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build.rs
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build.rs
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use std::env;
fn defined(var: &str) -> bool {
println!("cargo:rerun-if-env-changed={}", var);
env::var_os(var).is_some()
}
fn is_pure() -> bool {
defined("CARGO_FEATURE_PURE")
}
fn should_prefer_intrinsics() -> bool {
defined("CARGO_FEATURE_PREFER_INTRINSICS")
}
fn is_neon() -> bool {
defined("CARGO_FEATURE_NEON")
}
fn is_no_neon() -> bool {
defined("CARGO_FEATURE_NO_NEON")
}
fn is_ci() -> bool {
defined("BLAKE3_CI")
}
fn warn(warning: &str) {
assert!(!warning.contains("\n"));
println!("cargo:warning={}", warning);
if is_ci() {
println!("cargo:warning=Warnings in CI are treated as errors. Build failed.");
std::process::exit(1);
}
}
fn target_components() -> Vec<String> {
let target = env::var("TARGET").unwrap();
target.split("-").map(|s| s.to_string()).collect()
}
fn is_x86_64() -> bool {
target_components()[0] == "x86_64"
}
fn is_x86_32() -> bool {
let arch = &target_components()[0];
arch == "i386" || arch == "i586" || arch == "i686"
}
fn is_arm() -> bool {
is_armv7() || is_aarch64() || target_components()[0] == "arm"
}
fn is_aarch64() -> bool {
target_components()[0] == "aarch64"
}
fn is_armv7() -> bool {
target_components()[0] == "armv7"
}
// Windows targets may be using the MSVC toolchain or the GNU toolchain. The
// right compiler flags to use depend on the toolchain. (And we don't want to
// use flag_if_supported, because we don't want features to be silently
// disabled by old compilers.)
fn is_windows_msvc() -> bool {
// Some targets are only two components long, so check in steps.
target_components()[1] == "pc"
&& target_components()[2] == "windows"
&& target_components()[3] == "msvc"
}
fn is_windows_gnu() -> bool {
// Some targets are only two components long, so check in steps.
target_components()[1] == "pc"
&& target_components()[2] == "windows"
&& target_components()[3] == "gnu"
}
fn new_build() -> cc::Build {
let mut build = cc::Build::new();
if !is_windows_msvc() {
build.flag("-std=c11");
}
build
}
#[derive(PartialEq)]
enum CCompilerSupport {
NoCompiler,
NoAVX512,
YesAVX512,
}
use CCompilerSupport::*;
fn c_compiler_support() -> CCompilerSupport {
let build = new_build();
let flags_checked;
let support_result: Result<bool, _> = if is_windows_msvc() {
flags_checked = "/arch:AVX512";
build.is_flag_supported("/arch:AVX512")
} else {
// Check for both of the flags we use. If -mavx512f works, then -mavx512vl
// will probably always work too, but we might as well be thorough.
flags_checked = "-mavx512f and -mavx512vl";
match build.is_flag_supported("-mavx512f") {
Ok(true) => build.is_flag_supported("-mavx512vl"),
false_or_error => false_or_error,
}
};
match support_result {
Ok(true) => YesAVX512,
Ok(false) => {
warn(&format!(
"The C compiler {:?} does not support {}.",
build.get_compiler().path(),
flags_checked,
));
NoAVX512
}
Err(e) => {
println!("{:?}", e);
warn(&format!(
"No C compiler {:?} detected.",
build.get_compiler().path()
));
NoCompiler
}
}
}
fn build_sse2_sse41_avx2_rust_intrinsics() {
// No C code to compile here. Set the cfg flags that enable the Rust SSE2,
// SSE4.1, and AVX2 intrinsics modules. The regular Cargo build will compile
// them.
println!("cargo:rustc-cfg=blake3_sse2_rust");
println!("cargo:rustc-cfg=blake3_sse41_rust");
println!("cargo:rustc-cfg=blake3_avx2_rust");
}
fn build_sse2_sse41_avx2_assembly() {
// Build the assembly implementations for SSE4.1 and AVX2. This is
// preferred, but it only supports x86_64.
assert!(is_x86_64());
println!("cargo:rustc-cfg=blake3_sse2_ffi");
println!("cargo:rustc-cfg=blake3_sse41_ffi");
println!("cargo:rustc-cfg=blake3_avx2_ffi");
let mut build = new_build();
if is_windows_msvc() {
build.file("c/blake3_sse2_x86-64_windows_msvc.asm");
build.file("c/blake3_sse41_x86-64_windows_msvc.asm");
build.file("c/blake3_avx2_x86-64_windows_msvc.asm");
} else if is_windows_gnu() {
build.file("c/blake3_sse2_x86-64_windows_gnu.S");
build.file("c/blake3_sse41_x86-64_windows_gnu.S");
build.file("c/blake3_avx2_x86-64_windows_gnu.S");
} else {
// All non-Windows implementations are assumed to support
// Linux-style assembly. These files do contain a small
// explicit workaround for macOS also.
build.file("c/blake3_sse2_x86-64_unix.S");
build.file("c/blake3_sse41_x86-64_unix.S");
build.file("c/blake3_avx2_x86-64_unix.S");
}
build.compile("blake3_sse2_sse41_avx2_assembly");
}
fn build_avx512_c_intrinsics() {
// This is required on 32-bit x86 targets, since the assembly
// implementation doesn't support those.
println!("cargo:rustc-cfg=blake3_avx512_ffi");
let mut build = new_build();
build.file("c/blake3_avx512.c");
if is_windows_msvc() {
build.flag("/arch:AVX512");
} else {
build.flag("-mavx512f");
build.flag("-mavx512vl");
}
if is_windows_gnu() {
// Workaround for https://gcc.gnu.org/bugzilla/show_bug.cgi?id=65782.
build.flag("-fno-asynchronous-unwind-tables");
}
build.compile("blake3_avx512_intrinsics");
}
fn build_avx512_assembly() {
// Build the assembly implementation for AVX-512. This is preferred, but it
// only supports x86_64.
assert!(is_x86_64());
println!("cargo:rustc-cfg=blake3_avx512_ffi");
let mut build = new_build();
if is_windows_msvc() {
build.file("c/blake3_avx512_x86-64_windows_msvc.asm");
} else {
if is_windows_gnu() {
build.file("c/blake3_avx512_x86-64_windows_gnu.S");
} else {
// All non-Windows implementations are assumed to support Linux-style
// assembly. These files do contain a small explicit workaround for
// macOS also.
build.file("c/blake3_avx512_x86-64_unix.S");
}
// Older versions of Clang require these flags, even for assembly. See
// https://github.com/BLAKE3-team/BLAKE3/issues/79.
build.flag("-mavx512f");
build.flag("-mavx512vl");
}
build.compile("blake3_avx512_assembly");
}
fn build_neon_c_intrinsics() {
let mut build = new_build();
// Note that blake3_neon.c normally depends on the blake3_portable.c
// for the single-instance compression function, but we expose
// portable.rs over FFI instead. See ffi_neon.rs.
build.file("c/blake3_neon.c");
// ARMv7 platforms that support NEON generally need the following
// flags. AArch64 supports NEON by default and does not support -mpfu.
if is_armv7() {
build.flag("-mfpu=neon-vfpv4");
build.flag("-mfloat-abi=hard");
}
build.compile("blake3_neon");
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
if is_pure() && is_neon() {
panic!("It doesn't make sense to enable both \"pure\" and \"neon\".");
}
if is_no_neon() && is_neon() {
panic!("It doesn't make sense to enable both \"no_neon\" and \"neon\".");
}
if is_x86_64() || is_x86_32() {
let support = c_compiler_support();
if is_x86_32() || should_prefer_intrinsics() || is_pure() || support == NoCompiler {
build_sse2_sse41_avx2_rust_intrinsics();
} else {
// We assume that all C compilers can assemble SSE4.1 and AVX2. We
// don't explicitly check for support.
build_sse2_sse41_avx2_assembly();
}
if is_pure() || support == NoCompiler || support == NoAVX512 {
// The binary will not include any AVX-512 code.
} else if is_x86_32() || should_prefer_intrinsics() {
build_avx512_c_intrinsics();
} else {
build_avx512_assembly();
}
}
if (is_arm() && is_neon()) || (!is_no_neon() && !is_pure() && is_aarch64()) {
println!("cargo:rustc-cfg=blake3_neon");
build_neon_c_intrinsics();
}
// The `cc` crate doesn't automatically emit rerun-if directives for the
// environment variables it supports, in particular for $CC. We expect to
// do a lot of benchmarking across different compilers, so we explicitly
// add the variables that we're likely to need.
println!("cargo:rerun-if-env-changed=CC");
println!("cargo:rerun-if-env-changed=CFLAGS");
// Ditto for source files, though these shouldn't change as often.
for file in std::fs::read_dir("c")? {
println!(
"cargo:rerun-if-changed={}",
file?.path().to_str().expect("utf-8")
);
}
Ok(())
}