//! A module for searching for libraries use rustc_fs_util::try_canonicalize; use smallvec::{smallvec, SmallVec}; use std::env; use std::fs; use std::path::{Path, PathBuf}; use crate::search_paths::{PathKind, SearchPath}; use rustc_fs_util::fix_windows_verbatim_for_gcc; #[derive(Copy, Clone)] pub enum FileMatch { FileMatches, FileDoesntMatch, } #[derive(Clone)] pub struct FileSearch<'a> { sysroot: &'a Path, triple: &'a str, search_paths: &'a [SearchPath], tlib_path: &'a SearchPath, kind: PathKind, } impl<'a> FileSearch<'a> { pub fn search_paths(&self) -> impl Iterator { let kind = self.kind; self.search_paths .iter() .filter(move |sp| sp.kind.matches(kind)) .chain(std::iter::once(self.tlib_path)) } pub fn get_lib_path(&self) -> PathBuf { make_target_lib_path(self.sysroot, self.triple) } pub fn get_self_contained_lib_path(&self) -> PathBuf { self.get_lib_path().join("self-contained") } pub fn new( sysroot: &'a Path, triple: &'a str, search_paths: &'a [SearchPath], tlib_path: &'a SearchPath, kind: PathKind, ) -> FileSearch<'a> { debug!("using sysroot = {}, triple = {}", sysroot.display(), triple); FileSearch { sysroot, triple, search_paths, tlib_path, kind } } /// Returns just the directories within the search paths. pub fn search_path_dirs(&self) -> Vec { self.search_paths().map(|sp| sp.dir.to_path_buf()).collect() } } pub fn make_target_lib_path(sysroot: &Path, target_triple: &str) -> PathBuf { let rustlib_path = rustc_target::target_rustlib_path(sysroot, target_triple); PathBuf::from_iter([sysroot, Path::new(&rustlib_path), Path::new("lib")]) } #[cfg(unix)] fn current_dll_path() -> Result { use std::ffi::{CStr, OsStr}; use std::os::unix::prelude::*; #[cfg(not(target_os = "aix"))] unsafe { let addr = current_dll_path as usize as *mut _; let mut info = std::mem::zeroed(); if libc::dladdr(addr, &mut info) == 0 { return Err("dladdr failed".into()); } if info.dli_fname.is_null() { return Err("dladdr returned null pointer".into()); } let bytes = CStr::from_ptr(info.dli_fname).to_bytes(); let os = OsStr::from_bytes(bytes); Ok(PathBuf::from(os)) } #[cfg(target_os = "aix")] unsafe { // On AIX, the symbol `current_dll_path` references a function descriptor. // A function descriptor is consisted of (See https://reviews.llvm.org/D62532) // * The address of the entry point of the function. // * The TOC base address for the function. // * The environment pointer. // The function descriptor is in the data section. let addr = current_dll_path as u64; let mut buffer = vec![std::mem::zeroed::(); 64]; loop { if libc::loadquery( libc::L_GETINFO, buffer.as_mut_ptr() as *mut i8, (std::mem::size_of::() * buffer.len()) as u32, ) >= 0 { break; } else { if std::io::Error::last_os_error().raw_os_error().unwrap() != libc::ENOMEM { return Err("loadquery failed".into()); } buffer.resize(buffer.len() * 2, std::mem::zeroed::()); } } let mut current = buffer.as_mut_ptr() as *mut libc::ld_info; loop { let data_base = (*current).ldinfo_dataorg as u64; let data_end = data_base + (*current).ldinfo_datasize; if (data_base..data_end).contains(&addr) { let bytes = CStr::from_ptr(&(*current).ldinfo_filename[0]).to_bytes(); let os = OsStr::from_bytes(bytes); return Ok(PathBuf::from(os)); } if (*current).ldinfo_next == 0 { break; } current = (current as *mut i8).offset((*current).ldinfo_next as isize) as *mut libc::ld_info; } return Err(format!("current dll's address {} is not in the load map", addr)); } } #[cfg(windows)] fn current_dll_path() -> Result { use std::ffi::OsString; use std::io; use std::os::windows::prelude::*; use windows::{ core::PCWSTR, Win32::Foundation::HMODULE, Win32::System::LibraryLoader::{ GetModuleFileNameW, GetModuleHandleExW, GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS, }, }; let mut module = HMODULE::default(); unsafe { GetModuleHandleExW( GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS, PCWSTR(current_dll_path as *mut u16), &mut module, ) } .ok() .map_err(|e| e.to_string())?; let mut filename = vec![0; 1024]; let n = unsafe { GetModuleFileNameW(module, &mut filename) } as usize; if n == 0 { return Err(format!("GetModuleFileNameW failed: {}", io::Error::last_os_error())); } if n >= filename.capacity() { return Err(format!("our buffer was too small? {}", io::Error::last_os_error())); } filename.truncate(n); Ok(OsString::from_wide(&filename).into()) } pub fn sysroot_candidates() -> SmallVec<[PathBuf; 2]> { let target = crate::config::host_triple(); let mut sysroot_candidates: SmallVec<[PathBuf; 2]> = smallvec![get_or_default_sysroot().expect("Failed finding sysroot")]; let path = current_dll_path().and_then(|s| try_canonicalize(s).map_err(|e| e.to_string())); if let Ok(dll) = path { // use `parent` twice to chop off the file name and then also the // directory containing the dll which should be either `lib` or `bin`. if let Some(path) = dll.parent().and_then(|p| p.parent()) { // The original `path` pointed at the `rustc_driver` crate's dll. // Now that dll should only be in one of two locations. The first is // in the compiler's libdir, for example `$sysroot/lib/*.dll`. The // other is the target's libdir, for example // `$sysroot/lib/rustlib/$target/lib/*.dll`. // // We don't know which, so let's assume that if our `path` above // ends in `$target` we *could* be in the target libdir, and always // assume that we may be in the main libdir. sysroot_candidates.push(path.to_owned()); if path.ends_with(target) { sysroot_candidates.extend( path.parent() // chop off `$target` .and_then(|p| p.parent()) // chop off `rustlib` .and_then(|p| p.parent()) // chop off `lib` .map(|s| s.to_owned()), ); } } } return sysroot_candidates; } /// This function checks if sysroot is found using env::args().next(), and if it /// is not found, finds sysroot from current rustc_driver dll. pub fn get_or_default_sysroot() -> Result { // Follow symlinks. If the resolved path is relative, make it absolute. fn canonicalize(path: PathBuf) -> PathBuf { let path = try_canonicalize(&path).unwrap_or(path); // See comments on this target function, but the gist is that // gcc chokes on verbatim paths which fs::canonicalize generates // so we try to avoid those kinds of paths. fix_windows_verbatim_for_gcc(&path) } fn default_from_rustc_driver_dll() -> Result { let dll = current_dll_path().map(|s| canonicalize(s))?; // `dll` will be in one of the following two: // - compiler's libdir: $sysroot/lib/*.dll // - target's libdir: $sysroot/lib/rustlib/$target/lib/*.dll // // use `parent` twice to chop off the file name and then also the // directory containing the dll let dir = dll.parent().and_then(|p| p.parent()).ok_or(format!( "Could not move 2 levels upper using `parent()` on {}", dll.display() ))?; // if `dir` points target's dir, move up to the sysroot let mut sysroot_dir = if dir.ends_with(crate::config::host_triple()) { dir.parent() // chop off `$target` .and_then(|p| p.parent()) // chop off `rustlib` .and_then(|p| p.parent()) // chop off `lib` .map(|s| s.to_owned()) .ok_or_else(|| { format!("Could not move 3 levels upper using `parent()` on {}", dir.display()) })? } else { dir.to_owned() }; // On multiarch linux systems, there will be multiarch directory named // with the architecture(e.g `x86_64-linux-gnu`) under the `lib` directory. // Which cause us to mistakenly end up in the lib directory instead of the sysroot directory. if sysroot_dir.ends_with("lib") { sysroot_dir = sysroot_dir.parent().map(|real_sysroot| real_sysroot.to_owned()).ok_or_else( || format!("Could not move to parent path of {}", sysroot_dir.display()), )? } Ok(sysroot_dir) } // Use env::args().next() to get the path of the executable without // following symlinks/canonicalizing any component. This makes the rustc // binary able to locate Rust libraries in systems using content-addressable // storage (CAS). fn from_env_args_next() -> Option { match env::args_os().next() { Some(first_arg) => { let mut p = PathBuf::from(first_arg); // Check if sysroot is found using env::args().next() only if the rustc in argv[0] // is a symlink (see #79253). We might want to change/remove it to conform with // https://www.gnu.org/prep/standards/standards.html#Finding-Program-Files in the // future. if fs::read_link(&p).is_err() { // Path is not a symbolic link or does not exist. return None; } // Pop off `bin/rustc`, obtaining the suspected sysroot. p.pop(); p.pop(); // Look for the target rustlib directory in the suspected sysroot. let mut rustlib_path = rustc_target::target_rustlib_path(&p, "dummy"); rustlib_path.pop(); // pop off the dummy target. rustlib_path.exists().then_some(p) } None => None, } } Ok(from_env_args_next().unwrap_or(default_from_rustc_driver_dll()?)) }