qemu/target/s390x/gen-features.c

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/*
* S390 feature list generator
*
* Copyright IBM Corp. 2016, 2018
*
* Author(s): Michael Mueller <mimu@linux.vnet.ibm.com>
* David Hildenbrand <dahi@linux.vnet.ibm.com>
*
* This work is licensed under the terms of the GNU GPL, version 2 or (at
* your option) any later version. See the COPYING file in the top-level
* directory.
*/
#include <inttypes.h>
#include <stdio.h>
#include <string.h>
#include "cpu_features_def.h"
#define ARRAY_SIZE(array) (sizeof(array) / sizeof(array[0]))
/***** BEGIN FEATURE DEFS *****/
#define S390_FEAT_GROUP_PLO \
S390_FEAT_PLO_CL, \
S390_FEAT_PLO_CLG, \
S390_FEAT_PLO_CLGR, \
S390_FEAT_PLO_CLX, \
S390_FEAT_PLO_CS, \
S390_FEAT_PLO_CSG, \
S390_FEAT_PLO_CSGR, \
S390_FEAT_PLO_CSX, \
S390_FEAT_PLO_DCS, \
S390_FEAT_PLO_DCSG, \
S390_FEAT_PLO_DCSGR, \
S390_FEAT_PLO_DCSX, \
S390_FEAT_PLO_CSST, \
S390_FEAT_PLO_CSSTG, \
S390_FEAT_PLO_CSSTGR, \
S390_FEAT_PLO_CSSTX, \
S390_FEAT_PLO_CSDST, \
S390_FEAT_PLO_CSDSTG, \
S390_FEAT_PLO_CSDSTGR, \
S390_FEAT_PLO_CSDSTX, \
S390_FEAT_PLO_CSTST, \
S390_FEAT_PLO_CSTSTG, \
S390_FEAT_PLO_CSTSTGR, \
S390_FEAT_PLO_CSTSTX
#define S390_FEAT_GROUP_TOD_CLOCK_STEERING \
S390_FEAT_TOD_CLOCK_STEERING, \
S390_FEAT_PTFF_QTO, \
S390_FEAT_PTFF_QSI, \
S390_FEAT_PTFF_QPT, \
S390_FEAT_PTFF_STO
#define S390_FEAT_GROUP_GEN13_PTFF \
S390_FEAT_PTFF_QUI, \
S390_FEAT_PTFF_QTOU, \
S390_FEAT_PTFF_STOU
#define S390_FEAT_GROUP_MULTIPLE_EPOCH_PTFF \
S390_FEAT_PTFF_QSIE, \
S390_FEAT_PTFF_QTOUE, \
S390_FEAT_PTFF_STOE, \
S390_FEAT_PTFF_STOUE
#define S390_FEAT_GROUP_MSA \
S390_FEAT_MSA, \
S390_FEAT_KMAC_DEA, \
S390_FEAT_KMAC_TDEA_128, \
S390_FEAT_KMAC_TDEA_192, \
S390_FEAT_KMC_DEA, \
S390_FEAT_KMC_TDEA_128, \
S390_FEAT_KMC_TDEA_192, \
S390_FEAT_KM_DEA, \
S390_FEAT_KM_TDEA_128, \
S390_FEAT_KM_TDEA_192, \
S390_FEAT_KIMD_SHA_1, \
S390_FEAT_KLMD_SHA_1
#define S390_FEAT_GROUP_MSA_EXT_1 \
S390_FEAT_KMC_AES_128, \
S390_FEAT_KM_AES_128, \
S390_FEAT_KIMD_SHA_256, \
S390_FEAT_KLMD_SHA_256
#define S390_FEAT_GROUP_MSA_EXT_2 \
S390_FEAT_KMC_AES_192, \
S390_FEAT_KMC_AES_256, \
S390_FEAT_KMC_PRNG, \
S390_FEAT_KM_AES_192, \
S390_FEAT_KM_AES_256, \
S390_FEAT_KIMD_SHA_512, \
S390_FEAT_KLMD_SHA_512
#define S390_FEAT_GROUP_MSA_EXT_3 \
S390_FEAT_MSA_EXT_3, \
S390_FEAT_KMAC_EDEA, \
S390_FEAT_KMAC_ETDEA_128, \
S390_FEAT_KMAC_ETDEA_192, \
S390_FEAT_KMC_EAES_128, \
S390_FEAT_KMC_EAES_192, \
S390_FEAT_KMC_EAES_256, \
S390_FEAT_KMC_EDEA, \
S390_FEAT_KMC_ETDEA_128, \
S390_FEAT_KMC_ETDEA_192, \
S390_FEAT_KM_EDEA, \
S390_FEAT_KM_ETDEA_128, \
S390_FEAT_KM_ETDEA_192, \
S390_FEAT_KM_EAES_128, \
S390_FEAT_KM_EAES_192, \
S390_FEAT_KM_EAES_256, \
S390_FEAT_PCKMO_EDEA, \
S390_FEAT_PCKMO_ETDEA_128, \
S390_FEAT_PCKMO_ETDEA_256, \
S390_FEAT_PCKMO_AES_128, \
S390_FEAT_PCKMO_AES_192, \
S390_FEAT_PCKMO_AES_256
#define S390_FEAT_GROUP_MSA_EXT_4 \
S390_FEAT_MSA_EXT_4, \
S390_FEAT_KMAC_AES_128, \
S390_FEAT_KMAC_AES_192, \
S390_FEAT_KMAC_AES_256, \
S390_FEAT_KMAC_EAES_128, \
S390_FEAT_KMAC_EAES_192, \
S390_FEAT_KMAC_EAES_256, \
S390_FEAT_KM_XTS_AES_128, \
S390_FEAT_KM_XTS_AES_256, \
S390_FEAT_KM_XTS_EAES_128, \
S390_FEAT_KM_XTS_EAES_256, \
S390_FEAT_KIMD_GHASH, \
S390_FEAT_KMCTR_DEA, \
S390_FEAT_KMCTR_TDEA_128, \
S390_FEAT_KMCTR_TDEA_192, \
S390_FEAT_KMCTR_EDEA, \
S390_FEAT_KMCTR_ETDEA_128, \
S390_FEAT_KMCTR_ETDEA_192, \
S390_FEAT_KMCTR_AES_128, \
S390_FEAT_KMCTR_AES_192, \
S390_FEAT_KMCTR_AES_256, \
S390_FEAT_KMCTR_EAES_128, \
S390_FEAT_KMCTR_EAES_192, \
S390_FEAT_KMCTR_EAES_256, \
S390_FEAT_KMF_DEA, \
S390_FEAT_KMF_TDEA_128, \
S390_FEAT_KMF_TDEA_192, \
S390_FEAT_KMF_EDEA, \
S390_FEAT_KMF_ETDEA_128, \
S390_FEAT_KMF_ETDEA_192, \
S390_FEAT_KMF_AES_128, \
S390_FEAT_KMF_AES_192, \
S390_FEAT_KMF_AES_256, \
S390_FEAT_KMF_EAES_128, \
S390_FEAT_KMF_EAES_192, \
S390_FEAT_KMF_EAES_256, \
S390_FEAT_KMO_DEA, \
S390_FEAT_KMO_TDEA_128, \
S390_FEAT_KMO_TDEA_192, \
S390_FEAT_KMO_EDEA, \
S390_FEAT_KMO_ETDEA_128, \
S390_FEAT_KMO_ETDEA_192, \
S390_FEAT_KMO_AES_128, \
S390_FEAT_KMO_AES_192, \
S390_FEAT_KMO_AES_256, \
S390_FEAT_KMO_EAES_128, \
S390_FEAT_KMO_EAES_192, \
S390_FEAT_KMO_EAES_256, \
S390_FEAT_PCC_CMAC_DEA, \
S390_FEAT_PCC_CMAC_TDEA_128, \
S390_FEAT_PCC_CMAC_TDEA_192, \
S390_FEAT_PCC_CMAC_ETDEA_128, \
S390_FEAT_PCC_CMAC_ETDEA_192, \
S390_FEAT_PCC_CMAC_TDEA, \
S390_FEAT_PCC_CMAC_AES_128, \
S390_FEAT_PCC_CMAC_AES_192, \
S390_FEAT_PCC_CMAC_AES_256, \
S390_FEAT_PCC_CMAC_EAES_128, \
S390_FEAT_PCC_CMAC_EAES_192, \
S390_FEAT_PCC_CMAC_EAES_256, \
S390_FEAT_PCC_XTS_AES_128, \
S390_FEAT_PCC_XTS_AES_256, \
S390_FEAT_PCC_XTS_EAES_128, \
S390_FEAT_PCC_XTS_EAES_256
#define S390_FEAT_GROUP_MSA_EXT_5 \
S390_FEAT_MSA_EXT_5, \
S390_FEAT_PPNO_SHA_512_DRNG
#define S390_FEAT_GROUP_MSA_EXT_6 \
S390_FEAT_KIMD_SHA3_224, \
S390_FEAT_KIMD_SHA3_256, \
S390_FEAT_KIMD_SHA3_384, \
S390_FEAT_KIMD_SHA3_512, \
S390_FEAT_KIMD_SHAKE_128, \
S390_FEAT_KIMD_SHAKE_256, \
S390_FEAT_KLMD_SHA3_224, \
S390_FEAT_KLMD_SHA3_256, \
S390_FEAT_KLMD_SHA3_384, \
S390_FEAT_KLMD_SHA3_512, \
S390_FEAT_KLMD_SHAKE_128, \
S390_FEAT_KLMD_SHAKE_256
#define S390_FEAT_GROUP_MSA_EXT_7 \
S390_FEAT_PRNO_TRNG_QRTCR, \
S390_FEAT_PRNO_TRNG
#define S390_FEAT_GROUP_MSA_EXT_8 \
S390_FEAT_MSA_EXT_8, \
S390_FEAT_KMA_GCM_AES_128, \
S390_FEAT_KMA_GCM_AES_192, \
S390_FEAT_KMA_GCM_AES_256 , \
S390_FEAT_KMA_GCM_EAES_128, \
S390_FEAT_KMA_GCM_EAES_192, \
S390_FEAT_KMA_GCM_EAES_256
#define S390_FEAT_GROUP_MSA_EXT_9 \
S390_FEAT_MSA_EXT_9, \
S390_FEAT_KDSA_ECDSA_VERIFY_P256, \
S390_FEAT_KDSA_ECDSA_VERIFY_P384, \
S390_FEAT_KDSA_ECDSA_VERIFY_P512, \
S390_FEAT_KDSA_ECDSA_SIGN_P256, \
S390_FEAT_KDSA_ECDSA_SIGN_P384, \
S390_FEAT_KDSA_ECDSA_SIGN_P512, \
S390_FEAT_KDSA_EECDSA_SIGN_P256, \
S390_FEAT_KDSA_EECDSA_SIGN_P384, \
S390_FEAT_KDSA_EECDSA_SIGN_P512, \
S390_FEAT_KDSA_EDDSA_VERIFY_ED25519, \
S390_FEAT_KDSA_EDDSA_VERIFY_ED448, \
S390_FEAT_KDSA_EDDSA_SIGN_ED25519, \
S390_FEAT_KDSA_EDDSA_SIGN_ED448, \
S390_FEAT_KDSA_EEDDSA_SIGN_ED25519, \
S390_FEAT_KDSA_EEDDSA_SIGN_ED448, \
S390_FEAT_PCC_SCALAR_MULT_P256, \
S390_FEAT_PCC_SCALAR_MULT_P384, \
S390_FEAT_PCC_SCALAR_MULT_P512, \
S390_FEAT_PCC_SCALAR_MULT_ED25519, \
S390_FEAT_PCC_SCALAR_MULT_ED448, \
S390_FEAT_PCC_SCALAR_MULT_X25519, \
S390_FEAT_PCC_SCALAR_MULT_X448
#define S390_FEAT_GROUP_MSA_EXT_9_PCKMO \
S390_FEAT_PCKMO_ECC_P256, \
S390_FEAT_PCKMO_ECC_P384, \
S390_FEAT_PCKMO_ECC_P521, \
S390_FEAT_PCKMO_ECC_ED25519, \
S390_FEAT_PCKMO_ECC_ED448
#define S390_FEAT_GROUP_ENH_SORT \
S390_FEAT_ESORT_BASE, \
S390_FEAT_SORTL_SFLR, \
S390_FEAT_SORTL_SVLR, \
S390_FEAT_SORTL_32, \
S390_FEAT_SORTL_128, \
S390_FEAT_SORTL_F0
#define S390_FEAT_GROUP_DEFLATE_CONVERSION \
S390_FEAT_DEFLATE_BASE, \
S390_FEAT_DEFLATE_GHDT, \
S390_FEAT_DEFLATE_CMPR, \
S390_FEAT_DEFLATE_XPND, \
S390_FEAT_DEFLATE_F0
/* cpu feature groups */
static uint16_t group_PLO[] = {
S390_FEAT_GROUP_PLO,
};
static uint16_t group_TOD_CLOCK_STEERING[] = {
S390_FEAT_GROUP_TOD_CLOCK_STEERING,
};
static uint16_t group_GEN13_PTFF[] = {
S390_FEAT_GROUP_GEN13_PTFF,
};
static uint16_t group_MULTIPLE_EPOCH_PTFF[] = {
S390_FEAT_GROUP_MULTIPLE_EPOCH_PTFF,
};
static uint16_t group_MSA[] = {
S390_FEAT_GROUP_MSA,
};
static uint16_t group_MSA_EXT_1[] = {
S390_FEAT_GROUP_MSA_EXT_1,
};
static uint16_t group_MSA_EXT_2[] = {
S390_FEAT_GROUP_MSA_EXT_2,
};
static uint16_t group_MSA_EXT_3[] = {
S390_FEAT_GROUP_MSA_EXT_3,
};
static uint16_t group_MSA_EXT_4[] = {
S390_FEAT_GROUP_MSA_EXT_4,
};
static uint16_t group_MSA_EXT_5[] = {
S390_FEAT_GROUP_MSA_EXT_5,
};
static uint16_t group_MSA_EXT_6[] = {
S390_FEAT_GROUP_MSA_EXT_6,
};
static uint16_t group_MSA_EXT_7[] = {
S390_FEAT_GROUP_MSA_EXT_7,
};
static uint16_t group_MSA_EXT_8[] = {
S390_FEAT_GROUP_MSA_EXT_8,
};
static uint16_t group_MSA_EXT_9[] = {
S390_FEAT_GROUP_MSA_EXT_9,
};
static uint16_t group_MSA_EXT_9_PCKMO[] = {
S390_FEAT_GROUP_MSA_EXT_9_PCKMO,
};
static uint16_t group_ENH_SORT[] = {
S390_FEAT_GROUP_ENH_SORT,
};
static uint16_t group_DEFLATE_CONVERSION[] = {
S390_FEAT_GROUP_DEFLATE_CONVERSION,
};
/* Base features (in order of release)
* Only non-hypervisor managed features belong here.
* Base feature sets are static meaning they do not change in future QEMU
* releases.
*/
static uint16_t base_GEN7_GA1[] = {
S390_FEAT_GROUP_PLO,
S390_FEAT_ESAN3,
S390_FEAT_ZARCH,
};
#define base_GEN7_GA2 EmptyFeat
#define base_GEN7_GA3 EmptyFeat
static uint16_t base_GEN8_GA1[] = {
S390_FEAT_DAT_ENH,
S390_FEAT_EXTENDED_TRANSLATION_2,
S390_FEAT_GROUP_MSA,
S390_FEAT_LONG_DISPLACEMENT,
S390_FEAT_LONG_DISPLACEMENT_FAST,
S390_FEAT_HFP_MADDSUB,
};
#define base_GEN8_GA2 EmptyFeat
#define base_GEN8_GA3 EmptyFeat
#define base_GEN8_GA4 EmptyFeat
#define base_GEN8_GA5 EmptyFeat
static uint16_t base_GEN9_GA1[] = {
S390_FEAT_IDTE_SEGMENT,
S390_FEAT_ASN_LX_REUSE,
S390_FEAT_STFLE,
S390_FEAT_SENSE_RUNNING_STATUS,
S390_FEAT_EXTENDED_IMMEDIATE,
S390_FEAT_EXTENDED_TRANSLATION_3,
S390_FEAT_HFP_UNNORMALIZED_EXT,
S390_FEAT_ETF2_ENH,
S390_FEAT_STORE_CLOCK_FAST,
S390_FEAT_GROUP_TOD_CLOCK_STEERING,
S390_FEAT_ETF3_ENH,
S390_FEAT_DAT_ENH_2,
};
#define base_GEN9_GA2 EmptyFeat
#define base_GEN9_GA3 EmptyFeat
static uint16_t base_GEN10_GA1[] = {
S390_FEAT_CONDITIONAL_SSKE,
S390_FEAT_PARSING_ENH,
S390_FEAT_MOVE_WITH_OPTIONAL_SPEC,
S390_FEAT_EXTRACT_CPU_TIME,
S390_FEAT_COMPARE_AND_SWAP_AND_STORE,
S390_FEAT_COMPARE_AND_SWAP_AND_STORE_2,
S390_FEAT_GENERAL_INSTRUCTIONS_EXT,
S390_FEAT_EXECUTE_EXT,
S390_FEAT_FLOATING_POINT_SUPPORT_ENH,
S390_FEAT_DFP,
S390_FEAT_DFP_FAST,
S390_FEAT_PFPO,
};
#define base_GEN10_GA2 EmptyFeat
#define base_GEN10_GA3 EmptyFeat
static uint16_t base_GEN11_GA1[] = {
S390_FEAT_NONQ_KEY_SETTING,
S390_FEAT_ENHANCED_MONITOR,
S390_FEAT_FLOATING_POINT_EXT,
S390_FEAT_SET_PROGRAM_PARAMETERS,
S390_FEAT_STFLE_45,
S390_FEAT_CMPSC_ENH,
S390_FEAT_INTERLOCKED_ACCESS_2,
};
#define base_GEN11_GA2 EmptyFeat
static uint16_t base_GEN12_GA1[] = {
S390_FEAT_DFP_ZONED_CONVERSION,
S390_FEAT_STFLE_49,
S390_FEAT_LOCAL_TLB_CLEARING,
};
#define base_GEN12_GA2 EmptyFeat
static uint16_t base_GEN13_GA1[] = {
S390_FEAT_STFLE_53,
S390_FEAT_DFP_PACKED_CONVERSION,
S390_FEAT_GROUP_GEN13_PTFF,
};
#define base_GEN13_GA2 EmptyFeat
static uint16_t base_GEN14_GA1[] = {
S390_FEAT_ENTROPY_ENC_COMP,
S390_FEAT_MISC_INSTRUCTION_EXT2,
S390_FEAT_SEMAPHORE_ASSIST,
S390_FEAT_TIME_SLICE_INSTRUMENTATION,
S390_FEAT_ORDER_PRESERVING_COMPRESSION,
};
#define base_GEN14_GA2 EmptyFeat
static uint16_t base_GEN15_GA1[] = {
S390_FEAT_MISC_INSTRUCTION_EXT3,
};
#define base_GEN16_GA1 EmptyFeat
/* Full features (in order of release)
* Automatically includes corresponding base features.
* Full features are all features this hardware supports even if kvm/QEMU do not
* support these features yet.
*/
static uint16_t full_GEN7_GA1[] = {
S390_FEAT_PPA15,
S390_FEAT_BPB,
S390_FEAT_SIE_F2,
S390_FEAT_SIE_SKEY,
S390_FEAT_SIE_GPERE,
S390_FEAT_SIE_IB,
S390_FEAT_SIE_CEI,
};
static uint16_t full_GEN7_GA2[] = {
S390_FEAT_EXTENDED_TRANSLATION_2,
};
static uint16_t full_GEN7_GA3[] = {
S390_FEAT_LONG_DISPLACEMENT,
S390_FEAT_SIE_SIIF,
};
static uint16_t full_GEN8_GA1[] = {
S390_FEAT_SIE_GSLS,
S390_FEAT_SIE_64BSCAO,
};
#define full_GEN8_GA2 EmptyFeat
static uint16_t full_GEN8_GA3[] = {
S390_FEAT_ASN_LX_REUSE,
S390_FEAT_EXTENDED_TRANSLATION_3,
};
#define full_GEN8_GA4 EmptyFeat
#define full_GEN8_GA5 EmptyFeat
static uint16_t full_GEN9_GA1[] = {
S390_FEAT_STORE_HYPERVISOR_INFO,
S390_FEAT_GROUP_MSA_EXT_1,
S390_FEAT_CMM,
S390_FEAT_SIE_CMMA,
};
static uint16_t full_GEN9_GA2[] = {
S390_FEAT_MOVE_WITH_OPTIONAL_SPEC,
S390_FEAT_EXTRACT_CPU_TIME,
S390_FEAT_COMPARE_AND_SWAP_AND_STORE,
S390_FEAT_FLOATING_POINT_SUPPORT_ENH,
S390_FEAT_DFP,
};
static uint16_t full_GEN9_GA3[] = {
S390_FEAT_CONDITIONAL_SSKE,
S390_FEAT_PFPO,
};
static uint16_t full_GEN10_GA1[] = {
S390_FEAT_EDAT,
S390_FEAT_CONFIGURATION_TOPOLOGY,
S390_FEAT_GROUP_MSA_EXT_2,
S390_FEAT_ESOP,
S390_FEAT_SIE_PFMFI,
S390_FEAT_SIE_SIGPIF,
};
static uint16_t full_GEN10_GA2[] = {
S390_FEAT_SET_PROGRAM_PARAMETERS,
S390_FEAT_SIE_IBS,
};
static uint16_t full_GEN10_GA3[] = {
S390_FEAT_GROUP_MSA_EXT_3,
};
static uint16_t full_GEN11_GA1[] = {
S390_FEAT_IPTE_RANGE,
S390_FEAT_ACCESS_EXCEPTION_FS_INDICATION,
S390_FEAT_GROUP_MSA_EXT_4,
};
#define full_GEN11_GA2 EmptyFeat
static uint16_t full_GEN12_GA1[] = {
S390_FEAT_CONSTRAINT_TRANSACTIONAL_EXE,
S390_FEAT_TRANSACTIONAL_EXE,
S390_FEAT_RUNTIME_INSTRUMENTATION,
S390_FEAT_ZPCI,
S390_FEAT_ADAPTER_EVENT_NOTIFICATION,
S390_FEAT_ADAPTER_INT_SUPPRESSION,
S390_FEAT_EDAT_2,
S390_FEAT_SIDE_EFFECT_ACCESS_ESOP2,
s390x/cpumodel: Set up CPU model for AP device support A new CPU model feature and two new CPU model facilities are introduced to support AP devices for a KVM guest. CPU model features: 1. The S390_FEAT_AP CPU model feature indicates whether AP instructions are available to the guest. This feature will be enabled only if the AP instructions are available on the linux host as determined by the availability of the KVM_S390_VM_CRYPTO_ENABLE_APIE VM attribute which is exposed by KVM only if the AP instructions are available on the host. This feature must be turned on from userspace to execute AP instructions on the KVM guest. The QEMU command line to turn this feature on looks something like this: qemu-system-s390x ... -cpu xxx,ap=on ... This feature will be supported for zEC12 and newer CPU models. The feature will not be supported for older models because there are few older systems on which to test and the older crypto cards will be going out of service in the relatively near future. CPU model facilities: 1. The S390_FEAT_AP_QUERY_CONFIG_INFO feature indicates whether the AP Query Configuration Information (QCI) facility is available to the guest as determined by whether the facility is available on the host. This feature will be exposed by KVM only if the QCI facility is installed on the host. 2. The S390_FEAT_AP_FACILITY_TEST feature indicates whether the AP Facility Test (APFT) facility is available to the guest as determined by whether the facility is available on the host. This feature will be exposed by KVM only if APFT is installed on the host. Signed-off-by: Tony Krowiak <akrowiak@linux.ibm.com> Tested-by: Pierre Morel <pmorel@linux.ibm.com> Reviewed-by: David Hildenbrand <david@redhat.com> Reviewed-by: Halil Pasic <pasic@linux.ibm.com> Reviewed-by: Christian Borntraeger <borntraeger@de.ibm.com> Tested-by: Christian Borntraeger <borntraeger@de.ibm.com> Message-Id: <20181010170309.12045-3-akrowiak@linux.ibm.com> Signed-off-by: Cornelia Huck <cohuck@redhat.com>
2018-10-10 20:03:04 +03:00
S390_FEAT_AP_QUERY_CONFIG_INFO,
S390_FEAT_AP_QUEUE_INTERRUPT_CONTROL,
s390x/cpumodel: Set up CPU model for AP device support A new CPU model feature and two new CPU model facilities are introduced to support AP devices for a KVM guest. CPU model features: 1. The S390_FEAT_AP CPU model feature indicates whether AP instructions are available to the guest. This feature will be enabled only if the AP instructions are available on the linux host as determined by the availability of the KVM_S390_VM_CRYPTO_ENABLE_APIE VM attribute which is exposed by KVM only if the AP instructions are available on the host. This feature must be turned on from userspace to execute AP instructions on the KVM guest. The QEMU command line to turn this feature on looks something like this: qemu-system-s390x ... -cpu xxx,ap=on ... This feature will be supported for zEC12 and newer CPU models. The feature will not be supported for older models because there are few older systems on which to test and the older crypto cards will be going out of service in the relatively near future. CPU model facilities: 1. The S390_FEAT_AP_QUERY_CONFIG_INFO feature indicates whether the AP Query Configuration Information (QCI) facility is available to the guest as determined by whether the facility is available on the host. This feature will be exposed by KVM only if the QCI facility is installed on the host. 2. The S390_FEAT_AP_FACILITY_TEST feature indicates whether the AP Facility Test (APFT) facility is available to the guest as determined by whether the facility is available on the host. This feature will be exposed by KVM only if APFT is installed on the host. Signed-off-by: Tony Krowiak <akrowiak@linux.ibm.com> Tested-by: Pierre Morel <pmorel@linux.ibm.com> Reviewed-by: David Hildenbrand <david@redhat.com> Reviewed-by: Halil Pasic <pasic@linux.ibm.com> Reviewed-by: Christian Borntraeger <borntraeger@de.ibm.com> Tested-by: Christian Borntraeger <borntraeger@de.ibm.com> Message-Id: <20181010170309.12045-3-akrowiak@linux.ibm.com> Signed-off-by: Cornelia Huck <cohuck@redhat.com>
2018-10-10 20:03:04 +03:00
S390_FEAT_AP_FACILITIES_TEST,
S390_FEAT_AP,
s390/sclp: add extended-length sccb support for kvm guest As more features and facilities are added to the Read SCP Info (RSCPI) response, more space is required to store them. The space used to store these new features intrudes on the space originally used to store CPU entries. This means as more features and facilities are added to the RSCPI response, less space can be used to store CPU entries. With the Extended-Length SCCB (ELS) facility, a KVM guest can execute the RSCPI command and determine if the SCCB is large enough to store a complete reponse. If it is not large enough, then the required length will be set in the SCCB header. The caller of the SCLP command is responsible for creating a large-enough SCCB to store a complete response. Proper checking should be in place, and the caller should execute the command once-more with the large-enough SCCB. This facility also enables an extended SCCB for the Read CPU Info (RCPUI) command. When this facility is enabled, the boundary violation response cannot be a result from the RSCPI, RSCPI Forced, or RCPUI commands. In order to tolerate kernels that do not yet have full support for this feature, a "fixed" offset to the start of the CPU Entries within the Read SCP Info struct is set to allow for the original 248 max entries when this feature is disabled. Additionally, this is introduced as a CPU feature to protect the guest from migrating to a machine that does not support storing an extended SCCB. This could otherwise hinder the VM from being able to read all available CPU entries after migration (such as during re-ipl). Signed-off-by: Collin Walling <walling@linux.ibm.com> Reviewed-by: Thomas Huth <thuth@redhat.com> Acked-by: Cornelia Huck <cohuck@redhat.com> Reviewed-by: Claudio Imbrenda <imbrenda@linux.ibm.com> Message-Id: <20200915194416.107460-7-walling@linux.ibm.com> Signed-off-by: Cornelia Huck <cohuck@redhat.com>
2020-09-15 22:44:14 +03:00
S390_FEAT_EXTENDED_LENGTH_SCCB,
S390_FEAT_DIAG_318,
};
static uint16_t full_GEN12_GA2[] = {
S390_FEAT_GROUP_MSA_EXT_5,
};
static uint16_t full_GEN13_GA1[] = {
S390_FEAT_VECTOR,
};
#define full_GEN13_GA2 EmptyFeat
static uint16_t full_GEN14_GA1[] = {
S390_FEAT_INSTRUCTION_EXEC_PROT,
S390_FEAT_GUARDED_STORAGE,
S390_FEAT_VECTOR_PACKED_DECIMAL,
S390_FEAT_VECTOR_ENH,
S390_FEAT_MULTIPLE_EPOCH,
S390_FEAT_TEST_PENDING_EXT_INTERRUPTION,
S390_FEAT_INSERT_REFERENCE_BITS_MULT,
S390_FEAT_GROUP_MSA_EXT_6,
S390_FEAT_GROUP_MSA_EXT_7,
S390_FEAT_GROUP_MSA_EXT_8,
S390_FEAT_CMM_NT,
S390_FEAT_ETOKEN,
S390_FEAT_HPMA2,
S390_FEAT_SIE_KSS,
S390_FEAT_GROUP_MULTIPLE_EPOCH_PTFF,
};
#define full_GEN14_GA2 EmptyFeat
static uint16_t full_GEN15_GA1[] = {
S390_FEAT_VECTOR_ENH2,
S390_FEAT_GROUP_ENH_SORT,
S390_FEAT_GROUP_DEFLATE_CONVERSION,
S390_FEAT_VECTOR_PACKED_DECIMAL_ENH,
S390_FEAT_GROUP_MSA_EXT_9,
S390_FEAT_GROUP_MSA_EXT_9_PCKMO,
S390_FEAT_ETOKEN,
S390_FEAT_UNPACK,
};
static uint16_t full_GEN16_GA1[] = {
S390_FEAT_NNPA,
S390_FEAT_VECTOR_PACKED_DECIMAL_ENH2,
S390_FEAT_BEAR_ENH,
S390_FEAT_RDP,
S390_FEAT_PAI,
S390_FEAT_PAIE,
S390_FEAT_UV_FEAT_AP,
S390_FEAT_UV_FEAT_AP_INTR,
};
/* Default features (in order of release)
* Automatically includes corresponding base features.
* Default features are all features this version of QEMU supports for this
* hardware model. Default feature sets can grow with new QEMU releases.
*/
#define default_GEN7_GA1 EmptyFeat
#define default_GEN7_GA2 EmptyFeat
#define default_GEN7_GA3 EmptyFeat
#define default_GEN8_GA1 EmptyFeat
#define default_GEN8_GA2 EmptyFeat
#define default_GEN8_GA3 EmptyFeat
#define default_GEN8_GA4 EmptyFeat
#define default_GEN8_GA5 EmptyFeat
static uint16_t default_GEN9_GA1[] = {
S390_FEAT_STORE_HYPERVISOR_INFO,
S390_FEAT_GROUP_MSA_EXT_1,
S390_FEAT_CMM,
};
#define default_GEN9_GA2 EmptyFeat
#define default_GEN9_GA3 EmptyFeat
static uint16_t default_GEN10_GA1[] = {
S390_FEAT_EDAT,
S390_FEAT_GROUP_MSA_EXT_2,
};
#define default_GEN10_GA2 EmptyFeat
#define default_GEN10_GA3 EmptyFeat
static uint16_t default_GEN11_GA1[] = {
S390_FEAT_GROUP_MSA_EXT_3,
S390_FEAT_IPTE_RANGE,
S390_FEAT_ACCESS_EXCEPTION_FS_INDICATION,
S390_FEAT_GROUP_MSA_EXT_4,
S390_FEAT_PPA15,
S390_FEAT_BPB,
};
#define default_GEN11_GA2 EmptyFeat
static uint16_t default_GEN12_GA1[] = {
S390_FEAT_CONSTRAINT_TRANSACTIONAL_EXE,
S390_FEAT_TRANSACTIONAL_EXE,
S390_FEAT_RUNTIME_INSTRUMENTATION,
S390_FEAT_ZPCI,
S390_FEAT_ADAPTER_EVENT_NOTIFICATION,
S390_FEAT_EDAT_2,
S390_FEAT_ESOP,
S390_FEAT_SIDE_EFFECT_ACCESS_ESOP2,
};
#define default_GEN12_GA2 EmptyFeat
static uint16_t default_GEN13_GA1[] = {
S390_FEAT_GROUP_MSA_EXT_5,
S390_FEAT_VECTOR,
};
#define default_GEN13_GA2 EmptyFeat
static uint16_t default_GEN14_GA1[] = {
S390_FEAT_INSTRUCTION_EXEC_PROT,
S390_FEAT_GUARDED_STORAGE,
S390_FEAT_VECTOR_PACKED_DECIMAL,
S390_FEAT_VECTOR_ENH,
S390_FEAT_GROUP_MSA_EXT_6,
S390_FEAT_GROUP_MSA_EXT_7,
S390_FEAT_GROUP_MSA_EXT_8,
S390_FEAT_MULTIPLE_EPOCH,
S390_FEAT_GROUP_MULTIPLE_EPOCH_PTFF,
};
#define default_GEN14_GA2 EmptyFeat
static uint16_t default_GEN15_GA1[] = {
S390_FEAT_VECTOR_ENH2,
S390_FEAT_GROUP_DEFLATE_CONVERSION,
S390_FEAT_VECTOR_PACKED_DECIMAL_ENH,
S390_FEAT_GROUP_MSA_EXT_9,
S390_FEAT_GROUP_MSA_EXT_9_PCKMO,
S390_FEAT_ETOKEN,
};
static uint16_t default_GEN16_GA1[] = {
S390_FEAT_NNPA,
S390_FEAT_VECTOR_PACKED_DECIMAL_ENH2,
S390_FEAT_BEAR_ENH,
S390_FEAT_RDP,
S390_FEAT_PAI,
S390_FEAT_PAIE,
};
/* QEMU (CPU model) features */
static uint16_t qemu_V2_11[] = {
S390_FEAT_GROUP_PLO,
S390_FEAT_ESAN3,
S390_FEAT_ZARCH,
};
static uint16_t qemu_V3_1[] = {
S390_FEAT_DAT_ENH,
S390_FEAT_IDTE_SEGMENT,
S390_FEAT_STFLE,
S390_FEAT_SENSE_RUNNING_STATUS,
S390_FEAT_EXTENDED_TRANSLATION_2,
S390_FEAT_MSA,
S390_FEAT_LONG_DISPLACEMENT,
S390_FEAT_LONG_DISPLACEMENT_FAST,
S390_FEAT_EXTENDED_IMMEDIATE,
S390_FEAT_EXTENDED_TRANSLATION_3,
S390_FEAT_ETF2_ENH,
S390_FEAT_STORE_CLOCK_FAST,
S390_FEAT_MOVE_WITH_OPTIONAL_SPEC,
S390_FEAT_ETF3_ENH,
S390_FEAT_EXTRACT_CPU_TIME,
S390_FEAT_COMPARE_AND_SWAP_AND_STORE,
S390_FEAT_COMPARE_AND_SWAP_AND_STORE_2,
S390_FEAT_GENERAL_INSTRUCTIONS_EXT,
S390_FEAT_EXECUTE_EXT,
S390_FEAT_SET_PROGRAM_PARAMETERS,
S390_FEAT_FLOATING_POINT_SUPPORT_ENH,
S390_FEAT_STFLE_45,
S390_FEAT_STFLE_49,
S390_FEAT_LOCAL_TLB_CLEARING,
S390_FEAT_INTERLOCKED_ACCESS_2,
S390_FEAT_ADAPTER_EVENT_NOTIFICATION,
S390_FEAT_ADAPTER_INT_SUPPRESSION,
S390_FEAT_MSA_EXT_3,
S390_FEAT_MSA_EXT_4,
};
static uint16_t qemu_V4_0[] = {
/*
* Only BFP bits are implemented (HFP, DFP, PFPO and DIVIDE TO INTEGER not
* implemented yet).
*/
S390_FEAT_FLOATING_POINT_EXT,
S390_FEAT_ZPCI,
};
static uint16_t qemu_V4_1[] = {
S390_FEAT_STFLE_53,
S390_FEAT_VECTOR,
};
static uint16_t qemu_V6_0[] = {
s390x/cpumodel: Add new TCG features to QEMU cpu model We now implement a bunch of new facilities we can properly indicate. ESOP-1/ESOP-2 handling is discussed in the PoP Chafter 3-15 ("Suppression on Protection"). The "Basic suppression-on-protection (SOP) facility" is a core part of z/Architecture without a facility indication. ESOP-2 is indicated by ESOP-1 + Side-effect facility ("ESOP-2"). Besides ESOP-2, the side-effect facility is only relevant for the guarded-storage facility (we don't implement). S390_ESOP: - We indicate DAT exeptions by setting bit 61 of the TEID (TEC) to 1 and bit 60 to zero. We don't trigger ALCP exceptions yet. Also, we set bit 0-51 and bit 62/63 to the right values. S390_ACCESS_EXCEPTION_FS_INDICATION: - The TEID (TEC) properly indicates in bit 52/53 on any access if it was a fetch or a store S390_SIDE_EFFECT_ACCESS_ESOP2: - We have no side-effect accesses (esp., we don't implement the guarded-storage faciliy), we correctly set bit 64 of the TEID (TEC) to 0 (no side-effect). - ESOP2: We properly set bit 56, 60, 61 in the TEID (TEC) to indicate the type of protection. We don't trigger KCP/ALCP exceptions yet. S390_INSTRUCTION_EXEC_PROT: - The MMU properly detects and indicates the exception on instruction fetches - Protected TLB entries will never get PAGE_EXEC set. There is no need to fake the abscence of any of the facilities - without the facilities, some bits of the TEID (TEC) are simply unpredictable. As IEP was added with z14 and we currently implement a z13, add it to the MAX model instead. Acked-by: Cornelia Huck <cohuck@redhat.com> Signed-off-by: David Hildenbrand <david@redhat.com>
2019-08-05 11:19:22 +03:00
S390_FEAT_ACCESS_EXCEPTION_FS_INDICATION,
S390_FEAT_SIDE_EFFECT_ACCESS_ESOP2,
S390_FEAT_ESOP,
};
static uint16_t qemu_V6_2[] = {
s390x/cpumodel: Add new TCG features to QEMU cpu model We now implement a bunch of new facilities we can properly indicate. ESOP-1/ESOP-2 handling is discussed in the PoP Chafter 3-15 ("Suppression on Protection"). The "Basic suppression-on-protection (SOP) facility" is a core part of z/Architecture without a facility indication. ESOP-2 is indicated by ESOP-1 + Side-effect facility ("ESOP-2"). Besides ESOP-2, the side-effect facility is only relevant for the guarded-storage facility (we don't implement). S390_ESOP: - We indicate DAT exeptions by setting bit 61 of the TEID (TEC) to 1 and bit 60 to zero. We don't trigger ALCP exceptions yet. Also, we set bit 0-51 and bit 62/63 to the right values. S390_ACCESS_EXCEPTION_FS_INDICATION: - The TEID (TEC) properly indicates in bit 52/53 on any access if it was a fetch or a store S390_SIDE_EFFECT_ACCESS_ESOP2: - We have no side-effect accesses (esp., we don't implement the guarded-storage faciliy), we correctly set bit 64 of the TEID (TEC) to 0 (no side-effect). - ESOP2: We properly set bit 56, 60, 61 in the TEID (TEC) to indicate the type of protection. We don't trigger KCP/ALCP exceptions yet. S390_INSTRUCTION_EXEC_PROT: - The MMU properly detects and indicates the exception on instruction fetches - Protected TLB entries will never get PAGE_EXEC set. There is no need to fake the abscence of any of the facilities - without the facilities, some bits of the TEID (TEC) are simply unpredictable. As IEP was added with z14 and we currently implement a z13, add it to the MAX model instead. Acked-by: Cornelia Huck <cohuck@redhat.com> Signed-off-by: David Hildenbrand <david@redhat.com>
2019-08-05 11:19:22 +03:00
S390_FEAT_INSTRUCTION_EXEC_PROT,
S390_FEAT_MISC_INSTRUCTION_EXT2,
S390_FEAT_MSA_EXT_8,
S390_FEAT_VECTOR_ENH,
};
static uint16_t qemu_V7_0[] = {
S390_FEAT_MISC_INSTRUCTION_EXT3,
};
static uint16_t qemu_V7_1[] = {
S390_FEAT_VECTOR_ENH2,
};
/*
* Features for the "qemu" CPU model of the latest QEMU machine and the "max"
* CPU model under TCG. Don't include features that are not part of the full
* feature set of the current "max" CPU model generation.
*/
static uint16_t qemu_MAX[] = {
S390_FEAT_MSA_EXT_5,
S390_FEAT_KIMD_SHA_512,
S390_FEAT_KLMD_SHA_512,
S390_FEAT_PRNO_TRNG,
};
/****** END FEATURE DEFS ******/
#define _YEARS "2016"
#define _NAME_H "TARGET_S390X_GEN_FEATURES_H"
#define CPU_FEAT_INITIALIZER(_name) \
{ \
.name = "S390_FEAT_LIST_" #_name, \
.base_bits = \
{ .data = base_##_name, \
.len = ARRAY_SIZE(base_##_name) }, \
.default_bits = \
{ .data = default_##_name, \
.len = ARRAY_SIZE(default_##_name) }, \
.full_bits = \
{ .data = full_##_name, \
.len = ARRAY_SIZE(full_##_name) }, \
}
typedef struct BitSpec {
uint16_t *data;
uint32_t len;
} BitSpec;
typedef struct {
const char *name;
BitSpec base_bits;
BitSpec default_bits;
BitSpec full_bits;
} CpuFeatDefSpec;
static uint16_t EmptyFeat[] = {};
/*******************************
* processor GA series
*******************************/
static CpuFeatDefSpec CpuFeatDef[] = {
CPU_FEAT_INITIALIZER(GEN7_GA1),
CPU_FEAT_INITIALIZER(GEN7_GA2),
CPU_FEAT_INITIALIZER(GEN7_GA3),
CPU_FEAT_INITIALIZER(GEN8_GA1),
CPU_FEAT_INITIALIZER(GEN8_GA2),
CPU_FEAT_INITIALIZER(GEN8_GA3),
CPU_FEAT_INITIALIZER(GEN8_GA4),
CPU_FEAT_INITIALIZER(GEN8_GA5),
CPU_FEAT_INITIALIZER(GEN9_GA1),
CPU_FEAT_INITIALIZER(GEN9_GA2),
CPU_FEAT_INITIALIZER(GEN9_GA3),
CPU_FEAT_INITIALIZER(GEN10_GA1),
CPU_FEAT_INITIALIZER(GEN10_GA2),
CPU_FEAT_INITIALIZER(GEN10_GA3),
CPU_FEAT_INITIALIZER(GEN11_GA1),
CPU_FEAT_INITIALIZER(GEN11_GA2),
CPU_FEAT_INITIALIZER(GEN12_GA1),
CPU_FEAT_INITIALIZER(GEN12_GA2),
CPU_FEAT_INITIALIZER(GEN13_GA1),
CPU_FEAT_INITIALIZER(GEN13_GA2),
CPU_FEAT_INITIALIZER(GEN14_GA1),
CPU_FEAT_INITIALIZER(GEN14_GA2),
CPU_FEAT_INITIALIZER(GEN15_GA1),
CPU_FEAT_INITIALIZER(GEN16_GA1),
};
#define FEAT_GROUP_INITIALIZER(_name) \
{ \
.name = "S390_FEAT_GROUP_LIST_" #_name, \
.enum_name = "S390_FEAT_GROUP_" #_name, \
.bits = \
{ .data = group_##_name, \
.len = ARRAY_SIZE(group_##_name) }, \
}
typedef struct {
const char *name;
const char *enum_name;
BitSpec bits;
} FeatGroupDefSpec;
/*******************************
* feature groups
*******************************/
static FeatGroupDefSpec FeatGroupDef[] = {
FEAT_GROUP_INITIALIZER(PLO),
FEAT_GROUP_INITIALIZER(TOD_CLOCK_STEERING),
FEAT_GROUP_INITIALIZER(GEN13_PTFF),
FEAT_GROUP_INITIALIZER(MSA),
FEAT_GROUP_INITIALIZER(MSA_EXT_1),
FEAT_GROUP_INITIALIZER(MSA_EXT_2),
FEAT_GROUP_INITIALIZER(MSA_EXT_3),
FEAT_GROUP_INITIALIZER(MSA_EXT_4),
FEAT_GROUP_INITIALIZER(MSA_EXT_5),
FEAT_GROUP_INITIALIZER(MSA_EXT_6),
FEAT_GROUP_INITIALIZER(MSA_EXT_7),
FEAT_GROUP_INITIALIZER(MSA_EXT_8),
FEAT_GROUP_INITIALIZER(MSA_EXT_9),
FEAT_GROUP_INITIALIZER(MSA_EXT_9_PCKMO),
FEAT_GROUP_INITIALIZER(MULTIPLE_EPOCH_PTFF),
FEAT_GROUP_INITIALIZER(ENH_SORT),
FEAT_GROUP_INITIALIZER(DEFLATE_CONVERSION),
};
#define QEMU_FEAT_INITIALIZER(_name) \
{ \
.name = "S390_FEAT_LIST_QEMU_" #_name, \
.bits = \
{ .data = qemu_##_name, \
.len = ARRAY_SIZE(qemu_##_name) }, \
}
/*******************************
* QEMU (CPU model) features
*******************************/
static FeatGroupDefSpec QemuFeatDef[] = {
QEMU_FEAT_INITIALIZER(V2_11),
QEMU_FEAT_INITIALIZER(V3_1),
QEMU_FEAT_INITIALIZER(V4_0),
QEMU_FEAT_INITIALIZER(V4_1),
QEMU_FEAT_INITIALIZER(V6_0),
QEMU_FEAT_INITIALIZER(V6_2),
QEMU_FEAT_INITIALIZER(V7_0),
QEMU_FEAT_INITIALIZER(V7_1),
QEMU_FEAT_INITIALIZER(MAX),
};
static void set_bits(uint64_t list[], BitSpec bits)
{
uint32_t i;
for (i = 0; i < bits.len; i++) {
list[bits.data[i] / 64] |= 1ULL << (bits.data[i] % 64);
}
}
static inline void clear_bit(uint64_t list[], unsigned long nr)
{
list[nr / 64] &= ~(1ULL << (nr % 64));
}
static void print_feature_defs(void)
{
uint64_t base_feat[S390_FEAT_MAX / 64 + 1] = {};
uint64_t default_feat[S390_FEAT_MAX / 64 + 1] = {};
uint64_t full_feat[S390_FEAT_MAX / 64 + 1] = {};
int i, j;
printf("\n/* CPU model feature list data */\n");
for (i = 0; i < ARRAY_SIZE(CpuFeatDef); i++) {
/* With gen15 CSSKE and BPB are deprecated */
if (strcmp(CpuFeatDef[i].name, "S390_FEAT_LIST_GEN15_GA1") == 0) {
clear_bit(base_feat, S390_FEAT_CONDITIONAL_SSKE);
clear_bit(default_feat, S390_FEAT_CONDITIONAL_SSKE);
clear_bit(default_feat, S390_FEAT_BPB);
}
set_bits(base_feat, CpuFeatDef[i].base_bits);
/* add the base to the default features */
set_bits(default_feat, CpuFeatDef[i].base_bits);
set_bits(default_feat, CpuFeatDef[i].default_bits);
/* add the base to the full features */
set_bits(full_feat, CpuFeatDef[i].base_bits);
set_bits(full_feat, CpuFeatDef[i].full_bits);
printf("#define %s_BASE\t", CpuFeatDef[i].name);
for (j = 0; j < ARRAY_SIZE(base_feat); j++) {
printf("0x%016"PRIx64"ULL", base_feat[j]);
if (j < ARRAY_SIZE(base_feat) - 1) {
printf(",");
} else {
printf("\n");
}
}
printf("#define %s_DEFAULT\t", CpuFeatDef[i].name);
for (j = 0; j < ARRAY_SIZE(default_feat); j++) {
printf("0x%016"PRIx64"ULL", default_feat[j]);
if (j < ARRAY_SIZE(default_feat) - 1) {
printf(",");
} else {
printf("\n");
}
}
printf("#define %s_FULL\t\t", CpuFeatDef[i].name);
for (j = 0; j < ARRAY_SIZE(full_feat); j++) {
printf("0x%016"PRIx64"ULL", full_feat[j]);
if (j < ARRAY_SIZE(full_feat) - 1) {
printf(",");
} else {
printf("\n");
}
}
}
}
static void print_qemu_feature_defs(void)
{
uint64_t feat[S390_FEAT_MAX / 64 + 1] = {};
int i, j;
printf("\n/* QEMU (CPU model) feature list data */\n");
/* for now we assume that we only add new features */
for (i = 0; i < ARRAY_SIZE(QemuFeatDef); i++) {
set_bits(feat, QemuFeatDef[i].bits);
printf("#define %s\t", QemuFeatDef[i].name);
for (j = 0; j < ARRAY_SIZE(feat); j++) {
printf("0x%016"PRIx64"ULL", feat[j]);
if (j < ARRAY_SIZE(feat) - 1) {
printf(",");
} else {
printf("\n");
}
}
}
}
static void print_feature_group_defs(void)
{
int i, j;
printf("\n/* CPU feature group list data */\n");
for (i = 0; i < ARRAY_SIZE(FeatGroupDef); i++) {
uint64_t feat[S390_FEAT_MAX / 64 + 1] = {};
set_bits(feat, FeatGroupDef[i].bits);
printf("#define %s\t", FeatGroupDef[i].name);
for (j = 0; j < ARRAY_SIZE(feat); j++) {
printf("0x%016"PRIx64"ULL", feat[j]);
if (j < ARRAY_SIZE(feat) - 1) {
printf(",");
} else {
printf("\n");
}
}
}
}
static void print_feature_group_enum_type(void)
{
int i;
printf("\n/* CPU feature group enum type */\n"
"typedef enum {\n");
for (i = 0; i < ARRAY_SIZE(FeatGroupDef); i++) {
printf("\t%s,\n", FeatGroupDef[i].enum_name);
}
printf("\tS390_FEAT_GROUP_MAX,\n"
"} S390FeatGroup;\n");
}
int main(int argc, char *argv[])
{
printf("/*\n"
" * AUTOMATICALLY GENERATED, DO NOT MODIFY HERE, EDIT\n"
" * SOURCE FILE \"%s\" INSTEAD.\n"
" *\n"
" * Copyright %s IBM Corp.\n"
" *\n"
" * This work is licensed under the terms of the GNU GPL, "
"version 2 or (at\n * your option) any later version. See "
"the COPYING file in the top-level\n * directory.\n"
" */\n\n"
"#ifndef %s\n#define %s\n", __FILE__, _YEARS, _NAME_H, _NAME_H);
print_feature_defs();
print_feature_group_defs();
print_qemu_feature_defs();
print_feature_group_enum_type();
printf("\n#endif\n");
return 0;
}