use crate::back::write::create_informational_target_machine;
use crate::errors::{
InvalidTargetFeaturePrefix, PossibleFeature, TargetFeatureDisableOrEnable,
UnknownCTargetFeature, UnknownCTargetFeaturePrefix, UnstableCTargetFeature,
};
use crate::llvm;
use libc::c_int;
use rustc_codegen_ssa::base::wants_wasm_eh;
use rustc_codegen_ssa::traits::PrintBackendInfo;
use rustc_data_structures::fx::{FxHashMap, FxHashSet};
use rustc_data_structures::small_c_str::SmallCStr;
use rustc_fs_util::path_to_c_string;
use rustc_middle::bug;
use rustc_session::config::{PrintKind, PrintRequest};
use rustc_session::Session;
use rustc_span::symbol::Symbol;
use rustc_target::spec::{MergeFunctions, PanicStrategy};
use rustc_target::target_features::RUSTC_SPECIFIC_FEATURES;
use std::ffi::{c_char, c_void, CStr, CString};
use std::path::Path;
use std::ptr;
use std::slice;
use std::str;
use std::sync::Once;
static INIT: Once = Once::new();
pub(crate) fn init(sess: &Session) {
unsafe {
if llvm::LLVMIsMultithreaded() != 1 {
bug!("LLVM compiled without support for threads");
}
INIT.call_once(|| {
configure_llvm(sess);
});
}
}
fn require_inited() {
if !INIT.is_completed() {
bug!("LLVM is not initialized");
}
}
unsafe fn configure_llvm(sess: &Session) {
let n_args = sess.opts.cg.llvm_args.len() + sess.target.llvm_args.len();
let mut llvm_c_strs = Vec::with_capacity(n_args + 1);
let mut llvm_args = Vec::with_capacity(n_args + 1);
llvm::LLVMRustInstallFatalErrorHandler();
if std::env::var_os("CI").is_some() {
llvm::LLVMRustDisableSystemDialogsOnCrash();
}
fn llvm_arg_to_arg_name(full_arg: &str) -> &str {
full_arg.trim().split(|c: char| c == '=' || c.is_whitespace()).next().unwrap_or("")
}
let cg_opts = sess.opts.cg.llvm_args.iter().map(AsRef::as_ref);
let tg_opts = sess.target.llvm_args.iter().map(AsRef::as_ref);
let sess_args = cg_opts.chain(tg_opts);
let user_specified_args: FxHashSet<_> =
sess_args.clone().map(|s| llvm_arg_to_arg_name(s)).filter(|s| !s.is_empty()).collect();
{
let mut add = |arg: &str, force: bool| {
if force || !user_specified_args.contains(llvm_arg_to_arg_name(arg)) {
let s = CString::new(arg).unwrap();
llvm_args.push(s.as_ptr());
llvm_c_strs.push(s);
}
};
add("rustc -Cllvm-args=\"...\" with", true);
if sess.opts.unstable_opts.time_llvm_passes {
add("-time-passes", false);
}
if sess.opts.unstable_opts.print_llvm_passes {
add("-debug-pass=Structure", false);
}
if sess.target.generate_arange_section
&& !sess.opts.unstable_opts.no_generate_arange_section
{
add("-generate-arange-section", false);
}
match sess.opts.unstable_opts.merge_functions.unwrap_or(sess.target.merge_functions) {
MergeFunctions::Disabled | MergeFunctions::Trampolines => {}
MergeFunctions::Aliases => {
add("-mergefunc-use-aliases", false);
}
}
if wants_wasm_eh(sess) {
add("-wasm-enable-eh", false);
}
if sess.target.os == "emscripten" && sess.panic_strategy() == PanicStrategy::Unwind {
add("-enable-emscripten-cxx-exceptions", false);
}
add("-preserve-alignment-assumptions-during-inlining=false", false);
add("-import-cold-multiplier=0.1", false);
if sess.print_llvm_stats() {
add("-stats", false);
}
for arg in sess_args {
add(&(*arg), true);
}
}
if sess.opts.unstable_opts.llvm_time_trace {
llvm::LLVMRustTimeTraceProfilerInitialize();
}
rustc_llvm::initialize_available_targets();
llvm::LLVMRustSetLLVMOptions(llvm_args.len() as c_int, llvm_args.as_ptr());
}
pub fn time_trace_profiler_finish(file_name: &Path) {
unsafe {
let file_name = path_to_c_string(file_name);
llvm::LLVMRustTimeTraceProfilerFinish(file_name.as_ptr());
}
}
pub enum TargetFeatureFoldStrength<'a> {
EnableOnly(&'a str),
Both(&'a str),
}
impl<'a> TargetFeatureFoldStrength<'a> {
fn as_str(&self) -> &'a str {
match self {
TargetFeatureFoldStrength::EnableOnly(feat) => feat,
TargetFeatureFoldStrength::Both(feat) => feat,
}
}
}
pub struct LLVMFeature<'a> {
pub llvm_feature_name: &'a str,
pub dependency: Option<TargetFeatureFoldStrength<'a>>,
}
impl<'a> LLVMFeature<'a> {
pub fn new(llvm_feature_name: &'a str) -> Self {
Self { llvm_feature_name, dependency: None }
}
pub fn with_dependency(
llvm_feature_name: &'a str,
dependency: TargetFeatureFoldStrength<'a>,
) -> Self {
Self { llvm_feature_name, dependency: Some(dependency) }
}
pub fn contains(&self, feat: &str) -> bool {
self.iter().any(|dep| dep == feat)
}
pub fn iter(&'a self) -> impl Iterator<Item = &'a str> {
let dependencies = self.dependency.iter().map(|feat| feat.as_str());
std::iter::once(self.llvm_feature_name).chain(dependencies)
}
}
impl<'a> IntoIterator for LLVMFeature<'a> {
type Item = &'a str;
type IntoIter = impl Iterator<Item = &'a str>;
fn into_iter(self) -> Self::IntoIter {
let dependencies = self.dependency.into_iter().map(|feat| feat.as_str());
std::iter::once(self.llvm_feature_name).chain(dependencies)
}
}
pub fn to_llvm_features<'a>(sess: &Session, s: &'a str) -> LLVMFeature<'a> {
let arch = if sess.target.arch == "x86_64" {
"x86"
} else if sess.target.arch == "arm64ec" {
"aarch64"
} else {
&*sess.target.arch
};
match (arch, s) {
("x86", "sse4.2") => {
LLVMFeature::with_dependency("sse4.2", TargetFeatureFoldStrength::EnableOnly("crc32"))
}
("x86", "pclmulqdq") => LLVMFeature::new("pclmul"),
("x86", "rdrand") => LLVMFeature::new("rdrnd"),
("x86", "bmi1") => LLVMFeature::new("bmi"),
("x86", "cmpxchg16b") => LLVMFeature::new("cx16"),
("x86", "lahfsahf") => LLVMFeature::new("sahf"),
("aarch64", "rcpc2") => LLVMFeature::new("rcpc-immo"),
("aarch64", "dpb") => LLVMFeature::new("ccpp"),
("aarch64", "dpb2") => LLVMFeature::new("ccdp"),
("aarch64", "frintts") => LLVMFeature::new("fptoint"),
("aarch64", "fcma") => LLVMFeature::new("complxnum"),
("aarch64", "pmuv3") => LLVMFeature::new("perfmon"),
("aarch64", "paca") => LLVMFeature::new("pauth"),
("aarch64", "pacg") => LLVMFeature::new("pauth"),
("aarch64", "neon") => {
LLVMFeature::with_dependency("neon", TargetFeatureFoldStrength::Both("fp-armv8"))
}
("aarch64", "f32mm") => {
LLVMFeature::with_dependency("f32mm", TargetFeatureFoldStrength::EnableOnly("neon"))
}
("aarch64", "f64mm") => {
LLVMFeature::with_dependency("f64mm", TargetFeatureFoldStrength::EnableOnly("neon"))
}
("aarch64", "fhm") => {
LLVMFeature::with_dependency("fp16fml", TargetFeatureFoldStrength::EnableOnly("neon"))
}
("aarch64", "fp16") => {
LLVMFeature::with_dependency("fullfp16", TargetFeatureFoldStrength::EnableOnly("neon"))
}
("aarch64", "jsconv") => {
LLVMFeature::with_dependency("jsconv", TargetFeatureFoldStrength::EnableOnly("neon"))
}
("aarch64", "sve") => {
LLVMFeature::with_dependency("sve", TargetFeatureFoldStrength::EnableOnly("neon"))
}
("aarch64", "sve2") => {
LLVMFeature::with_dependency("sve2", TargetFeatureFoldStrength::EnableOnly("neon"))
}
("aarch64", "sve2-aes") => {
LLVMFeature::with_dependency("sve2-aes", TargetFeatureFoldStrength::EnableOnly("neon"))
}
("aarch64", "sve2-sm4") => {
LLVMFeature::with_dependency("sve2-sm4", TargetFeatureFoldStrength::EnableOnly("neon"))
}
("aarch64", "sve2-sha3") => {
LLVMFeature::with_dependency("sve2-sha3", TargetFeatureFoldStrength::EnableOnly("neon"))
}
("aarch64", "sve2-bitperm") => LLVMFeature::with_dependency(
"sve2-bitperm",
TargetFeatureFoldStrength::EnableOnly("neon"),
),
("riscv32" | "riscv64", "fast-unaligned-access") if get_version().0 <= 17 => {
LLVMFeature::new("unaligned-scalar-mem")
}
("x86", s) if get_version().0 >= 18 && s.starts_with("avx512") => {
LLVMFeature::with_dependency(s, TargetFeatureFoldStrength::EnableOnly("evex512"))
}
(_, s) => LLVMFeature::new(s),
}
}
pub fn check_tied_features(
sess: &Session,
features: &FxHashMap<&str, bool>,
) -> Option<&'static [&'static str]> {
if !features.is_empty() {
for tied in sess.target.tied_target_features() {
let mut tied_iter = tied.iter();
let enabled = features.get(tied_iter.next().unwrap());
if tied_iter.any(|f| enabled != features.get(f)) {
return Some(tied);
}
}
}
return None;
}
pub fn target_features(sess: &Session, allow_unstable: bool) -> Vec<Symbol> {
let target_machine = create_informational_target_machine(sess);
sess.target
.supported_target_features()
.iter()
.filter_map(|&(feature, gate)| {
if sess.is_nightly_build() || allow_unstable || gate.is_stable() {
Some(feature)
} else {
None
}
})
.filter(|feature| {
for llvm_feature in to_llvm_features(sess, feature) {
let cstr = SmallCStr::new(llvm_feature);
if !unsafe { llvm::LLVMRustHasFeature(&target_machine, cstr.as_ptr()) } {
return false;
}
}
true
})
.map(|feature| Symbol::intern(feature))
.collect()
}
pub fn print_version() {
let (major, minor, patch) = get_version();
println!("LLVM version: {major}.{minor}.{patch}");
}
pub fn get_version() -> (u32, u32, u32) {
unsafe {
(llvm::LLVMRustVersionMajor(), llvm::LLVMRustVersionMinor(), llvm::LLVMRustVersionPatch())
}
}
pub fn print_passes() {
unsafe {
llvm::LLVMRustPrintPasses();
}
}
fn llvm_target_features(tm: &llvm::TargetMachine) -> Vec<(&str, &str)> {
let len = unsafe { llvm::LLVMRustGetTargetFeaturesCount(tm) };
let mut ret = Vec::with_capacity(len);
for i in 0..len {
unsafe {
let mut feature = ptr::null();
let mut desc = ptr::null();
llvm::LLVMRustGetTargetFeature(tm, i, &mut feature, &mut desc);
if feature.is_null() || desc.is_null() {
bug!("LLVM returned a `null` target feature string");
}
let feature = CStr::from_ptr(feature).to_str().unwrap_or_else(|e| {
bug!("LLVM returned a non-utf8 feature string: {}", e);
});
let desc = CStr::from_ptr(desc).to_str().unwrap_or_else(|e| {
bug!("LLVM returned a non-utf8 feature string: {}", e);
});
ret.push((feature, desc));
}
}
ret
}
fn print_target_features(out: &mut dyn PrintBackendInfo, sess: &Session, tm: &llvm::TargetMachine) {
let mut llvm_target_features = llvm_target_features(tm);
let mut known_llvm_target_features = FxHashSet::<&'static str>::default();
let mut rustc_target_features = sess
.target
.supported_target_features()
.iter()
.map(|(feature, _gate)| {
let llvm_feature = to_llvm_features(sess, *feature).llvm_feature_name;
let desc =
match llvm_target_features.binary_search_by_key(&llvm_feature, |(f, _d)| f).ok() {
Some(index) => {
known_llvm_target_features.insert(llvm_feature);
llvm_target_features[index].1
}
None => "",
};
(*feature, desc)
})
.collect::<Vec<_>>();
rustc_target_features.extend_from_slice(&[(
"crt-static",
"Enables C Run-time Libraries to be statically linked",
)]);
llvm_target_features.retain(|(f, _d)| !known_llvm_target_features.contains(f));
let max_feature_len = llvm_target_features
.iter()
.chain(rustc_target_features.iter())
.map(|(feature, _desc)| feature.len())
.max()
.unwrap_or(0);
writeln!(out, "Features supported by rustc for this target:");
for (feature, desc) in &rustc_target_features {
writeln!(out, " {feature:max_feature_len$} - {desc}.");
}
writeln!(out, "\nCode-generation features supported by LLVM for this target:");
for (feature, desc) in &llvm_target_features {
writeln!(out, " {feature:max_feature_len$} - {desc}.");
}
if llvm_target_features.is_empty() {
writeln!(out, " Target features listing is not supported by this LLVM version.");
}
writeln!(out, "\nUse +feature to enable a feature, or -feature to disable it.");
writeln!(out, "For example, rustc -C target-cpu=mycpu -C target-feature=+feature1,-feature2\n");
writeln!(out, "Code-generation features cannot be used in cfg or #[target_feature],");
writeln!(out, "and may be renamed or removed in a future version of LLVM or rustc.\n");
}
pub(crate) fn print(req: &PrintRequest, mut out: &mut dyn PrintBackendInfo, sess: &Session) {
require_inited();
let tm = create_informational_target_machine(sess);
match req.kind {
PrintKind::TargetCPUs => {
let cpu_cstring = CString::new(handle_native(sess.target.cpu.as_ref()))
.unwrap_or_else(|e| bug!("failed to convert to cstring: {}", e));
unsafe extern "C" fn callback(out: *mut c_void, string: *const c_char, len: usize) {
let out = &mut *(out as *mut &mut dyn PrintBackendInfo);
let bytes = slice::from_raw_parts(string as *const u8, len);
write!(out, "{}", String::from_utf8_lossy(bytes));
}
unsafe {
llvm::LLVMRustPrintTargetCPUs(
&tm,
cpu_cstring.as_ptr(),
callback,
std::ptr::addr_of_mut!(out) as *mut c_void,
);
}
}
PrintKind::TargetFeatures => print_target_features(out, sess, &tm),
_ => bug!("rustc_codegen_llvm can't handle print request: {:?}", req),
}
}
fn handle_native(name: &str) -> &str {
if name != "native" {
return name;
}
unsafe {
let mut len = 0;
let ptr = llvm::LLVMRustGetHostCPUName(&mut len);
str::from_utf8(slice::from_raw_parts(ptr as *const u8, len)).unwrap()
}
}
pub fn target_cpu(sess: &Session) -> &str {
match sess.opts.cg.target_cpu {
Some(ref name) => handle_native(name),
None => handle_native(sess.target.cpu.as_ref()),
}
}
pub(crate) fn global_llvm_features(sess: &Session, diagnostics: bool) -> Vec<String> {
let mut features = vec![];
match sess.opts.cg.target_cpu {
Some(ref s) if s == "native" => {
let features_string = unsafe {
let ptr = llvm::LLVMGetHostCPUFeatures();
let features_string = if !ptr.is_null() {
CStr::from_ptr(ptr)
.to_str()
.unwrap_or_else(|e| {
bug!("LLVM returned a non-utf8 features string: {}", e);
})
.to_owned()
} else {
bug!("could not allocate host CPU features, LLVM returned a `null` string");
};
llvm::LLVMDisposeMessage(ptr);
features_string
};
features.extend(features_string.split(',').map(String::from));
}
Some(_) | None => {}
};
features.extend(
sess.target
.features
.split(',')
.filter(|v| !v.is_empty() && backend_feature_name(sess, v).is_some())
.map(String::from),
);
if wants_wasm_eh(sess) && sess.panic_strategy() == PanicStrategy::Unwind {
features.push("+exception-handling".into());
}
let supported_features = sess.target.supported_target_features();
let mut featsmap = FxHashMap::default();
let feats = sess
.opts
.cg
.target_feature
.split(',')
.filter_map(|s| {
let enable_disable = match s.chars().next() {
None => return None,
Some(c @ ('+' | '-')) => c,
Some(_) => {
if diagnostics {
sess.dcx().emit_warn(UnknownCTargetFeaturePrefix { feature: s });
}
return None;
}
};
let feature = backend_feature_name(sess, s)?;
if diagnostics {
let feature_state = supported_features.iter().find(|&&(v, _)| v == feature);
if feature_state.is_none() {
let rust_feature = supported_features.iter().find_map(|&(rust_feature, _)| {
let llvm_features = to_llvm_features(sess, rust_feature);
if llvm_features.contains(feature) && !llvm_features.contains(rust_feature)
{
Some(rust_feature)
} else {
None
}
});
let unknown_feature = if let Some(rust_feature) = rust_feature {
UnknownCTargetFeature {
feature,
rust_feature: PossibleFeature::Some { rust_feature },
}
} else {
UnknownCTargetFeature { feature, rust_feature: PossibleFeature::None }
};
sess.dcx().emit_warn(unknown_feature);
} else if feature_state
.is_some_and(|(_name, feature_gate)| !feature_gate.is_stable())
{
sess.dcx().emit_warn(UnstableCTargetFeature { feature });
}
}
if diagnostics {
featsmap.insert(feature, enable_disable == '+');
}
if RUSTC_SPECIFIC_FEATURES.contains(&feature) {
return None;
}
let llvm_feature = to_llvm_features(sess, feature);
Some(
std::iter::once(format!("{}{}", enable_disable, llvm_feature.llvm_feature_name))
.chain(llvm_feature.dependency.into_iter().filter_map(move |feat| {
match (enable_disable, feat) {
('-' | '+', TargetFeatureFoldStrength::Both(f))
| ('+', TargetFeatureFoldStrength::EnableOnly(f)) => {
Some(format!("{enable_disable}{f}"))
}
_ => None,
}
})),
)
})
.flatten();
features.extend(feats);
if diagnostics && let Some(f) = check_tied_features(sess, &featsmap) {
sess.dcx().emit_err(TargetFeatureDisableOrEnable {
features: f,
span: None,
missing_features: None,
});
}
features
}
fn backend_feature_name<'a>(sess: &Session, s: &'a str) -> Option<&'a str> {
let feature = s
.strip_prefix(&['+', '-'][..])
.unwrap_or_else(|| sess.dcx().emit_fatal(InvalidTargetFeaturePrefix { feature: s }));
if RUSTC_SPECIFIC_FEATURES.contains(&feature) {
return None;
}
Some(feature)
}
pub fn tune_cpu(sess: &Session) -> Option<&str> {
let name = sess.opts.unstable_opts.tune_cpu.as_ref()?;
Some(handle_native(name))
}