Documentation
¶
Overview ¶
Package cpuid provides basic functionality for creating and adjusting CPU feature sets.
Each architecture should define its own FeatureSet type, that must be savable, along with an allFeatures map, appropriate arch hooks and a HostFeatureSet function. This file contains common functionality to all architectures, which is essentially string munging and some errors.
Individual architectures may export methods on FeatureSet that are relevant, e.g. FeatureSet.Vendor(). Common to all architectures, FeatureSets include HasFeature, which provides a trivial mechanism to test for the presence of specific hardware features. The hardware features are also defined on a per-architecture basis.
Index ¶
- Constants
- func Initialize()
- type Cache
- type CacheType
- type ChangeableSet
- type ErrIncompatible
- type Feature
- type FeatureSet
- func (fs FeatureSet) AMD() bool
- func (fs FeatureSet) AMXExtendedStateSize() uint
- func (fs FeatureSet) CacheLine() uint32
- func (fs FeatureSet) Caches() (caches []Cache)
- func (fs FeatureSet) CheckHostCompatible() error
- func (fs FeatureSet) ExtendedFamily() uint8
- func (fs FeatureSet) ExtendedModel() uint8
- func (fs FeatureSet) ExtendedStateSize() (size, align uint)
- func (fs FeatureSet) Family() uint8
- func (fs FeatureSet) Fixed() FeatureSet
- func (fs FeatureSet) FlagString() string
- func (fs FeatureSet) HasFeature(feature Feature) bool
- func (fs FeatureSet) Intel() bool
- func (fs FeatureSet) Model() uint8
- func (fs FeatureSet) PhysicalAddressBits() uint32
- func (fs FeatureSet) ProcessorType() uint8
- func (fs FeatureSet) SteppingID() uint8
- func (fs FeatureSet) Subtract(other FeatureSet) (left map[Feature]struct{})
- func (fs FeatureSet) ToStatic() Static
- func (fs FeatureSet) UseFSGSBASE() bool
- func (fs FeatureSet) UseXsave() bool
- func (fs FeatureSet) UseXsavec() bool
- func (fs FeatureSet) UseXsaveopt() bool
- func (fs FeatureSet) ValidXCR0Mask() uint64
- func (fs FeatureSet) VendorID() [12]byte
- func (fs FeatureSet) VirtualAddressBits() uint32
- func (fs FeatureSet) WriteCPUInfoTo(cpu uint, w io.Writer)
- type Function
- type In
- type Native
- type Out
- type Static
Constants ¶
const ( XSAVEFeatureX87 = 1 << 0 XSAVEFeatureSSE = 1 << 1 XSAVEFeatureAVX = 1 << 2 XSAVEFeatureBNDREGS = 1 << 3 XSAVEFeatureBNDCSR = 1 << 4 XSAVEFeatureAVX512op = 1 << 5 XSAVEFeatureAVX512zmm0 = 1 << 6 XSAVEFeatureAVX512zmm16 = 1 << 7 XSAVEFeaturePKRU = 1 << 9 )
These are the extended floating point state features. They are used to enumerate floating point features in XCR0, XSTATE_BV, etc.
const ( // CtxFeatureSet is the FeatureSet for the context. CtxFeatureSet contextID = iota )
const ( // XCR0AMXMask are the bits that enable xsave to operate on AMX TILECFG // and TILEDATA. // // Note: TILECFG and TILEDATA are always either both enabled or both // disabled. // // See Intel® 64 and IA-32 Architectures Software Developer’s Manual Vol.1 // section 13.3 for details. XCR0AMXMask = uint64((1 << 17) | (1 << 18)) )
Variables ¶
This section is empty.
Functions ¶
func Initialize ¶
func Initialize()
Initialize initializes the global data structures used by this package. Must be called prior to using anything else in this package.
Types ¶
type Cache ¶
type Cache struct {
// Level is the hierarchical level of this cache (L1, L2, etc).
Level uint32
// Type is the type of cache.
Type CacheType
// FullyAssociative indicates that entries may be placed in any block.
FullyAssociative bool
// Partitions is the number of physical partitions in the cache.
Partitions uint32
// Ways is the number of ways of associativity in the cache.
Ways uint32
// Sets is the number of sets in the cache.
Sets uint32
// InvalidateHierarchical indicates that WBINVD/INVD from threads
// sharing this cache acts upon lower level caches for threads sharing
// this cache.
InvalidateHierarchical bool
// Inclusive indicates that this cache is inclusive of lower cache
// levels.
Inclusive bool
// DirectMapped indicates that this cache is directly mapped from
// address, rather than using a hash function.
DirectMapped bool
}
Cache describes the parameters of a single cache on the system.
This is returned by the Caches method on FeatureSet.
type CacheType ¶
type CacheType uint8
CacheType describes the type of a cache, as returned in eax[4:0] for eax=4.
const ( // CacheData is a data cache. CacheData CacheType // CacheInstruction is an instruction cache. CacheInstruction // CacheUnified is a unified instruction and data cache. CacheUnified )
type ChangeableSet ¶
ChangeableSet is a feature set that can allows changes.
type ErrIncompatible ¶
type ErrIncompatible struct {
// contains filtered or unexported fields
}
ErrIncompatible is returned for incompatible feature sets.
func (*ErrIncompatible) Error ¶
func (e *ErrIncompatible) Error() string
Error implements error.Error.
type Feature ¶
type Feature int
Feature is a unique identifier for a particular cpu feature. We just use an int as a feature number on x86 and arm64.
On x86, features are numbered according to "blocks". Each block is 32 bits, and feature bits from the same source (cpuid leaf/level) are in the same block.
On arm64, features are numbered according to the ELF HWCAP definition, from arch/arm64/include/uapi/asm/hwcap.h.
const ( X86FeatureSSE3 Feature = iota X86FeaturePCLMULDQ X86FeatureDTES64 X86FeatureMONITOR X86FeatureDSCPL X86FeatureVMX X86FeatureSMX X86FeatureEST X86FeatureTM2 X86FeatureSSSE3 // Not a typo, "supplemental" SSE3. X86FeatureCNXTID X86FeatureSDBG X86FeatureFMA X86FeatureCX16 X86FeatureXTPR X86FeaturePDCM X86FeaturePCID X86FeatureDCA X86FeatureSSE4_1 X86FeatureSSE4_2 X86FeatureX2APIC X86FeatureMOVBE X86FeaturePOPCNT X86FeatureTSCD X86FeatureAES X86FeatureXSAVE X86FeatureOSXSAVE X86FeatureAVX X86FeatureF16C X86FeatureRDRAND X86FeatureHypervisor )
Block 0 constants are all of the "basic" feature bits returned by a cpuid in ecx with eax=1.
const ( X86FeatureFPU Feature = 32 + iota X86FeatureVME X86FeatureDE X86FeaturePSE X86FeatureTSC X86FeatureMSR X86FeaturePAE X86FeatureMCE X86FeatureCX8 X86FeatureAPIC X86FeatureSEP X86FeatureMTRR X86FeaturePGE X86FeatureMCA X86FeatureCMOV X86FeaturePAT X86FeaturePSE36 X86FeaturePSN X86FeatureCLFSH X86FeatureDS X86FeatureACPI X86FeatureMMX X86FeatureFXSR X86FeatureSSE X86FeatureSSE2 X86FeatureSS X86FeatureHTT X86FeatureTM X86FeatureIA64 X86FeaturePBE )
Block 1 constants are all of the "basic" feature bits returned by a cpuid in edx with eax=1.
const ( X86FeatureFSGSBase Feature = 2*32 + iota X86FeatureTSC_ADJUST X86FeatureBMI1 X86FeatureHLE X86FeatureAVX2 X86FeatureFDP_EXCPTN_ONLY X86FeatureSMEP X86FeatureBMI2 X86FeatureERMS X86FeatureINVPCID X86FeatureRTM X86FeatureCQM X86FeatureFPCSDS X86FeatureMPX X86FeatureRDT X86FeatureAVX512F X86FeatureAVX512DQ X86FeatureRDSEED X86FeatureADX X86FeatureSMAP X86FeatureAVX512IFMA X86FeaturePCOMMIT X86FeatureCLFLUSHOPT X86FeatureCLWB X86FeatureIPT // Intel processor trace. X86FeatureAVX512PF X86FeatureAVX512ER X86FeatureAVX512CD X86FeatureSHA X86FeatureAVX512BW X86FeatureAVX512VL )
Block 2 bits are the "structured extended" features returned in ebx for eax=7, ecx=0.
const ( X86FeaturePREFETCHWT1 Feature = 3*32 + iota X86FeatureAVX512VBMI X86FeatureUMIP X86FeaturePKU X86FeatureOSPKE X86FeatureWAITPKG X86FeatureAVX512_VBMI2 X86FeatureCET_SS X86FeatureGFNI X86FeatureVAES X86FeatureVPCLMULQDQ X86FeatureAVX512_VNNI X86FeatureAVX512_BITALG X86FeatureTME X86FeatureAVX512_VPOPCNTDQ X86FeatureLA57 X86FeatureRDPID X86FeatureCLDEMOTE X86FeatureMOVDIRI X86FeatureMOVDIR64B )
Block 3 bits are the "extended" features returned in ecx for eax=7, ecx=0.
const ( X86FeatureXSAVEOPT Feature = 4*32 + iota X86FeatureXSAVEC X86FeatureXGETBV1 X86FeatureXSAVES )
Block 4 constants are for xsave capabilities in CPUID.(EAX=0DH,ECX=01H):EAX. The CPUID leaf is available only if 'X86FeatureXSAVE' is present.
const ( X86FeatureLAHF64 Feature = 5*32 + iota X86FeatureCMP_LEGACY X86FeatureSVM X86FeatureEXTAPIC X86FeatureCR8_LEGACY X86FeatureLZCNT X86FeatureSSE4A X86FeatureMISALIGNSSE X86FeaturePREFETCHW X86FeatureOSVW X86FeatureIBS X86FeatureXOP X86FeatureSKINIT X86FeatureWDT X86FeatureLWP X86FeatureFMA4 X86FeatureTCE X86FeatureTBM X86FeatureTOPOLOGY X86FeaturePERFCTR_CORE X86FeaturePERFCTR_NB X86FeatureBPEXT X86FeaturePERFCTR_TSC X86FeaturePERFCTR_LLC X86FeatureMWAITX X86FeatureADMSKEXTN )
Block 5 constants are the extended feature bits in CPUID.(EAX=0x80000001):ECX.
const ( X86FeatureSYSCALL Feature = 6*32 + 11 X86FeatureNX Feature = 6*32 + 20 X86FeatureMMXEXT Feature = 6*32 + 22 X86FeatureFXSR_OPT Feature = 6*32 + 25 X86FeatureGBPAGES Feature = 6*32 + 26 X86FeatureRDTSCP Feature = 6*32 + 27 X86FeatureLM Feature = 6*32 + 29 X86Feature3DNOWEXT Feature = 6*32 + 30 X86Feature3DNOW Feature = 6*32 + 31 )
Block 6 constants are the extended feature bits in CPUID.(EAX=0x80000001):EDX.
These are sparse, and so the bit positions are assigned manually.
const ( X86FeatureAVX512_4VNNIW Feature X86FeatureAVX512_4FMAPS X86FeatureFSRM X86FeatureAVX512_VP2INTERSECT X86FeatureSRBDS_CTRL X86FeatureMD_CLEAR X86FeatureRTM_ALWAYS_ABORT X86FeatureTSX_FORCE_ABORT X86FeatureSERIALIZE X86FeatureHYBRID_CPU X86FeatureTSXLDTRK X86FeaturePCONFIG X86FeatureARCH_LBR X86FeatureIBT X86FeatureAMX_BF16 X86FeatureAVX512_FP16 X86FeatureAMX_TILE X86FeatureAMX_INT8 X86FeatureSPEC_CTRL X86FeatureINTEL_STIBP X86FeatureFLUSH_L1D X86FeatureARCH_CAPABILITIES X86FeatureCORE_CAPABILITIES X86FeatureSPEC_CTRL_SSBD )
Block 7 constants are the extended features bits in CPUID.(EAX=07H,ECX=0):EDX.
func AllFeatures ¶
func AllFeatures() (features []Feature)
AllFeatures returns the full set of all possible features.
func FeatureFromString ¶
FeatureFromString returns the Feature associated with the given feature string plus a bool to indicate if it could find the feature.
type FeatureSet ¶
type FeatureSet struct {
// Function is the underlying CPUID Function.
//
// This is exported to allow direct calls of the underlying CPUID
// function, where required.
Function `state:".(Static)"`
// contains filtered or unexported fields
}
FeatureSet defines features in terms of CPUID leaves and bits. The kernel also exposes the presence of features to userspace through a set of flags(HWCAP/HWCAP2) bits, exposed in the auxiliary vector, which are necessary to read for some features (e.g. FSGSBASE).
Common references:
Intel:
- Intel SDM Volume 2, Chapter 3.2 "CPUID" (more up-to-date)
- Intel Application Note 485 (more detailed)
AMD:
- AMD64 APM Volume 3, Appendix 3 "Obtaining Processor Information ..."
+stateify savable
func FromContext ¶
func FromContext(ctx anyContext) FeatureSet
FromContext returns the FeatureSet from the context, if available.
func (FeatureSet) AMD ¶
func (fs FeatureSet) AMD() bool
AMD returns true if fs describes an AMD CPU.
func (FeatureSet) AMXExtendedStateSize ¶
func (fs FeatureSet) AMXExtendedStateSize() uint
AMXExtendedStateSize returns the number of bytes within the "extended state" area that is used for AMX.
func (FeatureSet) CacheLine ¶
func (fs FeatureSet) CacheLine() uint32
CacheLine is the size of a cache line in bytes.
All caches use the same line size. This is not enforced in the CPUID encoding, but is true on all known x86 processors.
func (FeatureSet) Caches ¶
func (fs FeatureSet) Caches() (caches []Cache)
Caches describes the caches on the CPU.
Only supported on Intel; requires allocation.
func (FeatureSet) CheckHostCompatible ¶
func (fs FeatureSet) CheckHostCompatible() error
CheckHostCompatible returns nil if fs is a subset of the host feature set.
func (FeatureSet) ExtendedFamily ¶
func (fs FeatureSet) ExtendedFamily() uint8
ExtendedFamily is part of the processor signature.
func (FeatureSet) ExtendedModel ¶
func (fs FeatureSet) ExtendedModel() uint8
ExtendedModel is part of the processor signature.
func (FeatureSet) ExtendedStateSize ¶
func (fs FeatureSet) ExtendedStateSize() (size, align uint)
ExtendedStateSize returns the number of bytes needed to save the "extended state" for the enabled features and the boundary it must be aligned to. Extended state includes floating point registers, and other cpu state that's not associated with the normal task context.
Note: the return value matches the size of signal FP state frames. Look at check_xstate_in_sigframe() in the kernel sources for more details.
func (FeatureSet) Family ¶
func (fs FeatureSet) Family() uint8
Family is part of the processor signature.
func (FeatureSet) Fixed ¶
func (fs FeatureSet) Fixed() FeatureSet
Fixed converts the FeatureSet to a fixed set.
func (FeatureSet) FlagString ¶
func (fs FeatureSet) FlagString() string
FlagString prints out supported CPU flags.
func (FeatureSet) HasFeature ¶
func (fs FeatureSet) HasFeature(feature Feature) bool
HasFeature tests whether or not a feature is in the given feature set.
This function is safe to call from a nosplit context, as long as the FeatureSet does not have any masked features.
func (FeatureSet) Intel ¶
func (fs FeatureSet) Intel() bool
Intel returns true if fs describes an Intel CPU.
func (FeatureSet) Model ¶
func (fs FeatureSet) Model() uint8
Model is part of the processor signature.
func (FeatureSet) PhysicalAddressBits ¶
func (fs FeatureSet) PhysicalAddressBits() uint32
PhysicalAddressBits returns the number of bits available for physical addresses.
func (FeatureSet) ProcessorType ¶
func (fs FeatureSet) ProcessorType() uint8
ProcessorType is part of the processor signature.
func (FeatureSet) SteppingID ¶
func (fs FeatureSet) SteppingID() uint8
SteppingID is part of the processor signature.
func (FeatureSet) Subtract ¶
func (fs FeatureSet) Subtract(other FeatureSet) (left map[Feature]struct{})
Subtract returns the features present in fs that are not present in other. If all features in fs are present in other, Subtract returns nil.
This does not check for any kinds of incompatibility.
func (FeatureSet) ToStatic ¶
func (fs FeatureSet) ToStatic() Static
ToStatic converts a FeatureSet to a Static function.
You can create a new static feature set as:
fs := otherFeatureSet.ToStatic().ToFeatureSet()
func (FeatureSet) UseFSGSBASE ¶
func (fs FeatureSet) UseFSGSBASE() bool
UseFSGSBASE returns true if 'fs' supports the (RD|WR)(FS|GS)BASE instructions.
func (FeatureSet) UseXsave ¶
func (fs FeatureSet) UseXsave() bool
UseXsave returns the choice of fp state saving instruction.
func (FeatureSet) UseXsavec ¶
func (fs FeatureSet) UseXsavec() bool
UseXsavec returns true if 'fs' supports the "xsavec" instruction.
func (FeatureSet) UseXsaveopt ¶
func (fs FeatureSet) UseXsaveopt() bool
UseXsaveopt returns true if 'fs' supports the "xsaveopt" instruction.
func (FeatureSet) ValidXCR0Mask ¶
func (fs FeatureSet) ValidXCR0Mask() uint64
ValidXCR0Mask returns the valid bits in control register XCR0.
Always exclude AMX bits, because we do not support it. TODO(gvisor.dev/issues/9896): Implement AMX Support.
func (FeatureSet) VendorID ¶
func (fs FeatureSet) VendorID() [12]byte
VendorID is the 12-char string returned in ebx:edx:ecx for eax=0.
func (FeatureSet) VirtualAddressBits ¶
func (fs FeatureSet) VirtualAddressBits() uint32
VirtualAddressBits returns the number of bits available for virtual addresses.
func (FeatureSet) WriteCPUInfoTo ¶
func (fs FeatureSet) WriteCPUInfoTo(cpu uint, w io.Writer)
WriteCPUInfoTo is to generate a section of one cpu in /proc/cpuinfo. This is a minimal /proc/cpuinfo, it is missing some fields like "microcode" that are not always printed in Linux. The bogomips field is simply made up.
type Function ¶
Function executes a CPUID function.
This is typically the native function or a Static definition.
type Static ¶
Static is a static CPUID function.
+stateify savable
func (Static) ToFeatureSet ¶
func (s Static) ToFeatureSet() FeatureSet
ToFeatureSet converts a static specification to a FeatureSet.
This overloads some local values, where required.
Source Files