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link.rs
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link.rs
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/// For all the linkers we support, and information they might
/// need out of the shared crate context before we get rid of it.
use rustc::session::{Session, filesearch};
use rustc::session::config::{
self, RUST_CGU_EXT, DebugInfo, OutputFilenames, OutputType, PrintRequest, Sanitizer
};
use rustc::session::search_paths::PathKind;
use rustc::middle::dependency_format::Linkage;
use rustc::middle::cstore::{EncodedMetadata, LibSource, NativeLibrary, NativeLibraryKind};
use rustc::util::common::{time, time_ext};
use rustc::hir::def_id::CrateNum;
use rustc_data_structures::fx::FxHashSet;
use rustc_fs_util::fix_windows_verbatim_for_gcc;
use rustc_target::spec::{PanicStrategy, RelroLevel, LinkerFlavor};
use syntax::symbol::Symbol;
use crate::{METADATA_FILENAME, RLIB_BYTECODE_EXTENSION, CrateInfo, CodegenResults};
use super::archive::ArchiveBuilder;
use super::command::Command;
use super::linker::Linker;
use super::rpath::{self, RPathConfig};
use cc::windows_registry;
use tempfile::{Builder as TempFileBuilder, TempDir};
use std::ascii;
use std::char;
use std::fmt;
use std::fs;
use std::io;
use std::path::{Path, PathBuf};
use std::process::{Output, Stdio, ExitStatus};
use std::str;
use std::env;
use std::ffi::OsString;
pub use rustc_codegen_utils::link::*;
pub fn remove(sess: &Session, path: &Path) {
if let Err(e) = fs::remove_file(path) {
sess.err(&format!("failed to remove {}: {}",
path.display(),
e));
}
}
/// Performs the linkage portion of the compilation phase. This will generate all
/// of the requested outputs for this compilation session.
pub fn link_binary<'a, B: ArchiveBuilder<'a>>(sess: &'a Session,
codegen_results: &CodegenResults,
outputs: &OutputFilenames,
crate_name: &str,
target_cpu: &str) {
let output_metadata = sess.opts.output_types.contains_key(&OutputType::Metadata);
for &crate_type in sess.crate_types.borrow().iter() {
// Ignore executable crates if we have -Z no-codegen, as they will error.
if (sess.opts.debugging_opts.no_codegen || !sess.opts.output_types.should_codegen()) &&
!output_metadata &&
crate_type == config::CrateType::Executable {
continue;
}
if invalid_output_for_target(sess, crate_type) {
bug!("invalid output type `{:?}` for target os `{}`",
crate_type, sess.opts.target_triple);
}
for obj in codegen_results.modules.iter().filter_map(|m| m.object.as_ref()) {
check_file_is_writeable(obj, sess);
}
let tmpdir = TempFileBuilder::new().prefix("rustc").tempdir().unwrap_or_else(|err|
sess.fatal(&format!("couldn't create a temp dir: {}", err)));
if outputs.outputs.should_codegen() {
let out_filename = out_filename(sess, crate_type, outputs, crate_name);
match crate_type {
config::CrateType::Rlib => {
link_rlib::<B>(sess,
codegen_results,
RlibFlavor::Normal,
&out_filename,
&tmpdir).build();
}
config::CrateType::Staticlib => {
link_staticlib::<B>(sess, codegen_results, &out_filename, &tmpdir);
}
_ => {
link_natively::<B>(
sess,
crate_type,
&out_filename,
codegen_results,
tmpdir.path(),
target_cpu,
);
}
}
if sess.opts.json_artifact_notifications {
sess.parse_sess.span_diagnostic.emit_artifact_notification(&out_filename, "link");
}
}
if sess.opts.cg.save_temps {
let _ = tmpdir.into_path();
}
}
// Remove the temporary object file and metadata if we aren't saving temps
if !sess.opts.cg.save_temps {
if sess.opts.output_types.should_codegen() && !preserve_objects_for_their_debuginfo(sess) {
for obj in codegen_results.modules.iter().filter_map(|m| m.object.as_ref()) {
remove(sess, obj);
}
}
for obj in codegen_results.modules.iter().filter_map(|m| m.bytecode_compressed.as_ref()) {
remove(sess, obj);
}
if let Some(ref metadata_module) = codegen_results.metadata_module {
if let Some(ref obj) = metadata_module.object {
remove(sess, obj);
}
}
if let Some(ref allocator_module) = codegen_results.allocator_module {
if let Some(ref obj) = allocator_module.object {
remove(sess, obj);
}
if let Some(ref bc) = allocator_module.bytecode_compressed {
remove(sess, bc);
}
}
}
}
// The third parameter is for env vars, used on windows to set up the
// path for MSVC to find its DLLs, and gcc to find its bundled
// toolchain
pub fn get_linker(sess: &Session, linker: &Path, flavor: LinkerFlavor) -> (PathBuf, Command) {
let msvc_tool = windows_registry::find_tool(&sess.opts.target_triple.triple(), "link.exe");
// If our linker looks like a batch script on Windows then to execute this
// we'll need to spawn `cmd` explicitly. This is primarily done to handle
// emscripten where the linker is `emcc.bat` and needs to be spawned as
// `cmd /c emcc.bat ...`.
//
// This worked historically but is needed manually since #42436 (regression
// was tagged as #42791) and some more info can be found on #44443 for
// emscripten itself.
let mut cmd = match linker.to_str() {
Some(linker) if cfg!(windows) && linker.ends_with(".bat") => Command::bat_script(linker),
_ => match flavor {
LinkerFlavor::Lld(f) => Command::lld(linker, f),
LinkerFlavor::Msvc
if sess.opts.cg.linker.is_none() && sess.target.target.options.linker.is_none() =>
{
Command::new(msvc_tool.as_ref().map(|t| t.path()).unwrap_or(linker))
},
_ => Command::new(linker),
}
};
// UWP apps have API restrictions enforced during Store submissions.
// To comply with the Windows App Certification Kit,
// MSVC needs to link with the Store versions of the runtime libraries (vcruntime, msvcrt, etc).
let t = &sess.target.target;
if flavor == LinkerFlavor::Msvc && t.target_vendor == "uwp" {
if let Some(ref tool) = msvc_tool {
let original_path = tool.path();
if let Some(ref root_lib_path) = original_path.ancestors().skip(4).next() {
let arch = match t.arch.as_str() {
"x86_64" => Some("x64".to_string()),
"x86" => Some("x86".to_string()),
"aarch64" => Some("arm64".to_string()),
_ => None,
};
if let Some(ref a) = arch {
let mut arg = OsString::from("/LIBPATH:");
arg.push(format!("{}\\lib\\{}\\store", root_lib_path.display(), a.to_string()));
cmd.arg(&arg);
}
else {
warn!("arch is not supported");
}
} else {
warn!("MSVC root path lib location not found");
}
} else {
warn!("link.exe not found");
}
}
// The compiler's sysroot often has some bundled tools, so add it to the
// PATH for the child.
let mut new_path = sess.host_filesearch(PathKind::All)
.get_tools_search_paths();
let mut msvc_changed_path = false;
if sess.target.target.options.is_like_msvc {
if let Some(ref tool) = msvc_tool {
cmd.args(tool.args());
for &(ref k, ref v) in tool.env() {
if k == "PATH" {
new_path.extend(env::split_paths(v));
msvc_changed_path = true;
} else {
cmd.env(k, v);
}
}
}
}
if !msvc_changed_path {
if let Some(path) = env::var_os("PATH") {
new_path.extend(env::split_paths(&path));
}
}
cmd.env("PATH", env::join_paths(new_path).unwrap());
(linker.to_path_buf(), cmd)
}
pub fn each_linked_rlib(sess: &Session,
info: &CrateInfo,
f: &mut dyn FnMut(CrateNum, &Path)) -> Result<(), String> {
let crates = info.used_crates_static.iter();
let fmts = sess.dependency_formats.borrow();
let fmts = fmts.get(&config::CrateType::Executable)
.or_else(|| fmts.get(&config::CrateType::Staticlib))
.or_else(|| fmts.get(&config::CrateType::Cdylib))
.or_else(|| fmts.get(&config::CrateType::ProcMacro));
let fmts = match fmts {
Some(f) => f,
None => return Err("could not find formats for rlibs".to_string())
};
for &(cnum, ref path) in crates {
match fmts.get(cnum.as_usize() - 1) {
Some(&Linkage::NotLinked) |
Some(&Linkage::IncludedFromDylib) => continue,
Some(_) => {}
None => return Err("could not find formats for rlibs".to_string())
}
let name = &info.crate_name[&cnum];
let path = match *path {
LibSource::Some(ref p) => p,
LibSource::MetadataOnly => {
return Err(format!("could not find rlib for: `{}`, found rmeta (metadata) file",
name))
}
LibSource::None => {
return Err(format!("could not find rlib for: `{}`", name))
}
};
f(cnum, &path);
}
Ok(())
}
/// We use a temp directory here to avoid races between concurrent rustc processes,
/// such as builds in the same directory using the same filename for metadata while
/// building an `.rlib` (stomping over one another), or writing an `.rmeta` into a
/// directory being searched for `extern crate` (observing an incomplete file).
/// The returned path is the temporary file containing the complete metadata.
pub fn emit_metadata<'a>(
sess: &'a Session,
metadata: &EncodedMetadata,
tmpdir: &TempDir
) -> PathBuf {
let out_filename = tmpdir.path().join(METADATA_FILENAME);
let result = fs::write(&out_filename, &metadata.raw_data);
if let Err(e) = result {
sess.fatal(&format!("failed to write {}: {}", out_filename.display(), e));
}
out_filename
}
// Create an 'rlib'
//
// An rlib in its current incarnation is essentially a renamed .a file. The
// rlib primarily contains the object file of the crate, but it also contains
// all of the object files from native libraries. This is done by unzipping
// native libraries and inserting all of the contents into this archive.
fn link_rlib<'a, B: ArchiveBuilder<'a>>(sess: &'a Session,
codegen_results: &CodegenResults,
flavor: RlibFlavor,
out_filename: &Path,
tmpdir: &TempDir) -> B {
info!("preparing rlib to {:?}", out_filename);
let mut ab = <B as ArchiveBuilder>::new(sess, out_filename, None);
for obj in codegen_results.modules.iter().filter_map(|m| m.object.as_ref()) {
ab.add_file(obj);
}
// Note that in this loop we are ignoring the value of `lib.cfg`. That is,
// we may not be configured to actually include a static library if we're
// adding it here. That's because later when we consume this rlib we'll
// decide whether we actually needed the static library or not.
//
// To do this "correctly" we'd need to keep track of which libraries added
// which object files to the archive. We don't do that here, however. The
// #[link(cfg(..))] feature is unstable, though, and only intended to get
// liblibc working. In that sense the check below just indicates that if
// there are any libraries we want to omit object files for at link time we
// just exclude all custom object files.
//
// Eventually if we want to stabilize or flesh out the #[link(cfg(..))]
// feature then we'll need to figure out how to record what objects were
// loaded from the libraries found here and then encode that into the
// metadata of the rlib we're generating somehow.
for lib in codegen_results.crate_info.used_libraries.iter() {
match lib.kind {
NativeLibraryKind::NativeStatic => {}
NativeLibraryKind::NativeStaticNobundle |
NativeLibraryKind::NativeFramework |
NativeLibraryKind::NativeUnknown => continue,
}
if let Some(name) = lib.name {
ab.add_native_library(name);
}
}
// After adding all files to the archive, we need to update the
// symbol table of the archive.
ab.update_symbols();
// Note that it is important that we add all of our non-object "magical
// files" *after* all of the object files in the archive. The reason for
// this is as follows:
//
// * When performing LTO, this archive will be modified to remove
// objects from above. The reason for this is described below.
//
// * When the system linker looks at an archive, it will attempt to
// determine the architecture of the archive in order to see whether its
// linkable.
//
// The algorithm for this detection is: iterate over the files in the
// archive. Skip magical SYMDEF names. Interpret the first file as an
// object file. Read architecture from the object file.
//
// * As one can probably see, if "metadata" and "foo.bc" were placed
// before all of the objects, then the architecture of this archive would
// not be correctly inferred once 'foo.o' is removed.
//
// Basically, all this means is that this code should not move above the
// code above.
match flavor {
RlibFlavor::Normal => {
// Instead of putting the metadata in an object file section, rlibs
// contain the metadata in a separate file.
ab.add_file(&emit_metadata(sess, &codegen_results.metadata, tmpdir));
// For LTO purposes, the bytecode of this library is also inserted
// into the archive.
for bytecode in codegen_results
.modules
.iter()
.filter_map(|m| m.bytecode_compressed.as_ref())
{
ab.add_file(bytecode);
}
// After adding all files to the archive, we need to update the
// symbol table of the archive. This currently dies on macOS (see
// #11162), and isn't necessary there anyway
if !sess.target.target.options.is_like_osx {
ab.update_symbols();
}
}
RlibFlavor::StaticlibBase => {
let obj = codegen_results.allocator_module
.as_ref()
.and_then(|m| m.object.as_ref());
if let Some(obj) = obj {
ab.add_file(obj);
}
}
}
ab
}
// Create a static archive
//
// This is essentially the same thing as an rlib, but it also involves adding
// all of the upstream crates' objects into the archive. This will slurp in
// all of the native libraries of upstream dependencies as well.
//
// Additionally, there's no way for us to link dynamic libraries, so we warn
// about all dynamic library dependencies that they're not linked in.
//
// There's no need to include metadata in a static archive, so ensure to not
// link in the metadata object file (and also don't prepare the archive with a
// metadata file).
fn link_staticlib<'a, B: ArchiveBuilder<'a>>(sess: &'a Session,
codegen_results: &CodegenResults,
out_filename: &Path,
tempdir: &TempDir) {
let mut ab = link_rlib::<B>(sess,
codegen_results,
RlibFlavor::StaticlibBase,
out_filename,
tempdir);
let mut all_native_libs = vec![];
let res = each_linked_rlib(sess, &codegen_results.crate_info, &mut |cnum, path| {
let name = &codegen_results.crate_info.crate_name[&cnum];
let native_libs = &codegen_results.crate_info.native_libraries[&cnum];
// Here when we include the rlib into our staticlib we need to make a
// decision whether to include the extra object files along the way.
// These extra object files come from statically included native
// libraries, but they may be cfg'd away with #[link(cfg(..))].
//
// This unstable feature, though, only needs liblibc to work. The only
// use case there is where musl is statically included in liblibc.rlib,
// so if we don't want the included version we just need to skip it. As
// a result the logic here is that if *any* linked library is cfg'd away
// we just skip all object files.
//
// Clearly this is not sufficient for a general purpose feature, and
// we'd want to read from the library's metadata to determine which
// object files come from where and selectively skip them.
let skip_object_files = native_libs.iter().any(|lib| {
lib.kind == NativeLibraryKind::NativeStatic && !relevant_lib(sess, lib)
});
ab.add_rlib(path,
&name.as_str(),
are_upstream_rust_objects_already_included(sess) &&
!ignored_for_lto(sess, &codegen_results.crate_info, cnum),
skip_object_files).unwrap();
all_native_libs.extend(codegen_results.crate_info.native_libraries[&cnum].iter().cloned());
});
if let Err(e) = res {
sess.fatal(&e);
}
ab.update_symbols();
ab.build();
if !all_native_libs.is_empty() {
if sess.opts.prints.contains(&PrintRequest::NativeStaticLibs) {
print_native_static_libs(sess, &all_native_libs);
}
}
}
// Create a dynamic library or executable
//
// This will invoke the system linker/cc to create the resulting file. This
// links to all upstream files as well.
fn link_natively<'a, B: ArchiveBuilder<'a>>(sess: &'a Session,
crate_type: config::CrateType,
out_filename: &Path,
codegen_results: &CodegenResults,
tmpdir: &Path,
target_cpu: &str) {
info!("preparing {:?} to {:?}", crate_type, out_filename);
let (linker, flavor) = linker_and_flavor(sess);
// The invocations of cc share some flags across platforms
let (pname, mut cmd) = get_linker(sess, &linker, flavor);
if let Some(args) = sess.target.target.options.pre_link_args.get(&flavor) {
cmd.args(args);
}
if let Some(args) = sess.target.target.options.pre_link_args_crt.get(&flavor) {
if sess.crt_static() {
cmd.args(args);
}
}
if let Some(ref args) = sess.opts.debugging_opts.pre_link_args {
cmd.args(args);
}
cmd.args(&sess.opts.debugging_opts.pre_link_arg);
if sess.target.target.options.is_like_fuchsia {
let prefix = match sess.opts.debugging_opts.sanitizer {
Some(Sanitizer::Address) => "asan/",
_ => "",
};
cmd.arg(format!("--dynamic-linker={}ld.so.1", prefix));
}
let pre_link_objects = if crate_type == config::CrateType::Executable {
&sess.target.target.options.pre_link_objects_exe
} else {
&sess.target.target.options.pre_link_objects_dll
};
for obj in pre_link_objects {
cmd.arg(get_file_path(sess, obj));
}
if crate_type == config::CrateType::Executable && sess.crt_static() {
for obj in &sess.target.target.options.pre_link_objects_exe_crt {
cmd.arg(get_file_path(sess, obj));
}
}
if sess.target.target.options.is_like_emscripten {
cmd.arg("-s");
cmd.arg(if sess.panic_strategy() == PanicStrategy::Abort {
"DISABLE_EXCEPTION_CATCHING=1"
} else {
"DISABLE_EXCEPTION_CATCHING=0"
});
}
{
let mut linker = codegen_results.linker_info.to_linker(cmd, &sess, flavor, target_cpu);
link_args::<B>(&mut *linker, flavor, sess, crate_type, tmpdir,
out_filename, codegen_results);
cmd = linker.finalize();
}
if let Some(args) = sess.target.target.options.late_link_args.get(&flavor) {
cmd.args(args);
}
for obj in &sess.target.target.options.post_link_objects {
cmd.arg(get_file_path(sess, obj));
}
if sess.crt_static() {
for obj in &sess.target.target.options.post_link_objects_crt {
cmd.arg(get_file_path(sess, obj));
}
}
if let Some(args) = sess.target.target.options.post_link_args.get(&flavor) {
cmd.args(args);
}
for &(ref k, ref v) in &sess.target.target.options.link_env {
cmd.env(k, v);
}
for k in &sess.target.target.options.link_env_remove {
cmd.env_remove(k);
}
if sess.opts.debugging_opts.print_link_args {
println!("{:?}", &cmd);
}
// May have not found libraries in the right formats.
sess.abort_if_errors();
// Invoke the system linker
info!("{:?}", &cmd);
let retry_on_segfault = env::var("RUSTC_RETRY_LINKER_ON_SEGFAULT").is_ok();
let mut prog;
let mut i = 0;
loop {
i += 1;
prog = time(sess, "running linker", || {
exec_linker(sess, &mut cmd, out_filename, tmpdir)
});
let output = match prog {
Ok(ref output) => output,
Err(_) => break,
};
if output.status.success() {
break
}
let mut out = output.stderr.clone();
out.extend(&output.stdout);
let out = String::from_utf8_lossy(&out);
// Check to see if the link failed with "unrecognized command line option:
// '-no-pie'" for gcc or "unknown argument: '-no-pie'" for clang. If so,
// reperform the link step without the -no-pie option. This is safe because
// if the linker doesn't support -no-pie then it should not default to
// linking executables as pie. Different versions of gcc seem to use
// different quotes in the error message so don't check for them.
if sess.target.target.options.linker_is_gnu &&
flavor != LinkerFlavor::Ld &&
(out.contains("unrecognized command line option") ||
out.contains("unknown argument")) &&
out.contains("-no-pie") &&
cmd.get_args().iter().any(|e| e.to_string_lossy() == "-no-pie") {
info!("linker output: {:?}", out);
warn!("Linker does not support -no-pie command line option. Retrying without.");
for arg in cmd.take_args() {
if arg.to_string_lossy() != "-no-pie" {
cmd.arg(arg);
}
}
info!("{:?}", &cmd);
continue;
}
// Here's a terribly awful hack that really shouldn't be present in any
// compiler. Here an environment variable is supported to automatically
// retry the linker invocation if the linker looks like it segfaulted.
//
// Gee that seems odd, normally segfaults are things we want to know
// about! Unfortunately though in rust-lang/rust#38878 we're
// experiencing the linker segfaulting on Travis quite a bit which is
// causing quite a bit of pain to land PRs when they spuriously fail
// due to a segfault.
//
// The issue #38878 has some more debugging information on it as well,
// but this unfortunately looks like it's just a race condition in
// macOS's linker with some thread pool working in the background. It
// seems that no one currently knows a fix for this so in the meantime
// we're left with this...
if !retry_on_segfault || i > 3 {
break
}
let msg_segv = "clang: error: unable to execute command: Segmentation fault: 11";
let msg_bus = "clang: error: unable to execute command: Bus error: 10";
if out.contains(msg_segv) || out.contains(msg_bus) {
warn!(
"looks like the linker segfaulted when we tried to call it, \
automatically retrying again. cmd = {:?}, out = {}.",
cmd,
out,
);
continue;
}
if is_illegal_instruction(&output.status) {
warn!(
"looks like the linker hit an illegal instruction when we \
tried to call it, automatically retrying again. cmd = {:?}, ]\
out = {}, status = {}.",
cmd,
out,
output.status,
);
continue;
}
#[cfg(unix)]
fn is_illegal_instruction(status: &ExitStatus) -> bool {
use std::os::unix::prelude::*;
status.signal() == Some(libc::SIGILL)
}
#[cfg(windows)]
fn is_illegal_instruction(_status: &ExitStatus) -> bool {
false
}
}
match prog {
Ok(prog) => {
fn escape_string(s: &[u8]) -> String {
str::from_utf8(s).map(|s| s.to_owned())
.unwrap_or_else(|_| {
let mut x = "Non-UTF-8 output: ".to_string();
x.extend(s.iter()
.flat_map(|&b| ascii::escape_default(b))
.map(char::from));
x
})
}
if !prog.status.success() {
let mut output = prog.stderr.clone();
output.extend_from_slice(&prog.stdout);
sess.struct_err(&format!("linking with `{}` failed: {}",
pname.display(),
prog.status))
.note(&format!("{:?}", &cmd))
.note(&escape_string(&output))
.emit();
sess.abort_if_errors();
}
info!("linker stderr:\n{}", escape_string(&prog.stderr));
info!("linker stdout:\n{}", escape_string(&prog.stdout));
},
Err(e) => {
let linker_not_found = e.kind() == io::ErrorKind::NotFound;
let mut linker_error = {
if linker_not_found {
sess.struct_err(&format!("linker `{}` not found", pname.display()))
} else {
sess.struct_err(&format!("could not exec the linker `{}`", pname.display()))
}
};
linker_error.note(&e.to_string());
if !linker_not_found {
linker_error.note(&format!("{:?}", &cmd));
}
linker_error.emit();
if sess.target.target.options.is_like_msvc && linker_not_found {
sess.note_without_error(
"the msvc targets depend on the msvc linker \
but `link.exe` was not found",
);
sess.note_without_error(
"please ensure that VS 2013, VS 2015, VS 2017 or VS 2019 \
was installed with the Visual C++ option",
);
}
sess.abort_if_errors();
}
}
// On macOS, debuggers need this utility to get run to do some munging of
// the symbols. Note, though, that if the object files are being preserved
// for their debug information there's no need for us to run dsymutil.
if sess.target.target.options.is_like_osx &&
sess.opts.debuginfo != DebugInfo::None &&
!preserve_objects_for_their_debuginfo(sess)
{
if let Err(e) = Command::new("dsymutil").arg(out_filename).output() {
sess.fatal(&format!("failed to run dsymutil: {}", e))
}
}
}
/// Returns a boolean indicating whether the specified crate should be ignored
/// during LTO.
///
/// Crates ignored during LTO are not lumped together in the "massive object
/// file" that we create and are linked in their normal rlib states. See
/// comments below for what crates do not participate in LTO.
///
/// It's unusual for a crate to not participate in LTO. Typically only
/// compiler-specific and unstable crates have a reason to not participate in
/// LTO.
pub fn ignored_for_lto(sess: &Session, info: &CrateInfo, cnum: CrateNum) -> bool {
// If our target enables builtin function lowering in LLVM then the
// crates providing these functions don't participate in LTO (e.g.
// no_builtins or compiler builtins crates).
!sess.target.target.options.no_builtins &&
(info.compiler_builtins == Some(cnum) || info.is_no_builtins.contains(&cnum))
}
pub fn linker_and_flavor(sess: &Session) -> (PathBuf, LinkerFlavor) {
fn infer_from(
sess: &Session,
linker: Option<PathBuf>,
flavor: Option<LinkerFlavor>,
) -> Option<(PathBuf, LinkerFlavor)> {
match (linker, flavor) {
(Some(linker), Some(flavor)) => Some((linker, flavor)),
// only the linker flavor is known; use the default linker for the selected flavor
(None, Some(flavor)) => Some((PathBuf::from(match flavor {
LinkerFlavor::Em => if cfg!(windows) { "emcc.bat" } else { "emcc" },
LinkerFlavor::Gcc => "cc",
LinkerFlavor::Ld => "ld",
LinkerFlavor::Msvc => "link.exe",
LinkerFlavor::Lld(_) => "lld",
LinkerFlavor::PtxLinker => "rust-ptx-linker",
}), flavor)),
(Some(linker), None) => {
let stem = linker
.file_stem()
.and_then(|stem| stem.to_str())
.unwrap_or_else(|| {
sess.fatal("couldn't extract file stem from specified linker")
});
let flavor = if stem == "emcc" {
LinkerFlavor::Em
} else if stem == "gcc"
|| stem.ends_with("-gcc")
|| stem == "clang"
|| stem.ends_with("-clang")
{
LinkerFlavor::Gcc
} else if stem == "ld" || stem == "ld.lld" || stem.ends_with("-ld") {
LinkerFlavor::Ld
} else if stem == "link" || stem == "lld-link" {
LinkerFlavor::Msvc
} else if stem == "lld" || stem == "rust-lld" {
LinkerFlavor::Lld(sess.target.target.options.lld_flavor)
} else {
// fall back to the value in the target spec
sess.target.target.linker_flavor
};
Some((linker, flavor))
},
(None, None) => None,
}
}
// linker and linker flavor specified via command line have precedence over what the target
// specification specifies
if let Some(ret) = infer_from(sess, sess.opts.cg.linker.clone(), sess.opts.cg.linker_flavor) {
return ret;
}
if let Some(ret) = infer_from(
sess,
sess.target.target.options.linker.clone().map(PathBuf::from),
Some(sess.target.target.linker_flavor),
) {
return ret;
}
bug!("Not enough information provided to determine how to invoke the linker");
}
/// Returns a boolean indicating whether we should preserve the object files on
/// the filesystem for their debug information. This is often useful with
/// split-dwarf like schemes.
pub fn preserve_objects_for_their_debuginfo(sess: &Session) -> bool {
// If the objects don't have debuginfo there's nothing to preserve.
if sess.opts.debuginfo == config::DebugInfo::None {
return false
}
// If we're only producing artifacts that are archives, no need to preserve
// the objects as they're losslessly contained inside the archives.
let output_linked = sess.crate_types.borrow()
.iter()
.any(|&x| x != config::CrateType::Rlib && x != config::CrateType::Staticlib);
if !output_linked {
return false
}
// If we're on OSX then the equivalent of split dwarf is turned on by
// default. The final executable won't actually have any debug information
// except it'll have pointers to elsewhere. Historically we've always run
// `dsymutil` to "link all the dwarf together" but this is actually sort of
// a bummer for incremental compilation! (the whole point of split dwarf is
// that you don't do this sort of dwarf link).
//
// Basically as a result this just means that if we're on OSX and we're
// *not* running dsymutil then the object files are the only source of truth
// for debug information, so we must preserve them.
if sess.target.target.options.is_like_osx {
match sess.opts.debugging_opts.run_dsymutil {
// dsymutil is not being run, preserve objects
Some(false) => return true,
// dsymutil is being run, no need to preserve the objects
Some(true) => return false,
// The default historical behavior was to always run dsymutil, so
// we're preserving that temporarily, but we're likely to switch the
// default soon.
None => return false,
}
}
false
}
pub fn archive_search_paths(sess: &Session) -> Vec<PathBuf> {
sess.target_filesearch(PathKind::Native).search_path_dirs()
}
enum RlibFlavor {
Normal,
StaticlibBase,
}
pub fn print_native_static_libs(sess: &Session, all_native_libs: &[NativeLibrary]) {
let lib_args: Vec<_> = all_native_libs.iter()
.filter(|l| relevant_lib(sess, l))
.filter_map(|lib| {
let name = lib.name?;
match lib.kind {
NativeLibraryKind::NativeStaticNobundle |
NativeLibraryKind::NativeUnknown => {
if sess.target.target.options.is_like_msvc {
Some(format!("{}.lib", name))
} else {
Some(format!("-l{}", name))
}
},
NativeLibraryKind::NativeFramework => {
// ld-only syntax, since there are no frameworks in MSVC
Some(format!("-framework {}", name))
},
// These are included, no need to print them
NativeLibraryKind::NativeStatic => None,
}
})
.collect();
if !lib_args.is_empty() {
sess.note_without_error("Link against the following native artifacts when linking \
against this static library. The order and any duplication \
can be significant on some platforms.");
// Prefix for greppability
sess.note_without_error(&format!("native-static-libs: {}", &lib_args.join(" ")));
}
}
pub fn get_file_path(sess: &Session, name: &str) -> PathBuf {
let fs = sess.target_filesearch(PathKind::Native);
let file_path = fs.get_lib_path().join(name);
if file_path.exists() {
return file_path
}
for search_path in fs.search_paths() {
let file_path = search_path.dir.join(name);
if file_path.exists() {
return file_path
}
}
PathBuf::from(name)
}
pub fn exec_linker(sess: &Session, cmd: &mut Command, out_filename: &Path, tmpdir: &Path)
-> io::Result<Output>
{
// When attempting to spawn the linker we run a risk of blowing out the
// size limits for spawning a new process with respect to the arguments
// we pass on the command line.
//
// Here we attempt to handle errors from the OS saying "your list of
// arguments is too big" by reinvoking the linker again with an `@`-file
// that contains all the arguments. The theory is that this is then
// accepted on all linkers and the linker will read all its options out of
// there instead of looking at the command line.
if !cmd.very_likely_to_exceed_some_spawn_limit() {
match cmd.command().stdout(Stdio::piped()).stderr(Stdio::piped()).spawn() {
Ok(child) => {
let output = child.wait_with_output();
flush_linked_file(&output, out_filename)?;
return output;
}
Err(ref e) if command_line_too_big(e) => {
info!("command line to linker was too big: {}", e);
}
Err(e) => return Err(e)
}
}
info!("falling back to passing arguments to linker via an @-file");
let mut cmd2 = cmd.clone();
let mut args = String::new();
for arg in cmd2.take_args() {
args.push_str(&Escape {
arg: arg.to_str().unwrap(),
is_like_msvc: sess.target.target.options.is_like_msvc,
}.to_string());
args.push_str("\n");
}
let file = tmpdir.join("linker-arguments");
let bytes = if sess.target.target.options.is_like_msvc {
let mut out = Vec::with_capacity((1 + args.len()) * 2);
// start the stream with a UTF-16 BOM
for c in std::iter::once(0xFEFF).chain(args.encode_utf16()) {
// encode in little endian
out.push(c as u8);
out.push((c >> 8) as u8);
}
out
} else {
args.into_bytes()
};
fs::write(&file, &bytes)?;
cmd2.arg(format!("@{}", file.display()));
info!("invoking linker {:?}", cmd2);
let output = cmd2.output();
flush_linked_file(&output, out_filename)?;
return output;
#[cfg(unix)]
fn flush_linked_file(_: &io::Result<Output>, _: &Path) -> io::Result<()> {
Ok(())
}
#[cfg(windows)]
fn flush_linked_file(command_output: &io::Result<Output>, out_filename: &Path)
-> io::Result<()>
{
// On Windows, under high I/O load, output buffers are sometimes not flushed,
// even long after process exit, causing nasty, non-reproducible output bugs.
//
// File::sync_all() calls FlushFileBuffers() down the line, which solves the problem.
//
// А full writeup of the original Chrome bug can be found at
// randomascii.wordpress.com/2018/02/25/compiler-bug-linker-bug-windows-kernel-bug/amp
if let &Ok(ref out) = command_output {
if out.status.success() {
if let Ok(of) = fs::OpenOptions::new().write(true).open(out_filename) {
of.sync_all()?;
}
}
}
Ok(())
}
#[cfg(unix)]
fn command_line_too_big(err: &io::Error) -> bool {
err.raw_os_error() == Some(::libc::E2BIG)
}
#[cfg(windows)]
fn command_line_too_big(err: &io::Error) -> bool {
const ERROR_FILENAME_EXCED_RANGE: i32 = 206;
err.raw_os_error() == Some(ERROR_FILENAME_EXCED_RANGE)
}
struct Escape<'a> {