// Copyright 2012-2014 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. #![allow(non_camel_case_types)] use std::cell::RefCell; use std::collections::HashSet; use std::io::fs::PathExtensions; use std::io::fs; use std::os; use util::fs as myfs; pub enum FileMatch { FileMatches, FileDoesntMatch } // A module for searching for libraries // FIXME (#2658): I'm not happy how this module turned out. Should // probably just be folded into cstore. /// Functions with type `pick` take a parent directory as well as /// a file found in that directory. pub type pick<'a> = |path: &Path|: 'a -> FileMatch; pub struct FileSearch<'a> { pub sysroot: &'a Path, pub addl_lib_search_paths: &'a RefCell>, pub triple: &'a str, } impl<'a> FileSearch<'a> { pub fn for_each_lib_search_path(&self, f: |&Path| -> FileMatch) { let mut visited_dirs = HashSet::new(); let mut found = false; debug!("filesearch: searching additional lib search paths [{}]", self.addl_lib_search_paths.borrow().len()); for path in self.addl_lib_search_paths.borrow().iter() { match f(path) { FileMatches => found = true, FileDoesntMatch => () } visited_dirs.insert(path.as_vec().to_vec()); } debug!("filesearch: searching lib path"); let tlib_path = make_target_lib_path(self.sysroot, self.triple); if !visited_dirs.contains_equiv(&tlib_path.as_vec()) { match f(&tlib_path) { FileMatches => found = true, FileDoesntMatch => () } } visited_dirs.insert(tlib_path.as_vec().to_vec()); // Try RUST_PATH if !found { let rustpath = rust_path(); for path in rustpath.iter() { let tlib_path = make_rustpkg_lib_path( self.sysroot, path, self.triple); debug!("is {} in visited_dirs? {}", tlib_path.display(), visited_dirs.contains_equiv(&tlib_path.as_vec().to_vec())); if !visited_dirs.contains_equiv(&tlib_path.as_vec()) { visited_dirs.insert(tlib_path.as_vec().to_vec()); // Don't keep searching the RUST_PATH if one match turns up -- // if we did, we'd get a "multiple matching crates" error match f(&tlib_path) { FileMatches => { break; } FileDoesntMatch => () } } } } } pub fn get_lib_path(&self) -> Path { make_target_lib_path(self.sysroot, self.triple) } pub fn search(&self, pick: pick) { self.for_each_lib_search_path(|lib_search_path| { debug!("searching {}", lib_search_path.display()); match fs::readdir(lib_search_path) { Ok(files) => { let mut rslt = FileDoesntMatch; fn is_rlib(p: & &Path) -> bool { p.extension_str() == Some("rlib") } // Reading metadata out of rlibs is faster, and if we find both // an rlib and a dylib we only read one of the files of // metadata, so in the name of speed, bring all rlib files to // the front of the search list. let files1 = files.iter().filter(|p| is_rlib(p)); let files2 = files.iter().filter(|p| !is_rlib(p)); for path in files1.chain(files2) { debug!("testing {}", path.display()); let maybe_picked = pick(path); match maybe_picked { FileMatches => { debug!("picked {}", path.display()); rslt = FileMatches; } FileDoesntMatch => { debug!("rejected {}", path.display()); } } } rslt } Err(..) => FileDoesntMatch, } }); } pub fn new(sysroot: &'a Path, triple: &'a str, addl_lib_search_paths: &'a RefCell>) -> FileSearch<'a> { debug!("using sysroot = {}, triple = {}", sysroot.display(), triple); FileSearch { sysroot: sysroot, addl_lib_search_paths: addl_lib_search_paths, triple: triple, } } // Returns a list of directories where target-specific dylibs might be located. pub fn get_dylib_search_paths(&self) -> Vec { let mut paths = Vec::new(); self.for_each_lib_search_path(|lib_search_path| { paths.push(lib_search_path.clone()); FileDoesntMatch }); paths } // Returns a list of directories where target-specific tool binaries are located. pub fn get_tools_search_paths(&self) -> Vec { let mut p = Path::new(self.sysroot); p.push(find_libdir(self.sysroot)); p.push(rustlibdir()); p.push(self.triple); let mut p1 = p.clone(); p1.push("bin"); let mut p2 = p.clone(); p2.push("gcc"); p2.push("bin"); vec![p1, p2] } } pub fn relative_target_lib_path(sysroot: &Path, target_triple: &str) -> Path { let mut p = Path::new(find_libdir(sysroot)); assert!(p.is_relative()); p.push(rustlibdir()); p.push(target_triple); p.push("lib"); p } fn make_target_lib_path(sysroot: &Path, target_triple: &str) -> Path { sysroot.join(&relative_target_lib_path(sysroot, target_triple)) } fn make_rustpkg_lib_path(sysroot: &Path, dir: &Path, triple: &str) -> Path { let mut p = dir.join(find_libdir(sysroot)); p.push(triple); p } pub fn get_or_default_sysroot() -> Path { // Follow symlinks. If the resolved path is relative, make it absolute. fn canonicalize(path: Option) -> Option { path.and_then(|path| match myfs::realpath(&path) { Ok(canon) => Some(canon), Err(e) => panic!("failed to get realpath: {}", e), }) } match canonicalize(os::self_exe_name()) { Some(mut p) => { p.pop(); p.pop(); p } None => panic!("can't determine value for sysroot") } } #[cfg(windows)] static PATH_ENTRY_SEPARATOR: &'static str = ";"; #[cfg(not(windows))] static PATH_ENTRY_SEPARATOR: &'static str = ":"; /// Returns RUST_PATH as a string, without default paths added pub fn get_rust_path() -> Option { os::getenv("RUST_PATH").map(|x| x.to_string()) } /// Returns the value of RUST_PATH, as a list /// of Paths. Includes default entries for, if they exist: /// $HOME/.rust /// DIR/.rust for any DIR that's the current working directory /// or an ancestor of it pub fn rust_path() -> Vec { let mut env_rust_path: Vec = match get_rust_path() { Some(env_path) => { let env_path_components = env_path.as_slice().split_str(PATH_ENTRY_SEPARATOR); env_path_components.map(|s| Path::new(s)).collect() } None => Vec::new() }; let mut cwd = os::getcwd(); // now add in default entries let cwd_dot_rust = cwd.join(".rust"); if !env_rust_path.contains(&cwd_dot_rust) { env_rust_path.push(cwd_dot_rust); } if !env_rust_path.contains(&cwd) { env_rust_path.push(cwd.clone()); } loop { if { let f = cwd.filename(); f.is_none() || f.unwrap() == b".." } { break } cwd.set_filename(".rust"); if !env_rust_path.contains(&cwd) && cwd.exists() { env_rust_path.push(cwd.clone()); } cwd.pop(); } let h = os::homedir(); for h in h.iter() { let p = h.join(".rust"); if !env_rust_path.contains(&p) && p.exists() { env_rust_path.push(p); } } env_rust_path } // The name of the directory rustc expects libraries to be located. // On Unix should be "lib", on windows "bin" #[cfg(unix)] fn find_libdir(sysroot: &Path) -> String { // FIXME: This is a quick hack to make the rustc binary able to locate // Rust libraries in Linux environments where libraries might be installed // to lib64/lib32. This would be more foolproof by basing the sysroot off // of the directory where librustc is located, rather than where the rustc // binary is. if sysroot.join(primary_libdir_name()).join(rustlibdir()).exists() { return primary_libdir_name(); } else { return secondary_libdir_name(); } #[cfg(target_word_size = "64")] fn primary_libdir_name() -> String { "lib64".to_string() } #[cfg(target_word_size = "32")] fn primary_libdir_name() -> String { "lib32".to_string() } fn secondary_libdir_name() -> String { "lib".to_string() } } #[cfg(windows)] fn find_libdir(_sysroot: &Path) -> String { "bin".to_string() } // The name of rustc's own place to organize libraries. // Used to be "rustc", now the default is "rustlib" pub fn rustlibdir() -> String { "rustlib".to_string() }