src/bootstrap/cc_detect.rs - third_party/rust - Git at Google

 //! C-compiler probing and detection.
 //!
 //! This module will fill out the `cc` and `cxx` maps of `Build` by looking for
 //! C and C++ compilers for each target configured. A compiler is found through
 //! a number of vectors (in order of precedence)
 //!
 //! 1. Configuration via `target.$target.cc` in `config.toml`.
 //! 2. Configuration via `target.$target.android-ndk` in `config.toml`, if
 //!    applicable
 //! 3. Special logic to probe on OpenBSD
 //! 4. The `CC_$target` environment variable.
 //! 5. The `CC` environment variable.
 //! 6. "cc"
 //!
 //! Some of this logic is implemented here, but much of it is farmed out to the
 //! `cc` crate itself, so we end up having the same fallbacks as there.
 //! Similar logic is then used to find a C++ compiler, just some s/cc/c++/ is
 //! used.
 //!
 //! It is intended that after this module has run no C/C++ compiler will
 //! ever be probed for. Instead the compilers found here will be used for
 //! everything.

 use std::collections::HashSet;
 use std::path::{Path, PathBuf};
 use std::process::Command;
 use std::{env, iter};

 use build_helper::output;

 use crate::cache::Interned;
 use crate::config::Target;
 use crate::{Build, GitRepo};

 // The `cc` crate doesn't provide a way to obtain a path to the detected archiver,
 // so use some simplified logic here. First we respect the environment variable `AR`, then
 // try to infer the archiver path from the C compiler path.
 // In the future this logic should be replaced by calling into the `cc` crate.
 fn cc2ar(cc: &Path, target: &str) -> Option<PathBuf> {
     if let Some(ar) = env::var_os("AR") {
         Some(PathBuf::from(ar))
     } else if target.contains("msvc") {
         None
     } else if target.contains("musl") {
         Some(PathBuf::from("ar"))
     } else if target.contains("openbsd") {
         Some(PathBuf::from("ar"))
     } else if target.contains("vxworks") {
         Some(PathBuf::from("wr-ar"))
     } else {
         let parent = cc.parent().unwrap();
         let file = cc.file_name().unwrap().to_str().unwrap();
         for suffix in &["gcc", "cc", "clang"] {
             if let Some(idx) = file.rfind(suffix) {
                 let mut file = file[..idx].to_owned();
                 file.push_str("ar");
                 return Some(parent.join(&file));
             }
         }
         Some(parent.join(file))
     }
 }

 pub fn find(build: &mut Build) {
     // For all targets we're going to need a C compiler for building some shims
     // and such as well as for being a linker for Rust code.
     let targets = build
         .targets
         .iter()
         .chain(&build.hosts)
         .cloned()
         .chain(iter::once(build.build))
         .collect::<HashSet<_>>();
     for target in targets.into_iter() {
         let mut cfg = cc::Build::new();
         cfg.cargo_metadata(false)
             .opt_level(2)
             .warnings(false)
             .debug(false)
             .target(&target)
             .host(&build.build);
         match build.crt_static(target) {
             Some(a) => {
                 cfg.static_crt(a);
             }
             None => {
                 if target.contains("msvc") {
                     cfg.static_crt(true);
                 }
                 if target.contains("musl") {
                     cfg.static_flag(true);
                 }
             }
         }

         let config = build.config.target_config.get(&target);
         if let Some(cc) = config.and_then(|c| c.cc.as_ref()) {
             cfg.compiler(cc);
         } else {
             set_compiler(&mut cfg, Language::C, target, config, build);
         }

         let compiler = cfg.get_compiler();
         let ar = if let ar @ Some(..) = config.and_then(|c| c.ar.clone()) {
             ar
         } else {
             cc2ar(compiler.path(), &target)
         };

         build.cc.insert(target, compiler);
         let cflags = build.cflags(target, GitRepo::Rustc);

         // If we use llvm-libunwind, we will need a C++ compiler as well for all targets
         // We'll need one anyways if the target triple is also a host triple
         let mut cfg = cc::Build::new();
         cfg.cargo_metadata(false)
             .opt_level(2)
             .warnings(false)
             .debug(false)
             .cpp(true)
             .target(&target)
             .host(&build.build);

         let cxx_configured = if let Some(cxx) = config.and_then(|c| c.cxx.as_ref()) {
             cfg.compiler(cxx);
             true
         } else if build.hosts.contains(&target) || build.build == target {
             set_compiler(&mut cfg, Language::CPlusPlus, target, config, build);
             true
         } else {
             false
         };

         if cxx_configured {
             let compiler = cfg.get_compiler();
             build.cxx.insert(target, compiler);
         }

         build.verbose(&format!("CC_{} = {:?}", &target, build.cc(target)));
         build.verbose(&format!("CFLAGS_{} = {:?}", &target, cflags));
         if let Ok(cxx) = build.cxx(target) {
             build.verbose(&format!("CXX_{} = {:?}", &target, cxx));
             build.verbose(&format!("CXXFLAGS_{} = {:?}", &target, cflags));
         }
         if let Some(ar) = ar {
             build.verbose(&format!("AR_{} = {:?}", &target, ar));
             build.ar.insert(target, ar);
         }
     }
 }

 fn set_compiler(
     cfg: &mut cc::Build,
     compiler: Language,
     target: Interned<String>,
     config: Option<&Target>,
     build: &Build,
 ) {
     match &*target {
         // When compiling for android we may have the NDK configured in the
         // config.toml in which case we look there. Otherwise the default
         // compiler already takes into account the triple in question.
         t if t.contains("android") => {
             if let Some(ndk) = config.and_then(|c| c.ndk.as_ref()) {
                 let target = target
                     .replace("armv7neon", "arm")
                     .replace("armv7", "arm")
                     .replace("thumbv7neon", "arm")
                     .replace("thumbv7", "arm");
                 let compiler = format!("{}-{}", target, compiler.clang());
                 cfg.compiler(ndk.join("bin").join(compiler));
             }
         }

         // The default gcc version from OpenBSD may be too old, try using egcc,
         // which is a gcc version from ports, if this is the case.
         t if t.contains("openbsd") => {
             let c = cfg.get_compiler();
             let gnu_compiler = compiler.gcc();
             if !c.path().ends_with(gnu_compiler) {
                 return;
             }

             let output = output(c.to_command().arg("--version"));
             let i = match output.find(" 4.") {
                 Some(i) => i,
                 None => return,
             };
             match output[i + 3..].chars().next().unwrap() {
                 '0'..='6' => {}
                 _ => return,
             }
             let alternative = format!("e{}", gnu_compiler);
             if Command::new(&alternative).output().is_ok() {
                 cfg.compiler(alternative);
             }
         }

         "mips-unknown-linux-musl" => {
             if cfg.get_compiler().path().to_str() == Some("gcc") {
                 cfg.compiler("mips-linux-musl-gcc");
             }
         }
         "mipsel-unknown-linux-musl" => {
             if cfg.get_compiler().path().to_str() == Some("gcc") {
                 cfg.compiler("mipsel-linux-musl-gcc");
             }
         }

         t if t.contains("musl") => {
             if let Some(root) = build.musl_root(target) {
                 let guess = root.join("bin/musl-gcc");
                 if guess.exists() {
                     cfg.compiler(guess);
                 }
             }
         }

         _ => {}
     }
 }

 /// The target programming language for a native compiler.
 enum Language {
     /// The compiler is targeting C.
     C,
     /// The compiler is targeting C++.
     CPlusPlus,
 }

 impl Language {
     /// Obtains the name of a compiler in the GCC collection.
     fn gcc(self) -> &'static str {
         match self {
             Language::C => "gcc",
             Language::CPlusPlus => "g++",
         }
     }

     /// Obtains the name of a compiler in the clang suite.
     fn clang(self) -> &'static str {
         match self {
             Language::C => "clang",
             Language::CPlusPlus => "clang++",
         }
     }
 }
	//! C-compiler probing and detection.
	//!
	//! This module will fill out the `cc` and `cxx` maps of `Build` by looking for
	//! C and C++ compilers for each target configured. A compiler is found through
	//! a number of vectors (in order of precedence)
	//!
	//! 1. Configuration via `target.$target.cc` in `config.toml`.
	//! 2. Configuration via `target.$target.android-ndk` in `config.toml`, if
	//! applicable
	//! 3. Special logic to probe on OpenBSD
	//! 4. The `CC_$target` environment variable.
	//! 5. The `CC` environment variable.
	//! 6. "cc"
	//!
	//! Some of this logic is implemented here, but much of it is farmed out to the
	//! `cc` crate itself, so we end up having the same fallbacks as there.
	//! Similar logic is then used to find a C++ compiler, just some s/cc/c++/ is
	//! used.
	//!
	//! It is intended that after this module has run no C/C++ compiler will
	//! ever be probed for. Instead the compilers found here will be used for
	//! everything.

	use std::collections::HashSet;
	use std::path::{Path, PathBuf};
	use std::process::Command;
	use std::{env, iter};

	use build_helper::output;

	use crate::cache::Interned;
	use crate::config::Target;
	use crate::{Build, GitRepo};

	// The `cc` crate doesn't provide a way to obtain a path to the detected archiver,
	// so use some simplified logic here. First we respect the environment variable `AR`, then
	// try to infer the archiver path from the C compiler path.
	// In the future this logic should be replaced by calling into the `cc` crate.
	fn cc2ar(cc: &Path, target: &str) -> Option<PathBuf> {
	if let Some(ar) = env::var_os("AR") {
	Some(PathBuf::from(ar))
	} else if target.contains("msvc") {
	None
	} else if target.contains("musl") {
	Some(PathBuf::from("ar"))
	} else if target.contains("openbsd") {
	Some(PathBuf::from("ar"))
	} else if target.contains("vxworks") {
	Some(PathBuf::from("wr-ar"))
	} else {
	let parent = cc.parent().unwrap();
	let file = cc.file_name().unwrap().to_str().unwrap();
	for suffix in &["gcc", "cc", "clang"] {
	if let Some(idx) = file.rfind(suffix) {
	let mut file = file[..idx].to_owned();
	file.push_str("ar");
	return Some(parent.join(&file));
	}
	}
	Some(parent.join(file))
	}
	}

	pub fn find(build: &mut Build) {
	// For all targets we're going to need a C compiler for building some shims
	// and such as well as for being a linker for Rust code.
	let targets = build
	.targets
	.iter()
	.chain(&build.hosts)
	.cloned()
	.chain(iter::once(build.build))
	.collect::<HashSet<_>>();
	for target in targets.into_iter() {
	let mut cfg = cc::Build::new();
	cfg.cargo_metadata(false)
	.opt_level(2)
	.warnings(false)
	.debug(false)
	.target(&target)
	.host(&build.build);
	match build.crt_static(target) {
	Some(a) => {
	cfg.static_crt(a);
	}
	None => {
	if target.contains("msvc") {
	cfg.static_crt(true);
	}
	if target.contains("musl") {
	cfg.static_flag(true);
	}
	}
	}

	let config = build.config.target_config.get(&target);
	if let Some(cc) = config.and_then(\|c\| c.cc.as_ref()) {
	cfg.compiler(cc);
	} else {
	set_compiler(&mut cfg, Language::C, target, config, build);
	}

	let compiler = cfg.get_compiler();
	let ar = if let ar @ Some(..) = config.and_then(\|c\| c.ar.clone()) {
	ar
	} else {
	cc2ar(compiler.path(), &target)
	};

	build.cc.insert(target, compiler);
	let cflags = build.cflags(target, GitRepo::Rustc);

	// If we use llvm-libunwind, we will need a C++ compiler as well for all targets
	// We'll need one anyways if the target triple is also a host triple
	let mut cfg = cc::Build::new();
	cfg.cargo_metadata(false)
	.opt_level(2)
	.warnings(false)
	.debug(false)
	.cpp(true)
	.target(&target)
	.host(&build.build);

	let cxx_configured = if let Some(cxx) = config.and_then(\|c\| c.cxx.as_ref()) {
	cfg.compiler(cxx);
	true
	} else if build.hosts.contains(&target) \|\| build.build == target {
	set_compiler(&mut cfg, Language::CPlusPlus, target, config, build);
	true
	} else {
	false
	};

	if cxx_configured {
	let compiler = cfg.get_compiler();
	build.cxx.insert(target, compiler);
	}

	build.verbose(&format!("CC_{} = {:?}", &target, build.cc(target)));
	build.verbose(&format!("CFLAGS_{} = {:?}", &target, cflags));
	if let Ok(cxx) = build.cxx(target) {
	build.verbose(&format!("CXX_{} = {:?}", &target, cxx));
	build.verbose(&format!("CXXFLAGS_{} = {:?}", &target, cflags));
	}
	if let Some(ar) = ar {
	build.verbose(&format!("AR_{} = {:?}", &target, ar));
	build.ar.insert(target, ar);
	}
	}
	}

	fn set_compiler(
	cfg: &mut cc::Build,
	compiler: Language,
	target: Interned<String>,
	config: Option<&Target>,
	build: &Build,
	) {
	match &*target {
	// When compiling for android we may have the NDK configured in the
	// config.toml in which case we look there. Otherwise the default
	// compiler already takes into account the triple in question.
	t if t.contains("android") => {
	if let Some(ndk) = config.and_then(\|c\| c.ndk.as_ref()) {
	let target = target
	.replace("armv7neon", "arm")
	.replace("armv7", "arm")
	.replace("thumbv7neon", "arm")
	.replace("thumbv7", "arm");
	let compiler = format!("{}-{}", target, compiler.clang());
	cfg.compiler(ndk.join("bin").join(compiler));
	}
	}

	// The default gcc version from OpenBSD may be too old, try using egcc,
	// which is a gcc version from ports, if this is the case.
	t if t.contains("openbsd") => {
	let c = cfg.get_compiler();
	let gnu_compiler = compiler.gcc();
	if !c.path().ends_with(gnu_compiler) {
	return;
	}

	let output = output(c.to_command().arg("--version"));
	let i = match output.find(" 4.") {
	Some(i) => i,
	None => return,
	};
	match output[i + 3..].chars().next().unwrap() {
	'0'..='6' => {}
	_ => return,
	}
	let alternative = format!("e{}", gnu_compiler);
	if Command::new(&alternative).output().is_ok() {
	cfg.compiler(alternative);
	}
	}

	"mips-unknown-linux-musl" => {
	if cfg.get_compiler().path().to_str() == Some("gcc") {
	cfg.compiler("mips-linux-musl-gcc");
	}
	}
	"mipsel-unknown-linux-musl" => {
	if cfg.get_compiler().path().to_str() == Some("gcc") {
	cfg.compiler("mipsel-linux-musl-gcc");
	}
	}

	t if t.contains("musl") => {
	if let Some(root) = build.musl_root(target) {
	let guess = root.join("bin/musl-gcc");
	if guess.exists() {
	cfg.compiler(guess);
	}
	}
	}

	_ => {}
	}
	}

	/// The target programming language for a native compiler.
	enum Language {
	/// The compiler is targeting C.
	C,
	/// The compiler is targeting C++.
	CPlusPlus,
	}

	impl Language {
	/// Obtains the name of a compiler in the GCC collection.
	fn gcc(self) -> &'static str {
	match self {
	Language::C => "gcc",
	Language::CPlusPlus => "g++",
	}
	}

	/// Obtains the name of a compiler in the clang suite.
	fn clang(self) -> &'static str {
	match self {
	Language::C => "clang",
	Language::CPlusPlus => "clang++",
	}
	}
	}