A new kcpuid tool to dump the raw CPUID leafs of a CPU. It has the CPUID

bit definitions in a separate csv file which allows for adding support
 for new CPUID leafs and bits without having to update the tool. The main
 use case for the tool is hw enablement on preproduction x86 hw.
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Merge tag 'x86_misc_for_v5.13' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip

Pull x86 tool update from Borislav Petkov:
 "A new kcpuid tool to dump the raw CPUID leafs of a CPU.

  It has the CPUID bit definitions in a separate csv file which allows
  for adding support for new CPUID leafs and bits without having to
  update the tool.

  The main use case for the tool is hw enablement on preproduction x86
  hardware"

* tag 'x86_misc_for_v5.13' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip:
  tools/x86/kcpuid: Add AMD leaf 0x8000001E
  tools/x86/kcpuid: Check last token too
  selftests/x86: Add a missing .note.GNU-stack section to thunks_32.S
  tools/x86/kcpuid: Add AMD Secure Encryption leaf
  tools/x86: Add a kcpuid tool to show raw CPU features
This commit is contained in:
Linus Torvalds 2021-04-26 09:09:18 -07:00
commit 98ee795b21
4 changed files with 1083 additions and 0 deletions

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# SPDX-License-Identifier: GPL-2.0
# Makefile for x86/kcpuid tool
kcpuid : kcpuid.c
CFLAGS = -Wextra
BINDIR ?= /usr/sbin
HWDATADIR ?= /usr/share/misc/
override CFLAGS += -O2 -Wall -I../../../include
%: %.c
$(CC) $(CFLAGS) -o $@ $< $(LDFLAGS)
.PHONY : clean
clean :
@rm -f kcpuid
install : kcpuid
install -d $(DESTDIR)$(BINDIR)
install -m 755 -p kcpuid $(DESTDIR)$(BINDIR)/kcpuid
install -m 444 -p cpuid.csv $(HWDATADIR)/cpuid.csv

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# The basic row format is:
# LEAF, SUBLEAF, register_name, bits, short_name, long_description
# Leaf 00H
0, 0, EAX, 31:0, max_basic_leafs, Max input value for supported subleafs
# Leaf 01H
1, 0, EAX, 3:0, stepping, Stepping ID
1, 0, EAX, 7:4, model, Model
1, 0, EAX, 11:8, family, Family ID
1, 0, EAX, 13:12, processor, Processor Type
1, 0, EAX, 19:16, model_ext, Extended Model ID
1, 0, EAX, 27:20, family_ext, Extended Family ID
1, 0, EBX, 7:0, brand, Brand Index
1, 0, EBX, 15:8, clflush_size, CLFLUSH line size (value * 8) in bytes
1, 0, EBX, 23:16, max_cpu_id, Maxim number of addressable logic cpu in this package
1, 0, EBX, 31:24, apic_id, Initial APIC ID
1, 0, ECX, 0, sse3, Streaming SIMD Extensions 3(SSE3)
1, 0, ECX, 1, pclmulqdq, PCLMULQDQ instruction supported
1, 0, ECX, 2, dtes64, DS area uses 64-bit layout
1, 0, ECX, 3, mwait, MONITOR/MWAIT supported
1, 0, ECX, 4, ds_cpl, CPL Qualified Debug Store which allows for branch message storage qualified by CPL
1, 0, ECX, 5, vmx, Virtual Machine Extensions supported
1, 0, ECX, 6, smx, Safer Mode Extension supported
1, 0, ECX, 7, eist, Enhanced Intel SpeedStep Technology
1, 0, ECX, 8, tm2, Thermal Monitor 2
1, 0, ECX, 9, ssse3, Supplemental Streaming SIMD Extensions 3 (SSSE3)
1, 0, ECX, 10, l1_ctx_id, L1 data cache could be set to either adaptive mode or shared mode (check IA32_MISC_ENABLE bit 24 definition)
1, 0, ECX, 11, sdbg, IA32_DEBUG_INTERFACE MSR for silicon debug supported
1, 0, ECX, 12, fma, FMA extensions using YMM state supported
1, 0, ECX, 13, cmpxchg16b, 'CMPXCHG16B - Compare and Exchange Bytes' supported
1, 0, ECX, 14, xtpr_update, xTPR Update Control supported
1, 0, ECX, 15, pdcm, Perfmon and Debug Capability present
1, 0, ECX, 17, pcid, Process-Context Identifiers feature present
1, 0, ECX, 18, dca, Prefetching data from a memory mapped device supported
1, 0, ECX, 19, sse4_1, SSE4.1 feature present
1, 0, ECX, 20, sse4_2, SSE4.2 feature present
1, 0, ECX, 21, x2apic, x2APIC supported
1, 0, ECX, 22, movbe, MOVBE instruction supported
1, 0, ECX, 23, popcnt, POPCNT instruction supported
1, 0, ECX, 24, tsc_deadline_timer, LAPIC supports one-shot operation using a TSC deadline value
1, 0, ECX, 25, aesni, AESNI instruction supported
1, 0, ECX, 26, xsave, XSAVE/XRSTOR processor extended states (XSETBV/XGETBV/XCR0)
1, 0, ECX, 27, osxsave, OS has set CR4.OSXSAVE bit to enable XSETBV/XGETBV/XCR0
1, 0, ECX, 28, avx, AVX instruction supported
1, 0, ECX, 29, f16c, 16-bit floating-point conversion instruction supported
1, 0, ECX, 30, rdrand, RDRAND instruction supported
1, 0, EDX, 0, fpu, x87 FPU on chip
1, 0, EDX, 1, vme, Virtual-8086 Mode Enhancement
1, 0, EDX, 2, de, Debugging Extensions
1, 0, EDX, 3, pse, Page Size Extensions
1, 0, EDX, 4, tsc, Time Stamp Counter
1, 0, EDX, 5, msr, RDMSR and WRMSR Support
1, 0, EDX, 6, pae, Physical Address Extensions
1, 0, EDX, 7, mce, Machine Check Exception
1, 0, EDX, 8, cx8, CMPXCHG8B instr
1, 0, EDX, 9, apic, APIC on Chip
1, 0, EDX, 11, sep, SYSENTER and SYSEXIT instrs
1, 0, EDX, 12, mtrr, Memory Type Range Registers
1, 0, EDX, 13, pge, Page Global Bit
1, 0, EDX, 14, mca, Machine Check Architecture
1, 0, EDX, 15, cmov, Conditional Move Instrs
1, 0, EDX, 16, pat, Page Attribute Table
1, 0, EDX, 17, pse36, 36-Bit Page Size Extension
1, 0, EDX, 18, psn, Processor Serial Number
1, 0, EDX, 19, clflush, CLFLUSH instr
# 1, 0, EDX, 20,
1, 0, EDX, 21, ds, Debug Store
1, 0, EDX, 22, acpi, Thermal Monitor and Software Controlled Clock Facilities
1, 0, EDX, 23, mmx, Intel MMX Technology
1, 0, EDX, 24, fxsr, XSAVE and FXRSTOR Instrs
1, 0, EDX, 25, sse, SSE
1, 0, EDX, 26, sse2, SSE2
1, 0, EDX, 27, ss, Self Snoop
1, 0, EDX, 28, hit, Max APIC IDs
1, 0, EDX, 29, tm, Thermal Monitor
# 1, 0, EDX, 30,
1, 0, EDX, 31, pbe, Pending Break Enable
# Leaf 02H
# cache and TLB descriptor info
# Leaf 03H
# Precessor Serial Number, introduced on Pentium III, not valid for
# latest models
# Leaf 04H
# thread/core and cache topology
4, 0, EAX, 4:0, cache_type, Cache type like instr/data or unified
4, 0, EAX, 7:5, cache_level, Cache Level (starts at 1)
4, 0, EAX, 8, cache_self_init, Cache Self Initialization
4, 0, EAX, 9, fully_associate, Fully Associative cache
# 4, 0, EAX, 13:10, resvd, resvd
4, 0, EAX, 25:14, max_logical_id, Max number of addressable IDs for logical processors sharing the cache
4, 0, EAX, 31:26, max_phy_id, Max number of addressable IDs for processors in phy package
4, 0, EBX, 11:0, cache_linesize, Size of a cache line in bytes
4, 0, EBX, 21:12, cache_partition, Physical Line partitions
4, 0, EBX, 31:22, cache_ways, Ways of associativity
4, 0, ECX, 31:0, cache_sets, Number of Sets - 1
4, 0, EDX, 0, c_wbinvd, 1 means WBINVD/INVD is not ganranteed to act upon lower level caches of non-originating threads sharing this cache
4, 0, EDX, 1, c_incl, Whether cache is inclusive of lower cache level
4, 0, EDX, 2, c_comp_index, Complex Cache Indexing
# Leaf 05H
# MONITOR/MWAIT
5, 0, EAX, 15:0, min_mon_size, Smallest monitor line size in bytes
5, 0, EBX, 15:0, max_mon_size, Largest monitor line size in bytes
5, 0, ECX, 0, mwait_ext, Enum of Monitor-Mwait extensions supported
5, 0, ECX, 1, mwait_irq_break, Largest monitor line size in bytes
5, 0, EDX, 3:0, c0_sub_stats, Number of C0* sub C-states supported using MWAIT
5, 0, EDX, 7:4, c1_sub_stats, Number of C1* sub C-states supported using MWAIT
5, 0, EDX, 11:8, c2_sub_stats, Number of C2* sub C-states supported using MWAIT
5, 0, EDX, 15:12, c3_sub_stats, Number of C3* sub C-states supported using MWAIT
5, 0, EDX, 19:16, c4_sub_stats, Number of C4* sub C-states supported using MWAIT
5, 0, EDX, 23:20, c5_sub_stats, Number of C5* sub C-states supported using MWAIT
5, 0, EDX, 27:24, c6_sub_stats, Number of C6* sub C-states supported using MWAIT
5, 0, EDX, 31:28, c7_sub_stats, Number of C7* sub C-states supported using MWAIT
# Leaf 06H
# Thermal & Power Management
6, 0, EAX, 0, dig_temp, Digital temperature sensor supported
6, 0, EAX, 1, turbo, Intel Turbo Boost
6, 0, EAX, 2, arat, Always running APIC timer
# 6, 0, EAX, 3, resv, Reserved
6, 0, EAX, 4, pln, Power limit notifications supported
6, 0, EAX, 5, ecmd, Clock modulation duty cycle extension supported
6, 0, EAX, 6, ptm, Package thermal management supported
6, 0, EAX, 7, hwp, HWP base register
6, 0, EAX, 8, hwp_notify, HWP notification
6, 0, EAX, 9, hwp_act_window, HWP activity window
6, 0, EAX, 10, hwp_energy, HWP energy performance preference
6, 0, EAX, 11, hwp_pkg_req, HWP package level request
# 6, 0, EAX, 12, resv, Reserved
6, 0, EAX, 13, hdc, HDC base registers supported
6, 0, EAX, 14, turbo3, Turbo Boost Max 3.0
6, 0, EAX, 15, hwp_cap, Highest Performance change supported
6, 0, EAX, 16, hwp_peci, HWP PECI override is supported
6, 0, EAX, 17, hwp_flex, Flexible HWP is supported
6, 0, EAX, 18, hwp_fast, Fast access mode for the IA32_HWP_REQUEST MSR is supported
# 6, 0, EAX, 19, resv, Reserved
6, 0, EAX, 20, hwp_ignr, Ignoring Idle Logical Processor HWP request is supported
6, 0, EBX, 3:0, therm_irq_thresh, Number of Interrupt Thresholds in Digital Thermal Sensor
6, 0, ECX, 0, aperfmperf, Presence of IA32_MPERF and IA32_APERF
6, 0, ECX, 3, energ_bias, Performance-energy bias preference supported
# Leaf 07H
# ECX == 0
# AVX512 refers to https://en.wikipedia.org/wiki/AVX-512
# XXX: Do we really need to enumerate each and every AVX512 sub features
7, 0, EBX, 0, fsgsbase, RDFSBASE/RDGSBASE/WRFSBASE/WRGSBASE supported
7, 0, EBX, 1, tsc_adjust, TSC_ADJUST MSR supported
7, 0, EBX, 2, sgx, Software Guard Extensions
7, 0, EBX, 3, bmi1, BMI1
7, 0, EBX, 4, hle, Hardware Lock Elision
7, 0, EBX, 5, avx2, AVX2
# 7, 0, EBX, 6, fdp_excp_only, x87 FPU Data Pointer updated only on x87 exceptions
7, 0, EBX, 7, smep, Supervisor-Mode Execution Prevention
7, 0, EBX, 8, bmi2, BMI2
7, 0, EBX, 9, rep_movsb, Enhanced REP MOVSB/STOSB
7, 0, EBX, 10, invpcid, INVPCID instruction
7, 0, EBX, 11, rtm, Restricted Transactional Memory
7, 0, EBX, 12, rdt_m, Intel RDT Monitoring capability
7, 0, EBX, 13, depc_fpu_cs_ds, Deprecates FPU CS and FPU DS
7, 0, EBX, 14, mpx, Memory Protection Extensions
7, 0, EBX, 15, rdt_a, Intel RDT Allocation capability
7, 0, EBX, 16, avx512f, AVX512 Foundation instr
7, 0, EBX, 17, avx512dq, AVX512 Double and Quadword AVX512 instr
7, 0, EBX, 18, rdseed, RDSEED instr
7, 0, EBX, 19, adx, ADX instr
7, 0, EBX, 20, smap, Supervisor Mode Access Prevention
7, 0, EBX, 21, avx512ifma, AVX512 Integer Fused Multiply Add
# 7, 0, EBX, 22, resvd, resvd
7, 0, EBX, 23, clflushopt, CLFLUSHOPT instr
7, 0, EBX, 24, clwb, CLWB instr
7, 0, EBX, 25, intel_pt, Intel Processor Trace instr
7, 0, EBX, 26, avx512pf, Prefetch
7, 0, EBX, 27, avx512er, AVX512 Exponent Reciproca instr
7, 0, EBX, 28, avx512cd, AVX512 Conflict Detection instr
7, 0, EBX, 29, sha, Intel Secure Hash Algorithm Extensions instr
7, 0, EBX, 26, avx512bw, AVX512 Byte & Word instr
7, 0, EBX, 28, avx512vl, AVX512 Vector Length Extentions (VL)
7, 0, ECX, 0, prefetchwt1, X
7, 0, ECX, 1, avx512vbmi, AVX512 Vector Byte Manipulation Instructions
7, 0, ECX, 2, umip, User-mode Instruction Prevention
7, 0, ECX, 3, pku, Protection Keys for User-mode pages
7, 0, ECX, 4, ospke, CR4 PKE set to enable protection keys
# 7, 0, ECX, 16:5, resvd, resvd
7, 0, ECX, 21:17, mawau, The value of MAWAU used by the BNDLDX and BNDSTX instructions in 64-bit mode
7, 0, ECX, 22, rdpid, RDPID and IA32_TSC_AUX
# 7, 0, ECX, 29:23, resvd, resvd
7, 0, ECX, 30, sgx_lc, SGX Launch Configuration
# 7, 0, ECX, 31, resvd, resvd
# Leaf 08H
#
# Leaf 09H
# Direct Cache Access (DCA) information
9, 0, ECX, 31:0, dca_cap, The value of IA32_PLATFORM_DCA_CAP
# Leaf 0AH
# Architectural Performance Monitoring
#
# Do we really need to print out the PMU related stuff?
# Does normal user really care about it?
#
0xA, 0, EAX, 7:0, pmu_ver, Performance Monitoring Unit version
0xA, 0, EAX, 15:8, pmu_gp_cnt_num, Numer of general-purose PMU counters per logical CPU
0xA, 0, EAX, 23:16, pmu_cnt_bits, Bit wideth of PMU counter
0xA, 0, EAX, 31:24, pmu_ebx_bits, Length of EBX bit vector to enumerate PMU events
0xA, 0, EBX, 0, pmu_no_core_cycle_evt, Core cycle event not available
0xA, 0, EBX, 1, pmu_no_instr_ret_evt, Instruction retired event not available
0xA, 0, EBX, 2, pmu_no_ref_cycle_evt, Reference cycles event not available
0xA, 0, EBX, 3, pmu_no_llc_ref_evt, Last-level cache reference event not available
0xA, 0, EBX, 4, pmu_no_llc_mis_evt, Last-level cache misses event not available
0xA, 0, EBX, 5, pmu_no_br_instr_ret_evt, Branch instruction retired event not available
0xA, 0, EBX, 6, pmu_no_br_mispredict_evt, Branch mispredict retired event not available
0xA, 0, ECX, 4:0, pmu_fixed_cnt_num, Performance Monitoring Unit version
0xA, 0, ECX, 12:5, pmu_fixed_cnt_bits, Numer of PMU counters per logical CPU
# Leaf 0BH
# Extended Topology Enumeration Leaf
#
0xB, 0, EAX, 4:0, id_shift, Number of bits to shift right on x2APIC ID to get a unique topology ID of the next level type
0xB, 0, EBX, 15:0, cpu_nr, Number of logical processors at this level type
0xB, 0, ECX, 15:8, lvl_type, 0-Invalid 1-SMT 2-Core
0xB, 0, EDX, 31:0, x2apic_id, x2APIC ID the current logical processor
# Leaf 0DH
# Processor Extended State
0xD, 0, EAX, 0, x87, X87 state
0xD, 0, EAX, 1, sse, SSE state
0xD, 0, EAX, 2, avx, AVX state
0xD, 0, EAX, 4:3, mpx, MPX state
0xD, 0, EAX, 7:5, avx512, AVX-512 state
0xD, 0, EAX, 9, pkru, PKRU state
0xD, 0, EBX, 31:0, max_sz_xcr0, Maximum size (bytes) required by enabled features in XCR0
0xD, 0, ECX, 31:0, max_sz_xsave, Maximum size (bytes) of the XSAVE/XRSTOR save area
0xD, 1, EAX, 0, xsaveopt, XSAVEOPT available
0xD, 1, EAX, 1, xsavec, XSAVEC and compacted form supported
0xD, 1, EAX, 2, xgetbv, XGETBV supported
0xD, 1, EAX, 3, xsaves, XSAVES/XRSTORS and IA32_XSS supported
0xD, 1, EBX, 31:0, max_sz_xcr0, Maximum size (bytes) required by enabled features in XCR0
0xD, 1, ECX, 8, pt, PT state
0xD, 1, ECX, 11, cet_usr, CET user state
0xD, 1, ECX, 12, cet_supv, CET supervisor state
0xD, 1, ECX, 13, hdc, HDC state
0xD, 1, ECX, 16, hwp, HWP state
# Leaf 0FH
# Intel RDT Monitoring
0xF, 0, EBX, 31:0, rmid_range, Maximum range (zero-based) of RMID within this physical processor of all types
0xF, 0, EDX, 1, l3c_rdt_mon, L3 Cache RDT Monitoring supported
0xF, 1, ECX, 31:0, rmid_range, Maximum range (zero-based) of RMID of this types
0xF, 1, EDX, 0, l3c_ocp_mon, L3 Cache occupancy Monitoring supported
0xF, 1, EDX, 1, l3c_tbw_mon, L3 Cache Total Bandwidth Monitoring supported
0xF, 1, EDX, 2, l3c_lbw_mon, L3 Cache Local Bandwidth Monitoring supported
# Leaf 10H
# Intel RDT Allocation
0x10, 0, EBX, 1, l3c_rdt_alloc, L3 Cache Allocation supported
0x10, 0, EBX, 2, l2c_rdt_alloc, L2 Cache Allocation supported
0x10, 0, EBX, 3, mem_bw_alloc, Memory Bandwidth Allocation supported
# Leaf 12H
# SGX Capability
#
# Some detailed SGX features not added yet
0x12, 0, EAX, 0, sgx1, L3 Cache Allocation supported
0x12, 1, EAX, 0, sgx2, L3 Cache Allocation supported
# Leaf 14H
# Intel Processor Tracer
#
# Leaf 15H
# Time Stamp Counter and Nominal Core Crystal Clock Information
0x15, 0, EAX, 31:0, tsc_denominator, The denominator of the TSC/”core crystal clock” ratio
0x15, 0, EBX, 31:0, tsc_numerator, The numerator of the TSC/”core crystal clock” ratio
0x15, 0, ECX, 31:0, nom_freq, Nominal frequency of the core crystal clock in Hz
# Leaf 16H
# Processor Frequency Information
0x16, 0, EAX, 15:0, cpu_base_freq, Processor Base Frequency in MHz
0x16, 0, EBX, 15:0, cpu_max_freq, Maximum Frequency in MHz
0x16, 0, ECX, 15:0, bus_freq, Bus (Reference) Frequency in MHz
# Leaf 17H
# System-On-Chip Vendor Attribute
0x17, 0, EAX, 31:0, max_socid, Maximum input value of supported sub-leaf
0x17, 0, EBX, 15:0, soc_vid, SOC Vendor ID
0x17, 0, EBX, 16, std_vid, SOC Vendor ID is assigned via an industry standard scheme
0x17, 0, ECX, 31:0, soc_pid, SOC Project ID assigned by vendor
0x17, 0, EDX, 31:0, soc_sid, SOC Stepping ID
# Leaf 18H
# Deterministic Address Translation Parameters
# Leaf 19H
# Key Locker Leaf
# Leaf 1AH
# Hybrid Information
0x1A, 0, EAX, 31:24, core_type, 20H-Intel_Atom 40H-Intel_Core
# Leaf 1FH
# V2 Extended Topology - A preferred superset to leaf 0BH
# According to SDM
# 40000000H - 4FFFFFFFH is invalid range
# Leaf 80000001H
# Extended Processor Signature and Feature Bits
0x80000001, 0, ECX, 0, lahf_lm, LAHF/SAHF available in 64-bit mode
0x80000001, 0, ECX, 5, lzcnt, LZCNT
0x80000001, 0, ECX, 8, prefetchw, PREFETCHW
0x80000001, 0, EDX, 11, sysret, SYSCALL/SYSRET supported
0x80000001, 0, EDX, 20, exec_dis, Execute Disable Bit available
0x80000001, 0, EDX, 26, 1gb_page, 1GB page supported
0x80000001, 0, EDX, 27, rdtscp, RDTSCP and IA32_TSC_AUX are available
#0x80000001, 0, EDX, 29, 64b, 64b Architecture supported
# Leaf 80000002H/80000003H/80000004H
# Processor Brand String
# Leaf 80000005H
# Reserved
# Leaf 80000006H
# Extended L2 Cache Features
0x80000006, 0, ECX, 7:0, clsize, Cache Line size in bytes
0x80000006, 0, ECX, 15:12, l2c_assoc, L2 Associativity
0x80000006, 0, ECX, 31:16, csize, Cache size in 1K units
# Leaf 80000007H
0x80000007, 0, EDX, 8, nonstop_tsc, Invariant TSC available
# Leaf 80000008H
0x80000008, 0, EAX, 7:0, phy_adr_bits, Physical Address Bits
0x80000008, 0, EAX, 15:8, lnr_adr_bits, Linear Address Bits
0x80000007, 0, EBX, 9, wbnoinvd, WBNOINVD
# 0x8000001E
# EAX: Extended APIC ID
0x8000001E, 0, EAX, 31:0, extended_apic_id, Extended APIC ID
# EBX: Core Identifiers
0x8000001E, 0, EBX, 7:0, core_id, Identifies the logical core ID
0x8000001E, 0, EBX, 15:8, threads_per_core, The number of threads per core is threads_per_core + 1
# ECX: Node Identifiers
0x8000001E, 0, ECX, 7:0, node_id, Node ID
0x8000001E, 0, ECX, 10:8, nodes_per_processor, Nodes per processor { 0: 1 node, else reserved }
# 8000001F: AMD Secure Encryption
0x8000001F, 0, EAX, 0, sme, Secure Memory Encryption
0x8000001F, 0, EAX, 1, sev, Secure Encrypted Virtualization
0x8000001F, 0, EAX, 2, vmpgflush, VM Page Flush MSR
0x8000001F, 0, EAX, 3, seves, SEV Encrypted State
0x8000001F, 0, EBX, 5:0, c-bit, Page table bit number used to enable memory encryption
0x8000001F, 0, EBX, 11:6, mem_encrypt_physaddr_width, Reduction of physical address space in bits with SME enabled
0x8000001F, 0, ECX, 31:0, num_encrypted_guests, Maximum ASID value that may be used for an SEV-enabled guest
0x8000001F, 0, EDX, 31:0, minimum_sev_asid, Minimum ASID value that must be used for an SEV-enabled, SEV-ES-disabled guest
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// SPDX-License-Identifier: GPL-2.0
#define _GNU_SOURCE
#include <stdio.h>
#include <stdbool.h>
#include <stdlib.h>
#include <string.h>
#include <getopt.h>
#define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
typedef unsigned int u32;
typedef unsigned long long u64;
char *def_csv = "/usr/share/misc/cpuid.csv";
char *user_csv;
/* Cover both single-bit flag and multiple-bits fields */
struct bits_desc {
/* start and end bits */
int start, end;
/* 0 or 1 for 1-bit flag */
int value;
char simp[32];
char detail[256];
};
/* descriptor info for eax/ebx/ecx/edx */
struct reg_desc {
/* number of valid entries */
int nr;
struct bits_desc descs[32];
};
enum {
R_EAX = 0,
R_EBX,
R_ECX,
R_EDX,
NR_REGS
};
struct subleaf {
u32 index;
u32 sub;
u32 eax, ebx, ecx, edx;
struct reg_desc info[NR_REGS];
};
/* Represent one leaf (basic or extended) */
struct cpuid_func {
/*
* Array of subleafs for this func, if there is no subleafs
* then the leafs[0] is the main leaf
*/
struct subleaf *leafs;
int nr;
};
struct cpuid_range {
/* array of main leafs */
struct cpuid_func *funcs;
/* number of valid leafs */
int nr;
bool is_ext;
};
/*
* basic: basic functions range: [0... ]
* ext: extended functions range: [0x80000000... ]
*/
struct cpuid_range *leafs_basic, *leafs_ext;
static int num_leafs;
static bool is_amd;
static bool show_details;
static bool show_raw;
static bool show_flags_only = true;
static u32 user_index = 0xFFFFFFFF;
static u32 user_sub = 0xFFFFFFFF;
static int flines;
static inline void cpuid(u32 *eax, u32 *ebx, u32 *ecx, u32 *edx)
{
/* ecx is often an input as well as an output. */
asm volatile("cpuid"
: "=a" (*eax),
"=b" (*ebx),
"=c" (*ecx),
"=d" (*edx)
: "0" (*eax), "2" (*ecx));
}
static inline bool has_subleafs(u32 f)
{
if (f == 0x7 || f == 0xd)
return true;
if (is_amd) {
if (f == 0x8000001d)
return true;
return false;
}
switch (f) {
case 0x4:
case 0xb:
case 0xf:
case 0x10:
case 0x14:
case 0x18:
case 0x1f:
return true;
default:
return false;
}
}
static void leaf_print_raw(struct subleaf *leaf)
{
if (has_subleafs(leaf->index)) {
if (leaf->sub == 0)
printf("0x%08x: subleafs:\n", leaf->index);
printf(" %2d: EAX=0x%08x, EBX=0x%08x, ECX=0x%08x, EDX=0x%08x\n",
leaf->sub, leaf->eax, leaf->ebx, leaf->ecx, leaf->edx);
} else {
printf("0x%08x: EAX=0x%08x, EBX=0x%08x, ECX=0x%08x, EDX=0x%08x\n",
leaf->index, leaf->eax, leaf->ebx, leaf->ecx, leaf->edx);
}
}
/* Return true is the input eax/ebx/ecx/edx are all zero */
static bool cpuid_store(struct cpuid_range *range, u32 f, int subleaf,
u32 a, u32 b, u32 c, u32 d)
{
struct cpuid_func *func;
struct subleaf *leaf;
int s = 0;
if (a == 0 && b == 0 && c == 0 && d == 0)
return true;
/*
* Cut off vendor-prefix from CPUID function as we're using it as an
* index into ->funcs.
*/
func = &range->funcs[f & 0xffff];
if (!func->leafs) {
func->leafs = malloc(sizeof(struct subleaf));
if (!func->leafs)
perror("malloc func leaf");
func->nr = 1;
} else {
s = func->nr;
func->leafs = realloc(func->leafs, (s + 1) * sizeof(*leaf));
if (!func->leafs)
perror("realloc f->leafs");
func->nr++;
}
leaf = &func->leafs[s];
leaf->index = f;
leaf->sub = subleaf;
leaf->eax = a;
leaf->ebx = b;
leaf->ecx = c;
leaf->edx = d;
return false;
}
static void raw_dump_range(struct cpuid_range *range)
{
u32 f;
int i;
printf("%s Leafs :\n", range->is_ext ? "Extended" : "Basic");
printf("================\n");
for (f = 0; (int)f < range->nr; f++) {
struct cpuid_func *func = &range->funcs[f];
u32 index = f;
if (range->is_ext)
index += 0x80000000;
/* Skip leaf without valid items */
if (!func->nr)
continue;
/* First item is the main leaf, followed by all subleafs */
for (i = 0; i < func->nr; i++)
leaf_print_raw(&func->leafs[i]);
}
}
#define MAX_SUBLEAF_NUM 32
struct cpuid_range *setup_cpuid_range(u32 input_eax)
{
u32 max_func, idx_func;
int subleaf;
struct cpuid_range *range;
u32 eax, ebx, ecx, edx;
u32 f = input_eax;
int max_subleaf;
bool allzero;
eax = input_eax;
ebx = ecx = edx = 0;
cpuid(&eax, &ebx, &ecx, &edx);
max_func = eax;
idx_func = (max_func & 0xffff) + 1;
range = malloc(sizeof(struct cpuid_range));
if (!range)
perror("malloc range");
if (input_eax & 0x80000000)
range->is_ext = true;
else
range->is_ext = false;
range->funcs = malloc(sizeof(struct cpuid_func) * idx_func);
if (!range->funcs)
perror("malloc range->funcs");
range->nr = idx_func;
memset(range->funcs, 0, sizeof(struct cpuid_func) * idx_func);
for (; f <= max_func; f++) {
eax = f;
subleaf = ecx = 0;
cpuid(&eax, &ebx, &ecx, &edx);
allzero = cpuid_store(range, f, subleaf, eax, ebx, ecx, edx);
if (allzero)
continue;
num_leafs++;
if (!has_subleafs(f))
continue;
max_subleaf = MAX_SUBLEAF_NUM;
/*
* Some can provide the exact number of subleafs,
* others have to be tried (0xf)
*/
if (f == 0x7 || f == 0x14 || f == 0x17 || f == 0x18)
max_subleaf = (eax & 0xff) + 1;
if (f == 0xb)
max_subleaf = 2;
for (subleaf = 1; subleaf < max_subleaf; subleaf++) {
eax = f;
ecx = subleaf;
cpuid(&eax, &ebx, &ecx, &edx);
allzero = cpuid_store(range, f, subleaf,
eax, ebx, ecx, edx);
if (allzero)
continue;
num_leafs++;
}
}
return range;
}
/*
* The basic row format for cpuid.csv is
* LEAF,SUBLEAF,register_name,bits,short name,long description
*
* like:
* 0, 0, EAX, 31:0, max_basic_leafs, Max input value for supported subleafs
* 1, 0, ECX, 0, sse3, Streaming SIMD Extensions 3(SSE3)
*/
static int parse_line(char *line)
{
char *str;
int i;
struct cpuid_range *range;
struct cpuid_func *func;
struct subleaf *leaf;
u32 index;
u32 sub;
char buffer[512];
char *buf;
/*
* Tokens:
* 1. leaf
* 2. subleaf
* 3. register
* 4. bits
* 5. short name
* 6. long detail
*/
char *tokens[6];
struct reg_desc *reg;
struct bits_desc *bdesc;
int reg_index;
char *start, *end;
/* Skip comments and NULL line */
if (line[0] == '#' || line[0] == '\n')
return 0;
strncpy(buffer, line, 511);
buffer[511] = 0;
str = buffer;
for (i = 0; i < 5; i++) {
tokens[i] = strtok(str, ",");
if (!tokens[i])
goto err_exit;
str = NULL;
}
tokens[5] = strtok(str, "\n");
if (!tokens[5])
goto err_exit;
/* index/main-leaf */
index = strtoull(tokens[0], NULL, 0);
if (index & 0x80000000)
range = leafs_ext;
else
range = leafs_basic;
index &= 0x7FFFFFFF;
/* Skip line parsing for non-existing indexes */
if ((int)index >= range->nr)
return -1;
func = &range->funcs[index];
/* Return if the index has no valid item on this platform */
if (!func->nr)
return 0;
/* subleaf */
sub = strtoul(tokens[1], NULL, 0);
if ((int)sub > func->nr)
return -1;
leaf = &func->leafs[sub];
buf = tokens[2];
if (strcasestr(buf, "EAX"))
reg_index = R_EAX;
else if (strcasestr(buf, "EBX"))
reg_index = R_EBX;
else if (strcasestr(buf, "ECX"))
reg_index = R_ECX;
else if (strcasestr(buf, "EDX"))
reg_index = R_EDX;
else
goto err_exit;
reg = &leaf->info[reg_index];
bdesc = &reg->descs[reg->nr++];
/* bit flag or bits field */
buf = tokens[3];
end = strtok(buf, ":");
bdesc->end = strtoul(end, NULL, 0);
bdesc->start = bdesc->end;
/* start != NULL means it is bit fields */
start = strtok(NULL, ":");
if (start)
bdesc->start = strtoul(start, NULL, 0);
strcpy(bdesc->simp, tokens[4]);
strcpy(bdesc->detail, tokens[5]);
return 0;
err_exit:
printf("Warning: wrong line format:\n");
printf("\tline[%d]: %s\n", flines, line);
return -1;
}
/* Parse csv file, and construct the array of all leafs and subleafs */
static void parse_text(void)
{
FILE *file;
char *filename, *line = NULL;
size_t len = 0;
int ret;
if (show_raw)
return;
filename = user_csv ? user_csv : def_csv;
file = fopen(filename, "r");
if (!file) {
/* Fallback to a csv in the same dir */
file = fopen("./cpuid.csv", "r");
}
if (!file) {
printf("Fail to open '%s'\n", filename);
return;
}
while (1) {
ret = getline(&line, &len, file);
flines++;
if (ret > 0)
parse_line(line);
if (feof(file))
break;
}
fclose(file);
}
/* Decode every eax/ebx/ecx/edx */
static void decode_bits(u32 value, struct reg_desc *rdesc)
{
struct bits_desc *bdesc;
int start, end, i;
u32 mask;
for (i = 0; i < rdesc->nr; i++) {
bdesc = &rdesc->descs[i];
start = bdesc->start;
end = bdesc->end;
if (start == end) {
/* single bit flag */
if (value & (1 << start))
printf("\t%-20s %s%s\n",
bdesc->simp,
show_details ? "-" : "",
show_details ? bdesc->detail : ""
);
} else {
/* bit fields */
if (show_flags_only)
continue;
mask = ((u64)1 << (end - start + 1)) - 1;
printf("\t%-20s\t: 0x%-8x\t%s%s\n",
bdesc->simp,
(value >> start) & mask,
show_details ? "-" : "",
show_details ? bdesc->detail : ""
);
}
}
}
static void show_leaf(struct subleaf *leaf)
{
if (!leaf)
return;
if (show_raw)
leaf_print_raw(leaf);
decode_bits(leaf->eax, &leaf->info[R_EAX]);
decode_bits(leaf->ebx, &leaf->info[R_EBX]);
decode_bits(leaf->ecx, &leaf->info[R_ECX]);
decode_bits(leaf->edx, &leaf->info[R_EDX]);
}
static void show_func(struct cpuid_func *func)
{
int i;
if (!func)
return;
for (i = 0; i < func->nr; i++)
show_leaf(&func->leafs[i]);
}
static void show_range(struct cpuid_range *range)
{
int i;
for (i = 0; i < range->nr; i++)
show_func(&range->funcs[i]);
}
static inline struct cpuid_func *index_to_func(u32 index)
{
struct cpuid_range *range;
range = (index & 0x80000000) ? leafs_ext : leafs_basic;
index &= 0x7FFFFFFF;
if (((index & 0xFFFF) + 1) > (u32)range->nr) {
printf("ERR: invalid input index (0x%x)\n", index);
return NULL;
}
return &range->funcs[index];
}
static void show_info(void)
{
struct cpuid_func *func;
if (show_raw) {
/* Show all of the raw output of 'cpuid' instr */
raw_dump_range(leafs_basic);
raw_dump_range(leafs_ext);
return;
}
if (user_index != 0xFFFFFFFF) {
/* Only show specific leaf/subleaf info */
func = index_to_func(user_index);
if (!func)
return;
/* Dump the raw data also */
show_raw = true;
if (user_sub != 0xFFFFFFFF) {
if (user_sub + 1 <= (u32)func->nr) {
show_leaf(&func->leafs[user_sub]);
return;
}
printf("ERR: invalid input subleaf (0x%x)\n", user_sub);
}
show_func(func);
return;
}
printf("CPU features:\n=============\n\n");
show_range(leafs_basic);
show_range(leafs_ext);
}
static void setup_platform_cpuid(void)
{
u32 eax, ebx, ecx, edx;
/* Check vendor */
eax = ebx = ecx = edx = 0;
cpuid(&eax, &ebx, &ecx, &edx);
/* "htuA" */
if (ebx == 0x68747541)
is_amd = true;
/* Setup leafs for the basic and extended range */
leafs_basic = setup_cpuid_range(0x0);
leafs_ext = setup_cpuid_range(0x80000000);
}
static void usage(void)
{
printf("kcpuid [-abdfhr] [-l leaf] [-s subleaf]\n"
"\t-a|--all Show both bit flags and complex bit fields info\n"
"\t-b|--bitflags Show boolean flags only\n"
"\t-d|--detail Show details of the flag/fields (default)\n"
"\t-f|--flags Specify the cpuid csv file\n"
"\t-h|--help Show usage info\n"
"\t-l|--leaf=index Specify the leaf you want to check\n"
"\t-r|--raw Show raw cpuid data\n"
"\t-s|--subleaf=sub Specify the subleaf you want to check\n"
);
}
static struct option opts[] = {
{ "all", no_argument, NULL, 'a' }, /* show both bit flags and fields */
{ "bitflags", no_argument, NULL, 'b' }, /* only show bit flags, default on */
{ "detail", no_argument, NULL, 'd' }, /* show detail descriptions */
{ "file", required_argument, NULL, 'f' }, /* use user's cpuid file */
{ "help", no_argument, NULL, 'h'}, /* show usage */
{ "leaf", required_argument, NULL, 'l'}, /* only check a specific leaf */
{ "raw", no_argument, NULL, 'r'}, /* show raw CPUID leaf data */
{ "subleaf", required_argument, NULL, 's'}, /* check a specific subleaf */
{ NULL, 0, NULL, 0 }
};
static int parse_options(int argc, char *argv[])
{
int c;
while ((c = getopt_long(argc, argv, "abdf:hl:rs:",
opts, NULL)) != -1)
switch (c) {
case 'a':
show_flags_only = false;
break;
case 'b':
show_flags_only = true;
break;
case 'd':
show_details = true;
break;
case 'f':
user_csv = optarg;
break;
case 'h':
usage();
exit(1);
break;
case 'l':
/* main leaf */
user_index = strtoul(optarg, NULL, 0);
break;
case 'r':
show_raw = true;
break;
case 's':
/* subleaf */
user_sub = strtoul(optarg, NULL, 0);
break;
default:
printf("%s: Invalid option '%c'\n", argv[0], optopt);
return -1;
}
return 0;
}
/*
* Do 4 things in turn:
* 1. Parse user options
* 2. Parse and store all the CPUID leaf data supported on this platform
* 2. Parse the csv file, while skipping leafs which are not available
* on this platform
* 3. Print leafs info based on user options
*/
int main(int argc, char *argv[])
{
if (parse_options(argc, argv))
return -1;
/* Setup the cpuid leafs of current platform */
setup_platform_cpuid();
/* Read and parse the 'cpuid.csv' */
parse_text();
show_info();
return 0;
}

View File

@ -45,3 +45,5 @@ call64_from_32:
ret
.size call64_from_32, .-call64_from_32
.section .note.GNU-stack,"",%progbits