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lib.rs
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//! Implementation of rustbuild, the Rust build system.
//!
//! This module, and its descendants, are the implementation of the Rust build
//! system. Most of this build system is backed by Cargo but the outer layer
//! here serves as the ability to orchestrate calling Cargo, sequencing Cargo
//! builds, building artifacts like LLVM, etc. The goals of rustbuild are:
//!
//! * To be an easily understandable, easily extensible, and maintainable build
//! system.
//! * Leverage standard tools in the Rust ecosystem to build the compiler, aka
//! crates.io and Cargo.
//! * A standard interface to build across all platforms, including MSVC
//!
//! ## Architecture
//!
//! The build system defers most of the complicated logic managing invocations
//! of rustc and rustdoc to Cargo itself. However, moving through various stages
//! and copying artifacts is still necessary for it to do. Each time rustbuild
//! is invoked, it will iterate through the list of predefined steps and execute
//! each serially in turn if it matches the paths passed or is a default rule.
//! For each step rustbuild relies on the step internally being incremental and
//! parallel. Note, though, that the `-j` parameter to rustbuild gets forwarded
//! to appropriate test harnesses and such.
//!
//! Most of the "meaty" steps that matter are backed by Cargo, which does indeed
//! have its own parallelism and incremental management. Later steps, like
//! tests, aren't incremental and simply run the entire suite currently.
//! However, compiletest itself tries to avoid running tests when the artifacts
//! that are involved (mainly the compiler) haven't changed.
//!
//! When you execute `x.py build`, the steps executed are:
//!
//! * First, the python script is run. This will automatically download the
//! stage0 rustc and cargo according to `src/stage0.json`, or use the cached
//! versions if they're available. These are then used to compile rustbuild
//! itself (using Cargo). Finally, control is then transferred to rustbuild.
//!
//! * Rustbuild takes over, performs sanity checks, probes the environment,
//! reads configuration, and starts executing steps as it reads the command
//! line arguments (paths) or going through the default rules.
//!
//! The build output will be something like the following:
//!
//! Building stage0 std artifacts
//! Copying stage0 std
//! Building stage0 test artifacts
//! Copying stage0 test
//! Building stage0 compiler artifacts
//! Copying stage0 rustc
//! Assembling stage1 compiler
//! Building stage1 std artifacts
//! Copying stage1 std
//! Building stage1 test artifacts
//! Copying stage1 test
//! Building stage1 compiler artifacts
//! Copying stage1 rustc
//! Assembling stage2 compiler
//! Uplifting stage1 std
//! Uplifting stage1 test
//! Uplifting stage1 rustc
//!
//! Let's disect that a little:
//!
//! ## Building stage0 {std,test,compiler} artifacts
//!
//! These steps use the provided (downloaded, usually) compiler to compile the
//! local Rust source into libraries we can use.
//!
//! ## Copying stage0 {std,test,rustc}
//!
//! This copies the build output from Cargo into
//! `build/$HOST/stage0-sysroot/lib/rustlib/$ARCH/lib`. FIXME: this step's
//! documentation should be expanded -- the information already here may be
//! incorrect.
//!
//! ## Assembling stage1 compiler
//!
//! This copies the libraries we built in "building stage0 ... artifacts" into
//! the stage1 compiler's lib directory. These are the host libraries that the
//! compiler itself uses to run. These aren't actually used by artifacts the new
//! compiler generates. This step also copies the rustc and rustdoc binaries we
//! generated into build/$HOST/stage/bin.
//!
//! The stage1/bin/rustc is a fully functional compiler, but it doesn't yet have
//! any libraries to link built binaries or libraries to. The next 3 steps will
//! provide those libraries for it; they are mostly equivalent to constructing
//! the stage1/bin compiler so we don't go through them individually.
//!
//! ## Uplifting stage1 {std,test,rustc}
//!
//! This step copies the libraries from the stage1 compiler sysroot into the
//! stage2 compiler. This is done to avoid rebuilding the compiler; libraries
//! we'd build in this step should be identical (in function, if not necessarily
//! identical on disk) so there's no need to recompile the compiler again. Note
//! that if you want to, you can enable the full-bootstrap option to change this
//! behavior.
//!
//! Each step is driven by a separate Cargo project and rustbuild orchestrates
//! copying files between steps and otherwise preparing for Cargo to run.
//!
//! ## Further information
//!
//! More documentation can be found in each respective module below, and you can
//! also check out the `src/bootstrap/README.md` file for more information.
use std::cell::{Cell, RefCell};
use std::collections::{HashMap, HashSet};
use std::env;
use std::fs::{self, File, OpenOptions};
use std::io::{Read, Seek, SeekFrom, Write};
use std::path::{Path, PathBuf};
use std::process::{self, Command};
use std::slice;
use std::str;
#[cfg(unix)]
use std::os::unix::fs::symlink as symlink_file;
#[cfg(windows)]
use std::os::windows::fs::symlink_file;
use build_helper::{mtime, output, run, run_suppressed, t, try_run, try_run_suppressed};
use filetime::FileTime;
use crate::config::{LlvmLibunwind, TargetSelection};
use crate::util::{exe, libdir, CiEnv};
mod builder;
mod cache;
mod cc_detect;
mod channel;
mod check;
mod clean;
mod compile;
mod config;
mod dist;
mod doc;
mod flags;
mod format;
mod install;
mod metadata;
mod native;
mod run;
mod sanity;
mod setup;
mod tarball;
mod test;
mod tool;
mod toolstate;
pub mod util;
#[cfg(windows)]
mod job;
#[cfg(all(unix, not(target_os = "haiku")))]
mod job {
pub unsafe fn setup(build: &mut crate::Build) {
if build.config.low_priority {
libc::setpriority(libc::PRIO_PGRP as _, 0, 10);
}
}
}
#[cfg(any(target_os = "haiku", target_os = "hermit", not(any(unix, windows))))]
mod job {
pub unsafe fn setup(_build: &mut crate::Build) {}
}
use crate::cache::{Interned, INTERNER};
pub use crate::config::Config;
pub use crate::flags::Subcommand;
const LLVM_TOOLS: &[&str] = &[
"llvm-cov", // used to generate coverage report
"llvm-nm", // used to inspect binaries; it shows symbol names, their sizes and visibility
"llvm-objcopy", // used to transform ELFs into binary format which flashing tools consume
"llvm-objdump", // used to disassemble programs
"llvm-profdata", // used to inspect and merge files generated by profiles
"llvm-readobj", // used to get information from ELFs/objects that the other tools don't provide
"llvm-size", // used to prints the size of the linker sections of a program
"llvm-strip", // used to discard symbols from binary files to reduce their size
"llvm-ar", // used for creating and modifying archive files
"llvm-as", // used to convert LLVM assembly to LLVM bitcode
"llvm-dis", // used to disassemble LLVM bitcode
"llc", // used to compile LLVM bytecode
"opt", // used to optimize LLVM bytecode
];
pub const VERSION: usize = 2;
/// A structure representing a Rust compiler.
///
/// Each compiler has a `stage` that it is associated with and a `host` that
/// corresponds to the platform the compiler runs on. This structure is used as
/// a parameter to many methods below.
#[derive(Eq, PartialOrd, Ord, PartialEq, Clone, Copy, Hash, Debug)]
pub struct Compiler {
stage: u32,
host: TargetSelection,
}
#[derive(PartialEq, Eq, Copy, Clone, Debug)]
pub enum DocTests {
/// Run normal tests and doc tests (default).
Yes,
/// Do not run any doc tests.
No,
/// Only run doc tests.
Only,
}
pub enum GitRepo {
Rustc,
Llvm,
}
/// Global configuration for the build system.
///
/// This structure transitively contains all configuration for the build system.
/// All filesystem-encoded configuration is in `config`, all flags are in
/// `flags`, and then parsed or probed information is listed in the keys below.
///
/// This structure is a parameter of almost all methods in the build system,
/// although most functions are implemented as free functions rather than
/// methods specifically on this structure itself (to make it easier to
/// organize).
pub struct Build {
/// User-specified configuration from `config.toml`.
config: Config,
// Version information
version: String,
// Properties derived from the above configuration
src: PathBuf,
out: PathBuf,
rust_info: channel::GitInfo,
cargo_info: channel::GitInfo,
rls_info: channel::GitInfo,
rust_analyzer_info: channel::GitInfo,
clippy_info: channel::GitInfo,
miri_info: channel::GitInfo,
rustfmt_info: channel::GitInfo,
in_tree_llvm_info: channel::GitInfo,
local_rebuild: bool,
fail_fast: bool,
doc_tests: DocTests,
verbosity: usize,
// Targets for which to build
build: TargetSelection,
hosts: Vec<TargetSelection>,
targets: Vec<TargetSelection>,
// Stage 0 (downloaded) compiler, lld and cargo or their local rust equivalents
initial_rustc: PathBuf,
initial_cargo: PathBuf,
initial_lld: PathBuf,
initial_libdir: PathBuf,
// Runtime state filled in later on
// C/C++ compilers and archiver for all targets
cc: HashMap<TargetSelection, cc::Tool>,
cxx: HashMap<TargetSelection, cc::Tool>,
ar: HashMap<TargetSelection, PathBuf>,
ranlib: HashMap<TargetSelection, PathBuf>,
// Miscellaneous
crates: HashMap<Interned<String>, Crate>,
is_sudo: bool,
ci_env: CiEnv,
delayed_failures: RefCell<Vec<String>>,
prerelease_version: Cell<Option<u32>>,
tool_artifacts:
RefCell<HashMap<TargetSelection, HashMap<String, (&'static str, PathBuf, Vec<String>)>>>,
}
#[derive(Debug)]
struct Crate {
name: Interned<String>,
deps: HashSet<Interned<String>>,
path: PathBuf,
}
impl Crate {
fn local_path(&self, build: &Build) -> PathBuf {
self.path.strip_prefix(&build.config.src).unwrap().into()
}
}
/// When building Rust various objects are handled differently.
#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
pub enum DependencyType {
/// Libraries originating from proc-macros.
Host,
/// Typical Rust libraries.
Target,
/// Non Rust libraries and objects shipped to ease usage of certain targets.
TargetSelfContained,
}
/// The various "modes" of invoking Cargo.
///
/// These entries currently correspond to the various output directories of the
/// build system, with each mod generating output in a different directory.
#[derive(Debug, Hash, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
pub enum Mode {
/// Build the standard library, placing output in the "stageN-std" directory.
Std,
/// Build librustc, and compiler libraries, placing output in the "stageN-rustc" directory.
Rustc,
/// Build a codegen backend for rustc, placing the output in the "stageN-codegen" directory.
Codegen,
/// Build a tool, placing output in the "stage0-bootstrap-tools"
/// directory. This is for miscellaneous sets of tools that are built
/// using the bootstrap stage0 compiler in its entirety (target libraries
/// and all). Typically these tools compile with stable Rust.
ToolBootstrap,
/// Build a tool which uses the locally built std, placing output in the
/// "stageN-tools" directory. Its usage is quite rare, mainly used by
/// compiletest which needs libtest.
ToolStd,
/// Build a tool which uses the locally built rustc and the target std,
/// placing the output in the "stageN-tools" directory. This is used for
/// anything that needs a fully functional rustc, such as rustdoc, clippy,
/// cargo, rls, rustfmt, miri, etc.
ToolRustc,
}
impl Mode {
pub fn is_tool(&self) -> bool {
matches!(self, Mode::ToolBootstrap | Mode::ToolRustc | Mode::ToolStd)
}
pub fn must_support_dlopen(&self) -> bool {
matches!(self, Mode::Std | Mode::Codegen)
}
}
impl Build {
/// Creates a new set of build configuration from the `flags` on the command
/// line and the filesystem `config`.
///
/// By default all build output will be placed in the current directory.
pub fn new(config: Config) -> Build {
let src = config.src.clone();
let out = config.out.clone();
let is_sudo = match env::var_os("SUDO_USER") {
Some(sudo_user) => match env::var_os("USER") {
Some(user) => user != sudo_user,
None => false,
},
None => false,
};
let ignore_git = config.ignore_git;
let rust_info = channel::GitInfo::new(ignore_git, &src);
let cargo_info = channel::GitInfo::new(ignore_git, &src.join("src/tools/cargo"));
let rls_info = channel::GitInfo::new(ignore_git, &src.join("src/tools/rls"));
let rust_analyzer_info =
channel::GitInfo::new(ignore_git, &src.join("src/tools/rust-analyzer"));
let clippy_info = channel::GitInfo::new(ignore_git, &src.join("src/tools/clippy"));
let miri_info = channel::GitInfo::new(ignore_git, &src.join("src/tools/miri"));
let rustfmt_info = channel::GitInfo::new(ignore_git, &src.join("src/tools/rustfmt"));
// we always try to use git for LLVM builds
let in_tree_llvm_info = channel::GitInfo::new(false, &src.join("src/llvm-project"));
let initial_target_libdir_str = if config.dry_run {
"/dummy/lib/path/to/lib/".to_string()
} else {
output(
Command::new(&config.initial_rustc)
.arg("--target")
.arg(config.build.rustc_target_arg())
.arg("--print")
.arg("target-libdir"),
)
};
let initial_target_dir = Path::new(&initial_target_libdir_str).parent().unwrap();
let initial_lld = initial_target_dir.join("bin").join("rust-lld");
let initial_sysroot = if config.dry_run {
"/dummy".to_string()
} else {
output(Command::new(&config.initial_rustc).arg("--print").arg("sysroot"))
};
let initial_libdir = initial_target_dir
.parent()
.unwrap()
.parent()
.unwrap()
.strip_prefix(initial_sysroot.trim())
.unwrap()
.to_path_buf();
let version = std::fs::read_to_string(src.join("src").join("version"))
.expect("failed to read src/version");
let version = version.trim();
let mut build = Build {
initial_rustc: config.initial_rustc.clone(),
initial_cargo: config.initial_cargo.clone(),
initial_lld,
initial_libdir,
local_rebuild: config.local_rebuild,
fail_fast: config.cmd.fail_fast(),
doc_tests: config.cmd.doc_tests(),
verbosity: config.verbose,
build: config.build,
hosts: config.hosts.clone(),
targets: config.targets.clone(),
config,
version: version.to_string(),
src,
out,
rust_info,
cargo_info,
rls_info,
rust_analyzer_info,
clippy_info,
miri_info,
rustfmt_info,
in_tree_llvm_info,
cc: HashMap::new(),
cxx: HashMap::new(),
ar: HashMap::new(),
ranlib: HashMap::new(),
crates: HashMap::new(),
is_sudo,
ci_env: CiEnv::current(),
delayed_failures: RefCell::new(Vec::new()),
prerelease_version: Cell::new(None),
tool_artifacts: Default::default(),
};
build.verbose("finding compilers");
cc_detect::find(&mut build);
// When running `setup`, the profile is about to change, so any requirements we have now may
// be different on the next invocation. Don't check for them until the next time x.py is
// run. This is ok because `setup` never runs any build commands, so it won't fail if commands are missing.
if !matches!(build.config.cmd, Subcommand::Setup { .. }) {
build.verbose("running sanity check");
sanity::check(&mut build);
}
// If local-rust is the same major.minor as the current version, then force a
// local-rebuild
let local_version_verbose =
output(Command::new(&build.initial_rustc).arg("--version").arg("--verbose"));
let local_release = local_version_verbose
.lines()
.filter_map(|x| x.strip_prefix("release:"))
.next()
.unwrap()
.trim();
if local_release.split('.').take(2).eq(version.split('.').take(2)) {
build.verbose(&format!("auto-detected local-rebuild {}", local_release));
build.local_rebuild = true;
}
build.verbose("learning about cargo");
metadata::build(&mut build);
build
}
pub fn build_triple(&self) -> &[Interned<String>] {
slice::from_ref(&self.build.triple)
}
// modified from `check_submodule` and `update_submodule` in bootstrap.py
/// Given a path to the directory of a submodule, update it.
///
/// `relative_path` should be relative to the root of the git repository, not an absolute path.
pub(crate) fn update_submodule(&self, relative_path: &Path) {
fn dir_is_empty(dir: &Path) -> bool {
t!(std::fs::read_dir(dir)).next().is_none()
}
if !self.config.submodules(&self.rust_info) {
return;
}
let absolute_path = self.config.src.join(relative_path);
// NOTE: The check for the empty directory is here because when running x.py the first time,
// the submodule won't be checked out. Check it out now so we can build it.
if !channel::GitInfo::new(false, &absolute_path).is_git() && !dir_is_empty(&absolute_path) {
return;
}
// check_submodule
if self.config.fast_submodules {
let checked_out_hash = output(
Command::new("git").args(&["rev-parse", "HEAD"]).current_dir(&absolute_path),
);
// update_submodules
let recorded = output(
Command::new("git")
.args(&["ls-tree", "HEAD"])
.arg(relative_path)
.current_dir(&self.config.src),
);
let actual_hash = recorded
.split_whitespace()
.nth(2)
.unwrap_or_else(|| panic!("unexpected output `{}`", recorded));
// update_submodule
if actual_hash == checked_out_hash.trim_end() {
// already checked out
return;
}
}
println!("Updating submodule {}", relative_path.display());
self.run(
Command::new("git")
.args(&["submodule", "-q", "sync"])
.arg(relative_path)
.current_dir(&self.config.src),
);
// Try passing `--progress` to start, then run git again without if that fails.
let update = |progress: bool| {
let mut git = Command::new("git");
git.args(&["submodule", "update", "--init", "--recursive"]);
if progress {
git.arg("--progress");
}
git.arg(relative_path).current_dir(&self.config.src);
git
};
// NOTE: doesn't use `try_run` because this shouldn't print an error if it fails.
if !update(true).status().map_or(false, |status| status.success()) {
self.run(&mut update(false));
}
self.run(Command::new("git").args(&["reset", "-q", "--hard"]).current_dir(&absolute_path));
self.run(Command::new("git").args(&["clean", "-qdfx"]).current_dir(absolute_path));
}
/// If any submodule has been initialized already, sync it unconditionally.
/// This avoids contributors checking in a submodule change by accident.
pub fn maybe_update_submodules(&self) {
// WARNING: keep this in sync with the submodules hard-coded in bootstrap.py
const BOOTSTRAP_SUBMODULES: &[&str] = &[
"src/tools/rust-installer",
"src/tools/cargo",
"src/tools/rls",
"src/tools/miri",
"library/backtrace",
"library/stdarch",
];
// Avoid running git when there isn't a git checkout.
if !self.config.submodules(&self.rust_info) {
return;
}
let output = output(
Command::new("git")
.args(&["config", "--file"])
.arg(&self.config.src.join(".gitmodules"))
.args(&["--get-regexp", "path"]),
);
for line in output.lines() {
// Look for `submodule.$name.path = $path`
// Sample output: `submodule.src/rust-installer.path src/tools/rust-installer`
let submodule = Path::new(line.splitn(2, ' ').nth(1).unwrap());
// avoid updating submodules twice
if !BOOTSTRAP_SUBMODULES.iter().any(|&p| Path::new(p) == submodule)
&& channel::GitInfo::new(false, submodule).is_git()
{
self.update_submodule(submodule);
}
}
}
/// Executes the entire build, as configured by the flags and configuration.
pub fn build(&mut self) {
unsafe {
job::setup(self);
}
self.maybe_update_submodules();
if let Subcommand::Format { check, paths } = &self.config.cmd {
return format::format(self, *check, &paths);
}
if let Subcommand::Clean { all } = self.config.cmd {
return clean::clean(self, all);
}
if let Subcommand::Setup { profile } = &self.config.cmd {
return setup::setup(&self.config.src, *profile);
}
{
let builder = builder::Builder::new(&self);
if let Some(path) = builder.paths.get(0) {
if path == Path::new("nonexistent/path/to/trigger/cargo/metadata") {
return;
}
}
}
if !self.config.dry_run {
{
self.config.dry_run = true;
let builder = builder::Builder::new(&self);
builder.execute_cli();
}
self.config.dry_run = false;
let builder = builder::Builder::new(&self);
builder.execute_cli();
} else {
let builder = builder::Builder::new(&self);
builder.execute_cli();
}
// Check for postponed failures from `test --no-fail-fast`.
let failures = self.delayed_failures.borrow();
if failures.len() > 0 {
println!("\n{} command(s) did not execute successfully:\n", failures.len());
for failure in failures.iter() {
println!(" - {}\n", failure);
}
process::exit(1);
}
}
/// Clear out `dir` if `input` is newer.
///
/// After this executes, it will also ensure that `dir` exists.
fn clear_if_dirty(&self, dir: &Path, input: &Path) -> bool {
let stamp = dir.join(".stamp");
let mut cleared = false;
if mtime(&stamp) < mtime(input) {
self.verbose(&format!("Dirty - {}", dir.display()));
let _ = fs::remove_dir_all(dir);
cleared = true;
} else if stamp.exists() {
return cleared;
}
t!(fs::create_dir_all(dir));
t!(File::create(stamp));
cleared
}
/// Gets the space-separated set of activated features for the standard
/// library.
fn std_features(&self, target: TargetSelection) -> String {
let mut features = "panic-unwind".to_string();
match self.config.llvm_libunwind {
LlvmLibunwind::InTree => features.push_str(" llvm-libunwind"),
LlvmLibunwind::System => features.push_str(" system-llvm-libunwind"),
LlvmLibunwind::No => {}
}
if self.config.backtrace {
features.push_str(" backtrace");
}
if self.config.profiler_enabled(target) {
features.push_str(" profiler");
}
features
}
/// Gets the space-separated set of activated features for the compiler.
fn rustc_features(&self) -> String {
let mut features = String::new();
if self.config.jemalloc {
features.push_str("jemalloc");
}
if self.config.llvm_enabled() {
features.push_str(" llvm");
}
// If debug logging is on, then we want the default for tracing:
// https://github.com/tokio-rs/tracing/blob/3dd5c03d907afdf2c39444a29931833335171554/tracing/src/level_filters.rs#L26
// which is everything (including debug/trace/etc.)
// if its unset, if debug_assertions is on, then debug_logging will also be on
// as well as tracing *ignoring* this feature when debug_assertions is on
if !self.config.rust_debug_logging {
features.push_str(" max_level_info");
}
features
}
/// Component directory that Cargo will produce output into (e.g.
/// release/debug)
fn cargo_dir(&self) -> &'static str {
if self.config.rust_optimize { "release" } else { "debug" }
}
fn tools_dir(&self, compiler: Compiler) -> PathBuf {
let out = self
.out
.join(&*compiler.host.triple)
.join(format!("stage{}-tools-bin", compiler.stage));
t!(fs::create_dir_all(&out));
out
}
/// Returns the root directory for all output generated in a particular
/// stage when running with a particular host compiler.
///
/// The mode indicates what the root directory is for.
fn stage_out(&self, compiler: Compiler, mode: Mode) -> PathBuf {
let suffix = match mode {
Mode::Std => "-std",
Mode::Rustc => "-rustc",
Mode::Codegen => "-codegen",
Mode::ToolBootstrap => "-bootstrap-tools",
Mode::ToolStd | Mode::ToolRustc => "-tools",
};
self.out.join(&*compiler.host.triple).join(format!("stage{}{}", compiler.stage, suffix))
}
/// Returns the root output directory for all Cargo output in a given stage,
/// running a particular compiler, whether or not we're building the
/// standard library, and targeting the specified architecture.
fn cargo_out(&self, compiler: Compiler, mode: Mode, target: TargetSelection) -> PathBuf {
self.stage_out(compiler, mode).join(&*target.triple).join(self.cargo_dir())
}
/// Root output directory for LLVM compiled for `target`
///
/// Note that if LLVM is configured externally then the directory returned
/// will likely be empty.
fn llvm_out(&self, target: TargetSelection) -> PathBuf {
self.out.join(&*target.triple).join("llvm")
}
fn lld_out(&self, target: TargetSelection) -> PathBuf {
self.out.join(&*target.triple).join("lld")
}
/// Output directory for all documentation for a target
fn doc_out(&self, target: TargetSelection) -> PathBuf {
self.out.join(&*target.triple).join("doc")
}
fn test_out(&self, target: TargetSelection) -> PathBuf {
self.out.join(&*target.triple).join("test")
}
/// Output directory for all documentation for a target
fn compiler_doc_out(&self, target: TargetSelection) -> PathBuf {
self.out.join(&*target.triple).join("compiler-doc")
}
/// Output directory for some generated md crate documentation for a target (temporary)
fn md_doc_out(&self, target: TargetSelection) -> Interned<PathBuf> {
INTERNER.intern_path(self.out.join(&*target.triple).join("md-doc"))
}
/// Returns `true` if no custom `llvm-config` is set for the specified target.
///
/// If no custom `llvm-config` was specified then Rust's llvm will be used.
fn is_rust_llvm(&self, target: TargetSelection) -> bool {
if self.config.llvm_from_ci && target == self.config.build {
return true;
}
match self.config.target_config.get(&target) {
Some(ref c) => c.llvm_config.is_none(),
None => true,
}
}
/// Returns the path to `FileCheck` binary for the specified target
fn llvm_filecheck(&self, target: TargetSelection) -> PathBuf {
let target_config = self.config.target_config.get(&target);
if let Some(s) = target_config.and_then(|c| c.llvm_filecheck.as_ref()) {
s.to_path_buf()
} else if let Some(s) = target_config.and_then(|c| c.llvm_config.as_ref()) {
let llvm_bindir = output(Command::new(s).arg("--bindir"));
let filecheck = Path::new(llvm_bindir.trim()).join(exe("FileCheck", target));
if filecheck.exists() {
filecheck
} else {
// On Fedora the system LLVM installs FileCheck in the
// llvm subdirectory of the libdir.
let llvm_libdir = output(Command::new(s).arg("--libdir"));
let lib_filecheck =
Path::new(llvm_libdir.trim()).join("llvm").join(exe("FileCheck", target));
if lib_filecheck.exists() {
lib_filecheck
} else {
// Return the most normal file name, even though
// it doesn't exist, so that any error message
// refers to that.
filecheck
}
}
} else {
let base = self.llvm_out(self.config.build).join("build");
let base = if !self.ninja() && self.config.build.contains("msvc") {
if self.config.llvm_optimize {
if self.config.llvm_release_debuginfo {
base.join("RelWithDebInfo")
} else {
base.join("Release")
}
} else {
base.join("Debug")
}
} else {
base
};
base.join("bin").join(exe("FileCheck", target))
}
}
/// Directory for libraries built from C/C++ code and shared between stages.
fn native_dir(&self, target: TargetSelection) -> PathBuf {
self.out.join(&*target.triple).join("native")
}
/// Root output directory for rust_test_helpers library compiled for
/// `target`
fn test_helpers_out(&self, target: TargetSelection) -> PathBuf {
self.native_dir(target).join("rust-test-helpers")
}
/// Adds the `RUST_TEST_THREADS` env var if necessary
fn add_rust_test_threads(&self, cmd: &mut Command) {
if env::var_os("RUST_TEST_THREADS").is_none() {
cmd.env("RUST_TEST_THREADS", self.jobs().to_string());
}
}
/// Returns the libdir of the snapshot compiler.
fn rustc_snapshot_libdir(&self) -> PathBuf {
self.rustc_snapshot_sysroot().join(libdir(self.config.build))
}
/// Returns the sysroot of the snapshot compiler.
fn rustc_snapshot_sysroot(&self) -> &Path {
self.initial_rustc.parent().unwrap().parent().unwrap()
}
/// Runs a command, printing out nice contextual information if it fails.
fn run(&self, cmd: &mut Command) {
if self.config.dry_run {
return;
}
self.verbose(&format!("running: {:?}", cmd));
run(cmd)
}
/// Runs a command, printing out nice contextual information if it fails.
fn run_quiet(&self, cmd: &mut Command) {
if self.config.dry_run {
return;
}
self.verbose(&format!("running: {:?}", cmd));
run_suppressed(cmd)
}
/// Runs a command, printing out nice contextual information if it fails.
/// Exits if the command failed to execute at all, otherwise returns its
/// `status.success()`.
fn try_run(&self, cmd: &mut Command) -> bool {
if self.config.dry_run {
return true;
}
self.verbose(&format!("running: {:?}", cmd));
try_run(cmd)
}
/// Runs a command, printing out nice contextual information if it fails.
/// Exits if the command failed to execute at all, otherwise returns its
/// `status.success()`.
fn try_run_quiet(&self, cmd: &mut Command) -> bool {
if self.config.dry_run {
return true;
}
self.verbose(&format!("running: {:?}", cmd));
try_run_suppressed(cmd)
}
pub fn is_verbose(&self) -> bool {
self.verbosity > 0
}
/// Prints a message if this build is configured in verbose mode.
fn verbose(&self, msg: &str) {
if self.is_verbose() {
println!("{}", msg);
}
}
pub fn is_verbose_than(&self, level: usize) -> bool {
self.verbosity > level
}
/// Prints a message if this build is configured in more verbose mode than `level`.
fn verbose_than(&self, level: usize, msg: &str) {
if self.is_verbose_than(level) {
println!("{}", msg);
}
}
fn info(&self, msg: &str) {
if self.config.dry_run {
return;
}
println!("{}", msg);
}
/// Returns the number of parallel jobs that have been configured for this
/// build.
fn jobs(&self) -> u32 {
self.config.jobs.unwrap_or_else(|| num_cpus::get() as u32)
}
fn debuginfo_map_to(&self, which: GitRepo) -> Option<String> {
if !self.config.rust_remap_debuginfo {
return None;
}
match which {
GitRepo::Rustc => {
let sha = self.rust_sha().unwrap_or(&self.version);
Some(format!("/rustc/{}", sha))
}
GitRepo::Llvm => Some(String::from("/rustc/llvm")),
}
}
/// Returns the path to the C compiler for the target specified.
fn cc(&self, target: TargetSelection) -> &Path {
self.cc[&target].path()
}
/// Returns a list of flags to pass to the C compiler for the target
/// specified.
fn cflags(&self, target: TargetSelection, which: GitRepo) -> Vec<String> {
// Filter out -O and /O (the optimization flags) that we picked up from
// cc-rs because the build scripts will determine that for themselves.
let mut base = self.cc[&target]
.args()
.iter()
.map(|s| s.to_string_lossy().into_owned())
.filter(|s| !s.starts_with("-O") && !s.starts_with("/O"))
.collect::<Vec<String>>();
// If we're compiling on macOS then we add a few unconditional flags
// indicating that we want libc++ (more filled out than libstdc++) and
// we want to compile for 10.7. This way we can ensure that
// LLVM/etc are all properly compiled.
if target.contains("apple-darwin") {
base.push("-stdlib=libc++".into());
}
// Work around an apparently bad MinGW / GCC optimization,
// See: https://lists.llvm.org/pipermail/cfe-dev/2016-December/051980.html
// See: https://gcc.gnu.org/bugzilla/show_bug.cgi?id=78936
if &*target.triple == "i686-pc-windows-gnu" {
base.push("-fno-omit-frame-pointer".into());
}
if let Some(map_to) = self.debuginfo_map_to(which) {
let map = format!("{}={}", self.src.display(), map_to);
let cc = self.cc(target);
if cc.ends_with("clang") || cc.ends_with("gcc") {
base.push(format!("-fdebug-prefix-map={}", map));
} else if cc.ends_with("clang-cl.exe") {
base.push("-Xclang".into());
base.push(format!("-fdebug-prefix-map={}", map));
}
}
base
}
/// Returns the path to the `ar` archive utility for the target specified.
fn ar(&self, target: TargetSelection) -> Option<&Path> {
self.ar.get(&target).map(|p| &**p)
}
/// Returns the path to the `ranlib` utility for the target specified.
fn ranlib(&self, target: TargetSelection) -> Option<&Path> {
self.ranlib.get(&target).map(|p| &**p)
}
/// Returns the path to the C++ compiler for the target specified.
fn cxx(&self, target: TargetSelection) -> Result<&Path, String> {
match self.cxx.get(&target) {
Some(p) => Ok(p.path()),