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cpu-features.h
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cpu-features.h
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// Copyright 2018, 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_FEATURES_H
#define VIXL_CPU_FEATURES_H
#include <bitset>
#include <ostream>
#include "globals-vixl.h"
namespace vixl {
// VIXL aims to handle and detect all architectural features that are likely to
// influence code-generation decisions at EL0 (user-space).
//
// - There may be multiple VIXL feature flags for a given architectural
// extension. This occurs where the extension allow components to be
// implemented independently, or where kernel support is needed, and is likely
// to be fragmented.
//
// For example, Pointer Authentication (kPAuth*) has a separate feature flag
// for access to PACGA, and to indicate that the QARMA algorithm is
// implemented.
//
// - Conversely, some extensions have configuration options that do not affect
// EL0, so these are presented as a single VIXL feature.
//
// For example, the RAS extension (kRAS) has several variants, but the only
// feature relevant to VIXL is the addition of the ESB instruction so we only
// need a single flag.
//
// - VIXL offers separate flags for separate features even if they're
// architecturally linked.
//
// For example, the architecture requires kFPHalf and kNEONHalf to be equal,
// but they have separate hardware ID register fields so VIXL presents them as
// separate features.
//
// - VIXL can detect every feature for which it can generate code.
//
// - VIXL can detect some features for which it cannot generate code.
//
// The CPUFeatures::Feature enum — derived from the macro list below — is
// frequently extended. New features may be added to the list at any point, and
// no assumptions should be made about the numerical values assigned to each
// enum constant. The symbolic names can be considered to be stable.
//
// The debug descriptions are used only for debug output. The 'cpuinfo' strings
// are informative; VIXL does not use /proc/cpuinfo for feature detection.
// clang-format off
#define VIXL_CPU_FEATURE_LIST(V) \
/* If set, the OS traps and emulates MRS accesses to relevant (EL1) ID_* */ \
/* registers, so that the detailed feature registers can be read */ \
/* directly. */ \
\
/* Constant name Debug description Linux 'cpuinfo' string. */ \
V(kIDRegisterEmulation, "ID register emulation", "cpuid") \
\
V(kFP, "FP", "fp") \
V(kNEON, "NEON", "asimd") \
V(kCRC32, "CRC32", "crc32") \
V(kDGH, "DGH", "dgh") \
/* Speculation control features. */ \
V(kCSV2, "CSV2", NULL) \
V(kSCXTNUM, "SCXTNUM", NULL) \
V(kCSV3, "CSV3", NULL) \
V(kSB, "SB", "sb") \
V(kSPECRES, "SPECRES", NULL) \
V(kSSBS, "SSBS", NULL) \
V(kSSBSControl, "SSBS (PSTATE control)", "ssbs") \
/* Cryptographic support instructions. */ \
V(kAES, "AES", "aes") \
V(kSHA1, "SHA1", "sha1") \
V(kSHA2, "SHA2", "sha2") \
/* A form of PMULL{2} with a 128-bit (1Q) result. */ \
V(kPmull1Q, "Pmull1Q", "pmull") \
/* Atomic operations on memory: CAS, LDADD, STADD, SWP, etc. */ \
V(kAtomics, "Atomics", "atomics") \
/* Limited ordering regions: LDLAR, STLLR and their variants. */ \
V(kLORegions, "LORegions", NULL) \
/* Rounding doubling multiply add/subtract: SQRDMLAH and SQRDMLSH. */ \
V(kRDM, "RDM", "asimdrdm") \
/* Scalable Vector Extension. */ \
V(kSVE, "SVE", "sve") \
V(kSVEF64MM, "SVE F64MM", "svef64mm") \
V(kSVEF32MM, "SVE F32MM", "svef32mm") \
V(kSVEI8MM, "SVE I8MM", "svei8imm") \
V(kSVEBF16, "SVE BFloat16", "svebf16") \
/* SDOT and UDOT support (in NEON). */ \
V(kDotProduct, "DotProduct", "asimddp") \
/* Int8 matrix multiplication (in NEON). */ \
V(kI8MM, "NEON I8MM", "i8mm") \
/* Half-precision (FP16) support for FP and NEON, respectively. */ \
V(kFPHalf, "FPHalf", "fphp") \
V(kNEONHalf, "NEONHalf", "asimdhp") \
/* BFloat16 support (in both FP and NEON.) */ \
V(kBF16, "FP/NEON BFloat 16", "bf16") \
/* The RAS extension, including the ESB instruction. */ \
V(kRAS, "RAS", NULL) \
/* Data cache clean to the point of persistence: DC CVAP. */ \
V(kDCPoP, "DCPoP", "dcpop") \
/* Data cache clean to the point of deep persistence: DC CVADP. */ \
V(kDCCVADP, "DCCVADP", "dcpodp") \
/* Cryptographic support instructions. */ \
V(kSHA3, "SHA3", "sha3") \
V(kSHA512, "SHA512", "sha512") \
V(kSM3, "SM3", "sm3") \
V(kSM4, "SM4", "sm4") \
/* Pointer authentication for addresses. */ \
V(kPAuth, "PAuth", "paca") \
/* Pointer authentication for addresses uses QARMA. */ \
V(kPAuthQARMA, "PAuthQARMA", NULL) \
/* Generic authentication (using the PACGA instruction). */ \
V(kPAuthGeneric, "PAuthGeneric", "pacg") \
/* Generic authentication uses QARMA. */ \
V(kPAuthGenericQARMA, "PAuthGenericQARMA", NULL) \
/* JavaScript-style FP -> integer conversion instruction: FJCVTZS. */ \
V(kJSCVT, "JSCVT", "jscvt") \
/* Complex number support for NEON: FCMLA and FCADD. */ \
V(kFcma, "Fcma", "fcma") \
/* RCpc-based model (for weaker release consistency): LDAPR and variants. */ \
V(kRCpc, "RCpc", "lrcpc") \
V(kRCpcImm, "RCpc (imm)", "ilrcpc") \
/* Flag manipulation instructions: SETF{8,16}, CFINV, RMIF. */ \
V(kFlagM, "FlagM", "flagm") \
/* Unaligned single-copy atomicity. */ \
V(kUSCAT, "USCAT", "uscat") \
/* FP16 fused multiply-add or -subtract long: FMLAL{2}, FMLSL{2}. */ \
V(kFHM, "FHM", "asimdfhm") \
/* Data-independent timing (for selected instructions). */ \
V(kDIT, "DIT", "dit") \
/* Branch target identification. */ \
V(kBTI, "BTI", "bti") \
/* Flag manipulation instructions: {AX,XA}FLAG */ \
V(kAXFlag, "AXFlag", "flagm2") \
/* Random number generation extension, */ \
V(kRNG, "RNG", "rng") \
/* Floating-point round to {32,64}-bit integer. */ \
V(kFrintToFixedSizedInt,"Frint (bounded)", "frint") \
/* Memory Tagging Extension. */ \
V(kMTEInstructions, "MTE (EL0 instructions)", NULL) \
V(kMTE, "MTE", NULL) \
V(kMTE3, "MTE (asymmetric)", "mte3") \
/* PAuth extensions. */ \
V(kPAuthEnhancedPAC, "PAuth EnhancedPAC", NULL) \
V(kPAuthEnhancedPAC2, "PAuth EnhancedPAC2", NULL) \
V(kPAuthFPAC, "PAuth FPAC", NULL) \
V(kPAuthFPACCombined, "PAuth FPACCombined", NULL) \
/* Scalable Vector Extension 2. */ \
V(kSVE2, "SVE2", "sve2") \
V(kSVESM4, "SVE SM4", "svesm4") \
V(kSVESHA3, "SVE SHA3", "svesha3") \
V(kSVEBitPerm, "SVE BitPerm", "svebitperm") \
V(kSVEAES, "SVE AES", "sveaes") \
V(kSVEPmull128, "SVE Pmull128", "svepmull") \
/* Alternate floating-point behavior */ \
V(kAFP, "AFP", "afp") \
/* Enhanced Counter Virtualization */ \
V(kECV, "ECV", "ecv") \
/* Increased precision of Reciprocal Estimate and Square Root Estimate */ \
V(kRPRES, "RPRES", "rpres") \
/* Memory operation instructions, for memcpy, memset */ \
V(kMOPS, "Memory ops", NULL) \
/* Scalable Matrix Extension (SME) */ \
V(kSME, "SME", "sme") \
V(kSMEi16i64, "SME (i16i64)", "smei16i64") \
V(kSMEf64f64, "SME (f64f64)", "smef64f64") \
V(kSMEi8i32, "SME (i8i32)", "smei8i32") \
V(kSMEf16f32, "SME (f16f32)", "smef16f32") \
V(kSMEb16f32, "SME (b16f32)", "smeb16f32") \
V(kSMEf32f32, "SME (f32f32)", "smef32f32") \
V(kSMEfa64, "SME (fa64)", "smefa64") \
/* WFET and WFIT instruction support */ \
V(kWFXT, "WFXT", "wfxt") \
/* Extended BFloat16 instructions */ \
V(kEBF16, "EBF16", "ebf16") \
V(kSVE_EBF16, "EBF16 (SVE)", "sveebf16") \
V(kCSSC, "CSSC", "cssc") \
V(kGCS, "GCS", "gcs")
// clang-format on
class CPUFeaturesConstIterator;
// A representation of the set of features known to be supported by the target
// device. Each feature is represented by a simple boolean flag.
//
// - When the Assembler is asked to assemble an instruction, it asserts (in
// debug mode) that the necessary features are available.
//
// - TODO: The MacroAssembler relies on the Assembler's assertions, but in
// some cases it may be useful for macros to generate a fall-back sequence
// in case features are not available.
//
// - The Simulator assumes by default that all features are available, but it
// is possible to configure it to fail if the simulated code uses features
// that are not enabled.
//
// The Simulator also offers pseudo-instructions to allow features to be
// enabled and disabled dynamically. This is useful when you want to ensure
// that some features are constrained to certain areas of code.
//
// - The base Disassembler knows nothing about CPU features, but the
// PrintDisassembler can be configured to annotate its output with warnings
// about unavailable features. The Simulator uses this feature when
// instruction trace is enabled.
//
// - The Decoder-based components -- the Simulator and PrintDisassembler --
// rely on a CPUFeaturesAuditor visitor. This visitor keeps a list of
// features actually encountered so that a large block of code can be
// examined (either directly or through simulation), and the required
// features analysed later.
//
// Expected usage:
//
// // By default, VIXL uses CPUFeatures::AArch64LegacyBaseline(), for
// // compatibility with older version of VIXL.
// MacroAssembler masm;
//
// // Generate code only for the current CPU.
// masm.SetCPUFeatures(CPUFeatures::InferFromOS());
//
// // Turn off feature checking entirely.
// masm.SetCPUFeatures(CPUFeatures::All());
//
// Feature set manipulation:
//
// CPUFeatures f; // The default constructor gives an empty set.
// // Individual features can be added (or removed).
// f.Combine(CPUFeatures::kFP, CPUFeatures::kNEON, CPUFeatures::AES);
// f.Remove(CPUFeatures::kNEON);
//
// // Some helpers exist for extensions that provide several features.
// f.Remove(CPUFeatures::All());
// f.Combine(CPUFeatures::AArch64LegacyBaseline());
//
// // Chained construction is also possible.
// CPUFeatures g =
// f.With(CPUFeatures::kPmull1Q).Without(CPUFeatures::kCRC32);
//
// // Features can be queried. Where multiple features are given, they are
// // combined with logical AND.
// if (h.Has(CPUFeatures::kNEON)) { ... }
// if (h.Has(CPUFeatures::kFP, CPUFeatures::kNEON)) { ... }
// if (h.Has(g)) { ... }
// // If the empty set is requested, the result is always 'true'.
// VIXL_ASSERT(h.Has(CPUFeatures()));
//
// // For debug and reporting purposes, features can be enumerated (or
// // printed directly):
// std::cout << CPUFeatures::kNEON; // Prints something like "NEON".
// std::cout << f; // Prints something like "FP, NEON, CRC32".
class CPUFeatures {
public:
// clang-format off
// Individual features.
// These should be treated as opaque tokens. User code should not rely on
// specific numeric values or ordering.
enum Feature {
// Refer to VIXL_CPU_FEATURE_LIST (above) for the list of feature names that
// this class supports.
kNone = -1,
#define VIXL_DECLARE_FEATURE(SYMBOL, NAME, CPUINFO) SYMBOL,
VIXL_CPU_FEATURE_LIST(VIXL_DECLARE_FEATURE)
#undef VIXL_DECLARE_FEATURE
kNumberOfFeatures
};
// clang-format on
// By default, construct with no features enabled.
CPUFeatures() : features_{} {}
// Construct with some features already enabled.
template <typename T, typename... U>
CPUFeatures(T first, U... others) : features_{} {
Combine(first, others...);
}
// Construct with all features enabled. This can be used to disable feature
// checking: `Has(...)` returns true regardless of the argument.
static CPUFeatures All();
// Construct an empty CPUFeatures. This is equivalent to the default
// constructor, but is provided for symmetry and convenience.
static CPUFeatures None() { return CPUFeatures(); }
// The presence of these features was assumed by version of VIXL before this
// API was added, so using this set by default ensures API compatibility.
static CPUFeatures AArch64LegacyBaseline() {
return CPUFeatures(kFP, kNEON, kCRC32);
}
// Construct a new CPUFeatures object using ID registers. This assumes that
// kIDRegisterEmulation is present.
static CPUFeatures InferFromIDRegisters();
enum QueryIDRegistersOption {
kDontQueryIDRegisters,
kQueryIDRegistersIfAvailable
};
// Construct a new CPUFeatures object based on what the OS reports.
static CPUFeatures InferFromOS(
QueryIDRegistersOption option = kQueryIDRegistersIfAvailable);
// Combine another CPUFeatures object into this one. Features that already
// exist in this set are left unchanged.
void Combine(const CPUFeatures& other);
// Combine a specific feature into this set. If it already exists in the set,
// the set is left unchanged.
void Combine(Feature feature);
// Combine multiple features (or feature sets) into this set.
template <typename T, typename... U>
void Combine(T first, U... others) {
Combine(first);
Combine(others...);
}
// Remove features in another CPUFeatures object from this one.
void Remove(const CPUFeatures& other);
// Remove a specific feature from this set. This has no effect if the feature
// doesn't exist in the set.
void Remove(Feature feature0);
// Remove multiple features (or feature sets) from this set.
template <typename T, typename... U>
void Remove(T first, U... others) {
Remove(first);
Remove(others...);
}
// Chaining helpers for convenient construction by combining other CPUFeatures
// or individual Features.
template <typename... T>
CPUFeatures With(T... others) const {
CPUFeatures f(*this);
f.Combine(others...);
return f;
}
template <typename... T>
CPUFeatures Without(T... others) const {
CPUFeatures f(*this);
f.Remove(others...);
return f;
}
// Test whether the `other` feature set is equal to or a subset of this one.
bool Has(const CPUFeatures& other) const;
// Test whether a single feature exists in this set.
// Note that `Has(kNone)` always returns true.
bool Has(Feature feature) const;
// Test whether all of the specified features exist in this set.
template <typename T, typename... U>
bool Has(T first, U... others) const {
return Has(first) && Has(others...);
}
// Return the number of enabled features.
size_t Count() const;
bool HasNoFeatures() const { return Count() == 0; }
// Check for equivalence.
bool operator==(const CPUFeatures& other) const {
return Has(other) && other.Has(*this);
}
bool operator!=(const CPUFeatures& other) const { return !(*this == other); }
typedef CPUFeaturesConstIterator const_iterator;
const_iterator begin() const;
const_iterator end() const;
private:
// Each bit represents a feature. This set will be extended as needed.
std::bitset<kNumberOfFeatures> features_;
friend std::ostream& operator<<(std::ostream& os,
const vixl::CPUFeatures& features);
};
std::ostream& operator<<(std::ostream& os, vixl::CPUFeatures::Feature feature);
std::ostream& operator<<(std::ostream& os, const vixl::CPUFeatures& features);
// This is not a proper C++ iterator type, but it simulates enough of
// ForwardIterator that simple loops can be written.
class CPUFeaturesConstIterator {
public:
CPUFeaturesConstIterator(const CPUFeatures* cpu_features = NULL,
CPUFeatures::Feature start = CPUFeatures::kNone)
: cpu_features_(cpu_features), feature_(start) {
VIXL_ASSERT(IsValid());
}
bool operator==(const CPUFeaturesConstIterator& other) const;
bool operator!=(const CPUFeaturesConstIterator& other) const {
return !(*this == other);
}
CPUFeaturesConstIterator& operator++();
CPUFeaturesConstIterator operator++(int);
CPUFeatures::Feature operator*() const {
VIXL_ASSERT(IsValid());
return feature_;
}
// For proper support of C++'s simplest "Iterator" concept, this class would
// have to define member types (such as CPUFeaturesIterator::pointer) to make
// it appear as if it iterates over Feature objects in memory. That is, we'd
// need CPUFeatures::iterator to behave like std::vector<Feature>::iterator.
// This is at least partially possible -- the std::vector<bool> specialisation
// does something similar -- but it doesn't seem worthwhile for a
// special-purpose debug helper, so they are omitted here.
private:
const CPUFeatures* cpu_features_;
CPUFeatures::Feature feature_;
bool IsValid() const {
if (cpu_features_ == NULL) {
return feature_ == CPUFeatures::kNone;
}
return cpu_features_->Has(feature_);
}
};
// A convenience scope for temporarily modifying a CPU features object. This
// allows features to be enabled for short sequences.
//
// Expected usage:
//
// {
// CPUFeaturesScope cpu(&masm, CPUFeatures::kCRC32);
// // This scope can now use CRC32, as well as anything else that was enabled
// // before the scope.
//
// ...
//
// // At the end of the scope, the original CPU features are restored.
// }
class CPUFeaturesScope {
public:
// Start a CPUFeaturesScope on any object that implements
// `CPUFeatures* GetCPUFeatures()`.
template <typename T>
explicit CPUFeaturesScope(T* cpu_features_wrapper)
: cpu_features_(cpu_features_wrapper->GetCPUFeatures()),
old_features_(*cpu_features_) {}
// Start a CPUFeaturesScope on any object that implements
// `CPUFeatures* GetCPUFeatures()`, with the specified features enabled.
template <typename T, typename U, typename... V>
CPUFeaturesScope(T* cpu_features_wrapper, U first, V... features)
: cpu_features_(cpu_features_wrapper->GetCPUFeatures()),
old_features_(*cpu_features_) {
cpu_features_->Combine(first, features...);
}
~CPUFeaturesScope() { *cpu_features_ = old_features_; }
// For advanced usage, the CPUFeatures object can be accessed directly.
// The scope will restore the original state when it ends.
CPUFeatures* GetCPUFeatures() const { return cpu_features_; }
void SetCPUFeatures(const CPUFeatures& cpu_features) {
*cpu_features_ = cpu_features;
}
private:
CPUFeatures* const cpu_features_;
const CPUFeatures old_features_;
};
} // namespace vixl
#endif // VIXL_CPU_FEATURES_H