use std::ffi::{OsStr, OsString}; use std::fs::{self, File}; use std::io::prelude::*; use std::path::{Path, PathBuf}; use std::{env, io, iter, mem, str}; use cc::windows_registry; use rustc_hir::def_id::{CrateNum, LOCAL_CRATE}; use rustc_metadata::{ find_native_static_library, try_find_native_dynamic_library, try_find_native_static_library, }; use rustc_middle::bug; use rustc_middle::middle::dependency_format::Linkage; use rustc_middle::middle::exported_symbols; use rustc_middle::middle::exported_symbols::{ExportedSymbol, SymbolExportInfo, SymbolExportKind}; use rustc_middle::ty::TyCtxt; use rustc_session::Session; use rustc_session::config::{self, CrateType, DebugInfo, LinkerPluginLto, Lto, OptLevel, Strip}; use rustc_span::sym; use rustc_target::spec::{Cc, LinkOutputKind, LinkerFlavor, Lld}; use tracing::{debug, warn}; use super::command::Command; use super::symbol_export; use crate::errors; #[cfg(test)] mod tests; /// Disables non-English messages from localized linkers. /// Such messages may cause issues with text encoding on Windows (#35785) /// and prevent inspection of linker output in case of errors, which we occasionally do. /// This should be acceptable because other messages from rustc are in English anyway, /// and may also be desirable to improve searchability of the linker diagnostics. pub(crate) fn disable_localization(linker: &mut Command) { // No harm in setting both env vars simultaneously. // Unix-style linkers. linker.env("LC_ALL", "C"); // MSVC's `link.exe`. linker.env("VSLANG", "1033"); } /// 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(crate) fn get_linker<'a>( sess: &'a Session, linker: &Path, flavor: LinkerFlavor, self_contained: bool, target_cpu: &'a str, ) -> Box { let msvc_tool = windows_registry::find_tool(&sess.target.arch, "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::Gnu(Cc::No, Lld::Yes) | LinkerFlavor::Darwin(Cc::No, Lld::Yes) | LinkerFlavor::WasmLld(Cc::No) | LinkerFlavor::Msvc(Lld::Yes) => Command::lld(linker, flavor.lld_flavor()), LinkerFlavor::Msvc(Lld::No) if sess.opts.cg.linker.is_none() && sess.target.linker.is_none() => { Command::new(msvc_tool.as_ref().map_or(linker, |t| t.path())) } _ => 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; if matches!(flavor, LinkerFlavor::Msvc(..)) && t.vendor == "uwp" { if let Some(ref tool) = msvc_tool { let original_path = tool.path(); if let Some(root_lib_path) = original_path.ancestors().nth(4) { let arch = match t.arch.as_ref() { "x86_64" => Some("x64"), "x86" => Some("x86"), "aarch64" => Some("arm64"), "arm" => Some("arm"), _ => None, }; if let Some(ref a) = arch { // FIXME: Move this to `fn linker_with_args`. let mut arg = OsString::from("/LIBPATH:"); arg.push(format!("{}\\lib\\{}\\store", root_lib_path.display(), a)); 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.get_tools_search_paths(self_contained); let mut msvc_changed_path = false; if sess.target.is_like_msvc && let Some(ref tool) = msvc_tool { cmd.args(tool.args()); for (k, 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 && let Some(path) = env::var_os("PATH") { new_path.extend(env::split_paths(&path)); } cmd.env("PATH", env::join_paths(new_path).unwrap()); // FIXME: Move `/LIBPATH` addition for uwp targets from the linker construction // to the linker args construction. assert!(cmd.get_args().is_empty() || sess.target.vendor == "uwp"); match flavor { LinkerFlavor::Unix(Cc::No) if sess.target.os == "l4re" => { Box::new(L4Bender::new(cmd, sess)) as Box } LinkerFlavor::Unix(Cc::No) if sess.target.os == "aix" => { Box::new(AixLinker::new(cmd, sess)) as Box } LinkerFlavor::WasmLld(Cc::No) => Box::new(WasmLd::new(cmd, sess)) as Box, LinkerFlavor::Gnu(cc, _) | LinkerFlavor::Darwin(cc, _) | LinkerFlavor::WasmLld(cc) | LinkerFlavor::Unix(cc) => Box::new(GccLinker { cmd, sess, target_cpu, hinted_static: None, is_ld: cc == Cc::No, is_gnu: flavor.is_gnu(), uses_lld: flavor.uses_lld(), }) as Box, LinkerFlavor::Msvc(..) => Box::new(MsvcLinker { cmd, sess }) as Box, LinkerFlavor::EmCc => Box::new(EmLinker { cmd, sess }) as Box, LinkerFlavor::Bpf => Box::new(BpfLinker { cmd, sess }) as Box, LinkerFlavor::Llbc => Box::new(LlbcLinker { cmd, sess }) as Box, LinkerFlavor::Ptx => Box::new(PtxLinker { cmd, sess }) as Box, } } // Note: Ideally neither these helper function, nor the macro-generated inherent methods below // would exist, and these functions would live in `trait Linker`. // Unfortunately, adding these functions to `trait Linker` make it `dyn`-incompatible. // If the methods are added to the trait with `where Self: Sized` bounds, then even a separate // implementation of them for `dyn Linker {}` wouldn't work due to a conflict with those // uncallable methods in the trait. /// Just pass the arguments to the linker as is. /// It is assumed that they are correctly prepared in advance. fn verbatim_args( l: &mut L, args: impl IntoIterator>, ) -> &mut L { for arg in args { l.cmd().arg(arg); } l } /// Add underlying linker arguments to C compiler command, by wrapping them in /// `-Wl` or `-Xlinker`. fn convert_link_args_to_cc_args(cmd: &mut Command, args: impl IntoIterator>) { let mut combined_arg = OsString::from("-Wl"); for arg in args { // If the argument itself contains a comma, we need to emit it // as `-Xlinker`, otherwise we can use `-Wl`. if arg.as_ref().as_encoded_bytes().contains(&b',') { // Emit current `-Wl` argument, if any has been built. if combined_arg != OsStr::new("-Wl") { cmd.arg(combined_arg); // Begin next `-Wl` argument. combined_arg = OsString::from("-Wl"); } // Emit `-Xlinker` argument. cmd.arg("-Xlinker"); cmd.arg(arg); } else { // Append to `-Wl` argument. combined_arg.push(","); combined_arg.push(arg); } } // Emit final `-Wl` argument. if combined_arg != OsStr::new("-Wl") { cmd.arg(combined_arg); } } /// Arguments for the underlying linker. /// Add options to pass them through cc wrapper if `Linker` is a cc wrapper. fn link_args(l: &mut L, args: impl IntoIterator>) -> &mut L { if !l.is_cc() { verbatim_args(l, args); } else { convert_link_args_to_cc_args(l.cmd(), args); } l } /// Arguments for the cc wrapper specifically. /// Check that it's indeed a cc wrapper and pass verbatim. fn cc_args(l: &mut L, args: impl IntoIterator>) -> &mut L { assert!(l.is_cc()); verbatim_args(l, args) } /// Arguments supported by both underlying linker and cc wrapper, pass verbatim. fn link_or_cc_args( l: &mut L, args: impl IntoIterator>, ) -> &mut L { verbatim_args(l, args) } macro_rules! generate_arg_methods { ($($ty:ty)*) => { $( impl $ty { #[allow(unused)] pub(crate) fn verbatim_args(&mut self, args: impl IntoIterator>) -> &mut Self { verbatim_args(self, args) } #[allow(unused)] pub(crate) fn verbatim_arg(&mut self, arg: impl AsRef) -> &mut Self { verbatim_args(self, iter::once(arg)) } #[allow(unused)] pub(crate) fn link_args(&mut self, args: impl IntoIterator>) -> &mut Self { link_args(self, args) } #[allow(unused)] pub(crate) fn link_arg(&mut self, arg: impl AsRef) -> &mut Self { link_args(self, iter::once(arg)) } #[allow(unused)] pub(crate) fn cc_args(&mut self, args: impl IntoIterator>) -> &mut Self { cc_args(self, args) } #[allow(unused)] pub(crate) fn cc_arg(&mut self, arg: impl AsRef) -> &mut Self { cc_args(self, iter::once(arg)) } #[allow(unused)] pub(crate) fn link_or_cc_args(&mut self, args: impl IntoIterator>) -> &mut Self { link_or_cc_args(self, args) } #[allow(unused)] pub(crate) fn link_or_cc_arg(&mut self, arg: impl AsRef) -> &mut Self { link_or_cc_args(self, iter::once(arg)) } } )* } } generate_arg_methods! { GccLinker<'_> MsvcLinker<'_> EmLinker<'_> WasmLd<'_> L4Bender<'_> AixLinker<'_> LlbcLinker<'_> PtxLinker<'_> BpfLinker<'_> dyn Linker + '_ } /// Linker abstraction used by `back::link` to build up the command to invoke a /// linker. /// /// This trait is the total list of requirements needed by `back::link` and /// represents the meaning of each option being passed down. This trait is then /// used to dispatch on whether a GNU-like linker (generally `ld.exe`) or an /// MSVC linker (e.g., `link.exe`) is being used. pub(crate) trait Linker { fn cmd(&mut self) -> &mut Command; fn is_cc(&self) -> bool { false } fn set_output_kind( &mut self, output_kind: LinkOutputKind, crate_type: CrateType, out_filename: &Path, ); fn link_dylib_by_name(&mut self, _name: &str, _verbatim: bool, _as_needed: bool) { bug!("dylib linked with unsupported linker") } fn link_dylib_by_path(&mut self, _path: &Path, _as_needed: bool) { bug!("dylib linked with unsupported linker") } fn link_framework_by_name(&mut self, _name: &str, _verbatim: bool, _as_needed: bool) { bug!("framework linked with unsupported linker") } fn link_staticlib_by_name(&mut self, name: &str, verbatim: bool, whole_archive: bool); fn link_staticlib_by_path(&mut self, path: &Path, whole_archive: bool); fn include_path(&mut self, path: &Path) { link_or_cc_args(link_or_cc_args(self, &["-L"]), &[path]); } fn framework_path(&mut self, _path: &Path) { bug!("framework path set with unsupported linker") } fn output_filename(&mut self, path: &Path) { link_or_cc_args(link_or_cc_args(self, &["-o"]), &[path]); } fn add_object(&mut self, path: &Path) { link_or_cc_args(self, &[path]); } fn gc_sections(&mut self, keep_metadata: bool); fn no_gc_sections(&mut self); fn full_relro(&mut self); fn partial_relro(&mut self); fn no_relro(&mut self); fn optimize(&mut self); fn pgo_gen(&mut self); fn control_flow_guard(&mut self); fn ehcont_guard(&mut self); fn debuginfo(&mut self, strip: Strip, natvis_debugger_visualizers: &[PathBuf]); fn no_crt_objects(&mut self); fn no_default_libraries(&mut self); fn export_symbols(&mut self, tmpdir: &Path, crate_type: CrateType, symbols: &[String]); fn subsystem(&mut self, subsystem: &str); fn linker_plugin_lto(&mut self); fn add_eh_frame_header(&mut self) {} fn add_no_exec(&mut self) {} fn add_as_needed(&mut self) {} fn reset_per_library_state(&mut self) {} } impl dyn Linker + '_ { pub(crate) fn take_cmd(&mut self) -> Command { mem::replace(self.cmd(), Command::new("")) } } struct GccLinker<'a> { cmd: Command, sess: &'a Session, target_cpu: &'a str, hinted_static: Option, // Keeps track of the current hinting mode. // Link as ld is_ld: bool, is_gnu: bool, uses_lld: bool, } impl<'a> GccLinker<'a> { fn takes_hints(&self) -> bool { // Really this function only returns true if the underlying linker // configured for a compiler is binutils `ld.bfd` and `ld.gold`. We // don't really have a foolproof way to detect that, so rule out some // platforms where currently this is guaranteed to *not* be the case: // // * On OSX they have their own linker, not binutils' // * For WebAssembly the only functional linker is LLD, which doesn't // support hint flags !self.sess.target.is_like_osx && !self.sess.target.is_like_wasm } // Some platforms take hints about whether a library is static or dynamic. // For those that support this, we ensure we pass the option if the library // was flagged "static" (most defaults are dynamic) to ensure that if // libfoo.a and libfoo.so both exist that the right one is chosen. fn hint_static(&mut self) { if !self.takes_hints() { return; } if self.hinted_static != Some(true) { self.link_arg("-Bstatic"); self.hinted_static = Some(true); } } fn hint_dynamic(&mut self) { if !self.takes_hints() { return; } if self.hinted_static != Some(false) { self.link_arg("-Bdynamic"); self.hinted_static = Some(false); } } fn push_linker_plugin_lto_args(&mut self, plugin_path: Option<&OsStr>) { if let Some(plugin_path) = plugin_path { let mut arg = OsString::from("-plugin="); arg.push(plugin_path); self.link_arg(&arg); } let opt_level = match self.sess.opts.optimize { config::OptLevel::No => "O0", config::OptLevel::Less => "O1", config::OptLevel::More | config::OptLevel::Size | config::OptLevel::SizeMin => "O2", config::OptLevel::Aggressive => "O3", }; if let Some(path) = &self.sess.opts.unstable_opts.profile_sample_use { self.link_arg(&format!("-plugin-opt=sample-profile={}", path.display())); }; self.link_args(&[ &format!("-plugin-opt={opt_level}"), &format!("-plugin-opt=mcpu={}", self.target_cpu), ]); } fn build_dylib(&mut self, crate_type: CrateType, out_filename: &Path) { // On mac we need to tell the linker to let this library be rpathed if self.sess.target.is_like_osx { if self.is_cc() { // `-dynamiclib` makes `cc` pass `-dylib` to the linker. self.cc_arg("-dynamiclib"); } else { self.link_arg("-dylib"); // Clang also sets `-dynamic`, but that's implied by `-dylib`, so unnecessary. } // Note that the `osx_rpath_install_name` option here is a hack // purely to support bootstrap right now, we should get a more // principled solution at some point to force the compiler to pass // the right `-Wl,-install_name` with an `@rpath` in it. if self.sess.opts.cg.rpath || self.sess.opts.unstable_opts.osx_rpath_install_name { let mut rpath = OsString::from("@rpath/"); rpath.push(out_filename.file_name().unwrap()); self.link_arg("-install_name").link_arg(rpath); } } else { self.link_or_cc_arg("-shared"); if let Some(name) = out_filename.file_name() { if self.sess.target.is_like_windows { // The output filename already contains `dll_suffix` so // the resulting import library will have a name in the // form of libfoo.dll.a let (prefix, suffix) = self.sess.staticlib_components(false); let mut implib_name = OsString::from(prefix); implib_name.push(name); implib_name.push(suffix); let mut out_implib = OsString::from("--out-implib="); out_implib.push(out_filename.with_file_name(implib_name)); self.link_arg(out_implib); } else if crate_type == CrateType::Dylib { // When dylibs are linked by a full path this value will get into `DT_NEEDED` // instead of the full path, so the library can be later found in some other // location than that specific path. let mut soname = OsString::from("-soname="); soname.push(name); self.link_arg(soname); } } } } fn with_as_needed(&mut self, as_needed: bool, f: impl FnOnce(&mut Self)) { if !as_needed { if self.sess.target.is_like_osx { // FIXME(81490): ld64 doesn't support these flags but macOS 11 // has -needed-l{} / -needed_library {} // but we have no way to detect that here. self.sess.dcx().emit_warn(errors::Ld64UnimplementedModifier); } else if self.is_gnu && !self.sess.target.is_like_windows { self.link_arg("--no-as-needed"); } else { self.sess.dcx().emit_warn(errors::LinkerUnsupportedModifier); } } f(self); if !as_needed { if self.sess.target.is_like_osx { // See above FIXME comment } else if self.is_gnu && !self.sess.target.is_like_windows { self.link_arg("--as-needed"); } } } } impl<'a> Linker for GccLinker<'a> { fn cmd(&mut self) -> &mut Command { &mut self.cmd } fn is_cc(&self) -> bool { !self.is_ld } fn set_output_kind( &mut self, output_kind: LinkOutputKind, crate_type: CrateType, out_filename: &Path, ) { match output_kind { LinkOutputKind::DynamicNoPicExe => { if !self.is_ld && self.is_gnu { self.cc_arg("-no-pie"); } } LinkOutputKind::DynamicPicExe => { // noop on windows w/ gcc & ld, error w/ lld if !self.sess.target.is_like_windows { // `-pie` works for both gcc wrapper and ld. self.link_or_cc_arg("-pie"); } } LinkOutputKind::StaticNoPicExe => { // `-static` works for both gcc wrapper and ld. self.link_or_cc_arg("-static"); if !self.is_ld && self.is_gnu { self.cc_arg("-no-pie"); } } LinkOutputKind::StaticPicExe => { if !self.is_ld { // Note that combination `-static -pie` doesn't work as expected // for the gcc wrapper, `-static` in that case suppresses `-pie`. self.cc_arg("-static-pie"); } else { // `--no-dynamic-linker` and `-z text` are not strictly necessary for producing // a static pie, but currently passed because gcc and clang pass them. // The former suppresses the `INTERP` ELF header specifying dynamic linker, // which is otherwise implicitly injected by ld (but not lld). // The latter doesn't change anything, only ensures that everything is pic. self.link_args(&["-static", "-pie", "--no-dynamic-linker", "-z", "text"]); } } LinkOutputKind::DynamicDylib => self.build_dylib(crate_type, out_filename), LinkOutputKind::StaticDylib => { self.link_or_cc_arg("-static"); self.build_dylib(crate_type, out_filename); } LinkOutputKind::WasiReactorExe => { self.link_args(&["--entry", "_initialize"]); } } // VxWorks compiler driver introduced `--static-crt` flag specifically for rustc, // it switches linking for libc and similar system libraries to static without using // any `#[link]` attributes in the `libc` crate, see #72782 for details. // FIXME: Switch to using `#[link]` attributes in the `libc` crate // similarly to other targets. if self.sess.target.os == "vxworks" && matches!( output_kind, LinkOutputKind::StaticNoPicExe | LinkOutputKind::StaticPicExe | LinkOutputKind::StaticDylib ) { self.cc_arg("--static-crt"); } // avr-none doesn't have default ISA, users must specify which specific // CPU (well, microcontroller) they are targetting using `-Ctarget-cpu`. // // Currently this makes sense only when using avr-gcc as a linker, since // it brings a couple of hand-written important intrinsics from libgcc. if self.sess.target.arch == "avr" && !self.uses_lld { self.verbatim_arg(format!("-mmcu={}", self.target_cpu)); } } fn link_dylib_by_name(&mut self, name: &str, verbatim: bool, as_needed: bool) { if self.sess.target.os == "illumos" && name == "c" { // libc will be added via late_link_args on illumos so that it will // appear last in the library search order. // FIXME: This should be replaced by a more complete and generic // mechanism for controlling the order of library arguments passed // to the linker. return; } self.hint_dynamic(); self.with_as_needed(as_needed, |this| { let colon = if verbatim && this.is_gnu { ":" } else { "" }; this.link_or_cc_arg(format!("-l{colon}{name}")); }); } fn link_dylib_by_path(&mut self, path: &Path, as_needed: bool) { self.hint_dynamic(); self.with_as_needed(as_needed, |this| { this.link_or_cc_arg(path); }) } fn link_framework_by_name(&mut self, name: &str, _verbatim: bool, as_needed: bool) { self.hint_dynamic(); if !as_needed { // FIXME(81490): ld64 as of macOS 11 supports the -needed_framework // flag but we have no way to detect that here. // self.link_or_cc_arg("-needed_framework").link_or_cc_arg(name); self.sess.dcx().emit_warn(errors::Ld64UnimplementedModifier); } self.link_or_cc_args(&["-framework", name]); } fn link_staticlib_by_name(&mut self, name: &str, verbatim: bool, whole_archive: bool) { self.hint_static(); let colon = if verbatim && self.is_gnu { ":" } else { "" }; if !whole_archive { self.link_or_cc_arg(format!("-l{colon}{name}")); } else if self.sess.target.is_like_osx { // -force_load is the macOS equivalent of --whole-archive, but it // involves passing the full path to the library to link. self.link_arg("-force_load"); self.link_arg(find_native_static_library(name, verbatim, self.sess)); } else { self.link_arg("--whole-archive") .link_or_cc_arg(format!("-l{colon}{name}")) .link_arg("--no-whole-archive"); } } fn link_staticlib_by_path(&mut self, path: &Path, whole_archive: bool) { self.hint_static(); if !whole_archive { self.link_or_cc_arg(path); } else if self.sess.target.is_like_osx { self.link_arg("-force_load").link_arg(path); } else { self.link_arg("--whole-archive").link_arg(path).link_arg("--no-whole-archive"); } } fn framework_path(&mut self, path: &Path) { self.link_or_cc_arg("-F").link_or_cc_arg(path); } fn full_relro(&mut self) { self.link_args(&["-z", "relro", "-z", "now"]); } fn partial_relro(&mut self) { self.link_args(&["-z", "relro"]); } fn no_relro(&mut self) { self.link_args(&["-z", "norelro"]); } fn gc_sections(&mut self, keep_metadata: bool) { // The dead_strip option to the linker specifies that functions and data // unreachable by the entry point will be removed. This is quite useful // with Rust's compilation model of compiling libraries at a time into // one object file. For example, this brings hello world from 1.7MB to // 458K. // // Note that this is done for both executables and dynamic libraries. We // won't get much benefit from dylibs because LLVM will have already // stripped away as much as it could. This has not been seen to impact // link times negatively. // // -dead_strip can't be part of the pre_link_args because it's also used // for partial linking when using multiple codegen units (-r). So we // insert it here. if self.sess.target.is_like_osx { self.link_arg("-dead_strip"); // If we're building a dylib, we don't use --gc-sections because LLVM // has already done the best it can do, and we also don't want to // eliminate the metadata. If we're building an executable, however, // --gc-sections drops the size of hello world from 1.8MB to 597K, a 67% // reduction. } else if (self.is_gnu || self.sess.target.is_like_wasm) && !keep_metadata { self.link_arg("--gc-sections"); } } fn no_gc_sections(&mut self) { if self.is_gnu || self.sess.target.is_like_wasm { self.link_arg("--no-gc-sections"); } } fn optimize(&mut self) { if !self.is_gnu && !self.sess.target.is_like_wasm { return; } // GNU-style linkers support optimization with -O. GNU ld doesn't // need a numeric argument, but other linkers do. if self.sess.opts.optimize == config::OptLevel::More || self.sess.opts.optimize == config::OptLevel::Aggressive { self.link_arg("-O1"); } } fn pgo_gen(&mut self) { if !self.is_gnu { return; } // If we're doing PGO generation stuff and on a GNU-like linker, use the // "-u" flag to properly pull in the profiler runtime bits. // // This is because LLVM otherwise won't add the needed initialization // for us on Linux (though the extra flag should be harmless if it // does). // // See https://reviews.llvm.org/D14033 and https://reviews.llvm.org/D14030. // // Though it may be worth to try to revert those changes upstream, since // the overhead of the initialization should be minor. self.link_or_cc_args(&["-u", "__llvm_profile_runtime"]); } fn control_flow_guard(&mut self) {} fn ehcont_guard(&mut self) {} fn debuginfo(&mut self, strip: Strip, _: &[PathBuf]) { // MacOS linker doesn't support stripping symbols directly anymore. if self.sess.target.is_like_osx { return; } match strip { Strip::None => {} Strip::Debuginfo => { // The illumos linker does not support --strip-debug although // it does support --strip-all as a compatibility alias for -s. // The --strip-debug case is handled by running an external // `strip` utility as a separate step after linking. if !self.sess.target.is_like_solaris { self.link_arg("--strip-debug"); } } Strip::Symbols => { self.link_arg("--strip-all"); } } match self.sess.opts.unstable_opts.debuginfo_compression { config::DebugInfoCompression::None => {} config::DebugInfoCompression::Zlib => { self.link_arg("--compress-debug-sections=zlib"); } config::DebugInfoCompression::Zstd => { self.link_arg("--compress-debug-sections=zstd"); } } } fn no_crt_objects(&mut self) { if !self.is_ld { self.cc_arg("-nostartfiles"); } } fn no_default_libraries(&mut self) { if !self.is_ld { self.cc_arg("-nodefaultlibs"); } } fn export_symbols(&mut self, tmpdir: &Path, crate_type: CrateType, symbols: &[String]) { // Symbol visibility in object files typically takes care of this. if crate_type == CrateType::Executable { let should_export_executable_symbols = self.sess.opts.unstable_opts.export_executable_symbols; if self.sess.target.override_export_symbols.is_none() && !should_export_executable_symbols { return; } } // We manually create a list of exported symbols to ensure we don't expose any more. // The object files have far more public symbols than we actually want to export, // so we hide them all here. if !self.sess.target.limit_rdylib_exports { return; } let is_windows = self.sess.target.is_like_windows; let path = tmpdir.join(if is_windows { "list.def" } else { "list" }); debug!("EXPORTED SYMBOLS:"); if self.sess.target.is_like_osx { // Write a plain, newline-separated list of symbols let res: io::Result<()> = try { let mut f = File::create_buffered(&path)?; for sym in symbols { debug!(" _{sym}"); writeln!(f, "_{sym}")?; } }; if let Err(error) = res { self.sess.dcx().emit_fatal(errors::LibDefWriteFailure { error }); } } else if is_windows { let res: io::Result<()> = try { let mut f = File::create_buffered(&path)?; // .def file similar to MSVC one but without LIBRARY section // because LD doesn't like when it's empty writeln!(f, "EXPORTS")?; for symbol in symbols { debug!(" _{symbol}"); writeln!(f, " {symbol}")?; } }; if let Err(error) = res { self.sess.dcx().emit_fatal(errors::LibDefWriteFailure { error }); } } else { // Write an LD version script let res: io::Result<()> = try { let mut f = File::create_buffered(&path)?; writeln!(f, "{{")?; if !symbols.is_empty() { writeln!(f, " global:")?; for sym in symbols { debug!(" {sym};"); writeln!(f, " {sym};")?; } } writeln!(f, "\n local:\n *;\n}};")?; }; if let Err(error) = res { self.sess.dcx().emit_fatal(errors::VersionScriptWriteFailure { error }); } } if self.sess.target.is_like_osx { self.link_arg("-exported_symbols_list").link_arg(path); } else if self.sess.target.is_like_solaris { self.link_arg("-M").link_arg(path); } else if is_windows { self.link_arg(path); } else { let mut arg = OsString::from("--version-script="); arg.push(path); self.link_arg(arg).link_arg("--no-undefined-version"); } } fn subsystem(&mut self, subsystem: &str) { self.link_args(&["--subsystem", subsystem]); } fn reset_per_library_state(&mut self) { self.hint_dynamic(); // Reset to default before returning the composed command line. } fn linker_plugin_lto(&mut self) { match self.sess.opts.cg.linker_plugin_lto { LinkerPluginLto::Disabled => { // Nothing to do } LinkerPluginLto::LinkerPluginAuto => { self.push_linker_plugin_lto_args(None); } LinkerPluginLto::LinkerPlugin(ref path) => { self.push_linker_plugin_lto_args(Some(path.as_os_str())); } } } // Add the `GNU_EH_FRAME` program header which is required to locate unwinding information. // Some versions of `gcc` add it implicitly, some (e.g. `musl-gcc`) don't, // so we just always add it. fn add_eh_frame_header(&mut self) { self.link_arg("--eh-frame-hdr"); } fn add_no_exec(&mut self) { if self.sess.target.is_like_windows { self.link_arg("--nxcompat"); } else if self.is_gnu { self.link_args(&["-z", "noexecstack"]); } } fn add_as_needed(&mut self) { if self.is_gnu && !self.sess.target.is_like_windows { self.link_arg("--as-needed"); } else if self.sess.target.is_like_solaris { // -z ignore is the Solaris equivalent to the GNU ld --as-needed option self.link_args(&["-z", "ignore"]); } } } struct MsvcLinker<'a> { cmd: Command, sess: &'a Session, } impl<'a> Linker for MsvcLinker<'a> { fn cmd(&mut self) -> &mut Command { &mut self.cmd } fn set_output_kind( &mut self, output_kind: LinkOutputKind, _crate_type: CrateType, out_filename: &Path, ) { match output_kind { LinkOutputKind::DynamicNoPicExe | LinkOutputKind::DynamicPicExe | LinkOutputKind::StaticNoPicExe | LinkOutputKind::StaticPicExe => {} LinkOutputKind::DynamicDylib | LinkOutputKind::StaticDylib => { self.link_arg("/DLL"); let mut arg: OsString = "/IMPLIB:".into(); arg.push(out_filename.with_extension("dll.lib")); self.link_arg(arg); } LinkOutputKind::WasiReactorExe => { panic!("can't link as reactor on non-wasi target"); } } } fn link_dylib_by_name(&mut self, name: &str, verbatim: bool, _as_needed: bool) { // On MSVC-like targets rustc supports import libraries using alternative naming // scheme (`libfoo.a`) unsupported by linker, search for such libraries manually. if let Some(path) = try_find_native_dynamic_library(self.sess, name, verbatim) { self.link_arg(path); } else { self.link_arg(format!("{}{}", name, if verbatim { "" } else { ".lib" })); } } fn link_dylib_by_path(&mut self, path: &Path, _as_needed: bool) { // When producing a dll, MSVC linker may not emit an implib file if the dll doesn't export // any symbols, so we skip linking if the implib file is not present. let implib_path = path.with_extension("dll.lib"); if implib_path.exists() { self.link_or_cc_arg(implib_path); } } fn link_staticlib_by_name(&mut self, name: &str, verbatim: bool, whole_archive: bool) { // On MSVC-like targets rustc supports static libraries using alternative naming // scheme (`libfoo.a`) unsupported by linker, search for such libraries manually. if let Some(path) = try_find_native_static_library(self.sess, name, verbatim) { self.link_staticlib_by_path(&path, whole_archive); } else { let opts = if whole_archive { "/WHOLEARCHIVE:" } else { "" }; let (prefix, suffix) = self.sess.staticlib_components(verbatim); self.link_arg(format!("{opts}{prefix}{name}{suffix}")); } } fn link_staticlib_by_path(&mut self, path: &Path, whole_archive: bool) { if !whole_archive { self.link_arg(path); } else { let mut arg = OsString::from("/WHOLEARCHIVE:"); arg.push(path); self.link_arg(arg); } } fn gc_sections(&mut self, _keep_metadata: bool) { // MSVC's ICF (Identical COMDAT Folding) link optimization is // slow for Rust and thus we disable it by default when not in // optimization build. if self.sess.opts.optimize != config::OptLevel::No { self.link_arg("/OPT:REF,ICF"); } else { // It is necessary to specify NOICF here, because /OPT:REF // implies ICF by default. self.link_arg("/OPT:REF,NOICF"); } } fn no_gc_sections(&mut self) { self.link_arg("/OPT:NOREF,NOICF"); } fn full_relro(&mut self) { // noop } fn partial_relro(&mut self) { // noop } fn no_relro(&mut self) { // noop } fn no_crt_objects(&mut self) { // noop } fn no_default_libraries(&mut self) { self.link_arg("/NODEFAULTLIB"); } fn include_path(&mut self, path: &Path) { let mut arg = OsString::from("/LIBPATH:"); arg.push(path); self.link_arg(&arg); } fn output_filename(&mut self, path: &Path) { let mut arg = OsString::from("/OUT:"); arg.push(path); self.link_arg(&arg); } fn optimize(&mut self) { // Needs more investigation of `/OPT` arguments } fn pgo_gen(&mut self) { // Nothing needed here. } fn control_flow_guard(&mut self) { self.link_arg("/guard:cf"); } fn ehcont_guard(&mut self) { if self.sess.target.pointer_width == 64 { self.link_arg("/guard:ehcont"); } } fn debuginfo(&mut self, _strip: Strip, natvis_debugger_visualizers: &[PathBuf]) { // This will cause the Microsoft linker to generate a PDB file // from the CodeView line tables in the object files. self.link_arg("/DEBUG"); // Default to emitting only the file name of the PDB file into // the binary instead of the full path. Emitting the full path // may leak private information (such as user names). // See https://github.com/rust-lang/rust/issues/87825. // // This default behavior can be overridden by explicitly passing // `-Clink-arg=/PDBALTPATH:...` to rustc. self.link_arg("/PDBALTPATH:%_PDB%"); // This will cause the Microsoft linker to embed .natvis info into the PDB file let natvis_dir_path = self.sess.sysroot.join("lib\\rustlib\\etc"); if let Ok(natvis_dir) = fs::read_dir(&natvis_dir_path) { for entry in natvis_dir { match entry { Ok(entry) => { let path = entry.path(); if path.extension() == Some("natvis".as_ref()) { let mut arg = OsString::from("/NATVIS:"); arg.push(path); self.link_arg(arg); } } Err(error) => { self.sess.dcx().emit_warn(errors::NoNatvisDirectory { error }); } } } } // This will cause the Microsoft linker to embed .natvis info for all crates into the PDB file for path in natvis_debugger_visualizers { let mut arg = OsString::from("/NATVIS:"); arg.push(path); self.link_arg(arg); } } // Currently the compiler doesn't use `dllexport` (an LLVM attribute) to // export symbols from a dynamic library. When building a dynamic library, // however, we're going to want some symbols exported, so this function // generates a DEF file which lists all the symbols. // // The linker will read this `*.def` file and export all the symbols from // the dynamic library. Note that this is not as simple as just exporting // all the symbols in the current crate (as specified by `codegen.reachable`) // but rather we also need to possibly export the symbols of upstream // crates. Upstream rlibs may be linked statically to this dynamic library, // in which case they may continue to transitively be used and hence need // their symbols exported. fn export_symbols(&mut self, tmpdir: &Path, crate_type: CrateType, symbols: &[String]) { // Symbol visibility takes care of this typically if crate_type == CrateType::Executable { let should_export_executable_symbols = self.sess.opts.unstable_opts.export_executable_symbols; if !should_export_executable_symbols { return; } } let path = tmpdir.join("lib.def"); let res: io::Result<()> = try { let mut f = File::create_buffered(&path)?; // Start off with the standard module name header and then go // straight to exports. writeln!(f, "LIBRARY")?; writeln!(f, "EXPORTS")?; for symbol in symbols { debug!(" _{symbol}"); writeln!(f, " {symbol}")?; } }; if let Err(error) = res { self.sess.dcx().emit_fatal(errors::LibDefWriteFailure { error }); } let mut arg = OsString::from("/DEF:"); arg.push(path); self.link_arg(&arg); } fn subsystem(&mut self, subsystem: &str) { // Note that previous passes of the compiler validated this subsystem, // so we just blindly pass it to the linker. self.link_arg(&format!("/SUBSYSTEM:{subsystem}")); // Windows has two subsystems we're interested in right now, the console // and windows subsystems. These both implicitly have different entry // points (starting symbols). The console entry point starts with // `mainCRTStartup` and the windows entry point starts with // `WinMainCRTStartup`. These entry points, defined in system libraries, // will then later probe for either `main` or `WinMain`, respectively to // start the application. // // In Rust we just always generate a `main` function so we want control // to always start there, so we force the entry point on the windows // subsystem to be `mainCRTStartup` to get everything booted up // correctly. // // For more information see RFC #1665 if subsystem == "windows" { self.link_arg("/ENTRY:mainCRTStartup"); } } fn linker_plugin_lto(&mut self) { // Do nothing } fn add_no_exec(&mut self) { self.link_arg("/NXCOMPAT"); } } struct EmLinker<'a> { cmd: Command, sess: &'a Session, } impl<'a> Linker for EmLinker<'a> { fn cmd(&mut self) -> &mut Command { &mut self.cmd } fn is_cc(&self) -> bool { true } fn set_output_kind( &mut self, _output_kind: LinkOutputKind, _crate_type: CrateType, _out_filename: &Path, ) { } fn link_dylib_by_name(&mut self, name: &str, _verbatim: bool, _as_needed: bool) { // Emscripten always links statically self.link_or_cc_args(&["-l", name]); } fn link_dylib_by_path(&mut self, path: &Path, _as_needed: bool) { self.link_or_cc_arg(path); } fn link_staticlib_by_name(&mut self, name: &str, _verbatim: bool, _whole_archive: bool) { self.link_or_cc_args(&["-l", name]); } fn link_staticlib_by_path(&mut self, path: &Path, _whole_archive: bool) { self.link_or_cc_arg(path); } fn full_relro(&mut self) { // noop } fn partial_relro(&mut self) { // noop } fn no_relro(&mut self) { // noop } fn gc_sections(&mut self, _keep_metadata: bool) { // noop } fn no_gc_sections(&mut self) { // noop } fn optimize(&mut self) { // Emscripten performs own optimizations self.cc_arg(match self.sess.opts.optimize { OptLevel::No => "-O0", OptLevel::Less => "-O1", OptLevel::More => "-O2", OptLevel::Aggressive => "-O3", OptLevel::Size => "-Os", OptLevel::SizeMin => "-Oz", }); } fn pgo_gen(&mut self) { // noop, but maybe we need something like the gnu linker? } fn control_flow_guard(&mut self) {} fn ehcont_guard(&mut self) {} fn debuginfo(&mut self, _strip: Strip, _: &[PathBuf]) { // Preserve names or generate source maps depending on debug info // For more information see https://emscripten.org/docs/tools_reference/emcc.html#emcc-g self.cc_arg(match self.sess.opts.debuginfo { DebugInfo::None => "-g0", DebugInfo::Limited | DebugInfo::LineTablesOnly | DebugInfo::LineDirectivesOnly => { "--profiling-funcs" } DebugInfo::Full => "-g", }); } fn no_crt_objects(&mut self) {} fn no_default_libraries(&mut self) { self.cc_arg("-nodefaultlibs"); } fn export_symbols(&mut self, _tmpdir: &Path, _crate_type: CrateType, symbols: &[String]) { debug!("EXPORTED SYMBOLS:"); self.cc_arg("-s"); let mut arg = OsString::from("EXPORTED_FUNCTIONS="); let encoded = serde_json::to_string( &symbols.iter().map(|sym| "_".to_owned() + sym).collect::>(), ) .unwrap(); debug!("{encoded}"); arg.push(encoded); self.cc_arg(arg); } fn subsystem(&mut self, _subsystem: &str) { // noop } fn linker_plugin_lto(&mut self) { // Do nothing } } struct WasmLd<'a> { cmd: Command, sess: &'a Session, } impl<'a> WasmLd<'a> { fn new(cmd: Command, sess: &'a Session) -> WasmLd<'a> { // If the atomics feature is enabled for wasm then we need a whole bunch // of flags: // // * `--shared-memory` - the link won't even succeed without this, flags // the one linear memory as `shared` // // * `--max-memory=1G` - when specifying a shared memory this must also // be specified. We conservatively choose 1GB but users should be able // to override this with `-C link-arg`. // // * `--import-memory` - it doesn't make much sense for memory to be // exported in a threaded module because typically you're // sharing memory and instantiating the module multiple times. As a // result if it were exported then we'd just have no sharing. // // On wasm32-unknown-unknown, we also export symbols for glue code to use: // * `--export=*tls*` - when `#[thread_local]` symbols are used these // symbols are how the TLS segments are initialized and configured. let mut wasm_ld = WasmLd { cmd, sess }; if sess.target_features.contains(&sym::atomics) { wasm_ld.link_args(&["--shared-memory", "--max-memory=1073741824", "--import-memory"]); if sess.target.os == "unknown" || sess.target.os == "none" { wasm_ld.link_args(&[ "--export=__wasm_init_tls", "--export=__tls_size", "--export=__tls_align", "--export=__tls_base", ]); } } wasm_ld } } impl<'a> Linker for WasmLd<'a> { fn cmd(&mut self) -> &mut Command { &mut self.cmd } fn set_output_kind( &mut self, output_kind: LinkOutputKind, _crate_type: CrateType, _out_filename: &Path, ) { match output_kind { LinkOutputKind::DynamicNoPicExe | LinkOutputKind::DynamicPicExe | LinkOutputKind::StaticNoPicExe | LinkOutputKind::StaticPicExe => {} LinkOutputKind::DynamicDylib | LinkOutputKind::StaticDylib => { self.link_arg("--no-entry"); } LinkOutputKind::WasiReactorExe => { self.link_args(&["--entry", "_initialize"]); } } } fn link_dylib_by_name(&mut self, name: &str, _verbatim: bool, _as_needed: bool) { self.link_or_cc_args(&["-l", name]); } fn link_dylib_by_path(&mut self, path: &Path, _as_needed: bool) { self.link_or_cc_arg(path); } fn link_staticlib_by_name(&mut self, name: &str, _verbatim: bool, whole_archive: bool) { if !whole_archive { self.link_or_cc_args(&["-l", name]); } else { self.link_arg("--whole-archive") .link_or_cc_args(&["-l", name]) .link_arg("--no-whole-archive"); } } fn link_staticlib_by_path(&mut self, path: &Path, whole_archive: bool) { if !whole_archive { self.link_or_cc_arg(path); } else { self.link_arg("--whole-archive").link_or_cc_arg(path).link_arg("--no-whole-archive"); } } fn full_relro(&mut self) {} fn partial_relro(&mut self) {} fn no_relro(&mut self) {} fn gc_sections(&mut self, _keep_metadata: bool) { self.link_arg("--gc-sections"); } fn no_gc_sections(&mut self) { self.link_arg("--no-gc-sections"); } fn optimize(&mut self) { // The -O flag is, as of late 2023, only used for merging of strings and debuginfo, and // only differentiates -O0 and -O1. It does not apply to LTO. self.link_arg(match self.sess.opts.optimize { OptLevel::No => "-O0", OptLevel::Less => "-O1", OptLevel::More => "-O2", OptLevel::Aggressive => "-O3", // Currently LLD doesn't support `Os` and `Oz`, so pass through `O2` // instead. OptLevel::Size => "-O2", OptLevel::SizeMin => "-O2", }); } fn pgo_gen(&mut self) {} fn debuginfo(&mut self, strip: Strip, _: &[PathBuf]) { match strip { Strip::None => {} Strip::Debuginfo => { self.link_arg("--strip-debug"); } Strip::Symbols => { self.link_arg("--strip-all"); } } } fn control_flow_guard(&mut self) {} fn ehcont_guard(&mut self) {} fn no_crt_objects(&mut self) {} fn no_default_libraries(&mut self) {} fn export_symbols(&mut self, _tmpdir: &Path, _crate_type: CrateType, symbols: &[String]) { for sym in symbols { self.link_args(&["--export", sym]); } // LLD will hide these otherwise-internal symbols since it only exports // symbols explicitly passed via the `--export` flags above and hides all // others. Various bits and pieces of wasm32-unknown-unknown tooling use // this, so be sure these symbols make their way out of the linker as well. if self.sess.target.os == "unknown" || self.sess.target.os == "none" { self.link_args(&["--export=__heap_base", "--export=__data_end"]); } } fn subsystem(&mut self, _subsystem: &str) {} fn linker_plugin_lto(&mut self) { match self.sess.opts.cg.linker_plugin_lto { LinkerPluginLto::Disabled => { // Nothing to do } LinkerPluginLto::LinkerPluginAuto => { self.push_linker_plugin_lto_args(); } LinkerPluginLto::LinkerPlugin(_) => { self.push_linker_plugin_lto_args(); } } } } impl<'a> WasmLd<'a> { fn push_linker_plugin_lto_args(&mut self) { let opt_level = match self.sess.opts.optimize { config::OptLevel::No => "O0", config::OptLevel::Less => "O1", config::OptLevel::More => "O2", config::OptLevel::Aggressive => "O3", // wasm-ld only handles integer LTO opt levels. Use O2 config::OptLevel::Size | config::OptLevel::SizeMin => "O2", }; self.link_arg(&format!("--lto-{opt_level}")); } } /// Linker shepherd script for L4Re (Fiasco) struct L4Bender<'a> { cmd: Command, sess: &'a Session, hinted_static: bool, } impl<'a> Linker for L4Bender<'a> { fn cmd(&mut self) -> &mut Command { &mut self.cmd } fn set_output_kind( &mut self, _output_kind: LinkOutputKind, _crate_type: CrateType, _out_filename: &Path, ) { } fn link_staticlib_by_name(&mut self, name: &str, _verbatim: bool, whole_archive: bool) { self.hint_static(); if !whole_archive { self.link_arg(format!("-PC{name}")); } else { self.link_arg("--whole-archive") .link_or_cc_arg(format!("-l{name}")) .link_arg("--no-whole-archive"); } } fn link_staticlib_by_path(&mut self, path: &Path, whole_archive: bool) { self.hint_static(); if !whole_archive { self.link_or_cc_arg(path); } else { self.link_arg("--whole-archive").link_or_cc_arg(path).link_arg("--no-whole-archive"); } } fn full_relro(&mut self) { self.link_args(&["-z", "relro", "-z", "now"]); } fn partial_relro(&mut self) { self.link_args(&["-z", "relro"]); } fn no_relro(&mut self) { self.link_args(&["-z", "norelro"]); } fn gc_sections(&mut self, keep_metadata: bool) { if !keep_metadata { self.link_arg("--gc-sections"); } } fn no_gc_sections(&mut self) { self.link_arg("--no-gc-sections"); } fn optimize(&mut self) { // GNU-style linkers support optimization with -O. GNU ld doesn't // need a numeric argument, but other linkers do. if self.sess.opts.optimize == config::OptLevel::More || self.sess.opts.optimize == config::OptLevel::Aggressive { self.link_arg("-O1"); } } fn pgo_gen(&mut self) {} fn debuginfo(&mut self, strip: Strip, _: &[PathBuf]) { match strip { Strip::None => {} Strip::Debuginfo => { self.link_arg("--strip-debug"); } Strip::Symbols => { self.link_arg("--strip-all"); } } } fn no_default_libraries(&mut self) { self.cc_arg("-nostdlib"); } fn export_symbols(&mut self, _: &Path, _: CrateType, _: &[String]) { // ToDo, not implemented, copy from GCC self.sess.dcx().emit_warn(errors::L4BenderExportingSymbolsUnimplemented); } fn subsystem(&mut self, subsystem: &str) { self.link_arg(&format!("--subsystem {subsystem}")); } fn reset_per_library_state(&mut self) { self.hint_static(); // Reset to default before returning the composed command line. } fn linker_plugin_lto(&mut self) {} fn control_flow_guard(&mut self) {} fn ehcont_guard(&mut self) {} fn no_crt_objects(&mut self) {} } impl<'a> L4Bender<'a> { fn new(cmd: Command, sess: &'a Session) -> L4Bender<'a> { L4Bender { cmd, sess, hinted_static: false } } fn hint_static(&mut self) { if !self.hinted_static { self.link_or_cc_arg("-static"); self.hinted_static = true; } } } /// Linker for AIX. struct AixLinker<'a> { cmd: Command, sess: &'a Session, hinted_static: Option, } impl<'a> AixLinker<'a> { fn new(cmd: Command, sess: &'a Session) -> AixLinker<'a> { AixLinker { cmd, sess, hinted_static: None } } fn hint_static(&mut self) { if self.hinted_static != Some(true) { self.link_arg("-bstatic"); self.hinted_static = Some(true); } } fn hint_dynamic(&mut self) { if self.hinted_static != Some(false) { self.link_arg("-bdynamic"); self.hinted_static = Some(false); } } fn build_dylib(&mut self, _out_filename: &Path) { self.link_args(&["-bM:SRE", "-bnoentry"]); // FIXME: Use CreateExportList utility to create export list // and remove -bexpfull. self.link_arg("-bexpfull"); } } impl<'a> Linker for AixLinker<'a> { fn cmd(&mut self) -> &mut Command { &mut self.cmd } fn set_output_kind( &mut self, output_kind: LinkOutputKind, _crate_type: CrateType, out_filename: &Path, ) { match output_kind { LinkOutputKind::DynamicDylib => { self.hint_dynamic(); self.build_dylib(out_filename); } LinkOutputKind::StaticDylib => { self.hint_static(); self.build_dylib(out_filename); } _ => {} } } fn link_dylib_by_name(&mut self, name: &str, verbatim: bool, _as_needed: bool) { self.hint_dynamic(); self.link_or_cc_arg(if verbatim { String::from(name) } else { format!("-l{name}") }); } fn link_dylib_by_path(&mut self, path: &Path, _as_needed: bool) { self.hint_dynamic(); self.link_or_cc_arg(path); } fn link_staticlib_by_name(&mut self, name: &str, verbatim: bool, whole_archive: bool) { self.hint_static(); if !whole_archive { self.link_or_cc_arg(if verbatim { String::from(name) } else { format!("-l{name}") }); } else { let mut arg = OsString::from("-bkeepfile:"); arg.push(find_native_static_library(name, verbatim, self.sess)); self.link_or_cc_arg(arg); } } fn link_staticlib_by_path(&mut self, path: &Path, whole_archive: bool) { self.hint_static(); if !whole_archive { self.link_or_cc_arg(path); } else { let mut arg = OsString::from("-bkeepfile:"); arg.push(path); self.link_arg(arg); } } fn full_relro(&mut self) {} fn partial_relro(&mut self) {} fn no_relro(&mut self) {} fn gc_sections(&mut self, _keep_metadata: bool) { self.link_arg("-bgc"); } fn no_gc_sections(&mut self) { self.link_arg("-bnogc"); } fn optimize(&mut self) {} fn pgo_gen(&mut self) { self.link_arg("-bdbg:namedsects:ss"); self.link_arg("-u"); self.link_arg("__llvm_profile_runtime"); } fn control_flow_guard(&mut self) {} fn ehcont_guard(&mut self) {} fn debuginfo(&mut self, _: Strip, _: &[PathBuf]) {} fn no_crt_objects(&mut self) {} fn no_default_libraries(&mut self) {} fn export_symbols(&mut self, tmpdir: &Path, _crate_type: CrateType, symbols: &[String]) { let path = tmpdir.join("list.exp"); let res: io::Result<()> = try { let mut f = File::create_buffered(&path)?; // FIXME: use llvm-nm to generate export list. for symbol in symbols { debug!(" _{symbol}"); writeln!(f, " {symbol}")?; } }; if let Err(e) = res { self.sess.dcx().fatal(format!("failed to write export file: {e}")); } self.link_arg(format!("-bE:{}", path.to_str().unwrap())); } fn subsystem(&mut self, _subsystem: &str) {} fn reset_per_library_state(&mut self) { self.hint_dynamic(); } fn linker_plugin_lto(&mut self) {} fn add_eh_frame_header(&mut self) {} fn add_no_exec(&mut self) {} fn add_as_needed(&mut self) {} } fn for_each_exported_symbols_include_dep<'tcx>( tcx: TyCtxt<'tcx>, crate_type: CrateType, mut callback: impl FnMut(ExportedSymbol<'tcx>, SymbolExportInfo, CrateNum), ) { let formats = tcx.dependency_formats(()); let deps = &formats[&crate_type]; for (cnum, dep_format) in deps.iter_enumerated() { // For each dependency that we are linking to statically ... if *dep_format == Linkage::Static { for &(symbol, info) in tcx.exported_symbols(cnum).iter() { callback(symbol, info, cnum); } } } } pub(crate) fn exported_symbols(tcx: TyCtxt<'_>, crate_type: CrateType) -> Vec { if let Some(ref exports) = tcx.sess.target.override_export_symbols { return exports.iter().map(ToString::to_string).collect(); } if let CrateType::ProcMacro = crate_type { exported_symbols_for_proc_macro_crate(tcx) } else { exported_symbols_for_non_proc_macro(tcx, crate_type) } } fn exported_symbols_for_non_proc_macro(tcx: TyCtxt<'_>, crate_type: CrateType) -> Vec { let mut symbols = Vec::new(); let export_threshold = symbol_export::crates_export_threshold(&[crate_type]); for_each_exported_symbols_include_dep(tcx, crate_type, |symbol, info, cnum| { // Do not export mangled symbols from cdylibs and don't attempt to export compiler-builtins // from any cdylib. The latter doesn't work anyway as we use hidden visibility for // compiler-builtins. Most linkers silently ignore it, but ld64 gives a warning. if info.level.is_below_threshold(export_threshold) && !tcx.is_compiler_builtins(cnum) { symbols.push(symbol_export::exporting_symbol_name_for_instance_in_crate( tcx, symbol, cnum, )); symbol_export::extend_exported_symbols(&mut symbols, tcx, symbol, cnum); } }); symbols } fn exported_symbols_for_proc_macro_crate(tcx: TyCtxt<'_>) -> Vec { // `exported_symbols` will be empty when !should_codegen. if !tcx.sess.opts.output_types.should_codegen() { return Vec::new(); } let stable_crate_id = tcx.stable_crate_id(LOCAL_CRATE); let proc_macro_decls_name = tcx.sess.generate_proc_macro_decls_symbol(stable_crate_id); let metadata_symbol_name = exported_symbols::metadata_symbol_name(tcx); vec![proc_macro_decls_name, metadata_symbol_name] } pub(crate) fn linked_symbols( tcx: TyCtxt<'_>, crate_type: CrateType, ) -> Vec<(String, SymbolExportKind)> { match crate_type { CrateType::Executable | CrateType::Cdylib | CrateType::Dylib => (), CrateType::Staticlib | CrateType::ProcMacro | CrateType::Rlib => { return Vec::new(); } } let mut symbols = Vec::new(); let export_threshold = symbol_export::crates_export_threshold(&[crate_type]); for_each_exported_symbols_include_dep(tcx, crate_type, |symbol, info, cnum| { if info.level.is_below_threshold(export_threshold) && !tcx.is_compiler_builtins(cnum) || info.used { symbols.push(( symbol_export::linking_symbol_name_for_instance_in_crate(tcx, symbol, cnum), info.kind, )); } }); symbols } /// Much simplified and explicit CLI for the NVPTX linker. The linker operates /// with bitcode and uses LLVM backend to generate a PTX assembly. struct PtxLinker<'a> { cmd: Command, sess: &'a Session, } impl<'a> Linker for PtxLinker<'a> { fn cmd(&mut self) -> &mut Command { &mut self.cmd } fn set_output_kind( &mut self, _output_kind: LinkOutputKind, _crate_type: CrateType, _out_filename: &Path, ) { } fn link_staticlib_by_name(&mut self, _name: &str, _verbatim: bool, _whole_archive: bool) { panic!("staticlibs not supported") } fn link_staticlib_by_path(&mut self, path: &Path, _whole_archive: bool) { self.link_arg("--rlib").link_arg(path); } fn debuginfo(&mut self, _strip: Strip, _: &[PathBuf]) { self.link_arg("--debug"); } fn add_object(&mut self, path: &Path) { self.link_arg("--bitcode").link_arg(path); } fn optimize(&mut self) { match self.sess.lto() { Lto::Thin | Lto::Fat | Lto::ThinLocal => { self.link_arg("-Olto"); } Lto::No => {} } } fn full_relro(&mut self) {} fn partial_relro(&mut self) {} fn no_relro(&mut self) {} fn gc_sections(&mut self, _keep_metadata: bool) {} fn no_gc_sections(&mut self) {} fn pgo_gen(&mut self) {} fn no_crt_objects(&mut self) {} fn no_default_libraries(&mut self) {} fn control_flow_guard(&mut self) {} fn ehcont_guard(&mut self) {} fn export_symbols(&mut self, _tmpdir: &Path, _crate_type: CrateType, _symbols: &[String]) {} fn subsystem(&mut self, _subsystem: &str) {} fn linker_plugin_lto(&mut self) {} } /// The `self-contained` LLVM bitcode linker struct LlbcLinker<'a> { cmd: Command, sess: &'a Session, } impl<'a> Linker for LlbcLinker<'a> { fn cmd(&mut self) -> &mut Command { &mut self.cmd } fn set_output_kind( &mut self, _output_kind: LinkOutputKind, _crate_type: CrateType, _out_filename: &Path, ) { } fn link_staticlib_by_name(&mut self, _name: &str, _verbatim: bool, _whole_archive: bool) { panic!("staticlibs not supported") } fn link_staticlib_by_path(&mut self, path: &Path, _whole_archive: bool) { self.link_or_cc_arg(path); } fn debuginfo(&mut self, _strip: Strip, _: &[PathBuf]) { self.link_arg("--debug"); } fn optimize(&mut self) { self.link_arg(match self.sess.opts.optimize { OptLevel::No => "-O0", OptLevel::Less => "-O1", OptLevel::More => "-O2", OptLevel::Aggressive => "-O3", OptLevel::Size => "-Os", OptLevel::SizeMin => "-Oz", }); } fn full_relro(&mut self) {} fn partial_relro(&mut self) {} fn no_relro(&mut self) {} fn gc_sections(&mut self, _keep_metadata: bool) {} fn no_gc_sections(&mut self) {} fn pgo_gen(&mut self) {} fn no_crt_objects(&mut self) {} fn no_default_libraries(&mut self) {} fn control_flow_guard(&mut self) {} fn ehcont_guard(&mut self) {} fn export_symbols(&mut self, _tmpdir: &Path, _crate_type: CrateType, symbols: &[String]) { match _crate_type { CrateType::Cdylib => { for sym in symbols { self.link_args(&["--export-symbol", sym]); } } _ => (), } } fn subsystem(&mut self, _subsystem: &str) {} fn linker_plugin_lto(&mut self) {} } struct BpfLinker<'a> { cmd: Command, sess: &'a Session, } impl<'a> Linker for BpfLinker<'a> { fn cmd(&mut self) -> &mut Command { &mut self.cmd } fn set_output_kind( &mut self, _output_kind: LinkOutputKind, _crate_type: CrateType, _out_filename: &Path, ) { } fn link_staticlib_by_name(&mut self, _name: &str, _verbatim: bool, _whole_archive: bool) { panic!("staticlibs not supported") } fn link_staticlib_by_path(&mut self, path: &Path, _whole_archive: bool) { self.link_or_cc_arg(path); } fn debuginfo(&mut self, _strip: Strip, _: &[PathBuf]) { self.link_arg("--debug"); } fn optimize(&mut self) { self.link_arg(match self.sess.opts.optimize { OptLevel::No => "-O0", OptLevel::Less => "-O1", OptLevel::More => "-O2", OptLevel::Aggressive => "-O3", OptLevel::Size => "-Os", OptLevel::SizeMin => "-Oz", }); } fn full_relro(&mut self) {} fn partial_relro(&mut self) {} fn no_relro(&mut self) {} fn gc_sections(&mut self, _keep_metadata: bool) {} fn no_gc_sections(&mut self) {} fn pgo_gen(&mut self) {} fn no_crt_objects(&mut self) {} fn no_default_libraries(&mut self) {} fn control_flow_guard(&mut self) {} fn ehcont_guard(&mut self) {} fn export_symbols(&mut self, tmpdir: &Path, _crate_type: CrateType, symbols: &[String]) { let path = tmpdir.join("symbols"); let res: io::Result<()> = try { let mut f = File::create_buffered(&path)?; for sym in symbols { writeln!(f, "{sym}")?; } }; if let Err(error) = res { self.sess.dcx().emit_fatal(errors::SymbolFileWriteFailure { error }); } else { self.link_arg("--export-symbols").link_arg(&path); } } fn subsystem(&mut self, _subsystem: &str) {} fn linker_plugin_lto(&mut self) {} }