use pathdiff::diff_paths; use rustc_data_structures::fx::FxHashSet; use std::env; use std::fs; use std::path::{Path, PathBuf}; use rustc_hir::def_id::CrateNum; use rustc_middle::middle::cstore::LibSource; pub struct RPathConfig<'a> { pub used_crates: &'a [(CrateNum, LibSource)], pub out_filename: PathBuf, pub is_like_osx: bool, pub has_rpath: bool, pub linker_is_gnu: bool, pub get_install_prefix_lib_path: &'a mut dyn FnMut() -> PathBuf, } pub fn get_rpath_flags(config: &mut RPathConfig<'_>) -> Vec { // No rpath on windows if !config.has_rpath { return Vec::new(); } debug!("preparing the RPATH!"); let libs = config.used_crates.clone(); let libs = libs.iter().filter_map(|&(_, ref l)| l.option()).collect::>(); let rpaths = get_rpaths(config, &libs); let mut flags = rpaths_to_flags(&rpaths); // Use DT_RUNPATH instead of DT_RPATH if available if config.linker_is_gnu { flags.push("-Wl,--enable-new-dtags".to_owned()); } flags } fn rpaths_to_flags(rpaths: &[String]) -> Vec { let mut ret = Vec::with_capacity(rpaths.len()); // the minimum needed capacity for rpath in rpaths { if rpath.contains(',') { ret.push("-Wl,-rpath".into()); ret.push("-Xlinker".into()); ret.push(rpath.clone()); } else { ret.push(format!("-Wl,-rpath,{}", &(*rpath))); } } ret } fn get_rpaths(config: &mut RPathConfig<'_>, libs: &[PathBuf]) -> Vec { debug!("output: {:?}", config.out_filename.display()); debug!("libs:"); for libpath in libs { debug!(" {:?}", libpath.display()); } // Use relative paths to the libraries. Binaries can be moved // as long as they maintain the relative relationship to the // crates they depend on. let rel_rpaths = get_rpaths_relative_to_output(config, libs); // And a final backup rpath to the global library location. let fallback_rpaths = vec![get_install_prefix_rpath(config)]; fn log_rpaths(desc: &str, rpaths: &[String]) { debug!("{} rpaths:", desc); for rpath in rpaths { debug!(" {}", *rpath); } } log_rpaths("relative", &rel_rpaths); log_rpaths("fallback", &fallback_rpaths); let mut rpaths = rel_rpaths; rpaths.extend_from_slice(&fallback_rpaths); // Remove duplicates minimize_rpaths(&rpaths) } fn get_rpaths_relative_to_output(config: &mut RPathConfig<'_>, libs: &[PathBuf]) -> Vec { libs.iter().map(|a| get_rpath_relative_to_output(config, a)).collect() } fn get_rpath_relative_to_output(config: &mut RPathConfig<'_>, lib: &Path) -> String { // Mac doesn't appear to support $ORIGIN let prefix = if config.is_like_osx { "@loader_path" } else { "$ORIGIN" }; let cwd = env::current_dir().unwrap(); let mut lib = fs::canonicalize(&cwd.join(lib)).unwrap_or_else(|_| cwd.join(lib)); lib.pop(); // strip filename let mut output = cwd.join(&config.out_filename); output.pop(); // strip filename let output = fs::canonicalize(&output).unwrap_or(output); let relative = path_relative_from(&lib, &output) .unwrap_or_else(|| panic!("couldn't create relative path from {:?} to {:?}", output, lib)); // FIXME (#9639): This needs to handle non-utf8 paths format!("{}/{}", prefix, relative.to_str().expect("non-utf8 component in path")) } // This routine is adapted from the *old* Path's `path_relative_from` // function, which works differently from the new `relative_from` function. // In particular, this handles the case on unix where both paths are // absolute but with only the root as the common directory. fn path_relative_from(path: &Path, base: &Path) -> Option { diff_paths(path, base) } fn get_install_prefix_rpath(config: &mut RPathConfig<'_>) -> String { let path = (config.get_install_prefix_lib_path)(); let path = env::current_dir().unwrap().join(&path); // FIXME (#9639): This needs to handle non-utf8 paths path.to_str().expect("non-utf8 component in rpath").to_owned() } fn minimize_rpaths(rpaths: &[String]) -> Vec { let mut set = FxHashSet::default(); let mut minimized = Vec::new(); for rpath in rpaths { if set.insert(rpath) { minimized.push(rpath.clone()); } } minimized } #[cfg(all(unix, test))] mod tests;