rustc_codegen_llvm: Filter out unavailable LLVM features

Convert to_llvm_features to return Option<LLVMFeature> so that it can
return None if the requested feature is not available for the current
LLVM version.

Add match rules to filter out aarch64 features not available in LLVM 17.

compiler/rustc_codegen_llvm/src/attributes.rs

@@ -521,9 +521,10 @@ pub(crate) fn llfn_attrs_from_instance<'ll, 'tcx>(
 
     let function_features = function_features
         .iter()
-        .flat_map(|feat| {
-            llvm_util::to_llvm_features(cx.tcx.sess, feat).into_iter().map(|f| format!("+{f}"))
-        })
+        // Convert to LLVMFeatures and filter out unavailable ones
+        .flat_map(|feat| llvm_util::to_llvm_features(cx.tcx.sess, feat))
+        // Convert LLVMFeatures & dependencies to +<feats>s
+        .flat_map(|feat| feat.into_iter().map(|f| format!("+{f}")))
         .chain(codegen_fn_attrs.instruction_set.iter().map(|x| match x {
             InstructionSetAttr::ArmA32 => "-thumb-mode".to_string(),
             InstructionSetAttr::ArmT32 => "+thumb-mode".to_string(),

compiler/rustc_codegen_llvm/src/llvm_util.rs

@@ -209,7 +209,7 @@ impl<'a> IntoIterator for LLVMFeature<'a> {
 // Though note that Rust can also be build with an external precompiled version of LLVM
 // which might lead to failures if the oldest tested / supported LLVM version
 // doesn't yet support the relevant intrinsics
-pub(crate) fn to_llvm_features<'a>(sess: &Session, s: &'a str) -> LLVMFeature<'a> {
+pub(crate) fn to_llvm_features<'a>(sess: &Session, s: &'a str) -> Option<LLVMFeature<'a>> {
     let arch = if sess.target.arch == "x86_64" {
         "x86"
     } else if sess.target.arch == "arm64ec" {
@@ -218,42 +218,59 @@ pub(crate) fn to_llvm_features<'a>(sess: &Session, s: &'a str) -> LLVMFeature<'a
         &*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", "sve-b16b16") => LLVMFeature::new("b16b16"),
-        ("aarch64", "flagm2") => LLVMFeature::new("altnzcv"),
+        ("x86", "sse4.2") => Some(LLVMFeature::with_dependency(
+            "sse4.2",
+            TargetFeatureFoldStrength::EnableOnly("crc32"),
+        )),
+        ("x86", "pclmulqdq") => Some(LLVMFeature::new("pclmul")),
+        ("x86", "rdrand") => Some(LLVMFeature::new("rdrnd")),
+        ("x86", "bmi1") => Some(LLVMFeature::new("bmi")),
+        ("x86", "cmpxchg16b") => Some(LLVMFeature::new("cx16")),
+        ("x86", "lahfsahf") => Some(LLVMFeature::new("sahf")),
+        ("aarch64", "rcpc2") => Some(LLVMFeature::new("rcpc-immo")),
+        ("aarch64", "dpb") => Some(LLVMFeature::new("ccpp")),
+        ("aarch64", "dpb2") => Some(LLVMFeature::new("ccdp")),
+        ("aarch64", "frintts") => Some(LLVMFeature::new("fptoint")),
+        ("aarch64", "fcma") => Some(LLVMFeature::new("complxnum")),
+        ("aarch64", "pmuv3") => Some(LLVMFeature::new("perfmon")),
+        ("aarch64", "paca") => Some(LLVMFeature::new("pauth")),
+        ("aarch64", "pacg") => Some(LLVMFeature::new("pauth")),
+        ("aarch64", "sve-b16b16") => Some(LLVMFeature::new("b16b16")),
+        ("aarch64", "flagm2") => Some(LLVMFeature::new("altnzcv")),
         // Rust ties fp and neon together.
         ("aarch64", "neon") => {
-            LLVMFeature::with_dependency("neon", TargetFeatureFoldStrength::Both("fp-armv8"))
+            Some(LLVMFeature::with_dependency("neon", TargetFeatureFoldStrength::Both("fp-armv8")))
         }
         // In LLVM neon implicitly enables fp, but we manually enable
         // neon when a feature only implicitly enables fp
-        ("aarch64", "fhm") => LLVMFeature::new("fp16fml"),
-        ("aarch64", "fp16") => LLVMFeature::new("fullfp16"),
+        ("aarch64", "fhm") => Some(LLVMFeature::new("fp16fml")),
+        ("aarch64", "fp16") => Some(LLVMFeature::new("fullfp16")),
+        // Filter out features that are not supported by the current LLVM version
+        ("aarch64", "faminmax") if get_version().0 < 18 => None,
+        ("aarch64", "fp8") if get_version().0 < 18 => None,
+        ("aarch64", "fp8dot2") if get_version().0 < 18 => None,
+        ("aarch64", "fp8dot4") if get_version().0 < 18 => None,
+        ("aarch64", "fp8fma") if get_version().0 < 18 => None,
+        ("aarch64", "fpmr") if get_version().0 != 18 => None,
+        ("aarch64", "lut") if get_version().0 < 18 => None,
+        ("aarch64", "sme-f8f16") if get_version().0 < 18 => None,
+        ("aarch64", "sme-f8f32") if get_version().0 < 18 => None,
+        ("aarch64", "sme-fa64") if get_version().0 < 18 => None,
+        ("aarch64", "sme-lutv2") if get_version().0 < 18 => None,
+        ("aarch64", "ssve-fp8dot2") if get_version().0 < 18 => None,
+        ("aarch64", "ssve-fp8dot4") if get_version().0 < 18 => None,
+        ("aarch64", "ssve-fp8fma") if get_version().0 < 18 => None,
+        ("aarch64", "v9.5a") if get_version().0 < 18 => None,
         // In LLVM 18, `unaligned-scalar-mem` was merged with `unaligned-vector-mem` into a single feature called
         // `fast-unaligned-access`. In LLVM 19, it was split back out.
         ("riscv32" | "riscv64", "unaligned-scalar-mem") if get_version().0 == 18 => {
-            LLVMFeature::new("fast-unaligned-access")
+            Some(LLVMFeature::new("fast-unaligned-access"))
         }
         // For LLVM 18, enable the evex512 target feature if a avx512 target feature is enabled.
         ("x86", s) if get_version().0 >= 18 && s.starts_with("avx512") => {
-            LLVMFeature::with_dependency(s, TargetFeatureFoldStrength::EnableOnly("evex512"))
+            Some(LLVMFeature::with_dependency(s, TargetFeatureFoldStrength::EnableOnly("evex512")))
         }
-        (_, s) => LLVMFeature::new(s),
+        (_, s) => Some(LLVMFeature::new(s)),
     }
 }
 
@@ -293,13 +310,17 @@ pub fn target_features(sess: &Session, allow_unstable: bool) -> Vec<Symbol> {
                     return true;
                 }
                 // check that all features in a given smallvec are enabled
-                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;
+                if let Some(feat) = to_llvm_features(sess, feature) {
+                    for llvm_feature in feat {
+                        let cstr = SmallCStr::new(llvm_feature);
+                        if !unsafe { llvm::LLVMRustHasFeature(&target_machine, cstr.as_ptr()) } {
+                            return false;
+                        }
                     }
+                    true
+                } else {
+                    false
                 }
-                true
             })
             .map(|(feature, _, _)| Symbol::intern(feature)),
     );
@@ -388,9 +409,9 @@ fn print_target_features(out: &mut String, sess: &Session, tm: &llvm::TargetMach
         .target
         .supported_target_features()
         .iter()
-        .map(|(feature, _gate, _implied)| {
+        .filter_map(|(feature, _gate, _implied)| {
             // LLVM asserts that these are sorted. LLVM and Rust both use byte comparison for these strings.
-            let llvm_feature = to_llvm_features(sess, *feature).llvm_feature_name;
+            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) => {
@@ -400,7 +421,7 @@ fn print_target_features(out: &mut String, sess: &Session, tm: &llvm::TargetMach
                     None => "",
                 };
 
-            (*feature, desc)
+            Some((*feature, desc))
         })
         .collect::<Vec<_>>();
 
@@ -597,7 +618,7 @@ pub(crate) fn global_llvm_features(
                     if feature_state.is_none() {
                         let rust_feature =
                             supported_features.iter().find_map(|&(rust_feature, _, _)| {
-                                let llvm_features = to_llvm_features(sess, rust_feature);
+                                let llvm_features = to_llvm_features(sess, rust_feature)?;
                                 if llvm_features.contains(feature)
                                     && !llvm_features.contains(rust_feature)
                                 {
@@ -643,7 +664,7 @@ pub(crate) fn global_llvm_features(
                 // passing requests down to LLVM. This means that all in-language
                 // features also work on the command line instead of having two
                 // different names when the LLVM name and the Rust name differ.
-                let llvm_feature = to_llvm_features(sess, feature);
+                let llvm_feature = to_llvm_features(sess, feature)?;
 
                 Some(
                     std::iter::once(format!(
@@ -693,6 +714,9 @@ 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 s.is_empty() {
+        return None;
+    }
     // Rustc-specific feature requests like `+crt-static` or `-crt-static`
     // are not passed down to LLVM.
     if RUSTC_SPECIFIC_FEATURES.contains(&feature) {