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core-cpu.c
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core-cpu.c
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/*
* Copyright (C) 2014-2020 Canonical, Ltd.
* Copyright (C) 2021-2024 Colin Ian King.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
*/
#include "stress-ng.h"
#include "core-arch.h"
#include "core-asm-x86.h"
#include "core-builtin.h"
#include "core-cpu.h"
/* Name + dest reg */ /* Input -> Output */
#define CPUID_sse3_ECX (1U << 0) /* EAX=0x1 -> ECX */
#define CPUID_pclmulqdq_ECX (1U << 1) /* EAX=0x1 -> ECX */
#define CPUID_dtes64_ECX (1U << 2) /* EAX=0x1 -> ECX */
#define CPUID_monitor_EC (1U << 3) /* EAX=0x1 -> ECX */
#define CPUID_ds_cpl_ECX (1U << 4) /* EAX=0x1 -> ECX */
#define CPUID_vmx_ECX (1U << 5) /* EAX=0x1 -> ECX */
#define CPUID_smx_ECX (1U << 6) /* EAX=0x1 -> ECX */
#define CPUID_est_ECX (1U << 7) /* EAX=0x1 -> ECX */
#define CPUID_tm2_ECX (1U << 8) /* EAX=0x1 -> ECX */
#define CPUID_ssse3_ECX (1U << 9) /* EAX=0x1 -> ECX */
#define CPUID_cnxt_id_ECX (1U << 10) /* EAX=0x1 -> ECX */
#define CPUID_sdbg_ECX (1U << 11) /* EAX=0x1 -> ECX */
#define CPUID_fma_ECX (1U << 12) /* EAX=0x1 -> ECX */
#define CPUID_cx16_ECX (1U << 13) /* EAX=0x1 -> ECX */
#define CPUID_xtpr_ECX (1U << 14) /* EAX=0x1 -> ECX */
#define CPUID_pdcm_ECX (1U << 15) /* EAX=0x1 -> ECX */
#define CPUID_pcid_ECX (1U << 17) /* EAX=0x1 -> ECX */
#define CPUID_dca_ECX (1U << 18) /* EAX=0x1 -> ECX */
#define CPUID_sse4_1_ECX (1U << 19) /* EAX=0x1 -> ECX */
#define CPUID_sse4_2_ECX (1U << 20) /* EAX=0x1 -> ECX */
#define CPUID_x2apic_ECX (1U << 21) /* EAX=0x1 -> ECX */
#define CPUID_movbe_ECX (1U << 22) /* EAX=0x1 -> ECX */
#define CPUID_popcnt_ECX (1U << 23) /* EAX=0x1 -> ECX */
#define CPUID_tsc_deadline_ECX (1U << 24) /* EAX=0x1 -> ECX */
#define CPUID_aes_ECX (1U << 25) /* EAX=0x1 -> ECX */
#define CPUID_xsave_ECX (1U << 26) /* EAX=0x1 -> ECX */
#define CPUID_osxsave_ECX (1U << 27) /* EAX=0x1 -> ECX */
#define CPUID_avx_ECX (1U << 28) /* EAX=0x1 -> ECX */
#define CPUID_f16c_ECX (1U << 29) /* EAX=0x1 -> ECX */
#define CPUID_rdrnd_ECX (1U << 30) /* EAX=0x1 -> ECX */
#define CPUID_hypervisor_ECX (1U << 26) /* EAX=0x1 -> ECX */
#define CPUID_fpu_EDX (1U << 0) /* EAX=0x1 -> EDX */
#define CPUID_vme_EDX (1U << 1) /* EAX=0x1 -> EDX */
#define CPUID_de_EDX (1U << 2) /* EAX=0x1 -> EDX */
#define CPUID_pse_EDX (1U << 3) /* EAX=0x1 -> EDX */
#define CPUID_tsc_EDX (1U << 4) /* EAX=0x1 -> EDX */
#define CPUID_msr_EDX (1U << 5) /* EAX=0x1 -> EDX */
#define CPUID_pae_EDX (1U << 6) /* EAX=0x1 -> EDX */
#define CPUID_mce_EDX (1U << 7) /* EAX=0x1 -> EDX */
#define CPUID_cx8_EDX (1U << 8) /* EAX=0x1 -> EDX */
#define CPUID_apic_EDX (1U << 9) /* EAX=0x1 -> EDX */
#define CPUID_sep_EDX (1U << 11) /* EAX=0x1 -> EDX */
#define CPUID_mtrr_EDX (1U << 12) /* EAX=0x1 -> EDX */
#define CPUID_pge_EDX (1U << 13) /* EAX=0x1 -> EDX */
#define CPUID_mca_EDX (1U << 14) /* EAX=0x1 -> EDX */
#define CPUID_cmov_EDX (1U << 15) /* EAX=0x1 -> EDX */
#define CPUID_pat_EDX (1U << 16) /* EAX=0x1 -> EDX */
#define CPUID_pse_36_EDX (1U << 17) /* EAX=0x1 -> EDX */
#define CPUID_psn_EDX (1U << 18) /* EAX=0x1 -> EDX */
#define CPUID_clfsh_EDX (1U << 19) /* EAX=0x1 -> EDX */
#define CPUID_ds_EDX (1U << 21) /* EAX=0x1 -> EDX */
#define CPUID_acpi_EDX (1U << 22) /* EAX=0x1 -> EDX */
#define CPUID_mmx_EDX (1U << 23) /* EAX=0x1 -> EDX */
#define CPUID_fxsr_EDX (1U << 24) /* EAX=0x1 -> EDX */
#define CPUID_sse_EDX (1U << 25) /* EAX=0x1 -> EDX */
#define CPUID_sse2_EDX (1U << 26) /* EAX=0x1 -> EDX */
#define CPUID_ss_EDX (1U << 27) /* EAX=0x1 -> EDX */
#define CPUID_htt_EDX (1U << 28) /* EAX=0x1 -> EDX */
#define CPUID_tm_EDX (1U << 29) /* EAX=0x1 -> EDX */
#define CPUID_ia64_EDX (1U << 30) /* EAX=0x1 -> EDX */
#define CPUID_pbe_EDX (1U << 31) /* EAX=0x1 -> EDX */
#define CPUID_fsgsbase_EBX (1U << 0) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_sgx_EBX (1U << 2) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_bmi1_EBX (1U << 3) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_fsgsbase_EBX (1U << 0) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_sgx_EBX (1U << 2) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_bmi1_EBX (1U << 3) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_hle_EBX (1U << 4) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_avx2_EBX (1U << 5) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_smep_EBX (1U << 7) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_bmi2_EBX (1U << 8) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_erms_EBX (1U << 9) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_invpcid_EBX (1U << 10) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_rtm_EBX (1U << 11) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_pqm_EBX (1U << 12) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_mpx_EBX (1U << 14) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_pqe_EBX (1U << 15) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_avx512_f_EBX (1U << 16) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_avx512_dq_EBX (1U << 17) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_rdseed_EBX (1U << 18) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_adx_EBX (1U << 19) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_smap_EBX (1U << 20) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_avx512_ifma_EBX (1U << 21) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_pcommit_EBX (1U << 22) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_clflushopt_EBX (1U << 23) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_clwb_EBX (1U << 24) /* EAX=0x7, ECX=0x0 -> EBX */
#define CPUID_intel_pt_EBX (1U << 25) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_avx512_pf_EBX (1U << 26) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_avx512_er_EBX (1U << 27) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_avx512_cd_EBX (1U << 28) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_sha_EBX (1U << 29) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_avx512_bw_EBX (1U << 30) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_avx512_vl_EBX (1U << 31) /* EAX=0x7, EXC=0x0 -> EBX */
#define CPUID_prefetchwt1_ECX (1U << 0) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_avx512_vbmi_ECX (1U << 1) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_umip_ECX (1U << 2) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_pku_ECX (1U << 3) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_ospke_ECX (1U << 4) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_waitpkg_ECX (1U << 5) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_avx512_vbmi2_ECX (1U << 6) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_cet_ss_ECX (1U << 7) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_gfni_ECX (1U << 8) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_vaes_ECX (1U << 9) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_vclmulqdq_ECX (1U << 10) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_avx512_vnni_ECX (1U << 11) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_avx512_bitalg_ECX (1U << 12) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_tme_en_ECX (1U << 13) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_avx512_vpopcntdq_ECX (1U << 14) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_rdpid_ECX (1U << 22) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_kl_ECX (1U << 23) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_cldemote_ECX (1U << 25) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_movdiri_ECX (1U << 27) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_movdir64b_ECX (1U << 28) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_enqcmd_ECX (1U << 29) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_sgx_lc_ECX (1U << 30) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_pks_ECX (1U << 31) /* EAX=0x7, ECX=0x0, -> ECX */
#define CPUID_avx512_4vnniw_EDX (1U << 2) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_avx512_4fmaps_EDX (1U << 3) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_fsrm_EDX (1U << 4) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_avx512_vp2intersect_EDX (1U << 8) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_srbds_ctrl_edx (1U << 9) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_md_clear_EDX (1U << 10) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_tsx_force_abort_EDX (1U << 13) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_serialize_EDX (1U << 14) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_hybrid_EDX (1U << 15) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_tsxldtrk_EDX (1U << 16) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_pconfig_EDX (1U << 18) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_lbr_EDX (1U << 19) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_cet_ibt_EDX (1U << 20) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_amx_bf16_EDX (1U << 22) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_avx512_fp16_EDX (1U << 23) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_amx_tile_EDX (1U << 24) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_amx_int8_EDX (1U << 25) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_ibrs_ibpb_EDX (1U << 26) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_stip_EDX (1U << 27) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_l1d_flush_EDX (1U << 28) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_ia32_arch_cap_EDX (1U << 29) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_ia32_core_cap_EDX (1U << 30) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_ssbd_EDX (1U << 31) /* EAX=0x7, ECX=0x0, -> EDX */
#define CPUID_sh512_EAX (1U << 0) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_sm3_EAX (1U << 1) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_sm4_EAX (1U << 2) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_raio_int_EAX (1U << 3) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_avx_vnni_EAX (1U << 4) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_avx512_bf16_EAX (1U << 5) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_lass_EAX (1U << 6) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_compccxadd_EAX (1U << 7) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_archperfmonext_EAX (0U << 8) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_fast_zero_rep_movsb_EAX (1U << 10) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_fast_short_rep_stosb_EAX (1U << 11) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_fast_short_rep_cmpsb_scasb_EAX (1U << 12) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_fred_EAX (1U << 17) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_lkgs_EAX (1U << 18) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_wrmsrns_EAX (1U << 19) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_amx_fp16_EAX (1U << 21) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_hreset_EAX (1U << 22) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_avx_ifma_EAX (1U << 23) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_lam_EAX (1U << 26) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_msrlist_EAX (1U << 27) /* EAX=0x7, ECX=0x1, -> EAX */
#define CPUID_tse_EBX (1U << 1) /* EAX=0x7, ECX=0x1, -> EBX */
#define CPUID_avx_vnni_int8_EDX (1U << 4) /* EAX=0x7, ECX=0x1, -> EDX */
#define CPUID_avx_ne_convert_EDX (1U << 5) /* EAX=0x7, ECX=0x1, -> EDX */
#define CPUID_amx_complex_EDX (1U << 8) /* EAX=0x7, ECX=0x1, -> EDX */
#define CPUID_amx_vnni_int16_EDX (1U << 10) /* EAX=0x7, ECX=0x1, -> EDX */
#define CPUID_prefetchi_EDX (1U << 14) /* EAX=0x7, ECX=0x1, -> EDX */
#define CPUID_uiret_uiif_from_rflags_EDX (1U << 17) /* EAX=0x7, ECX=0x1, -> EDX */
#define CPUID_cet_sss_EDX (1U << 18) /* EAX=0x7, ECX=0x1, -> EDX */
#define CPUID_avx10_EDX (1U << 19) /* EAX=0x7, ECX=0x1, -> EDX */
#define CPUID_apx_f_EDX (1U << 21) /* EAX=0x7, ECX=0x1, -> EDX */
#define CPUID_pfsd_EDX (1U << 0) /* EAX=0x7, ECX=0x2, -> EDX */
#define CPUID_ipred_dis_EDX (1U << 1) /* EAX=0x7, ECX=0x2, -> EDX */
#define CPUID_rrsba_ctrl_EDX (1U << 2) /* EAX=0x7, ECX=0x2, -> EDX */
#define CPUID_dppd_u_EDX (1U << 3) /* EAX=0x7, ECX=0x2, -> EDX */
#define CPUID_bhi_ctrl_EDX (1U << 4) /* EAX=0x7, ECX=0x2, -> EDX */
#define CPUID_mcdt_no_EDX (1U << 5) /* EAX=0x7, ECX=0x2, -> EDX */
#define CPUID_syscall_EDX (1U << 11) /* EAX=0x80000001 -> EDX */
#define CPUID_rdtscp (1U << 27) /* EAX=0x80000001 -> EDX */
/*
* stress_cpu_is_x86()
* Intel x86 test
*/
bool stress_cpu_is_x86(void)
{
#if defined(STRESS_ARCH_X86)
/*
* Kudos to https://en.wikipedia.org/wiki/CPUID
*/
static const char * const x86_id_str[] = {
"GenuineIntel", /* Intel */
"GenuineIotel", /* Intel (https://twitter.com/InstLatX64/status/1101230794364862464) */
"AMDisbetter!", /* early engineering samples of AMD K5 processor */
"AuthenticAMD", /* AMD */
"CentaurHauls", /* IDT WinChip/Centaur (Including some VIA and Zhaoxin CPUs) */
"TransmetaCPU", /* Transmeta */
"GenuineTMx86", /* Transmeta */
"Geode by NSC", /* National Semiconductor */
"NexGenDriven", /* NexGen */
"RiseRiseRise", /* Rise */
"SiS SiS SiS ", /* SiS */
"UMC UMC UMC ", /* UMC */
"Vortex86 SoC", /* DM&P Vortex86 */
" Shanghai ", /* Zhaoxin */
"HygonGenuine", /* Hygon */
"Genuine RDC", /* RDC Semiconductor Co. Ltd. */
"E2K MACHINE\0", /* MCST Elbrus */
"GenuineAO486", /* ao486 CPU (old) */
"MiSTer AO486", /* ao486 CPU */
"bhyve bhyve ", /* bhyve VM */
"KVMKVMKVM\0\0\0", /* KVM */
"TCGTCGTCGTCG", /* QEMU */
"Microsoft Hv", /* Microsoft Hyper-V or Windows Virtual PC */
"MicrosoftXTA", /* Microsoft x86-to-ARM */
" lrpepyh vr", /* Parallels */
"VMwareVMware", /* VMWare */
"XenVMMXenVMM", /* XEN HVM */
"ACRNACRNACRN", /* Project ACRN */
" QNXQVMBSQG ", /* QNX Hypervisor */
"VirtualApple", /* Newer versions of Apple Rosetta 2 */
};
uint32_t eax = 0, ebx = 0, ecx = 0, edx = 0;
size_t i;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
/* Intel CPU? */
for (i = 0; i < SIZEOF_ARRAY(x86_id_str); i++) {
const char *str = x86_id_str[i];
if ((shim_memcmp(&ebx, str + 0, 4) == 0) &&
(shim_memcmp(&edx, str + 4, 4) == 0) &&
(shim_memcmp(&ecx, str + 8, 4) == 0))
return true;
}
#endif
return false;
}
/*
* stress_cpu_x86_extended_features
* cpuid EAX=7, ECX=0: Extended Features
*/
#if defined(STRESS_ARCH_X86)
#define stress_cpu_x86_extended_features(ebx, ecx, edx) \
{ \
uint32_t eax = 7; \
\
stress_asm_x86_cpuid(eax, ebx, ecx, edx); \
}
#endif
/*
* stress_cpu_x86_has_clflushopt()
* does x86 cpu support clflushopt?
*/
bool stress_cpu_x86_has_clflushopt(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_cpu_x86_extended_features(ebx, ecx, edx);
return !!(ebx & CPUID_clflushopt_EBX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_clwb()
* does x86 cpu support clwb?
*/
bool stress_cpu_x86_has_clwb(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_cpu_x86_extended_features(ebx, ecx, edx);
return !!(ebx & CPUID_clwb_EBX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_cldemote()
* does x86 cpu support cldemote?
*/
bool stress_cpu_x86_has_cldemote(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_cpu_x86_extended_features(ebx, ecx, edx);
return !!(ecx & CPUID_cldemote_ECX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_waitpkg()
* does x86 cpu support waitpkg?
*/
bool stress_cpu_x86_has_waitpkg(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_cpu_x86_extended_features(ebx, ecx, edx);
return !!(ecx & CPUID_waitpkg_ECX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_rdseed()
* does x86 cpu support rdseed?
*/
bool stress_cpu_x86_has_rdseed(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_cpu_x86_extended_features(ebx, ecx, edx);
return !!(ebx & CPUID_rdseed_EBX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_syscall()
* does x86 cpu support syscall?
*/
bool stress_cpu_x86_has_syscall(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x80000001, ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(edx & CPUID_syscall_EDX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_rdrand()
* does x86 cpu support rdrand?
*/
bool stress_cpu_x86_has_rdrand(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x1, ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(ecx & CPUID_rdrnd_ECX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_tsc()
* does x86 cpu support tsc?
*/
bool stress_cpu_x86_has_tsc(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x1, ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(edx & CPUID_tsc_EDX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_rdtscp()
* does x86 cpu support rdtscp?
*/
bool stress_cpu_x86_has_rdtscp(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x80000001, ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(edx & CPUID_rdtscp);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_msr()
* does x86 cpu support MSRs?
*/
bool stress_cpu_x86_has_msr(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x1, ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(edx & CPUID_msr_EDX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_clfsh()
* does x86 cpu support clflush?
*/
bool stress_cpu_x86_has_clfsh(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x1, ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(edx & CPUID_clfsh_EDX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_mmx()
* does x86 cpu support mmx?
*/
bool stress_cpu_x86_has_mmx(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x1, ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(edx & CPUID_mmx_EDX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_sse()
* does x86 cpu support sse?
*/
bool stress_cpu_x86_has_sse(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x1, ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(edx & CPUID_sse_EDX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_sse2()
* does x86 cpu support sse?
*/
bool stress_cpu_x86_has_sse2(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x1, ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(edx & CPUID_sse2_EDX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_serialize()
* does x86 cpu support serialize opcode?
*/
bool stress_cpu_x86_has_serialize(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x7, ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(edx & CPUID_serialize_EDX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_avx_vnni()
* does x86 cpu support avx_vnni
*/
bool stress_cpu_x86_has_avx_vnni(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x7, ebx = 0, ecx = 1, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(eax & CPUID_avx_vnni_EAX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_avx512_vl()
* does x86 cpu support avx512_vl
*/
bool stress_cpu_x86_has_avx512_vl(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x7, ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(ebx & CPUID_avx512_vl_EBX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_avx512_vnni()
* does x86 cpu support avx512_vnni
*/
bool stress_cpu_x86_has_avx512_vnni(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x7, ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(ecx & CPUID_avx512_vnni_ECX);
#else
return false;
#endif
}
/*
* stress_cpu_x86_has_avx512_bw()
* does x86 cpu support avx512_bw
*/
bool stress_cpu_x86_has_avx512_bw(void)
{
#if defined(STRESS_ARCH_X86)
uint32_t eax = 0x7, ebx = 0, ecx = 0, edx = 0;
if (!stress_cpu_is_x86())
return false;
stress_asm_x86_cpuid(eax, ebx, ecx, edx);
return !!(ebx & CPUID_avx512_bw_EBX);
#else
return false;
#endif
}