//! Run-time feature detection for Aarch64 on any OS that emulates the mrs instruction. //! //! On FreeBSD >= 12.0, Linux >= 4.11 and other operating systems, it is possible to use //! privileged system registers from userspace to check CPU feature support. //! //! AArch64 system registers ID_AA64ISAR0_EL1, ID_AA64PFR0_EL1, ID_AA64ISAR1_EL1 //! have bits dedicated to features like AdvSIMD, CRC32, AES, atomics (LSE), etc. //! Each part of the register indicates the level of support for a certain feature, e.g. //! when ID_AA64ISAR0_EL1\[7:4\] is >= 1, AES is supported; when it's >= 2, PMULL is supported. //! //! For proper support of [SoCs where different cores have different capabilities](https://medium.com/@jadr2ddude/a-big-little-problem-a-tale-of-big-little-gone-wrong-e7778ce744bb), //! the OS has to always report only the features supported by all cores, like [FreeBSD does](https://reviews.freebsd.org/D17137#393947). //! //! References: //! //! - [Zircon implementation](https://fuchsia.googlesource.com/zircon/+/master/kernel/arch/arm64/feature.cpp) //! - [Linux documentation](https://www.kernel.org/doc/Documentation/arm64/cpu-feature-registers.txt) use crate::detect::{cache, Feature}; use core::arch::asm; /// Try to read the features from the system registers. /// /// This will cause SIGILL if the current OS is not trapping the mrs instruction. pub(crate) fn detect_features() -> cache::Initializer { let mut value = cache::Initializer::default(); { let mut enable_feature = |f, enable| { if enable { value.set(f as u32); } }; // ID_AA64ISAR0_EL1 - Instruction Set Attribute Register 0 let aa64isar0: u64; unsafe { asm!( "mrs {}, ID_AA64ISAR0_EL1", out(reg) aa64isar0, options(pure, nomem, preserves_flags, nostack) ); } enable_feature(Feature::pmull, bits_shift(aa64isar0, 7, 4) >= 2); enable_feature(Feature::tme, bits_shift(aa64isar0, 27, 24) == 1); enable_feature(Feature::lse, bits_shift(aa64isar0, 23, 20) >= 1); enable_feature(Feature::crc, bits_shift(aa64isar0, 19, 16) >= 1); // ID_AA64PFR0_EL1 - Processor Feature Register 0 let aa64pfr0: u64; unsafe { asm!( "mrs {}, ID_AA64PFR0_EL1", out(reg) aa64pfr0, options(pure, nomem, preserves_flags, nostack) ); } let fp = bits_shift(aa64pfr0, 19, 16) < 0xF; let fphp = bits_shift(aa64pfr0, 19, 16) >= 1; let asimd = bits_shift(aa64pfr0, 23, 20) < 0xF; let asimdhp = bits_shift(aa64pfr0, 23, 20) >= 1; enable_feature(Feature::fp, fp); enable_feature(Feature::fp16, fphp); // SIMD support requires float support - if half-floats are // supported, it also requires half-float support: enable_feature(Feature::asimd, fp && asimd && (!fphp | asimdhp)); // SIMD extensions require SIMD support: enable_feature(Feature::aes, asimd && bits_shift(aa64isar0, 7, 4) >= 1); let sha1 = bits_shift(aa64isar0, 11, 8) >= 1; let sha2 = bits_shift(aa64isar0, 15, 12) >= 1; enable_feature(Feature::sha2, asimd && sha1 && sha2); enable_feature(Feature::rdm, asimd && bits_shift(aa64isar0, 31, 28) >= 1); enable_feature( Feature::dotprod, asimd && bits_shift(aa64isar0, 47, 44) >= 1, ); enable_feature(Feature::sve, asimd && bits_shift(aa64pfr0, 35, 32) >= 1); // ID_AA64ISAR1_EL1 - Instruction Set Attribute Register 1 let aa64isar1: u64; unsafe { asm!( "mrs {}, ID_AA64ISAR1_EL1", out(reg) aa64isar1, options(pure, nomem, preserves_flags, nostack) ); } // Check for either APA or API field enable_feature(Feature::paca, bits_shift(aa64isar1, 11, 4) >= 1); enable_feature(Feature::rcpc, bits_shift(aa64isar1, 23, 20) >= 1); // Check for either GPA or GPI field enable_feature(Feature::pacg, bits_shift(aa64isar1, 31, 24) >= 1); } value } #[inline] fn bits_shift(x: u64, high: usize, low: usize) -> u64 { (x >> low) & ((1 << (high - low + 1)) - 1) }