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link.rs
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link.rs
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use rustc_arena::TypedArena;
use rustc_ast::CRATE_NODE_ID;
use rustc_data_structures::fx::FxHashSet;
use rustc_data_structures::fx::FxIndexMap;
use rustc_data_structures::memmap::Mmap;
use rustc_data_structures::temp_dir::MaybeTempDir;
use rustc_errors::{ErrorGuaranteed, Handler};
use rustc_fs_util::{fix_windows_verbatim_for_gcc, try_canonicalize};
use rustc_hir::def_id::{CrateNum, LOCAL_CRATE};
use rustc_metadata::find_native_static_library;
use rustc_metadata::fs::{copy_to_stdout, emit_wrapper_file, METADATA_FILENAME};
use rustc_middle::middle::debugger_visualizer::DebuggerVisualizerFile;
use rustc_middle::middle::dependency_format::Linkage;
use rustc_middle::middle::exported_symbols::SymbolExportKind;
use rustc_session::config::{self, CFGuard, CrateType, DebugInfo, OutFileName, Strip};
use rustc_session::config::{OutputFilenames, OutputType, PrintKind, SplitDwarfKind};
use rustc_session::cstore::DllImport;
use rustc_session::output::{check_file_is_writeable, invalid_output_for_target, out_filename};
use rustc_session::search_paths::PathKind;
use rustc_session::utils::NativeLibKind;
/// 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::{filesearch, Session};
use rustc_span::symbol::Symbol;
use rustc_target::spec::crt_objects::{CrtObjects, LinkSelfContainedDefault};
use rustc_target::spec::{Cc, LinkOutputKind, LinkerFlavor, Lld, PanicStrategy};
use rustc_target::spec::{RelocModel, RelroLevel, SanitizerSet, SplitDebuginfo};
use super::archive::{ArchiveBuilder, ArchiveBuilderBuilder};
use super::command::Command;
use super::linker::{self, Linker};
use super::metadata::{create_wrapper_file, MetadataPosition};
use super::rpath::{self, RPathConfig};
use crate::{
errors, looks_like_rust_object_file, CodegenResults, CompiledModule, CrateInfo, NativeLib,
};
use cc::windows_registry;
use regex::Regex;
use tempfile::Builder as TempFileBuilder;
use itertools::Itertools;
use std::cell::OnceCell;
use std::collections::BTreeSet;
use std::ffi::OsString;
use std::fs::{read, File, OpenOptions};
use std::io::{BufWriter, Write};
use std::ops::Deref;
use std::path::{Path, PathBuf};
use std::process::{ExitStatus, Output, Stdio};
use std::{env, fmt, fs, io, mem, str};
pub fn ensure_removed(diag_handler: &Handler, path: &Path) {
if let Err(e) = fs::remove_file(path) {
if e.kind() != io::ErrorKind::NotFound {
diag_handler.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>(
sess: &'a Session,
archive_builder_builder: &dyn ArchiveBuilderBuilder,
codegen_results: &CodegenResults,
outputs: &OutputFilenames,
) -> Result<(), ErrorGuaranteed> {
let _timer = sess.timer("link_binary");
let output_metadata = sess.opts.output_types.contains_key(&OutputType::Metadata);
let mut tempfiles_for_stdout_output: Vec<PathBuf> = Vec::new();
for &crate_type in sess.crate_types().iter() {
// Ignore executable crates if we have -Z no-codegen, as they will error.
if (sess.opts.unstable_opts.no_codegen || !sess.opts.output_types.should_codegen())
&& !output_metadata
&& crate_type == CrateType::Executable
{
continue;
}
if invalid_output_for_target(sess, crate_type) {
bug!(
"invalid output type `{:?}` for target os `{}`",
crate_type,
sess.opts.target_triple
);
}
sess.time("link_binary_check_files_are_writeable", || {
for obj in codegen_results.modules.iter().filter_map(|m| m.object.as_ref()) {
check_file_is_writeable(obj, sess);
}
});
if outputs.outputs.should_link() {
let tmpdir = TempFileBuilder::new()
.prefix("rustc")
.tempdir()
.unwrap_or_else(|error| sess.emit_fatal(errors::CreateTempDir { error }));
let path = MaybeTempDir::new(tmpdir, sess.opts.cg.save_temps);
let output = out_filename(
sess,
crate_type,
outputs,
codegen_results.crate_info.local_crate_name,
);
let crate_name = format!("{}", codegen_results.crate_info.local_crate_name);
let out_filename =
output.file_for_writing(outputs, OutputType::Exe, Some(crate_name.as_str()));
match crate_type {
CrateType::Rlib => {
let _timer = sess.timer("link_rlib");
info!("preparing rlib to {:?}", out_filename);
link_rlib(
sess,
archive_builder_builder,
codegen_results,
RlibFlavor::Normal,
&path,
)?
.build(&out_filename);
}
CrateType::Staticlib => {
link_staticlib(
sess,
archive_builder_builder,
codegen_results,
&out_filename,
&path,
)?;
}
_ => {
link_natively(
sess,
archive_builder_builder,
crate_type,
&out_filename,
codegen_results,
path.as_ref(),
)?;
}
}
if sess.opts.json_artifact_notifications {
sess.parse_sess.span_diagnostic.emit_artifact_notification(&out_filename, "link");
}
if sess.prof.enabled() {
if let Some(artifact_name) = out_filename.file_name() {
// Record size for self-profiling
let file_size = std::fs::metadata(&out_filename).map(|m| m.len()).unwrap_or(0);
sess.prof.artifact_size(
"linked_artifact",
artifact_name.to_string_lossy(),
file_size,
);
}
}
if output.is_stdout() {
if output.is_tty() {
sess.emit_err(errors::BinaryOutputToTty {
shorthand: OutputType::Exe.shorthand(),
});
} else if let Err(e) = copy_to_stdout(&out_filename) {
sess.emit_err(errors::CopyPath::new(&out_filename, output.as_path(), e));
}
tempfiles_for_stdout_output.push(out_filename);
}
}
}
// Remove the temporary object file and metadata if we aren't saving temps.
sess.time("link_binary_remove_temps", || {
// If the user requests that temporaries are saved, don't delete any.
if sess.opts.cg.save_temps {
return;
}
let maybe_remove_temps_from_module =
|preserve_objects: bool, preserve_dwarf_objects: bool, module: &CompiledModule| {
if !preserve_objects {
if let Some(ref obj) = module.object {
ensure_removed(sess.diagnostic(), obj);
}
}
if !preserve_dwarf_objects {
if let Some(ref dwo_obj) = module.dwarf_object {
ensure_removed(sess.diagnostic(), dwo_obj);
}
}
};
let remove_temps_from_module =
|module: &CompiledModule| maybe_remove_temps_from_module(false, false, module);
// Otherwise, always remove the metadata and allocator module temporaries.
if let Some(ref metadata_module) = codegen_results.metadata_module {
remove_temps_from_module(metadata_module);
}
if let Some(ref allocator_module) = codegen_results.allocator_module {
remove_temps_from_module(allocator_module);
}
// Remove the temporary files if output goes to stdout
for temp in tempfiles_for_stdout_output {
ensure_removed(sess.diagnostic(), &temp);
}
// If no requested outputs require linking, then the object temporaries should
// be kept.
if !sess.opts.output_types.should_link() {
return;
}
// Potentially keep objects for their debuginfo.
let (preserve_objects, preserve_dwarf_objects) = preserve_objects_for_their_debuginfo(sess);
debug!(?preserve_objects, ?preserve_dwarf_objects);
for module in &codegen_results.modules {
maybe_remove_temps_from_module(preserve_objects, preserve_dwarf_objects, module);
}
});
Ok(())
}
// Crate type is not passed when calculating the dylibs to include for LTO. In that case all
// crate types must use the same dependency formats.
pub fn each_linked_rlib(
info: &CrateInfo,
crate_type: Option<CrateType>,
f: &mut dyn FnMut(CrateNum, &Path),
) -> Result<(), errors::LinkRlibError> {
let crates = info.used_crates.iter();
let fmts = if crate_type.is_none() {
for combination in info.dependency_formats.iter().combinations(2) {
let (ty1, list1) = &combination[0];
let (ty2, list2) = &combination[1];
if list1 != list2 {
return Err(errors::LinkRlibError::IncompatibleDependencyFormats {
ty1: format!("{ty1:?}"),
ty2: format!("{ty2:?}"),
list1: format!("{list1:?}"),
list2: format!("{list2:?}"),
});
}
}
if info.dependency_formats.is_empty() {
return Err(errors::LinkRlibError::MissingFormat);
}
&info.dependency_formats[0].1
} else {
let fmts = info
.dependency_formats
.iter()
.find_map(|&(ty, ref list)| if Some(ty) == crate_type { Some(list) } else { None });
let Some(fmts) = fmts else {
return Err(errors::LinkRlibError::MissingFormat);
};
fmts
};
for &cnum in crates {
match fmts.get(cnum.as_usize() - 1) {
Some(&Linkage::NotLinked | &Linkage::Dynamic | &Linkage::IncludedFromDylib) => continue,
Some(_) => {}
None => return Err(errors::LinkRlibError::MissingFormat),
}
let crate_name = info.crate_name[&cnum];
let used_crate_source = &info.used_crate_source[&cnum];
if let Some((path, _)) = &used_crate_source.rlib {
f(cnum, &path);
} else {
if used_crate_source.rmeta.is_some() {
return Err(errors::LinkRlibError::OnlyRmetaFound { crate_name });
} else {
return Err(errors::LinkRlibError::NotFound { crate_name });
}
}
}
Ok(())
}
/// Create an 'rlib'.
///
/// An rlib in its current incarnation is essentially a renamed .a file (with "dummy" object files).
/// The rlib primarily contains the object file of the crate, but it also some of the object files
/// from native libraries.
fn link_rlib<'a>(
sess: &'a Session,
archive_builder_builder: &dyn ArchiveBuilderBuilder,
codegen_results: &CodegenResults,
flavor: RlibFlavor,
tmpdir: &MaybeTempDir,
) -> Result<Box<dyn ArchiveBuilder<'a> + 'a>, ErrorGuaranteed> {
let lib_search_paths = archive_search_paths(sess);
let mut ab = archive_builder_builder.new_archive_builder(sess);
let trailing_metadata = match flavor {
RlibFlavor::Normal => {
let (metadata, metadata_position) =
create_wrapper_file(sess, b".rmeta".to_vec(), codegen_results.metadata.raw_data());
let metadata = emit_wrapper_file(sess, &metadata, tmpdir, METADATA_FILENAME);
match metadata_position {
MetadataPosition::First => {
// Most of the time metadata in rlib files is wrapped in a "dummy" object
// file for the target platform so the rlib can be processed entirely by
// normal linkers for the platform. Sometimes this is not possible however.
// If it is possible however, placing the metadata object first improves
// performance of getting metadata from rlibs.
ab.add_file(&metadata);
None
}
MetadataPosition::Last => Some(metadata),
}
}
RlibFlavor::StaticlibBase => None,
};
for m in &codegen_results.modules {
if let Some(obj) = m.object.as_ref() {
ab.add_file(obj);
}
if let Some(dwarf_obj) = m.dwarf_object.as_ref() {
ab.add_file(dwarf_obj);
}
}
match flavor {
RlibFlavor::Normal => {}
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);
}
}
}
// Used if packed_bundled_libs flag enabled.
let mut packed_bundled_libs = Vec::new();
// 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() {
let NativeLibKind::Static { bundle: None | Some(true), whole_archive } = lib.kind else {
continue;
};
if whole_archive == Some(true)
&& flavor == RlibFlavor::Normal
&& !codegen_results.crate_info.feature_packed_bundled_libs
{
sess.emit_err(errors::IncompatibleLinkingModifiers);
}
if flavor == RlibFlavor::Normal && let Some(filename) = lib.filename {
let path = find_native_static_library(filename.as_str(), true, &lib_search_paths, sess);
let src = read(path).map_err(|e| sess.emit_fatal(errors::ReadFileError {message: e }))?;
let (data, _) = create_wrapper_file(sess, b".bundled_lib".to_vec(), &src);
let wrapper_file = emit_wrapper_file(sess, &data, tmpdir, filename.as_str());
packed_bundled_libs.push(wrapper_file);
} else {
let path =
find_native_static_library(lib.name.as_str(), lib.verbatim, &lib_search_paths, sess);
ab.add_archive(&path, Box::new(|_| false)).unwrap_or_else(|error| {
sess.emit_fatal(errors::AddNativeLibrary { library_path: path, error })});
}
}
for (raw_dylib_name, raw_dylib_imports) in
collate_raw_dylibs(sess, codegen_results.crate_info.used_libraries.iter())?
{
let output_path = archive_builder_builder.create_dll_import_lib(
sess,
&raw_dylib_name,
&raw_dylib_imports,
tmpdir.as_ref(),
true,
);
ab.add_archive(&output_path, Box::new(|_| false)).unwrap_or_else(|error| {
sess.emit_fatal(errors::AddNativeLibrary { library_path: output_path, error });
});
}
if let Some(trailing_metadata) = trailing_metadata {
// 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.
//
// * Most of the time metadata in rlib files is wrapped in a "dummy" object
// file for the target platform so the rlib can be processed entirely by
// normal linkers for the platform. Sometimes this is not possible however.
//
// Basically, all this means is that this code should not move above the
// code above.
ab.add_file(&trailing_metadata);
}
// Add all bundled static native library dependencies.
// Archives added to the end of .rlib archive, see comment above for the reason.
for lib in packed_bundled_libs {
ab.add_file(&lib)
}
return Ok(ab);
}
/// Extract all symbols defined in raw-dylib libraries, collated by library name.
///
/// If we have multiple extern blocks that specify symbols defined in the same raw-dylib library,
/// then the CodegenResults value contains one NativeLib instance for each block. However, the
/// linker appears to expect only a single import library for each library used, so we need to
/// collate the symbols together by library name before generating the import libraries.
fn collate_raw_dylibs<'a, 'b>(
sess: &'a Session,
used_libraries: impl IntoIterator<Item = &'b NativeLib>,
) -> Result<Vec<(String, Vec<DllImport>)>, ErrorGuaranteed> {
// Use index maps to preserve original order of imports and libraries.
let mut dylib_table = FxIndexMap::<String, FxIndexMap<Symbol, &DllImport>>::default();
for lib in used_libraries {
if lib.kind == NativeLibKind::RawDylib {
let ext = if lib.verbatim { "" } else { ".dll" };
let name = format!("{}{}", lib.name, ext);
let imports = dylib_table.entry(name.clone()).or_default();
for import in &lib.dll_imports {
if let Some(old_import) = imports.insert(import.name, import) {
// FIXME: when we add support for ordinals, figure out if we need to do anything
// if we have two DllImport values with the same name but different ordinals.
if import.calling_convention != old_import.calling_convention {
sess.emit_err(errors::MultipleExternalFuncDecl {
span: import.span,
function: import.name,
library_name: &name,
});
}
}
}
}
}
sess.compile_status()?;
Ok(dylib_table
.into_iter()
.map(|(name, imports)| {
(name, imports.into_iter().map(|(_, import)| import.clone()).collect())
})
.collect())
}
/// 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>(
sess: &'a Session,
archive_builder_builder: &dyn ArchiveBuilderBuilder,
codegen_results: &CodegenResults,
out_filename: &Path,
tempdir: &MaybeTempDir,
) -> Result<(), ErrorGuaranteed> {
info!("preparing staticlib to {:?}", out_filename);
let mut ab = link_rlib(
sess,
archive_builder_builder,
codegen_results,
RlibFlavor::StaticlibBase,
tempdir,
)?;
let mut all_native_libs = vec![];
let res = each_linked_rlib(
&codegen_results.crate_info,
Some(CrateType::Staticlib),
&mut |cnum, path| {
let lto = are_upstream_rust_objects_already_included(sess)
&& !ignored_for_lto(sess, &codegen_results.crate_info, cnum);
let native_libs = codegen_results.crate_info.native_libraries[&cnum].iter();
let relevant = native_libs.clone().filter(|lib| relevant_lib(sess, &lib));
let relevant_libs: FxHashSet<_> = relevant.filter_map(|lib| lib.filename).collect();
let bundled_libs: FxHashSet<_> = native_libs.filter_map(|lib| lib.filename).collect();
ab.add_archive(
path,
Box::new(move |fname: &str| {
// Ignore metadata files, no matter the name.
if fname == METADATA_FILENAME {
return true;
}
// Don't include Rust objects if LTO is enabled
if lto && looks_like_rust_object_file(fname) {
return true;
}
// Skip objects for bundled libs.
if bundled_libs.contains(&Symbol::intern(fname)) {
return true;
}
false
}),
)
.unwrap();
archive_builder_builder
.extract_bundled_libs(path, tempdir.as_ref(), &relevant_libs)
.unwrap_or_else(|e| sess.emit_fatal(e));
for filename in relevant_libs {
let joined = tempdir.as_ref().join(filename.as_str());
let path = joined.as_path();
ab.add_archive(path, Box::new(|_| false)).unwrap();
}
all_native_libs
.extend(codegen_results.crate_info.native_libraries[&cnum].iter().cloned());
},
);
if let Err(e) = res {
sess.emit_fatal(e);
}
ab.build(out_filename);
let crates = codegen_results.crate_info.used_crates.iter();
let fmts = codegen_results
.crate_info
.dependency_formats
.iter()
.find_map(|&(ty, ref list)| if ty == CrateType::Staticlib { Some(list) } else { None })
.expect("no dependency formats for staticlib");
let mut all_rust_dylibs = vec![];
for &cnum in crates {
match fmts.get(cnum.as_usize() - 1) {
Some(&Linkage::Dynamic) => {}
_ => continue,
}
let crate_name = codegen_results.crate_info.crate_name[&cnum];
let used_crate_source = &codegen_results.crate_info.used_crate_source[&cnum];
if let Some((path, _)) = &used_crate_source.dylib {
all_rust_dylibs.push(&**path);
} else {
if used_crate_source.rmeta.is_some() {
sess.emit_fatal(errors::LinkRlibError::OnlyRmetaFound { crate_name });
} else {
sess.emit_fatal(errors::LinkRlibError::NotFound { crate_name });
}
}
}
all_native_libs.extend_from_slice(&codegen_results.crate_info.used_libraries);
for print in &sess.opts.prints {
if print.kind == PrintKind::NativeStaticLibs {
print_native_static_libs(sess, &print.out, &all_native_libs, &all_rust_dylibs);
}
}
Ok(())
}
/// Use `thorin` (rust implementation of a dwarf packaging utility) to link DWARF objects into a
/// DWARF package.
fn link_dwarf_object<'a>(
sess: &'a Session,
cg_results: &CodegenResults,
executable_out_filename: &Path,
) {
let mut dwp_out_filename = executable_out_filename.to_path_buf().into_os_string();
dwp_out_filename.push(".dwp");
debug!(?dwp_out_filename, ?executable_out_filename);
#[derive(Default)]
struct ThorinSession<Relocations> {
arena_data: TypedArena<Vec<u8>>,
arena_mmap: TypedArena<Mmap>,
arena_relocations: TypedArena<Relocations>,
}
impl<Relocations> ThorinSession<Relocations> {
fn alloc_mmap(&self, data: Mmap) -> &Mmap {
&*self.arena_mmap.alloc(data)
}
}
impl<Relocations> thorin::Session<Relocations> for ThorinSession<Relocations> {
fn alloc_data(&self, data: Vec<u8>) -> &[u8] {
&*self.arena_data.alloc(data)
}
fn alloc_relocation(&self, data: Relocations) -> &Relocations {
&*self.arena_relocations.alloc(data)
}
fn read_input(&self, path: &Path) -> std::io::Result<&[u8]> {
let file = File::open(&path)?;
let mmap = (unsafe { Mmap::map(file) })?;
Ok(self.alloc_mmap(mmap))
}
}
match sess.time("run_thorin", || -> Result<(), thorin::Error> {
let thorin_sess = ThorinSession::default();
let mut package = thorin::DwarfPackage::new(&thorin_sess);
// Input objs contain .o/.dwo files from the current crate.
match sess.opts.unstable_opts.split_dwarf_kind {
SplitDwarfKind::Single => {
for input_obj in cg_results.modules.iter().filter_map(|m| m.object.as_ref()) {
package.add_input_object(input_obj)?;
}
}
SplitDwarfKind::Split => {
for input_obj in cg_results.modules.iter().filter_map(|m| m.dwarf_object.as_ref()) {
package.add_input_object(input_obj)?;
}
}
}
// Input rlibs contain .o/.dwo files from dependencies.
let input_rlibs = cg_results
.crate_info
.used_crate_source
.values()
.filter_map(|csource| csource.rlib.as_ref())
.map(|(path, _)| path);
for input_rlib in input_rlibs {
debug!(?input_rlib);
package.add_input_object(input_rlib)?;
}
// Failing to read the referenced objects is expected for dependencies where the path in the
// executable will have been cleaned by Cargo, but the referenced objects will be contained
// within rlibs provided as inputs.
//
// If paths have been remapped, then .o/.dwo files from the current crate also won't be
// found, but are provided explicitly above.
//
// Adding an executable is primarily done to make `thorin` check that all the referenced
// dwarf objects are found in the end.
package.add_executable(
&executable_out_filename,
thorin::MissingReferencedObjectBehaviour::Skip,
)?;
let output_stream = BufWriter::new(
OpenOptions::new()
.read(true)
.write(true)
.create(true)
.truncate(true)
.open(dwp_out_filename)?,
);
let mut output_stream = object::write::StreamingBuffer::new(output_stream);
package.finish()?.emit(&mut output_stream)?;
output_stream.result()?;
output_stream.into_inner().flush()?;
Ok(())
}) {
Ok(()) => {}
Err(e) => {
sess.emit_err(errors::ThorinErrorWrapper(e));
sess.abort_if_errors();
}
}
}
/// 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>(
sess: &'a Session,
archive_builder_builder: &dyn ArchiveBuilderBuilder,
crate_type: CrateType,
out_filename: &Path,
codegen_results: &CodegenResults,
tmpdir: &Path,
) -> Result<(), ErrorGuaranteed> {
info!("preparing {:?} to {:?}", crate_type, out_filename);
let (linker_path, flavor) = linker_and_flavor(sess);
let mut cmd = linker_with_args(
&linker_path,
flavor,
sess,
archive_builder_builder,
crate_type,
tmpdir,
out_filename,
codegen_results,
)?;
linker::disable_localization(&mut cmd);
for (k, v) in sess.target.link_env.as_ref() {
cmd.env(k.as_ref(), v.as_ref());
}
for k in sess.target.link_env_remove.as_ref() {
cmd.env_remove(k.as_ref());
}
for print in &sess.opts.prints {
if print.kind == PrintKind::LinkArgs {
let content = format!("{:?}", cmd);
print.out.overwrite(&content, sess);
}
}
// 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 unknown_arg_regex =
Regex::new(r"(unknown|unrecognized) (command line )?(option|argument)").unwrap();
let mut prog;
let mut i = 0;
loop {
i += 1;
prog = sess.time("run_linker", || exec_linker(sess, &cmd, out_filename, tmpdir));
let Ok(ref output) = prog else {
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 an error message that indicates it
// doesn't recognize the -no-pie option. If so, re-perform the link step
// without it. 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 matches!(flavor, LinkerFlavor::Gnu(Cc::Yes, _))
&& unknown_arg_regex.is_match(&out)
&& 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;
}
// Detect '-static-pie' used with an older version of gcc or clang not supporting it.
// Fallback from '-static-pie' to '-static' in that case.
if matches!(flavor, LinkerFlavor::Gnu(Cc::Yes, _))
&& unknown_arg_regex.is_match(&out)
&& (out.contains("-static-pie") || out.contains("--no-dynamic-linker"))
&& cmd.get_args().iter().any(|e| e.to_string_lossy() == "-static-pie")
{
info!("linker output: {:?}", out);
warn!(
"Linker does not support -static-pie command line option. Retrying with -static instead."
);
// Mirror `add_(pre,post)_link_objects` to replace CRT objects.
let self_contained = self_contained(sess, crate_type);
let opts = &sess.target;
let pre_objects = if self_contained {
&opts.pre_link_objects_self_contained
} else {
&opts.pre_link_objects
};
let post_objects = if self_contained {
&opts.post_link_objects_self_contained
} else {
&opts.post_link_objects
};
let get_objects = |objects: &CrtObjects, kind| {
objects
.get(&kind)
.iter()
.copied()
.flatten()
.map(|obj| get_object_file_path(sess, obj, self_contained).into_os_string())
.collect::<Vec<_>>()
};
let pre_objects_static_pie = get_objects(pre_objects, LinkOutputKind::StaticPicExe);
let post_objects_static_pie = get_objects(post_objects, LinkOutputKind::StaticPicExe);
let mut pre_objects_static = get_objects(pre_objects, LinkOutputKind::StaticNoPicExe);
let mut post_objects_static = get_objects(post_objects, LinkOutputKind::StaticNoPicExe);
// Assume that we know insertion positions for the replacement arguments from replaced
// arguments, which is true for all supported targets.
assert!(pre_objects_static.is_empty() || !pre_objects_static_pie.is_empty());
assert!(post_objects_static.is_empty() || !post_objects_static_pie.is_empty());
for arg in cmd.take_args() {
if arg.to_string_lossy() == "-static-pie" {
// Replace the output kind.
cmd.arg("-static");
} else if pre_objects_static_pie.contains(&arg) {
// Replace the pre-link objects (replace the first and remove the rest).
cmd.args(mem::take(&mut pre_objects_static));
} else if post_objects_static_pie.contains(&arg) {
// Replace the post-link objects (replace the first and remove the rest).
cmd.args(mem::take(&mut post_objects_static));
} else {
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!(
?cmd, %out,
"looks like the linker segfaulted when we tried to call it, \
automatically retrying again",
);
continue;
}
if is_illegal_instruction(&output.status) {
warn!(
?cmd, %out, status = %output.status,
"looks like the linker hit an illegal instruction when we \
tried to call it, automatically retrying again.",
);
continue;
}
#[cfg(unix)]
fn is_illegal_instruction(status: &ExitStatus) -> bool {
use std::os::unix::prelude::*;
status.signal() == Some(libc::SIGILL)
}
#[cfg(not(unix))]
fn is_illegal_instruction(_status: &ExitStatus) -> bool {
false
}
}
match prog {
Ok(prog) => {
if !prog.status.success() {
let mut output = prog.stderr.clone();
output.extend_from_slice(&prog.stdout);
let escaped_output = escape_linker_output(&output, flavor);
// FIXME: Add UI tests for this error.
let err = errors::LinkingFailed {
linker_path: &linker_path,
exit_status: prog.status,
command: &cmd,
escaped_output,
};
sess.diagnostic().emit_err(err);
// If MSVC's `link.exe` was expected but the return code
// is not a Microsoft LNK error then suggest a way to fix or
// install the Visual Studio build tools.
if let Some(code) = prog.status.code() {
if sess.target.is_like_msvc
&& flavor == LinkerFlavor::Msvc(Lld::No)
// Respect the command line override
&& sess.opts.cg.linker.is_none()
// Match exactly "link.exe"
&& linker_path.to_str() == Some("link.exe")
// All Microsoft `link.exe` linking error codes are
// four digit numbers in the range 1000 to 9999 inclusive
&& (code < 1000 || code > 9999)
{
let is_vs_installed = windows_registry::find_vs_version().is_ok();
let has_linker = windows_registry::find_tool(
&sess.opts.target_triple.triple(),
"link.exe",
)
.is_some();
sess.emit_note(errors::LinkExeUnexpectedError);
if is_vs_installed && has_linker {
// the linker is broken
sess.emit_note(errors::RepairVSBuildTools);
sess.emit_note(errors::MissingCppBuildToolComponent);
} else if is_vs_installed {
// the linker is not installed
sess.emit_note(errors::SelectCppBuildToolWorkload);
} else {
// visual studio is not installed
sess.emit_note(errors::VisualStudioNotInstalled);
}
}
}
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;
if linker_not_found {
sess.emit_err(errors::LinkerNotFound { linker_path, error: e });
} else {
sess.emit_err(errors::UnableToExeLinker {
linker_path,
error: e,
command_formatted: format!("{:?}", &cmd),
});
}
if sess.target.is_like_msvc && linker_not_found {
sess.emit_note(errors::MsvcMissingLinker);
sess.emit_note(errors::CheckInstalledVisualStudio);
sess.emit_note(errors::InsufficientVSCodeProduct);
}
sess.abort_if_errors();
}
}
match sess.split_debuginfo() {
// If split debug information is disabled or located in individual files
// there's nothing to do here.
SplitDebuginfo::Off | SplitDebuginfo::Unpacked => {}
// If packed split-debuginfo is requested, but the final compilation
// doesn't actually have any debug information, then we skip this step.
SplitDebuginfo::Packed if sess.opts.debuginfo == DebugInfo::None => {}
// On macOS the external `dsymutil` tool is used to create the packed
// debug information. Note that this will read debug information from
// the objects on the filesystem which we'll clean up later.
SplitDebuginfo::Packed if sess.target.is_like_osx => {
let prog = Command::new("dsymutil").arg(out_filename).output();