1 //! [Flexible target specification.](https://github.com/rust-lang/rfcs/pull/131)
3 //! Rust targets a wide variety of usecases, and in the interest of flexibility,
4 //! allows new target triples to be defined in configuration files. Most users
5 //! will not need to care about these, but this is invaluable when porting Rust
6 //! to a new platform, and allows for an unprecedented level of control over how
7 //! the compiler works.
9 //! # Using custom targets
11 //! A target triple, as passed via `rustc --target=TRIPLE`, will first be
12 //! compared against the list of built-in targets. This is to ease distributing
13 //! rustc (no need for configuration files) and also to hold these built-in
14 //! targets as immutable and sacred. If `TRIPLE` is not one of the built-in
15 //! targets, rustc will check if a file named `TRIPLE` exists. If it does, it
16 //! will be loaded as the target configuration. If the file does not exist,
17 //! rustc will search each directory in the environment variable
18 //! `RUST_TARGET_PATH` for a file named `TRIPLE.json`. The first one found will
19 //! be loaded. If no file is found in any of those directories, a fatal error
22 //! Projects defining their own targets should use
23 //! `--target=path/to/my-awesome-platform.json` instead of adding to
24 //! `RUST_TARGET_PATH`.
26 //! # Defining a new target
28 //! Targets are defined using [JSON](https://json.org/). The `Target` struct in
29 //! this module defines the format the JSON file should take, though each
30 //! underscore in the field names should be replaced with a hyphen (`-`) in the
31 //! JSON file. Some fields are required in every target specification, such as
32 //! `llvm-target`, `target-endian`, `target-pointer-width`, `data-layout`,
33 //! `arch`, and `os`. In general, options passed to rustc with `-C` override
34 //! the target's settings, though `target-feature` and `link-args` will *add*
35 //! to the list specified by the target, rather than replace.
37 use crate::abi::Endian;
38 use crate::json::{Json, ToJson};
39 use crate::spec::abi::{lookup as lookup_abi, Abi};
40 use crate::spec::crt_objects::{CrtObjects, LinkSelfContainedDefault};
41 use rustc_data_structures::stable_hasher::{HashStable, StableHasher};
42 use rustc_serialize::{Decodable, Decoder, Encodable, Encoder};
43 use rustc_span::symbol::{sym, Symbol};
44 use serde_json::Value;
46 use std::collections::BTreeMap;
47 use std::convert::TryFrom;
48 use std::hash::{Hash, Hasher};
49 use std::iter::FromIterator;
50 use std::ops::{Deref, DerefMut};
51 use std::path::{Path, PathBuf};
52 use std::str::FromStr;
55 use rustc_macros::HashStable_Generic;
74 mod linux_kernel_base;
76 mod linux_uclibc_base;
88 mod windows_gnullvm_base;
89 mod windows_msvc_base;
90 mod windows_uwp_gnu_base;
91 mod windows_uwp_msvc_base;
93 #[derive(Clone, Copy, Debug, Eq, Ord, PartialEq, PartialOrd)]
94 pub enum LinkerFlavor {
104 #[derive(Clone, Copy, Debug, Eq, Ord, PartialEq, PartialOrd)]
105 pub enum LinkerFlavorCli {
115 #[derive(Clone, Copy, Debug, Eq, Ord, PartialEq, PartialOrd)]
124 pub fn as_str(&self) -> &'static str {
126 LldFlavor::Wasm => "wasm",
127 LldFlavor::Ld64 => "darwin",
128 LldFlavor::Ld => "gnu",
129 LldFlavor::Link => "link",
133 fn from_str(s: &str) -> Option<Self> {
135 "darwin" => LldFlavor::Ld64,
136 "gnu" => LldFlavor::Ld,
137 "link" => LldFlavor::Link,
138 "wasm" => LldFlavor::Wasm,
144 impl ToJson for LldFlavor {
145 fn to_json(&self) -> Json {
146 self.as_str().to_json()
151 pub fn from_cli(cli: LinkerFlavorCli) -> LinkerFlavor {
153 LinkerFlavorCli::Gcc => LinkerFlavor::Gcc,
154 LinkerFlavorCli::Ld => LinkerFlavor::Ld,
155 LinkerFlavorCli::Lld(lld_flavor) => LinkerFlavor::Lld(lld_flavor),
156 LinkerFlavorCli::Msvc => LinkerFlavor::Msvc,
157 LinkerFlavorCli::Em => LinkerFlavor::EmCc,
158 LinkerFlavorCli::BpfLinker => LinkerFlavor::Bpf,
159 LinkerFlavorCli::PtxLinker => LinkerFlavor::Ptx,
163 fn to_cli(self) -> LinkerFlavorCli {
165 LinkerFlavor::Gcc => LinkerFlavorCli::Gcc,
166 LinkerFlavor::Ld => LinkerFlavorCli::Ld,
167 LinkerFlavor::Lld(lld_flavor) => LinkerFlavorCli::Lld(lld_flavor),
168 LinkerFlavor::Msvc => LinkerFlavorCli::Msvc,
169 LinkerFlavor::EmCc => LinkerFlavorCli::Em,
170 LinkerFlavor::Bpf => LinkerFlavorCli::BpfLinker,
171 LinkerFlavor::Ptx => LinkerFlavorCli::PtxLinker,
176 macro_rules! linker_flavor_cli_impls {
177 ($(($($flavor:tt)*) $string:literal)*) => (
178 impl LinkerFlavorCli {
179 pub const fn one_of() -> &'static str {
180 concat!("one of: ", $($string, " ",)*)
183 pub fn from_str(s: &str) -> Option<LinkerFlavorCli> {
185 $($string => $($flavor)*,)*
190 pub fn desc(&self) -> &str {
192 $($($flavor)* => $string,)*
199 linker_flavor_cli_impls! {
200 (LinkerFlavorCli::Gcc) "gcc"
201 (LinkerFlavorCli::Ld) "ld"
202 (LinkerFlavorCli::Lld(LldFlavor::Ld)) "ld.lld"
203 (LinkerFlavorCli::Lld(LldFlavor::Ld64)) "ld64.lld"
204 (LinkerFlavorCli::Lld(LldFlavor::Link)) "lld-link"
205 (LinkerFlavorCli::Lld(LldFlavor::Wasm)) "wasm-ld"
206 (LinkerFlavorCli::Msvc) "msvc"
207 (LinkerFlavorCli::Em) "em"
208 (LinkerFlavorCli::BpfLinker) "bpf-linker"
209 (LinkerFlavorCli::PtxLinker) "ptx-linker"
212 impl ToJson for LinkerFlavorCli {
213 fn to_json(&self) -> Json {
214 self.desc().to_json()
218 #[derive(Clone, Copy, Debug, PartialEq, Hash, Encodable, Decodable, HashStable_Generic)]
219 pub enum PanicStrategy {
225 pub fn desc(&self) -> &str {
227 PanicStrategy::Unwind => "unwind",
228 PanicStrategy::Abort => "abort",
232 pub const fn desc_symbol(&self) -> Symbol {
234 PanicStrategy::Unwind => sym::unwind,
235 PanicStrategy::Abort => sym::abort,
239 pub const fn all() -> [Symbol; 2] {
240 [Self::Abort.desc_symbol(), Self::Unwind.desc_symbol()]
244 impl ToJson for PanicStrategy {
245 fn to_json(&self) -> Json {
247 PanicStrategy::Abort => "abort".to_json(),
248 PanicStrategy::Unwind => "unwind".to_json(),
253 #[derive(Clone, Copy, Debug, PartialEq, Hash)]
254 pub enum RelroLevel {
262 pub fn desc(&self) -> &str {
264 RelroLevel::Full => "full",
265 RelroLevel::Partial => "partial",
266 RelroLevel::Off => "off",
267 RelroLevel::None => "none",
272 impl FromStr for RelroLevel {
275 fn from_str(s: &str) -> Result<RelroLevel, ()> {
277 "full" => Ok(RelroLevel::Full),
278 "partial" => Ok(RelroLevel::Partial),
279 "off" => Ok(RelroLevel::Off),
280 "none" => Ok(RelroLevel::None),
286 impl ToJson for RelroLevel {
287 fn to_json(&self) -> Json {
289 RelroLevel::Full => "full".to_json(),
290 RelroLevel::Partial => "partial".to_json(),
291 RelroLevel::Off => "off".to_json(),
292 RelroLevel::None => "None".to_json(),
297 #[derive(Clone, Copy, Debug, PartialEq, Hash)]
298 pub enum MergeFunctions {
304 impl MergeFunctions {
305 pub fn desc(&self) -> &str {
307 MergeFunctions::Disabled => "disabled",
308 MergeFunctions::Trampolines => "trampolines",
309 MergeFunctions::Aliases => "aliases",
314 impl FromStr for MergeFunctions {
317 fn from_str(s: &str) -> Result<MergeFunctions, ()> {
319 "disabled" => Ok(MergeFunctions::Disabled),
320 "trampolines" => Ok(MergeFunctions::Trampolines),
321 "aliases" => Ok(MergeFunctions::Aliases),
327 impl ToJson for MergeFunctions {
328 fn to_json(&self) -> Json {
330 MergeFunctions::Disabled => "disabled".to_json(),
331 MergeFunctions::Trampolines => "trampolines".to_json(),
332 MergeFunctions::Aliases => "aliases".to_json(),
337 #[derive(Clone, Copy, PartialEq, Hash, Debug)]
338 pub enum RelocModel {
348 impl FromStr for RelocModel {
351 fn from_str(s: &str) -> Result<RelocModel, ()> {
353 "static" => RelocModel::Static,
354 "pic" => RelocModel::Pic,
355 "pie" => RelocModel::Pie,
356 "dynamic-no-pic" => RelocModel::DynamicNoPic,
357 "ropi" => RelocModel::Ropi,
358 "rwpi" => RelocModel::Rwpi,
359 "ropi-rwpi" => RelocModel::RopiRwpi,
365 impl ToJson for RelocModel {
366 fn to_json(&self) -> Json {
368 RelocModel::Static => "static",
369 RelocModel::Pic => "pic",
370 RelocModel::Pie => "pie",
371 RelocModel::DynamicNoPic => "dynamic-no-pic",
372 RelocModel::Ropi => "ropi",
373 RelocModel::Rwpi => "rwpi",
374 RelocModel::RopiRwpi => "ropi-rwpi",
380 #[derive(Clone, Copy, PartialEq, Hash, Debug)]
389 impl FromStr for CodeModel {
392 fn from_str(s: &str) -> Result<CodeModel, ()> {
394 "tiny" => CodeModel::Tiny,
395 "small" => CodeModel::Small,
396 "kernel" => CodeModel::Kernel,
397 "medium" => CodeModel::Medium,
398 "large" => CodeModel::Large,
404 impl ToJson for CodeModel {
405 fn to_json(&self) -> Json {
407 CodeModel::Tiny => "tiny",
408 CodeModel::Small => "small",
409 CodeModel::Kernel => "kernel",
410 CodeModel::Medium => "medium",
411 CodeModel::Large => "large",
417 #[derive(Clone, Copy, PartialEq, Hash, Debug)]
425 impl FromStr for TlsModel {
428 fn from_str(s: &str) -> Result<TlsModel, ()> {
430 // Note the difference "general" vs "global" difference. The model name is "general",
431 // but the user-facing option name is "global" for consistency with other compilers.
432 "global-dynamic" => TlsModel::GeneralDynamic,
433 "local-dynamic" => TlsModel::LocalDynamic,
434 "initial-exec" => TlsModel::InitialExec,
435 "local-exec" => TlsModel::LocalExec,
441 impl ToJson for TlsModel {
442 fn to_json(&self) -> Json {
444 TlsModel::GeneralDynamic => "global-dynamic",
445 TlsModel::LocalDynamic => "local-dynamic",
446 TlsModel::InitialExec => "initial-exec",
447 TlsModel::LocalExec => "local-exec",
453 /// Everything is flattened to a single enum to make the json encoding/decoding less annoying.
454 #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Debug)]
455 pub enum LinkOutputKind {
456 /// Dynamically linked non position-independent executable.
458 /// Dynamically linked position-independent executable.
460 /// Statically linked non position-independent executable.
462 /// Statically linked position-independent executable.
464 /// Regular dynamic library ("dynamically linked").
466 /// Dynamic library with bundled libc ("statically linked").
468 /// WASI module with a lifetime past the _initialize entry point
472 impl LinkOutputKind {
473 fn as_str(&self) -> &'static str {
475 LinkOutputKind::DynamicNoPicExe => "dynamic-nopic-exe",
476 LinkOutputKind::DynamicPicExe => "dynamic-pic-exe",
477 LinkOutputKind::StaticNoPicExe => "static-nopic-exe",
478 LinkOutputKind::StaticPicExe => "static-pic-exe",
479 LinkOutputKind::DynamicDylib => "dynamic-dylib",
480 LinkOutputKind::StaticDylib => "static-dylib",
481 LinkOutputKind::WasiReactorExe => "wasi-reactor-exe",
485 pub(super) fn from_str(s: &str) -> Option<LinkOutputKind> {
487 "dynamic-nopic-exe" => LinkOutputKind::DynamicNoPicExe,
488 "dynamic-pic-exe" => LinkOutputKind::DynamicPicExe,
489 "static-nopic-exe" => LinkOutputKind::StaticNoPicExe,
490 "static-pic-exe" => LinkOutputKind::StaticPicExe,
491 "dynamic-dylib" => LinkOutputKind::DynamicDylib,
492 "static-dylib" => LinkOutputKind::StaticDylib,
493 "wasi-reactor-exe" => LinkOutputKind::WasiReactorExe,
499 impl fmt::Display for LinkOutputKind {
500 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
501 f.write_str(self.as_str())
505 pub type LinkArgs = BTreeMap<LinkerFlavor, Vec<StaticCow<str>>>;
506 pub type LinkArgsCli = BTreeMap<LinkerFlavorCli, Vec<StaticCow<str>>>;
508 /// Which kind of debuginfo does the target use?
510 /// Useful in determining whether a target supports Split DWARF (a target with
511 /// `DebuginfoKind::Dwarf` and supporting `SplitDebuginfo::Unpacked` for example).
512 #[derive(Clone, Copy, Debug, Default, Eq, Hash, PartialEq)]
513 pub enum DebuginfoKind {
514 /// DWARF debuginfo (such as that used on `x86_64_unknown_linux_gnu`).
517 /// DWARF debuginfo in dSYM files (such as on Apple platforms).
519 /// Program database files (such as on Windows).
524 fn as_str(&self) -> &'static str {
526 DebuginfoKind::Dwarf => "dwarf",
527 DebuginfoKind::DwarfDsym => "dwarf-dsym",
528 DebuginfoKind::Pdb => "pdb",
533 impl FromStr for DebuginfoKind {
536 fn from_str(s: &str) -> Result<Self, ()> {
538 "dwarf" => DebuginfoKind::Dwarf,
539 "dwarf-dsym" => DebuginfoKind::DwarfDsym,
540 "pdb" => DebuginfoKind::Pdb,
546 impl ToJson for DebuginfoKind {
547 fn to_json(&self) -> Json {
548 self.as_str().to_json()
552 impl fmt::Display for DebuginfoKind {
553 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
554 f.write_str(self.as_str())
558 #[derive(Clone, Copy, Debug, Default, Eq, Hash, PartialEq)]
559 pub enum SplitDebuginfo {
560 /// Split debug-information is disabled, meaning that on supported platforms
561 /// you can find all debug information in the executable itself. This is
562 /// only supported for ELF effectively.
564 /// * Windows - not supported
565 /// * macOS - don't run `dsymutil`
566 /// * ELF - `.debug_*` sections
570 /// Split debug-information can be found in a "packed" location separate
571 /// from the final artifact. This is supported on all platforms.
573 /// * Windows - `*.pdb`
574 /// * macOS - `*.dSYM` (run `dsymutil`)
575 /// * ELF - `*.dwp` (run `thorin`)
578 /// Split debug-information can be found in individual object files on the
579 /// filesystem. The main executable may point to the object files.
581 /// * Windows - not supported
582 /// * macOS - supported, scattered object files
583 /// * ELF - supported, scattered `*.dwo` or `*.o` files (see `SplitDwarfKind`)
587 impl SplitDebuginfo {
588 fn as_str(&self) -> &'static str {
590 SplitDebuginfo::Off => "off",
591 SplitDebuginfo::Packed => "packed",
592 SplitDebuginfo::Unpacked => "unpacked",
597 impl FromStr for SplitDebuginfo {
600 fn from_str(s: &str) -> Result<Self, ()> {
602 "off" => SplitDebuginfo::Off,
603 "unpacked" => SplitDebuginfo::Unpacked,
604 "packed" => SplitDebuginfo::Packed,
610 impl ToJson for SplitDebuginfo {
611 fn to_json(&self) -> Json {
612 self.as_str().to_json()
616 impl fmt::Display for SplitDebuginfo {
617 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
618 f.write_str(self.as_str())
622 #[derive(Clone, Debug, PartialEq, Eq)]
623 pub enum StackProbeType {
624 /// Don't emit any stack probes.
626 /// It is harmless to use this option even on targets that do not have backend support for
627 /// stack probes as the failure mode is the same as if no stack-probe option was specified in
630 /// Call `__rust_probestack` whenever stack needs to be probed.
632 /// Use inline option for LLVM versions later than specified in `min_llvm_version_for_inline`
633 /// and call `__rust_probestack` otherwise.
634 InlineOrCall { min_llvm_version_for_inline: (u32, u32, u32) },
637 impl StackProbeType {
638 fn from_json(json: &Json) -> Result<Self, String> {
639 let object = json.as_object().ok_or_else(|| "expected a JSON object")?;
642 .and_then(|o| o.as_str())
643 .ok_or_else(|| "expected `kind` to be a string")?;
645 "none" => Ok(StackProbeType::None),
646 "inline" => Ok(StackProbeType::Inline),
647 "call" => Ok(StackProbeType::Call),
648 "inline-or-call" => {
649 let min_version = object
650 .get("min-llvm-version-for-inline")
651 .and_then(|o| o.as_array())
652 .ok_or_else(|| "expected `min-llvm-version-for-inline` to be an array")?;
653 let mut iter = min_version.into_iter().map(|v| {
654 let int = v.as_u64().ok_or_else(
655 || "expected `min-llvm-version-for-inline` values to be integers",
658 .map_err(|_| "`min-llvm-version-for-inline` values don't convert to u32")
660 let min_llvm_version_for_inline = (
661 iter.next().unwrap_or(Ok(11))?,
662 iter.next().unwrap_or(Ok(0))?,
663 iter.next().unwrap_or(Ok(0))?,
665 Ok(StackProbeType::InlineOrCall { min_llvm_version_for_inline })
667 _ => Err(String::from(
668 "`kind` expected to be one of `none`, `inline`, `call` or `inline-or-call`",
674 impl ToJson for StackProbeType {
675 fn to_json(&self) -> Json {
676 Json::Object(match self {
677 StackProbeType::None => {
678 [(String::from("kind"), "none".to_json())].into_iter().collect()
680 StackProbeType::Inline => {
681 [(String::from("kind"), "inline".to_json())].into_iter().collect()
683 StackProbeType::Call => {
684 [(String::from("kind"), "call".to_json())].into_iter().collect()
686 StackProbeType::InlineOrCall { min_llvm_version_for_inline: (maj, min, patch) } => [
687 (String::from("kind"), "inline-or-call".to_json()),
689 String::from("min-llvm-version-for-inline"),
690 Json::Array(vec![maj.to_json(), min.to_json(), patch.to_json()]),
699 bitflags::bitflags! {
700 #[derive(Default, Encodable, Decodable)]
701 pub struct SanitizerSet: u8 {
702 const ADDRESS = 1 << 0;
704 const MEMORY = 1 << 2;
705 const THREAD = 1 << 3;
706 const HWADDRESS = 1 << 4;
708 const MEMTAG = 1 << 6;
709 const SHADOWCALLSTACK = 1 << 7;
714 /// Return sanitizer's name
716 /// Returns none if the flags is a set of sanitizers numbering not exactly one.
717 pub fn as_str(self) -> Option<&'static str> {
719 SanitizerSet::ADDRESS => "address",
720 SanitizerSet::CFI => "cfi",
721 SanitizerSet::LEAK => "leak",
722 SanitizerSet::MEMORY => "memory",
723 SanitizerSet::MEMTAG => "memtag",
724 SanitizerSet::SHADOWCALLSTACK => "shadow-call-stack",
725 SanitizerSet::THREAD => "thread",
726 SanitizerSet::HWADDRESS => "hwaddress",
732 /// Formats a sanitizer set as a comma separated list of sanitizers' names.
733 impl fmt::Display for SanitizerSet {
734 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
735 let mut first = true;
737 let name = s.as_str().unwrap_or_else(|| panic!("unrecognized sanitizer {:?}", s));
748 impl IntoIterator for SanitizerSet {
749 type Item = SanitizerSet;
750 type IntoIter = std::vec::IntoIter<SanitizerSet>;
752 fn into_iter(self) -> Self::IntoIter {
754 SanitizerSet::ADDRESS,
757 SanitizerSet::MEMORY,
758 SanitizerSet::MEMTAG,
759 SanitizerSet::SHADOWCALLSTACK,
760 SanitizerSet::THREAD,
761 SanitizerSet::HWADDRESS,
765 .filter(|&s| self.contains(s))
771 impl<CTX> HashStable<CTX> for SanitizerSet {
772 fn hash_stable(&self, ctx: &mut CTX, hasher: &mut StableHasher) {
773 self.bits().hash_stable(ctx, hasher);
777 impl ToJson for SanitizerSet {
778 fn to_json(&self) -> Json {
780 .map(|v| Some(v.as_str()?.to_json()))
781 .collect::<Option<Vec<_>>>()
787 #[derive(Clone, Copy, PartialEq, Hash, Debug)]
788 pub enum FramePointer {
789 /// Forces the machine code generator to always preserve the frame pointers.
791 /// Forces the machine code generator to preserve the frame pointers except for the leaf
792 /// functions (i.e. those that don't call other functions).
794 /// Allows the machine code generator to omit the frame pointers.
796 /// This option does not guarantee that the frame pointers will be omitted.
800 impl FromStr for FramePointer {
802 fn from_str(s: &str) -> Result<Self, ()> {
804 "always" => Self::Always,
805 "non-leaf" => Self::NonLeaf,
806 "may-omit" => Self::MayOmit,
812 impl ToJson for FramePointer {
813 fn to_json(&self) -> Json {
815 Self::Always => "always",
816 Self::NonLeaf => "non-leaf",
817 Self::MayOmit => "may-omit",
823 /// Controls use of stack canaries.
824 #[derive(Clone, Copy, Debug, PartialEq, Hash, Eq)]
825 pub enum StackProtector {
826 /// Disable stack canary generation.
829 /// On LLVM, mark all generated LLVM functions with the `ssp` attribute (see
830 /// llvm/docs/LangRef.rst). This triggers stack canary generation in
831 /// functions which contain an array of a byte-sized type with more than
835 /// On LLVM, mark all generated LLVM functions with the `sspstrong`
836 /// attribute (see llvm/docs/LangRef.rst). This triggers stack canary
837 /// generation in functions which either contain an array, or which take
838 /// the address of a local variable.
841 /// Generate stack canaries in all functions.
845 impl StackProtector {
846 fn as_str(&self) -> &'static str {
848 StackProtector::None => "none",
849 StackProtector::Basic => "basic",
850 StackProtector::Strong => "strong",
851 StackProtector::All => "all",
856 impl FromStr for StackProtector {
859 fn from_str(s: &str) -> Result<StackProtector, ()> {
861 "none" => StackProtector::None,
862 "basic" => StackProtector::Basic,
863 "strong" => StackProtector::Strong,
864 "all" => StackProtector::All,
870 impl fmt::Display for StackProtector {
871 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
872 f.write_str(self.as_str())
876 macro_rules! supported_targets {
877 ( $(($triple:literal, $module:ident ),)+ ) => {
880 /// List of supported targets
881 pub const TARGETS: &[&str] = &[$($triple),+];
883 fn load_builtin(target: &str) -> Option<Target> {
884 let mut t = match target {
885 $( $triple => $module::target(), )+
889 debug!("got builtin target: {:?}", t);
897 // Cannot put this into a separate file without duplication, make an exception.
901 tests_impl::test_target(super::$module::target(), $triple);
909 ("x86_64-unknown-linux-gnu", x86_64_unknown_linux_gnu),
910 ("x86_64-unknown-linux-gnux32", x86_64_unknown_linux_gnux32),
911 ("i686-unknown-linux-gnu", i686_unknown_linux_gnu),
912 ("i586-unknown-linux-gnu", i586_unknown_linux_gnu),
913 ("m68k-unknown-linux-gnu", m68k_unknown_linux_gnu),
914 ("mips-unknown-linux-gnu", mips_unknown_linux_gnu),
915 ("mips64-unknown-linux-gnuabi64", mips64_unknown_linux_gnuabi64),
916 ("mips64el-unknown-linux-gnuabi64", mips64el_unknown_linux_gnuabi64),
917 ("mipsisa32r6-unknown-linux-gnu", mipsisa32r6_unknown_linux_gnu),
918 ("mipsisa32r6el-unknown-linux-gnu", mipsisa32r6el_unknown_linux_gnu),
919 ("mipsisa64r6-unknown-linux-gnuabi64", mipsisa64r6_unknown_linux_gnuabi64),
920 ("mipsisa64r6el-unknown-linux-gnuabi64", mipsisa64r6el_unknown_linux_gnuabi64),
921 ("mipsel-unknown-linux-gnu", mipsel_unknown_linux_gnu),
922 ("powerpc-unknown-linux-gnu", powerpc_unknown_linux_gnu),
923 ("powerpc-unknown-linux-gnuspe", powerpc_unknown_linux_gnuspe),
924 ("powerpc-unknown-linux-musl", powerpc_unknown_linux_musl),
925 ("powerpc64-unknown-linux-gnu", powerpc64_unknown_linux_gnu),
926 ("powerpc64-unknown-linux-musl", powerpc64_unknown_linux_musl),
927 ("powerpc64le-unknown-linux-gnu", powerpc64le_unknown_linux_gnu),
928 ("powerpc64le-unknown-linux-musl", powerpc64le_unknown_linux_musl),
929 ("s390x-unknown-linux-gnu", s390x_unknown_linux_gnu),
930 ("s390x-unknown-linux-musl", s390x_unknown_linux_musl),
931 ("sparc-unknown-linux-gnu", sparc_unknown_linux_gnu),
932 ("sparc64-unknown-linux-gnu", sparc64_unknown_linux_gnu),
933 ("arm-unknown-linux-gnueabi", arm_unknown_linux_gnueabi),
934 ("arm-unknown-linux-gnueabihf", arm_unknown_linux_gnueabihf),
935 ("arm-unknown-linux-musleabi", arm_unknown_linux_musleabi),
936 ("arm-unknown-linux-musleabihf", arm_unknown_linux_musleabihf),
937 ("armv4t-unknown-linux-gnueabi", armv4t_unknown_linux_gnueabi),
938 ("armv5te-unknown-linux-gnueabi", armv5te_unknown_linux_gnueabi),
939 ("armv5te-unknown-linux-musleabi", armv5te_unknown_linux_musleabi),
940 ("armv5te-unknown-linux-uclibceabi", armv5te_unknown_linux_uclibceabi),
941 ("armv7-unknown-linux-gnueabi", armv7_unknown_linux_gnueabi),
942 ("armv7-unknown-linux-gnueabihf", armv7_unknown_linux_gnueabihf),
943 ("thumbv7neon-unknown-linux-gnueabihf", thumbv7neon_unknown_linux_gnueabihf),
944 ("thumbv7neon-unknown-linux-musleabihf", thumbv7neon_unknown_linux_musleabihf),
945 ("armv7-unknown-linux-musleabi", armv7_unknown_linux_musleabi),
946 ("armv7-unknown-linux-musleabihf", armv7_unknown_linux_musleabihf),
947 ("aarch64-unknown-linux-gnu", aarch64_unknown_linux_gnu),
948 ("aarch64-unknown-linux-musl", aarch64_unknown_linux_musl),
949 ("x86_64-unknown-linux-musl", x86_64_unknown_linux_musl),
950 ("i686-unknown-linux-musl", i686_unknown_linux_musl),
951 ("i586-unknown-linux-musl", i586_unknown_linux_musl),
952 ("mips-unknown-linux-musl", mips_unknown_linux_musl),
953 ("mipsel-unknown-linux-musl", mipsel_unknown_linux_musl),
954 ("mips64-unknown-linux-muslabi64", mips64_unknown_linux_muslabi64),
955 ("mips64el-unknown-linux-muslabi64", mips64el_unknown_linux_muslabi64),
956 ("hexagon-unknown-linux-musl", hexagon_unknown_linux_musl),
958 ("mips-unknown-linux-uclibc", mips_unknown_linux_uclibc),
959 ("mipsel-unknown-linux-uclibc", mipsel_unknown_linux_uclibc),
961 ("i686-linux-android", i686_linux_android),
962 ("x86_64-linux-android", x86_64_linux_android),
963 ("arm-linux-androideabi", arm_linux_androideabi),
964 ("armv7-linux-androideabi", armv7_linux_androideabi),
965 ("thumbv7neon-linux-androideabi", thumbv7neon_linux_androideabi),
966 ("aarch64-linux-android", aarch64_linux_android),
968 ("x86_64-unknown-none-linuxkernel", x86_64_unknown_none_linuxkernel),
970 ("aarch64-unknown-freebsd", aarch64_unknown_freebsd),
971 ("armv6-unknown-freebsd", armv6_unknown_freebsd),
972 ("armv7-unknown-freebsd", armv7_unknown_freebsd),
973 ("i686-unknown-freebsd", i686_unknown_freebsd),
974 ("powerpc-unknown-freebsd", powerpc_unknown_freebsd),
975 ("powerpc64-unknown-freebsd", powerpc64_unknown_freebsd),
976 ("powerpc64le-unknown-freebsd", powerpc64le_unknown_freebsd),
977 ("riscv64gc-unknown-freebsd", riscv64gc_unknown_freebsd),
978 ("x86_64-unknown-freebsd", x86_64_unknown_freebsd),
980 ("x86_64-unknown-dragonfly", x86_64_unknown_dragonfly),
982 ("aarch64-unknown-openbsd", aarch64_unknown_openbsd),
983 ("i686-unknown-openbsd", i686_unknown_openbsd),
984 ("powerpc-unknown-openbsd", powerpc_unknown_openbsd),
985 ("powerpc64-unknown-openbsd", powerpc64_unknown_openbsd),
986 ("riscv64gc-unknown-openbsd", riscv64gc_unknown_openbsd),
987 ("sparc64-unknown-openbsd", sparc64_unknown_openbsd),
988 ("x86_64-unknown-openbsd", x86_64_unknown_openbsd),
990 ("aarch64-unknown-netbsd", aarch64_unknown_netbsd),
991 ("armv6-unknown-netbsd-eabihf", armv6_unknown_netbsd_eabihf),
992 ("armv7-unknown-netbsd-eabihf", armv7_unknown_netbsd_eabihf),
993 ("i686-unknown-netbsd", i686_unknown_netbsd),
994 ("powerpc-unknown-netbsd", powerpc_unknown_netbsd),
995 ("sparc64-unknown-netbsd", sparc64_unknown_netbsd),
996 ("x86_64-unknown-netbsd", x86_64_unknown_netbsd),
998 ("i686-unknown-haiku", i686_unknown_haiku),
999 ("x86_64-unknown-haiku", x86_64_unknown_haiku),
1001 ("aarch64-apple-darwin", aarch64_apple_darwin),
1002 ("x86_64-apple-darwin", x86_64_apple_darwin),
1003 ("i686-apple-darwin", i686_apple_darwin),
1005 ("aarch64-fuchsia", aarch64_fuchsia),
1006 ("x86_64-fuchsia", x86_64_fuchsia),
1008 ("avr-unknown-gnu-atmega328", avr_unknown_gnu_atmega328),
1010 ("x86_64-unknown-l4re-uclibc", x86_64_unknown_l4re_uclibc),
1012 ("aarch64-unknown-redox", aarch64_unknown_redox),
1013 ("x86_64-unknown-redox", x86_64_unknown_redox),
1015 ("i386-apple-ios", i386_apple_ios),
1016 ("x86_64-apple-ios", x86_64_apple_ios),
1017 ("aarch64-apple-ios", aarch64_apple_ios),
1018 ("armv7-apple-ios", armv7_apple_ios),
1019 ("armv7s-apple-ios", armv7s_apple_ios),
1020 ("x86_64-apple-ios-macabi", x86_64_apple_ios_macabi),
1021 ("aarch64-apple-ios-macabi", aarch64_apple_ios_macabi),
1022 ("aarch64-apple-ios-sim", aarch64_apple_ios_sim),
1023 ("aarch64-apple-tvos", aarch64_apple_tvos),
1024 ("x86_64-apple-tvos", x86_64_apple_tvos),
1026 ("armv7k-apple-watchos", armv7k_apple_watchos),
1027 ("arm64_32-apple-watchos", arm64_32_apple_watchos),
1028 ("x86_64-apple-watchos-sim", x86_64_apple_watchos_sim),
1029 ("aarch64-apple-watchos-sim", aarch64_apple_watchos_sim),
1031 ("armebv7r-none-eabi", armebv7r_none_eabi),
1032 ("armebv7r-none-eabihf", armebv7r_none_eabihf),
1033 ("armv7r-none-eabi", armv7r_none_eabi),
1034 ("armv7r-none-eabihf", armv7r_none_eabihf),
1036 ("x86_64-pc-solaris", x86_64_pc_solaris),
1037 ("x86_64-sun-solaris", x86_64_sun_solaris),
1038 ("sparcv9-sun-solaris", sparcv9_sun_solaris),
1040 ("x86_64-unknown-illumos", x86_64_unknown_illumos),
1042 ("x86_64-pc-windows-gnu", x86_64_pc_windows_gnu),
1043 ("i686-pc-windows-gnu", i686_pc_windows_gnu),
1044 ("i686-uwp-windows-gnu", i686_uwp_windows_gnu),
1045 ("x86_64-uwp-windows-gnu", x86_64_uwp_windows_gnu),
1047 ("aarch64-pc-windows-gnullvm", aarch64_pc_windows_gnullvm),
1048 ("x86_64-pc-windows-gnullvm", x86_64_pc_windows_gnullvm),
1050 ("aarch64-pc-windows-msvc", aarch64_pc_windows_msvc),
1051 ("aarch64-uwp-windows-msvc", aarch64_uwp_windows_msvc),
1052 ("x86_64-pc-windows-msvc", x86_64_pc_windows_msvc),
1053 ("x86_64-uwp-windows-msvc", x86_64_uwp_windows_msvc),
1054 ("i686-pc-windows-msvc", i686_pc_windows_msvc),
1055 ("i686-uwp-windows-msvc", i686_uwp_windows_msvc),
1056 ("i586-pc-windows-msvc", i586_pc_windows_msvc),
1057 ("thumbv7a-pc-windows-msvc", thumbv7a_pc_windows_msvc),
1058 ("thumbv7a-uwp-windows-msvc", thumbv7a_uwp_windows_msvc),
1060 ("asmjs-unknown-emscripten", asmjs_unknown_emscripten),
1061 ("wasm32-unknown-emscripten", wasm32_unknown_emscripten),
1062 ("wasm32-unknown-unknown", wasm32_unknown_unknown),
1063 ("wasm32-wasi", wasm32_wasi),
1064 ("wasm64-unknown-unknown", wasm64_unknown_unknown),
1066 ("thumbv6m-none-eabi", thumbv6m_none_eabi),
1067 ("thumbv7m-none-eabi", thumbv7m_none_eabi),
1068 ("thumbv7em-none-eabi", thumbv7em_none_eabi),
1069 ("thumbv7em-none-eabihf", thumbv7em_none_eabihf),
1070 ("thumbv8m.base-none-eabi", thumbv8m_base_none_eabi),
1071 ("thumbv8m.main-none-eabi", thumbv8m_main_none_eabi),
1072 ("thumbv8m.main-none-eabihf", thumbv8m_main_none_eabihf),
1074 ("armv7a-none-eabi", armv7a_none_eabi),
1075 ("armv7a-none-eabihf", armv7a_none_eabihf),
1077 ("msp430-none-elf", msp430_none_elf),
1079 ("aarch64-unknown-hermit", aarch64_unknown_hermit),
1080 ("x86_64-unknown-hermit", x86_64_unknown_hermit),
1082 ("riscv32i-unknown-none-elf", riscv32i_unknown_none_elf),
1083 ("riscv32im-unknown-none-elf", riscv32im_unknown_none_elf),
1084 ("riscv32imc-unknown-none-elf", riscv32imc_unknown_none_elf),
1085 ("riscv32imc-esp-espidf", riscv32imc_esp_espidf),
1086 ("riscv32imac-unknown-none-elf", riscv32imac_unknown_none_elf),
1087 ("riscv32imac-unknown-xous-elf", riscv32imac_unknown_xous_elf),
1088 ("riscv32gc-unknown-linux-gnu", riscv32gc_unknown_linux_gnu),
1089 ("riscv32gc-unknown-linux-musl", riscv32gc_unknown_linux_musl),
1090 ("riscv64imac-unknown-none-elf", riscv64imac_unknown_none_elf),
1091 ("riscv64gc-unknown-none-elf", riscv64gc_unknown_none_elf),
1092 ("riscv64gc-unknown-linux-gnu", riscv64gc_unknown_linux_gnu),
1093 ("riscv64gc-unknown-linux-musl", riscv64gc_unknown_linux_musl),
1095 ("aarch64-unknown-none", aarch64_unknown_none),
1096 ("aarch64-unknown-none-softfloat", aarch64_unknown_none_softfloat),
1098 ("x86_64-fortanix-unknown-sgx", x86_64_fortanix_unknown_sgx),
1100 ("x86_64-unknown-uefi", x86_64_unknown_uefi),
1101 ("i686-unknown-uefi", i686_unknown_uefi),
1102 ("aarch64-unknown-uefi", aarch64_unknown_uefi),
1104 ("nvptx64-nvidia-cuda", nvptx64_nvidia_cuda),
1106 ("i686-wrs-vxworks", i686_wrs_vxworks),
1107 ("x86_64-wrs-vxworks", x86_64_wrs_vxworks),
1108 ("armv7-wrs-vxworks-eabihf", armv7_wrs_vxworks_eabihf),
1109 ("aarch64-wrs-vxworks", aarch64_wrs_vxworks),
1110 ("powerpc-wrs-vxworks", powerpc_wrs_vxworks),
1111 ("powerpc-wrs-vxworks-spe", powerpc_wrs_vxworks_spe),
1112 ("powerpc64-wrs-vxworks", powerpc64_wrs_vxworks),
1114 ("aarch64-kmc-solid_asp3", aarch64_kmc_solid_asp3),
1115 ("armv7a-kmc-solid_asp3-eabi", armv7a_kmc_solid_asp3_eabi),
1116 ("armv7a-kmc-solid_asp3-eabihf", armv7a_kmc_solid_asp3_eabihf),
1118 ("mipsel-sony-psp", mipsel_sony_psp),
1119 ("mipsel-unknown-none", mipsel_unknown_none),
1120 ("thumbv4t-none-eabi", thumbv4t_none_eabi),
1121 ("armv4t-none-eabi", armv4t_none_eabi),
1123 ("aarch64_be-unknown-linux-gnu", aarch64_be_unknown_linux_gnu),
1124 ("aarch64-unknown-linux-gnu_ilp32", aarch64_unknown_linux_gnu_ilp32),
1125 ("aarch64_be-unknown-linux-gnu_ilp32", aarch64_be_unknown_linux_gnu_ilp32),
1127 ("bpfeb-unknown-none", bpfeb_unknown_none),
1128 ("bpfel-unknown-none", bpfel_unknown_none),
1130 ("armv6k-nintendo-3ds", armv6k_nintendo_3ds),
1132 ("aarch64-nintendo-switch-freestanding", aarch64_nintendo_switch_freestanding),
1134 ("armv7-unknown-linux-uclibceabi", armv7_unknown_linux_uclibceabi),
1135 ("armv7-unknown-linux-uclibceabihf", armv7_unknown_linux_uclibceabihf),
1137 ("x86_64-unknown-none", x86_64_unknown_none),
1139 ("mips64-openwrt-linux-musl", mips64_openwrt_linux_musl),
1142 /// Cow-Vec-Str: Cow<'static, [Cow<'static, str>]>
1145 ::std::borrow::Cow::Borrowed(&[])
1147 ($($x:expr),+ $(,)?) => {
1148 ::std::borrow::Cow::Borrowed(&[
1150 ::std::borrow::Cow::Borrowed($x),
1158 /// Warnings encountered when parsing the target `json`.
1160 /// Includes fields that weren't recognized and fields that don't have the expected type.
1161 #[derive(Debug, PartialEq)]
1162 pub struct TargetWarnings {
1163 unused_fields: Vec<String>,
1164 incorrect_type: Vec<String>,
1167 impl TargetWarnings {
1168 pub fn empty() -> Self {
1169 Self { unused_fields: Vec::new(), incorrect_type: Vec::new() }
1172 pub fn warning_messages(&self) -> Vec<String> {
1173 let mut warnings = vec![];
1174 if !self.unused_fields.is_empty() {
1175 warnings.push(format!(
1176 "target json file contains unused fields: {}",
1177 self.unused_fields.join(", ")
1180 if !self.incorrect_type.is_empty() {
1181 warnings.push(format!(
1182 "target json file contains fields whose value doesn't have the correct json type: {}",
1183 self.incorrect_type.join(", ")
1190 /// Everything `rustc` knows about how to compile for a specific target.
1192 /// Every field here must be specified, and has no default value.
1193 #[derive(PartialEq, Clone, Debug)]
1195 /// Target triple to pass to LLVM.
1196 pub llvm_target: StaticCow<str>,
1197 /// Number of bits in a pointer. Influences the `target_pointer_width` `cfg` variable.
1198 pub pointer_width: u32,
1199 /// Architecture to use for ABI considerations. Valid options include: "x86",
1200 /// "x86_64", "arm", "aarch64", "mips", "powerpc", "powerpc64", and others.
1201 pub arch: StaticCow<str>,
1202 /// [Data layout](https://llvm.org/docs/LangRef.html#data-layout) to pass to LLVM.
1203 pub data_layout: StaticCow<str>,
1204 /// Optional settings with defaults.
1205 pub options: TargetOptions,
1208 pub trait HasTargetSpec {
1209 fn target_spec(&self) -> &Target;
1212 impl HasTargetSpec for Target {
1214 fn target_spec(&self) -> &Target {
1219 type StaticCow<T> = Cow<'static, T>;
1221 /// Optional aspects of a target specification.
1223 /// This has an implementation of `Default`, see each field for what the default is. In general,
1224 /// these try to take "minimal defaults" that don't assume anything about the runtime they run in.
1226 /// `TargetOptions` as a separate structure is mostly an implementation detail of `Target`
1227 /// construction, all its fields logically belong to `Target` and available from `Target`
1228 /// through `Deref` impls.
1229 #[derive(PartialEq, Clone, Debug)]
1230 pub struct TargetOptions {
1231 /// Whether the target is built-in or loaded from a custom target specification.
1232 pub is_builtin: bool,
1234 /// Used as the `target_endian` `cfg` variable. Defaults to little endian.
1236 /// Width of c_int type. Defaults to "32".
1237 pub c_int_width: StaticCow<str>,
1238 /// OS name to use for conditional compilation (`target_os`). Defaults to "none".
1239 /// "none" implies a bare metal target without `std` library.
1240 /// A couple of targets having `std` also use "unknown" as an `os` value,
1241 /// but they are exceptions.
1242 pub os: StaticCow<str>,
1243 /// Environment name to use for conditional compilation (`target_env`). Defaults to "".
1244 pub env: StaticCow<str>,
1245 /// ABI name to distinguish multiple ABIs on the same OS and architecture. For instance, `"eabi"`
1246 /// or `"eabihf"`. Defaults to "".
1247 pub abi: StaticCow<str>,
1248 /// Vendor name to use for conditional compilation (`target_vendor`). Defaults to "unknown".
1249 pub vendor: StaticCow<str>,
1251 /// Linker to invoke
1252 pub linker: Option<StaticCow<str>>,
1253 /// Default linker flavor used if `-C linker-flavor` or `-C linker` are not passed
1254 /// on the command line. Defaults to `LinkerFlavor::Gcc`.
1255 pub linker_flavor: LinkerFlavor,
1256 linker_flavor_json: LinkerFlavorCli,
1257 /// LLD flavor used if `lld` (or `rust-lld`) is specified as a linker
1258 /// without clarifying its flavor in any way.
1259 /// FIXME: Merge this into `LinkerFlavor`.
1260 pub lld_flavor: LldFlavor,
1261 /// Whether the linker support GNU-like arguments such as -O. Defaults to true.
1262 /// FIXME: Merge this into `LinkerFlavor`.
1263 pub linker_is_gnu: bool,
1265 /// Objects to link before and after all other object code.
1266 pub pre_link_objects: CrtObjects,
1267 pub post_link_objects: CrtObjects,
1268 /// Same as `(pre|post)_link_objects`, but when self-contained linking mode is enabled.
1269 pub pre_link_objects_self_contained: CrtObjects,
1270 pub post_link_objects_self_contained: CrtObjects,
1271 pub link_self_contained: LinkSelfContainedDefault,
1273 /// Linker arguments that are passed *before* any user-defined libraries.
1274 pub pre_link_args: LinkArgs,
1275 pre_link_args_json: LinkArgsCli,
1276 /// Linker arguments that are unconditionally passed after any
1277 /// user-defined but before post-link objects. Standard platform
1278 /// libraries that should be always be linked to, usually go here.
1279 pub late_link_args: LinkArgs,
1280 late_link_args_json: LinkArgsCli,
1281 /// Linker arguments used in addition to `late_link_args` if at least one
1282 /// Rust dependency is dynamically linked.
1283 pub late_link_args_dynamic: LinkArgs,
1284 late_link_args_dynamic_json: LinkArgsCli,
1285 /// Linker arguments used in addition to `late_link_args` if all Rust
1286 /// dependencies are statically linked.
1287 pub late_link_args_static: LinkArgs,
1288 late_link_args_static_json: LinkArgsCli,
1289 /// Linker arguments that are unconditionally passed *after* any
1290 /// user-defined libraries.
1291 pub post_link_args: LinkArgs,
1292 post_link_args_json: LinkArgsCli,
1294 /// Optional link script applied to `dylib` and `executable` crate types.
1295 /// This is a string containing the script, not a path. Can only be applied
1296 /// to linkers where `linker_is_gnu` is true.
1297 pub link_script: Option<StaticCow<str>>,
1298 /// Environment variables to be set for the linker invocation.
1299 pub link_env: StaticCow<[(StaticCow<str>, StaticCow<str>)]>,
1300 /// Environment variables to be removed for the linker invocation.
1301 pub link_env_remove: StaticCow<[StaticCow<str>]>,
1303 /// Extra arguments to pass to the external assembler (when used)
1304 pub asm_args: StaticCow<[StaticCow<str>]>,
1306 /// Default CPU to pass to LLVM. Corresponds to `llc -mcpu=$cpu`. Defaults
1308 pub cpu: StaticCow<str>,
1309 /// Default target features to pass to LLVM. These features will *always* be
1310 /// passed, and cannot be disabled even via `-C`. Corresponds to `llc
1311 /// -mattr=$features`.
1312 pub features: StaticCow<str>,
1313 /// Whether dynamic linking is available on this target. Defaults to false.
1314 pub dynamic_linking: bool,
1315 /// If dynamic linking is available, whether only cdylibs are supported.
1316 pub only_cdylib: bool,
1317 /// Whether executables are available on this target. Defaults to true.
1318 pub executables: bool,
1319 /// Relocation model to use in object file. Corresponds to `llc
1320 /// -relocation-model=$relocation_model`. Defaults to `Pic`.
1321 pub relocation_model: RelocModel,
1322 /// Code model to use. Corresponds to `llc -code-model=$code_model`.
1323 /// Defaults to `None` which means "inherited from the base LLVM target".
1324 pub code_model: Option<CodeModel>,
1325 /// TLS model to use. Options are "global-dynamic" (default), "local-dynamic", "initial-exec"
1326 /// and "local-exec". This is similar to the -ftls-model option in GCC/Clang.
1327 pub tls_model: TlsModel,
1328 /// Do not emit code that uses the "red zone", if the ABI has one. Defaults to false.
1329 pub disable_redzone: bool,
1330 /// Frame pointer mode for this target. Defaults to `MayOmit`.
1331 pub frame_pointer: FramePointer,
1332 /// Emit each function in its own section. Defaults to true.
1333 pub function_sections: bool,
1334 /// String to prepend to the name of every dynamic library. Defaults to "lib".
1335 pub dll_prefix: StaticCow<str>,
1336 /// String to append to the name of every dynamic library. Defaults to ".so".
1337 pub dll_suffix: StaticCow<str>,
1338 /// String to append to the name of every executable.
1339 pub exe_suffix: StaticCow<str>,
1340 /// String to prepend to the name of every static library. Defaults to "lib".
1341 pub staticlib_prefix: StaticCow<str>,
1342 /// String to append to the name of every static library. Defaults to ".a".
1343 pub staticlib_suffix: StaticCow<str>,
1344 /// Values of the `target_family` cfg set for this target.
1346 /// Common options are: "unix", "windows". Defaults to no families.
1348 /// See <https://doc.rust-lang.org/reference/conditional-compilation.html#target_family>.
1349 pub families: StaticCow<[StaticCow<str>]>,
1350 /// Whether the target toolchain's ABI supports returning small structs as an integer.
1351 pub abi_return_struct_as_int: bool,
1352 /// Whether the target toolchain is like macOS's. Only useful for compiling against iOS/macOS,
1353 /// in particular running dsymutil and some other stuff like `-dead_strip`. Defaults to false.
1354 pub is_like_osx: bool,
1355 /// Whether the target toolchain is like Solaris's.
1356 /// Only useful for compiling against Illumos/Solaris,
1357 /// as they have a different set of linker flags. Defaults to false.
1358 pub is_like_solaris: bool,
1359 /// Whether the target is like Windows.
1360 /// This is a combination of several more specific properties represented as a single flag:
1361 /// - The target uses a Windows ABI,
1362 /// - uses PE/COFF as a format for object code,
1363 /// - uses Windows-style dllexport/dllimport for shared libraries,
1364 /// - uses import libraries and .def files for symbol exports,
1365 /// - executables support setting a subsystem.
1366 pub is_like_windows: bool,
1367 /// Whether the target is like MSVC.
1368 /// This is a combination of several more specific properties represented as a single flag:
1369 /// - The target has all the properties from `is_like_windows`
1370 /// (for in-tree targets "is_like_msvc ⇒ is_like_windows" is ensured by a unit test),
1371 /// - has some MSVC-specific Windows ABI properties,
1372 /// - uses a link.exe-like linker,
1373 /// - uses CodeView/PDB for debuginfo and natvis for its visualization,
1374 /// - uses SEH-based unwinding,
1375 /// - supports control flow guard mechanism.
1376 pub is_like_msvc: bool,
1377 /// Whether a target toolchain is like WASM.
1378 pub is_like_wasm: bool,
1379 /// Default supported version of DWARF on this platform.
1380 /// Useful because some platforms (osx, bsd) only want up to DWARF2.
1381 pub default_dwarf_version: u32,
1382 /// The MinGW toolchain has a known issue that prevents it from correctly
1383 /// handling COFF object files with more than 2<sup>15</sup> sections. Since each weak
1384 /// symbol needs its own COMDAT section, weak linkage implies a large
1385 /// number sections that easily exceeds the given limit for larger
1386 /// codebases. Consequently we want a way to disallow weak linkage on some
1388 pub allows_weak_linkage: bool,
1389 /// Whether the linker support rpaths or not. Defaults to false.
1390 pub has_rpath: bool,
1391 /// Whether to disable linking to the default libraries, typically corresponds
1392 /// to `-nodefaultlibs`. Defaults to true.
1393 pub no_default_libraries: bool,
1394 /// Dynamically linked executables can be compiled as position independent
1395 /// if the default relocation model of position independent code is not
1396 /// changed. This is a requirement to take advantage of ASLR, as otherwise
1397 /// the functions in the executable are not randomized and can be used
1398 /// during an exploit of a vulnerability in any code.
1399 pub position_independent_executables: bool,
1400 /// Executables that are both statically linked and position-independent are supported.
1401 pub static_position_independent_executables: bool,
1402 /// Determines if the target always requires using the PLT for indirect
1403 /// library calls or not. This controls the default value of the `-Z plt` flag.
1404 pub needs_plt: bool,
1405 /// Either partial, full, or off. Full RELRO makes the dynamic linker
1406 /// resolve all symbols at startup and marks the GOT read-only before
1407 /// starting the program, preventing overwriting the GOT.
1408 pub relro_level: RelroLevel,
1409 /// Format that archives should be emitted in. This affects whether we use
1410 /// LLVM to assemble an archive or fall back to the system linker, and
1411 /// currently only "gnu" is used to fall into LLVM. Unknown strings cause
1412 /// the system linker to be used.
1413 pub archive_format: StaticCow<str>,
1414 /// Is asm!() allowed? Defaults to true.
1415 pub allow_asm: bool,
1416 /// Whether the runtime startup code requires the `main` function be passed
1417 /// `argc` and `argv` values.
1418 pub main_needs_argc_argv: bool,
1420 /// Flag indicating whether #[thread_local] is available for this target.
1421 pub has_thread_local: bool,
1422 // This is mainly for easy compatibility with emscripten.
1423 // If we give emcc .o files that are actually .bc files it
1424 // will 'just work'.
1425 pub obj_is_bitcode: bool,
1426 /// Whether the target requires that emitted object code includes bitcode.
1427 pub forces_embed_bitcode: bool,
1428 /// Content of the LLVM cmdline section associated with embedded bitcode.
1429 pub bitcode_llvm_cmdline: StaticCow<str>,
1431 /// Don't use this field; instead use the `.min_atomic_width()` method.
1432 pub min_atomic_width: Option<u64>,
1434 /// Don't use this field; instead use the `.max_atomic_width()` method.
1435 pub max_atomic_width: Option<u64>,
1437 /// Whether the target supports atomic CAS operations natively
1438 pub atomic_cas: bool,
1440 /// Panic strategy: "unwind" or "abort"
1441 pub panic_strategy: PanicStrategy,
1443 /// Whether or not linking dylibs to a static CRT is allowed.
1444 pub crt_static_allows_dylibs: bool,
1445 /// Whether or not the CRT is statically linked by default.
1446 pub crt_static_default: bool,
1447 /// Whether or not crt-static is respected by the compiler (or is a no-op).
1448 pub crt_static_respected: bool,
1450 /// The implementation of stack probes to use.
1451 pub stack_probes: StackProbeType,
1453 /// The minimum alignment for global symbols.
1454 pub min_global_align: Option<u64>,
1456 /// Default number of codegen units to use in debug mode
1457 pub default_codegen_units: Option<u64>,
1459 /// Whether to generate trap instructions in places where optimization would
1460 /// otherwise produce control flow that falls through into unrelated memory.
1461 pub trap_unreachable: bool,
1463 /// This target requires everything to be compiled with LTO to emit a final
1464 /// executable, aka there is no native linker for this target.
1465 pub requires_lto: bool,
1467 /// This target has no support for threads.
1468 pub singlethread: bool,
1470 /// Whether library functions call lowering/optimization is disabled in LLVM
1471 /// for this target unconditionally.
1472 pub no_builtins: bool,
1474 /// The default visibility for symbols in this target should be "hidden"
1475 /// rather than "default"
1476 pub default_hidden_visibility: bool,
1478 /// Whether a .debug_gdb_scripts section will be added to the output object file
1479 pub emit_debug_gdb_scripts: bool,
1481 /// Whether or not to unconditionally `uwtable` attributes on functions,
1482 /// typically because the platform needs to unwind for things like stack
1484 pub requires_uwtable: bool,
1486 /// Whether or not to emit `uwtable` attributes on functions if `-C force-unwind-tables`
1487 /// is not specified and `uwtable` is not required on this target.
1488 pub default_uwtable: bool,
1490 /// Whether or not SIMD types are passed by reference in the Rust ABI,
1491 /// typically required if a target can be compiled with a mixed set of
1492 /// target features. This is `true` by default, and `false` for targets like
1493 /// wasm32 where the whole program either has simd or not.
1494 pub simd_types_indirect: bool,
1496 /// Pass a list of symbol which should be exported in the dylib to the linker.
1497 pub limit_rdylib_exports: bool,
1499 /// If set, have the linker export exactly these symbols, instead of using
1500 /// the usual logic to figure this out from the crate itself.
1501 pub override_export_symbols: Option<StaticCow<[StaticCow<str>]>>,
1503 /// Determines how or whether the MergeFunctions LLVM pass should run for
1504 /// this target. Either "disabled", "trampolines", or "aliases".
1505 /// The MergeFunctions pass is generally useful, but some targets may need
1506 /// to opt out. The default is "aliases".
1508 /// Workaround for: <https://github.com/rust-lang/rust/issues/57356>
1509 pub merge_functions: MergeFunctions,
1511 /// Use platform dependent mcount function
1512 pub mcount: StaticCow<str>,
1514 /// LLVM ABI name, corresponds to the '-mabi' parameter available in multilib C compilers
1515 pub llvm_abiname: StaticCow<str>,
1517 /// Whether or not RelaxElfRelocation flag will be passed to the linker
1518 pub relax_elf_relocations: bool,
1520 /// Additional arguments to pass to LLVM, similar to the `-C llvm-args` codegen option.
1521 pub llvm_args: StaticCow<[StaticCow<str>]>,
1523 /// Whether to use legacy .ctors initialization hooks rather than .init_array. Defaults
1524 /// to false (uses .init_array).
1525 pub use_ctors_section: bool,
1527 /// Whether the linker is instructed to add a `GNU_EH_FRAME` ELF header
1528 /// used to locate unwinding information is passed
1529 /// (only has effect if the linker is `ld`-like).
1530 pub eh_frame_header: bool,
1532 /// Is true if the target is an ARM architecture using thumb v1 which allows for
1533 /// thumb and arm interworking.
1534 pub has_thumb_interworking: bool,
1536 /// Which kind of debuginfo is used by this target?
1537 pub debuginfo_kind: DebuginfoKind,
1538 /// How to handle split debug information, if at all. Specifying `None` has
1539 /// target-specific meaning.
1540 pub split_debuginfo: SplitDebuginfo,
1541 /// Which kinds of split debuginfo are supported by the target?
1542 pub supported_split_debuginfo: StaticCow<[SplitDebuginfo]>,
1544 /// The sanitizers supported by this target
1546 /// Note that the support here is at a codegen level. If the machine code with sanitizer
1547 /// enabled can generated on this target, but the necessary supporting libraries are not
1548 /// distributed with the target, the sanitizer should still appear in this list for the target.
1549 pub supported_sanitizers: SanitizerSet,
1551 /// If present it's a default value to use for adjusting the C ABI.
1552 pub default_adjusted_cabi: Option<Abi>,
1554 /// Minimum number of bits in #[repr(C)] enum. Defaults to 32.
1555 pub c_enum_min_bits: u64,
1557 /// Whether or not the DWARF `.debug_aranges` section should be generated.
1558 pub generate_arange_section: bool,
1560 /// Whether the target supports stack canary checks. `true` by default,
1561 /// since this is most common among tier 1 and tier 2 targets.
1562 pub supports_stack_protector: bool,
1565 /// Add arguments for the given flavor and also for its "twin" flavors
1566 /// that have a compatible command line interface.
1567 fn add_link_args(link_args: &mut LinkArgs, flavor: LinkerFlavor, args: &[&'static str]) {
1568 let mut insert = |flavor| {
1569 link_args.entry(flavor).or_default().extend(args.iter().copied().map(Cow::Borrowed))
1573 LinkerFlavor::Ld => insert(LinkerFlavor::Lld(LldFlavor::Ld)),
1574 LinkerFlavor::Msvc => insert(LinkerFlavor::Lld(LldFlavor::Link)),
1575 LinkerFlavor::Lld(LldFlavor::Ld64) | LinkerFlavor::Lld(LldFlavor::Wasm) => {}
1576 LinkerFlavor::Lld(lld_flavor) => {
1577 panic!("add_link_args: use non-LLD flavor for {:?}", lld_flavor)
1579 LinkerFlavor::Gcc | LinkerFlavor::EmCc | LinkerFlavor::Bpf | LinkerFlavor::Ptx => {}
1583 impl TargetOptions {
1584 fn link_args(flavor: LinkerFlavor, args: &[&'static str]) -> LinkArgs {
1585 let mut link_args = LinkArgs::new();
1586 add_link_args(&mut link_args, flavor, args);
1590 fn add_pre_link_args(&mut self, flavor: LinkerFlavor, args: &[&'static str]) {
1591 add_link_args(&mut self.pre_link_args, flavor, args);
1594 fn add_post_link_args(&mut self, flavor: LinkerFlavor, args: &[&'static str]) {
1595 add_link_args(&mut self.post_link_args, flavor, args);
1598 fn update_from_cli(&mut self) {
1599 self.linker_flavor = LinkerFlavor::from_cli(self.linker_flavor_json);
1600 for (args, args_json) in [
1601 (&mut self.pre_link_args, &self.pre_link_args_json),
1602 (&mut self.late_link_args, &self.late_link_args_json),
1603 (&mut self.late_link_args_dynamic, &self.late_link_args_dynamic_json),
1604 (&mut self.late_link_args_static, &self.late_link_args_static_json),
1605 (&mut self.post_link_args, &self.post_link_args_json),
1609 .map(|(flavor, args)| (LinkerFlavor::from_cli(*flavor), args.clone()))
1614 fn update_to_cli(&mut self) {
1615 self.linker_flavor_json = self.linker_flavor.to_cli();
1616 for (args, args_json) in [
1617 (&self.pre_link_args, &mut self.pre_link_args_json),
1618 (&self.late_link_args, &mut self.late_link_args_json),
1619 (&self.late_link_args_dynamic, &mut self.late_link_args_dynamic_json),
1620 (&self.late_link_args_static, &mut self.late_link_args_static_json),
1621 (&self.post_link_args, &mut self.post_link_args_json),
1624 args.iter().map(|(flavor, args)| (flavor.to_cli(), args.clone())).collect();
1629 impl Default for TargetOptions {
1630 /// Creates a set of "sane defaults" for any target. This is still
1631 /// incomplete, and if used for compilation, will certainly not work.
1632 fn default() -> TargetOptions {
1635 endian: Endian::Little,
1636 c_int_width: "32".into(),
1640 vendor: "unknown".into(),
1641 linker: option_env!("CFG_DEFAULT_LINKER").map(|s| s.into()),
1642 linker_flavor: LinkerFlavor::Gcc,
1643 linker_flavor_json: LinkerFlavorCli::Gcc,
1644 lld_flavor: LldFlavor::Ld,
1645 linker_is_gnu: true,
1648 cpu: "generic".into(),
1649 features: "".into(),
1650 dynamic_linking: false,
1653 relocation_model: RelocModel::Pic,
1655 tls_model: TlsModel::GeneralDynamic,
1656 disable_redzone: false,
1657 frame_pointer: FramePointer::MayOmit,
1658 function_sections: true,
1659 dll_prefix: "lib".into(),
1660 dll_suffix: ".so".into(),
1661 exe_suffix: "".into(),
1662 staticlib_prefix: "lib".into(),
1663 staticlib_suffix: ".a".into(),
1665 abi_return_struct_as_int: false,
1667 is_like_solaris: false,
1668 is_like_windows: false,
1669 is_like_msvc: false,
1670 is_like_wasm: false,
1671 default_dwarf_version: 4,
1672 allows_weak_linkage: true,
1674 no_default_libraries: true,
1675 position_independent_executables: false,
1676 static_position_independent_executables: false,
1678 relro_level: RelroLevel::None,
1679 pre_link_objects: Default::default(),
1680 post_link_objects: Default::default(),
1681 pre_link_objects_self_contained: Default::default(),
1682 post_link_objects_self_contained: Default::default(),
1683 link_self_contained: LinkSelfContainedDefault::False,
1684 pre_link_args: LinkArgs::new(),
1685 pre_link_args_json: LinkArgsCli::new(),
1686 late_link_args: LinkArgs::new(),
1687 late_link_args_json: LinkArgsCli::new(),
1688 late_link_args_dynamic: LinkArgs::new(),
1689 late_link_args_dynamic_json: LinkArgsCli::new(),
1690 late_link_args_static: LinkArgs::new(),
1691 late_link_args_static_json: LinkArgsCli::new(),
1692 post_link_args: LinkArgs::new(),
1693 post_link_args_json: LinkArgsCli::new(),
1695 link_env_remove: cvs![],
1696 archive_format: "gnu".into(),
1697 main_needs_argc_argv: true,
1699 has_thread_local: false,
1700 obj_is_bitcode: false,
1701 forces_embed_bitcode: false,
1702 bitcode_llvm_cmdline: "".into(),
1703 min_atomic_width: None,
1704 max_atomic_width: None,
1706 panic_strategy: PanicStrategy::Unwind,
1707 crt_static_allows_dylibs: false,
1708 crt_static_default: false,
1709 crt_static_respected: false,
1710 stack_probes: StackProbeType::None,
1711 min_global_align: None,
1712 default_codegen_units: None,
1713 trap_unreachable: true,
1714 requires_lto: false,
1715 singlethread: false,
1717 default_hidden_visibility: false,
1718 emit_debug_gdb_scripts: true,
1719 requires_uwtable: false,
1720 default_uwtable: false,
1721 simd_types_indirect: true,
1722 limit_rdylib_exports: true,
1723 override_export_symbols: None,
1724 merge_functions: MergeFunctions::Aliases,
1725 mcount: "mcount".into(),
1726 llvm_abiname: "".into(),
1727 relax_elf_relocations: false,
1729 use_ctors_section: false,
1730 eh_frame_header: true,
1731 has_thumb_interworking: false,
1732 debuginfo_kind: Default::default(),
1733 split_debuginfo: Default::default(),
1734 // `Off` is supported by default, but targets can remove this manually, e.g. Windows.
1735 supported_split_debuginfo: Cow::Borrowed(&[SplitDebuginfo::Off]),
1736 supported_sanitizers: SanitizerSet::empty(),
1737 default_adjusted_cabi: None,
1738 c_enum_min_bits: 32,
1739 generate_arange_section: true,
1740 supports_stack_protector: true,
1745 /// `TargetOptions` being a separate type is basically an implementation detail of `Target` that is
1746 /// used for providing defaults. Perhaps there's a way to merge `TargetOptions` into `Target` so
1747 /// this `Deref` implementation is no longer necessary.
1748 impl Deref for Target {
1749 type Target = TargetOptions;
1752 fn deref(&self) -> &Self::Target {
1756 impl DerefMut for Target {
1758 fn deref_mut(&mut self) -> &mut Self::Target {
1764 /// Given a function ABI, turn it into the correct ABI for this target.
1765 pub fn adjust_abi(&self, abi: Abi) -> Abi {
1767 Abi::C { .. } => self.default_adjusted_cabi.unwrap_or(abi),
1768 Abi::System { unwind } if self.is_like_windows && self.arch == "x86" => {
1769 Abi::Stdcall { unwind }
1771 Abi::System { unwind } => Abi::C { unwind },
1772 Abi::EfiApi if self.arch == "x86_64" => Abi::Win64 { unwind: false },
1773 Abi::EfiApi => Abi::C { unwind: false },
1775 // See commentary in `is_abi_supported`.
1776 Abi::Stdcall { .. } | Abi::Thiscall { .. } if self.arch == "x86" => abi,
1777 Abi::Stdcall { unwind } | Abi::Thiscall { unwind } => Abi::C { unwind },
1778 Abi::Fastcall { .. } if self.arch == "x86" => abi,
1779 Abi::Vectorcall { .. } if ["x86", "x86_64"].contains(&&self.arch[..]) => abi,
1780 Abi::Fastcall { unwind } | Abi::Vectorcall { unwind } => Abi::C { unwind },
1786 /// Returns a None if the UNSUPPORTED_CALLING_CONVENTIONS lint should be emitted
1787 pub fn is_abi_supported(&self, abi: Abi) -> Option<bool> {
1800 X86Interrupt => ["x86", "x86_64"].contains(&&self.arch[..]),
1801 Aapcs { .. } => "arm" == self.arch,
1802 CCmseNonSecureCall => ["arm", "aarch64"].contains(&&self.arch[..]),
1803 Win64 { .. } | SysV64 { .. } => self.arch == "x86_64",
1804 PtxKernel => self.arch == "nvptx64",
1805 Msp430Interrupt => self.arch == "msp430",
1806 AmdGpuKernel => self.arch == "amdgcn",
1807 AvrInterrupt | AvrNonBlockingInterrupt => self.arch == "avr",
1808 Wasm => ["wasm32", "wasm64"].contains(&&self.arch[..]),
1809 Thiscall { .. } => self.arch == "x86",
1810 // On windows these fall-back to platform native calling convention (C) when the
1811 // architecture is not supported.
1813 // This is I believe a historical accident that has occurred as part of Microsoft
1814 // striving to allow most of the code to "just" compile when support for 64-bit x86
1815 // was added and then later again, when support for ARM architectures was added.
1817 // This is well documented across MSDN. Support for this in Rust has been added in
1818 // #54576. This makes much more sense in context of Microsoft's C++ than it does in
1819 // Rust, but there isn't much leeway remaining here to change it back at the time this
1820 // comment has been written.
1822 // Following are the relevant excerpts from the MSDN documentation.
1824 // > The __vectorcall calling convention is only supported in native code on x86 and
1825 // x64 processors that include Streaming SIMD Extensions 2 (SSE2) and above.
1827 // > On ARM machines, __vectorcall is accepted and ignored by the compiler.
1829 // -- https://docs.microsoft.com/en-us/cpp/cpp/vectorcall?view=msvc-160
1831 // > On ARM and x64 processors, __stdcall is accepted and ignored by the compiler;
1833 // -- https://docs.microsoft.com/en-us/cpp/cpp/stdcall?view=msvc-160
1835 // > In most cases, keywords or compiler switches that specify an unsupported
1836 // > convention on a particular platform are ignored, and the platform default
1837 // > convention is used.
1839 // -- https://docs.microsoft.com/en-us/cpp/cpp/argument-passing-and-naming-conventions
1840 Stdcall { .. } | Fastcall { .. } | Vectorcall { .. } if self.is_like_windows => true,
1841 // Outside of Windows we want to only support these calling conventions for the
1842 // architectures for which these calling conventions are actually well defined.
1843 Stdcall { .. } | Fastcall { .. } if self.arch == "x86" => true,
1844 Vectorcall { .. } if ["x86", "x86_64"].contains(&&self.arch[..]) => true,
1845 // Return a `None` for other cases so that we know to emit a future compat lint.
1846 Stdcall { .. } | Fastcall { .. } | Vectorcall { .. } => return None,
1850 /// Minimum integer size in bits that this target can perform atomic
1852 pub fn min_atomic_width(&self) -> u64 {
1853 self.min_atomic_width.unwrap_or(8)
1856 /// Maximum integer size in bits that this target can perform atomic
1858 pub fn max_atomic_width(&self) -> u64 {
1859 self.max_atomic_width.unwrap_or_else(|| self.pointer_width.into())
1862 /// Loads a target descriptor from a JSON object.
1863 pub fn from_json(obj: Json) -> Result<(Target, TargetWarnings), String> {
1864 // While ugly, this code must remain this way to retain
1865 // compatibility with existing JSON fields and the internal
1866 // expected naming of the Target and TargetOptions structs.
1867 // To ensure compatibility is retained, the built-in targets
1868 // are round-tripped through this code to catch cases where
1869 // the JSON parser is not updated to match the structs.
1871 let mut obj = match obj {
1872 Value::Object(obj) => obj,
1873 _ => return Err("Expected JSON object for target")?,
1876 let mut get_req_field = |name: &str| {
1878 .and_then(|j| j.as_str().map(str::to_string))
1879 .ok_or_else(|| format!("Field {} in target specification is required", name))
1882 let mut base = Target {
1883 llvm_target: get_req_field("llvm-target")?.into(),
1884 pointer_width: get_req_field("target-pointer-width")?
1886 .map_err(|_| "target-pointer-width must be an integer".to_string())?,
1887 data_layout: get_req_field("data-layout")?.into(),
1888 arch: get_req_field("arch")?.into(),
1889 options: Default::default(),
1892 let mut incorrect_type = vec![];
1895 ($key_name:ident) => ( {
1896 let name = (stringify!($key_name)).replace("_", "-");
1897 if let Some(s) = obj.remove(&name).and_then(|s| s.as_str().map(str::to_string).map(Cow::from)) {
1901 ($key_name:ident = $json_name:expr) => ( {
1902 let name = $json_name;
1903 if let Some(s) = obj.remove(name).and_then(|s| s.as_str().map(str::to_string).map(Cow::from)) {
1907 ($key_name:ident, bool) => ( {
1908 let name = (stringify!($key_name)).replace("_", "-");
1909 if let Some(s) = obj.remove(&name).and_then(|b| b.as_bool()) {
1913 ($key_name:ident, u64) => ( {
1914 let name = (stringify!($key_name)).replace("_", "-");
1915 if let Some(s) = obj.remove(&name).and_then(|j| Json::as_u64(&j)) {
1919 ($key_name:ident, u32) => ( {
1920 let name = (stringify!($key_name)).replace("_", "-");
1921 if let Some(s) = obj.remove(&name).and_then(|b| b.as_u64()) {
1923 return Err("Not a valid DWARF version number".into());
1925 base.$key_name = s as u32;
1928 ($key_name:ident, Option<u64>) => ( {
1929 let name = (stringify!($key_name)).replace("_", "-");
1930 if let Some(s) = obj.remove(&name).and_then(|b| b.as_u64()) {
1931 base.$key_name = Some(s);
1934 ($key_name:ident, MergeFunctions) => ( {
1935 let name = (stringify!($key_name)).replace("_", "-");
1936 obj.remove(&name).and_then(|o| o.as_str().and_then(|s| {
1937 match s.parse::<MergeFunctions>() {
1938 Ok(mergefunc) => base.$key_name = mergefunc,
1939 _ => return Some(Err(format!("'{}' is not a valid value for \
1940 merge-functions. Use 'disabled', \
1941 'trampolines', or 'aliases'.",
1945 })).unwrap_or(Ok(()))
1947 ($key_name:ident, RelocModel) => ( {
1948 let name = (stringify!($key_name)).replace("_", "-");
1949 obj.remove(&name).and_then(|o| o.as_str().and_then(|s| {
1950 match s.parse::<RelocModel>() {
1951 Ok(relocation_model) => base.$key_name = relocation_model,
1952 _ => return Some(Err(format!("'{}' is not a valid relocation model. \
1953 Run `rustc --print relocation-models` to \
1954 see the list of supported values.", s))),
1957 })).unwrap_or(Ok(()))
1959 ($key_name:ident, CodeModel) => ( {
1960 let name = (stringify!($key_name)).replace("_", "-");
1961 obj.remove(&name).and_then(|o| o.as_str().and_then(|s| {
1962 match s.parse::<CodeModel>() {
1963 Ok(code_model) => base.$key_name = Some(code_model),
1964 _ => return Some(Err(format!("'{}' is not a valid code model. \
1965 Run `rustc --print code-models` to \
1966 see the list of supported values.", s))),
1969 })).unwrap_or(Ok(()))
1971 ($key_name:ident, TlsModel) => ( {
1972 let name = (stringify!($key_name)).replace("_", "-");
1973 obj.remove(&name).and_then(|o| o.as_str().and_then(|s| {
1974 match s.parse::<TlsModel>() {
1975 Ok(tls_model) => base.$key_name = tls_model,
1976 _ => return Some(Err(format!("'{}' is not a valid TLS model. \
1977 Run `rustc --print tls-models` to \
1978 see the list of supported values.", s))),
1981 })).unwrap_or(Ok(()))
1983 ($key_name:ident, PanicStrategy) => ( {
1984 let name = (stringify!($key_name)).replace("_", "-");
1985 obj.remove(&name).and_then(|o| o.as_str().and_then(|s| {
1987 "unwind" => base.$key_name = PanicStrategy::Unwind,
1988 "abort" => base.$key_name = PanicStrategy::Abort,
1989 _ => return Some(Err(format!("'{}' is not a valid value for \
1990 panic-strategy. Use 'unwind' or 'abort'.",
1994 })).unwrap_or(Ok(()))
1996 ($key_name:ident, RelroLevel) => ( {
1997 let name = (stringify!($key_name)).replace("_", "-");
1998 obj.remove(&name).and_then(|o| o.as_str().and_then(|s| {
1999 match s.parse::<RelroLevel>() {
2000 Ok(level) => base.$key_name = level,
2001 _ => return Some(Err(format!("'{}' is not a valid value for \
2002 relro-level. Use 'full', 'partial, or 'off'.",
2006 })).unwrap_or(Ok(()))
2008 ($key_name:ident, DebuginfoKind) => ( {
2009 let name = (stringify!($key_name)).replace("_", "-");
2010 obj.remove(&name).and_then(|o| o.as_str().and_then(|s| {
2011 match s.parse::<DebuginfoKind>() {
2012 Ok(level) => base.$key_name = level,
2013 _ => return Some(Err(
2014 format!("'{s}' is not a valid value for debuginfo-kind. Use 'dwarf', \
2015 'dwarf-dsym' or 'pdb'.")
2019 })).unwrap_or(Ok(()))
2021 ($key_name:ident, SplitDebuginfo) => ( {
2022 let name = (stringify!($key_name)).replace("_", "-");
2023 obj.remove(&name).and_then(|o| o.as_str().and_then(|s| {
2024 match s.parse::<SplitDebuginfo>() {
2025 Ok(level) => base.$key_name = level,
2026 _ => return Some(Err(format!("'{}' is not a valid value for \
2027 split-debuginfo. Use 'off' or 'dsymutil'.",
2031 })).unwrap_or(Ok(()))
2033 ($key_name:ident, list) => ( {
2034 let name = (stringify!($key_name)).replace("_", "-");
2035 if let Some(j) = obj.remove(&name) {
2036 if let Some(v) = j.as_array() {
2037 base.$key_name = v.iter()
2038 .map(|a| a.as_str().unwrap().to_string().into())
2041 incorrect_type.push(name)
2045 ($key_name:ident, opt_list) => ( {
2046 let name = (stringify!($key_name)).replace("_", "-");
2047 if let Some(j) = obj.remove(&name) {
2048 if let Some(v) = j.as_array() {
2049 base.$key_name = Some(v.iter()
2050 .map(|a| a.as_str().unwrap().to_string().into())
2053 incorrect_type.push(name)
2057 ($key_name:ident, falliable_list) => ( {
2058 let name = (stringify!($key_name)).replace("_", "-");
2059 obj.remove(&name).and_then(|j| {
2060 if let Some(v) = j.as_array() {
2061 match v.iter().map(|a| FromStr::from_str(a.as_str().unwrap())).collect() {
2062 Ok(l) => { base.$key_name = l },
2063 // FIXME: `falliable_list` can't re-use the `key!` macro for list
2064 // elements and the error messages from that macro, so it has a bad
2065 // generic message instead
2066 Err(_) => return Some(Err(
2067 format!("`{:?}` is not a valid value for `{}`", j, name)
2071 incorrect_type.push(name)
2074 }).unwrap_or(Ok(()))
2076 ($key_name:ident, optional) => ( {
2077 let name = (stringify!($key_name)).replace("_", "-");
2078 if let Some(o) = obj.remove(&name) {
2081 .map(|s| s.to_string().into());
2084 ($key_name:ident, LldFlavor) => ( {
2085 let name = (stringify!($key_name)).replace("_", "-");
2086 obj.remove(&name).and_then(|o| o.as_str().and_then(|s| {
2087 if let Some(flavor) = LldFlavor::from_str(&s) {
2088 base.$key_name = flavor;
2090 return Some(Err(format!(
2091 "'{}' is not a valid value for lld-flavor. \
2092 Use 'darwin', 'gnu', 'link' or 'wasm.",
2096 })).unwrap_or(Ok(()))
2098 ($key_name:ident = $json_name:expr, LinkerFlavor) => ( {
2099 let name = $json_name;
2100 obj.remove(name).and_then(|o| o.as_str().and_then(|s| {
2101 match LinkerFlavorCli::from_str(s) {
2102 Some(linker_flavor) => base.$key_name = linker_flavor,
2103 _ => return Some(Err(format!("'{}' is not a valid value for linker-flavor. \
2104 Use {}", s, LinkerFlavorCli::one_of()))),
2107 })).unwrap_or(Ok(()))
2109 ($key_name:ident, StackProbeType) => ( {
2110 let name = (stringify!($key_name)).replace("_", "-");
2111 obj.remove(&name).and_then(|o| match StackProbeType::from_json(&o) {
2117 format!("`{:?}` is not a valid value for `{}`: {}", o, name, s)
2119 }).unwrap_or(Ok(()))
2121 ($key_name:ident, SanitizerSet) => ( {
2122 let name = (stringify!($key_name)).replace("_", "-");
2123 if let Some(o) = obj.remove(&name) {
2124 if let Some(a) = o.as_array() {
2126 base.$key_name |= match s.as_str() {
2127 Some("address") => SanitizerSet::ADDRESS,
2128 Some("cfi") => SanitizerSet::CFI,
2129 Some("leak") => SanitizerSet::LEAK,
2130 Some("memory") => SanitizerSet::MEMORY,
2131 Some("memtag") => SanitizerSet::MEMTAG,
2132 Some("shadow-call-stack") => SanitizerSet::SHADOWCALLSTACK,
2133 Some("thread") => SanitizerSet::THREAD,
2134 Some("hwaddress") => SanitizerSet::HWADDRESS,
2135 Some(s) => return Err(format!("unknown sanitizer {}", s)),
2136 _ => return Err(format!("not a string: {:?}", s)),
2140 incorrect_type.push(name)
2143 Ok::<(), String>(())
2146 ($key_name:ident = $json_name:expr, link_self_contained) => ( {
2147 let name = $json_name;
2148 obj.remove(name).and_then(|o| o.as_str().and_then(|s| {
2149 match s.parse::<LinkSelfContainedDefault>() {
2150 Ok(lsc_default) => base.$key_name = lsc_default,
2151 _ => return Some(Err(format!("'{}' is not a valid `-Clink-self-contained` default. \
2152 Use 'false', 'true', 'musl' or 'mingw'", s))),
2155 })).unwrap_or(Ok(()))
2157 ($key_name:ident = $json_name:expr, link_objects) => ( {
2158 let name = $json_name;
2159 if let Some(val) = obj.remove(name) {
2160 let obj = val.as_object().ok_or_else(|| format!("{}: expected a \
2161 JSON object with fields per CRT object kind.", name))?;
2162 let mut args = CrtObjects::new();
2164 let kind = LinkOutputKind::from_str(&k).ok_or_else(|| {
2165 format!("{}: '{}' is not a valid value for CRT object kind. \
2166 Use '(dynamic,static)-(nopic,pic)-exe' or \
2167 '(dynamic,static)-dylib' or 'wasi-reactor-exe'", name, k)
2170 let v = v.as_array().ok_or_else(||
2171 format!("{}.{}: expected a JSON array", name, k)
2172 )?.iter().enumerate()
2174 let s = s.as_str().ok_or_else(||
2175 format!("{}.{}[{}]: expected a JSON string", name, k, i))?;
2176 Ok(s.to_string().into())
2178 .collect::<Result<Vec<_>, String>>()?;
2180 args.insert(kind, v);
2182 base.$key_name = args;
2185 ($key_name:ident = $json_name:expr, link_args) => ( {
2186 let name = $json_name;
2187 if let Some(val) = obj.remove(name) {
2188 let obj = val.as_object().ok_or_else(|| format!("{}: expected a \
2189 JSON object with fields per linker-flavor.", name))?;
2190 let mut args = LinkArgsCli::new();
2192 let flavor = LinkerFlavorCli::from_str(&k).ok_or_else(|| {
2193 format!("{}: '{}' is not a valid value for linker-flavor. \
2194 Use 'em', 'gcc', 'ld' or 'msvc'", name, k)
2197 let v = v.as_array().ok_or_else(||
2198 format!("{}.{}: expected a JSON array", name, k)
2199 )?.iter().enumerate()
2201 let s = s.as_str().ok_or_else(||
2202 format!("{}.{}[{}]: expected a JSON string", name, k, i))?;
2203 Ok(s.to_string().into())
2205 .collect::<Result<Vec<_>, String>>()?;
2207 args.insert(flavor, v);
2209 base.$key_name = args;
2212 ($key_name:ident, env) => ( {
2213 let name = (stringify!($key_name)).replace("_", "-");
2214 if let Some(o) = obj.remove(&name) {
2215 if let Some(a) = o.as_array() {
2217 if let Some(s) = o.as_str() {
2218 let p = s.split('=').collect::<Vec<_>>();
2220 let k = p[0].to_string();
2221 let v = p[1].to_string();
2222 base.$key_name.to_mut().push((k.into(), v.into()));
2227 incorrect_type.push(name)
2231 ($key_name:ident, Option<Abi>) => ( {
2232 let name = (stringify!($key_name)).replace("_", "-");
2233 obj.remove(&name).and_then(|o| o.as_str().and_then(|s| {
2234 match lookup_abi(s) {
2235 Some(abi) => base.$key_name = Some(abi),
2236 _ => return Some(Err(format!("'{}' is not a valid value for abi", s))),
2239 })).unwrap_or(Ok(()))
2241 ($key_name:ident, TargetFamilies) => ( {
2242 if let Some(value) = obj.remove("target-family") {
2243 if let Some(v) = value.as_array() {
2244 base.$key_name = v.iter()
2245 .map(|a| a.as_str().unwrap().to_string().into())
2247 } else if let Some(v) = value.as_str() {
2248 base.$key_name = vec![v.to_string().into()].into();
2254 if let Some(j) = obj.remove("target-endian") {
2255 if let Some(s) = j.as_str() {
2256 base.endian = s.parse()?;
2258 incorrect_type.push("target-endian".into())
2262 if let Some(fp) = obj.remove("frame-pointer") {
2263 if let Some(s) = fp.as_str() {
2264 base.frame_pointer = s
2266 .map_err(|()| format!("'{}' is not a valid value for frame-pointer", s))?;
2268 incorrect_type.push("frame-pointer".into())
2272 key!(is_builtin, bool);
2273 key!(c_int_width = "target-c-int-width");
2278 key!(linker, optional);
2279 key!(linker_flavor_json = "linker-flavor", LinkerFlavor)?;
2280 key!(lld_flavor, LldFlavor)?;
2281 key!(linker_is_gnu, bool);
2282 key!(pre_link_objects = "pre-link-objects", link_objects);
2283 key!(post_link_objects = "post-link-objects", link_objects);
2284 key!(pre_link_objects_self_contained = "pre-link-objects-fallback", link_objects);
2285 key!(post_link_objects_self_contained = "post-link-objects-fallback", link_objects);
2286 key!(link_self_contained = "crt-objects-fallback", link_self_contained)?;
2287 key!(pre_link_args_json = "pre-link-args", link_args);
2288 key!(late_link_args_json = "late-link-args", link_args);
2289 key!(late_link_args_dynamic_json = "late-link-args-dynamic", link_args);
2290 key!(late_link_args_static_json = "late-link-args-static", link_args);
2291 key!(post_link_args_json = "post-link-args", link_args);
2292 key!(link_script, optional);
2293 key!(link_env, env);
2294 key!(link_env_remove, list);
2295 key!(asm_args, list);
2298 key!(dynamic_linking, bool);
2299 key!(only_cdylib, bool);
2300 key!(executables, bool);
2301 key!(relocation_model, RelocModel)?;
2302 key!(code_model, CodeModel)?;
2303 key!(tls_model, TlsModel)?;
2304 key!(disable_redzone, bool);
2305 key!(function_sections, bool);
2309 key!(staticlib_prefix);
2310 key!(staticlib_suffix);
2311 key!(families, TargetFamilies);
2312 key!(abi_return_struct_as_int, bool);
2313 key!(is_like_osx, bool);
2314 key!(is_like_solaris, bool);
2315 key!(is_like_windows, bool);
2316 key!(is_like_msvc, bool);
2317 key!(is_like_wasm, bool);
2318 key!(default_dwarf_version, u32);
2319 key!(allows_weak_linkage, bool);
2320 key!(has_rpath, bool);
2321 key!(no_default_libraries, bool);
2322 key!(position_independent_executables, bool);
2323 key!(static_position_independent_executables, bool);
2324 key!(needs_plt, bool);
2325 key!(relro_level, RelroLevel)?;
2326 key!(archive_format);
2327 key!(allow_asm, bool);
2328 key!(main_needs_argc_argv, bool);
2329 key!(has_thread_local, bool);
2330 key!(obj_is_bitcode, bool);
2331 key!(forces_embed_bitcode, bool);
2332 key!(bitcode_llvm_cmdline);
2333 key!(max_atomic_width, Option<u64>);
2334 key!(min_atomic_width, Option<u64>);
2335 key!(atomic_cas, bool);
2336 key!(panic_strategy, PanicStrategy)?;
2337 key!(crt_static_allows_dylibs, bool);
2338 key!(crt_static_default, bool);
2339 key!(crt_static_respected, bool);
2340 key!(stack_probes, StackProbeType)?;
2341 key!(min_global_align, Option<u64>);
2342 key!(default_codegen_units, Option<u64>);
2343 key!(trap_unreachable, bool);
2344 key!(requires_lto, bool);
2345 key!(singlethread, bool);
2346 key!(no_builtins, bool);
2347 key!(default_hidden_visibility, bool);
2348 key!(emit_debug_gdb_scripts, bool);
2349 key!(requires_uwtable, bool);
2350 key!(default_uwtable, bool);
2351 key!(simd_types_indirect, bool);
2352 key!(limit_rdylib_exports, bool);
2353 key!(override_export_symbols, opt_list);
2354 key!(merge_functions, MergeFunctions)?;
2355 key!(mcount = "target-mcount");
2357 key!(relax_elf_relocations, bool);
2358 key!(llvm_args, list);
2359 key!(use_ctors_section, bool);
2360 key!(eh_frame_header, bool);
2361 key!(has_thumb_interworking, bool);
2362 key!(debuginfo_kind, DebuginfoKind)?;
2363 key!(split_debuginfo, SplitDebuginfo)?;
2364 key!(supported_split_debuginfo, falliable_list)?;
2365 key!(supported_sanitizers, SanitizerSet)?;
2366 key!(default_adjusted_cabi, Option<Abi>)?;
2367 key!(c_enum_min_bits, u64);
2368 key!(generate_arange_section, bool);
2369 key!(supports_stack_protector, bool);
2371 if base.is_builtin {
2372 // This can cause unfortunate ICEs later down the line.
2373 return Err("may not set is_builtin for targets not built-in".into());
2375 base.update_from_cli();
2377 // Each field should have been read using `Json::remove` so any keys remaining are unused.
2378 let remaining_keys = obj.keys();
2381 TargetWarnings { unused_fields: remaining_keys.cloned().collect(), incorrect_type },
2385 /// Load a built-in target
2386 pub fn expect_builtin(target_triple: &TargetTriple) -> Target {
2387 match *target_triple {
2388 TargetTriple::TargetTriple(ref target_triple) => {
2389 load_builtin(target_triple).expect("built-in target")
2391 TargetTriple::TargetJson { .. } => {
2392 panic!("built-in targets doesn't support target-paths")
2397 /// Search for a JSON file specifying the given target triple.
2399 /// If none is found in `$RUST_TARGET_PATH`, look for a file called `target.json` inside the
2400 /// sysroot under the target-triple's `rustlib` directory. Note that it could also just be a
2401 /// bare filename already, so also check for that. If one of the hardcoded targets we know
2402 /// about, just return it directly.
2404 /// The error string could come from any of the APIs called, including filesystem access and
2407 target_triple: &TargetTriple,
2409 ) -> Result<(Target, TargetWarnings), String> {
2413 fn load_file(path: &Path) -> Result<(Target, TargetWarnings), String> {
2414 let contents = fs::read_to_string(path).map_err(|e| e.to_string())?;
2415 let obj = serde_json::from_str(&contents).map_err(|e| e.to_string())?;
2416 Target::from_json(obj)
2419 match *target_triple {
2420 TargetTriple::TargetTriple(ref target_triple) => {
2421 // check if triple is in list of built-in targets
2422 if let Some(t) = load_builtin(target_triple) {
2423 return Ok((t, TargetWarnings::empty()));
2426 // search for a file named `target_triple`.json in RUST_TARGET_PATH
2428 let mut target = target_triple.to_string();
2429 target.push_str(".json");
2430 PathBuf::from(target)
2433 let target_path = env::var_os("RUST_TARGET_PATH").unwrap_or_default();
2435 for dir in env::split_paths(&target_path) {
2436 let p = dir.join(&path);
2438 return load_file(&p);
2442 // Additionally look in the sysroot under `lib/rustlib/<triple>/target.json`
2444 let rustlib_path = crate::target_rustlib_path(&sysroot, &target_triple);
2445 let p = PathBuf::from_iter([
2447 Path::new(&rustlib_path),
2448 Path::new("target.json"),
2451 return load_file(&p);
2454 Err(format!("Could not find specification for target {:?}", target_triple))
2456 TargetTriple::TargetJson { ref contents, .. } => {
2457 let obj = serde_json::from_str(contents).map_err(|e| e.to_string())?;
2458 Target::from_json(obj)
2464 impl ToJson for Target {
2465 fn to_json(&self) -> Json {
2466 let mut d = serde_json::Map::new();
2467 let default: TargetOptions = Default::default();
2468 let mut target = self.clone();
2469 target.update_to_cli();
2471 macro_rules! target_val {
2473 let name = (stringify!($attr)).replace("_", "-");
2474 d.insert(name, target.$attr.to_json());
2478 macro_rules! target_option_val {
2480 let name = (stringify!($attr)).replace("_", "-");
2481 if default.$attr != target.$attr {
2482 d.insert(name, target.$attr.to_json());
2485 ($attr:ident, $json_name:expr) => {{
2486 let name = $json_name;
2487 if default.$attr != target.$attr {
2488 d.insert(name.into(), target.$attr.to_json());
2491 (link_args - $attr:ident, $json_name:expr) => {{
2492 let name = $json_name;
2493 if default.$attr != target.$attr {
2497 .map(|(k, v)| (k.desc().to_string(), v.clone()))
2498 .collect::<BTreeMap<_, _>>();
2499 d.insert(name.to_string(), obj.to_json());
2502 (env - $attr:ident) => {{
2503 let name = (stringify!($attr)).replace("_", "-");
2504 if default.$attr != target.$attr {
2508 .map(|&(ref k, ref v)| format!("{k}={v}"))
2509 .collect::<Vec<_>>();
2510 d.insert(name, obj.to_json());
2515 target_val!(llvm_target);
2516 d.insert("target-pointer-width".to_string(), self.pointer_width.to_string().to_json());
2518 target_val!(data_layout);
2520 target_option_val!(is_builtin);
2521 target_option_val!(endian, "target-endian");
2522 target_option_val!(c_int_width, "target-c-int-width");
2523 target_option_val!(os);
2524 target_option_val!(env);
2525 target_option_val!(abi);
2526 target_option_val!(vendor);
2527 target_option_val!(linker);
2528 target_option_val!(linker_flavor_json, "linker-flavor");
2529 target_option_val!(lld_flavor);
2530 target_option_val!(linker_is_gnu);
2531 target_option_val!(pre_link_objects);
2532 target_option_val!(post_link_objects);
2533 target_option_val!(pre_link_objects_self_contained, "pre-link-objects-fallback");
2534 target_option_val!(post_link_objects_self_contained, "post-link-objects-fallback");
2535 target_option_val!(link_self_contained, "crt-objects-fallback");
2536 target_option_val!(link_args - pre_link_args_json, "pre-link-args");
2537 target_option_val!(link_args - late_link_args_json, "late-link-args");
2538 target_option_val!(link_args - late_link_args_dynamic_json, "late-link-args-dynamic");
2539 target_option_val!(link_args - late_link_args_static_json, "late-link-args-static");
2540 target_option_val!(link_args - post_link_args_json, "post-link-args");
2541 target_option_val!(link_script);
2542 target_option_val!(env - link_env);
2543 target_option_val!(link_env_remove);
2544 target_option_val!(asm_args);
2545 target_option_val!(cpu);
2546 target_option_val!(features);
2547 target_option_val!(dynamic_linking);
2548 target_option_val!(only_cdylib);
2549 target_option_val!(executables);
2550 target_option_val!(relocation_model);
2551 target_option_val!(code_model);
2552 target_option_val!(tls_model);
2553 target_option_val!(disable_redzone);
2554 target_option_val!(frame_pointer);
2555 target_option_val!(function_sections);
2556 target_option_val!(dll_prefix);
2557 target_option_val!(dll_suffix);
2558 target_option_val!(exe_suffix);
2559 target_option_val!(staticlib_prefix);
2560 target_option_val!(staticlib_suffix);
2561 target_option_val!(families, "target-family");
2562 target_option_val!(abi_return_struct_as_int);
2563 target_option_val!(is_like_osx);
2564 target_option_val!(is_like_solaris);
2565 target_option_val!(is_like_windows);
2566 target_option_val!(is_like_msvc);
2567 target_option_val!(is_like_wasm);
2568 target_option_val!(default_dwarf_version);
2569 target_option_val!(allows_weak_linkage);
2570 target_option_val!(has_rpath);
2571 target_option_val!(no_default_libraries);
2572 target_option_val!(position_independent_executables);
2573 target_option_val!(static_position_independent_executables);
2574 target_option_val!(needs_plt);
2575 target_option_val!(relro_level);
2576 target_option_val!(archive_format);
2577 target_option_val!(allow_asm);
2578 target_option_val!(main_needs_argc_argv);
2579 target_option_val!(has_thread_local);
2580 target_option_val!(obj_is_bitcode);
2581 target_option_val!(forces_embed_bitcode);
2582 target_option_val!(bitcode_llvm_cmdline);
2583 target_option_val!(min_atomic_width);
2584 target_option_val!(max_atomic_width);
2585 target_option_val!(atomic_cas);
2586 target_option_val!(panic_strategy);
2587 target_option_val!(crt_static_allows_dylibs);
2588 target_option_val!(crt_static_default);
2589 target_option_val!(crt_static_respected);
2590 target_option_val!(stack_probes);
2591 target_option_val!(min_global_align);
2592 target_option_val!(default_codegen_units);
2593 target_option_val!(trap_unreachable);
2594 target_option_val!(requires_lto);
2595 target_option_val!(singlethread);
2596 target_option_val!(no_builtins);
2597 target_option_val!(default_hidden_visibility);
2598 target_option_val!(emit_debug_gdb_scripts);
2599 target_option_val!(requires_uwtable);
2600 target_option_val!(default_uwtable);
2601 target_option_val!(simd_types_indirect);
2602 target_option_val!(limit_rdylib_exports);
2603 target_option_val!(override_export_symbols);
2604 target_option_val!(merge_functions);
2605 target_option_val!(mcount, "target-mcount");
2606 target_option_val!(llvm_abiname);
2607 target_option_val!(relax_elf_relocations);
2608 target_option_val!(llvm_args);
2609 target_option_val!(use_ctors_section);
2610 target_option_val!(eh_frame_header);
2611 target_option_val!(has_thumb_interworking);
2612 target_option_val!(debuginfo_kind);
2613 target_option_val!(split_debuginfo);
2614 target_option_val!(supported_split_debuginfo);
2615 target_option_val!(supported_sanitizers);
2616 target_option_val!(c_enum_min_bits);
2617 target_option_val!(generate_arange_section);
2618 target_option_val!(supports_stack_protector);
2620 if let Some(abi) = self.default_adjusted_cabi {
2621 d.insert("default-adjusted-cabi".into(), Abi::name(abi).to_json());
2628 /// Either a target triple string or a path to a JSON file.
2629 #[derive(Clone, Debug)]
2630 pub enum TargetTriple {
2631 TargetTriple(String),
2633 /// Warning: This field may only be used by rustdoc. Using it anywhere else will lead to
2634 /// inconsistencies as it is discarded during serialization.
2635 path_for_rustdoc: PathBuf,
2641 // Use a manual implementation to ignore the path field
2642 impl PartialEq for TargetTriple {
2643 fn eq(&self, other: &Self) -> bool {
2644 match (self, other) {
2645 (Self::TargetTriple(l0), Self::TargetTriple(r0)) => l0 == r0,
2647 Self::TargetJson { path_for_rustdoc: _, triple: l_triple, contents: l_contents },
2648 Self::TargetJson { path_for_rustdoc: _, triple: r_triple, contents: r_contents },
2649 ) => l_triple == r_triple && l_contents == r_contents,
2655 // Use a manual implementation to ignore the path field
2656 impl Hash for TargetTriple {
2657 fn hash<H: Hasher>(&self, state: &mut H) -> () {
2659 TargetTriple::TargetTriple(triple) => {
2663 TargetTriple::TargetJson { path_for_rustdoc: _, triple, contents } => {
2666 contents.hash(state)
2672 // Use a manual implementation to prevent encoding the target json file path in the crate metadata
2673 impl<S: Encoder> Encodable<S> for TargetTriple {
2674 fn encode(&self, s: &mut S) {
2676 TargetTriple::TargetTriple(triple) => s.emit_enum_variant(0, |s| s.emit_str(triple)),
2677 TargetTriple::TargetJson { path_for_rustdoc: _, triple, contents } => s
2678 .emit_enum_variant(1, |s| {
2680 s.emit_str(contents)
2686 impl<D: Decoder> Decodable<D> for TargetTriple {
2687 fn decode(d: &mut D) -> Self {
2688 match d.read_usize() {
2689 0 => TargetTriple::TargetTriple(d.read_str().to_owned()),
2690 1 => TargetTriple::TargetJson {
2691 path_for_rustdoc: PathBuf::new(),
2692 triple: d.read_str().to_owned(),
2693 contents: d.read_str().to_owned(),
2696 panic!("invalid enum variant tag while decoding `TargetTriple`, expected 0..2");
2703 /// Creates a target triple from the passed target triple string.
2704 pub fn from_triple(triple: &str) -> Self {
2705 TargetTriple::TargetTriple(triple.into())
2708 /// Creates a target triple from the passed target path.
2709 pub fn from_path(path: &Path) -> Result<Self, io::Error> {
2710 let canonicalized_path = path.canonicalize()?;
2711 let contents = std::fs::read_to_string(&canonicalized_path).map_err(|err| {
2713 io::ErrorKind::InvalidInput,
2714 format!("target path {:?} is not a valid file: {}", canonicalized_path, err),
2717 let triple = canonicalized_path
2719 .expect("target path must not be empty")
2721 .expect("target path must be valid unicode")
2723 Ok(TargetTriple::TargetJson { path_for_rustdoc: canonicalized_path, triple, contents })
2726 /// Returns a string triple for this target.
2728 /// If this target is a path, the file name (without extension) is returned.
2729 pub fn triple(&self) -> &str {
2731 TargetTriple::TargetTriple(ref triple)
2732 | TargetTriple::TargetJson { ref triple, .. } => triple,
2736 /// Returns an extended string triple for this target.
2738 /// If this target is a path, a hash of the path is appended to the triple returned
2740 pub fn debug_triple(&self) -> String {
2741 use std::collections::hash_map::DefaultHasher;
2744 TargetTriple::TargetTriple(triple) => triple.to_owned(),
2745 TargetTriple::TargetJson { path_for_rustdoc: _, triple, contents: content } => {
2746 let mut hasher = DefaultHasher::new();
2747 content.hash(&mut hasher);
2748 let hash = hasher.finish();
2749 format!("{}-{}", triple, hash)
2755 impl fmt::Display for TargetTriple {
2756 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
2757 write!(f, "{}", self.debug_triple())