16c9f99dfSJanosch Frank /* SPDX-License-Identifier: GPL-2.0-only */ 2cfb204f9SDavid Hildenbrand /* 3cfb204f9SDavid Hildenbrand * Copyright (c) 2017 Red Hat Inc 4cfb204f9SDavid Hildenbrand * 5cfb204f9SDavid Hildenbrand * Authors: 6cfb204f9SDavid Hildenbrand * David Hildenbrand <david@redhat.com> 7cfb204f9SDavid Hildenbrand */ 8eb5a1bbaSCornelia Huck #ifndef _ASMS390X_ARCH_DEF_H_ 9eb5a1bbaSCornelia Huck #define _ASMS390X_ARCH_DEF_H_ 10cfb204f9SDavid Hildenbrand 11*863e0b90SSean Christopherson #include <util.h> 12*863e0b90SSean Christopherson 133ae7f80fSJanosch Frank struct stack_frame { 1436cfc0b7SJanosch Frank struct stack_frame *back_chain; 1536cfc0b7SJanosch Frank uint64_t reserved; 1636cfc0b7SJanosch Frank /* GRs 2 - 5 */ 1736cfc0b7SJanosch Frank uint64_t argument_area[4]; 1836cfc0b7SJanosch Frank /* GRs 6 - 15 */ 1936cfc0b7SJanosch Frank uint64_t grs[10]; 2036cfc0b7SJanosch Frank /* FPRs 0, 2, 4, 6 */ 2136cfc0b7SJanosch Frank int64_t fprs[4]; 2236cfc0b7SJanosch Frank }; 2336cfc0b7SJanosch Frank 2436cfc0b7SJanosch Frank struct stack_frame_int { 2536cfc0b7SJanosch Frank struct stack_frame *back_chain; 2636cfc0b7SJanosch Frank uint64_t reserved; 2736cfc0b7SJanosch Frank /* 2836cfc0b7SJanosch Frank * The GRs are offset compatible with struct stack_frame so we 2936cfc0b7SJanosch Frank * can easily fetch GR14 for backtraces. 3036cfc0b7SJanosch Frank */ 3136cfc0b7SJanosch Frank /* GRs 2 - 15 */ 3236cfc0b7SJanosch Frank uint64_t grs0[14]; 3336cfc0b7SJanosch Frank /* GRs 0 and 1 */ 3436cfc0b7SJanosch Frank uint64_t grs1[2]; 3536cfc0b7SJanosch Frank uint32_t reserved1; 3636cfc0b7SJanosch Frank uint32_t fpc; 3736cfc0b7SJanosch Frank uint64_t fprs[16]; 3836cfc0b7SJanosch Frank uint64_t crs[16]; 393ae7f80fSJanosch Frank }; 403ae7f80fSJanosch Frank 41cfb204f9SDavid Hildenbrand struct psw { 42f0721060SNico Boehr union { 43cfb204f9SDavid Hildenbrand uint64_t mask; 44f0721060SNico Boehr struct { 45f0721060SNico Boehr uint64_t reserved00:1; 46f0721060SNico Boehr uint64_t per:1; 47f0721060SNico Boehr uint64_t reserved02:3; 48f0721060SNico Boehr uint64_t dat:1; 49f0721060SNico Boehr uint64_t io:1; 50f0721060SNico Boehr uint64_t ext:1; 51f0721060SNico Boehr uint64_t key:4; 52f0721060SNico Boehr uint64_t reserved12:1; 53f0721060SNico Boehr uint64_t mchk:1; 54f0721060SNico Boehr uint64_t wait:1; 55f0721060SNico Boehr uint64_t pstate:1; 56f0721060SNico Boehr uint64_t as:2; 57f0721060SNico Boehr uint64_t cc:2; 58f0721060SNico Boehr uint64_t prg_mask:4; 59f0721060SNico Boehr uint64_t reserved24:7; 60f0721060SNico Boehr uint64_t ea:1; 61f0721060SNico Boehr uint64_t ba:1; 62f0721060SNico Boehr uint64_t reserved33:31; 63f0721060SNico Boehr }; 64f0721060SNico Boehr }; 65cfb204f9SDavid Hildenbrand uint64_t addr; 66cfb204f9SDavid Hildenbrand }; 67*863e0b90SSean Christopherson static_assert(sizeof(struct psw) == 16); 68cfb204f9SDavid Hildenbrand 6903dca0b5SClaudio Imbrenda #define PSW(m, a) ((struct psw){ .mask = (m), .addr = (uint64_t)(a) }) 7003dca0b5SClaudio Imbrenda 71e08c4f5eSJanis Schoetterl-Glausch struct short_psw { 72e08c4f5eSJanis Schoetterl-Glausch uint32_t mask; 73e08c4f5eSJanis Schoetterl-Glausch uint32_t addr; 74e08c4f5eSJanis Schoetterl-Glausch }; 75e08c4f5eSJanis Schoetterl-Glausch 764e5dd758SClaudio Imbrenda struct cpu { 774e5dd758SClaudio Imbrenda struct lowcore *lowcore; 784e5dd758SClaudio Imbrenda uint64_t *stack; 794e5dd758SClaudio Imbrenda void (*pgm_cleanup_func)(struct stack_frame_int *); 804e5dd758SClaudio Imbrenda void (*ext_cleanup_func)(struct stack_frame_int *); 814e5dd758SClaudio Imbrenda uint16_t addr; 824e5dd758SClaudio Imbrenda uint16_t idx; 834e5dd758SClaudio Imbrenda bool active; 844e5dd758SClaudio Imbrenda bool pgm_int_expected; 854e5dd758SClaudio Imbrenda bool ext_int_expected; 8689ce5095SClaudio Imbrenda bool in_interrupt_handler; 874e5dd758SClaudio Imbrenda }; 884e5dd758SClaudio Imbrenda 89fedfd112SNico Boehr enum address_space { 90fedfd112SNico Boehr AS_PRIM = 0, 91fedfd112SNico Boehr AS_ACCR = 1, 92fedfd112SNico Boehr AS_SECN = 2, 93fedfd112SNico Boehr AS_HOME = 3 94fedfd112SNico Boehr }; 951921c4c6SJanosch Frank 96c08c320bSDavid Hildenbrand #define PSW_MASK_DAT 0x0400000000000000UL 974e8880d6SNico Boehr #define PSW_MASK_HOME 0x0000C00000000000UL 98086985a3SClaudio Imbrenda #define PSW_MASK_IO 0x0200000000000000UL 99086985a3SClaudio Imbrenda #define PSW_MASK_EXT 0x0100000000000000UL 100086985a3SClaudio Imbrenda #define PSW_MASK_KEY 0x00F0000000000000UL 101f73b4b9eSPierre Morel #define PSW_MASK_WAIT 0x0002000000000000UL 1024ef6f57dSJanosch Frank #define PSW_MASK_PSTATE 0x0001000000000000UL 10344026818SJanosch Frank #define PSW_MASK_EA 0x0000000100000000UL 10444026818SJanosch Frank #define PSW_MASK_BA 0x0000000080000000UL 1054f26290bSJanosch Frank #define PSW_MASK_64 (PSW_MASK_BA | PSW_MASK_EA) 106c08c320bSDavid Hildenbrand 107fb955075SJanis Schoetterl-Glausch #define CTL0_TRANSACT_EX_CTL (63 - 8) 108d34d3250SJanosch Frank #define CTL0_LOW_ADDR_PROT (63 - 35) 109d34d3250SJanosch Frank #define CTL0_EDAT (63 - 40) 11066abce92SJanis Schoetterl-Glausch #define CTL0_FETCH_PROTECTION_OVERRIDE (63 - 38) 11166abce92SJanis Schoetterl-Glausch #define CTL0_STORAGE_PROTECTION_OVERRIDE (63 - 39) 112d34d3250SJanosch Frank #define CTL0_IEP (63 - 43) 113d34d3250SJanosch Frank #define CTL0_AFP (63 - 45) 114d34d3250SJanosch Frank #define CTL0_VECTOR (63 - 46) 115d34d3250SJanosch Frank #define CTL0_EMERGENCY_SIGNAL (63 - 49) 116d34d3250SJanosch Frank #define CTL0_EXTERNAL_CALL (63 - 50) 117d34d3250SJanosch Frank #define CTL0_CLOCK_COMPARATOR (63 - 52) 11808a584f7SNico Boehr #define CTL0_CPU_TIMER (63 - 53) 119d34d3250SJanosch Frank #define CTL0_SERVICE_SIGNAL (63 - 54) 120d34d3250SJanosch Frank #define CR0_EXTM_MASK 0x0000000000006200UL /* Combined external masks */ 121d34d3250SJanosch Frank 122d34d3250SJanosch Frank #define CTL2_GUARDED_STORAGE (63 - 59) 123df121a0cSJanosch Frank 124638bbf66SNico Boehr #define LC_SIZE (2 * PAGE_SIZE) 125cfb204f9SDavid Hildenbrand struct lowcore { 126cfb204f9SDavid Hildenbrand uint8_t pad_0x0000[0x0080 - 0x0000]; /* 0x0000 */ 127cfb204f9SDavid Hildenbrand uint32_t ext_int_param; /* 0x0080 */ 128cfb204f9SDavid Hildenbrand uint16_t cpu_addr; /* 0x0084 */ 129cfb204f9SDavid Hildenbrand uint16_t ext_int_code; /* 0x0086 */ 130cfb204f9SDavid Hildenbrand uint16_t svc_int_id; /* 0x0088 */ 131cfb204f9SDavid Hildenbrand uint16_t svc_int_code; /* 0x008a */ 132cfb204f9SDavid Hildenbrand uint16_t pgm_int_id; /* 0x008c */ 133cfb204f9SDavid Hildenbrand uint16_t pgm_int_code; /* 0x008e */ 134cfb204f9SDavid Hildenbrand uint32_t dxc_vxc; /* 0x0090 */ 135cfb204f9SDavid Hildenbrand uint16_t mon_class_nb; /* 0x0094 */ 136cfb204f9SDavid Hildenbrand uint8_t per_code; /* 0x0096 */ 137cfb204f9SDavid Hildenbrand uint8_t per_atmid; /* 0x0097 */ 138cfb204f9SDavid Hildenbrand uint64_t per_addr; /* 0x0098 */ 139cfb204f9SDavid Hildenbrand uint8_t exc_acc_id; /* 0x00a0 */ 140cfb204f9SDavid Hildenbrand uint8_t per_acc_id; /* 0x00a1 */ 141cfb204f9SDavid Hildenbrand uint8_t op_acc_id; /* 0x00a2 */ 142cfb204f9SDavid Hildenbrand uint8_t arch_mode_id; /* 0x00a3 */ 143cfb204f9SDavid Hildenbrand uint8_t pad_0x00a4[0x00a8 - 0x00a4]; /* 0x00a4 */ 144cfb204f9SDavid Hildenbrand uint64_t trans_exc_id; /* 0x00a8 */ 145cfb204f9SDavid Hildenbrand uint64_t mon_code; /* 0x00b0 */ 146cfb204f9SDavid Hildenbrand uint32_t subsys_id_word; /* 0x00b8 */ 147cfb204f9SDavid Hildenbrand uint32_t io_int_param; /* 0x00bc */ 148cfb204f9SDavid Hildenbrand uint32_t io_int_word; /* 0x00c0 */ 149cfb204f9SDavid Hildenbrand uint8_t pad_0x00c4[0x00c8 - 0x00c4]; /* 0x00c4 */ 150cfb204f9SDavid Hildenbrand uint32_t stfl; /* 0x00c8 */ 151cfb204f9SDavid Hildenbrand uint8_t pad_0x00cc[0x00e8 - 0x00cc]; /* 0x00cc */ 152cfb204f9SDavid Hildenbrand uint64_t mcck_int_code; /* 0x00e8 */ 153cfb204f9SDavid Hildenbrand uint8_t pad_0x00f0[0x00f4 - 0x00f0]; /* 0x00f0 */ 154cfb204f9SDavid Hildenbrand uint32_t ext_damage_code; /* 0x00f4 */ 155cfb204f9SDavid Hildenbrand uint64_t failing_storage_addr; /* 0x00f8 */ 156cfb204f9SDavid Hildenbrand uint64_t emon_ca_origin; /* 0x0100 */ 157cfb204f9SDavid Hildenbrand uint32_t emon_ca_size; /* 0x0108 */ 158cfb204f9SDavid Hildenbrand uint32_t emon_exc_count; /* 0x010c */ 159cfb204f9SDavid Hildenbrand uint64_t breaking_event_addr; /* 0x0110 */ 160cfb204f9SDavid Hildenbrand uint8_t pad_0x0118[0x0120 - 0x0118]; /* 0x0118 */ 161cfb204f9SDavid Hildenbrand struct psw restart_old_psw; /* 0x0120 */ 162cfb204f9SDavid Hildenbrand struct psw ext_old_psw; /* 0x0130 */ 163cfb204f9SDavid Hildenbrand struct psw svc_old_psw; /* 0x0140 */ 164cfb204f9SDavid Hildenbrand struct psw pgm_old_psw; /* 0x0150 */ 165cfb204f9SDavid Hildenbrand struct psw mcck_old_psw; /* 0x0160 */ 166cfb204f9SDavid Hildenbrand struct psw io_old_psw; /* 0x0170 */ 167cfb204f9SDavid Hildenbrand uint8_t pad_0x0180[0x01a0 - 0x0180]; /* 0x0180 */ 168cfb204f9SDavid Hildenbrand struct psw restart_new_psw; /* 0x01a0 */ 169cfb204f9SDavid Hildenbrand struct psw ext_new_psw; /* 0x01b0 */ 170cfb204f9SDavid Hildenbrand struct psw svc_new_psw; /* 0x01c0 */ 171cfb204f9SDavid Hildenbrand struct psw pgm_new_psw; /* 0x01d0 */ 172cfb204f9SDavid Hildenbrand struct psw mcck_new_psw; /* 0x01e0 */ 173cfb204f9SDavid Hildenbrand struct psw io_new_psw; /* 0x01f0 */ 1744da93626SDavid Hildenbrand /* sw definition: save area for registers in interrupt handlers */ 1754da93626SDavid Hildenbrand uint64_t sw_int_grs[16]; /* 0x0200 */ 1763a92a013SJanosch Frank uint8_t pad_0x0280[0x0308 - 0x0280]; /* 0x0280 */ 177736b9295SJanosch Frank uint64_t sw_int_crs[16]; /* 0x0308 */ 178da6ce270SJanosch Frank struct psw sw_int_psw; /* 0x0388 */ 1794e5dd758SClaudio Imbrenda struct cpu *this_cpu; /* 0x0398 */ 1804e5dd758SClaudio Imbrenda uint8_t pad_0x03a0[0x11b0 - 0x03a0]; /* 0x03a0 */ 181cfb204f9SDavid Hildenbrand uint64_t mcck_ext_sa_addr; /* 0x11b0 */ 182cfb204f9SDavid Hildenbrand uint8_t pad_0x11b8[0x1200 - 0x11b8]; /* 0x11b8 */ 183cfb204f9SDavid Hildenbrand uint64_t fprs_sa[16]; /* 0x1200 */ 184cfb204f9SDavid Hildenbrand uint64_t grs_sa[16]; /* 0x1280 */ 185cfb204f9SDavid Hildenbrand struct psw psw_sa; /* 0x1300 */ 186cfb204f9SDavid Hildenbrand uint8_t pad_0x1310[0x1318 - 0x1310]; /* 0x1310 */ 187cfb204f9SDavid Hildenbrand uint32_t prefix_sa; /* 0x1318 */ 188cfb204f9SDavid Hildenbrand uint32_t fpc_sa; /* 0x131c */ 189cfb204f9SDavid Hildenbrand uint8_t pad_0x1320[0x1324 - 0x1320]; /* 0x1320 */ 190cfb204f9SDavid Hildenbrand uint32_t tod_pr_sa; /* 0x1324 */ 191cfb204f9SDavid Hildenbrand uint64_t cputm_sa; /* 0x1328 */ 192cfb204f9SDavid Hildenbrand uint64_t cc_sa; /* 0x1330 */ 193cfb204f9SDavid Hildenbrand uint8_t pad_0x1338[0x1340 - 0x1338]; /* 0x1338 */ 194cfb204f9SDavid Hildenbrand uint32_t ars_sa[16]; /* 0x1340 */ 195cfb204f9SDavid Hildenbrand uint64_t crs_sa[16]; /* 0x1380 */ 196cfb204f9SDavid Hildenbrand uint8_t pad_0x1400[0x1800 - 0x1400]; /* 0x1400 */ 197cfb204f9SDavid Hildenbrand uint8_t pgm_int_tdb[0x1900 - 0x1800]; /* 0x1800 */ 198cfb204f9SDavid Hildenbrand } __attribute__ ((__packed__)); 199*863e0b90SSean Christopherson static_assert(sizeof(struct lowcore) == 0x1900); 200cfb204f9SDavid Hildenbrand 201cd719531SJanis Schoetterl-Glausch extern struct lowcore lowcore; 202cd719531SJanis Schoetterl-Glausch 2034e5dd758SClaudio Imbrenda #define THIS_CPU (lowcore.this_cpu) 2044e5dd758SClaudio Imbrenda 2054da93626SDavid Hildenbrand #define PGM_INT_CODE_OPERATION 0x01 2064da93626SDavid Hildenbrand #define PGM_INT_CODE_PRIVILEGED_OPERATION 0x02 2074da93626SDavid Hildenbrand #define PGM_INT_CODE_EXECUTE 0x03 2084da93626SDavid Hildenbrand #define PGM_INT_CODE_PROTECTION 0x04 2094da93626SDavid Hildenbrand #define PGM_INT_CODE_ADDRESSING 0x05 2104da93626SDavid Hildenbrand #define PGM_INT_CODE_SPECIFICATION 0x06 2114da93626SDavid Hildenbrand #define PGM_INT_CODE_DATA 0x07 2124da93626SDavid Hildenbrand #define PGM_INT_CODE_FIXED_POINT_OVERFLOW 0x08 2134da93626SDavid Hildenbrand #define PGM_INT_CODE_FIXED_POINT_DIVIDE 0x09 2144da93626SDavid Hildenbrand #define PGM_INT_CODE_DECIMAL_OVERFLOW 0x0a 2154da93626SDavid Hildenbrand #define PGM_INT_CODE_DECIMAL_DIVIDE 0x0b 2164da93626SDavid Hildenbrand #define PGM_INT_CODE_HFP_EXPONENT_OVERFLOW 0x0c 2174da93626SDavid Hildenbrand #define PGM_INT_CODE_HFP_EXPONENT_UNDERFLOW 0x0d 2184da93626SDavid Hildenbrand #define PGM_INT_CODE_HFP_SIGNIFICANCE 0x0e 2194da93626SDavid Hildenbrand #define PGM_INT_CODE_HFP_DIVIDE 0x0f 2204da93626SDavid Hildenbrand #define PGM_INT_CODE_SEGMENT_TRANSLATION 0x10 2214da93626SDavid Hildenbrand #define PGM_INT_CODE_PAGE_TRANSLATION 0x11 2224da93626SDavid Hildenbrand #define PGM_INT_CODE_TRANSLATION_SPEC 0x12 2234da93626SDavid Hildenbrand #define PGM_INT_CODE_SPECIAL_OPERATION 0x13 2244da93626SDavid Hildenbrand #define PGM_INT_CODE_OPERAND 0x15 2254da93626SDavid Hildenbrand #define PGM_INT_CODE_TRACE_TABLE 0x16 2264da93626SDavid Hildenbrand #define PGM_INT_CODE_VECTOR_PROCESSING 0x1b 2274da93626SDavid Hildenbrand #define PGM_INT_CODE_SPACE_SWITCH_EVENT 0x1c 2284da93626SDavid Hildenbrand #define PGM_INT_CODE_HFP_SQUARE_ROOT 0x1d 2294da93626SDavid Hildenbrand #define PGM_INT_CODE_PC_TRANSLATION_SPEC 0x1f 2304da93626SDavid Hildenbrand #define PGM_INT_CODE_AFX_TRANSLATION 0x20 2314da93626SDavid Hildenbrand #define PGM_INT_CODE_ASX_TRANSLATION 0x21 2324da93626SDavid Hildenbrand #define PGM_INT_CODE_LX_TRANSLATION 0x22 2334da93626SDavid Hildenbrand #define PGM_INT_CODE_EX_TRANSLATION 0x23 2344da93626SDavid Hildenbrand #define PGM_INT_CODE_PRIMARY_AUTHORITY 0x24 2354da93626SDavid Hildenbrand #define PGM_INT_CODE_SECONDARY_AUTHORITY 0x25 2364da93626SDavid Hildenbrand #define PGM_INT_CODE_LFX_TRANSLATION 0x26 2374da93626SDavid Hildenbrand #define PGM_INT_CODE_LSX_TRANSLATION 0x27 2384da93626SDavid Hildenbrand #define PGM_INT_CODE_ALET_SPECIFICATION 0x28 2394da93626SDavid Hildenbrand #define PGM_INT_CODE_ALEN_TRANSLATION 0x29 2404da93626SDavid Hildenbrand #define PGM_INT_CODE_ALE_SEQUENCE 0x2a 2414da93626SDavid Hildenbrand #define PGM_INT_CODE_ASTE_VALIDITY 0x2b 2424da93626SDavid Hildenbrand #define PGM_INT_CODE_ASTE_SEQUENCE 0x2c 2434da93626SDavid Hildenbrand #define PGM_INT_CODE_EXTENDED_AUTHORITY 0x2d 2444da93626SDavid Hildenbrand #define PGM_INT_CODE_LSTE_SEQUENCE 0x2e 2454da93626SDavid Hildenbrand #define PGM_INT_CODE_ASTE_INSTANCE 0x2f 2464da93626SDavid Hildenbrand #define PGM_INT_CODE_STACK_FULL 0x30 2474da93626SDavid Hildenbrand #define PGM_INT_CODE_STACK_EMPTY 0x31 2484da93626SDavid Hildenbrand #define PGM_INT_CODE_STACK_SPECIFICATION 0x32 2494da93626SDavid Hildenbrand #define PGM_INT_CODE_STACK_TYPE 0x33 2504da93626SDavid Hildenbrand #define PGM_INT_CODE_STACK_OPERATION 0x34 2514da93626SDavid Hildenbrand #define PGM_INT_CODE_ASCE_TYPE 0x38 2524da93626SDavid Hildenbrand #define PGM_INT_CODE_REGION_FIRST_TRANS 0x39 2534da93626SDavid Hildenbrand #define PGM_INT_CODE_REGION_SECOND_TRANS 0x3a 2544da93626SDavid Hildenbrand #define PGM_INT_CODE_REGION_THIRD_TRANS 0x3b 25568721b97SJanosch Frank #define PGM_INT_CODE_SECURE_STOR_ACCESS 0x3d 25668721b97SJanosch Frank #define PGM_INT_CODE_NON_SECURE_STOR_ACCESS 0x3e 25768721b97SJanosch Frank #define PGM_INT_CODE_SECURE_STOR_VIOLATION 0x3f 2584da93626SDavid Hildenbrand #define PGM_INT_CODE_MONITOR_EVENT 0x40 2594da93626SDavid Hildenbrand #define PGM_INT_CODE_PER 0x80 2604da93626SDavid Hildenbrand #define PGM_INT_CODE_CRYPTO_OPERATION 0x119 2614da93626SDavid Hildenbrand #define PGM_INT_CODE_TX_ABORTED_EVENT 0x200 2624da93626SDavid Hildenbrand 263484a3a57SDavid Hildenbrand struct cpuid { 264484a3a57SDavid Hildenbrand uint64_t version : 8; 265484a3a57SDavid Hildenbrand uint64_t id : 24; 266484a3a57SDavid Hildenbrand uint64_t type : 16; 267484a3a57SDavid Hildenbrand uint64_t format : 1; 268484a3a57SDavid Hildenbrand uint64_t reserved : 15; 269484a3a57SDavid Hildenbrand }; 270484a3a57SDavid Hildenbrand 271b43c912fSClaudio Imbrenda #define SVC_LEAVE_PSTATE 1 272b43c912fSClaudio Imbrenda 273f77c0515SJanosch Frank static inline unsigned short stap(void) 274f77c0515SJanosch Frank { 275f77c0515SJanosch Frank unsigned short cpu_address; 276f77c0515SJanosch Frank 277f77c0515SJanosch Frank asm volatile("stap %0" : "=Q" (cpu_address)); 278f77c0515SJanosch Frank return cpu_address; 279f77c0515SJanosch Frank } 280f77c0515SJanosch Frank 28195da193aSClaudio Imbrenda static inline uint64_t stidp(void) 282c73cc92dSJanosch Frank { 283c73cc92dSJanosch Frank uint64_t cpuid; 284c73cc92dSJanosch Frank 285c73cc92dSJanosch Frank asm volatile("stidp %0" : "=Q" (cpuid)); 286c73cc92dSJanosch Frank 287c73cc92dSJanosch Frank return cpuid; 288c73cc92dSJanosch Frank } 289c73cc92dSJanosch Frank 290b5b28387SJanis Schoetterl-Glausch enum tprot_permission { 291b5b28387SJanis Schoetterl-Glausch TPROT_READ_WRITE = 0, 292b5b28387SJanis Schoetterl-Glausch TPROT_READ = 1, 293b5b28387SJanis Schoetterl-Glausch TPROT_RW_PROTECTED = 2, 294b5b28387SJanis Schoetterl-Glausch TPROT_TRANSL_UNAVAIL = 3, 295b5b28387SJanis Schoetterl-Glausch }; 296b5b28387SJanis Schoetterl-Glausch 297b5b28387SJanis Schoetterl-Glausch static inline enum tprot_permission tprot(unsigned long addr, char access_key) 2983db880b6SDavid Hildenbrand { 2993db880b6SDavid Hildenbrand int cc; 3003db880b6SDavid Hildenbrand 3013db880b6SDavid Hildenbrand asm volatile( 302443987a6SJanis Schoetterl-Glausch " tprot 0(%1),0(%2)\n" 3033db880b6SDavid Hildenbrand " ipm %0\n" 3043db880b6SDavid Hildenbrand " srl %0,28\n" 305443987a6SJanis Schoetterl-Glausch : "=d" (cc) : "a" (addr), "a" (access_key << 4) : "cc"); 306b5b28387SJanis Schoetterl-Glausch return (enum tprot_permission)cc; 3073db880b6SDavid Hildenbrand } 3083db880b6SDavid Hildenbrand 309c08c320bSDavid Hildenbrand static inline void lctlg(int cr, uint64_t value) 310c08c320bSDavid Hildenbrand { 311c08c320bSDavid Hildenbrand asm volatile( 312c08c320bSDavid Hildenbrand " lctlg %1,%1,%0\n" 313c08c320bSDavid Hildenbrand : : "Q" (value), "i" (cr)); 314c08c320bSDavid Hildenbrand } 315c08c320bSDavid Hildenbrand 316c08c320bSDavid Hildenbrand static inline uint64_t stctg(int cr) 317c08c320bSDavid Hildenbrand { 318c08c320bSDavid Hildenbrand uint64_t value; 319c08c320bSDavid Hildenbrand 320c08c320bSDavid Hildenbrand asm volatile( 321c08c320bSDavid Hildenbrand " stctg %1,%1,%0\n" 322c08c320bSDavid Hildenbrand : "=Q" (value) : "i" (cr) : "memory"); 323c08c320bSDavid Hildenbrand return value; 324c08c320bSDavid Hildenbrand } 325c08c320bSDavid Hildenbrand 32643868475SJanosch Frank static inline void ctl_set_bit(int cr, unsigned int bit) 32743868475SJanosch Frank { 32843868475SJanosch Frank uint64_t reg; 32943868475SJanosch Frank 33043868475SJanosch Frank reg = stctg(cr); 33143868475SJanosch Frank reg |= 1UL << bit; 33243868475SJanosch Frank lctlg(cr, reg); 33343868475SJanosch Frank } 33443868475SJanosch Frank 33543868475SJanosch Frank static inline void ctl_clear_bit(int cr, unsigned int bit) 33643868475SJanosch Frank { 33743868475SJanosch Frank uint64_t reg; 33843868475SJanosch Frank 33943868475SJanosch Frank reg = stctg(cr); 34043868475SJanosch Frank reg &= ~(1UL << bit); 34143868475SJanosch Frank lctlg(cr, reg); 34243868475SJanosch Frank } 34343868475SJanosch Frank 344c08c320bSDavid Hildenbrand static inline uint64_t extract_psw_mask(void) 345c08c320bSDavid Hildenbrand { 346c08c320bSDavid Hildenbrand uint32_t mask_upper = 0, mask_lower = 0; 347c08c320bSDavid Hildenbrand 348c08c320bSDavid Hildenbrand asm volatile( 349c08c320bSDavid Hildenbrand " epsw %0,%1\n" 35021675e2dSThomas Huth : "=r" (mask_upper), "=a" (mask_lower)); 351c08c320bSDavid Hildenbrand 352c08c320bSDavid Hildenbrand return (uint64_t) mask_upper << 32 | mask_lower; 353c08c320bSDavid Hildenbrand } 354c08c320bSDavid Hildenbrand 35503dca0b5SClaudio Imbrenda #define PSW_WITH_CUR_MASK(addr) PSW(extract_psw_mask(), (addr)) 35603dca0b5SClaudio Imbrenda 357c08c320bSDavid Hildenbrand static inline void load_psw_mask(uint64_t mask) 358c08c320bSDavid Hildenbrand { 359c08c320bSDavid Hildenbrand struct psw psw = { 360c08c320bSDavid Hildenbrand .mask = mask, 361c08c320bSDavid Hildenbrand .addr = 0, 362c08c320bSDavid Hildenbrand }; 363c08c320bSDavid Hildenbrand uint64_t tmp = 0; 364c08c320bSDavid Hildenbrand 365c08c320bSDavid Hildenbrand asm volatile( 366c08c320bSDavid Hildenbrand " larl %0,0f\n" 367c08c320bSDavid Hildenbrand " stg %0,8(%1)\n" 368c08c320bSDavid Hildenbrand " lpswe 0(%1)\n" 369c08c320bSDavid Hildenbrand "0:\n" 370c08c320bSDavid Hildenbrand : "+r" (tmp) : "a" (&psw) : "memory", "cc" ); 371c08c320bSDavid Hildenbrand } 372c08c320bSDavid Hildenbrand 37389ce5095SClaudio Imbrenda static inline void disabled_wait(uint64_t message) 37489ce5095SClaudio Imbrenda { 37589ce5095SClaudio Imbrenda struct psw psw = { 37689ce5095SClaudio Imbrenda .mask = PSW_MASK_WAIT, /* Disabled wait */ 37789ce5095SClaudio Imbrenda .addr = message, 37889ce5095SClaudio Imbrenda }; 37989ce5095SClaudio Imbrenda 38089ce5095SClaudio Imbrenda asm volatile(" lpswe 0(%0)\n" : : "a" (&psw) : "memory", "cc"); 38189ce5095SClaudio Imbrenda } 38289ce5095SClaudio Imbrenda 383086985a3SClaudio Imbrenda /** 384086985a3SClaudio Imbrenda * psw_mask_clear_bits - clears bits from the current PSW mask 385086985a3SClaudio Imbrenda * @clear: bitmask of bits that will be cleared 386086985a3SClaudio Imbrenda */ 387086985a3SClaudio Imbrenda static inline void psw_mask_clear_bits(uint64_t clear) 388086985a3SClaudio Imbrenda { 389086985a3SClaudio Imbrenda load_psw_mask(extract_psw_mask() & ~clear); 390086985a3SClaudio Imbrenda } 391086985a3SClaudio Imbrenda 392086985a3SClaudio Imbrenda /** 393086985a3SClaudio Imbrenda * psw_mask_set_bits - sets bits on the current PSW mask 394086985a3SClaudio Imbrenda * @set: bitmask of bits that will be set 395086985a3SClaudio Imbrenda */ 396086985a3SClaudio Imbrenda static inline void psw_mask_set_bits(uint64_t set) 397086985a3SClaudio Imbrenda { 398086985a3SClaudio Imbrenda load_psw_mask(extract_psw_mask() | set); 399086985a3SClaudio Imbrenda } 400086985a3SClaudio Imbrenda 401086985a3SClaudio Imbrenda /** 402086985a3SClaudio Imbrenda * psw_mask_clear_and_set_bits - clears and sets bits on the current PSW mask 403086985a3SClaudio Imbrenda * @clear: bitmask of bits that will be cleared 404086985a3SClaudio Imbrenda * @set: bitmask of bits that will be set 405086985a3SClaudio Imbrenda * 406086985a3SClaudio Imbrenda * The bits in the @clear mask will be cleared, then the bits in the @set mask 407086985a3SClaudio Imbrenda * will be set. 408086985a3SClaudio Imbrenda */ 409086985a3SClaudio Imbrenda static inline void psw_mask_clear_and_set_bits(uint64_t clear, uint64_t set) 410086985a3SClaudio Imbrenda { 411086985a3SClaudio Imbrenda load_psw_mask((extract_psw_mask() & ~clear) | set); 412086985a3SClaudio Imbrenda } 413086985a3SClaudio Imbrenda 414086985a3SClaudio Imbrenda /** 415086985a3SClaudio Imbrenda * enable_dat - enable the DAT bit in the current PSW 416086985a3SClaudio Imbrenda */ 417086985a3SClaudio Imbrenda static inline void enable_dat(void) 418086985a3SClaudio Imbrenda { 419086985a3SClaudio Imbrenda psw_mask_set_bits(PSW_MASK_DAT); 420086985a3SClaudio Imbrenda } 421086985a3SClaudio Imbrenda 422086985a3SClaudio Imbrenda /** 423086985a3SClaudio Imbrenda * disable_dat - disable the DAT bit in the current PSW 424086985a3SClaudio Imbrenda */ 425086985a3SClaudio Imbrenda static inline void disable_dat(void) 426086985a3SClaudio Imbrenda { 427086985a3SClaudio Imbrenda psw_mask_clear_bits(PSW_MASK_DAT); 428086985a3SClaudio Imbrenda } 429086985a3SClaudio Imbrenda 430f73b4b9eSPierre Morel static inline void wait_for_interrupt(uint64_t irq_mask) 431f73b4b9eSPierre Morel { 432f73b4b9eSPierre Morel uint64_t psw_mask = extract_psw_mask(); 433f73b4b9eSPierre Morel 434f73b4b9eSPierre Morel load_psw_mask(psw_mask | irq_mask | PSW_MASK_WAIT); 435f73b4b9eSPierre Morel /* 436f73b4b9eSPierre Morel * After being woken and having processed the interrupt, let's restore 437f73b4b9eSPierre Morel * the PSW mask. 438f73b4b9eSPierre Morel */ 439f73b4b9eSPierre Morel load_psw_mask(psw_mask); 440f73b4b9eSPierre Morel } 441f73b4b9eSPierre Morel 4424ef6f57dSJanosch Frank static inline void enter_pstate(void) 4434ef6f57dSJanosch Frank { 444086985a3SClaudio Imbrenda psw_mask_set_bits(PSW_MASK_PSTATE); 4454ef6f57dSJanosch Frank } 4464ef6f57dSJanosch Frank 447b43c912fSClaudio Imbrenda static inline void leave_pstate(void) 448b43c912fSClaudio Imbrenda { 449b43c912fSClaudio Imbrenda asm volatile(" svc %0\n" : : "i" (SVC_LEAVE_PSTATE)); 450b43c912fSClaudio Imbrenda } 451b43c912fSClaudio Imbrenda 452c132c9e2SJanosch Frank static inline int stsi(void *addr, int fc, int sel1, int sel2) 453c132c9e2SJanosch Frank { 454c132c9e2SJanosch Frank register int r0 asm("0") = (fc << 28) | sel1; 455c132c9e2SJanosch Frank register int r1 asm("1") = sel2; 456c132c9e2SJanosch Frank int cc; 457c132c9e2SJanosch Frank 458c132c9e2SJanosch Frank asm volatile( 459c132c9e2SJanosch Frank "stsi 0(%3)\n" 460c132c9e2SJanosch Frank "ipm %[cc]\n" 461c132c9e2SJanosch Frank "srl %[cc],28\n" 462c132c9e2SJanosch Frank : "+d" (r0), [cc] "=d" (cc) 463c132c9e2SJanosch Frank : "d" (r1), "a" (addr) 464c132c9e2SJanosch Frank : "cc", "memory"); 465c132c9e2SJanosch Frank return cc; 466c132c9e2SJanosch Frank } 467c132c9e2SJanosch Frank 468242b02e3SPierre Morel static inline unsigned long stsi_get_fc(void) 469242b02e3SPierre Morel { 470242b02e3SPierre Morel register unsigned long r0 asm("0") = 0; 471242b02e3SPierre Morel register unsigned long r1 asm("1") = 0; 472242b02e3SPierre Morel int cc; 473242b02e3SPierre Morel 474242b02e3SPierre Morel asm volatile("stsi 0\n" 475242b02e3SPierre Morel "ipm %[cc]\n" 476242b02e3SPierre Morel "srl %[cc],28\n" 477242b02e3SPierre Morel : "+d" (r0), [cc] "=d" (cc) 478242b02e3SPierre Morel : "d" (r1) 479242b02e3SPierre Morel : "cc", "memory"); 480242b02e3SPierre Morel assert(!cc); 481242b02e3SPierre Morel return r0 >> 28; 482242b02e3SPierre Morel } 483242b02e3SPierre Morel 484f9395bfeSClaudio Imbrenda static inline int servc(uint32_t command, unsigned long sccb) 485f9395bfeSClaudio Imbrenda { 486f9395bfeSClaudio Imbrenda int cc; 487f9395bfeSClaudio Imbrenda 488f9395bfeSClaudio Imbrenda asm volatile( 489f9395bfeSClaudio Imbrenda " .insn rre,0xb2200000,%1,%2\n" /* servc %1,%2 */ 490f9395bfeSClaudio Imbrenda " ipm %0\n" 491f9395bfeSClaudio Imbrenda " srl %0,28" 492f9395bfeSClaudio Imbrenda : "=&d" (cc) : "d" (command), "a" (sccb) 493f9395bfeSClaudio Imbrenda : "cc", "memory"); 494f9395bfeSClaudio Imbrenda return cc; 495f9395bfeSClaudio Imbrenda } 496f9395bfeSClaudio Imbrenda 4976b3278c9SClaudio Imbrenda static inline void set_prefix(uint32_t new_prefix) 4986b3278c9SClaudio Imbrenda { 4996b3278c9SClaudio Imbrenda asm volatile(" spx %0" : : "Q" (new_prefix) : "memory"); 5006b3278c9SClaudio Imbrenda } 5016b3278c9SClaudio Imbrenda 5026b3278c9SClaudio Imbrenda static inline uint32_t get_prefix(void) 5036b3278c9SClaudio Imbrenda { 5046b3278c9SClaudio Imbrenda uint32_t current_prefix; 5056b3278c9SClaudio Imbrenda 5066b3278c9SClaudio Imbrenda asm volatile(" stpx %0" : "=Q" (current_prefix)); 5076b3278c9SClaudio Imbrenda return current_prefix; 5086b3278c9SClaudio Imbrenda } 5096b3278c9SClaudio Imbrenda 510da49e291SNina Schoetterl-Glausch static inline void diag44(void) 511da49e291SNina Schoetterl-Glausch { 512da49e291SNina Schoetterl-Glausch asm volatile("diag 0,0,0x44\n"); 513da49e291SNina Schoetterl-Glausch } 514da49e291SNina Schoetterl-Glausch 515da49e291SNina Schoetterl-Glausch static inline void diag500(uint64_t val) 516da49e291SNina Schoetterl-Glausch { 517da49e291SNina Schoetterl-Glausch asm volatile( 518da49e291SNina Schoetterl-Glausch "lgr 2,%[val]\n" 519da49e291SNina Schoetterl-Glausch "diag 0,0,0x500\n" 520da49e291SNina Schoetterl-Glausch : 521da49e291SNina Schoetterl-Glausch : [val] "d"(val) 522da49e291SNina Schoetterl-Glausch : "r2" 523da49e291SNina Schoetterl-Glausch ); 524da49e291SNina Schoetterl-Glausch } 525da49e291SNina Schoetterl-Glausch 526cfb204f9SDavid Hildenbrand #endif 527