/llvm-project"));
if builder.config.dry_run() {
return PathBuf::new();
}
let out_dir = builder.native_dir(self.target).join("libunwind");
let root = builder.src.join("src/llvm-project/libunwind");
if up_to_date(&root, &out_dir.join("libunwind.a")) {
return out_dir;
}
let _guard = builder.msg_unstaged(Kind::Build, "libunwind.a", self.target);
t!(fs::create_dir_all(&out_dir));
let mut cc_cfg = cc::Build::new();
let mut cpp_cfg = cc::Build::new();
cpp_cfg.cpp(true);
cpp_cfg.cpp_set_stdlib(None);
cpp_cfg.flag("-nostdinc++");
cpp_cfg.flag("-fno-exceptions");
cpp_cfg.flag("-fno-rtti");
cpp_cfg.flag_if_supported("-fvisibility-global-new-delete-hidden");
for cfg in [&mut cc_cfg, &mut cpp_cfg].iter_mut() {
if let Some(ar) = builder.ar(self.target) {
cfg.archiver(ar);
}
cfg.target(&self.target.triple);
cfg.host(&builder.config.build.triple);
cfg.warnings(false);
cfg.debug(false);
// get_compiler() need set opt_level first.
cfg.opt_level(3);
cfg.flag("-fstrict-aliasing");
cfg.flag("-funwind-tables");
cfg.flag("-fvisibility=hidden");
cfg.define("_LIBUNWIND_DISABLE_VISIBILITY_ANNOTATIONS", None);
cfg.include(root.join("include"));
cfg.cargo_metadata(false);
cfg.out_dir(&out_dir);
if self.target.contains("x86_64-fortanix-unknown-sgx") {
cfg.static_flag(true);
cfg.flag("-fno-stack-protector");
cfg.flag("-ffreestanding");
cfg.flag("-fexceptions");
// easiest way to undefine since no API available in cc::Build to undefine
cfg.flag("-U_FORTIFY_SOURCE");
cfg.define("_FORTIFY_SOURCE", "0");
cfg.define("RUST_SGX", "1");
cfg.define("__NO_STRING_INLINES", None);
cfg.define("__NO_MATH_INLINES", None);
cfg.define("_LIBUNWIND_IS_BAREMETAL", None);
cfg.define("__LIBUNWIND_IS_NATIVE_ONLY", None);
cfg.define("NDEBUG", None);
}
if self.target.contains("windows") {
cfg.define("_LIBUNWIND_HIDE_SYMBOLS", "1");
cfg.define("_LIBUNWIND_IS_NATIVE_ONLY", "1");
}
}
cc_cfg.compiler(builder.cc(self.target));
if let Ok(cxx) = builder.cxx(self.target) {
cpp_cfg.compiler(cxx);
} else {
cc_cfg.compiler(builder.cc(self.target));
}
// Don't set this for clang
// By default, Clang builds C code in GNU C17 mode.
// By default, Clang builds C++ code according to the C++98 standard,
// with many C++11 features accepted as extensions.
if cc_cfg.get_compiler().is_like_gnu() {
cc_cfg.flag("-std=c99");
}
if cpp_cfg.get_compiler().is_like_gnu() {
cpp_cfg.flag("-std=c++11");
}
if self.target.contains("x86_64-fortanix-unknown-sgx") || self.target.contains("musl") {
// use the same GCC C compiler command to compile C++ code so we do not need to setup the
// C++ compiler env variables on the builders.
// Don't set this for clang++, as clang++ is able to compile this without libc++.
if cpp_cfg.get_compiler().is_like_gnu() {
cpp_cfg.cpp(false);
cpp_cfg.compiler(builder.cc(self.target));
}
}
let mut c_sources = vec![
"Unwind-sjlj.c",
"UnwindLevel1-gcc-ext.c",
"UnwindLevel1.c",
"UnwindRegistersRestore.S",
"UnwindRegistersSave.S",
];
let cpp_sources = vec!["Unwind-EHABI.cpp", "Unwind-seh.cpp", "libunwind.cpp"];
let cpp_len = cpp_sources.len();
if self.target.contains("x86_64-fortanix-unknown-sgx") {
c_sources.push("UnwindRustSgx.c");
}
for src in c_sources {
cc_cfg.file(root.join("src").join(src).canonicalize().unwrap());
}
for src in &cpp_sources {
cpp_cfg.file(root.join("src").join(src).canonicalize().unwrap());
}
cpp_cfg.compile("unwind-cpp");
// FIXME: https://github.com/alexcrichton/cc-rs/issues/545#issuecomment-679242845
let mut count = 0;
for entry in fs::read_dir(&out_dir).unwrap() {
let file = entry.unwrap().path().canonicalize().unwrap();
if file.is_file() && file.extension() == Some(OsStr::new("o")) {
// file name starts with "Unwind-EHABI", "Unwind-seh" or "libunwind"
let file_name = file.file_name().unwrap().to_str().expect("UTF-8 file name");
if cpp_sources.iter().any(|f| file_name.starts_with(&f[..f.len() - 4])) {
cc_cfg.object(&file);
count += 1;
}
}
}
assert_eq!(cpp_len, count, "Can't get object files from {:?}", &out_dir);
cc_cfg.compile("unwind");
out_dir
}
}