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use std::env::var;
use std::io::Write;
/// The directory for inline asm.
const ASM_PATH: &str = "src/backend/linux_raw/arch/asm";
fn main() {
// Don't rerun this on changes other than build.rs, as we only depend on
// the rustc version.
println!("cargo:rerun-if-changed=build.rs");
// Gather target information.
let arch = var("CARGO_CFG_TARGET_ARCH").unwrap();
let env = var("CARGO_CFG_TARGET_ENV").unwrap();
let inline_asm_name = format!("{}/{}.rs", ASM_PATH, arch);
let inline_asm_name_present = std::fs::metadata(inline_asm_name).is_ok();
let os = var("CARGO_CFG_TARGET_OS").unwrap();
let pointer_width = var("CARGO_CFG_TARGET_POINTER_WIDTH").unwrap();
let endian = var("CARGO_CFG_TARGET_ENDIAN").unwrap();
// Check for special target variants.
let is_x32 = arch == "x86_64" && pointer_width == "32";
let is_arm64_ilp32 = arch == "aarch64" && pointer_width == "32";
let is_powerpc64be = arch == "powerpc64" && endian == "big";
let is_mipseb = (arch == "mips" || arch == "mips32r6") && endian == "big";
let is_mips64eb = arch.contains("mips64") && endian == "big";
let is_unsupported_abi = is_x32 || is_arm64_ilp32 || is_powerpc64be || is_mipseb || is_mips64eb;
// Check for `--features=use-libc`. This allows crate users to enable the
// libc backend.
let feature_use_libc = var("CARGO_FEATURE_USE_LIBC").is_ok();
// Check for `RUSTFLAGS=--cfg=rustix_use_libc`. This allows end users to
// enable the libc backend even if rustix is depended on transitively.
let cfg_use_libc = var("CARGO_CFG_RUSTIX_USE_LIBC").is_ok();
// Check for eg. `RUSTFLAGS=--cfg=rustix_use_experimental_features`. This
// is a rustc flag rather than a cargo feature flag because it's
// experimental and not something we want accidentally enabled via
// `--all-features`.
let rustix_use_experimental_features =
var("CARGO_CFG_RUSTIX_USE_EXPERIMENTAL_FEATURES").is_ok();
// Check for eg. `RUSTFLAGS=--cfg=rustix_use_experimental_asm`. This is a
// rustc flag rather than a cargo feature flag because it's experimental
// and not something we want accidentally enabled via `--all-features`.
let rustix_use_experimental_asm = var("CARGO_CFG_RUSTIX_USE_EXPERIMENTAL_ASM").is_ok();
// Miri doesn't support inline asm, and has builtin support for recognizing
// libc FFI calls, so if we're running under miri, use the libc backend.
let miri = var("CARGO_CFG_MIRI").is_ok();
// If experimental features are enabled, auto-detect and use available
// features.
if rustix_use_experimental_features {
use_feature_or_nothing("rustc_attrs");
use_feature_or_nothing("core_intrinsics");
}
// Features needed only in no-std configurations.
#[cfg(not(feature = "std"))]
{
use_feature_or_nothing("core_c_str");
use_feature_or_nothing("core_ffi_c");
use_feature_or_nothing("alloc_c_string");
use_feature_or_nothing("alloc_ffi");
}
// Feature needed for testing.
if use_static_assertions() {
use_feature("static_assertions");
}
// If the libc backend is requested, or if we're not on a platform for
// which we have linux_raw support, use the libc backend.
//
// For now Android uses the libc backend; in theory it could use the
// linux_raw backend, but to do that we'll need to figure out how to
// install the toolchain for it.
let libc = feature_use_libc
|| cfg_use_libc
|| os != "linux"
|| !inline_asm_name_present
|| is_unsupported_abi
|| miri
|| ((arch == "powerpc64" || arch == "mips" || arch == "mips64" || arch == "mips64r6")
&& !rustix_use_experimental_asm);
if libc {
// Use the libc backend.
use_feature("libc");
} else {
// Use the linux_raw backend.
use_feature("linux_raw");
if rustix_use_experimental_asm {
use_feature("asm_experimental_arch");
}
}
// Detect whether the compiler requires us to use thumb mode on ARM.
if arch == "arm" && use_thumb_mode() {
use_feature("thumb_mode");
}
// Rust's libc crate groups some OS's together which have similar APIs;
// create similarly-named features to make `cfg` tests more concise.
let freebsdlike = os == "freebsd" || os == "dragonfly";
if freebsdlike {
use_feature("freebsdlike");
}
let netbsdlike = os == "openbsd" || os == "netbsd";
if netbsdlike {
use_feature("netbsdlike");
}
let apple = os == "macos" || os == "ios" || os == "tvos" || os == "watchos";
if apple {
use_feature("apple");
}
if os == "linux" || os == "l4re" || os == "android" || os == "emscripten" {
use_feature("linux_like");
}
if os == "solaris" || os == "illumos" {
use_feature("solarish");
}
if apple || freebsdlike || netbsdlike {
use_feature("bsd");
}
// Add some additional common target combinations.
// Android and "regular" Linux both use the Linux kernel.
if os == "android" || os == "linux" {
use_feature("linux_kernel");
}
// These platforms have a 32-bit `time_t`.
if libc
&& (arch == "arm"
|| arch == "mips"
|| arch == "sparc"
|| arch == "x86"
|| (arch == "wasm32" && os == "emscripten"))
&& (apple
|| os == "android"
|| os == "emscripten"
|| os == "haiku"
|| env == "gnu"
|| (env == "musl" && arch == "x86"))
{
use_feature("fix_y2038");
}
println!("cargo:rerun-if-env-changed=CARGO_CFG_RUSTIX_USE_EXPERIMENTAL_ASM");
println!("cargo:rerun-if-env-changed=CARGO_CFG_RUSTIX_USE_LIBC");
// Rerun this script if any of our features or configuration flags change,
// or if the toolchain we used for feature detection changes.
println!("cargo:rerun-if-env-changed=CARGO_FEATURE_USE_LIBC");
println!("cargo:rerun-if-env-changed=CARGO_FEATURE_RUSTC_DEP_OF_STD");
println!("cargo:rerun-if-env-changed=CARGO_CFG_MIRI");
}
fn use_static_assertions() -> bool {
// `offset_from` was made const in Rust 1.65.
can_compile("const unsafe fn foo(p: *const u8) -> isize { p.offset_from(p) }")
}
fn use_thumb_mode() -> bool {
// In thumb mode, r7 is reserved.
!can_compile("pub unsafe fn f() { core::arch::asm!(\"udf #16\", in(\"r7\") 0); }")
}
fn use_feature_or_nothing(feature: &str) {
if has_feature(feature) {
use_feature(feature);
}
}
fn use_feature(feature: &str) {
println!("cargo:rustc-cfg={}", feature);
}
/// Test whether the rustc at `var("RUSTC")` supports the given feature.
fn has_feature(feature: &str) -> bool {
can_compile(format!(
"#![allow(stable_features)]\n#![feature({})]",
feature
))
}
/// Test whether the rustc at `var("RUSTC")` can compile the given code.
fn can_compile<T: AsRef<str>>(test: T) -> bool {
use std::process::Stdio;
let out_dir = var("OUT_DIR").unwrap();
let rustc = var("RUSTC").unwrap();
let target = var("TARGET").unwrap();
// Use `RUSTC_WRAPPER` if it's set, unless it's set to an empty string, as
// documented [here].
// [here]: https://doc.rust-lang.org/cargo/reference/environment-variables.html#environment-variables-cargo-reads
let wrapper = var("RUSTC_WRAPPER")
.ok()
.and_then(|w| if w.is_empty() { None } else { Some(w) });
let mut cmd = if let Some(wrapper) = wrapper {
let mut cmd = std::process::Command::new(wrapper);
// The wrapper's first argument is supposed to be the path to rustc.
cmd.arg(rustc);
cmd
} else {
std::process::Command::new(rustc)
};
cmd.arg("--crate-type=rlib") // Don't require `main`.
.arg("--emit=metadata") // Do as little as possible but still parse.
.arg("--target")
.arg(target)
.arg("--out-dir")
.arg(out_dir); // Put the output somewhere inconsequential.
// If Cargo wants to set RUSTFLAGS, use that.
if let Ok(rustflags) = var("CARGO_ENCODED_RUSTFLAGS") {
if !rustflags.is_empty() {
for arg in rustflags.split('\x1f') {
cmd.arg(arg);
}
}
}
let mut child = cmd
.arg("-") // Read from stdin.
.stdin(Stdio::piped()) // Stdin is a pipe.
.stderr(Stdio::null()) // Errors from feature detection aren't interesting and can be confusing.
.spawn()
.unwrap();
writeln!(child.stdin.take().unwrap(), "{}", test.as_ref()).unwrap();
child.wait().unwrap().success()
}
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