src/bootstrap/setup.rs - third_party/github.com/rust-lang/rust - Git at Google

 use crate::TargetSelection;
 use crate::{t, VERSION};
 use std::fmt::Write as _;
 use std::path::{Path, PathBuf};
 use std::process::Command;
 use std::str::FromStr;
 use std::{
     env, fmt, fs,
     io::{self, Write},
 };

 #[derive(Clone, Copy, Eq, PartialEq)]
 pub enum Profile {
     Compiler,
     Codegen,
     Library,
     Tools,
     User,
 }

 impl Profile {
     fn include_path(&self, src_path: &Path) -> PathBuf {
         PathBuf::from(format!("{}/src/bootstrap/defaults/config.{}.toml", src_path.display(), self))
     }

     pub fn all() -> impl Iterator<Item = Self> {
         use Profile::*;
         // N.B. these are ordered by how they are displayed, not alphabetically
         [Library, Compiler, Codegen, Tools, User].iter().copied()
     }

     pub fn purpose(&self) -> String {
         use Profile::*;
         match self {
             Library => "Contribute to the standard library",
             Compiler => "Contribute to the compiler itself",
             Codegen => "Contribute to the compiler, and also modify LLVM or codegen",
             Tools => "Contribute to tools which depend on the compiler, but do not modify it directly (e.g. rustdoc, clippy, miri)",
             User => "Install Rust from source",
         }
         .to_string()
     }

     pub fn all_for_help(indent: &str) -> String {
         let mut out = String::new();
         for choice in Profile::all() {
             writeln!(&mut out, "{}{}: {}", indent, choice, choice.purpose()).unwrap();
         }
         out
     }
 }

 impl FromStr for Profile {
     type Err = String;

     fn from_str(s: &str) -> Result<Self, Self::Err> {
         match s {
             "lib" | "library" => Ok(Profile::Library),
             "compiler" => Ok(Profile::Compiler),
             "llvm" | "codegen" => Ok(Profile::Codegen),
             "maintainer" | "user" => Ok(Profile::User),
             "tools" | "tool" | "rustdoc" | "clippy" | "miri" | "rustfmt" | "rls" => {
                 Ok(Profile::Tools)
             }
             _ => Err(format!("unknown profile: '{}'", s)),
         }
     }
 }

 impl fmt::Display for Profile {
     fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
         match self {
             Profile::Compiler => write!(f, "compiler"),
             Profile::Codegen => write!(f, "codegen"),
             Profile::Library => write!(f, "library"),
             Profile::User => write!(f, "user"),
             Profile::Tools => write!(f, "tools"),
         }
     }
 }

 pub fn setup(src_path: &Path, profile: Profile) {
     let cfg_file = env::var_os("BOOTSTRAP_CONFIG").map(PathBuf::from);

     if cfg_file.as_ref().map_or(false, |f| f.exists()) {
         let file = cfg_file.unwrap();
         println!(
             "error: you asked `x.py` to setup a new config file, but one already exists at `{}`",
             file.display()
         );
         println!("help: try adding `profile = \"{}\"` at the top of {}", profile, file.display());
         println!(
             "note: this will use the configuration in {}",
             profile.include_path(src_path).display()
         );
         std::process::exit(1);
     }

     let path = cfg_file.unwrap_or_else(|| "config.toml".into());
     let settings = format!(
         "# Includes one of the default files in src/bootstrap/defaults\n\
     profile = \"{}\"\n\
     changelog-seen = {}\n",
         profile, VERSION
     );
     t!(fs::write(path, settings));

     let include_path = profile.include_path(src_path);
     println!("`x.py` will now use the configuration at {}", include_path.display());

     let build = TargetSelection::from_user(&env!("BUILD_TRIPLE"));
     let stage_path = ["build", build.rustc_target_arg(), "stage1"].join("/");

     println!();

     if !rustup_installed() && profile != Profile::User {
         println!("`rustup` is not installed; cannot link `stage1` toolchain");
     } else if stage_dir_exists(&stage_path[..]) {
         attempt_toolchain_link(&stage_path[..]);
     }

     let suggestions = match profile {
         Profile::Codegen | Profile::Compiler => &["check", "build", "test"][..],
         Profile::Tools => &[
             "check",
             "build",
             "test src/test/rustdoc*",
             "test src/tools/clippy",
             "test src/tools/miri",
             "test src/tools/rustfmt",
         ],
         Profile::Library => &["check", "build", "test library/std", "doc"],
         Profile::User => &["dist", "build"],
     };

     println!();

     t!(install_git_hook_maybe(src_path));

     println!();

     println!("To get started, try one of the following commands:");
     for cmd in suggestions {
         println!("- `x.py {}`", cmd);
     }

     if profile != Profile::User {
         println!(
             "For more suggestions, see https://rustc-dev-guide.rust-lang.org/building/suggested.html"
         );
     }
 }

 fn rustup_installed() -> bool {
     Command::new("rustup")
         .arg("--version")
         .stdout(std::process::Stdio::null())
         .output()
         .map_or(false, |output| output.status.success())
 }

 fn stage_dir_exists(stage_path: &str) -> bool {
     match fs::create_dir(&stage_path[..]) {
         Ok(_) => true,
         Err(_) => Path::new(&stage_path[..]).exists(),
     }
 }

 fn attempt_toolchain_link(stage_path: &str) {
     if toolchain_is_linked() {
         return;
     }

     if try_link_toolchain(&stage_path[..]) {
         println!(
             "Added `stage1` rustup toolchain; try `cargo +stage1 build` on a separate rust project to run a newly-built toolchain"
         );
     } else {
         println!("`rustup` failed to link stage 1 build to `stage1` toolchain");
         println!(
             "To manually link stage 1 build to `stage1` toolchain, run:\n
             `rustup toolchain link stage1 {}`",
             &stage_path[..]
         );
     }
 }

 fn toolchain_is_linked() -> bool {
     match Command::new("rustup")
         .args(&["toolchain", "list"])
         .stdout(std::process::Stdio::piped())
         .output()
     {
         Ok(toolchain_list) => {
             if !String::from_utf8_lossy(&toolchain_list.stdout).contains("stage1") {
                 return false;
             }
             // The toolchain has already been linked.
             println!(
                 "`stage1` toolchain already linked; not attempting to link `stage1` toolchain"
             );
         }
         Err(_) => {
             // In this case, we don't know if the `stage1` toolchain has been linked;
             // but `rustup` failed, so let's not go any further.
             println!(
                 "`rustup` failed to list current toolchains; not attempting to link `stage1` toolchain"
             );
         }
     }
     true
 }

 fn try_link_toolchain(stage_path: &str) -> bool {
     Command::new("rustup")
         .stdout(std::process::Stdio::null())
         .args(&["toolchain", "link", "stage1", &stage_path[..]])
         .output()
         .map_or(false, |output| output.status.success())
 }

 // Used to get the path for `Subcommand::Setup`
 pub fn interactive_path() -> io::Result<Profile> {
     fn abbrev_all() -> impl Iterator<Item = ((String, String), Profile)> {
         ('a'..)
             .zip(1..)
             .map(|(letter, number)| (letter.to_string(), number.to_string()))
             .zip(Profile::all())
     }

     fn parse_with_abbrev(input: &str) -> Result<Profile, String> {
         let input = input.trim().to_lowercase();
         for ((letter, number), profile) in abbrev_all() {
             if input == letter || input == number {
                 return Ok(profile);
             }
         }
         input.parse()
     }

     println!("Welcome to the Rust project! What do you want to do with x.py?");
     for ((letter, _), profile) in abbrev_all() {
         println!("{}) {}: {}", letter, profile, profile.purpose());
     }
     let template = loop {
         print!(
             "Please choose one ({}): ",
             abbrev_all().map(|((l, _), _)| l).collect::<Vec<_>>().join("/")
         );
         io::stdout().flush()?;
         let mut input = String::new();
         io::stdin().read_line(&mut input)?;
         if input.is_empty() {
             eprintln!("EOF on stdin, when expecting answer to question.  Giving up.");
             std::process::exit(1);
         }
         break match parse_with_abbrev(&input) {
             Ok(profile) => profile,
             Err(err) => {
                 println!("error: {}", err);
                 println!("note: press Ctrl+C to exit");
                 continue;
             }
         };
     };
     Ok(template)
 }

 // install a git hook to automatically run tidy --bless, if they want
 fn install_git_hook_maybe(src_path: &Path) -> io::Result<()> {
     let mut input = String::new();
     println!(
         "Rust's CI will automatically fail if it doesn't pass `tidy`, the internal tool for ensuring code quality.
 If you'd like, x.py can install a git hook for you that will automatically run `tidy --bless` on each commit
 to ensure your code is up to par. If you decide later that this behavior is undesirable,
 simply delete the `pre-commit` file from .git/hooks."
     );

     let should_install = loop {
         print!("Would you like to install the git hook?: [y/N] ");
         io::stdout().flush()?;
         input.clear();
         io::stdin().read_line(&mut input)?;
         break match input.trim().to_lowercase().as_str() {
             "y" | "yes" => true,
             "n" | "no" | "" => false,
             _ => {
                 println!("error: unrecognized option '{}'", input.trim());
                 println!("note: press Ctrl+C to exit");
                 continue;
             }
         };
     };

     if should_install {
         let src = src_path.join("src").join("etc").join("pre-commit.sh");
         let git = t!(Command::new("git").args(&["rev-parse", "--git-common-dir"]).output().map(
             |output| {
                 assert!(output.status.success(), "failed to run `git`");
                 PathBuf::from(t!(String::from_utf8(output.stdout)).trim())
             }
         ));
         let dst = git.join("hooks").join("pre-commit");
         match fs::hard_link(src, &dst) {
             Err(e) => println!(
                 "error: could not create hook {}: do you already have the git hook installed?\n{}",
                 dst.display(),
                 e
             ),
             Ok(_) => println!("Linked `src/etc/pre-commit.sh` to `.git/hooks/pre-commit`"),
         };
     } else {
         println!("Ok, skipping installation!");
     }
     Ok(())
 }
	use crate::TargetSelection;
	use crate::{t, VERSION};
	use std::fmt::Write as _;
	use std::path::{Path, PathBuf};
	use std::process::Command;
	use std::str::FromStr;
	use std::{
	env, fmt, fs,
	io::{self, Write},
	};

	#[derive(Clone, Copy, Eq, PartialEq)]
	pub enum Profile {
	Compiler,
	Codegen,
	Library,
	Tools,
	User,
	}

	impl Profile {
	fn include_path(&self, src_path: &Path) -> PathBuf {
	PathBuf::from(format!("{}/src/bootstrap/defaults/config.{}.toml", src_path.display(), self))
	}

	pub fn all() -> impl Iterator<Item = Self> {
	use Profile::*;
	// N.B. these are ordered by how they are displayed, not alphabetically
	[Library, Compiler, Codegen, Tools, User].iter().copied()
	}

	pub fn purpose(&self) -> String {
	use Profile::*;
	match self {
	Library => "Contribute to the standard library",
	Compiler => "Contribute to the compiler itself",
	Codegen => "Contribute to the compiler, and also modify LLVM or codegen",
	Tools => "Contribute to tools which depend on the compiler, but do not modify it directly (e.g. rustdoc, clippy, miri)",
	User => "Install Rust from source",
	}
	.to_string()
	}

	pub fn all_for_help(indent: &str) -> String {
	let mut out = String::new();
	for choice in Profile::all() {
	writeln!(&mut out, "{}{}: {}", indent, choice, choice.purpose()).unwrap();
	}
	out
	}
	}

	impl FromStr for Profile {
	type Err = String;

	fn from_str(s: &str) -> Result<Self, Self::Err> {
	match s {
	"lib" \| "library" => Ok(Profile::Library),
	"compiler" => Ok(Profile::Compiler),
	"llvm" \| "codegen" => Ok(Profile::Codegen),
	"maintainer" \| "user" => Ok(Profile::User),
	"tools" \| "tool" \| "rustdoc" \| "clippy" \| "miri" \| "rustfmt" \| "rls" => {
	Ok(Profile::Tools)
	}
	_ => Err(format!("unknown profile: '{}'", s)),
	}
	}
	}

	impl fmt::Display for Profile {
	fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
	match self {
	Profile::Compiler => write!(f, "compiler"),
	Profile::Codegen => write!(f, "codegen"),
	Profile::Library => write!(f, "library"),
	Profile::User => write!(f, "user"),
	Profile::Tools => write!(f, "tools"),
	}
	}
	}

	pub fn setup(src_path: &Path, profile: Profile) {
	let cfg_file = env::var_os("BOOTSTRAP_CONFIG").map(PathBuf::from);

	if cfg_file.as_ref().map_or(false, \|f\| f.exists()) {
	let file = cfg_file.unwrap();
	println!(
	"error: you asked `x.py` to setup a new config file, but one already exists at `{}`",
	file.display()
	);
	println!("help: try adding `profile = \"{}\"` at the top of {}", profile, file.display());
	println!(
	"note: this will use the configuration in {}",
	profile.include_path(src_path).display()
	);
	std::process::exit(1);
	}

	let path = cfg_file.unwrap_or_else(\|\| "config.toml".into());
	let settings = format!(
	"# Includes one of the default files in src/bootstrap/defaults\n\
	profile = \"{}\"\n\
	changelog-seen = {}\n",
	profile, VERSION
	);
	t!(fs::write(path, settings));

	let include_path = profile.include_path(src_path);
	println!("`x.py` will now use the configuration at {}", include_path.display());

	let build = TargetSelection::from_user(&env!("BUILD_TRIPLE"));
	let stage_path = ["build", build.rustc_target_arg(), "stage1"].join("/");

	println!();

	if !rustup_installed() && profile != Profile::User {
	println!("`rustup` is not installed; cannot link `stage1` toolchain");
	} else if stage_dir_exists(&stage_path[..]) {
	attempt_toolchain_link(&stage_path[..]);
	}

	let suggestions = match profile {
	Profile::Codegen \| Profile::Compiler => &["check", "build", "test"][..],
	Profile::Tools => &[
	"check",
	"build",
	"test src/test/rustdoc*",
	"test src/tools/clippy",
	"test src/tools/miri",
	"test src/tools/rustfmt",
	],
	Profile::Library => &["check", "build", "test library/std", "doc"],
	Profile::User => &["dist", "build"],
	};

	println!();

	t!(install_git_hook_maybe(src_path));

	println!();

	println!("To get started, try one of the following commands:");
	for cmd in suggestions {
	println!("- `x.py {}`", cmd);
	}

	if profile != Profile::User {
	println!(
	"For more suggestions, see https://rustc-dev-guide.rust-lang.org/building/suggested.html"
	);
	}
	}

	fn rustup_installed() -> bool {
	Command::new("rustup")
	.arg("--version")
	.stdout(std::process::Stdio::null())
	.output()
	.map_or(false, \|output\| output.status.success())
	}

	fn stage_dir_exists(stage_path: &str) -> bool {
	match fs::create_dir(&stage_path[..]) {
	Ok(_) => true,
	Err(_) => Path::new(&stage_path[..]).exists(),
	}
	}

	fn attempt_toolchain_link(stage_path: &str) {
	if toolchain_is_linked() {
	return;
	}

	if try_link_toolchain(&stage_path[..]) {
	println!(
	"Added `stage1` rustup toolchain; try `cargo +stage1 build` on a separate rust project to run a newly-built toolchain"
	);
	} else {
	println!("`rustup` failed to link stage 1 build to `stage1` toolchain");
	println!(
	"To manually link stage 1 build to `stage1` toolchain, run:\n
	`rustup toolchain link stage1 {}`",
	&stage_path[..]
	);
	}
	}

	fn toolchain_is_linked() -> bool {
	match Command::new("rustup")
	.args(&["toolchain", "list"])
	.stdout(std::process::Stdio::piped())
	.output()
	{
	Ok(toolchain_list) => {
	if !String::from_utf8_lossy(&toolchain_list.stdout).contains("stage1") {
	return false;
	}
	// The toolchain has already been linked.
	println!(
	"`stage1` toolchain already linked; not attempting to link `stage1` toolchain"
	);
	}
	Err(_) => {
	// In this case, we don't know if the `stage1` toolchain has been linked;
	// but `rustup` failed, so let's not go any further.
	println!(
	"`rustup` failed to list current toolchains; not attempting to link `stage1` toolchain"
	);
	}
	}
	true
	}

	fn try_link_toolchain(stage_path: &str) -> bool {
	Command::new("rustup")
	.stdout(std::process::Stdio::null())
	.args(&["toolchain", "link", "stage1", &stage_path[..]])
	.output()
	.map_or(false, \|output\| output.status.success())
	}

	// Used to get the path for `Subcommand::Setup`
	pub fn interactive_path() -> io::Result<Profile> {
	fn abbrev_all() -> impl Iterator<Item = ((String, String), Profile)> {
	('a'..)
	.zip(1..)
	.map(\|(letter, number)\| (letter.to_string(), number.to_string()))
	.zip(Profile::all())
	}

	fn parse_with_abbrev(input: &str) -> Result<Profile, String> {
	let input = input.trim().to_lowercase();
	for ((letter, number), profile) in abbrev_all() {
	if input == letter \|\| input == number {
	return Ok(profile);
	}
	}
	input.parse()
	}

	println!("Welcome to the Rust project! What do you want to do with x.py?");
	for ((letter, _), profile) in abbrev_all() {
	println!("{}) {}: {}", letter, profile, profile.purpose());
	}
	let template = loop {
	print!(
	"Please choose one ({}): ",
	abbrev_all().map(\|((l, _), _)\| l).collect::<Vec<_>>().join("/")
	);
	io::stdout().flush()?;
	let mut input = String::new();
	io::stdin().read_line(&mut input)?;
	if input.is_empty() {
	eprintln!("EOF on stdin, when expecting answer to question. Giving up.");
	std::process::exit(1);
	}
	break match parse_with_abbrev(&input) {
	Ok(profile) => profile,
	Err(err) => {
	println!("error: {}", err);
	println!("note: press Ctrl+C to exit");
	continue;
	}
	};
	};
	Ok(template)
	}

	// install a git hook to automatically run tidy --bless, if they want
	fn install_git_hook_maybe(src_path: &Path) -> io::Result<()> {
	let mut input = String::new();
	println!(
	"Rust's CI will automatically fail if it doesn't pass `tidy`, the internal tool for ensuring code quality.
	If you'd like, x.py can install a git hook for you that will automatically run `tidy --bless` on each commit
	to ensure your code is up to par. If you decide later that this behavior is undesirable,
	simply delete the `pre-commit` file from .git/hooks."
	);

	let should_install = loop {
	print!("Would you like to install the git hook?: [y/N] ");
	io::stdout().flush()?;
	input.clear();
	io::stdin().read_line(&mut input)?;
	break match input.trim().to_lowercase().as_str() {
	"y" \| "yes" => true,
	"n" \| "no" \| "" => false,
	_ => {
	println!("error: unrecognized option '{}'", input.trim());
	println!("note: press Ctrl+C to exit");
	continue;
	}
	};
	};

	if should_install {
	let src = src_path.join("src").join("etc").join("pre-commit.sh");
	let git = t!(Command::new("git").args(&["rev-parse", "--git-common-dir"]).output().map(
	\|output\| {
	assert!(output.status.success(), "failed to run `git`");
	PathBuf::from(t!(String::from_utf8(output.stdout)).trim())
	}
	));
	let dst = git.join("hooks").join("pre-commit");
	match fs::hard_link(src, &dst) {
	Err(e) => println!(
	"error: could not create hook {}: do you already have the git hook installed?\n{}",
	dst.display(),
	e
	),
	Ok(_) => println!("Linked `src/etc/pre-commit.sh` to `.git/hooks/pre-commit`"),
	};
	} else {
	println!("Ok, skipping installation!");
	}
	Ok(())
	}