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mod.rs
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//! [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](https://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 crate::abi::call::Conv;
use crate::abi::{Endian, Integer, Size, TargetDataLayout, TargetDataLayoutErrors};
use crate::json::{Json, ToJson};
use crate::spec::abi::{lookup as lookup_abi, Abi};
use crate::spec::crt_objects::{CrtObjects, LinkSelfContainedDefault};
use rustc_data_structures::stable_hasher::{HashStable, StableHasher};
use rustc_fs_util::try_canonicalize;
use rustc_serialize::{Decodable, Decoder, Encodable, Encoder};
use rustc_span::symbol::{kw, sym, Symbol};
use serde_json::Value;
use std::borrow::Cow;
use std::collections::BTreeMap;
use std::hash::{Hash, Hasher};
use std::ops::{Deref, DerefMut};
use std::path::{Path, PathBuf};
use std::str::FromStr;
use std::{fmt, io};
use rustc_macros::HashStable_Generic;
pub mod abi;
pub mod crt_objects;
mod aix_base;
mod android_base;
mod apple_base;
pub use apple_base::deployment_target as current_apple_deployment_target;
pub use apple_base::platform as current_apple_platform;
pub use apple_base::sdk_version as current_apple_sdk_version;
mod avr_gnu_base;
pub use avr_gnu_base::ef_avr_arch;
mod bpf_base;
mod dragonfly_base;
mod freebsd_base;
mod fuchsia_base;
mod haiku_base;
mod hermit_base;
mod hurd_base;
mod hurd_gnu_base;
mod illumos_base;
mod l4re_base;
mod linux_base;
mod linux_gnu_base;
mod linux_musl_base;
mod linux_ohos_base;
mod linux_uclibc_base;
mod msvc_base;
mod netbsd_base;
mod nto_qnx_base;
mod openbsd_base;
mod redox_base;
mod solaris_base;
mod solid_base;
mod teeos_base;
mod thumb_base;
mod uefi_msvc_base;
mod unikraft_linux_musl_base;
mod vxworks_base;
mod wasm_base;
mod windows_gnu_base;
mod windows_gnullvm_base;
mod windows_msvc_base;
mod windows_uwp_gnu_base;
mod windows_uwp_msvc_base;
/// Linker is called through a C/C++ compiler.
#[derive(Clone, Copy, Debug, Eq, Ord, PartialEq, PartialOrd)]
pub enum Cc {
Yes,
No,
}
/// Linker is LLD.
#[derive(Clone, Copy, Debug, Eq, Ord, PartialEq, PartialOrd)]
pub enum Lld {
Yes,
No,
}
/// All linkers have some kinds of command line interfaces and rustc needs to know which commands
/// to use with each of them. So we cluster all such interfaces into a (somewhat arbitrary) number
/// of classes that we call "linker flavors".
///
/// Technically, it's not even necessary, we can nearly always infer the flavor from linker name
/// and target properties like `is_like_windows`/`is_like_osx`/etc. However, the PRs originally
/// introducing `-Clinker-flavor` (#40018 and friends) were aiming to reduce this kind of inference
/// and provide something certain and explicitly specified instead, and that design goal is still
/// relevant now.
///
/// The second goal is to keep the number of flavors to the minimum if possible.
/// LLD somewhat forces our hand here because that linker is self-sufficient only if its executable
/// (`argv[0]`) is named in specific way, otherwise it doesn't work and requires a
/// `-flavor LLD_FLAVOR` argument to choose which logic to use. Our shipped `rust-lld` in
/// particular is not named in such specific way, so it needs the flavor option, so we make our
/// linker flavors sufficiently fine-grained to satisfy LLD without inferring its flavor from other
/// target properties, in accordance with the first design goal.
///
/// The first component of the flavor is tightly coupled with the compilation target,
/// while the `Cc` and `Lld` flags can vary within the same target.
#[derive(Clone, Copy, Debug, Eq, Ord, PartialEq, PartialOrd)]
pub enum LinkerFlavor {
/// Unix-like linker with GNU extensions (both naked and compiler-wrapped forms).
/// Besides similar "default" Linux/BSD linkers this also includes Windows/GNU linker,
/// which is somewhat different because it doesn't produce ELFs.
Gnu(Cc, Lld),
/// Unix-like linker for Apple targets (both naked and compiler-wrapped forms).
/// Extracted from the "umbrella" `Unix` flavor due to its corresponding LLD flavor.
Darwin(Cc, Lld),
/// Unix-like linker for Wasm targets (both naked and compiler-wrapped forms).
/// Extracted from the "umbrella" `Unix` flavor due to its corresponding LLD flavor.
/// Non-LLD version does not exist, so the lld flag is currently hardcoded here.
WasmLld(Cc),
/// Basic Unix-like linker for "any other Unix" targets (Solaris/illumos, L4Re, MSP430, etc),
/// possibly with non-GNU extensions (both naked and compiler-wrapped forms).
/// LLD doesn't support any of these.
Unix(Cc),
/// MSVC-style linker for Windows and UEFI, LLD supports it.
Msvc(Lld),
/// Emscripten Compiler Frontend, a wrapper around `WasmLld(Cc::Yes)` that has a different
/// interface and produces some additional JavaScript output.
EmCc,
// Below: other linker-like tools with unique interfaces for exotic targets.
/// Linker tool for BPF.
Bpf,
/// Linker tool for Nvidia PTX.
Ptx,
}
/// Linker flavors available externally through command line (`-Clinker-flavor`)
/// or json target specifications.
/// This set has accumulated historically, and contains both (stable and unstable) legacy values, as
/// well as modern ones matching the internal linker flavors (`LinkerFlavor`).
#[derive(Clone, Copy, Debug, Eq, Ord, PartialEq, PartialOrd)]
pub enum LinkerFlavorCli {
// Modern (unstable) flavors, with direct counterparts in `LinkerFlavor`.
Gnu(Cc, Lld),
Darwin(Cc, Lld),
WasmLld(Cc),
Unix(Cc),
// Note: `Msvc(Lld::No)` is also a stable value.
Msvc(Lld),
EmCc,
Bpf,
Ptx,
// Legacy stable values
Gcc,
Ld,
Lld(LldFlavor),
Em,
}
impl LinkerFlavorCli {
/// Returns whether this `-C linker-flavor` option is one of the unstable values.
pub fn is_unstable(&self) -> bool {
match self {
LinkerFlavorCli::Gnu(..)
| LinkerFlavorCli::Darwin(..)
| LinkerFlavorCli::WasmLld(..)
| LinkerFlavorCli::Unix(..)
| LinkerFlavorCli::Msvc(Lld::Yes)
| LinkerFlavorCli::EmCc
| LinkerFlavorCli::Bpf
| LinkerFlavorCli::Ptx => true,
LinkerFlavorCli::Gcc
| LinkerFlavorCli::Ld
| LinkerFlavorCli::Lld(..)
| LinkerFlavorCli::Msvc(Lld::No)
| LinkerFlavorCli::Em => false,
}
}
}
#[derive(Clone, Copy, Debug, Eq, Ord, PartialEq, PartialOrd)]
pub enum LldFlavor {
Wasm,
Ld64,
Ld,
Link,
}
impl LldFlavor {
pub fn as_str(&self) -> &'static str {
match self {
LldFlavor::Wasm => "wasm",
LldFlavor::Ld64 => "darwin",
LldFlavor::Ld => "gnu",
LldFlavor::Link => "link",
}
}
fn from_str(s: &str) -> Option<Self> {
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 {
self.as_str().to_json()
}
}
impl LinkerFlavor {
/// At this point the target's reference linker flavor doesn't yet exist and we need to infer
/// it. The inference always succeds and gives some result, and we don't report any flavor
/// incompatibility errors for json target specs. The CLI flavor is used as the main source
/// of truth, other flags are used in case of ambiguities.
fn from_cli_json(cli: LinkerFlavorCli, lld_flavor: LldFlavor, is_gnu: bool) -> LinkerFlavor {
match cli {
LinkerFlavorCli::Gnu(cc, lld) => LinkerFlavor::Gnu(cc, lld),
LinkerFlavorCli::Darwin(cc, lld) => LinkerFlavor::Darwin(cc, lld),
LinkerFlavorCli::WasmLld(cc) => LinkerFlavor::WasmLld(cc),
LinkerFlavorCli::Unix(cc) => LinkerFlavor::Unix(cc),
LinkerFlavorCli::Msvc(lld) => LinkerFlavor::Msvc(lld),
LinkerFlavorCli::EmCc => LinkerFlavor::EmCc,
LinkerFlavorCli::Bpf => LinkerFlavor::Bpf,
LinkerFlavorCli::Ptx => LinkerFlavor::Ptx,
// Below: legacy stable values
LinkerFlavorCli::Gcc => match lld_flavor {
LldFlavor::Ld if is_gnu => LinkerFlavor::Gnu(Cc::Yes, Lld::No),
LldFlavor::Ld64 => LinkerFlavor::Darwin(Cc::Yes, Lld::No),
LldFlavor::Wasm => LinkerFlavor::WasmLld(Cc::Yes),
LldFlavor::Ld | LldFlavor::Link => LinkerFlavor::Unix(Cc::Yes),
},
LinkerFlavorCli::Ld => match lld_flavor {
LldFlavor::Ld if is_gnu => LinkerFlavor::Gnu(Cc::No, Lld::No),
LldFlavor::Ld64 => LinkerFlavor::Darwin(Cc::No, Lld::No),
LldFlavor::Ld | LldFlavor::Wasm | LldFlavor::Link => LinkerFlavor::Unix(Cc::No),
},
LinkerFlavorCli::Lld(LldFlavor::Ld) => LinkerFlavor::Gnu(Cc::No, Lld::Yes),
LinkerFlavorCli::Lld(LldFlavor::Ld64) => LinkerFlavor::Darwin(Cc::No, Lld::Yes),
LinkerFlavorCli::Lld(LldFlavor::Wasm) => LinkerFlavor::WasmLld(Cc::No),
LinkerFlavorCli::Lld(LldFlavor::Link) => LinkerFlavor::Msvc(Lld::Yes),
LinkerFlavorCli::Em => LinkerFlavor::EmCc,
}
}
fn to_cli(self) -> LinkerFlavorCli {
match self {
LinkerFlavor::Gnu(Cc::Yes, _)
| LinkerFlavor::Darwin(Cc::Yes, _)
| LinkerFlavor::WasmLld(Cc::Yes)
| LinkerFlavor::Unix(Cc::Yes) => LinkerFlavorCli::Gcc,
LinkerFlavor::Gnu(_, Lld::Yes) => LinkerFlavorCli::Lld(LldFlavor::Ld),
LinkerFlavor::Darwin(_, Lld::Yes) => LinkerFlavorCli::Lld(LldFlavor::Ld64),
LinkerFlavor::WasmLld(..) => LinkerFlavorCli::Lld(LldFlavor::Wasm),
LinkerFlavor::Gnu(..) | LinkerFlavor::Darwin(..) | LinkerFlavor::Unix(..) => {
LinkerFlavorCli::Ld
}
LinkerFlavor::Msvc(Lld::Yes) => LinkerFlavorCli::Lld(LldFlavor::Link),
LinkerFlavor::Msvc(..) => LinkerFlavorCli::Msvc(Lld::No),
LinkerFlavor::EmCc => LinkerFlavorCli::Em,
LinkerFlavor::Bpf => LinkerFlavorCli::Bpf,
LinkerFlavor::Ptx => LinkerFlavorCli::Ptx,
}
}
fn infer_cli_hints(cli: LinkerFlavorCli) -> (Option<Cc>, Option<Lld>) {
match cli {
LinkerFlavorCli::Gnu(cc, lld) | LinkerFlavorCli::Darwin(cc, lld) => {
(Some(cc), Some(lld))
}
LinkerFlavorCli::WasmLld(cc) => (Some(cc), Some(Lld::Yes)),
LinkerFlavorCli::Unix(cc) => (Some(cc), None),
LinkerFlavorCli::Msvc(lld) => (Some(Cc::No), Some(lld)),
LinkerFlavorCli::EmCc => (Some(Cc::Yes), Some(Lld::Yes)),
LinkerFlavorCli::Bpf | LinkerFlavorCli::Ptx => (None, None),
// Below: legacy stable values
LinkerFlavorCli::Gcc => (Some(Cc::Yes), None),
LinkerFlavorCli::Ld => (Some(Cc::No), Some(Lld::No)),
LinkerFlavorCli::Lld(_) => (Some(Cc::No), Some(Lld::Yes)),
LinkerFlavorCli::Em => (Some(Cc::Yes), Some(Lld::Yes)),
}
}
fn infer_linker_hints(linker_stem: &str) -> (Option<Cc>, Option<Lld>) {
// Remove any version postfix.
let stem = linker_stem
.rsplit_once('-')
.and_then(|(lhs, rhs)| rhs.chars().all(char::is_numeric).then_some(lhs))
.unwrap_or(linker_stem);
// GCC/Clang can have an optional target prefix.
if stem == "emcc"
|| stem == "gcc"
|| stem.ends_with("-gcc")
|| stem == "g++"
|| stem.ends_with("-g++")
|| stem == "clang"
|| stem.ends_with("-clang")
|| stem == "clang++"
|| stem.ends_with("-clang++")
{
(Some(Cc::Yes), Some(Lld::No))
} else if stem == "wasm-ld"
|| stem.ends_with("-wasm-ld")
|| stem == "ld.lld"
|| stem == "lld"
|| stem == "rust-lld"
|| stem == "lld-link"
{
(Some(Cc::No), Some(Lld::Yes))
} else if stem == "ld" || stem.ends_with("-ld") || stem == "link" {
(Some(Cc::No), Some(Lld::No))
} else {
(None, None)
}
}
fn with_hints(self, (cc_hint, lld_hint): (Option<Cc>, Option<Lld>)) -> LinkerFlavor {
match self {
LinkerFlavor::Gnu(cc, lld) => {
LinkerFlavor::Gnu(cc_hint.unwrap_or(cc), lld_hint.unwrap_or(lld))
}
LinkerFlavor::Darwin(cc, lld) => {
LinkerFlavor::Darwin(cc_hint.unwrap_or(cc), lld_hint.unwrap_or(lld))
}
LinkerFlavor::WasmLld(cc) => LinkerFlavor::WasmLld(cc_hint.unwrap_or(cc)),
LinkerFlavor::Unix(cc) => LinkerFlavor::Unix(cc_hint.unwrap_or(cc)),
LinkerFlavor::Msvc(lld) => LinkerFlavor::Msvc(lld_hint.unwrap_or(lld)),
LinkerFlavor::EmCc | LinkerFlavor::Bpf | LinkerFlavor::Ptx => self,
}
}
pub fn with_cli_hints(self, cli: LinkerFlavorCli) -> LinkerFlavor {
self.with_hints(LinkerFlavor::infer_cli_hints(cli))
}
pub fn with_linker_hints(self, linker_stem: &str) -> LinkerFlavor {
self.with_hints(LinkerFlavor::infer_linker_hints(linker_stem))
}
pub fn check_compatibility(self, cli: LinkerFlavorCli) -> Option<String> {
let compatible = |cli| {
// The CLI flavor should be compatible with the target if:
// 1. they are counterparts: they have the same principal flavor.
match (self, cli) {
(LinkerFlavor::Gnu(..), LinkerFlavorCli::Gnu(..))
| (LinkerFlavor::Darwin(..), LinkerFlavorCli::Darwin(..))
| (LinkerFlavor::WasmLld(..), LinkerFlavorCli::WasmLld(..))
| (LinkerFlavor::Unix(..), LinkerFlavorCli::Unix(..))
| (LinkerFlavor::Msvc(..), LinkerFlavorCli::Msvc(..))
| (LinkerFlavor::EmCc, LinkerFlavorCli::EmCc)
| (LinkerFlavor::Bpf, LinkerFlavorCli::Bpf)
| (LinkerFlavor::Ptx, LinkerFlavorCli::Ptx) => return true,
_ => {}
}
// 2. or, the flavor is legacy and survives this roundtrip.
cli == self.with_cli_hints(cli).to_cli()
};
(!compatible(cli)).then(|| {
LinkerFlavorCli::all()
.iter()
.filter(|cli| compatible(**cli))
.map(|cli| cli.desc())
.intersperse(", ")
.collect()
})
}
pub fn lld_flavor(self) -> LldFlavor {
match self {
LinkerFlavor::Gnu(..)
| LinkerFlavor::Unix(..)
| LinkerFlavor::EmCc
| LinkerFlavor::Bpf
| LinkerFlavor::Ptx => LldFlavor::Ld,
LinkerFlavor::Darwin(..) => LldFlavor::Ld64,
LinkerFlavor::WasmLld(..) => LldFlavor::Wasm,
LinkerFlavor::Msvc(..) => LldFlavor::Link,
}
}
pub fn is_gnu(self) -> bool {
matches!(self, LinkerFlavor::Gnu(..))
}
/// Returns whether the flavor uses the `lld` linker.
pub fn uses_lld(self) -> bool {
// Exhaustive match in case new flavors are added in the future.
match self {
LinkerFlavor::Gnu(_, Lld::Yes)
| LinkerFlavor::Darwin(_, Lld::Yes)
| LinkerFlavor::WasmLld(..)
| LinkerFlavor::EmCc
| LinkerFlavor::Msvc(Lld::Yes) => true,
LinkerFlavor::Gnu(..)
| LinkerFlavor::Darwin(..)
| LinkerFlavor::Msvc(_)
| LinkerFlavor::Unix(_)
| LinkerFlavor::Bpf
| LinkerFlavor::Ptx => false,
}
}
/// Returns whether the flavor calls the linker via a C/C++ compiler.
pub fn uses_cc(self) -> bool {
// Exhaustive match in case new flavors are added in the future.
match self {
LinkerFlavor::Gnu(Cc::Yes, _)
| LinkerFlavor::Darwin(Cc::Yes, _)
| LinkerFlavor::WasmLld(Cc::Yes)
| LinkerFlavor::Unix(Cc::Yes)
| LinkerFlavor::EmCc => true,
LinkerFlavor::Gnu(..)
| LinkerFlavor::Darwin(..)
| LinkerFlavor::WasmLld(_)
| LinkerFlavor::Msvc(_)
| LinkerFlavor::Unix(_)
| LinkerFlavor::Bpf
| LinkerFlavor::Ptx => false,
}
}
}
macro_rules! linker_flavor_cli_impls {
($(($($flavor:tt)*) $string:literal)*) => (
impl LinkerFlavorCli {
const fn all() -> &'static [LinkerFlavorCli] {
&[$($($flavor)*,)*]
}
pub const fn one_of() -> &'static str {
concat!("one of: ", $($string, " ",)*)
}
pub fn from_str(s: &str) -> Option<LinkerFlavorCli> {
Some(match s {
$($string => $($flavor)*,)*
_ => return None,
})
}
pub fn desc(self) -> &'static str {
match self {
$($($flavor)* => $string,)*
}
}
}
)
}
linker_flavor_cli_impls! {
(LinkerFlavorCli::Gnu(Cc::No, Lld::No)) "gnu"
(LinkerFlavorCli::Gnu(Cc::No, Lld::Yes)) "gnu-lld"
(LinkerFlavorCli::Gnu(Cc::Yes, Lld::No)) "gnu-cc"
(LinkerFlavorCli::Gnu(Cc::Yes, Lld::Yes)) "gnu-lld-cc"
(LinkerFlavorCli::Darwin(Cc::No, Lld::No)) "darwin"
(LinkerFlavorCli::Darwin(Cc::No, Lld::Yes)) "darwin-lld"
(LinkerFlavorCli::Darwin(Cc::Yes, Lld::No)) "darwin-cc"
(LinkerFlavorCli::Darwin(Cc::Yes, Lld::Yes)) "darwin-lld-cc"
(LinkerFlavorCli::WasmLld(Cc::No)) "wasm-lld"
(LinkerFlavorCli::WasmLld(Cc::Yes)) "wasm-lld-cc"
(LinkerFlavorCli::Unix(Cc::No)) "unix"
(LinkerFlavorCli::Unix(Cc::Yes)) "unix-cc"
(LinkerFlavorCli::Msvc(Lld::Yes)) "msvc-lld"
(LinkerFlavorCli::Msvc(Lld::No)) "msvc"
(LinkerFlavorCli::EmCc) "em-cc"
(LinkerFlavorCli::Bpf) "bpf"
(LinkerFlavorCli::Ptx) "ptx"
// Legacy stable flavors
(LinkerFlavorCli::Gcc) "gcc"
(LinkerFlavorCli::Ld) "ld"
(LinkerFlavorCli::Lld(LldFlavor::Ld)) "ld.lld"
(LinkerFlavorCli::Lld(LldFlavor::Ld64)) "ld64.lld"
(LinkerFlavorCli::Lld(LldFlavor::Link)) "lld-link"
(LinkerFlavorCli::Lld(LldFlavor::Wasm)) "wasm-ld"
(LinkerFlavorCli::Em) "em"
}
impl ToJson for LinkerFlavorCli {
fn to_json(&self) -> Json {
self.desc().to_json()
}
}
bitflags::bitflags! {
#[derive(Default)]
/// The `-C link-self-contained` components that can individually be enabled or disabled.
pub struct LinkSelfContainedComponents: u8 {
/// CRT objects (e.g. on `windows-gnu`, `musl`, `wasi` targets)
const CRT_OBJECTS = 1 << 0;
/// libc static library (e.g. on `musl`, `wasi` targets)
const LIBC = 1 << 1;
/// libgcc/libunwind (e.g. on `windows-gnu`, `fuchsia`, `fortanix`, `gnullvm` targets)
const UNWIND = 1 << 2;
/// Linker, dlltool, and their necessary libraries (e.g. on `windows-gnu` and for `rust-lld`)
const LINKER = 1 << 3;
/// Sanitizer runtime libraries
const SANITIZERS = 1 << 4;
/// Other MinGW libs and Windows import libs
const MINGW = 1 << 5;
}
}
impl LinkSelfContainedComponents {
/// Parses a single `-Clink-self-contained` well-known component, not a set of flags.
pub fn from_str(s: &str) -> Option<LinkSelfContainedComponents> {
Some(match s {
"crto" => LinkSelfContainedComponents::CRT_OBJECTS,
"libc" => LinkSelfContainedComponents::LIBC,
"unwind" => LinkSelfContainedComponents::UNWIND,
"linker" => LinkSelfContainedComponents::LINKER,
"sanitizers" => LinkSelfContainedComponents::SANITIZERS,
"mingw" => LinkSelfContainedComponents::MINGW,
_ => return None,
})
}
/// Return the component's name.
///
/// Returns `None` if the bitflags aren't a singular component (but a mix of multiple flags).
pub fn as_str(self) -> Option<&'static str> {
Some(match self {
LinkSelfContainedComponents::CRT_OBJECTS => "crto",
LinkSelfContainedComponents::LIBC => "libc",
LinkSelfContainedComponents::UNWIND => "unwind",
LinkSelfContainedComponents::LINKER => "linker",
LinkSelfContainedComponents::SANITIZERS => "sanitizers",
LinkSelfContainedComponents::MINGW => "mingw",
_ => return None,
})
}
/// Returns an array of all the components.
fn all_components() -> [LinkSelfContainedComponents; 6] {
[
LinkSelfContainedComponents::CRT_OBJECTS,
LinkSelfContainedComponents::LIBC,
LinkSelfContainedComponents::UNWIND,
LinkSelfContainedComponents::LINKER,
LinkSelfContainedComponents::SANITIZERS,
LinkSelfContainedComponents::MINGW,
]
}
}
impl IntoIterator for LinkSelfContainedComponents {
type Item = LinkSelfContainedComponents;
type IntoIter = std::vec::IntoIter<LinkSelfContainedComponents>;
fn into_iter(self) -> Self::IntoIter {
LinkSelfContainedComponents::all_components()
.into_iter()
.filter(|&s| self.contains(s))
.collect::<Vec<_>>()
.into_iter()
}
}
#[derive(Clone, Copy, Debug, PartialEq, Hash, Encodable, Decodable, HashStable_Generic)]
pub enum PanicStrategy {
Unwind,
Abort,
}
impl PanicStrategy {
pub fn desc(&self) -> &str {
match *self {
PanicStrategy::Unwind => "unwind",
PanicStrategy::Abort => "abort",
}
}
pub const fn desc_symbol(&self) -> Symbol {
match *self {
PanicStrategy::Unwind => sym::unwind,
PanicStrategy::Abort => sym::abort,
}
}
pub const fn all() -> [Symbol; 2] {
[Self::Abort.desc_symbol(), Self::Unwind.desc_symbol()]
}
}
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)]
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<RelroLevel, ()> {
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)]
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<MergeFunctions, ()> {
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(),
}
}
}
#[derive(Clone, Copy, PartialEq, Hash, Debug)]
pub enum RelocModel {
Static,
Pic,
Pie,
DynamicNoPic,
Ropi,
Rwpi,
RopiRwpi,
}
impl RelocModel {
pub fn desc(&self) -> &str {
match *self {
RelocModel::Static => "static",
RelocModel::Pic => "pic",
RelocModel::Pie => "pie",
RelocModel::DynamicNoPic => "dynamic-no-pic",
RelocModel::Ropi => "ropi",
RelocModel::Rwpi => "rwpi",
RelocModel::RopiRwpi => "ropi-rwpi",
}
}
pub const fn desc_symbol(&self) -> Symbol {
match *self {
RelocModel::Static => kw::Static,
RelocModel::Pic => sym::pic,
RelocModel::Pie => sym::pie,
RelocModel::DynamicNoPic => sym::dynamic_no_pic,
RelocModel::Ropi => sym::ropi,
RelocModel::Rwpi => sym::rwpi,
RelocModel::RopiRwpi => sym::ropi_rwpi,
}
}
pub const fn all() -> [Symbol; 7] {
[
RelocModel::Static.desc_symbol(),
RelocModel::Pic.desc_symbol(),
RelocModel::Pie.desc_symbol(),
RelocModel::DynamicNoPic.desc_symbol(),
RelocModel::Ropi.desc_symbol(),
RelocModel::Rwpi.desc_symbol(),
RelocModel::RopiRwpi.desc_symbol(),
]
}
}
impl FromStr for RelocModel {
type Err = ();
fn from_str(s: &str) -> Result<RelocModel, ()> {
Ok(match s {
"static" => RelocModel::Static,
"pic" => RelocModel::Pic,
"pie" => RelocModel::Pie,
"dynamic-no-pic" => RelocModel::DynamicNoPic,
"ropi" => RelocModel::Ropi,
"rwpi" => RelocModel::Rwpi,
"ropi-rwpi" => RelocModel::RopiRwpi,
_ => return Err(()),
})
}
}
impl ToJson for RelocModel {
fn to_json(&self) -> Json {
self.desc().to_json()
}
}
#[derive(Clone, Copy, PartialEq, Hash, Debug)]
pub enum CodeModel {
Tiny,
Small,
Kernel,
Medium,
Large,
}
impl FromStr for CodeModel {
type Err = ();
fn from_str(s: &str) -> Result<CodeModel, ()> {
Ok(match s {
"tiny" => CodeModel::Tiny,
"small" => CodeModel::Small,
"kernel" => CodeModel::Kernel,
"medium" => CodeModel::Medium,
"large" => CodeModel::Large,
_ => return Err(()),
})
}
}
impl ToJson for CodeModel {
fn to_json(&self) -> Json {
match *self {
CodeModel::Tiny => "tiny",
CodeModel::Small => "small",
CodeModel::Kernel => "kernel",
CodeModel::Medium => "medium",
CodeModel::Large => "large",
}
.to_json()
}
}
#[derive(Clone, Copy, PartialEq, Hash, Debug)]
pub enum TlsModel {
GeneralDynamic,
LocalDynamic,
InitialExec,
LocalExec,
}
impl FromStr for TlsModel {
type Err = ();
fn from_str(s: &str) -> Result<TlsModel, ()> {
Ok(match s {
// Note the difference "general" vs "global" difference. The model name is "general",
// but the user-facing option name is "global" for consistency with other compilers.
"global-dynamic" => TlsModel::GeneralDynamic,
"local-dynamic" => TlsModel::LocalDynamic,
"initial-exec" => TlsModel::InitialExec,
"local-exec" => TlsModel::LocalExec,
_ => return Err(()),
})
}
}
impl ToJson for TlsModel {
fn to_json(&self) -> Json {
match *self {
TlsModel::GeneralDynamic => "global-dynamic",
TlsModel::LocalDynamic => "local-dynamic",
TlsModel::InitialExec => "initial-exec",
TlsModel::LocalExec => "local-exec",
}
.to_json()
}
}
/// Everything is flattened to a single enum to make the json encoding/decoding less annoying.
#[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Debug)]
pub enum LinkOutputKind {
/// Dynamically linked non position-independent executable.
DynamicNoPicExe,
/// Dynamically linked position-independent executable.
DynamicPicExe,
/// Statically linked non position-independent executable.
StaticNoPicExe,
/// Statically linked position-independent executable.
StaticPicExe,
/// Regular dynamic library ("dynamically linked").
DynamicDylib,
/// Dynamic library with bundled libc ("statically linked").
StaticDylib,
/// WASI module with a lifetime past the _initialize entry point
WasiReactorExe,
}
impl LinkOutputKind {
fn as_str(&self) -> &'static str {
match self {
LinkOutputKind::DynamicNoPicExe => "dynamic-nopic-exe",
LinkOutputKind::DynamicPicExe => "dynamic-pic-exe",
LinkOutputKind::StaticNoPicExe => "static-nopic-exe",
LinkOutputKind::StaticPicExe => "static-pic-exe",
LinkOutputKind::DynamicDylib => "dynamic-dylib",
LinkOutputKind::StaticDylib => "static-dylib",
LinkOutputKind::WasiReactorExe => "wasi-reactor-exe",
}
}
pub(super) fn from_str(s: &str) -> Option<LinkOutputKind> {
Some(match s {
"dynamic-nopic-exe" => LinkOutputKind::DynamicNoPicExe,
"dynamic-pic-exe" => LinkOutputKind::DynamicPicExe,
"static-nopic-exe" => LinkOutputKind::StaticNoPicExe,
"static-pic-exe" => LinkOutputKind::StaticPicExe,
"dynamic-dylib" => LinkOutputKind::DynamicDylib,
"static-dylib" => LinkOutputKind::StaticDylib,
"wasi-reactor-exe" => LinkOutputKind::WasiReactorExe,
_ => return None,
})
}
pub fn can_link_dylib(self) -> bool {
match self {
LinkOutputKind::StaticNoPicExe | LinkOutputKind::StaticPicExe => false,
LinkOutputKind::DynamicNoPicExe
| LinkOutputKind::DynamicPicExe
| LinkOutputKind::DynamicDylib
| LinkOutputKind::StaticDylib
| LinkOutputKind::WasiReactorExe => true,
}
}
}
impl fmt::Display for LinkOutputKind {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.write_str(self.as_str())
}
}
pub type LinkArgs = BTreeMap<LinkerFlavor, Vec<StaticCow<str>>>;
pub type LinkArgsCli = BTreeMap<LinkerFlavorCli, Vec<StaticCow<str>>>;
/// Which kind of debuginfo does the target use?
///
/// Useful in determining whether a target supports Split DWARF (a target with
/// `DebuginfoKind::Dwarf` and supporting `SplitDebuginfo::Unpacked` for example).
#[derive(Clone, Copy, Debug, Default, Eq, Hash, PartialEq)]
pub enum DebuginfoKind {
/// DWARF debuginfo (such as that used on `x86_64_unknown_linux_gnu`).
#[default]
Dwarf,
/// DWARF debuginfo in dSYM files (such as on Apple platforms).
DwarfDsym,
/// Program database files (such as on Windows).
Pdb,
}
impl DebuginfoKind {
fn as_str(&self) -> &'static str {
match self {
DebuginfoKind::Dwarf => "dwarf",
DebuginfoKind::DwarfDsym => "dwarf-dsym",
DebuginfoKind::Pdb => "pdb",
}
}
}
impl FromStr for DebuginfoKind {
type Err = ();
fn from_str(s: &str) -> Result<Self, ()> {
Ok(match s {
"dwarf" => DebuginfoKind::Dwarf,
"dwarf-dsym" => DebuginfoKind::DwarfDsym,
"pdb" => DebuginfoKind::Pdb,
_ => return Err(()),
})
}
}
impl ToJson for DebuginfoKind {
fn to_json(&self) -> Json {
self.as_str().to_json()
}
}
impl fmt::Display for DebuginfoKind {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.write_str(self.as_str())
}
}
#[derive(Clone, Copy, Debug, Default, Eq, Hash, PartialEq)]
pub enum SplitDebuginfo {
/// Split debug-information is disabled, meaning that on supported platforms
/// you can find all debug information in the executable itself. This is
/// only supported for ELF effectively.
///
/// * Windows - not supported
/// * macOS - don't run `dsymutil`
/// * ELF - `.debug_*` sections
#[default]
Off,
/// Split debug-information can be found in a "packed" location separate
/// from the final artifact. This is supported on all platforms.
///
/// * Windows - `*.pdb`
/// * macOS - `*.dSYM` (run `dsymutil`)
/// * ELF - `*.dwp` (run `thorin`)
Packed,
/// Split debug-information can be found in individual object files on the
/// filesystem. The main executable may point to the object files.
///
/// * Windows - not supported
/// * macOS - supported, scattered object files