use crate::config::{set_config, ConfigInfo}; use crate::utils::{ get_gcc_path, run_command, run_command_with_output_and_env, walk_dir, }; use std::collections::HashMap; use std::ffi::OsStr; use std::fs; use std::path::Path; #[derive(Default)] struct BuildArg { codegen_release_channel: bool, sysroot_release_channel: bool, sysroot_panic_abort: bool, flags: Vec, gcc_path: String, } impl BuildArg { fn new() -> Result, String> { let gcc_path = get_gcc_path()?; let mut build_arg = Self { gcc_path, ..Default::default() }; // We skip binary name and the `build` command. let mut args = std::env::args().skip(2); while let Some(arg) = args.next() { match arg.as_str() { "--release" => build_arg.codegen_release_channel = true, "--release-sysroot" => build_arg.sysroot_release_channel = true, "--no-default-features" => { build_arg.flags.push("--no-default-features".to_string()); } "--sysroot-panic-abort" => { build_arg.sysroot_panic_abort = true; }, "--features" => { if let Some(arg) = args.next() { build_arg.flags.push("--features".to_string()); build_arg.flags.push(arg.as_str().into()); } else { return Err( "Expected a value after `--features`, found nothing".to_string() ); } } "--help" => { Self::usage(); return Ok(None); } "--target-triple" => { if args.next().is_some() { // Handled in config.rs. } else { return Err( "Expected a value after `--target-triple`, found nothing".to_string() ); } } "--target" => { if args.next().is_some() { // Handled in config.rs. } else { return Err( "Expected a value after `--target`, found nothing".to_string() ); } } arg => return Err(format!("Unknown argument `{}`", arg)), } } Ok(Some(build_arg)) } fn usage() { println!( r#" `build` command help: --release : Build codegen in release mode --release-sysroot : Build sysroot in release mode --sysroot-panic-abort : Build the sysroot without unwinding support. --no-default-features : Add `--no-default-features` flag --features [arg] : Add a new feature [arg] --target-triple [arg] : Set the target triple to [arg] --help : Show this help "# ) } } fn build_sysroot( env: &mut HashMap, args: &BuildArg, config: &ConfigInfo, ) -> Result<(), String> { std::env::set_current_dir("build_sysroot") .map_err(|error| format!("Failed to go to `build_sysroot` directory: {:?}", error))?; // Cleanup for previous run // Clean target dir except for build scripts and incremental cache let _ = walk_dir( "target", |dir: &Path| { for top in &["debug", "release"] { let _ = fs::remove_dir_all(dir.join(top).join("build")); let _ = fs::remove_dir_all(dir.join(top).join("deps")); let _ = fs::remove_dir_all(dir.join(top).join("examples")); let _ = fs::remove_dir_all(dir.join(top).join("native")); let _ = walk_dir( dir.join(top), |sub_dir: &Path| { if sub_dir .file_name() .map(|filename| filename.to_str().unwrap().starts_with("libsysroot")) .unwrap_or(false) { let _ = fs::remove_dir_all(sub_dir); } Ok(()) }, |file: &Path| { if file .file_name() .map(|filename| filename.to_str().unwrap().starts_with("libsysroot")) .unwrap_or(false) { let _ = fs::remove_file(file); } Ok(()) }, ); } Ok(()) }, |_| Ok(()), ); let _ = fs::remove_file("Cargo.lock"); let _ = fs::remove_file("test_target/Cargo.lock"); let _ = fs::remove_dir_all("sysroot"); // Builds libs let mut rustflags = env .get("RUSTFLAGS") .cloned() .unwrap_or_default(); if args.sysroot_panic_abort { rustflags.push_str(" -Cpanic=abort -Zpanic-abort-tests"); } env.insert( "RUSTFLAGS".to_string(), format!("{} -Zmir-opt-level=3", rustflags), ); let channel = if args.sysroot_release_channel { run_command_with_output_and_env( &[ &"cargo", &"build", &"--target", &config.target, &"--release", ], None, Some(&env), )?; "release" } else { run_command_with_output_and_env( &[ &"cargo", &"build", &"--target", &config.target, ], None, Some(env), )?; "debug" }; // Copy files to sysroot let sysroot_path = format!("sysroot/lib/rustlib/{}/lib/", config.target_triple); fs::create_dir_all(&sysroot_path) .map_err(|error| format!("Failed to create directory `{}`: {:?}", sysroot_path, error))?; let copier = |dir_to_copy: &Path| { run_command(&[&"cp", &"-r", &dir_to_copy, &sysroot_path], None).map(|_| ()) }; walk_dir( &format!("target/{}/{}/deps", config.target_triple, channel), copier, copier, )?; Ok(()) } fn build_codegen(args: &BuildArg) -> Result<(), String> { let mut env = HashMap::new(); env.insert("LD_LIBRARY_PATH".to_string(), args.gcc_path.clone()); env.insert("LIBRARY_PATH".to_string(), args.gcc_path.clone()); let mut command: Vec<&dyn AsRef> = vec![&"cargo", &"rustc"]; if args.codegen_release_channel { command.push(&"--release"); env.insert("CHANNEL".to_string(), "release".to_string()); env.insert("CARGO_INCREMENTAL".to_string(), "1".to_string()); } else { env.insert("CHANNEL".to_string(), "debug".to_string()); } let flags = args.flags.iter().map(|s| s.as_str()).collect::>(); for flag in &flags { command.push(flag); } run_command_with_output_and_env(&command, None, Some(&env))?; let config = set_config(&mut env, &[], Some(&args.gcc_path))?; // We voluntarily ignore the error. let _ = fs::remove_dir_all("target/out"); let gccjit_target = "target/out/gccjit"; fs::create_dir_all(gccjit_target).map_err(|error| { format!( "Failed to create directory `{}`: {:?}", gccjit_target, error ) })?; println!("[BUILD] sysroot"); build_sysroot( &mut env, args, &config, )?; Ok(()) } pub fn run() -> Result<(), String> { let args = match BuildArg::new()? { Some(args) => args, None => return Ok(()), }; build_codegen(&args)?; Ok(()) }