//! [Flexible target specification.](https://github.com/rust-lang/rfcs/pull/131) //! //! Rust targets a wide variety of usecases, and in the interest of flexibility, //! allows new target triples to be defined in configuration files. Most users //! will not need to care about these, but this is invaluable when porting Rust //! to a new platform, and allows for an unprecedented level of control over how //! the compiler works. //! //! # Using custom targets //! //! A target triple, as passed via `rustc --target=TRIPLE`, will first be //! compared against the list of built-in targets. This is to ease distributing //! rustc (no need for configuration files) and also to hold these built-in //! targets as immutable and sacred. If `TRIPLE` is not one of the built-in //! targets, rustc will check if a file named `TRIPLE` exists. If it does, it //! will be loaded as the target configuration. If the file does not exist, //! rustc will search each directory in the environment variable //! `RUST_TARGET_PATH` for a file named `TRIPLE.json`. The first one found will //! be loaded. If no file is found in any of those directories, a fatal error //! will be given. //! //! Projects defining their own targets should use //! `--target=path/to/my-awesome-platform.json` instead of adding to //! `RUST_TARGET_PATH`. //! //! # Defining a new target //! //! Targets are defined using [JSON](http://json.org/). The `Target` struct in //! this module defines the format the JSON file should take, though each //! underscore in the field names should be replaced with a hyphen (`-`) in the //! JSON file. Some fields are required in every target specification, such as //! `llvm-target`, `target-endian`, `target-pointer-width`, `data-layout`, //! `arch`, and `os`. In general, options passed to rustc with `-C` override //! the target's settings, though `target-feature` and `link-args` will *add* //! to the list specified by the target, rather than replace. use rustc_serialize::json::{Json, ToJson}; use std::collections::BTreeMap; use std::default::Default; use std::{fmt, io}; use std::path::{Path, PathBuf}; use std::str::FromStr; use crate::spec::abi::{Abi, lookup as lookup_abi}; pub mod abi; mod android_base; mod apple_base; mod apple_ios_base; mod arm_base; mod cloudabi_base; mod dragonfly_base; mod freebsd_base; mod haiku_base; mod hermit_base; mod linux_base; mod linux_kernel_base; mod linux_musl_base; mod openbsd_base; mod netbsd_base; mod solaris_base; mod uefi_base; mod windows_base; mod windows_msvc_base; mod windows_uwp_base; mod windows_uwp_msvc_base; mod thumb_base; mod l4re_base; mod fuchsia_base; mod redox_base; mod riscv_base; mod wasm32_base; mod vxworks_base; #[derive(Clone, Copy, Debug, Eq, Ord, PartialEq, PartialOrd, Hash, RustcEncodable, RustcDecodable)] pub enum LinkerFlavor { Em, Gcc, Ld, Msvc, Lld(LldFlavor), PtxLinker, } #[derive(Clone, Copy, Debug, Eq, Ord, PartialEq, PartialOrd, Hash, RustcEncodable, RustcDecodable)] pub enum LldFlavor { Wasm, Ld64, Ld, Link, } impl LldFlavor { fn from_str(s: &str) -> Option { Some(match s { "darwin" => LldFlavor::Ld64, "gnu" => LldFlavor::Ld, "link" => LldFlavor::Link, "wasm" => LldFlavor::Wasm, _ => return None, }) } } impl ToJson for LldFlavor { fn to_json(&self) -> Json { match *self { LldFlavor::Ld64 => "darwin", LldFlavor::Ld => "gnu", LldFlavor::Link => "link", LldFlavor::Wasm => "wasm", }.to_json() } } impl ToJson for LinkerFlavor { fn to_json(&self) -> Json { self.desc().to_json() } } macro_rules! flavor_mappings { ($((($($flavor:tt)*), $string:expr),)*) => ( impl LinkerFlavor { pub const fn one_of() -> &'static str { concat!("one of: ", $($string, " ",)*) } pub fn from_str(s: &str) -> Option { Some(match s { $($string => $($flavor)*,)* _ => return None, }) } pub fn desc(&self) -> &str { match *self { $($($flavor)* => $string,)* } } } ) } flavor_mappings! { ((LinkerFlavor::Em), "em"), ((LinkerFlavor::Gcc), "gcc"), ((LinkerFlavor::Ld), "ld"), ((LinkerFlavor::Msvc), "msvc"), ((LinkerFlavor::PtxLinker), "ptx-linker"), ((LinkerFlavor::Lld(LldFlavor::Wasm)), "wasm-ld"), ((LinkerFlavor::Lld(LldFlavor::Ld64)), "ld64.lld"), ((LinkerFlavor::Lld(LldFlavor::Ld)), "ld.lld"), ((LinkerFlavor::Lld(LldFlavor::Link)), "lld-link"), } #[derive(Clone, Copy, Debug, PartialEq, Hash, RustcEncodable, RustcDecodable)] pub enum PanicStrategy { Unwind, Abort, } impl PanicStrategy { pub fn desc(&self) -> &str { match *self { PanicStrategy::Unwind => "unwind", PanicStrategy::Abort => "abort", } } } impl ToJson for PanicStrategy { fn to_json(&self) -> Json { match *self { PanicStrategy::Abort => "abort".to_json(), PanicStrategy::Unwind => "unwind".to_json(), } } } #[derive(Clone, Copy, Debug, PartialEq, Hash, RustcEncodable, RustcDecodable)] pub enum RelroLevel { Full, Partial, Off, None, } impl RelroLevel { pub fn desc(&self) -> &str { match *self { RelroLevel::Full => "full", RelroLevel::Partial => "partial", RelroLevel::Off => "off", RelroLevel::None => "none", } } } impl FromStr for RelroLevel { type Err = (); fn from_str(s: &str) -> Result { match s { "full" => Ok(RelroLevel::Full), "partial" => Ok(RelroLevel::Partial), "off" => Ok(RelroLevel::Off), "none" => Ok(RelroLevel::None), _ => Err(()), } } } impl ToJson for RelroLevel { fn to_json(&self) -> Json { match *self { RelroLevel::Full => "full".to_json(), RelroLevel::Partial => "partial".to_json(), RelroLevel::Off => "off".to_json(), RelroLevel::None => "None".to_json(), } } } #[derive(Clone, Copy, Debug, PartialEq, Hash, RustcEncodable, RustcDecodable)] pub enum MergeFunctions { Disabled, Trampolines, Aliases } impl MergeFunctions { pub fn desc(&self) -> &str { match *self { MergeFunctions::Disabled => "disabled", MergeFunctions::Trampolines => "trampolines", MergeFunctions::Aliases => "aliases", } } } impl FromStr for MergeFunctions { type Err = (); fn from_str(s: &str) -> Result { match s { "disabled" => Ok(MergeFunctions::Disabled), "trampolines" => Ok(MergeFunctions::Trampolines), "aliases" => Ok(MergeFunctions::Aliases), _ => Err(()), } } } impl ToJson for MergeFunctions { fn to_json(&self) -> Json { match *self { MergeFunctions::Disabled => "disabled".to_json(), MergeFunctions::Trampolines => "trampolines".to_json(), MergeFunctions::Aliases => "aliases".to_json(), } } } pub enum LoadTargetError { BuiltinTargetNotFound(String), Other(String), } pub type LinkArgs = BTreeMap>; pub type TargetResult = Result; macro_rules! supported_targets { ( $(($( $triple:literal, )+ $module:ident ),)+ ) => { $(mod $module;)+ /// List of supported targets const TARGETS: &[&str] = &[$($($triple),+),+]; fn load_specific(target: &str) -> Result { match target { $( $($triple)|+ => { let mut t = $module::target() .map_err(LoadTargetError::Other)?; t.options.is_builtin = true; // round-trip through the JSON parser to ensure at // run-time that the parser works correctly t = Target::from_json(t.to_json()) .map_err(LoadTargetError::Other)?; debug!("got builtin target: {:?}", t); Ok(t) }, )+ _ => Err(LoadTargetError::BuiltinTargetNotFound( format!("Unable to find target: {}", target))) } } pub fn get_targets() -> impl Iterator { TARGETS.iter().filter_map(|t| -> Option { load_specific(t) .and(Ok(t.to_string())) .ok() }) } #[cfg(test)] mod test_json_encode_decode { use rustc_serialize::json::ToJson; use super::Target; $(use super::$module;)+ $( #[test] // `#[test]` - this is hard to put into a separate file, make an exception fn $module() { // Grab the TargetResult struct. If we successfully retrieved // a Target, then the test JSON encoding/decoding can run for this // Target on this testing platform (i.e., checking the iOS targets // only on a Mac test platform). let _ = $module::target().map(|original| { let as_json = original.to_json(); let parsed = Target::from_json(as_json).unwrap(); assert_eq!(original, parsed); }); } )+ } }; } supported_targets! { ("x86_64-unknown-linux-gnu", x86_64_unknown_linux_gnu), ("x86_64-unknown-linux-gnux32", x86_64_unknown_linux_gnux32), ("i686-unknown-linux-gnu", i686_unknown_linux_gnu), ("i586-unknown-linux-gnu", i586_unknown_linux_gnu), ("mips-unknown-linux-gnu", mips_unknown_linux_gnu), ("mips64-unknown-linux-gnuabi64", mips64_unknown_linux_gnuabi64), ("mips64el-unknown-linux-gnuabi64", mips64el_unknown_linux_gnuabi64), ("mipsisa32r6-unknown-linux-gnu", mipsisa32r6_unknown_linux_gnu), ("mipsisa32r6el-unknown-linux-gnu", mipsisa32r6el_unknown_linux_gnu), ("mipsisa64r6-unknown-linux-gnuabi64", mipsisa64r6_unknown_linux_gnuabi64), ("mipsisa64r6el-unknown-linux-gnuabi64", mipsisa64r6el_unknown_linux_gnuabi64), ("mipsel-unknown-linux-gnu", mipsel_unknown_linux_gnu), ("powerpc-unknown-linux-gnu", powerpc_unknown_linux_gnu), ("powerpc-unknown-linux-gnuspe", powerpc_unknown_linux_gnuspe), ("powerpc-unknown-linux-musl", powerpc_unknown_linux_musl), ("powerpc64-unknown-linux-gnu", powerpc64_unknown_linux_gnu), ("powerpc64-unknown-linux-musl", powerpc64_unknown_linux_musl), ("powerpc64le-unknown-linux-gnu", powerpc64le_unknown_linux_gnu), ("powerpc64le-unknown-linux-musl", powerpc64le_unknown_linux_musl), ("s390x-unknown-linux-gnu", s390x_unknown_linux_gnu), ("sparc-unknown-linux-gnu", sparc_unknown_linux_gnu), ("sparc64-unknown-linux-gnu", sparc64_unknown_linux_gnu), ("arm-unknown-linux-gnueabi", arm_unknown_linux_gnueabi), ("arm-unknown-linux-gnueabihf", arm_unknown_linux_gnueabihf), ("arm-unknown-linux-musleabi", arm_unknown_linux_musleabi), ("arm-unknown-linux-musleabihf", arm_unknown_linux_musleabihf), ("armv4t-unknown-linux-gnueabi", armv4t_unknown_linux_gnueabi), ("armv5te-unknown-linux-gnueabi", armv5te_unknown_linux_gnueabi), ("armv5te-unknown-linux-musleabi", armv5te_unknown_linux_musleabi), ("armv7-unknown-linux-gnueabi", armv7_unknown_linux_gnueabi), ("armv7-unknown-linux-gnueabihf", armv7_unknown_linux_gnueabihf), ("thumbv7neon-unknown-linux-gnueabihf", thumbv7neon_unknown_linux_gnueabihf), ("armv7-unknown-linux-musleabi", armv7_unknown_linux_musleabi), ("armv7-unknown-linux-musleabihf", armv7_unknown_linux_musleabihf), ("aarch64-unknown-linux-gnu", aarch64_unknown_linux_gnu), ("aarch64-unknown-linux-musl", aarch64_unknown_linux_musl), ("x86_64-unknown-linux-musl", x86_64_unknown_linux_musl), ("i686-unknown-linux-musl", i686_unknown_linux_musl), ("i586-unknown-linux-musl", i586_unknown_linux_musl), ("mips-unknown-linux-musl", mips_unknown_linux_musl), ("mipsel-unknown-linux-musl", mipsel_unknown_linux_musl), ("mips64-unknown-linux-muslabi64", mips64_unknown_linux_muslabi64), ("mips64el-unknown-linux-muslabi64", mips64el_unknown_linux_muslabi64), ("hexagon-unknown-linux-musl", hexagon_unknown_linux_musl), ("mips-unknown-linux-uclibc", mips_unknown_linux_uclibc), ("mipsel-unknown-linux-uclibc", mipsel_unknown_linux_uclibc), ("i686-linux-android", i686_linux_android), ("x86_64-linux-android", x86_64_linux_android), ("arm-linux-androideabi", arm_linux_androideabi), ("armv7-linux-androideabi", armv7_linux_androideabi), ("thumbv7neon-linux-androideabi", thumbv7neon_linux_androideabi), ("aarch64-linux-android", aarch64_linux_android), ("x86_64-linux-kernel", x86_64_linux_kernel), ("aarch64-unknown-freebsd", aarch64_unknown_freebsd), ("armv6-unknown-freebsd", armv6_unknown_freebsd), ("armv7-unknown-freebsd", armv7_unknown_freebsd), ("i686-unknown-freebsd", i686_unknown_freebsd), ("powerpc64-unknown-freebsd", powerpc64_unknown_freebsd), ("x86_64-unknown-freebsd", x86_64_unknown_freebsd), ("i686-unknown-dragonfly", i686_unknown_dragonfly), ("x86_64-unknown-dragonfly", x86_64_unknown_dragonfly), ("aarch64-unknown-openbsd", aarch64_unknown_openbsd), ("i686-unknown-openbsd", i686_unknown_openbsd), ("sparc64-unknown-openbsd", sparc64_unknown_openbsd), ("x86_64-unknown-openbsd", x86_64_unknown_openbsd), ("aarch64-unknown-netbsd", aarch64_unknown_netbsd), ("armv6-unknown-netbsd-eabihf", armv6_unknown_netbsd_eabihf), ("armv7-unknown-netbsd-eabihf", armv7_unknown_netbsd_eabihf), ("i686-unknown-netbsd", i686_unknown_netbsd), ("powerpc-unknown-netbsd", powerpc_unknown_netbsd), ("sparc64-unknown-netbsd", sparc64_unknown_netbsd), ("x86_64-unknown-netbsd", x86_64_unknown_netbsd), ("x86_64-rumprun-netbsd", x86_64_rumprun_netbsd), ("i686-unknown-haiku", i686_unknown_haiku), ("x86_64-unknown-haiku", x86_64_unknown_haiku), ("x86_64-apple-darwin", x86_64_apple_darwin), ("i686-apple-darwin", i686_apple_darwin), ("aarch64-fuchsia", aarch64_fuchsia), ("x86_64-fuchsia", x86_64_fuchsia), ("x86_64-unknown-l4re-uclibc", x86_64_unknown_l4re_uclibc), ("aarch64-unknown-redox", aarch64_unknown_redox), ("x86_64-unknown-redox", x86_64_unknown_redox), ("i386-apple-ios", i386_apple_ios), ("x86_64-apple-ios", x86_64_apple_ios), ("aarch64-apple-ios", aarch64_apple_ios), ("armv7-apple-ios", armv7_apple_ios), ("armv7s-apple-ios", armv7s_apple_ios), ("x86_64-apple-ios-macabi", x86_64_apple_ios_macabi), ("armebv7r-none-eabi", armebv7r_none_eabi), ("armebv7r-none-eabihf", armebv7r_none_eabihf), ("armv7r-none-eabi", armv7r_none_eabi), ("armv7r-none-eabihf", armv7r_none_eabihf), // `x86_64-pc-solaris` is an alias for `x86_64_sun_solaris` for backwards compatibility reasons. // (See .) ("x86_64-sun-solaris", "x86_64-pc-solaris", x86_64_sun_solaris), ("sparcv9-sun-solaris", sparcv9_sun_solaris), ("x86_64-pc-windows-gnu", x86_64_pc_windows_gnu), ("i686-pc-windows-gnu", i686_pc_windows_gnu), ("i686-uwp-windows-gnu", i686_uwp_windows_gnu), ("x86_64-uwp-windows-gnu", x86_64_uwp_windows_gnu), ("aarch64-pc-windows-msvc", aarch64_pc_windows_msvc), ("aarch64-uwp-windows-msvc", aarch64_uwp_windows_msvc), ("x86_64-pc-windows-msvc", x86_64_pc_windows_msvc), ("x86_64-uwp-windows-msvc", x86_64_uwp_windows_msvc), ("i686-pc-windows-msvc", i686_pc_windows_msvc), ("i686-uwp-windows-msvc", i686_uwp_windows_msvc), ("i586-pc-windows-msvc", i586_pc_windows_msvc), ("thumbv7a-pc-windows-msvc", thumbv7a_pc_windows_msvc), ("asmjs-unknown-emscripten", asmjs_unknown_emscripten), ("wasm32-unknown-emscripten", wasm32_unknown_emscripten), ("wasm32-unknown-unknown", wasm32_unknown_unknown), ("wasm32-wasi", wasm32_wasi), ("wasm32-experimental-emscripten", wasm32_experimental_emscripten), ("thumbv6m-none-eabi", thumbv6m_none_eabi), ("thumbv7m-none-eabi", thumbv7m_none_eabi), ("thumbv7em-none-eabi", thumbv7em_none_eabi), ("thumbv7em-none-eabihf", thumbv7em_none_eabihf), ("thumbv8m.base-none-eabi", thumbv8m_base_none_eabi), ("thumbv8m.main-none-eabi", thumbv8m_main_none_eabi), ("thumbv8m.main-none-eabihf", thumbv8m_main_none_eabihf), ("msp430-none-elf", msp430_none_elf), ("aarch64-unknown-cloudabi", aarch64_unknown_cloudabi), ("armv7-unknown-cloudabi-eabihf", armv7_unknown_cloudabi_eabihf), ("i686-unknown-cloudabi", i686_unknown_cloudabi), ("x86_64-unknown-cloudabi", x86_64_unknown_cloudabi), ("aarch64-unknown-hermit", aarch64_unknown_hermit), ("x86_64-unknown-hermit", x86_64_unknown_hermit), ("riscv32i-unknown-none-elf", riscv32i_unknown_none_elf), ("riscv32imc-unknown-none-elf", riscv32imc_unknown_none_elf), ("riscv32imac-unknown-none-elf", riscv32imac_unknown_none_elf), ("riscv64imac-unknown-none-elf", riscv64imac_unknown_none_elf), ("riscv64gc-unknown-none-elf", riscv64gc_unknown_none_elf), ("aarch64-unknown-none", aarch64_unknown_none), ("x86_64-fortanix-unknown-sgx", x86_64_fortanix_unknown_sgx), ("x86_64-unknown-uefi", x86_64_unknown_uefi), ("nvptx64-nvidia-cuda", nvptx64_nvidia_cuda), ("i686-wrs-vxworks", i686_wrs_vxworks), ("x86_64-wrs-vxworks", x86_64_wrs_vxworks), ("armv7-wrs-vxworks-eabihf", armv7_wrs_vxworks_eabihf), ("aarch64-wrs-vxworks", aarch64_wrs_vxworks), ("powerpc-wrs-vxworks", powerpc_wrs_vxworks), ("powerpc-wrs-vxworks-spe", powerpc_wrs_vxworks_spe), ("powerpc64-wrs-vxworks", powerpc64_wrs_vxworks), } /// Everything `rustc` knows about how to compile for a specific target. /// /// Every field here must be specified, and has no default value. #[derive(PartialEq, Clone, Debug)] pub struct Target { /// Target triple to pass to LLVM. pub llvm_target: String, /// String to use as the `target_endian` `cfg` variable. pub target_endian: String, /// String to use as the `target_pointer_width` `cfg` variable. pub target_pointer_width: String, /// Width of c_int type pub target_c_int_width: String, /// OS name to use for conditional compilation. pub target_os: String, /// Environment name to use for conditional compilation. pub target_env: String, /// Vendor name to use for conditional compilation. pub target_vendor: String, /// Architecture to use for ABI considerations. Valid options include: "x86", /// "x86_64", "arm", "aarch64", "mips", "powerpc", "powerpc64", and others. pub arch: String, /// [Data layout](http://llvm.org/docs/LangRef.html#data-layout) to pass to LLVM. pub data_layout: String, /// Linker flavor pub linker_flavor: LinkerFlavor, /// Optional settings with defaults. pub options: TargetOptions, } pub trait HasTargetSpec { fn target_spec(&self) -> &Target; } impl HasTargetSpec for Target { fn target_spec(&self) -> &Target { self } } /// Optional aspects of a target specification. /// /// This has an implementation of `Default`, see each field for what the default is. In general, /// these try to take "minimal defaults" that don't assume anything about the runtime they run in. #[derive(PartialEq, Clone, Debug)] pub struct TargetOptions { /// Whether the target is built-in or loaded from a custom target specification. pub is_builtin: bool, /// Linker to invoke pub linker: Option, /// LLD flavor pub lld_flavor: LldFlavor, /// Linker arguments that are passed *before* any user-defined libraries. pub pre_link_args: LinkArgs, // ... unconditionally pub pre_link_args_crt: LinkArgs, // ... when linking with a bundled crt /// Objects to link before all others, always found within the /// sysroot folder. pub pre_link_objects_exe: Vec, // ... when linking an executable, unconditionally pub pre_link_objects_exe_crt: Vec, // ... when linking an executable with a bundled crt pub pre_link_objects_dll: Vec, // ... when linking a dylib /// Linker arguments that are unconditionally passed after any /// user-defined but before post_link_objects. Standard platform /// libraries that should be always be linked to, usually go here. pub late_link_args: LinkArgs, /// Objects to link after all others, always found within the /// sysroot folder. pub post_link_objects: Vec, // ... unconditionally pub post_link_objects_crt: Vec, // ... when linking with a bundled crt /// Linker arguments that are unconditionally passed *after* any /// user-defined libraries. pub post_link_args: LinkArgs, /// Environment variables to be set before invoking the linker. pub link_env: Vec<(String, String)>, /// Extra arguments to pass to the external assembler (when used) pub asm_args: Vec, /// Default CPU to pass to LLVM. Corresponds to `llc -mcpu=$cpu`. Defaults /// to "generic". pub cpu: String, /// Default target features to pass to LLVM. These features will *always* be /// passed, and cannot be disabled even via `-C`. Corresponds to `llc /// -mattr=$features`. pub features: String, /// Whether dynamic linking is available on this target. Defaults to false. pub dynamic_linking: bool, /// If dynamic linking is available, whether only cdylibs are supported. pub only_cdylib: bool, /// Whether executables are available on this target. iOS, for example, only allows static /// libraries. Defaults to false. pub executables: bool, /// Relocation model to use in object file. Corresponds to `llc /// -relocation-model=$relocation_model`. Defaults to "pic". pub relocation_model: String, /// Code model to use. Corresponds to `llc -code-model=$code_model`. pub code_model: Option, /// TLS model to use. Options are "global-dynamic" (default), "local-dynamic", "initial-exec" /// and "local-exec". This is similar to the -ftls-model option in GCC/Clang. pub tls_model: String, /// Do not emit code that uses the "red zone", if the ABI has one. Defaults to false. pub disable_redzone: bool, /// Eliminate frame pointers from stack frames if possible. Defaults to true. pub eliminate_frame_pointer: bool, /// Emit each function in its own section. Defaults to true. pub function_sections: bool, /// String to prepend to the name of every dynamic library. Defaults to "lib". pub dll_prefix: String, /// String to append to the name of every dynamic library. Defaults to ".so". pub dll_suffix: String, /// String to append to the name of every executable. pub exe_suffix: String, /// String to prepend to the name of every static library. Defaults to "lib". pub staticlib_prefix: String, /// String to append to the name of every static library. Defaults to ".a". pub staticlib_suffix: String, /// OS family to use for conditional compilation. Valid options: "unix", "windows". pub target_family: Option, /// Whether the target toolchain's ABI supports returning small structs as an integer. pub abi_return_struct_as_int: bool, /// Whether the target toolchain is like macOS's. Only useful for compiling against iOS/macOS, /// in particular running dsymutil and some other stuff like `-dead_strip`. Defaults to false. pub is_like_osx: bool, /// Whether the target toolchain is like Solaris's. /// Only useful for compiling against Illumos/Solaris, /// as they have a different set of linker flags. Defaults to false. pub is_like_solaris: bool, /// Whether the target toolchain is like Windows'. Only useful for compiling against Windows, /// only really used for figuring out how to find libraries, since Windows uses its own /// library naming convention. Defaults to false. pub is_like_windows: bool, pub is_like_msvc: bool, /// Whether the target toolchain is like Android's. Only useful for compiling against Android. /// Defaults to false. pub is_like_android: bool, /// Whether the target toolchain is like Emscripten's. Only useful for compiling with /// Emscripten toolchain. /// Defaults to false. pub is_like_emscripten: bool, /// Whether the target toolchain is like Fuchsia's. pub is_like_fuchsia: bool, /// Whether the linker support GNU-like arguments such as -O. Defaults to false. pub linker_is_gnu: bool, /// The MinGW toolchain has a known issue that prevents it from correctly /// handling COFF object files with more than 215 sections. Since each weak /// symbol needs its own COMDAT section, weak linkage implies a large /// number sections that easily exceeds the given limit for larger /// codebases. Consequently we want a way to disallow weak linkage on some /// platforms. pub allows_weak_linkage: bool, /// Whether the linker support rpaths or not. Defaults to false. pub has_rpath: bool, /// Whether to disable linking to the default libraries, typically corresponds /// to `-nodefaultlibs`. Defaults to true. pub no_default_libraries: bool, /// Dynamically linked executables can be compiled as position independent /// if the default relocation model of position independent code is not /// changed. This is a requirement to take advantage of ASLR, as otherwise /// the functions in the executable are not randomized and can be used /// during an exploit of a vulnerability in any code. pub position_independent_executables: bool, /// Determines if the target always requires using the PLT for indirect /// library calls or not. This controls the default value of the `-Z plt` flag. pub needs_plt: bool, /// Either partial, full, or off. Full RELRO makes the dynamic linker /// resolve all symbols at startup and marks the GOT read-only before /// starting the program, preventing overwriting the GOT. pub relro_level: RelroLevel, /// Format that archives should be emitted in. This affects whether we use /// LLVM to assemble an archive or fall back to the system linker, and /// currently only "gnu" is used to fall into LLVM. Unknown strings cause /// the system linker to be used. pub archive_format: String, /// Is asm!() allowed? Defaults to true. pub allow_asm: bool, /// Whether the target uses a custom unwind resumption routine. /// By default LLVM lowers `resume` instructions into calls to `_Unwind_Resume` /// defined in libgcc. If this option is enabled, the target must provide /// `eh_unwind_resume` lang item. pub custom_unwind_resume: bool, /// Flag indicating whether ELF TLS (e.g., #[thread_local]) is available for /// this target. pub has_elf_tls: bool, // This is mainly for easy compatibility with emscripten. // If we give emcc .o files that are actually .bc files it // will 'just work'. pub obj_is_bitcode: bool, // LLVM can't produce object files for this target. Instead, we'll make LLVM // emit assembly and then use `gcc` to turn that assembly into an object // file pub no_integrated_as: bool, /// Don't use this field; instead use the `.min_atomic_width()` method. pub min_atomic_width: Option, /// Don't use this field; instead use the `.max_atomic_width()` method. pub max_atomic_width: Option, /// Whether the target supports atomic CAS operations natively pub atomic_cas: bool, /// Panic strategy: "unwind" or "abort" pub panic_strategy: PanicStrategy, /// A blacklist of ABIs unsupported by the current target. Note that generic /// ABIs are considered to be supported on all platforms and cannot be blacklisted. pub abi_blacklist: Vec, /// Whether or not linking dylibs to a static CRT is allowed. pub crt_static_allows_dylibs: bool, /// Whether or not the CRT is statically linked by default. pub crt_static_default: bool, /// Whether or not crt-static is respected by the compiler (or is a no-op). pub crt_static_respected: bool, /// Whether or not stack probes (__rust_probestack) are enabled pub stack_probes: bool, /// The minimum alignment for global symbols. pub min_global_align: Option, /// Default number of codegen units to use in debug mode pub default_codegen_units: Option, /// Whether to generate trap instructions in places where optimization would /// otherwise produce control flow that falls through into unrelated memory. pub trap_unreachable: bool, /// This target requires everything to be compiled with LTO to emit a final /// executable, aka there is no native linker for this target. pub requires_lto: bool, /// This target has no support for threads. pub singlethread: bool, /// Whether library functions call lowering/optimization is disabled in LLVM /// for this target unconditionally. pub no_builtins: bool, /// The codegen backend to use for this target, typically "llvm" pub codegen_backend: String, /// The default visibility for symbols in this target should be "hidden" /// rather than "default" pub default_hidden_visibility: bool, /// Whether or not bitcode is embedded in object files pub embed_bitcode: bool, /// Whether a .debug_gdb_scripts section will be added to the output object file pub emit_debug_gdb_scripts: bool, /// Whether or not to unconditionally `uwtable` attributes on functions, /// typically because the platform needs to unwind for things like stack /// unwinders. pub requires_uwtable: bool, /// Whether or not SIMD types are passed by reference in the Rust ABI, /// typically required if a target can be compiled with a mixed set of /// target features. This is `true` by default, and `false` for targets like /// wasm32 where the whole program either has simd or not. pub simd_types_indirect: bool, /// Pass a list of symbol which should be exported in the dylib to the linker. pub limit_rdylib_exports: bool, /// If set, have the linker export exactly these symbols, instead of using /// the usual logic to figure this out from the crate itself. pub override_export_symbols: Option>, /// Determines how or whether the MergeFunctions LLVM pass should run for /// this target. Either "disabled", "trampolines", or "aliases". /// The MergeFunctions pass is generally useful, but some targets may need /// to opt out. The default is "aliases". /// /// Workaround for: https://github.com/rust-lang/rust/issues/57356 pub merge_functions: MergeFunctions, /// Use platform dependent mcount function pub target_mcount: String } impl Default for TargetOptions { /// Creates a set of "sane defaults" for any target. This is still /// incomplete, and if used for compilation, will certainly not work. fn default() -> TargetOptions { TargetOptions { is_builtin: false, linker: option_env!("CFG_DEFAULT_LINKER").map(|s| s.to_string()), lld_flavor: LldFlavor::Ld, pre_link_args: LinkArgs::new(), pre_link_args_crt: LinkArgs::new(), post_link_args: LinkArgs::new(), asm_args: Vec::new(), cpu: "generic".to_string(), features: String::new(), dynamic_linking: false, only_cdylib: false, executables: false, relocation_model: "pic".to_string(), code_model: None, tls_model: "global-dynamic".to_string(), disable_redzone: false, eliminate_frame_pointer: true, function_sections: true, dll_prefix: "lib".to_string(), dll_suffix: ".so".to_string(), exe_suffix: String::new(), staticlib_prefix: "lib".to_string(), staticlib_suffix: ".a".to_string(), target_family: None, abi_return_struct_as_int: false, is_like_osx: false, is_like_solaris: false, is_like_windows: false, is_like_android: false, is_like_emscripten: false, is_like_msvc: false, is_like_fuchsia: false, linker_is_gnu: false, allows_weak_linkage: true, has_rpath: false, no_default_libraries: true, position_independent_executables: false, needs_plt: false, relro_level: RelroLevel::None, pre_link_objects_exe: Vec::new(), pre_link_objects_exe_crt: Vec::new(), pre_link_objects_dll: Vec::new(), post_link_objects: Vec::new(), post_link_objects_crt: Vec::new(), late_link_args: LinkArgs::new(), link_env: Vec::new(), archive_format: "gnu".to_string(), custom_unwind_resume: false, allow_asm: true, has_elf_tls: false, obj_is_bitcode: false, no_integrated_as: false, min_atomic_width: None, max_atomic_width: None, atomic_cas: true, panic_strategy: PanicStrategy::Unwind, abi_blacklist: vec![], crt_static_allows_dylibs: false, crt_static_default: false, crt_static_respected: false, stack_probes: false, min_global_align: None, default_codegen_units: None, trap_unreachable: true, requires_lto: false, singlethread: false, no_builtins: false, codegen_backend: "llvm".to_string(), default_hidden_visibility: false, embed_bitcode: false, emit_debug_gdb_scripts: true, requires_uwtable: false, simd_types_indirect: true, limit_rdylib_exports: true, override_export_symbols: None, merge_functions: MergeFunctions::Aliases, target_mcount: "mcount".to_string(), } } } impl Target { /// Given a function ABI, turn it into the correct ABI for this target. pub fn adjust_abi(&self, abi: Abi) -> Abi { match abi { Abi::System => { if self.options.is_like_windows && self.arch == "x86" { Abi::Stdcall } else { Abi::C } }, // These ABI kinds are ignored on non-x86 Windows targets. // See https://docs.microsoft.com/en-us/cpp/cpp/argument-passing-and-naming-conventions // and the individual pages for __stdcall et al. Abi::Stdcall | Abi::Fastcall | Abi::Vectorcall | Abi::Thiscall => { if self.options.is_like_windows && self.arch != "x86" { Abi::C } else { abi } }, abi => abi } } /// Minimum integer size in bits that this target can perform atomic /// operations on. pub fn min_atomic_width(&self) -> u64 { self.options.min_atomic_width.unwrap_or(8) } /// Maximum integer size in bits that this target can perform atomic /// operations on. pub fn max_atomic_width(&self) -> u64 { self.options.max_atomic_width.unwrap_or_else(|| self.target_pointer_width.parse().unwrap()) } pub fn is_abi_supported(&self, abi: Abi) -> bool { abi.generic() || !self.options.abi_blacklist.contains(&abi) } /// Loads a target descriptor from a JSON object. pub fn from_json(obj: Json) -> TargetResult { // While ugly, this code must remain this way to retain // compatibility with existing JSON fields and the internal // expected naming of the Target and TargetOptions structs. // To ensure compatibility is retained, the built-in targets // are round-tripped through this code to catch cases where // the JSON parser is not updated to match the structs. let get_req_field = |name: &str| { obj.find(name) .map(|s| s.as_string()) .and_then(|os| os.map(|s| s.to_string())) .ok_or_else(|| format!("Field {} in target specification is required", name)) }; let get_opt_field = |name: &str, default: &str| { obj.find(name).and_then(|s| s.as_string()) .map(|s| s.to_string()) .unwrap_or_else(|| default.to_string()) }; let mut base = Target { llvm_target: get_req_field("llvm-target")?, target_endian: get_req_field("target-endian")?, target_pointer_width: get_req_field("target-pointer-width")?, target_c_int_width: get_req_field("target-c-int-width")?, data_layout: get_req_field("data-layout")?, arch: get_req_field("arch")?, target_os: get_req_field("os")?, target_env: get_opt_field("env", ""), target_vendor: get_opt_field("vendor", "unknown"), linker_flavor: LinkerFlavor::from_str(&*get_req_field("linker-flavor")?) .ok_or_else(|| { format!("linker flavor must be {}", LinkerFlavor::one_of()) })?, options: Default::default(), }; macro_rules! key { ($key_name:ident) => ( { let name = (stringify!($key_name)).replace("_", "-"); obj.find(&name[..]).map(|o| o.as_string() .map(|s| base.options.$key_name = s.to_string())); } ); ($key_name:ident, bool) => ( { let name = (stringify!($key_name)).replace("_", "-"); obj.find(&name[..]) .map(|o| o.as_boolean() .map(|s| base.options.$key_name = s)); } ); ($key_name:ident, Option) => ( { let name = (stringify!($key_name)).replace("_", "-"); obj.find(&name[..]) .map(|o| o.as_u64() .map(|s| base.options.$key_name = Some(s))); } ); ($key_name:ident, MergeFunctions) => ( { let name = (stringify!($key_name)).replace("_", "-"); obj.find(&name[..]).and_then(|o| o.as_string().and_then(|s| { match s.parse::() { Ok(mergefunc) => base.options.$key_name = mergefunc, _ => return Some(Err(format!("'{}' is not a valid value for \ merge-functions. Use 'disabled', \ 'trampolines', or 'aliases'.", s))), } Some(Ok(())) })).unwrap_or(Ok(())) } ); ($key_name:ident, PanicStrategy) => ( { let name = (stringify!($key_name)).replace("_", "-"); obj.find(&name[..]).and_then(|o| o.as_string().and_then(|s| { match s { "unwind" => base.options.$key_name = PanicStrategy::Unwind, "abort" => base.options.$key_name = PanicStrategy::Abort, _ => return Some(Err(format!("'{}' is not a valid value for \ panic-strategy. Use 'unwind' or 'abort'.", s))), } Some(Ok(())) })).unwrap_or(Ok(())) } ); ($key_name:ident, RelroLevel) => ( { let name = (stringify!($key_name)).replace("_", "-"); obj.find(&name[..]).and_then(|o| o.as_string().and_then(|s| { match s.parse::() { Ok(level) => base.options.$key_name = level, _ => return Some(Err(format!("'{}' is not a valid value for \ relro-level. Use 'full', 'partial, or 'off'.", s))), } Some(Ok(())) })).unwrap_or(Ok(())) } ); ($key_name:ident, list) => ( { let name = (stringify!($key_name)).replace("_", "-"); obj.find(&name[..]).map(|o| o.as_array() .map(|v| base.options.$key_name = v.iter() .map(|a| a.as_string().unwrap().to_string()).collect() ) ); } ); ($key_name:ident, opt_list) => ( { let name = (stringify!($key_name)).replace("_", "-"); obj.find(&name[..]).map(|o| o.as_array() .map(|v| base.options.$key_name = Some(v.iter() .map(|a| a.as_string().unwrap().to_string()).collect()) ) ); } ); ($key_name:ident, optional) => ( { let name = (stringify!($key_name)).replace("_", "-"); if let Some(o) = obj.find(&name[..]) { base.options.$key_name = o .as_string() .map(|s| s.to_string() ); } } ); ($key_name:ident, LldFlavor) => ( { let name = (stringify!($key_name)).replace("_", "-"); obj.find(&name[..]).and_then(|o| o.as_string().and_then(|s| { if let Some(flavor) = LldFlavor::from_str(&s) { base.options.$key_name = flavor; } else { return Some(Err(format!( "'{}' is not a valid value for lld-flavor. \ Use 'darwin', 'gnu', 'link' or 'wasm.", s))) } Some(Ok(())) })).unwrap_or(Ok(())) } ); ($key_name:ident, LinkerFlavor) => ( { let name = (stringify!($key_name)).replace("_", "-"); obj.find(&name[..]).and_then(|o| o.as_string().map(|s| { LinkerFlavor::from_str(&s).ok_or_else(|| { Err(format!("'{}' is not a valid value for linker-flavor. \ Use 'em', 'gcc', 'ld' or 'msvc.", s)) }) })).unwrap_or(Ok(())) } ); ($key_name:ident, link_args) => ( { let name = (stringify!($key_name)).replace("_", "-"); if let Some(val) = obj.find(&name[..]) { let obj = val.as_object().ok_or_else(|| format!("{}: expected a \ JSON object with fields per linker-flavor.", name))?; let mut args = LinkArgs::new(); for (k, v) in obj { let flavor = LinkerFlavor::from_str(&k).ok_or_else(|| { format!("{}: '{}' is not a valid value for linker-flavor. \ Use 'em', 'gcc', 'ld' or 'msvc'", name, k) })?; let v = v.as_array().ok_or_else(|| format!("{}.{}: expected a JSON array", name, k) )?.iter().enumerate() .map(|(i,s)| { let s = s.as_string().ok_or_else(|| format!("{}.{}[{}]: expected a JSON string", name, k, i))?; Ok(s.to_owned()) }) .collect::, String>>()?; args.insert(flavor, v); } base.options.$key_name = args; } } ); ($key_name:ident, env) => ( { let name = (stringify!($key_name)).replace("_", "-"); if let Some(a) = obj.find(&name[..]).and_then(|o| o.as_array()) { for o in a { if let Some(s) = o.as_string() { let p = s.split('=').collect::>(); if p.len() == 2 { let k = p[0].to_string(); let v = p[1].to_string(); base.options.$key_name.push((k, v)); } } } } } ); } key!(is_builtin, bool); key!(linker, optional); key!(lld_flavor, LldFlavor)?; key!(pre_link_args, link_args); key!(pre_link_args_crt, link_args); key!(pre_link_objects_exe, list); key!(pre_link_objects_exe_crt, list); key!(pre_link_objects_dll, list); key!(late_link_args, link_args); key!(post_link_objects, list); key!(post_link_objects_crt, list); key!(post_link_args, link_args); key!(link_env, env); key!(asm_args, list); key!(cpu); key!(features); key!(dynamic_linking, bool); key!(only_cdylib, bool); key!(executables, bool); key!(relocation_model); key!(code_model, optional); key!(tls_model); key!(disable_redzone, bool); key!(eliminate_frame_pointer, bool); key!(function_sections, bool); key!(dll_prefix); key!(dll_suffix); key!(exe_suffix); key!(staticlib_prefix); key!(staticlib_suffix); key!(target_family, optional); key!(abi_return_struct_as_int, bool); key!(is_like_osx, bool); key!(is_like_solaris, bool); key!(is_like_windows, bool); key!(is_like_msvc, bool); key!(is_like_emscripten, bool); key!(is_like_android, bool); key!(is_like_fuchsia, bool); key!(linker_is_gnu, bool); key!(allows_weak_linkage, bool); key!(has_rpath, bool); key!(no_default_libraries, bool); key!(position_independent_executables, bool); key!(needs_plt, bool); key!(relro_level, RelroLevel)?; key!(archive_format); key!(allow_asm, bool); key!(custom_unwind_resume, bool); key!(has_elf_tls, bool); key!(obj_is_bitcode, bool); key!(no_integrated_as, bool); key!(max_atomic_width, Option); key!(min_atomic_width, Option); key!(atomic_cas, bool); key!(panic_strategy, PanicStrategy)?; key!(crt_static_allows_dylibs, bool); key!(crt_static_default, bool); key!(crt_static_respected, bool); key!(stack_probes, bool); key!(min_global_align, Option); key!(default_codegen_units, Option); key!(trap_unreachable, bool); key!(requires_lto, bool); key!(singlethread, bool); key!(no_builtins, bool); key!(codegen_backend); key!(default_hidden_visibility, bool); key!(embed_bitcode, bool); key!(emit_debug_gdb_scripts, bool); key!(requires_uwtable, bool); key!(simd_types_indirect, bool); key!(limit_rdylib_exports, bool); key!(override_export_symbols, opt_list); key!(merge_functions, MergeFunctions)?; key!(target_mcount); if let Some(array) = obj.find("abi-blacklist").and_then(Json::as_array) { for name in array.iter().filter_map(|abi| abi.as_string()) { match lookup_abi(name) { Some(abi) => { if abi.generic() { return Err(format!("The ABI \"{}\" is considered to be supported on \ all targets and cannot be blacklisted", abi)) } base.options.abi_blacklist.push(abi) } None => return Err(format!("Unknown ABI \"{}\" in target specification", name)) } } } Ok(base) } /// Search RUST_TARGET_PATH for a JSON file specifying the given target /// triple. Note that it could also just be a bare filename already, so also /// check for that. If one of the hardcoded targets we know about, just /// return it directly. /// /// The error string could come from any of the APIs called, including /// filesystem access and JSON decoding. pub fn search(target_triple: &TargetTriple) -> Result { use std::env; use std::fs; use rustc_serialize::json; fn load_file(path: &Path) -> Result { let contents = fs::read(path).map_err(|e| e.to_string())?; let obj = json::from_reader(&mut &contents[..]) .map_err(|e| e.to_string())?; Target::from_json(obj) } match *target_triple { TargetTriple::TargetTriple(ref target_triple) => { // check if triple is in list of supported targets match load_specific(target_triple) { Ok(t) => return Ok(t), Err(LoadTargetError::BuiltinTargetNotFound(_)) => (), Err(LoadTargetError::Other(e)) => return Err(e), } // search for a file named `target_triple`.json in RUST_TARGET_PATH let path = { let mut target = target_triple.to_string(); target.push_str(".json"); PathBuf::from(target) }; let target_path = env::var_os("RUST_TARGET_PATH").unwrap_or_default(); // FIXME 16351: add a sane default search path? for dir in env::split_paths(&target_path) { let p = dir.join(&path); if p.is_file() { return load_file(&p); } } Err(format!("Could not find specification for target {:?}", target_triple)) } TargetTriple::TargetPath(ref target_path) => { if target_path.is_file() { return load_file(&target_path); } Err(format!("Target path {:?} is not a valid file", target_path)) } } } } impl ToJson for Target { fn to_json(&self) -> Json { let mut d = BTreeMap::new(); let default: TargetOptions = Default::default(); macro_rules! target_val { ($attr:ident) => ( { let name = (stringify!($attr)).replace("_", "-"); d.insert(name, self.$attr.to_json()); } ); ($attr:ident, $key_name:expr) => ( { let name = $key_name; d.insert(name.to_string(), self.$attr.to_json()); } ); } macro_rules! target_option_val { ($attr:ident) => ( { let name = (stringify!($attr)).replace("_", "-"); if default.$attr != self.options.$attr { d.insert(name, self.options.$attr.to_json()); } } ); ($attr:ident, $key_name:expr) => ( { let name = $key_name; if default.$attr != self.options.$attr { d.insert(name.to_string(), self.options.$attr.to_json()); } } ); (link_args - $attr:ident) => ( { let name = (stringify!($attr)).replace("_", "-"); if default.$attr != self.options.$attr { let obj = self.options.$attr .iter() .map(|(k, v)| (k.desc().to_owned(), v.clone())) .collect::>(); d.insert(name, obj.to_json()); } } ); (env - $attr:ident) => ( { let name = (stringify!($attr)).replace("_", "-"); if default.$attr != self.options.$attr { let obj = self.options.$attr .iter() .map(|&(ref k, ref v)| k.clone() + "=" + &v) .collect::>(); d.insert(name, obj.to_json()); } } ); } target_val!(llvm_target); target_val!(target_endian); target_val!(target_pointer_width); target_val!(target_c_int_width); target_val!(arch); target_val!(target_os, "os"); target_val!(target_env, "env"); target_val!(target_vendor, "vendor"); target_val!(data_layout); target_val!(linker_flavor); target_option_val!(is_builtin); target_option_val!(linker); target_option_val!(lld_flavor); target_option_val!(link_args - pre_link_args); target_option_val!(link_args - pre_link_args_crt); target_option_val!(pre_link_objects_exe); target_option_val!(pre_link_objects_exe_crt); target_option_val!(pre_link_objects_dll); target_option_val!(link_args - late_link_args); target_option_val!(post_link_objects); target_option_val!(post_link_objects_crt); target_option_val!(link_args - post_link_args); target_option_val!(env - link_env); target_option_val!(asm_args); target_option_val!(cpu); target_option_val!(features); target_option_val!(dynamic_linking); target_option_val!(only_cdylib); target_option_val!(executables); target_option_val!(relocation_model); target_option_val!(code_model); target_option_val!(tls_model); target_option_val!(disable_redzone); target_option_val!(eliminate_frame_pointer); target_option_val!(function_sections); target_option_val!(dll_prefix); target_option_val!(dll_suffix); target_option_val!(exe_suffix); target_option_val!(staticlib_prefix); target_option_val!(staticlib_suffix); target_option_val!(target_family); target_option_val!(abi_return_struct_as_int); target_option_val!(is_like_osx); target_option_val!(is_like_solaris); target_option_val!(is_like_windows); target_option_val!(is_like_msvc); target_option_val!(is_like_emscripten); target_option_val!(is_like_android); target_option_val!(is_like_fuchsia); target_option_val!(linker_is_gnu); target_option_val!(allows_weak_linkage); target_option_val!(has_rpath); target_option_val!(no_default_libraries); target_option_val!(position_independent_executables); target_option_val!(needs_plt); target_option_val!(relro_level); target_option_val!(archive_format); target_option_val!(allow_asm); target_option_val!(custom_unwind_resume); target_option_val!(has_elf_tls); target_option_val!(obj_is_bitcode); target_option_val!(no_integrated_as); target_option_val!(min_atomic_width); target_option_val!(max_atomic_width); target_option_val!(atomic_cas); target_option_val!(panic_strategy); target_option_val!(crt_static_allows_dylibs); target_option_val!(crt_static_default); target_option_val!(crt_static_respected); target_option_val!(stack_probes); target_option_val!(min_global_align); target_option_val!(default_codegen_units); target_option_val!(trap_unreachable); target_option_val!(requires_lto); target_option_val!(singlethread); target_option_val!(no_builtins); target_option_val!(codegen_backend); target_option_val!(default_hidden_visibility); target_option_val!(embed_bitcode); target_option_val!(emit_debug_gdb_scripts); target_option_val!(requires_uwtable); target_option_val!(simd_types_indirect); target_option_val!(limit_rdylib_exports); target_option_val!(override_export_symbols); target_option_val!(merge_functions); target_option_val!(target_mcount); if default.abi_blacklist != self.options.abi_blacklist { d.insert("abi-blacklist".to_string(), self.options.abi_blacklist.iter() .map(|&name| Abi::name(name).to_json()) .collect::>().to_json()); } Json::Object(d) } } /// Either a target triple string or a path to a JSON file. #[derive(PartialEq, Clone, Debug, Hash, RustcEncodable, RustcDecodable)] pub enum TargetTriple { TargetTriple(String), TargetPath(PathBuf), } impl TargetTriple { /// Creates a target triple from the passed target triple string. pub fn from_triple(triple: &str) -> Self { TargetTriple::TargetTriple(triple.to_string()) } /// Creates a target triple from the passed target path. pub fn from_path(path: &Path) -> Result { let canonicalized_path = path.canonicalize()?; Ok(TargetTriple::TargetPath(canonicalized_path)) } /// Returns a string triple for this target. /// /// If this target is a path, the file name (without extension) is returned. pub fn triple(&self) -> &str { match *self { TargetTriple::TargetTriple(ref triple) => triple, TargetTriple::TargetPath(ref path) => { path.file_stem().expect("target path must not be empty").to_str() .expect("target path must be valid unicode") } } } /// Returns an extended string triple for this target. /// /// If this target is a path, a hash of the path is appended to the triple returned /// by `triple()`. pub fn debug_triple(&self) -> String { use std::hash::{Hash, Hasher}; use std::collections::hash_map::DefaultHasher; let triple = self.triple(); if let TargetTriple::TargetPath(ref path) = *self { let mut hasher = DefaultHasher::new(); path.hash(&mut hasher); let hash = hasher.finish(); format!("{}-{}", triple, hash) } else { triple.to_owned() } } } impl fmt::Display for TargetTriple { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "{}", self.debug_triple()) } }