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|
use std::collections::HashSet;
use std::env;
use std::fs;
use std::path::PathBuf;
use std::process::Command;
use crate::builder::{Builder, Cargo as CargoCommand, RunConfig, ShouldRun, Step};
use crate::channel::GitInfo;
use crate::compile;
use crate::config::TargetSelection;
use crate::toolstate::ToolState;
use crate::util::{add_dylib_path, exe, t};
use crate::Compiler;
use crate::Mode;
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
pub enum SourceType {
InTree,
Submodule,
}
#[derive(Debug, Clone, Hash, PartialEq, Eq)]
struct ToolBuild {
compiler: Compiler,
target: TargetSelection,
tool: &'static str,
path: &'static str,
mode: Mode,
is_optional_tool: bool,
source_type: SourceType,
extra_features: Vec<String>,
}
impl Step for ToolBuild {
type Output = Option<PathBuf>;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.never()
}
/// Builds a tool in `src/tools`
///
/// This will build the specified tool with the specified `host` compiler in
/// `stage` into the normal cargo output directory.
fn run(self, builder: &Builder<'_>) -> Option<PathBuf> {
let compiler = self.compiler;
let target = self.target;
let mut tool = self.tool;
let path = self.path;
let is_optional_tool = self.is_optional_tool;
match self.mode {
Mode::ToolRustc => {
builder.ensure(compile::Std::new(compiler, compiler.host));
builder.ensure(compile::Rustc::new(compiler, target));
}
Mode::ToolStd => builder.ensure(compile::Std::new(compiler, target)),
Mode::ToolBootstrap => {} // uses downloaded stage0 compiler libs
_ => panic!("unexpected Mode for tool build"),
}
let cargo = prepare_tool_cargo(
builder,
compiler,
self.mode,
target,
"build",
path,
self.source_type,
&self.extra_features,
);
builder.info(&format!("Building stage{} tool {} ({})", compiler.stage, tool, target));
let mut duplicates = Vec::new();
let is_expected = compile::stream_cargo(builder, cargo, vec![], &mut |msg| {
// Only care about big things like the RLS/Cargo for now
match tool {
"rls" | "cargo" | "clippy-driver" | "miri" | "rustfmt" => {}
_ => return,
}
let (id, features, filenames) = match msg {
compile::CargoMessage::CompilerArtifact {
package_id,
features,
filenames,
target: _,
} => (package_id, features, filenames),
_ => return,
};
let features = features.iter().map(|s| s.to_string()).collect::<Vec<_>>();
for path in filenames {
let val = (tool, PathBuf::from(&*path), features.clone());
// we're only interested in deduplicating rlibs for now
if val.1.extension().and_then(|s| s.to_str()) != Some("rlib") {
continue;
}
// Don't worry about compiles that turn out to be host
// dependencies or build scripts. To skip these we look for
// anything that goes in `.../release/deps` but *doesn't* go in
// `$target/release/deps`. This ensure that outputs in
// `$target/release` are still considered candidates for
// deduplication.
if let Some(parent) = val.1.parent() {
if parent.ends_with("release/deps") {
let maybe_target = parent
.parent()
.and_then(|p| p.parent())
.and_then(|p| p.file_name())
.and_then(|p| p.to_str())
.unwrap();
if maybe_target != &*target.triple {
continue;
}
}
}
// Record that we've built an artifact for `id`, and if one was
// already listed then we need to see if we reused the same
// artifact or produced a duplicate.
let mut artifacts = builder.tool_artifacts.borrow_mut();
let prev_artifacts = artifacts.entry(target).or_default();
let prev = match prev_artifacts.get(&*id) {
Some(prev) => prev,
None => {
prev_artifacts.insert(id.to_string(), val);
continue;
}
};
if prev.1 == val.1 {
return; // same path, same artifact
}
// If the paths are different and one of them *isn't* inside of
// `release/deps`, then it means it's probably in
// `$target/release`, or it's some final artifact like
// `libcargo.rlib`. In these situations Cargo probably just
// copied it up from `$target/release/deps/libcargo-xxxx.rlib`,
// so if the features are equal we can just skip it.
let prev_no_hash = prev.1.parent().unwrap().ends_with("release/deps");
let val_no_hash = val.1.parent().unwrap().ends_with("release/deps");
if prev.2 == val.2 || !prev_no_hash || !val_no_hash {
return;
}
// ... and otherwise this looks like we duplicated some sort of
// compilation, so record it to generate an error later.
duplicates.push((id.to_string(), val, prev.clone()));
}
});
if is_expected && !duplicates.is_empty() {
eprintln!(
"duplicate artifacts found when compiling a tool, this \
typically means that something was recompiled because \
a transitive dependency has different features activated \
than in a previous build:\n"
);
let (same, different): (Vec<_>, Vec<_>) =
duplicates.into_iter().partition(|(_, cur, prev)| cur.2 == prev.2);
if !same.is_empty() {
eprintln!(
"the following dependencies are duplicated although they \
have the same features enabled:"
);
for (id, cur, prev) in same {
eprintln!(" {}", id);
// same features
eprintln!(" `{}` ({:?})\n `{}` ({:?})", cur.0, cur.1, prev.0, prev.1);
}
}
if !different.is_empty() {
eprintln!("the following dependencies have different features:");
for (id, cur, prev) in different {
eprintln!(" {}", id);
let cur_features: HashSet<_> = cur.2.into_iter().collect();
let prev_features: HashSet<_> = prev.2.into_iter().collect();
eprintln!(
" `{}` additionally enabled features {:?} at {:?}",
cur.0,
&cur_features - &prev_features,
cur.1
);
eprintln!(
" `{}` additionally enabled features {:?} at {:?}",
prev.0,
&prev_features - &cur_features,
prev.1
);
}
}
eprintln!();
eprintln!(
"to fix this you will probably want to edit the local \
src/tools/rustc-workspace-hack/Cargo.toml crate, as \
that will update the dependency graph to ensure that \
these crates all share the same feature set"
);
panic!("tools should not compile multiple copies of the same crate");
}
builder.save_toolstate(
tool,
if is_expected { ToolState::TestFail } else { ToolState::BuildFail },
);
if !is_expected {
if !is_optional_tool {
crate::detail_exit(1);
} else {
None
}
} else {
// HACK(#82501): on Windows, the tools directory gets added to PATH when running tests, and
// compiletest confuses HTML tidy with the in-tree tidy. Name the in-tree tidy something
// different so the problem doesn't come up.
if tool == "tidy" {
tool = "rust-tidy";
}
let cargo_out = builder.cargo_out(compiler, self.mode, target).join(exe(tool, target));
let bin = builder.tools_dir(compiler).join(exe(tool, target));
builder.copy(&cargo_out, &bin);
Some(bin)
}
}
}
pub fn prepare_tool_cargo(
builder: &Builder<'_>,
compiler: Compiler,
mode: Mode,
target: TargetSelection,
command: &'static str,
path: &'static str,
source_type: SourceType,
extra_features: &[String],
) -> CargoCommand {
let mut cargo = builder.cargo(compiler, mode, source_type, target, command);
let dir = builder.src.join(path);
cargo.arg("--manifest-path").arg(dir.join("Cargo.toml"));
let mut features = extra_features.to_vec();
if builder.build.config.cargo_native_static {
if path.ends_with("cargo")
|| path.ends_with("rls")
|| path.ends_with("clippy")
|| path.ends_with("miri")
|| path.ends_with("rustfmt")
{
cargo.env("LIBZ_SYS_STATIC", "1");
features.push("rustc-workspace-hack/all-static".to_string());
}
}
// clippy tests need to know about the stage sysroot. Set them consistently while building to
// avoid rebuilding when running tests.
cargo.env("SYSROOT", builder.sysroot(compiler));
// if tools are using lzma we want to force the build script to build its
// own copy
cargo.env("LZMA_API_STATIC", "1");
// CFG_RELEASE is needed by rustfmt (and possibly other tools) which
// import rustc-ap-rustc_attr which requires this to be set for the
// `#[cfg(version(...))]` attribute.
cargo.env("CFG_RELEASE", builder.rust_release());
cargo.env("CFG_RELEASE_CHANNEL", &builder.config.channel);
cargo.env("CFG_VERSION", builder.rust_version());
cargo.env("CFG_RELEASE_NUM", &builder.version);
cargo.env("DOC_RUST_LANG_ORG_CHANNEL", builder.doc_rust_lang_org_channel());
let info = GitInfo::new(builder.config.ignore_git, &dir);
if let Some(sha) = info.sha() {
cargo.env("CFG_COMMIT_HASH", sha);
}
if let Some(sha_short) = info.sha_short() {
cargo.env("CFG_SHORT_COMMIT_HASH", sha_short);
}
if let Some(date) = info.commit_date() {
cargo.env("CFG_COMMIT_DATE", date);
}
if !features.is_empty() {
cargo.arg("--features").arg(&features.join(", "));
}
cargo
}
macro_rules! bootstrap_tool {
($(
$name:ident, $path:expr, $tool_name:expr
$(,is_external_tool = $external:expr)*
$(,is_unstable_tool = $unstable:expr)*
;
)+) => {
#[derive(Copy, PartialEq, Eq, Clone)]
pub enum Tool {
$(
$name,
)+
}
impl<'a> Builder<'a> {
pub fn tool_exe(&self, tool: Tool) -> PathBuf {
match tool {
$(Tool::$name =>
self.ensure($name {
compiler: self.compiler(0, self.config.build),
target: self.config.build,
}),
)+
}
}
}
$(
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
pub struct $name {
pub compiler: Compiler,
pub target: TargetSelection,
}
impl Step for $name {
type Output = PathBuf;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.path($path)
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure($name {
// snapshot compiler
compiler: run.builder.compiler(0, run.builder.config.build),
target: run.target,
});
}
fn run(self, builder: &Builder<'_>) -> PathBuf {
builder.ensure(ToolBuild {
compiler: self.compiler,
target: self.target,
tool: $tool_name,
mode: if false $(|| $unstable)* {
// use in-tree libraries for unstable features
Mode::ToolStd
} else {
Mode::ToolBootstrap
},
path: $path,
is_optional_tool: false,
source_type: if false $(|| $external)* {
SourceType::Submodule
} else {
SourceType::InTree
},
extra_features: vec![],
}).expect("expected to build -- essential tool")
}
}
)+
}
}
bootstrap_tool!(
Rustbook, "src/tools/rustbook", "rustbook";
UnstableBookGen, "src/tools/unstable-book-gen", "unstable-book-gen";
Tidy, "src/tools/tidy", "tidy";
Linkchecker, "src/tools/linkchecker", "linkchecker";
CargoTest, "src/tools/cargotest", "cargotest";
Compiletest, "src/tools/compiletest", "compiletest", is_unstable_tool = true;
BuildManifest, "src/tools/build-manifest", "build-manifest";
RemoteTestClient, "src/tools/remote-test-client", "remote-test-client";
RustInstaller, "src/tools/rust-installer", "rust-installer", is_external_tool = true;
RustdocTheme, "src/tools/rustdoc-themes", "rustdoc-themes";
ExpandYamlAnchors, "src/tools/expand-yaml-anchors", "expand-yaml-anchors";
LintDocs, "src/tools/lint-docs", "lint-docs";
JsonDocCk, "src/tools/jsondocck", "jsondocck";
JsonDocLint, "src/tools/jsondoclint", "jsondoclint";
HtmlChecker, "src/tools/html-checker", "html-checker";
BumpStage0, "src/tools/bump-stage0", "bump-stage0";
ReplaceVersionPlaceholder, "src/tools/replace-version-placeholder", "replace-version-placeholder";
CollectLicenseMetadata, "src/tools/collect-license-metadata", "collect-license-metadata";
GenerateCopyright, "src/tools/generate-copyright", "generate-copyright";
);
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq, Ord, PartialOrd)]
pub struct ErrorIndex {
pub compiler: Compiler,
}
impl ErrorIndex {
pub fn command(builder: &Builder<'_>) -> Command {
// Error-index-generator links with the rustdoc library, so we need to add `rustc_lib_paths`
// for rustc_private and libLLVM.so, and `sysroot_lib` for libstd, etc.
let host = builder.config.build;
let compiler = builder.compiler_for(builder.top_stage, host, host);
let mut cmd = Command::new(builder.ensure(ErrorIndex { compiler }));
let mut dylib_paths = builder.rustc_lib_paths(compiler);
dylib_paths.push(PathBuf::from(&builder.sysroot_libdir(compiler, compiler.host)));
add_dylib_path(dylib_paths, &mut cmd);
cmd
}
}
impl Step for ErrorIndex {
type Output = PathBuf;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.path("src/tools/error_index_generator")
}
fn make_run(run: RunConfig<'_>) {
// Compile the error-index in the same stage as rustdoc to avoid
// recompiling rustdoc twice if we can.
//
// NOTE: This `make_run` isn't used in normal situations, only if you
// manually build the tool with `x.py build
// src/tools/error-index-generator` which almost nobody does.
// Normally, `x.py test` or `x.py doc` will use the
// `ErrorIndex::command` function instead.
let compiler =
run.builder.compiler(run.builder.top_stage.saturating_sub(1), run.builder.config.build);
run.builder.ensure(ErrorIndex { compiler });
}
fn run(self, builder: &Builder<'_>) -> PathBuf {
builder
.ensure(ToolBuild {
compiler: self.compiler,
target: self.compiler.host,
tool: "error_index_generator",
mode: Mode::ToolRustc,
path: "src/tools/error_index_generator",
is_optional_tool: false,
source_type: SourceType::InTree,
extra_features: Vec::new(),
})
.expect("expected to build -- essential tool")
}
}
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
pub struct RemoteTestServer {
pub compiler: Compiler,
pub target: TargetSelection,
}
impl Step for RemoteTestServer {
type Output = PathBuf;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.path("src/tools/remote-test-server")
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(RemoteTestServer {
compiler: run.builder.compiler(run.builder.top_stage, run.builder.config.build),
target: run.target,
});
}
fn run(self, builder: &Builder<'_>) -> PathBuf {
builder
.ensure(ToolBuild {
compiler: self.compiler,
target: self.target,
tool: "remote-test-server",
mode: Mode::ToolStd,
path: "src/tools/remote-test-server",
is_optional_tool: false,
source_type: SourceType::InTree,
extra_features: Vec::new(),
})
.expect("expected to build -- essential tool")
}
}
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq, Ord, PartialOrd)]
pub struct Rustdoc {
/// This should only ever be 0 or 2.
/// We sometimes want to reference the "bootstrap" rustdoc, which is why this option is here.
pub compiler: Compiler,
}
impl Step for Rustdoc {
type Output = PathBuf;
const DEFAULT: bool = true;
const ONLY_HOSTS: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.path("src/tools/rustdoc").path("src/librustdoc")
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(Rustdoc {
// Note: this is somewhat unique in that we actually want a *target*
// compiler here, because rustdoc *is* a compiler. We won't be using
// this as the compiler to build with, but rather this is "what
// compiler are we producing"?
compiler: run.builder.compiler(run.builder.top_stage, run.target),
});
}
fn run(self, builder: &Builder<'_>) -> PathBuf {
let target_compiler = self.compiler;
if target_compiler.stage == 0 {
if !target_compiler.is_snapshot(builder) {
panic!("rustdoc in stage 0 must be snapshot rustdoc");
}
return builder.initial_rustc.with_file_name(exe("rustdoc", target_compiler.host));
}
let target = target_compiler.host;
// Similar to `compile::Assemble`, build with the previous stage's compiler. Otherwise
// we'd have stageN/bin/rustc and stageN/bin/rustdoc be effectively different stage
// compilers, which isn't what we want. Rustdoc should be linked in the same way as the
// rustc compiler it's paired with, so it must be built with the previous stage compiler.
let build_compiler = builder.compiler(target_compiler.stage - 1, builder.config.build);
// When using `download-rustc` and a stage0 build_compiler, copying rustc doesn't actually
// build stage0 libstd (because the libstd in sysroot has the wrong ABI). Explicitly build
// it.
builder.ensure(compile::Std::new(build_compiler, target_compiler.host));
builder.ensure(compile::Rustc::new(build_compiler, target_compiler.host));
// NOTE: this implies that `download-rustc` is pretty useless when compiling with the stage0
// compiler, since you do just as much work.
if !builder.config.dry_run() && builder.download_rustc() && build_compiler.stage == 0 {
println!(
"warning: `download-rustc` does nothing when building stage1 tools; consider using `--stage 2` instead"
);
}
// The presence of `target_compiler` ensures that the necessary libraries (codegen backends,
// compiler libraries, ...) are built. Rustdoc does not require the presence of any
// libraries within sysroot_libdir (i.e., rustlib), though doctests may want it (since
// they'll be linked to those libraries). As such, don't explicitly `ensure` any additional
// libraries here. The intuition here is that If we've built a compiler, we should be able
// to build rustdoc.
//
let mut features = Vec::new();
if builder.config.jemalloc {
features.push("jemalloc".to_string());
}
let cargo = prepare_tool_cargo(
builder,
build_compiler,
Mode::ToolRustc,
target,
"build",
"src/tools/rustdoc",
SourceType::InTree,
features.as_slice(),
);
builder.info(&format!(
"Building rustdoc for stage{} ({})",
target_compiler.stage, target_compiler.host
));
builder.run(&mut cargo.into());
// Cargo adds a number of paths to the dylib search path on windows, which results in
// the wrong rustdoc being executed. To avoid the conflicting rustdocs, we name the "tool"
// rustdoc a different name.
let tool_rustdoc = builder
.cargo_out(build_compiler, Mode::ToolRustc, target)
.join(exe("rustdoc_tool_binary", target_compiler.host));
// don't create a stage0-sysroot/bin directory.
if target_compiler.stage > 0 {
let sysroot = builder.sysroot(target_compiler);
let bindir = sysroot.join("bin");
t!(fs::create_dir_all(&bindir));
let bin_rustdoc = bindir.join(exe("rustdoc", target_compiler.host));
let _ = fs::remove_file(&bin_rustdoc);
builder.copy(&tool_rustdoc, &bin_rustdoc);
bin_rustdoc
} else {
tool_rustdoc
}
}
}
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
pub struct Cargo {
pub compiler: Compiler,
pub target: TargetSelection,
}
impl Step for Cargo {
type Output = PathBuf;
const DEFAULT: bool = true;
const ONLY_HOSTS: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
let builder = run.builder;
run.path("src/tools/cargo").default_condition(
builder.config.extended
&& builder.config.tools.as_ref().map_or(
true,
// If `tools` is set, search list for this tool.
|tools| tools.iter().any(|tool| tool == "cargo"),
),
)
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(Cargo {
compiler: run.builder.compiler(run.builder.top_stage, run.builder.config.build),
target: run.target,
});
}
fn run(self, builder: &Builder<'_>) -> PathBuf {
let cargo_bin_path = builder
.ensure(ToolBuild {
compiler: self.compiler,
target: self.target,
tool: "cargo",
mode: Mode::ToolRustc,
path: "src/tools/cargo",
is_optional_tool: false,
source_type: SourceType::Submodule,
extra_features: Vec::new(),
})
.expect("expected to build -- essential tool");
let build_cred = |name, path| {
// These credential helpers are currently experimental.
// Any build failures will be ignored.
let _ = builder.ensure(ToolBuild {
compiler: self.compiler,
target: self.target,
tool: name,
mode: Mode::ToolRustc,
path,
is_optional_tool: true,
source_type: SourceType::Submodule,
extra_features: Vec::new(),
});
};
if self.target.contains("windows") {
build_cred(
"cargo-credential-wincred",
"src/tools/cargo/crates/credential/cargo-credential-wincred",
);
}
if self.target.contains("apple-darwin") {
build_cred(
"cargo-credential-macos-keychain",
"src/tools/cargo/crates/credential/cargo-credential-macos-keychain",
);
}
build_cred(
"cargo-credential-1password",
"src/tools/cargo/crates/credential/cargo-credential-1password",
);
cargo_bin_path
}
}
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
pub struct LldWrapper {
pub compiler: Compiler,
pub target: TargetSelection,
}
impl Step for LldWrapper {
type Output = PathBuf;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.never()
}
fn run(self, builder: &Builder<'_>) -> PathBuf {
let src_exe = builder
.ensure(ToolBuild {
compiler: self.compiler,
target: self.target,
tool: "lld-wrapper",
mode: Mode::ToolStd,
path: "src/tools/lld-wrapper",
is_optional_tool: false,
source_type: SourceType::InTree,
extra_features: Vec::new(),
})
.expect("expected to build -- essential tool");
src_exe
}
}
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
pub struct RustAnalyzer {
pub compiler: Compiler,
pub target: TargetSelection,
}
impl Step for RustAnalyzer {
type Output = Option<PathBuf>;
const DEFAULT: bool = true;
const ONLY_HOSTS: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
let builder = run.builder;
run.path("src/tools/rust-analyzer").default_condition(
builder.config.extended
&& builder
.config
.tools
.as_ref()
.map_or(true, |tools| tools.iter().any(|tool| tool == "rust-analyzer")),
)
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(RustAnalyzer {
compiler: run.builder.compiler(run.builder.top_stage, run.builder.config.build),
target: run.target,
});
}
fn run(self, builder: &Builder<'_>) -> Option<PathBuf> {
builder.ensure(ToolBuild {
compiler: self.compiler,
target: self.target,
tool: "rust-analyzer",
mode: Mode::ToolStd,
path: "src/tools/rust-analyzer",
extra_features: vec!["rust-analyzer/in-rust-tree".to_owned()],
is_optional_tool: false,
source_type: SourceType::InTree,
})
}
}
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
pub struct RustAnalyzerProcMacroSrv {
pub compiler: Compiler,
pub target: TargetSelection,
}
impl Step for RustAnalyzerProcMacroSrv {
type Output = Option<PathBuf>;
const DEFAULT: bool = true;
const ONLY_HOSTS: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
let builder = run.builder;
// Allow building `rust-analyzer-proc-macro-srv` both as part of the `rust-analyzer` and as a stand-alone tool.
run.path("src/tools/rust-analyzer")
.path("src/tools/rust-analyzer/crates/proc-macro-srv-cli")
.default_condition(
builder.config.extended
&& builder.config.tools.as_ref().map_or(true, |tools| {
tools.iter().any(|tool| {
tool == "rust-analyzer" || tool == "rust-analyzer-proc-macro-srv"
})
}),
)
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(RustAnalyzerProcMacroSrv {
compiler: run.builder.compiler(run.builder.top_stage, run.builder.config.build),
target: run.target,
});
}
fn run(self, builder: &Builder<'_>) -> Option<PathBuf> {
let path = builder.ensure(ToolBuild {
compiler: self.compiler,
target: self.target,
tool: "rust-analyzer-proc-macro-srv",
mode: Mode::ToolStd,
path: "src/tools/rust-analyzer/crates/proc-macro-srv-cli",
extra_features: vec!["proc-macro-srv/sysroot-abi".to_owned()],
is_optional_tool: false,
source_type: SourceType::InTree,
})?;
// Copy `rust-analyzer-proc-macro-srv` to `<sysroot>/libexec/`
// so that r-a can use it.
let libexec_path = builder.sysroot(self.compiler).join("libexec");
t!(fs::create_dir_all(&libexec_path));
builder.copy(&path, &libexec_path.join("rust-analyzer-proc-macro-srv"));
Some(path)
}
}
macro_rules! tool_extended {
(($sel:ident, $builder:ident),
$($name:ident,
$path:expr,
$tool_name:expr,
stable = $stable:expr
$(,tool_std = $tool_std:literal)?
;)+) => {
$(
#[derive(Debug, Clone, Hash, PartialEq, Eq)]
pub struct $name {
pub compiler: Compiler,
pub target: TargetSelection,
pub extra_features: Vec<String>,
}
impl Step for $name {
type Output = Option<PathBuf>;
const DEFAULT: bool = true; // Overwritten below
const ONLY_HOSTS: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
let builder = run.builder;
run.path($path).default_condition(
builder.config.extended
&& builder.config.tools.as_ref().map_or(
// By default, on nightly/dev enable all tools, else only
// build stable tools.
$stable || builder.build.unstable_features(),
// If `tools` is set, search list for this tool.
|tools| {
tools.iter().any(|tool| match tool.as_ref() {
"clippy" => $tool_name == "clippy-driver",
x => $tool_name == x,
})
}),
)
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure($name {
compiler: run.builder.compiler(run.builder.top_stage, run.builder.config.build),
target: run.target,
extra_features: Vec::new(),
});
}
#[allow(unused_mut)]
fn run(mut $sel, $builder: &Builder<'_>) -> Option<PathBuf> {
$builder.ensure(ToolBuild {
compiler: $sel.compiler,
target: $sel.target,
tool: $tool_name,
mode: if false $(|| $tool_std)? { Mode::ToolStd } else { Mode::ToolRustc },
path: $path,
extra_features: $sel.extra_features,
is_optional_tool: true,
source_type: SourceType::InTree,
})
}
}
)+
}
}
// Note: tools need to be also added to `Builder::get_step_descriptions` in `builder.rs`
// to make `./x.py build <tool>` work.
// Note: Most submodule updates for tools are handled by bootstrap.py, since they're needed just to
// invoke Cargo to build bootstrap. See the comment there for more details.
tool_extended!((self, builder),
Cargofmt, "src/tools/rustfmt", "cargo-fmt", stable=true;
CargoClippy, "src/tools/clippy", "cargo-clippy", stable=true;
Clippy, "src/tools/clippy", "clippy-driver", stable=true;
Miri, "src/tools/miri", "miri", stable=false;
CargoMiri, "src/tools/miri/cargo-miri", "cargo-miri", stable=true;
// FIXME: tool_std is not quite right, we shouldn't allow nightly features.
// But `builder.cargo` doesn't know how to handle ToolBootstrap in stages other than 0,
// and this is close enough for now.
Rls, "src/tools/rls", "rls", stable=true, tool_std=true;
RustDemangler, "src/tools/rust-demangler", "rust-demangler", stable=false, tool_std=true;
Rustfmt, "src/tools/rustfmt", "rustfmt", stable=true;
);
impl<'a> Builder<'a> {
/// Gets a `Command` which is ready to run `tool` in `stage` built for
/// `host`.
pub fn tool_cmd(&self, tool: Tool) -> Command {
let mut cmd = Command::new(self.tool_exe(tool));
let compiler = self.compiler(0, self.config.build);
let host = &compiler.host;
// Prepares the `cmd` provided to be able to run the `compiler` provided.
//
// Notably this munges the dynamic library lookup path to point to the
// right location to run `compiler`.
let mut lib_paths: Vec<PathBuf> = vec![
self.build.rustc_snapshot_libdir(),
self.cargo_out(compiler, Mode::ToolBootstrap, *host).join("deps"),
];
// On MSVC a tool may invoke a C compiler (e.g., compiletest in run-make
// mode) and that C compiler may need some extra PATH modification. Do
// so here.
if compiler.host.contains("msvc") {
let curpaths = env::var_os("PATH").unwrap_or_default();
let curpaths = env::split_paths(&curpaths).collect::<Vec<_>>();
for &(ref k, ref v) in self.cc[&compiler.host].env() {
if k != "PATH" {
continue;
}
for path in env::split_paths(v) {
if !curpaths.contains(&path) {
lib_paths.push(path);
}
}
}
}
add_dylib_path(lib_paths, &mut cmd);
// Provide a RUSTC for this command to use.
cmd.env("RUSTC", &self.initial_rustc);
cmd
}
}
|