// Copyright 2014, VIXL authors // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are met: // // * Redistributions of source code must retain the above copyright notice, // this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above copyright notice, // this list of conditions and the following disclaimer in the documentation // and/or other materials provided with the distribution. // * Neither the name of ARM Limited nor the names of its contributors may be // used to endorse or promote products derived from this software without // specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS CONTRIBUTORS "AS IS" AND // ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED // WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE // DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE // FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL // DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER // CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, // OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #ifndef VIXL_CPU_AARCH64_H #define VIXL_CPU_AARCH64_H #include "../cpu-features.h" #include "../globals-vixl.h" #include "instructions-aarch64.h" #ifndef VIXL_INCLUDE_TARGET_AARCH64 // The supporting .cc file is only compiled when the A64 target is selected. // Throw an explicit error now to avoid a harder-to-debug linker error later. // // These helpers _could_ work on any AArch64 host, even when generating AArch32 // code, but we don't support this because the available features may differ // between AArch32 and AArch64 on the same platform, so basing AArch32 code // generation on aarch64::CPU features is probably broken. #error cpu-aarch64.h requires VIXL_INCLUDE_TARGET_AARCH64 (scons target=a64). #endif namespace vixl { namespace aarch64 { // A CPU ID register, for use with CPUFeatures::kIDRegisterEmulation. Fields // specific to each register are described in relevant subclasses. class IDRegister { protected: explicit IDRegister(uint64_t value = 0) : value_(value) {} class Field { public: enum Type { kUnsigned, kSigned }; // This needs to be constexpr so that fields have "constant initialisation". // This avoids initialisation order problems when these values are used to // (dynamically) initialise static variables, etc. explicit constexpr Field(int lsb, Type type = kUnsigned) : lsb_(lsb), type_(type) {} static const int kMaxWidthInBits = 4; int GetWidthInBits() const { // All current ID fields have four bits. return kMaxWidthInBits; } int GetLsb() const { return lsb_; } int GetMsb() const { return lsb_ + GetWidthInBits() - 1; } Type GetType() const { return type_; } private: int lsb_; Type type_; }; public: // Extract the specified field, performing sign-extension for signed fields. // This allows us to implement the 'value >= number' detection mechanism // recommended by the Arm ARM, for both signed and unsigned fields. int Get(Field field) const; private: uint64_t value_; }; class AA64PFR0 : public IDRegister { public: explicit AA64PFR0(uint64_t value) : IDRegister(value) {} CPUFeatures GetCPUFeatures() const; private: static const Field kFP; static const Field kAdvSIMD; static const Field kRAS; static const Field kSVE; static const Field kDIT; static const Field kCSV2; static const Field kCSV3; }; class AA64PFR1 : public IDRegister { public: explicit AA64PFR1(uint64_t value) : IDRegister(value) {} CPUFeatures GetCPUFeatures() const; private: static const Field kBT; static const Field kSSBS; static const Field kMTE; }; class AA64ISAR0 : public IDRegister { public: explicit AA64ISAR0(uint64_t value) : IDRegister(value) {} CPUFeatures GetCPUFeatures() const; private: static const Field kAES; static const Field kSHA1; static const Field kSHA2; static const Field kCRC32; static const Field kAtomic; static const Field kRDM; static const Field kSHA3; static const Field kSM3; static const Field kSM4; static const Field kDP; static const Field kFHM; static const Field kTS; static const Field kRNDR; }; class AA64ISAR1 : public IDRegister { public: explicit AA64ISAR1(uint64_t value) : IDRegister(value) {} CPUFeatures GetCPUFeatures() const; private: static const Field kDPB; static const Field kAPA; static const Field kAPI; static const Field kJSCVT; static const Field kFCMA; static const Field kLRCPC; static const Field kGPA; static const Field kGPI; static const Field kFRINTTS; static const Field kSB; static const Field kSPECRES; static const Field kBF16; static const Field kDGH; static const Field kI8MM; }; class AA64ISAR2 : public IDRegister { public: explicit AA64ISAR2(uint64_t value) : IDRegister(value) {} CPUFeatures GetCPUFeatures() const; private: static const Field kRPRES; }; class AA64MMFR0 : public IDRegister { public: explicit AA64MMFR0(uint64_t value) : IDRegister(value) {} CPUFeatures GetCPUFeatures() const; private: static const Field kECV; }; class AA64MMFR1 : public IDRegister { public: explicit AA64MMFR1(uint64_t value) : IDRegister(value) {} CPUFeatures GetCPUFeatures() const; private: static const Field kLO; static const Field kAFP; }; class AA64MMFR2 : public IDRegister { public: explicit AA64MMFR2(uint64_t value) : IDRegister(value) {} CPUFeatures GetCPUFeatures() const; private: static const Field kAT; }; class AA64ZFR0 : public IDRegister { public: explicit AA64ZFR0(uint64_t value) : IDRegister(value) {} CPUFeatures GetCPUFeatures() const; private: static const Field kSVEver; static const Field kAES; static const Field kBitPerm; static const Field kBF16; static const Field kSHA3; static const Field kSM4; static const Field kI8MM; static const Field kF32MM; static const Field kF64MM; }; class CPU { public: // Initialise CPU support. static void SetUp(); // Ensures the data at a given address and with a given size is the same for // the I and D caches. I and D caches are not automatically coherent on ARM // so this operation is required before any dynamically generated code can // safely run. static void EnsureIAndDCacheCoherency(void *address, size_t length); // Read and interpret the ID registers. This requires // CPUFeatures::kIDRegisterEmulation, and therefore cannot be called on // non-AArch64 platforms. static CPUFeatures InferCPUFeaturesFromIDRegisters(); // Read and interpret CPUFeatures reported by the OS. Failed queries (or // unsupported platforms) return an empty list. Note that this is // indistinguishable from a successful query on a platform that advertises no // features. // // Non-AArch64 hosts are considered to be unsupported platforms, and this // function returns an empty list. static CPUFeatures InferCPUFeaturesFromOS( CPUFeatures::QueryIDRegistersOption option = CPUFeatures::kQueryIDRegistersIfAvailable); // Query the SVE vector length. This requires CPUFeatures::kSVE. static int ReadSVEVectorLengthInBits(); // Handle tagged pointers. template static T SetPointerTag(T pointer, uint64_t tag) { VIXL_ASSERT(IsUintN(kAddressTagWidth, tag)); // Use C-style casts to get static_cast behaviour for integral types (T), // and reinterpret_cast behaviour for other types. uint64_t raw = (uint64_t)pointer; VIXL_STATIC_ASSERT(sizeof(pointer) == sizeof(raw)); raw = (raw & ~kAddressTagMask) | (tag << kAddressTagOffset); return (T)raw; } template static uint64_t GetPointerTag(T pointer) { // Use C-style casts to get static_cast behaviour for integral types (T), // and reinterpret_cast behaviour for other types. uint64_t raw = (uint64_t)pointer; VIXL_STATIC_ASSERT(sizeof(pointer) == sizeof(raw)); return (raw & kAddressTagMask) >> kAddressTagOffset; } private: #define VIXL_AARCH64_ID_REG_LIST(V) \ V(AA64PFR0, "ID_AA64PFR0_EL1") \ V(AA64PFR1, "ID_AA64PFR1_EL1") \ V(AA64ISAR0, "ID_AA64ISAR0_EL1") \ V(AA64ISAR1, "ID_AA64ISAR1_EL1") \ V(AA64MMFR0, "ID_AA64MMFR0_EL1") \ V(AA64MMFR1, "ID_AA64MMFR1_EL1") \ /* These registers are RES0 in the baseline Arm8.0. We can always safely */ \ /* read them, but some compilers don't accept the symbolic names. */ \ V(AA64ISAR2, "S3_0_C0_C6_2") \ V(AA64MMFR2, "S3_0_C0_C7_2") \ V(AA64ZFR0, "S3_0_C0_C4_4") #define VIXL_READ_ID_REG(NAME, MRS_ARG) static NAME Read##NAME(); // On native AArch64 platforms, read the named CPU ID registers. These require // CPUFeatures::kIDRegisterEmulation, and should not be called on non-AArch64 // platforms. VIXL_AARCH64_ID_REG_LIST(VIXL_READ_ID_REG) #undef VIXL_READ_ID_REG // Return the content of the cache type register. static uint32_t GetCacheType(); // I and D cache line size in bytes. static unsigned icache_line_size_; static unsigned dcache_line_size_; }; } // namespace aarch64 } // namespace vixl #endif // VIXL_CPU_AARCH64_H