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#![allow(non_camel_case_types)]

pub use self::FileMatch::*;

use std::borrow::Cow;
use std::env;
use std::fs;
use std::path::{Path, PathBuf};

use crate::search_paths::{PathKind, SearchPath, SearchPathFile};
use rustc_fs_util::fix_windows_verbatim_for_gcc;
use tracing::debug;

#[derive(Copy, Clone)]
pub enum FileMatch {
    FileMatches,
    FileDoesntMatch,
}

// A module for searching for libraries

#[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<Item = &'a SearchPath> {
        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 search<F>(&self, mut pick: F)
    where
        F: FnMut(&SearchPathFile, PathKind) -> FileMatch,
    {
        for search_path in self.search_paths() {
            debug!("searching {}", search_path.dir.display());
            fn is_rlib(spf: &SearchPathFile) -> bool {
                if let Some(f) = &spf.file_name_str { f.ends_with(".rlib") } else { false }
            }
            // 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 = search_path.files.iter().filter(|spf| is_rlib(&spf));
            let files2 = search_path.files.iter().filter(|spf| !is_rlib(&spf));
            for spf in files1.chain(files2) {
                debug!("testing {}", spf.path.display());
                let maybe_picked = pick(spf, search_path.kind);
                match maybe_picked {
                    FileMatches => {
                        debug!("picked {}", spf.path.display());
                    }
                    FileDoesntMatch => {
                        debug!("rejected {}", spf.path.display());
                    }
                }
            }
        }
    }

    pub fn new(
        sysroot: &'a Path,
        triple: &'a str,
        search_paths: &'a Vec<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<PathBuf> {
        self.search_paths().map(|sp| sp.dir.to_path_buf()).collect()
    }

    // Returns a list of directories where target-specific tool binaries are located.
    pub fn get_tools_search_paths(&self, self_contained: bool) -> Vec<PathBuf> {
        let mut p = PathBuf::from(self.sysroot);
        p.push(find_libdir(self.sysroot).as_ref());
        p.push(RUST_LIB_DIR);
        p.push(&self.triple);
        p.push("bin");
        if self_contained { vec![p.clone(), p.join("self-contained")] } else { vec![p] }
    }
}

pub fn relative_target_lib_path(sysroot: &Path, target_triple: &str) -> PathBuf {
    let mut p = PathBuf::from(find_libdir(sysroot).as_ref());
    assert!(p.is_relative());
    p.push(RUST_LIB_DIR);
    p.push(target_triple);
    p.push("lib");
    p
}

pub fn make_target_lib_path(sysroot: &Path, target_triple: &str) -> PathBuf {
    sysroot.join(&relative_target_lib_path(sysroot, target_triple))
}

pub fn get_or_default_sysroot() -> PathBuf {
    // Follow symlinks.  If the resolved path is relative, make it absolute.
    fn canonicalize(path: PathBuf) -> PathBuf {
        let path = fs::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)
    }

    match env::current_exe() {
        Ok(exe) => {
            let mut p = canonicalize(exe);
            p.pop();
            p.pop();
            p
        }
        Err(e) => panic!("failed to get current_exe: {}", e),
    }
}

// The name of the directory rustc expects libraries to be located.
fn find_libdir(sysroot: &Path) -> Cow<'static, str> {
    // 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_driver` is located, rather than
    // where the rustc binary is.
    // If --libdir is set during configuration to the value other than
    // "lib" (i.e., non-default), this value is used (see issue #16552).

    #[cfg(target_pointer_width = "64")]
    const PRIMARY_LIB_DIR: &str = "lib64";

    #[cfg(target_pointer_width = "32")]
    const PRIMARY_LIB_DIR: &str = "lib32";

    const SECONDARY_LIB_DIR: &str = "lib";

    match option_env!("CFG_LIBDIR_RELATIVE") {
        Some(libdir) if libdir != "lib" => libdir.into(),
        _ => {
            if sysroot.join(PRIMARY_LIB_DIR).join(RUST_LIB_DIR).exists() {
                PRIMARY_LIB_DIR.into()
            } else {
                SECONDARY_LIB_DIR.into()
            }
        }
    }
}

// The name of rustc's own place to organize libraries.
// Used to be "rustc", now the default is "rustlib"
const RUST_LIB_DIR: &str = "rustlib";