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// SPDX-License-Identifier: Apache-2.0
use std::env;
use std::fs::File;
use std::io::{self, Error, ErrorKind, Read, Seek, SeekFrom};
use std::path::{Path, PathBuf};
use super::common;
//================================================
// Validation
//================================================
/// Extracts the ELF class from the ELF header in a shared library.
fn parse_elf_header(path: &Path) -> io::Result<u8> {
let mut file = File::open(path)?;
let mut buffer = [0; 5];
file.read_exact(&mut buffer)?;
if buffer[..4] == [127, 69, 76, 70] {
Ok(buffer[4])
} else {
Err(Error::new(ErrorKind::InvalidData, "invalid ELF header"))
}
}
/// Extracts the magic number from the PE header in a shared library.
fn parse_pe_header(path: &Path) -> io::Result<u16> {
let mut file = File::open(path)?;
// Extract the header offset.
let mut buffer = [0; 4];
let start = SeekFrom::Start(0x3C);
file.seek(start)?;
file.read_exact(&mut buffer)?;
let offset = i32::from_le_bytes(buffer);
// Check the validity of the header.
file.seek(SeekFrom::Start(offset as u64))?;
file.read_exact(&mut buffer)?;
if buffer != [80, 69, 0, 0] {
return Err(Error::new(ErrorKind::InvalidData, "invalid PE header"));
}
// Extract the magic number.
let mut buffer = [0; 2];
file.seek(SeekFrom::Current(20))?;
file.read_exact(&mut buffer)?;
Ok(u16::from_le_bytes(buffer))
}
/// Checks that a `libclang` shared library matches the target platform.
fn validate_library(path: &Path) -> Result<(), String> {
if target_os!("linux") || target_os!("freebsd") {
let class = parse_elf_header(path).map_err(|e| e.to_string())?;
if target_pointer_width!("32") && class != 1 {
return Err("invalid ELF class (64-bit)".into());
}
if target_pointer_width!("64") && class != 2 {
return Err("invalid ELF class (32-bit)".into());
}
Ok(())
} else if target_os!("windows") {
let magic = parse_pe_header(path).map_err(|e| e.to_string())?;
if target_pointer_width!("32") && magic != 267 {
return Err("invalid DLL (64-bit)".into());
}
if target_pointer_width!("64") && magic != 523 {
return Err("invalid DLL (32-bit)".into());
}
Ok(())
} else {
Ok(())
}
}
//================================================
// Searching
//================================================
/// Extracts the version components in a `libclang` shared library filename.
fn parse_version(filename: &str) -> Vec<u32> {
let version = if let Some(version) = filename.strip_prefix("libclang.so.") {
version
} else if filename.starts_with("libclang-") {
&filename[9..filename.len() - 3]
} else {
return vec![];
};
version.split('.').map(|s| s.parse().unwrap_or(0)).collect()
}
/// Finds `libclang` shared libraries and returns the paths to, filenames of,
/// and versions of those shared libraries.
fn search_libclang_directories(runtime: bool) -> Result<Vec<(PathBuf, String, Vec<u32>)>, String> {
let mut files = vec![format!(
"{}clang{}",
env::consts::DLL_PREFIX,
env::consts::DLL_SUFFIX
)];
if target_os!("linux") {
// Some Linux distributions don't create a `libclang.so` symlink, so we
// need to look for versioned files (e.g., `libclang-3.9.so`).
files.push("libclang-*.so".into());
// Some Linux distributions don't create a `libclang.so` symlink and
// don't have versioned files as described above, so we need to look for
// suffix versioned files (e.g., `libclang.so.1`). However, `ld` cannot
// link to these files, so this will only be included when linking at
// runtime.
if runtime {
files.push("libclang.so.*".into());
files.push("libclang-*.so.*".into());
}
}
if target_os!("freebsd") || target_os!("haiku") || target_os!("netbsd") || target_os!("openbsd") {
// Some BSD distributions don't create a `libclang.so` symlink either,
// but use a different naming scheme for versioned files (e.g.,
// `libclang.so.7.0`).
files.push("libclang.so.*".into());
}
if target_os!("windows") {
// The official LLVM build uses `libclang.dll` on Windows instead of
// `clang.dll`. However, unofficial builds such as MinGW use `clang.dll`.
files.push("libclang.dll".into());
}
// Find and validate `libclang` shared libraries and collect the versions.
let mut valid = vec![];
let mut invalid = vec![];
for (directory, filename) in common::search_libclang_directories(&files, "LIBCLANG_PATH") {
let path = directory.join(&filename);
match validate_library(&path) {
Ok(()) => {
let version = parse_version(&filename);
valid.push((directory, filename, version))
}
Err(message) => invalid.push(format!("({}: {})", path.display(), message)),
}
}
if !valid.is_empty() {
return Ok(valid);
}
let message = format!(
"couldn't find any valid shared libraries matching: [{}], set the \
`LIBCLANG_PATH` environment variable to a path where one of these files \
can be found (invalid: [{}])",
files
.iter()
.map(|f| format!("'{}'", f))
.collect::<Vec<_>>()
.join(", "),
invalid.join(", "),
);
Err(message)
}
/// Finds the "best" `libclang` shared library and returns the directory and
/// filename of that library.
pub fn find(runtime: bool) -> Result<(PathBuf, String), String> {
search_libclang_directories(runtime)?
.iter()
// We want to find the `libclang` shared library with the highest
// version number, hence `max_by_key` below.
//
// However, in the case where there are multiple such `libclang` shared
// libraries, we want to use the order in which they appeared in the
// list returned by `search_libclang_directories` as a tiebreaker since
// that function returns `libclang` shared libraries in descending order
// of preference by how they were found.
//
// `max_by_key`, perhaps surprisingly, returns the *last* item with the
// maximum key rather than the first which results in the opposite of
// the tiebreaking behavior we want. This is easily fixed by reversing
// the list first.
.rev()
.max_by_key(|f| &f.2)
.cloned()
.map(|(path, filename, _)| (path, filename))
.ok_or_else(|| "unreachable".into())
}
//================================================
// Linking
//================================================
/// Finds and links to a `libclang` shared library.
#[cfg(not(feature = "runtime"))]
pub fn link() {
let cep = common::CommandErrorPrinter::default();
use std::fs;
let (directory, filename) = find(false).unwrap();
println!("cargo:rustc-link-search={}", directory.display());
if cfg!(all(target_os = "windows", target_env = "msvc")) {
// Find the `libclang` stub static library required for the MSVC
// toolchain.
let lib = if !directory.ends_with("bin") {
directory
} else {
directory.parent().unwrap().join("lib")
};
if lib.join("libclang.lib").exists() {
println!("cargo:rustc-link-search={}", lib.display());
} else if lib.join("libclang.dll.a").exists() {
// MSYS and MinGW use `libclang.dll.a` instead of `libclang.lib`.
// It is linkable with the MSVC linker, but Rust doesn't recognize
// the `.a` suffix, so we need to copy it with a different name.
//
// FIXME: Maybe we can just hardlink or symlink it?
let out = env::var("OUT_DIR").unwrap();
fs::copy(
lib.join("libclang.dll.a"),
Path::new(&out).join("libclang.lib"),
)
.unwrap();
println!("cargo:rustc-link-search=native={}", out);
} else {
panic!(
"using '{}', so 'libclang.lib' or 'libclang.dll.a' must be \
available in {}",
filename,
lib.display(),
);
}
println!("cargo:rustc-link-lib=dylib=libclang");
} else {
let name = filename.trim_start_matches("lib");
// Strip extensions and trailing version numbers (e.g., the `.so.7.0` in
// `libclang.so.7.0`).
let name = match name.find(".dylib").or_else(|| name.find(".so")) {
Some(index) => &name[0..index],
None => name,
};
println!("cargo:rustc-link-lib=dylib={}", name);
}
cep.discard();
}