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dist.rs
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dist.rs
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//! Implementation of the various distribution aspects of the compiler.
//!
//! This module is responsible for creating tarballs of the standard library,
//! compiler, and documentation. This ends up being what we distribute to
//! everyone as well.
//!
//! No tarball is actually created literally in this file, but rather we shell
//! out to `rust-installer` still. This may one day be replaced with bits and
//! pieces of `rustup.rs`!
use std::collections::HashSet;
use std::env;
use std::ffi::OsStr;
use std::fs;
use std::io::Write;
use std::path::{Path, PathBuf};
use std::process::Command;
use object::read::archive::ArchiveFile;
use object::BinaryFormat;
use sha2::Digest;
use crate::bolt::{instrument_with_bolt, optimize_with_bolt};
use crate::builder::{Builder, Kind, RunConfig, ShouldRun, Step};
use crate::cache::{Interned, INTERNER};
use crate::channel;
use crate::compile;
use crate::config::TargetSelection;
use crate::doc::DocumentationFormat;
use crate::llvm;
use crate::tarball::{GeneratedTarball, OverlayKind, Tarball};
use crate::tool::{self, Tool};
use crate::util::{exe, is_dylib, output, t, timeit};
use crate::{Compiler, DependencyType, Mode, LLVM_TOOLS};
pub fn pkgname(builder: &Builder<'_>, component: &str) -> String {
format!("{}-{}", component, builder.rust_package_vers())
}
pub(crate) fn distdir(builder: &Builder<'_>) -> PathBuf {
builder.out.join("dist")
}
pub fn tmpdir(builder: &Builder<'_>) -> PathBuf {
builder.out.join("tmp/dist")
}
fn should_build_extended_tool(builder: &Builder<'_>, tool: &str) -> bool {
if !builder.config.extended {
return false;
}
builder.config.tools.as_ref().map_or(true, |tools| tools.contains(tool))
}
#[derive(Debug, PartialOrd, Ord, Copy, Clone, Hash, PartialEq, Eq)]
pub struct Docs {
pub host: TargetSelection,
}
impl Step for Docs {
type Output = Option<GeneratedTarball>;
const DEFAULT: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
let default = run.builder.config.docs;
run.alias("rust-docs").default_condition(default)
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(Docs { host: run.target });
}
/// Builds the `rust-docs` installer component.
fn run(self, builder: &Builder<'_>) -> Option<GeneratedTarball> {
let host = self.host;
builder.default_doc(&[]);
let dest = "share/doc/rust/html";
let mut tarball = Tarball::new(builder, "rust-docs", &host.triple);
tarball.set_product_name("Rust Documentation");
tarball.add_bulk_dir(&builder.doc_out(host), dest);
tarball.add_file(&builder.src.join("src/doc/robots.txt"), dest, 0o644);
Some(tarball.generate())
}
}
#[derive(Debug, PartialOrd, Ord, Copy, Clone, Hash, PartialEq, Eq)]
pub struct JsonDocs {
pub host: TargetSelection,
}
impl Step for JsonDocs {
type Output = Option<GeneratedTarball>;
const DEFAULT: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
let default = run.builder.config.docs;
run.alias("rust-docs-json").default_condition(default)
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(JsonDocs { host: run.target });
}
/// Builds the `rust-docs-json` installer component.
fn run(self, builder: &Builder<'_>) -> Option<GeneratedTarball> {
let host = self.host;
builder.ensure(crate::doc::Std {
stage: builder.top_stage,
target: host,
format: DocumentationFormat::JSON,
});
let dest = "share/doc/rust/json";
let mut tarball = Tarball::new(builder, "rust-docs-json", &host.triple);
tarball.set_product_name("Rust Documentation In JSON Format");
tarball.is_preview(true);
tarball.add_bulk_dir(&builder.json_doc_out(host), dest);
Some(tarball.generate())
}
}
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
pub struct RustcDocs {
pub host: TargetSelection,
}
impl Step for RustcDocs {
type Output = Option<GeneratedTarball>;
const DEFAULT: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
let builder = run.builder;
run.alias("rustc-docs").default_condition(builder.config.compiler_docs)
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(RustcDocs { host: run.target });
}
/// Builds the `rustc-docs` installer component.
fn run(self, builder: &Builder<'_>) -> Option<GeneratedTarball> {
let host = self.host;
builder.default_doc(&[]);
let mut tarball = Tarball::new(builder, "rustc-docs", &host.triple);
tarball.set_product_name("Rustc Documentation");
tarball.add_bulk_dir(&builder.compiler_doc_out(host), "share/doc/rust/html/rustc");
Some(tarball.generate())
}
}
fn find_files(files: &[&str], path: &[PathBuf]) -> Vec<PathBuf> {
let mut found = Vec::with_capacity(files.len());
for file in files {
let file_path = path.iter().map(|dir| dir.join(file)).find(|p| p.exists());
if let Some(file_path) = file_path {
found.push(file_path);
} else {
panic!("Could not find '{}' in {:?}", file, path);
}
}
found
}
fn make_win_dist(
rust_root: &Path,
plat_root: &Path,
target: TargetSelection,
builder: &Builder<'_>,
) {
//Ask gcc where it keeps its stuff
let mut cmd = Command::new(builder.cc(target));
cmd.arg("-print-search-dirs");
let gcc_out = output(&mut cmd);
let mut bin_path: Vec<_> = env::split_paths(&env::var_os("PATH").unwrap_or_default()).collect();
let mut lib_path = Vec::new();
for line in gcc_out.lines() {
let idx = line.find(':').unwrap();
let key = &line[..idx];
let trim_chars: &[_] = &[' ', '='];
let value = env::split_paths(line[(idx + 1)..].trim_start_matches(trim_chars));
if key == "programs" {
bin_path.extend(value);
} else if key == "libraries" {
lib_path.extend(value);
}
}
let compiler = if target == "i686-pc-windows-gnu" {
"i686-w64-mingw32-gcc.exe"
} else if target == "x86_64-pc-windows-gnu" {
"x86_64-w64-mingw32-gcc.exe"
} else {
"gcc.exe"
};
let target_tools = [compiler, "ld.exe", "dlltool.exe", "libwinpthread-1.dll"];
let mut rustc_dlls = vec!["libwinpthread-1.dll"];
if target.starts_with("i686-") {
rustc_dlls.push("libgcc_s_dw2-1.dll");
} else {
rustc_dlls.push("libgcc_s_seh-1.dll");
}
// Libraries necessary to link the windows-gnu toolchains.
// System libraries will be preferred if they are available (see #67429).
let target_libs = [
//MinGW libs
"libgcc.a",
"libgcc_eh.a",
"libgcc_s.a",
"libm.a",
"libmingw32.a",
"libmingwex.a",
"libstdc++.a",
"libiconv.a",
"libmoldname.a",
"libpthread.a",
//Windows import libs
//This should contain only the set of libraries necessary to link the standard library.
"libadvapi32.a",
"libbcrypt.a",
"libcomctl32.a",
"libcomdlg32.a",
"libcredui.a",
"libcrypt32.a",
"libdbghelp.a",
"libgdi32.a",
"libimagehlp.a",
"libiphlpapi.a",
"libkernel32.a",
"libmsimg32.a",
"libmsvcrt.a",
"libntdll.a",
"libodbc32.a",
"libole32.a",
"liboleaut32.a",
"libopengl32.a",
"libpsapi.a",
"librpcrt4.a",
"libsecur32.a",
"libsetupapi.a",
"libshell32.a",
"libsynchronization.a",
"libuser32.a",
"libuserenv.a",
"libuuid.a",
"libwinhttp.a",
"libwinmm.a",
"libwinspool.a",
"libws2_32.a",
"libwsock32.a",
];
//Find mingw artifacts we want to bundle
let target_tools = find_files(&target_tools, &bin_path);
let rustc_dlls = find_files(&rustc_dlls, &bin_path);
let target_libs = find_files(&target_libs, &lib_path);
// Copy runtime dlls next to rustc.exe
let dist_bin_dir = rust_root.join("bin/");
fs::create_dir_all(&dist_bin_dir).expect("creating dist_bin_dir failed");
for src in rustc_dlls {
builder.copy_to_folder(&src, &dist_bin_dir);
}
//Copy platform tools to platform-specific bin directory
let target_bin_dir = plat_root
.join("lib")
.join("rustlib")
.join(target.triple)
.join("bin")
.join("self-contained");
fs::create_dir_all(&target_bin_dir).expect("creating target_bin_dir failed");
for src in target_tools {
builder.copy_to_folder(&src, &target_bin_dir);
}
// Warn windows-gnu users that the bundled GCC cannot compile C files
builder.create(
&target_bin_dir.join("GCC-WARNING.txt"),
"gcc.exe contained in this folder cannot be used for compiling C files - it is only \
used as a linker. In order to be able to compile projects containing C code use \
the GCC provided by MinGW or Cygwin.",
);
//Copy platform libs to platform-specific lib directory
let target_lib_dir = plat_root
.join("lib")
.join("rustlib")
.join(target.triple)
.join("lib")
.join("self-contained");
fs::create_dir_all(&target_lib_dir).expect("creating target_lib_dir failed");
for src in target_libs {
builder.copy_to_folder(&src, &target_lib_dir);
}
}
#[derive(Debug, PartialOrd, Ord, Copy, Clone, Hash, PartialEq, Eq)]
pub struct Mingw {
pub host: TargetSelection,
}
impl Step for Mingw {
type Output = Option<GeneratedTarball>;
const DEFAULT: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.alias("rust-mingw")
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(Mingw { host: run.target });
}
/// Builds the `rust-mingw` installer component.
///
/// This contains all the bits and pieces to run the MinGW Windows targets
/// without any extra installed software (e.g., we bundle gcc, libraries, etc).
fn run(self, builder: &Builder<'_>) -> Option<GeneratedTarball> {
let host = self.host;
if !host.ends_with("pc-windows-gnu") || !builder.config.dist_include_mingw_linker {
return None;
}
let mut tarball = Tarball::new(builder, "rust-mingw", &host.triple);
tarball.set_product_name("Rust MinGW");
// The first argument is a "temporary directory" which is just
// thrown away (this contains the runtime DLLs included in the rustc package
// above) and the second argument is where to place all the MinGW components
// (which is what we want).
make_win_dist(&tmpdir(builder), tarball.image_dir(), host, &builder);
Some(tarball.generate())
}
}
#[derive(Debug, PartialOrd, Ord, Copy, Clone, Hash, PartialEq, Eq)]
pub struct Rustc {
pub compiler: Compiler,
}
impl Step for Rustc {
type Output = GeneratedTarball;
const DEFAULT: bool = true;
const ONLY_HOSTS: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.alias("rustc")
}
fn make_run(run: RunConfig<'_>) {
run.builder
.ensure(Rustc { compiler: run.builder.compiler(run.builder.top_stage, run.target) });
}
/// Creates the `rustc` installer component.
fn run(self, builder: &Builder<'_>) -> GeneratedTarball {
let compiler = self.compiler;
let host = self.compiler.host;
let tarball = Tarball::new(builder, "rustc", &host.triple);
// Prepare the rustc "image", what will actually end up getting installed
prepare_image(builder, compiler, tarball.image_dir());
// On MinGW we've got a few runtime DLL dependencies that we need to
// include. The first argument to this script is where to put these DLLs
// (the image we're creating), and the second argument is a junk directory
// to ignore all other MinGW stuff the script creates.
//
// On 32-bit MinGW we're always including a DLL which needs some extra
// licenses to distribute. On 64-bit MinGW we don't actually distribute
// anything requiring us to distribute a license, but it's likely the
// install will *also* include the rust-mingw package, which also needs
// licenses, so to be safe we just include it here in all MinGW packages.
if host.ends_with("pc-windows-gnu") && builder.config.dist_include_mingw_linker {
make_win_dist(tarball.image_dir(), &tmpdir(builder), host, builder);
tarball.add_dir(builder.src.join("src/etc/third-party"), "share/doc");
}
return tarball.generate();
fn prepare_image(builder: &Builder<'_>, compiler: Compiler, image: &Path) {
let host = compiler.host;
let src = builder.sysroot(compiler);
// Copy rustc/rustdoc binaries
t!(fs::create_dir_all(image.join("bin")));
builder.cp_r(&src.join("bin"), &image.join("bin"));
if builder
.config
.tools
.as_ref()
.map_or(true, |tools| tools.iter().any(|tool| tool == "rustdoc"))
{
let rustdoc = builder.rustdoc(compiler);
builder.install(&rustdoc, &image.join("bin"), 0o755);
}
if let Some(ra_proc_macro_srv) = builder.ensure_if_default(
tool::RustAnalyzerProcMacroSrv {
compiler: builder.compiler_for(
compiler.stage,
builder.config.build,
compiler.host,
),
target: compiler.host,
},
builder.kind,
) {
builder.install(&ra_proc_macro_srv, &image.join("libexec"), 0o755);
}
let libdir_relative = builder.libdir_relative(compiler);
// Copy runtime DLLs needed by the compiler
if libdir_relative.to_str() != Some("bin") {
let libdir = builder.rustc_libdir(compiler);
for entry in builder.read_dir(&libdir) {
let name = entry.file_name();
if let Some(s) = name.to_str() {
if is_dylib(s) {
// Don't use custom libdir here because ^lib/ will be resolved again
// with installer
builder.install(&entry.path(), &image.join("lib"), 0o644);
}
}
}
}
// Copy over the codegen backends
let backends_src = builder.sysroot_codegen_backends(compiler);
let backends_rel = backends_src
.strip_prefix(&src)
.unwrap()
.strip_prefix(builder.sysroot_libdir_relative(compiler))
.unwrap();
// Don't use custom libdir here because ^lib/ will be resolved again with installer
let backends_dst = image.join("lib").join(&backends_rel);
t!(fs::create_dir_all(&backends_dst));
builder.cp_r(&backends_src, &backends_dst);
// Copy libLLVM.so to the lib dir as well, if needed. While not
// technically needed by rustc itself it's needed by lots of other
// components like the llvm tools and LLD. LLD is included below and
// tools/LLDB come later, so let's just throw it in the rustc
// component for now.
maybe_install_llvm_runtime(builder, host, image);
let dst_dir = image.join("lib/rustlib").join(&*host.triple).join("bin");
t!(fs::create_dir_all(&dst_dir));
// Copy over lld if it's there
if builder.config.lld_enabled {
let src_dir = builder.sysroot_libdir(compiler, host).parent().unwrap().join("bin");
let rust_lld = exe("rust-lld", compiler.host);
builder.copy(&src_dir.join(&rust_lld), &dst_dir.join(&rust_lld));
// for `-Z gcc-ld=lld`
let gcc_lld_src_dir = src_dir.join("gcc-ld");
let gcc_lld_dst_dir = dst_dir.join("gcc-ld");
t!(fs::create_dir(&gcc_lld_dst_dir));
for name in crate::LLD_FILE_NAMES {
let exe_name = exe(name, compiler.host);
builder
.copy(&gcc_lld_src_dir.join(&exe_name), &gcc_lld_dst_dir.join(&exe_name));
}
}
// Man pages
t!(fs::create_dir_all(image.join("share/man/man1")));
let man_src = builder.src.join("src/doc/man");
let man_dst = image.join("share/man/man1");
// don't use our `bootstrap::util::{copy, cp_r}`, because those try
// to hardlink, and we don't want to edit the source templates
for file_entry in builder.read_dir(&man_src) {
let page_src = file_entry.path();
let page_dst = man_dst.join(file_entry.file_name());
let src_text = t!(std::fs::read_to_string(&page_src));
let new_text = src_text.replace("<INSERT VERSION HERE>", &builder.version);
t!(std::fs::write(&page_dst, &new_text));
t!(fs::copy(&page_src, &page_dst));
}
// Debugger scripts
builder
.ensure(DebuggerScripts { sysroot: INTERNER.intern_path(image.to_owned()), host });
// Misc license info
let cp = |file: &str| {
builder.install(&builder.src.join(file), &image.join("share/doc/rust"), 0o644);
};
cp("COPYRIGHT");
cp("LICENSE-APACHE");
cp("LICENSE-MIT");
cp("README.md");
}
}
}
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
pub struct DebuggerScripts {
pub sysroot: Interned<PathBuf>,
pub host: TargetSelection,
}
impl Step for DebuggerScripts {
type Output = ();
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.never()
}
/// Copies debugger scripts for `target` into the `sysroot` specified.
fn run(self, builder: &Builder<'_>) {
let host = self.host;
let sysroot = self.sysroot;
let dst = sysroot.join("lib/rustlib/etc");
t!(fs::create_dir_all(&dst));
let cp_debugger_script = |file: &str| {
builder.install(&builder.src.join("src/etc/").join(file), &dst, 0o644);
};
if host.contains("windows-msvc") {
// windbg debugger scripts
builder.install(
&builder.src.join("src/etc/rust-windbg.cmd"),
&sysroot.join("bin"),
0o755,
);
cp_debugger_script("natvis/intrinsic.natvis");
cp_debugger_script("natvis/liballoc.natvis");
cp_debugger_script("natvis/libcore.natvis");
cp_debugger_script("natvis/libstd.natvis");
} else {
cp_debugger_script("rust_types.py");
// gdb debugger scripts
builder.install(&builder.src.join("src/etc/rust-gdb"), &sysroot.join("bin"), 0o755);
builder.install(&builder.src.join("src/etc/rust-gdbgui"), &sysroot.join("bin"), 0o755);
cp_debugger_script("gdb_load_rust_pretty_printers.py");
cp_debugger_script("gdb_lookup.py");
cp_debugger_script("gdb_providers.py");
// lldb debugger scripts
builder.install(&builder.src.join("src/etc/rust-lldb"), &sysroot.join("bin"), 0o755);
cp_debugger_script("lldb_lookup.py");
cp_debugger_script("lldb_providers.py");
cp_debugger_script("lldb_commands")
}
}
}
fn skip_host_target_lib(builder: &Builder<'_>, compiler: Compiler) -> bool {
// The only true set of target libraries came from the build triple, so
// let's reduce redundant work by only producing archives from that host.
if compiler.host != builder.config.build {
builder.info("\tskipping, not a build host");
true
} else {
false
}
}
/// Check that all objects in rlibs for UEFI targets are COFF. This
/// ensures that the C compiler isn't producing ELF objects, which would
/// not link correctly with the COFF objects.
fn verify_uefi_rlib_format(builder: &Builder<'_>, target: TargetSelection, stamp: &Path) {
if !target.ends_with("-uefi") {
return;
}
for (path, _) in builder.read_stamp_file(stamp) {
if path.extension() != Some(OsStr::new("rlib")) {
continue;
}
let data = t!(fs::read(&path));
let data = data.as_slice();
let archive = t!(ArchiveFile::parse(data));
for member in archive.members() {
let member = t!(member);
let member_data = t!(member.data(data));
let is_coff = match object::File::parse(member_data) {
Ok(member_file) => member_file.format() == BinaryFormat::Coff,
Err(_) => false,
};
if !is_coff {
let member_name = String::from_utf8_lossy(member.name());
panic!("member {} in {} is not COFF", member_name, path.display());
}
}
}
}
/// Copy stamped files into an image's `target/lib` directory.
fn copy_target_libs(builder: &Builder<'_>, target: TargetSelection, image: &Path, stamp: &Path) {
let dst = image.join("lib/rustlib").join(target.triple).join("lib");
let self_contained_dst = dst.join("self-contained");
t!(fs::create_dir_all(&dst));
t!(fs::create_dir_all(&self_contained_dst));
for (path, dependency_type) in builder.read_stamp_file(stamp) {
if dependency_type == DependencyType::TargetSelfContained {
builder.copy(&path, &self_contained_dst.join(path.file_name().unwrap()));
} else if dependency_type == DependencyType::Target || builder.config.build == target {
builder.copy(&path, &dst.join(path.file_name().unwrap()));
}
}
}
#[derive(Debug, PartialOrd, Ord, Copy, Clone, Hash, PartialEq, Eq)]
pub struct Std {
pub compiler: Compiler,
pub target: TargetSelection,
}
impl Step for Std {
type Output = Option<GeneratedTarball>;
const DEFAULT: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.alias("rust-std")
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(Std {
compiler: run.builder.compiler_for(
run.builder.top_stage,
run.builder.config.build,
run.target,
),
target: run.target,
});
}
fn run(self, builder: &Builder<'_>) -> Option<GeneratedTarball> {
let compiler = self.compiler;
let target = self.target;
if skip_host_target_lib(builder, compiler) {
return None;
}
builder.ensure(compile::Std::new(compiler, target));
let mut tarball = Tarball::new(builder, "rust-std", &target.triple);
tarball.include_target_in_component_name(true);
let compiler_to_use = builder.compiler_for(compiler.stage, compiler.host, target);
let stamp = compile::libstd_stamp(builder, compiler_to_use, target);
verify_uefi_rlib_format(builder, target, &stamp);
copy_target_libs(builder, target, &tarball.image_dir(), &stamp);
Some(tarball.generate())
}
}
#[derive(Debug, PartialOrd, Ord, Copy, Clone, Hash, PartialEq, Eq)]
pub struct RustcDev {
pub compiler: Compiler,
pub target: TargetSelection,
}
impl Step for RustcDev {
type Output = Option<GeneratedTarball>;
const DEFAULT: bool = true;
const ONLY_HOSTS: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.alias("rustc-dev")
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(RustcDev {
compiler: run.builder.compiler_for(
run.builder.top_stage,
run.builder.config.build,
run.target,
),
target: run.target,
});
}
fn run(self, builder: &Builder<'_>) -> Option<GeneratedTarball> {
let compiler = self.compiler;
let target = self.target;
if skip_host_target_lib(builder, compiler) {
return None;
}
builder.ensure(compile::Rustc::new(compiler, target));
let tarball = Tarball::new(builder, "rustc-dev", &target.triple);
let compiler_to_use = builder.compiler_for(compiler.stage, compiler.host, target);
let stamp = compile::librustc_stamp(builder, compiler_to_use, target);
copy_target_libs(builder, target, tarball.image_dir(), &stamp);
let src_files = &["Cargo.lock"];
// This is the reduced set of paths which will become the rustc-dev component
// (essentially the compiler crates and all of their path dependencies).
copy_src_dirs(
builder,
&builder.src,
&["compiler"],
&[],
&tarball.image_dir().join("lib/rustlib/rustc-src/rust"),
);
for file in src_files {
tarball.add_file(builder.src.join(file), "lib/rustlib/rustc-src/rust", 0o644);
}
Some(tarball.generate())
}
}
#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
pub struct Analysis {
pub compiler: Compiler,
pub target: TargetSelection,
}
impl Step for Analysis {
type Output = Option<GeneratedTarball>;
const DEFAULT: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
let default = should_build_extended_tool(&run.builder, "analysis");
run.alias("rust-analysis").default_condition(default)
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(Analysis {
// Find the actual compiler (handling the full bootstrap option) which
// produced the save-analysis data because that data isn't copied
// through the sysroot uplifting.
compiler: run.builder.compiler_for(
run.builder.top_stage,
run.builder.config.build,
run.target,
),
target: run.target,
});
}
/// Creates a tarball of (degenerate) save-analysis metadata, if available.
fn run(self, builder: &Builder<'_>) -> Option<GeneratedTarball> {
let compiler = self.compiler;
let target = self.target;
if compiler.host != builder.config.build {
return None;
}
let src = builder
.stage_out(compiler, Mode::Std)
.join(target.triple)
.join(builder.cargo_dir())
.join("deps")
.join("save-analysis");
// Write a file indicating that this component has been removed.
t!(std::fs::create_dir_all(&src));
let mut removed = src.clone();
removed.push("removed.json");
let mut f = t!(std::fs::File::create(removed));
t!(write!(f, r#"{{ "warning": "The `rust-analysis` component has been removed." }}"#));
let mut tarball = Tarball::new(builder, "rust-analysis", &target.triple);
tarball.include_target_in_component_name(true);
tarball.add_dir(src, format!("lib/rustlib/{}/analysis", target.triple));
Some(tarball.generate())
}
}
/// Use the `builder` to make a filtered copy of `base`/X for X in (`src_dirs` - `exclude_dirs`) to
/// `dst_dir`.
fn copy_src_dirs(
builder: &Builder<'_>,
base: &Path,
src_dirs: &[&str],
exclude_dirs: &[&str],
dst_dir: &Path,
) {
fn filter_fn(exclude_dirs: &[&str], dir: &str, path: &Path) -> bool {
let spath = match path.to_str() {
Some(path) => path,
None => return false,
};
if spath.ends_with('~') || spath.ends_with(".pyc") {
return false;
}
const LLVM_PROJECTS: &[&str] = &[
"llvm-project/clang",
"llvm-project\\clang",
"llvm-project/libunwind",
"llvm-project\\libunwind",
"llvm-project/lld",
"llvm-project\\lld",
"llvm-project/lldb",
"llvm-project\\lldb",
"llvm-project/llvm",
"llvm-project\\llvm",
"llvm-project/compiler-rt",
"llvm-project\\compiler-rt",
"llvm-project/cmake",
"llvm-project\\cmake",
];
if spath.contains("llvm-project")
&& !spath.ends_with("llvm-project")
&& !LLVM_PROJECTS.iter().any(|path| spath.contains(path))
{
return false;
}
const LLVM_TEST: &[&str] = &["llvm-project/llvm/test", "llvm-project\\llvm\\test"];
if LLVM_TEST.iter().any(|path| spath.contains(path))
&& (spath.ends_with(".ll") || spath.ends_with(".td") || spath.ends_with(".s"))
{
return false;
}
let full_path = Path::new(dir).join(path);
if exclude_dirs.iter().any(|excl| full_path == Path::new(excl)) {
return false;
}
let excludes = [
"CVS",
"RCS",
"SCCS",
".git",
".gitignore",
".gitmodules",
".gitattributes",
".cvsignore",
".svn",
".arch-ids",
"{arch}",
"=RELEASE-ID",
"=meta-update",
"=update",
".bzr",
".bzrignore",
".bzrtags",
".hg",
".hgignore",
".hgrags",
"_darcs",
];
!path.iter().map(|s| s.to_str().unwrap()).any(|s| excludes.contains(&s))
}
// Copy the directories using our filter
for item in src_dirs {
let dst = &dst_dir.join(item);
t!(fs::create_dir_all(dst));
builder.cp_filtered(&base.join(item), dst, &|path| filter_fn(exclude_dirs, item, path));
}
}
#[derive(Debug, PartialOrd, Ord, Copy, Clone, Hash, PartialEq, Eq)]
pub struct Src;
impl Step for Src {
/// The output path of the src installer tarball
type Output = GeneratedTarball;
const DEFAULT: bool = true;
const ONLY_HOSTS: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.alias("rust-src")
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(Src);
}
/// Creates the `rust-src` installer component
fn run(self, builder: &Builder<'_>) -> GeneratedTarball {
builder.update_submodule(&Path::new("src/llvm-project"));
let tarball = Tarball::new_targetless(builder, "rust-src");
// A lot of tools expect the rust-src component to be entirely in this directory, so if you
// change that (e.g. by adding another directory `lib/rustlib/src/foo` or
// `lib/rustlib/src/rust/foo`), you will need to go around hunting for implicit assumptions
// and fix them...
//
// NOTE: if you update the paths here, you also should update the "virtual" path
// translation code in `imported_source_files` in `src/librustc_metadata/rmeta/decoder.rs`
let dst_src = tarball.image_dir().join("lib/rustlib/src/rust");
let src_files = ["Cargo.lock"];
// This is the reduced set of paths which will become the rust-src component
// (essentially libstd and all of its path dependencies).
copy_src_dirs(
builder,
&builder.src,
&["library", "src/llvm-project/libunwind"],
&[
// not needed and contains symlinks which rustup currently
// chokes on when unpacking.
"library/backtrace/crates",
// these are 30MB combined and aren't necessary for building
// the standard library.
"library/stdarch/Cargo.toml",
"library/stdarch/crates/stdarch-verify",
"library/stdarch/crates/intrinsic-test",
],
&dst_src,
);
for file in src_files.iter() {
builder.copy(&builder.src.join(file), &dst_src.join(file));
}
tarball.generate()
}
}
#[derive(Debug, PartialOrd, Ord, Copy, Clone, Hash, PartialEq, Eq)]
pub struct PlainSourceTarball;
impl Step for PlainSourceTarball {
/// Produces the location of the tarball generated
type Output = GeneratedTarball;
const DEFAULT: bool = true;
const ONLY_HOSTS: bool = true;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
let builder = run.builder;
run.alias("rustc-src").default_condition(builder.config.rust_dist_src)
}
fn make_run(run: RunConfig<'_>) {
run.builder.ensure(PlainSourceTarball);
}
/// Creates the plain source tarball
fn run(self, builder: &Builder<'_>) -> GeneratedTarball {
// NOTE: This is a strange component in a lot of ways. It uses `src` as the target, which
// means neither rustup nor rustup-toolchain-install-master know how to download it.
// It also contains symbolic links, unlike other any other dist tarball.
// It's used for distros building rustc from source in a pre-vendored environment.
let mut tarball = Tarball::new(builder, "rustc", "src");
tarball.permit_symlinks(true);
let plain_dst_src = tarball.image_dir();
// This is the set of root paths which will become part of the source package
let src_files = [
"COPYRIGHT",
"LICENSE-APACHE",
"LICENSE-MIT",
"CONTRIBUTING.md",
"README.md",
"RELEASES.md",
"configure",
"x.py",
"config.example.toml",
"Cargo.toml",
"Cargo.lock",
];
let src_dirs = ["src", "compiler", "library", "tests"];
copy_src_dirs(builder, &builder.src, &src_dirs, &[], &plain_dst_src);
// Copy the files normally
for item in &src_files {
builder.copy(&builder.src.join(item), &plain_dst_src.join(item));
}
// Create the version file
builder.create(&plain_dst_src.join("version"), &builder.rust_version());
if let Some(info) = builder.rust_info().info() {
channel::write_commit_hash_file(&plain_dst_src, &info.sha);
channel::write_commit_info_file(&plain_dst_src, info);
}
// If we're building from git sources, we need to vendor a complete distribution.
if builder.rust_info().is_managed_git_subrepository() {
// Ensure we have the submodules checked out.
builder.update_submodule(Path::new("src/tools/cargo"));
builder.update_submodule(Path::new("src/tools/rust-analyzer"));