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|
//! Implementation of compiling various phases of the compiler and standard
//! library.
//!
//! This module contains some of the real meat in the rustbuild build system
//! which is where Cargo is used to compile the standard library, libtest, and
//! the compiler. This module is also responsible for assembling the sysroot as it
//! goes along from the output of the previous stage.
use std::borrow::Cow;
use std::collections::HashSet;
use std::env;
use std::fs;
use std::io::prelude::*;
use std::io::BufReader;
use std::path::{Path, PathBuf};
use std::process::{Command, Stdio};
use std::str;
use serde::Deserialize;
use crate::builder::Cargo;
use crate::builder::{Builder, Kind, RunConfig, ShouldRun, Step};
use crate::cache::{Interned, INTERNER};
use crate::config::{LlvmLibunwind, RustcLto, TargetSelection};
use crate::dist;
use crate::native;
use crate::tool::SourceType;
use crate::util::get_clang_cl_resource_dir;
use crate::util::{exe, is_debug_info, is_dylib, output, symlink_dir, t, up_to_date};
use crate::LLVM_TOOLS;
use crate::{CLang, Compiler, DependencyType, GitRepo, Mode};
#[derive(Debug, Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct Std {
pub target: TargetSelection,
pub compiler: Compiler,
/// Whether to build only a subset of crates in the standard library.
///
/// This shouldn't be used from other steps; see the comment on [`Rustc`].
crates: Interned<Vec<String>>,
}
impl Std {
pub fn new(compiler: Compiler, target: TargetSelection) -> Self {
Self { target, compiler, crates: Default::default() }
}
}
/// Return a `-p=x -p=y` string suitable for passing to a cargo invocation.
fn build_crates_in_set(run: &RunConfig<'_>) -> Interned<Vec<String>> {
let mut crates = Vec::new();
for krate in &run.paths {
let path = krate.assert_single_path();
let crate_name = run.builder.crate_paths[&path.path];
crates.push(format!("-p={crate_name}"));
}
INTERNER.intern_list(crates)
}
impl Step for Std {
type Output = ();
const DEFAULT: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
// When downloading stage1, the standard library has already been copied to the sysroot, so
// there's no need to rebuild it.
let builder = run.builder;
run.crate_or_deps("test")
.path("library")
.lazy_default_condition(Box::new(|| !builder.download_rustc()))
}
fn make_run(run: RunConfig<'_>) {
// Normally, people will pass *just* library if they pass it.
// But it's possible (although strange) to pass something like `library std core`.
// Build all crates anyway, as if they hadn't passed the other args.
let has_library =
run.paths.iter().any(|set| set.assert_single_path().path.ends_with("library"));
let crates = if has_library { Default::default() } else { build_crates_in_set(&run) };
run.builder.ensure(Std {
compiler: run.builder.compiler(run.builder.top_stage, run.build_triple()),
target: run.target,
crates,
});
}
/// Builds the standard library.
///
/// This will build the standard library for a particular stage of the build
/// using the `compiler` targeting the `target` architecture. The artifacts
/// created will also be linked into the sysroot directory.
fn run(self, builder: &Builder<'_>) {
let target = self.target;
let compiler = self.compiler;
// These artifacts were already copied (in `impl Step for Sysroot`).
// Don't recompile them.
// NOTE: the ABI of the beta compiler is different from the ABI of the downloaded compiler,
// so its artifacts can't be reused.
if builder.download_rustc() && compiler.stage != 0 {
return;
}
if builder.config.keep_stage.contains(&compiler.stage)
|| builder.config.keep_stage_std.contains(&compiler.stage)
{
builder.info("Warning: Using a potentially old libstd. This may not behave well.");
builder.ensure(StdLink::from_std(self, compiler));
return;
}
builder.update_submodule(&Path::new("library").join("stdarch"));
// Profiler information requires LLVM's compiler-rt
if builder.config.profiler {
builder.update_submodule(&Path::new("src/llvm-project"));
}
let mut target_deps = builder.ensure(StartupObjects { compiler, target });
let compiler_to_use = builder.compiler_for(compiler.stage, compiler.host, target);
if compiler_to_use != compiler {
builder.ensure(Std::new(compiler_to_use, target));
builder.info(&format!("Uplifting stage1 std ({} -> {})", compiler_to_use.host, target));
// Even if we're not building std this stage, the new sysroot must
// still contain the third party objects needed by various targets.
copy_third_party_objects(builder, &compiler, target);
copy_self_contained_objects(builder, &compiler, target);
builder.ensure(StdLink::from_std(self, compiler_to_use));
return;
}
target_deps.extend(copy_third_party_objects(builder, &compiler, target));
target_deps.extend(copy_self_contained_objects(builder, &compiler, target));
let mut cargo = builder.cargo(compiler, Mode::Std, SourceType::InTree, target, "build");
std_cargo(builder, target, compiler.stage, &mut cargo);
builder.info(&format!(
"Building stage{} std artifacts ({} -> {})",
compiler.stage, &compiler.host, target
));
run_cargo(
builder,
cargo,
self.crates.to_vec(),
&libstd_stamp(builder, compiler, target),
target_deps,
false,
);
builder.ensure(StdLink::from_std(
self,
builder.compiler(compiler.stage, builder.config.build),
));
}
}
fn copy_and_stamp(
builder: &Builder<'_>,
libdir: &Path,
sourcedir: &Path,
name: &str,
target_deps: &mut Vec<(PathBuf, DependencyType)>,
dependency_type: DependencyType,
) {
let target = libdir.join(name);
builder.copy(&sourcedir.join(name), &target);
target_deps.push((target, dependency_type));
}
fn copy_llvm_libunwind(builder: &Builder<'_>, target: TargetSelection, libdir: &Path) -> PathBuf {
let libunwind_path = builder.ensure(native::Libunwind { target });
let libunwind_source = libunwind_path.join("libunwind.a");
let libunwind_target = libdir.join("libunwind.a");
builder.copy(&libunwind_source, &libunwind_target);
libunwind_target
}
/// Copies third party objects needed by various targets.
fn copy_third_party_objects(
builder: &Builder<'_>,
compiler: &Compiler,
target: TargetSelection,
) -> Vec<(PathBuf, DependencyType)> {
let mut target_deps = vec![];
// FIXME: remove this in 2021
if target == "x86_64-fortanix-unknown-sgx" {
if env::var_os("X86_FORTANIX_SGX_LIBS").is_some() {
builder.info("Warning: X86_FORTANIX_SGX_LIBS environment variable is ignored, libunwind is now compiled as part of rustbuild");
}
}
if builder.config.sanitizers_enabled(target) && compiler.stage != 0 {
// The sanitizers are only copied in stage1 or above,
// to avoid creating dependency on LLVM.
target_deps.extend(
copy_sanitizers(builder, &compiler, target)
.into_iter()
.map(|d| (d, DependencyType::Target)),
);
}
if target == "x86_64-fortanix-unknown-sgx"
|| target.contains("pc-windows-gnullvm")
|| builder.config.llvm_libunwind(target) == LlvmLibunwind::InTree
&& (target.contains("linux") || target.contains("fuchsia"))
{
let libunwind_path =
copy_llvm_libunwind(builder, target, &builder.sysroot_libdir(*compiler, target));
target_deps.push((libunwind_path, DependencyType::Target));
}
target_deps
}
/// Copies third party objects needed by various targets for self-contained linkage.
fn copy_self_contained_objects(
builder: &Builder<'_>,
compiler: &Compiler,
target: TargetSelection,
) -> Vec<(PathBuf, DependencyType)> {
let libdir_self_contained = builder.sysroot_libdir(*compiler, target).join("self-contained");
t!(fs::create_dir_all(&libdir_self_contained));
let mut target_deps = vec![];
// Copies the libc and CRT objects.
//
// rustc historically provides a more self-contained installation for musl targets
// not requiring the presence of a native musl toolchain. For example, it can fall back
// to using gcc from a glibc-targeting toolchain for linking.
// To do that we have to distribute musl startup objects as a part of Rust toolchain
// and link with them manually in the self-contained mode.
if target.contains("musl") {
let srcdir = builder.musl_libdir(target).unwrap_or_else(|| {
panic!("Target {:?} does not have a \"musl-libdir\" key", target.triple)
});
for &obj in &["libc.a", "crt1.o", "Scrt1.o", "rcrt1.o", "crti.o", "crtn.o"] {
copy_and_stamp(
builder,
&libdir_self_contained,
&srcdir,
obj,
&mut target_deps,
DependencyType::TargetSelfContained,
);
}
let crt_path = builder.ensure(native::CrtBeginEnd { target });
for &obj in &["crtbegin.o", "crtbeginS.o", "crtend.o", "crtendS.o"] {
let src = crt_path.join(obj);
let target = libdir_self_contained.join(obj);
builder.copy(&src, &target);
target_deps.push((target, DependencyType::TargetSelfContained));
}
if !target.starts_with("s390x") {
let libunwind_path = copy_llvm_libunwind(builder, target, &libdir_self_contained);
target_deps.push((libunwind_path, DependencyType::TargetSelfContained));
}
} else if target.ends_with("-wasi") {
let srcdir = builder
.wasi_root(target)
.unwrap_or_else(|| {
panic!("Target {:?} does not have a \"wasi-root\" key", target.triple)
})
.join("lib/wasm32-wasi");
for &obj in &["libc.a", "crt1-command.o", "crt1-reactor.o"] {
copy_and_stamp(
builder,
&libdir_self_contained,
&srcdir,
obj,
&mut target_deps,
DependencyType::TargetSelfContained,
);
}
} else if target.ends_with("windows-gnu") {
for obj in ["crt2.o", "dllcrt2.o"].iter() {
let src = compiler_file(builder, builder.cc(target), target, CLang::C, obj);
let target = libdir_self_contained.join(obj);
builder.copy(&src, &target);
target_deps.push((target, DependencyType::TargetSelfContained));
}
}
target_deps
}
/// Configure cargo to compile the standard library, adding appropriate env vars
/// and such.
pub fn std_cargo(builder: &Builder<'_>, target: TargetSelection, stage: u32, cargo: &mut Cargo) {
if let Some(target) = env::var_os("MACOSX_STD_DEPLOYMENT_TARGET") {
cargo.env("MACOSX_DEPLOYMENT_TARGET", target);
}
// Determine if we're going to compile in optimized C intrinsics to
// the `compiler-builtins` crate. These intrinsics live in LLVM's
// `compiler-rt` repository.
//
// Note that this shouldn't affect the correctness of `compiler-builtins`,
// but only its speed. Some intrinsics in C haven't been translated to Rust
// yet but that's pretty rare. Other intrinsics have optimized
// implementations in C which have only had slower versions ported to Rust,
// so we favor the C version where we can, but it's not critical.
//
// If `compiler-rt` is available ensure that the `c` feature of the
// `compiler-builtins` crate is enabled and it's configured to learn where
// `compiler-rt` is located.
let compiler_builtins_c_feature = if builder.config.optimized_compiler_builtins {
if !builder.is_rust_llvm(target) {
panic!(
"need a managed LLVM submodule for optimized intrinsics support; unset `llvm-config` or `optimized-compiler-builtins`"
);
}
builder.update_submodule(&Path::new("src").join("llvm-project"));
let compiler_builtins_root = builder.src.join("src/llvm-project/compiler-rt");
// Note that `libprofiler_builtins/build.rs` also computes this so if
// you're changing something here please also change that.
cargo.env("RUST_COMPILER_RT_ROOT", &compiler_builtins_root);
" compiler-builtins-c"
} else {
""
};
if builder.no_std(target) == Some(true) {
let mut features = "compiler-builtins-mem".to_string();
if !target.starts_with("bpf") {
features.push_str(compiler_builtins_c_feature);
}
// for no-std targets we only compile a few no_std crates
cargo
.args(&["-p", "alloc"])
.arg("--manifest-path")
.arg(builder.src.join("library/alloc/Cargo.toml"))
.arg("--features")
.arg(features);
} else {
let mut features = builder.std_features(target);
features.push_str(compiler_builtins_c_feature);
cargo
.arg("--features")
.arg(features)
.arg("--manifest-path")
.arg(builder.src.join("library/test/Cargo.toml"));
// Help the libc crate compile by assisting it in finding various
// sysroot native libraries.
if target.contains("musl") {
if let Some(p) = builder.musl_libdir(target) {
let root = format!("native={}", p.to_str().unwrap());
cargo.rustflag("-L").rustflag(&root);
}
}
if target.ends_with("-wasi") {
if let Some(p) = builder.wasi_root(target) {
let root = format!("native={}/lib/wasm32-wasi", p.to_str().unwrap());
cargo.rustflag("-L").rustflag(&root);
}
}
}
// By default, rustc uses `-Cembed-bitcode=yes`, and Cargo overrides that
// with `-Cembed-bitcode=no` for non-LTO builds. However, libstd must be
// built with bitcode so that the produced rlibs can be used for both LTO
// builds (which use bitcode) and non-LTO builds (which use object code).
// So we override the override here!
//
// But we don't bother for the stage 0 compiler because it's never used
// with LTO.
if stage >= 1 {
cargo.rustflag("-Cembed-bitcode=yes");
}
// By default, rustc does not include unwind tables unless they are required
// for a particular target. They are not required by RISC-V targets, but
// compiling the standard library with them means that users can get
// backtraces without having to recompile the standard library themselves.
//
// This choice was discussed in https://github.com/rust-lang/rust/pull/69890
if target.contains("riscv") {
cargo.rustflag("-Cforce-unwind-tables=yes");
}
let html_root =
format!("-Zcrate-attr=doc(html_root_url=\"{}/\")", builder.doc_rust_lang_org_channel(),);
cargo.rustflag(&html_root);
cargo.rustdocflag(&html_root);
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
struct StdLink {
pub compiler: Compiler,
pub target_compiler: Compiler,
pub target: TargetSelection,
/// Not actually used; only present to make sure the cache invalidation is correct.
crates: Interned<Vec<String>>,
}
impl StdLink {
fn from_std(std: Std, host_compiler: Compiler) -> Self {
Self {
compiler: host_compiler,
target_compiler: std.compiler,
target: std.target,
crates: std.crates,
}
}
}
impl Step for StdLink {
type Output = ();
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.never()
}
/// Link all libstd rlibs/dylibs into the sysroot location.
///
/// Links those artifacts generated by `compiler` to the `stage` compiler's
/// sysroot for the specified `host` and `target`.
///
/// Note that this assumes that `compiler` has already generated the libstd
/// libraries for `target`, and this method will find them in the relevant
/// output directory.
fn run(self, builder: &Builder<'_>) {
let compiler = self.compiler;
let target_compiler = self.target_compiler;
let target = self.target;
builder.info(&format!(
"Copying stage{} std from stage{} ({} -> {} / {})",
target_compiler.stage, compiler.stage, &compiler.host, target_compiler.host, target
));
let libdir = builder.sysroot_libdir(target_compiler, target);
let hostdir = builder.sysroot_libdir(target_compiler, compiler.host);
add_to_sysroot(builder, &libdir, &hostdir, &libstd_stamp(builder, compiler, target));
}
}
/// Copies sanitizer runtime libraries into target libdir.
fn copy_sanitizers(
builder: &Builder<'_>,
compiler: &Compiler,
target: TargetSelection,
) -> Vec<PathBuf> {
let runtimes: Vec<native::SanitizerRuntime> = builder.ensure(native::Sanitizers { target });
if builder.config.dry_run {
return Vec::new();
}
let mut target_deps = Vec::new();
let libdir = builder.sysroot_libdir(*compiler, target);
for runtime in &runtimes {
let dst = libdir.join(&runtime.name);
builder.copy(&runtime.path, &dst);
if target == "x86_64-apple-darwin" || target == "aarch64-apple-darwin" {
// Update the library’s install name to reflect that it has been renamed.
apple_darwin_update_library_name(&dst, &format!("@rpath/{}", &runtime.name));
// Upon renaming the install name, the code signature of the file will invalidate,
// so we will sign it again.
apple_darwin_sign_file(&dst);
}
target_deps.push(dst);
}
target_deps
}
fn apple_darwin_update_library_name(library_path: &Path, new_name: &str) {
let status = Command::new("install_name_tool")
.arg("-id")
.arg(new_name)
.arg(library_path)
.status()
.expect("failed to execute `install_name_tool`");
assert!(status.success());
}
fn apple_darwin_sign_file(file_path: &Path) {
let status = Command::new("codesign")
.arg("-f") // Force to rewrite the existing signature
.arg("-s")
.arg("-")
.arg(file_path)
.status()
.expect("failed to execute `codesign`");
assert!(status.success());
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
pub struct StartupObjects {
pub compiler: Compiler,
pub target: TargetSelection,
}
impl Step for StartupObjects {
type Output = Vec<(PathBuf, DependencyType)>;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.path("library/rtstartup")
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(StartupObjects {
compiler: run.builder.compiler(run.builder.top_stage, run.build_triple()),
target: run.target,
});
}
/// Builds and prepare startup objects like rsbegin.o and rsend.o
///
/// These are primarily used on Windows right now for linking executables/dlls.
/// They don't require any library support as they're just plain old object
/// files, so we just use the nightly snapshot compiler to always build them (as
/// no other compilers are guaranteed to be available).
fn run(self, builder: &Builder<'_>) -> Vec<(PathBuf, DependencyType)> {
let for_compiler = self.compiler;
let target = self.target;
if !target.ends_with("windows-gnu") {
return vec![];
}
let mut target_deps = vec![];
let src_dir = &builder.src.join("library").join("rtstartup");
let dst_dir = &builder.native_dir(target).join("rtstartup");
let sysroot_dir = &builder.sysroot_libdir(for_compiler, target);
t!(fs::create_dir_all(dst_dir));
for file in &["rsbegin", "rsend"] {
let src_file = &src_dir.join(file.to_string() + ".rs");
let dst_file = &dst_dir.join(file.to_string() + ".o");
if !up_to_date(src_file, dst_file) {
let mut cmd = Command::new(&builder.initial_rustc);
cmd.env("RUSTC_BOOTSTRAP", "1");
if !builder.local_rebuild {
// a local_rebuild compiler already has stage1 features
cmd.arg("--cfg").arg("bootstrap");
}
builder.run(
cmd.arg("--target")
.arg(target.rustc_target_arg())
.arg("--emit=obj")
.arg("-o")
.arg(dst_file)
.arg(src_file),
);
}
let target = sysroot_dir.join((*file).to_string() + ".o");
builder.copy(dst_file, &target);
target_deps.push((target, DependencyType::Target));
}
target_deps
}
}
#[derive(Debug, PartialOrd, Ord, Copy, Clone, PartialEq, Eq, Hash)]
pub struct Rustc {
pub target: TargetSelection,
pub compiler: Compiler,
/// Whether to build a subset of crates, rather than the whole compiler.
///
/// This should only be requested by the user, not used within rustbuild itself.
/// Using it within rustbuild can lead to confusing situation where lints are replayed
/// in two different steps.
crates: Interned<Vec<String>>,
}
impl Rustc {
pub fn new(compiler: Compiler, target: TargetSelection) -> Self {
Self { target, compiler, crates: Default::default() }
}
}
impl Step for Rustc {
type Output = ();
const ONLY_HOSTS: bool = true;
const DEFAULT: bool = false;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
let mut crates = run.builder.in_tree_crates("rustc-main", None);
for (i, krate) in crates.iter().enumerate() {
if krate.name == "rustc-main" {
crates.swap_remove(i);
break;
}
}
run.crates(crates)
}
fn make_run(run: RunConfig<'_>) {
let crates = build_crates_in_set(&run);
run.builder.ensure(Rustc {
compiler: run.builder.compiler(run.builder.top_stage, run.build_triple()),
target: run.target,
crates,
});
}
/// Builds the compiler.
///
/// This will build the compiler for a particular stage of the build using
/// the `compiler` targeting the `target` architecture. The artifacts
/// created will also be linked into the sysroot directory.
fn run(self, builder: &Builder<'_>) {
let compiler = self.compiler;
let target = self.target;
// NOTE: the ABI of the beta compiler is different from the ABI of the downloaded compiler,
// so its artifacts can't be reused.
if builder.download_rustc() && compiler.stage != 0 {
// Copy the existing artifacts instead of rebuilding them.
// NOTE: this path is only taken for tools linking to rustc-dev.
builder.ensure(Sysroot { compiler });
return;
}
builder.ensure(Std::new(compiler, target));
if builder.config.keep_stage.contains(&compiler.stage) {
builder.info("Warning: Using a potentially old librustc. This may not behave well.");
builder.info("Warning: Use `--keep-stage-std` if you want to rebuild the compiler when it changes");
builder.ensure(RustcLink::from_rustc(self, compiler));
return;
}
let compiler_to_use = builder.compiler_for(compiler.stage, compiler.host, target);
if compiler_to_use != compiler {
builder.ensure(Rustc::new(compiler_to_use, target));
builder
.info(&format!("Uplifting stage1 rustc ({} -> {})", builder.config.build, target));
builder.ensure(RustcLink::from_rustc(self, compiler_to_use));
return;
}
// Ensure that build scripts and proc macros have a std / libproc_macro to link against.
builder.ensure(Std::new(
builder.compiler(self.compiler.stage, builder.config.build),
builder.config.build,
));
let mut cargo = builder.cargo(compiler, Mode::Rustc, SourceType::InTree, target, "build");
rustc_cargo(builder, &mut cargo, target);
if builder.config.rust_profile_use.is_some()
&& builder.config.rust_profile_generate.is_some()
{
panic!("Cannot use and generate PGO profiles at the same time");
}
// With LLD, we can use ICF (identical code folding) to reduce the executable size
// of librustc_driver/rustc and to improve i-cache utilization.
//
// -Wl,[link options] doesn't work on MSVC. However, /OPT:ICF (technically /OPT:REF,ICF)
// is already on by default in MSVC optimized builds, which is interpreted as --icf=all:
// https://github.com/llvm/llvm-project/blob/3329cec2f79185bafd678f310fafadba2a8c76d2/lld/COFF/Driver.cpp#L1746
// https://github.com/rust-lang/rust/blob/f22819bcce4abaff7d1246a56eec493418f9f4ee/compiler/rustc_codegen_ssa/src/back/linker.rs#L827
if builder.config.use_lld && !compiler.host.contains("msvc") {
cargo.rustflag("-Clink-args=-Wl,--icf=all");
}
let is_collecting = if let Some(path) = &builder.config.rust_profile_generate {
if compiler.stage == 1 {
cargo.rustflag(&format!("-Cprofile-generate={}", path));
// Apparently necessary to avoid overflowing the counters during
// a Cargo build profile
cargo.rustflag("-Cllvm-args=-vp-counters-per-site=4");
true
} else {
false
}
} else if let Some(path) = &builder.config.rust_profile_use {
if compiler.stage == 1 {
cargo.rustflag(&format!("-Cprofile-use={}", path));
cargo.rustflag("-Cllvm-args=-pgo-warn-missing-function");
true
} else {
false
}
} else {
false
};
if is_collecting {
// Ensure paths to Rust sources are relative, not absolute.
cargo.rustflag(&format!(
"-Cllvm-args=-static-func-strip-dirname-prefix={}",
builder.config.src.components().count()
));
}
// cfg(bootstrap): remove if condition once the bootstrap compiler supports dylib LTO
if compiler.stage != 0 {
match builder.config.rust_lto {
RustcLto::Thin | RustcLto::Fat => {
// Since using LTO for optimizing dylibs is currently experimental,
// we need to pass -Zdylib-lto.
cargo.rustflag("-Zdylib-lto");
// Cargo by default passes `-Cembed-bitcode=no` and doesn't pass `-Clto` when
// compiling dylibs (and their dependencies), even when LTO is enabled for the
// crate. Therefore, we need to override `-Clto` and `-Cembed-bitcode` here.
let lto_type = match builder.config.rust_lto {
RustcLto::Thin => "thin",
RustcLto::Fat => "fat",
_ => unreachable!(),
};
cargo.rustflag(&format!("-Clto={}", lto_type));
cargo.rustflag("-Cembed-bitcode=yes");
}
RustcLto::ThinLocal => { /* Do nothing, this is the default */ }
}
}
builder.info(&format!(
"Building stage{} compiler artifacts ({} -> {})",
compiler.stage, &compiler.host, target
));
run_cargo(
builder,
cargo,
self.crates.to_vec(),
&librustc_stamp(builder, compiler, target),
vec![],
false,
);
builder.ensure(RustcLink::from_rustc(
self,
builder.compiler(compiler.stage, builder.config.build),
));
}
}
pub fn rustc_cargo(builder: &Builder<'_>, cargo: &mut Cargo, target: TargetSelection) {
cargo
.arg("--features")
.arg(builder.rustc_features(builder.kind))
.arg("--manifest-path")
.arg(builder.src.join("compiler/rustc/Cargo.toml"));
rustc_cargo_env(builder, cargo, target);
}
pub fn rustc_cargo_env(builder: &Builder<'_>, cargo: &mut Cargo, target: TargetSelection) {
// Set some configuration variables picked up by build scripts and
// the compiler alike
cargo
.env("CFG_RELEASE", builder.rust_release())
.env("CFG_RELEASE_CHANNEL", &builder.config.channel)
.env("CFG_VERSION", builder.rust_version());
if let Some(backend) = builder.config.rust_codegen_backends.get(0) {
cargo.env("CFG_DEFAULT_CODEGEN_BACKEND", backend);
}
let libdir_relative = builder.config.libdir_relative().unwrap_or_else(|| Path::new("lib"));
let target_config = builder.config.target_config.get(&target);
cargo.env("CFG_LIBDIR_RELATIVE", libdir_relative);
if let Some(ref ver_date) = builder.rust_info.commit_date() {
cargo.env("CFG_VER_DATE", ver_date);
}
if let Some(ref ver_hash) = builder.rust_info.sha() {
cargo.env("CFG_VER_HASH", ver_hash);
}
if !builder.unstable_features() {
cargo.env("CFG_DISABLE_UNSTABLE_FEATURES", "1");
}
// Prefer the current target's own default_linker, else a globally
// specified one.
if let Some(s) = target_config.and_then(|c| c.default_linker.as_ref()) {
cargo.env("CFG_DEFAULT_LINKER", s);
} else if let Some(ref s) = builder.config.rustc_default_linker {
cargo.env("CFG_DEFAULT_LINKER", s);
}
if builder.config.rustc_parallel {
// keep in sync with `bootstrap/lib.rs:Build::rustc_features`
// `cfg` option for rustc, `features` option for cargo, for conditional compilation
cargo.rustflag("--cfg=parallel_compiler");
cargo.rustdocflag("--cfg=parallel_compiler");
}
if builder.config.rust_verify_llvm_ir {
cargo.env("RUSTC_VERIFY_LLVM_IR", "1");
}
// Pass down configuration from the LLVM build into the build of
// rustc_llvm and rustc_codegen_llvm.
//
// Note that this is disabled if LLVM itself is disabled or we're in a check
// build. If we are in a check build we still go ahead here presuming we've
// detected that LLVM is already built and good to go which helps prevent
// busting caches (e.g. like #71152).
if builder.config.llvm_enabled()
&& (builder.kind != Kind::Check
|| crate::native::prebuilt_llvm_config(builder, target).is_ok())
{
if builder.is_rust_llvm(target) {
cargo.env("LLVM_RUSTLLVM", "1");
}
let llvm_config = builder.ensure(native::Llvm { target });
cargo.env("LLVM_CONFIG", &llvm_config);
if let Some(s) = target_config.and_then(|c| c.llvm_config.as_ref()) {
cargo.env("CFG_LLVM_ROOT", s);
}
// Some LLVM linker flags (-L and -l) may be needed to link `rustc_llvm`. Its build script
// expects these to be passed via the `LLVM_LINKER_FLAGS` env variable, separated by
// whitespace.
//
// For example:
// - on windows, when `clang-cl` is used with instrumentation, we need to manually add
// clang's runtime library resource directory so that the profiler runtime library can be
// found. This is to avoid the linker errors about undefined references to
// `__llvm_profile_instrument_memop` when linking `rustc_driver`.
let mut llvm_linker_flags = String::new();
if builder.config.llvm_profile_generate && target.contains("msvc") {
if let Some(ref clang_cl_path) = builder.config.llvm_clang_cl {
// Add clang's runtime library directory to the search path
let clang_rt_dir = get_clang_cl_resource_dir(clang_cl_path);
llvm_linker_flags.push_str(&format!("-L{}", clang_rt_dir.display()));
}
}
// The config can also specify its own llvm linker flags.
if let Some(ref s) = builder.config.llvm_ldflags {
if !llvm_linker_flags.is_empty() {
llvm_linker_flags.push_str(" ");
}
llvm_linker_flags.push_str(s);
}
// Set the linker flags via the env var that `rustc_llvm`'s build script will read.
if !llvm_linker_flags.is_empty() {
cargo.env("LLVM_LINKER_FLAGS", llvm_linker_flags);
}
// Building with a static libstdc++ is only supported on linux right now,
// not for MSVC or macOS
if builder.config.llvm_static_stdcpp
&& !target.contains("freebsd")
&& !target.contains("msvc")
&& !target.contains("apple")
&& !target.contains("solaris")
{
let file = compiler_file(
builder,
builder.cxx(target).unwrap(),
target,
CLang::Cxx,
"libstdc++.a",
);
cargo.env("LLVM_STATIC_STDCPP", file);
}
if builder.llvm_link_shared() {
cargo.env("LLVM_LINK_SHARED", "1");
}
if builder.config.llvm_use_libcxx {
cargo.env("LLVM_USE_LIBCXX", "1");
}
if builder.config.llvm_optimize && !builder.config.llvm_release_debuginfo {
cargo.env("LLVM_NDEBUG", "1");
}
}
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
struct RustcLink {
pub compiler: Compiler,
pub target_compiler: Compiler,
pub target: TargetSelection,
/// Not actually used; only present to make sure the cache invalidation is correct.
crates: Interned<Vec<String>>,
}
impl RustcLink {
fn from_rustc(rustc: Rustc, host_compiler: Compiler) -> Self {
Self {
compiler: host_compiler,
target_compiler: rustc.compiler,
target: rustc.target,
crates: rustc.crates,
}
}
}
impl Step for RustcLink {
type Output = ();
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.never()
}
/// Same as `std_link`, only for librustc
fn run(self, builder: &Builder<'_>) {
let compiler = self.compiler;
let target_compiler = self.target_compiler;
let target = self.target;
builder.info(&format!(
"Copying stage{} rustc from stage{} ({} -> {} / {})",
target_compiler.stage, compiler.stage, &compiler.host, target_compiler.host, target
));
add_to_sysroot(
builder,
&builder.sysroot_libdir(target_compiler, target),
&builder.sysroot_libdir(target_compiler, compiler.host),
&librustc_stamp(builder, compiler, target),
);
}
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
pub struct CodegenBackend {
pub target: TargetSelection,
pub compiler: Compiler,
pub backend: Interned<String>,
}
impl Step for CodegenBackend {
type Output = ();
const ONLY_HOSTS: bool = true;
// Only the backends specified in the `codegen-backends` entry of `config.toml` are built.
const DEFAULT: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.paths(&["compiler/rustc_codegen_cranelift", "compiler/rustc_codegen_gcc"])
}
fn make_run(run: RunConfig<'_>) {
for &backend in &run.builder.config.rust_codegen_backends {
if backend == "llvm" {
continue; // Already built as part of rustc
}
run.builder.ensure(CodegenBackend {
target: run.target,
compiler: run.builder.compiler(run.builder.top_stage, run.build_triple()),
backend,
});
}
}
fn run(self, builder: &Builder<'_>) {
let compiler = self.compiler;
let target = self.target;
let backend = self.backend;
builder.ensure(Rustc::new(compiler, target));
if builder.config.keep_stage.contains(&compiler.stage) {
builder.info(
"Warning: Using a potentially old codegen backend. \
This may not behave well.",
);
// Codegen backends are linked separately from this step today, so we don't do
// anything here.
return;
}
let compiler_to_use = builder.compiler_for(compiler.stage, compiler.host, target);
if compiler_to_use != compiler {
builder.ensure(CodegenBackend { compiler: compiler_to_use, target, backend });
return;
}
let out_dir = builder.cargo_out(compiler, Mode::Codegen, target);
let mut cargo = builder.cargo(compiler, Mode::Codegen, SourceType::InTree, target, "build");
cargo
.arg("--manifest-path")
.arg(builder.src.join(format!("compiler/rustc_codegen_{}/Cargo.toml", backend)));
rustc_cargo_env(builder, &mut cargo, target);
let tmp_stamp = out_dir.join(".tmp.stamp");
builder.info(&format!(
"Building stage{} codegen backend {} ({} -> {})",
compiler.stage, backend, &compiler.host, target
));
let files = run_cargo(builder, cargo, vec![], &tmp_stamp, vec![], false);
if builder.config.dry_run {
return;
}
let mut files = files.into_iter().filter(|f| {
let filename = f.file_name().unwrap().to_str().unwrap();
is_dylib(filename) && filename.contains("rustc_codegen_")
});
let codegen_backend = match files.next() {
Some(f) => f,
None => panic!("no dylibs built for codegen backend?"),
};
if let Some(f) = files.next() {
panic!(
"codegen backend built two dylibs:\n{}\n{}",
codegen_backend.display(),
f.display()
);
}
let stamp = codegen_backend_stamp(builder, compiler, target, backend);
let codegen_backend = codegen_backend.to_str().unwrap();
t!(fs::write(&stamp, &codegen_backend));
}
}
/// Creates the `codegen-backends` folder for a compiler that's about to be
/// assembled as a complete compiler.
///
/// This will take the codegen artifacts produced by `compiler` and link them
/// into an appropriate location for `target_compiler` to be a functional
/// compiler.
fn copy_codegen_backends_to_sysroot(
builder: &Builder<'_>,
compiler: Compiler,
target_compiler: Compiler,
) {
let target = target_compiler.host;
// Note that this step is different than all the other `*Link` steps in
// that it's not assembling a bunch of libraries but rather is primarily
// moving the codegen backend into place. The codegen backend of rustc is
// not linked into the main compiler by default but is rather dynamically
// selected at runtime for inclusion.
//
// Here we're looking for the output dylib of the `CodegenBackend` step and
// we're copying that into the `codegen-backends` folder.
let dst = builder.sysroot_codegen_backends(target_compiler);
t!(fs::create_dir_all(&dst), dst);
if builder.config.dry_run {
return;
}
for backend in builder.config.rust_codegen_backends.iter() {
if backend == "llvm" {
continue; // Already built as part of rustc
}
let stamp = codegen_backend_stamp(builder, compiler, target, *backend);
let dylib = t!(fs::read_to_string(&stamp));
let file = Path::new(&dylib);
let filename = file.file_name().unwrap().to_str().unwrap();
// change `librustc_codegen_cranelift-xxxxxx.so` to
// `librustc_codegen_cranelift-release.so`
let target_filename = {
let dash = filename.find('-').unwrap();
let dot = filename.find('.').unwrap();
format!("{}-{}{}", &filename[..dash], builder.rust_release(), &filename[dot..])
};
builder.copy(&file, &dst.join(target_filename));
}
}
/// Cargo's output path for the standard library in a given stage, compiled
/// by a particular compiler for the specified target.
pub fn libstd_stamp(builder: &Builder<'_>, compiler: Compiler, target: TargetSelection) -> PathBuf {
builder.cargo_out(compiler, Mode::Std, target).join(".libstd.stamp")
}
/// Cargo's output path for librustc in a given stage, compiled by a particular
/// compiler for the specified target.
pub fn librustc_stamp(
builder: &Builder<'_>,
compiler: Compiler,
target: TargetSelection,
) -> PathBuf {
builder.cargo_out(compiler, Mode::Rustc, target).join(".librustc.stamp")
}
/// Cargo's output path for librustc_codegen_llvm in a given stage, compiled by a particular
/// compiler for the specified target and backend.
fn codegen_backend_stamp(
builder: &Builder<'_>,
compiler: Compiler,
target: TargetSelection,
backend: Interned<String>,
) -> PathBuf {
builder
.cargo_out(compiler, Mode::Codegen, target)
.join(format!(".librustc_codegen_{}.stamp", backend))
}
pub fn compiler_file(
builder: &Builder<'_>,
compiler: &Path,
target: TargetSelection,
c: CLang,
file: &str,
) -> PathBuf {
let mut cmd = Command::new(compiler);
cmd.args(builder.cflags(target, GitRepo::Rustc, c));
cmd.arg(format!("-print-file-name={}", file));
let out = output(&mut cmd);
PathBuf::from(out.trim())
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
pub struct Sysroot {
pub compiler: Compiler,
}
impl Step for Sysroot {
type Output = Interned<PathBuf>;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.never()
}
/// Returns the sysroot for the `compiler` specified that *this build system
/// generates*.
///
/// That is, the sysroot for the stage0 compiler is not what the compiler
/// thinks it is by default, but it's the same as the default for stages
/// 1-3.
fn run(self, builder: &Builder<'_>) -> Interned<PathBuf> {
let compiler = self.compiler;
let host_dir = builder.out.join(&compiler.host.triple);
let sysroot = if compiler.stage == 0 {
host_dir.join("stage0-sysroot")
} else if builder.download_rustc() {
host_dir.join("ci-rustc-sysroot")
} else {
host_dir.join(format!("stage{}", compiler.stage))
};
let _ = fs::remove_dir_all(&sysroot);
t!(fs::create_dir_all(&sysroot));
// If we're downloading a compiler from CI, we can use the same compiler for all stages other than 0.
if builder.download_rustc() && compiler.stage != 0 {
assert_eq!(
builder.config.build, compiler.host,
"Cross-compiling is not yet supported with `download-rustc`",
);
// #102002, cleanup stage1 and stage0-sysroot folders when using download-rustc so people don't use old versions of the toolchain by accident.
let _ = fs::remove_dir_all(host_dir.join("stage1"));
let _ = fs::remove_dir_all(host_dir.join("stage0-sysroot"));
// Copy the compiler into the correct sysroot.
let ci_rustc_dir =
builder.config.out.join(&*builder.config.build.triple).join("ci-rustc");
builder.cp_r(&ci_rustc_dir, &sysroot);
return INTERNER.intern_path(sysroot);
}
// Symlink the source root into the same location inside the sysroot,
// where `rust-src` component would go (`$sysroot/lib/rustlib/src/rust`),
// so that any tools relying on `rust-src` also work for local builds,
// and also for translating the virtual `/rustc/$hash` back to the real
// directory (for running tests with `rust.remap-debuginfo = true`).
let sysroot_lib_rustlib_src = sysroot.join("lib/rustlib/src");
t!(fs::create_dir_all(&sysroot_lib_rustlib_src));
let sysroot_lib_rustlib_src_rust = sysroot_lib_rustlib_src.join("rust");
if let Err(e) = symlink_dir(&builder.config, &builder.src, &sysroot_lib_rustlib_src_rust) {
eprintln!(
"warning: creating symbolic link `{}` to `{}` failed with {}",
sysroot_lib_rustlib_src_rust.display(),
builder.src.display(),
e,
);
if builder.config.rust_remap_debuginfo {
eprintln!(
"warning: some `src/test/ui` tests will fail when lacking `{}`",
sysroot_lib_rustlib_src_rust.display(),
);
}
}
// Same for the rustc-src component.
let sysroot_lib_rustlib_rustcsrc = sysroot.join("lib/rustlib/rustc-src");
t!(fs::create_dir_all(&sysroot_lib_rustlib_rustcsrc));
let sysroot_lib_rustlib_rustcsrc_rust = sysroot_lib_rustlib_rustcsrc.join("rust");
if let Err(e) =
symlink_dir(&builder.config, &builder.src, &sysroot_lib_rustlib_rustcsrc_rust)
{
eprintln!(
"warning: creating symbolic link `{}` to `{}` failed with {}",
sysroot_lib_rustlib_rustcsrc_rust.display(),
builder.src.display(),
e,
);
}
INTERNER.intern_path(sysroot)
}
}
#[derive(Debug, Copy, PartialOrd, Ord, Clone, PartialEq, Eq, Hash)]
pub struct Assemble {
/// The compiler which we will produce in this step. Assemble itself will
/// take care of ensuring that the necessary prerequisites to do so exist,
/// that is, this target can be a stage2 compiler and Assemble will build
/// previous stages for you.
pub target_compiler: Compiler,
}
impl Step for Assemble {
type Output = Compiler;
const ONLY_HOSTS: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.path("compiler/rustc").path("compiler")
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(Assemble {
target_compiler: run.builder.compiler(run.builder.top_stage + 1, run.target),
});
}
/// Prepare a new compiler from the artifacts in `stage`
///
/// This will assemble a compiler in `build/$host/stage$stage`. The compiler
/// must have been previously produced by the `stage - 1` builder.build
/// compiler.
fn run(self, builder: &Builder<'_>) -> Compiler {
let target_compiler = self.target_compiler;
if target_compiler.stage == 0 {
assert_eq!(
builder.config.build, target_compiler.host,
"Cannot obtain compiler for non-native build triple at stage 0"
);
// The stage 0 compiler for the build triple is always pre-built.
return target_compiler;
}
// Get the compiler that we'll use to bootstrap ourselves.
//
// Note that this is where the recursive nature of the bootstrap
// happens, as this will request the previous stage's compiler on
// downwards to stage 0.
//
// Also note that we're building a compiler for the host platform. We
// only assume that we can run `build` artifacts, which means that to
// produce some other architecture compiler we need to start from
// `build` to get there.
//
// FIXME: It may be faster if we build just a stage 1 compiler and then
// use that to bootstrap this compiler forward.
let build_compiler = builder.compiler(target_compiler.stage - 1, builder.config.build);
// If we're downloading a compiler from CI, we can use the same compiler for all stages other than 0.
if builder.download_rustc() {
builder.ensure(Sysroot { compiler: target_compiler });
return target_compiler;
}
// Build the libraries for this compiler to link to (i.e., the libraries
// it uses at runtime). NOTE: Crates the target compiler compiles don't
// link to these. (FIXME: Is that correct? It seems to be correct most
// of the time but I think we do link to these for stage2/bin compilers
// when not performing a full bootstrap).
builder.ensure(Rustc::new(build_compiler, target_compiler.host));
for &backend in builder.config.rust_codegen_backends.iter() {
if backend == "llvm" {
continue; // Already built as part of rustc
}
builder.ensure(CodegenBackend {
compiler: build_compiler,
target: target_compiler.host,
backend,
});
}
let lld_install = if builder.config.lld_enabled {
Some(builder.ensure(native::Lld { target: target_compiler.host }))
} else {
None
};
let stage = target_compiler.stage;
let host = target_compiler.host;
builder.info(&format!("Assembling stage{} compiler ({})", stage, host));
// Link in all dylibs to the libdir
let stamp = librustc_stamp(builder, build_compiler, target_compiler.host);
let proc_macros = builder
.read_stamp_file(&stamp)
.into_iter()
.filter_map(|(path, dependency_type)| {
if dependency_type == DependencyType::Host {
Some(path.file_name().unwrap().to_owned().into_string().unwrap())
} else {
None
}
})
.collect::<HashSet<_>>();
let sysroot = builder.sysroot(target_compiler);
let rustc_libdir = builder.rustc_libdir(target_compiler);
t!(fs::create_dir_all(&rustc_libdir));
let src_libdir = builder.sysroot_libdir(build_compiler, host);
for f in builder.read_dir(&src_libdir) {
let filename = f.file_name().into_string().unwrap();
if (is_dylib(&filename) || is_debug_info(&filename)) && !proc_macros.contains(&filename)
{
builder.copy(&f.path(), &rustc_libdir.join(&filename));
}
}
copy_codegen_backends_to_sysroot(builder, build_compiler, target_compiler);
// We prepend this bin directory to the user PATH when linking Rust binaries. To
// avoid shadowing the system LLD we rename the LLD we provide to `rust-lld`.
let libdir = builder.sysroot_libdir(target_compiler, target_compiler.host);
let libdir_bin = libdir.parent().unwrap().join("bin");
t!(fs::create_dir_all(&libdir_bin));
if let Some(lld_install) = lld_install {
let src_exe = exe("lld", target_compiler.host);
let dst_exe = exe("rust-lld", target_compiler.host);
builder.copy(&lld_install.join("bin").join(&src_exe), &libdir_bin.join(&dst_exe));
// for `-Z gcc-ld=lld`
let gcc_ld_dir = libdir_bin.join("gcc-ld");
t!(fs::create_dir(&gcc_ld_dir));
let lld_wrapper_exe = builder.ensure(crate::tool::LldWrapper {
compiler: build_compiler,
target: target_compiler.host,
});
for name in crate::LLD_FILE_NAMES {
builder.copy(&lld_wrapper_exe, &gcc_ld_dir.join(exe(name, target_compiler.host)));
}
}
if builder.config.rust_codegen_backends.contains(&INTERNER.intern_str("llvm")) {
let llvm_config_bin = builder.ensure(native::Llvm { target: target_compiler.host });
if !builder.config.dry_run {
let llvm_bin_dir = output(Command::new(llvm_config_bin).arg("--bindir"));
let llvm_bin_dir = Path::new(llvm_bin_dir.trim());
// Since we've already built the LLVM tools, install them to the sysroot.
// This is the equivalent of installing the `llvm-tools-preview` component via
// rustup, and lets developers use a locally built toolchain to
// build projects that expect llvm tools to be present in the sysroot
// (e.g. the `bootimage` crate).
for tool in LLVM_TOOLS {
let tool_exe = exe(tool, target_compiler.host);
let src_path = llvm_bin_dir.join(&tool_exe);
// When using `download-ci-llvm`, some of the tools
// may not exist, so skip trying to copy them.
if src_path.exists() {
builder.copy(&src_path, &libdir_bin.join(&tool_exe));
}
}
}
}
// Ensure that `libLLVM.so` ends up in the newly build compiler directory,
// so that it can be found when the newly built `rustc` is run.
dist::maybe_install_llvm_runtime(builder, target_compiler.host, &sysroot);
dist::maybe_install_llvm_target(builder, target_compiler.host, &sysroot);
// Link the compiler binary itself into place
let out_dir = builder.cargo_out(build_compiler, Mode::Rustc, host);
let rustc = out_dir.join(exe("rustc-main", host));
let bindir = sysroot.join("bin");
t!(fs::create_dir_all(&bindir));
let compiler = builder.rustc(target_compiler);
builder.copy(&rustc, &compiler);
target_compiler
}
}
/// Link some files into a rustc sysroot.
///
/// For a particular stage this will link the file listed in `stamp` into the
/// `sysroot_dst` provided.
pub fn add_to_sysroot(
builder: &Builder<'_>,
sysroot_dst: &Path,
sysroot_host_dst: &Path,
stamp: &Path,
) {
let self_contained_dst = &sysroot_dst.join("self-contained");
t!(fs::create_dir_all(&sysroot_dst));
t!(fs::create_dir_all(&sysroot_host_dst));
t!(fs::create_dir_all(&self_contained_dst));
for (path, dependency_type) in builder.read_stamp_file(stamp) {
let dst = match dependency_type {
DependencyType::Host => sysroot_host_dst,
DependencyType::Target => sysroot_dst,
DependencyType::TargetSelfContained => self_contained_dst,
};
builder.copy(&path, &dst.join(path.file_name().unwrap()));
}
}
pub fn run_cargo(
builder: &Builder<'_>,
cargo: Cargo,
tail_args: Vec<String>,
stamp: &Path,
additional_target_deps: Vec<(PathBuf, DependencyType)>,
is_check: bool,
) -> Vec<PathBuf> {
if builder.config.dry_run {
return Vec::new();
}
// `target_root_dir` looks like $dir/$target/release
let target_root_dir = stamp.parent().unwrap();
// `target_deps_dir` looks like $dir/$target/release/deps
let target_deps_dir = target_root_dir.join("deps");
// `host_root_dir` looks like $dir/release
let host_root_dir = target_root_dir
.parent()
.unwrap() // chop off `release`
.parent()
.unwrap() // chop off `$target`
.join(target_root_dir.file_name().unwrap());
// Spawn Cargo slurping up its JSON output. We'll start building up the
// `deps` array of all files it generated along with a `toplevel` array of
// files we need to probe for later.
let mut deps = Vec::new();
let mut toplevel = Vec::new();
let ok = stream_cargo(builder, cargo, tail_args, &mut |msg| {
let (filenames, crate_types) = match msg {
CargoMessage::CompilerArtifact {
filenames,
target: CargoTarget { crate_types },
..
} => (filenames, crate_types),
_ => return,
};
for filename in filenames {
// Skip files like executables
if !(filename.ends_with(".rlib")
|| filename.ends_with(".lib")
|| filename.ends_with(".a")
|| is_debug_info(&filename)
|| is_dylib(&filename)
|| (is_check && filename.ends_with(".rmeta")))
{
continue;
}
let filename = Path::new(&*filename);
// If this was an output file in the "host dir" we don't actually
// worry about it, it's not relevant for us
if filename.starts_with(&host_root_dir) {
// Unless it's a proc macro used in the compiler
if crate_types.iter().any(|t| t == "proc-macro") {
deps.push((filename.to_path_buf(), DependencyType::Host));
}
continue;
}
// If this was output in the `deps` dir then this is a precise file
// name (hash included) so we start tracking it.
if filename.starts_with(&target_deps_dir) {
deps.push((filename.to_path_buf(), DependencyType::Target));
continue;
}
// Otherwise this was a "top level artifact" which right now doesn't
// have a hash in the name, but there's a version of this file in
// the `deps` folder which *does* have a hash in the name. That's
// the one we'll want to we'll probe for it later.
//
// We do not use `Path::file_stem` or `Path::extension` here,
// because some generated files may have multiple extensions e.g.
// `std-<hash>.dll.lib` on Windows. The aforementioned methods only
// split the file name by the last extension (`.lib`) while we need
// to split by all extensions (`.dll.lib`).
let expected_len = t!(filename.metadata()).len();
let filename = filename.file_name().unwrap().to_str().unwrap();
let mut parts = filename.splitn(2, '.');
let file_stem = parts.next().unwrap().to_owned();
let extension = parts.next().unwrap().to_owned();
toplevel.push((file_stem, extension, expected_len));
}
});
if !ok {
crate::detail_exit(1);
}
// Ok now we need to actually find all the files listed in `toplevel`. We've
// got a list of prefix/extensions and we basically just need to find the
// most recent file in the `deps` folder corresponding to each one.
let contents = t!(target_deps_dir.read_dir())
.map(|e| t!(e))
.map(|e| (e.path(), e.file_name().into_string().unwrap(), t!(e.metadata())))
.collect::<Vec<_>>();
for (prefix, extension, expected_len) in toplevel {
let candidates = contents.iter().filter(|&&(_, ref filename, ref meta)| {
meta.len() == expected_len
&& filename
.strip_prefix(&prefix[..])
.map(|s| s.starts_with('-') && s.ends_with(&extension[..]))
.unwrap_or(false)
});
let max = candidates.max_by_key(|&&(_, _, ref metadata)| {
metadata.modified().expect("mtime should be available on all relevant OSes")
});
let path_to_add = match max {
Some(triple) => triple.0.to_str().unwrap(),
None => panic!("no output generated for {:?} {:?}", prefix, extension),
};
if is_dylib(path_to_add) {
let candidate = format!("{}.lib", path_to_add);
let candidate = PathBuf::from(candidate);
if candidate.exists() {
deps.push((candidate, DependencyType::Target));
}
}
deps.push((path_to_add.into(), DependencyType::Target));
}
deps.extend(additional_target_deps);
deps.sort();
let mut new_contents = Vec::new();
for (dep, dependency_type) in deps.iter() {
new_contents.extend(match *dependency_type {
DependencyType::Host => b"h",
DependencyType::Target => b"t",
DependencyType::TargetSelfContained => b"s",
});
new_contents.extend(dep.to_str().unwrap().as_bytes());
new_contents.extend(b"\0");
}
t!(fs::write(&stamp, &new_contents));
deps.into_iter().map(|(d, _)| d).collect()
}
pub fn stream_cargo(
builder: &Builder<'_>,
cargo: Cargo,
tail_args: Vec<String>,
cb: &mut dyn FnMut(CargoMessage<'_>),
) -> bool {
let mut cargo = Command::from(cargo);
if builder.config.dry_run {
return true;
}
// Instruct Cargo to give us json messages on stdout, critically leaving
// stderr as piped so we can get those pretty colors.
let mut message_format = if builder.config.json_output {
String::from("json")
} else {
String::from("json-render-diagnostics")
};
if let Some(s) = &builder.config.rustc_error_format {
message_format.push_str(",json-diagnostic-");
message_format.push_str(s);
}
cargo.arg("--message-format").arg(message_format).stdout(Stdio::piped());
for arg in tail_args {
cargo.arg(arg);
}
builder.verbose(&format!("running: {:?}", cargo));
let mut child = match cargo.spawn() {
Ok(child) => child,
Err(e) => panic!("failed to execute command: {:?}\nerror: {}", cargo, e),
};
// Spawn Cargo slurping up its JSON output. We'll start building up the
// `deps` array of all files it generated along with a `toplevel` array of
// files we need to probe for later.
let stdout = BufReader::new(child.stdout.take().unwrap());
for line in stdout.lines() {
let line = t!(line);
match serde_json::from_str::<CargoMessage<'_>>(&line) {
Ok(msg) => {
if builder.config.json_output {
// Forward JSON to stdout.
println!("{}", line);
}
cb(msg)
}
// If this was informational, just print it out and continue
Err(_) => println!("{}", line),
}
}
// Make sure Cargo actually succeeded after we read all of its stdout.
let status = t!(child.wait());
if builder.is_verbose() && !status.success() {
eprintln!(
"command did not execute successfully: {:?}\n\
expected success, got: {}",
cargo, status
);
}
status.success()
}
#[derive(Deserialize)]
pub struct CargoTarget<'a> {
crate_types: Vec<Cow<'a, str>>,
}
#[derive(Deserialize)]
#[serde(tag = "reason", rename_all = "kebab-case")]
pub enum CargoMessage<'a> {
CompilerArtifact {
package_id: Cow<'a, str>,
features: Vec<Cow<'a, str>>,
filenames: Vec<Cow<'a, str>>,
target: CargoTarget<'a>,
},
BuildScriptExecuted {
package_id: Cow<'a, str>,
},
BuildFinished {
success: bool,
},
}
|