// Copyright 2015 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! Sanity checking performed by rustbuild before actually executing anything. //! //! This module contains the implementation of ensuring that the build //! environment looks reasonable before progressing. This will verify that //! various programs like git and python exist, along with ensuring that all C //! compilers for cross-compiling are found. //! //! In theory if we get past this phase it's a bug if a build fails, but in //! practice that's likely not true! use std::collections::HashMap; use std::env; use std::ffi::{OsString, OsStr}; use std::fs; use std::path::PathBuf; use std::process::Command; use build_helper::output; use Build; struct Finder { cache: HashMap>, path: OsString, } impl Finder { fn new() -> Self { Self { cache: HashMap::new(), path: env::var_os("PATH").unwrap_or_default() } } fn maybe_have>(&mut self, cmd: S) -> Option { let cmd: OsString = cmd.as_ref().into(); let path = self.path.clone(); self.cache.entry(cmd.clone()).or_insert_with(|| { for path in env::split_paths(&path) { let target = path.join(&cmd); let mut cmd_alt = cmd.clone(); cmd_alt.push(".exe"); if target.is_file() || // some/path/git target.with_extension("exe").exists() || // some/path/git.exe target.join(&cmd_alt).exists() { // some/path/git/git.exe return Some(target); } } None }).clone() } fn must_have>(&mut self, cmd: S) -> PathBuf { self.maybe_have(&cmd).unwrap_or_else(|| { panic!("\n\ncouldn't find required command: {:?}\n\n", cmd.as_ref()); }) } } pub fn check(build: &mut Build) { let path = env::var_os("PATH").unwrap_or_default(); // On Windows, quotes are invalid characters for filename paths, and if // one is present as part of the PATH then that can lead to the system // being unable to identify the files properly. See // https://github.com/rust-lang/rust/issues/34959 for more details. if cfg!(windows) && path.to_string_lossy().contains('\"') { panic!("PATH contains invalid character '\"'"); } let mut cmd_finder = Finder::new(); // If we've got a git directory we're gonna need git to update // submodules and learn about various other aspects. if build.rust_info.is_git() { cmd_finder.must_have("git"); } // We need cmake, but only if we're actually building LLVM or sanitizers. let building_llvm = build.hosts.iter() .filter_map(|host| build.config.target_config.get(host)) .any(|config| config.llvm_config.is_none()); if building_llvm || build.config.sanitizers { cmd_finder.must_have("cmake"); } // Ninja is currently only used for LLVM itself. if building_llvm { if build.config.ninja { // Some Linux distros rename `ninja` to `ninja-build`. // CMake can work with either binary name. if cmd_finder.maybe_have("ninja-build").is_none() { cmd_finder.must_have("ninja"); } } // If ninja isn't enabled but we're building for MSVC then we try // doubly hard to enable it. It was realized in #43767 that the msbuild // CMake generator for MSVC doesn't respect configuration options like // disabling LLVM assertions, which can often be quite important! // // In these cases we automatically enable Ninja if we find it in the // environment. if !build.config.ninja && build.config.build.contains("msvc") { if cmd_finder.maybe_have("ninja").is_some() { build.config.ninja = true; } } } build.config.python = build.config.python.take().map(|p| cmd_finder.must_have(p)) .or_else(|| env::var_os("BOOTSTRAP_PYTHON").map(PathBuf::from)) // set by bootstrap.py .or_else(|| cmd_finder.maybe_have("python2.7")) .or_else(|| cmd_finder.maybe_have("python2")) .or_else(|| Some(cmd_finder.must_have("python"))); build.config.nodejs = build.config.nodejs.take().map(|p| cmd_finder.must_have(p)) .or_else(|| cmd_finder.maybe_have("node")) .or_else(|| cmd_finder.maybe_have("nodejs")); build.config.gdb = build.config.gdb.take().map(|p| cmd_finder.must_have(p)) .or_else(|| cmd_finder.maybe_have("gdb")); // We're gonna build some custom C code here and there, host triples // also build some C++ shims for LLVM so we need a C++ compiler. for target in &build.targets { // On emscripten we don't actually need the C compiler to just // build the target artifacts, only for testing. For the sake // of easier bot configuration, just skip detection. if target.contains("emscripten") { continue; } if !build.config.dry_run { cmd_finder.must_have(build.cc(*target)); if let Some(ar) = build.ar(*target) { cmd_finder.must_have(ar); } } } for host in &build.hosts { if !build.config.dry_run { cmd_finder.must_have(build.cxx(*host).unwrap()); } } // Externally configured LLVM requires FileCheck to exist let filecheck = build.llvm_filecheck(build.build); if !filecheck.starts_with(&build.out) && !filecheck.exists() && build.config.codegen_tests { panic!("FileCheck executable {:?} does not exist", filecheck); } for target in &build.targets { // Can't compile for iOS unless we're on macOS if target.contains("apple-ios") && !build.build.contains("apple-darwin") { panic!("the iOS target is only supported on macOS"); } if target.contains("-none-") { if build.no_std(*target).is_none() { let target = build.config.target_config.entry(target.clone()) .or_default(); target.no_std = true; } if build.no_std(*target) == Some(false) { panic!("All the *-none-* targets are no-std targets") } } // Make sure musl-root is valid if target.contains("musl") { // If this is a native target (host is also musl) and no musl-root is given, // fall back to the system toolchain in /usr before giving up if build.musl_root(*target).is_none() && build.config.build == *target { let target = build.config.target_config.entry(target.clone()) .or_default(); target.musl_root = Some("/usr".into()); } match build.musl_root(*target) { Some(root) => { if fs::metadata(root.join("lib/libc.a")).is_err() { panic!("couldn't find libc.a in musl dir: {}", root.join("lib").display()); } if fs::metadata(root.join("lib/libunwind.a")).is_err() { panic!("couldn't find libunwind.a in musl dir: {}", root.join("lib").display()); } } None => { panic!("when targeting MUSL either the rust.musl-root \ option or the target.$TARGET.musl-root option must \ be specified in config.toml") } } } if target.contains("msvc") { // There are three builds of cmake on windows: MSVC, MinGW, and // Cygwin. The Cygwin build does not have generators for Visual // Studio, so detect that here and error. let out = output(Command::new("cmake").arg("--help")); if !out.contains("Visual Studio") { panic!(" cmake does not support Visual Studio generators. This is likely due to it being an msys/cygwin build of cmake, rather than the required windows version, built using MinGW or Visual Studio. If you are building under msys2 try installing the mingw-w64-x86_64-cmake package instead of cmake: $ pacman -R cmake && pacman -S mingw-w64-x86_64-cmake "); } } } if let Some(ref s) = build.config.ccache { cmd_finder.must_have(s); } if build.config.channel == "stable" { let stage0 = t!(fs::read_to_string(build.src.join("src/stage0.txt"))); if stage0.contains("\ndev:") { panic!("bootstrapping from a dev compiler in a stable release, but \ should only be bootstrapping from a released compiler!"); } } }