1532ed618SSoby Mathew /* 2b07c317fSBoyan Karatotev * Copyright (c) 2014-2025, Arm Limited and Contributors. All rights reserved. 3532ed618SSoby Mathew * 482cb2c1aSdp-arm * SPDX-License-Identifier: BSD-3-Clause 5532ed618SSoby Mathew */ 6532ed618SSoby Mathew 743534997SAntonio Nino Diaz #ifndef CPU_DATA_H 843534997SAntonio Nino Diaz #define CPU_DATA_H 9532ed618SSoby Mathew 1086606eb5SEtienne Carriere #include <platform_def.h> /* CACHE_WRITEBACK_GRANULE required */ 1186606eb5SEtienne Carriere 1209d40e0eSAntonio Nino Diaz #include <bl31/ehf.h> 1309d40e0eSAntonio Nino Diaz 14ed108b56SAlexei Fedorov /* Size of psci_cpu_data structure */ 15ed108b56SAlexei Fedorov #define PSCI_CPU_DATA_SIZE 12 16ed108b56SAlexei Fedorov 17402b3cf8SJulius Werner #ifdef __aarch64__ 18e33b78a6SSoby Mathew 19ed108b56SAlexei Fedorov /* 8-bytes aligned size of psci_cpu_data structure */ 20ed108b56SAlexei Fedorov #define PSCI_CPU_DATA_SIZE_ALIGNED ((PSCI_CPU_DATA_SIZE + 7) & ~7) 21ed108b56SAlexei Fedorov 22c5ea4f8aSZelalem Aweke #if ENABLE_RME 23c5ea4f8aSZelalem Aweke /* Size of cpu_context array */ 24c5ea4f8aSZelalem Aweke #define CPU_DATA_CONTEXT_NUM 3 25ed108b56SAlexei Fedorov /* Offset of cpu_ops_ptr, size 8 bytes */ 26ef738d19SManish Pandey #define CPU_DATA_CPU_OPS_PTR 0x20 27c5ea4f8aSZelalem Aweke #else /* ENABLE_RME */ 28c5ea4f8aSZelalem Aweke #define CPU_DATA_CONTEXT_NUM 2 29ef738d19SManish Pandey #define CPU_DATA_CPU_OPS_PTR 0x18 30c5ea4f8aSZelalem Aweke #endif /* ENABLE_RME */ 31e33b78a6SSoby Mathew 32ed108b56SAlexei Fedorov #if ENABLE_PAUTH 33ed108b56SAlexei Fedorov /* 8-bytes aligned offset of apiakey[2], size 16 bytes */ 34c5ea4f8aSZelalem Aweke #define CPU_DATA_APIAKEY_OFFSET (0x8 + PSCI_CPU_DATA_SIZE_ALIGNED \ 35c5ea4f8aSZelalem Aweke + CPU_DATA_CPU_OPS_PTR) 36c5ea4f8aSZelalem Aweke #define CPU_DATA_CRASH_BUF_OFFSET (0x10 + CPU_DATA_APIAKEY_OFFSET) 37c5ea4f8aSZelalem Aweke #else /* ENABLE_PAUTH */ 38c5ea4f8aSZelalem Aweke #define CPU_DATA_CRASH_BUF_OFFSET (0x8 + PSCI_CPU_DATA_SIZE_ALIGNED \ 39c5ea4f8aSZelalem Aweke + CPU_DATA_CPU_OPS_PTR) 40ed108b56SAlexei Fedorov #endif /* ENABLE_PAUTH */ 41ed108b56SAlexei Fedorov 42ed108b56SAlexei Fedorov /* need enough space in crash buffer to save 8 registers */ 43ed108b56SAlexei Fedorov #define CPU_DATA_CRASH_BUF_SIZE 64 44ed108b56SAlexei Fedorov 45ed108b56SAlexei Fedorov #else /* !__aarch64__ */ 46402b3cf8SJulius Werner 47402b3cf8SJulius Werner #if CRASH_REPORTING 48402b3cf8SJulius Werner #error "Crash reporting is not supported in AArch32" 49402b3cf8SJulius Werner #endif 50ef738d19SManish Pandey #define WARMBOOT_EP_INFO 0x0 51ef738d19SManish Pandey #define CPU_DATA_CPU_OPS_PTR 0x4 52ef738d19SManish Pandey #define CPU_DATA_CRASH_BUF_OFFSET (CPU_DATA_CPU_OPS_PTR + PSCI_CPU_DATA_SIZE) 53402b3cf8SJulius Werner 54402b3cf8SJulius Werner #endif /* __aarch64__ */ 55e33b78a6SSoby Mathew 56532ed618SSoby Mathew #if CRASH_REPORTING 57872be88aSdp-arm #define CPU_DATA_CRASH_BUF_END (CPU_DATA_CRASH_BUF_OFFSET + \ 58872be88aSdp-arm CPU_DATA_CRASH_BUF_SIZE) 59532ed618SSoby Mathew #else 60872be88aSdp-arm #define CPU_DATA_CRASH_BUF_END CPU_DATA_CRASH_BUF_OFFSET 61872be88aSdp-arm #endif 62872be88aSdp-arm 63483dc2e4SOmkar Anand Kulkarni /* buffer space for EHF data is sizeof(pe_exc_data_t) */ 64483dc2e4SOmkar Anand Kulkarni #define CPU_DATA_EHF_DATA_SIZE 8 65483dc2e4SOmkar Anand Kulkarni #define CPU_DATA_EHF_DATA_BUF_OFFSET CPU_DATA_CRASH_BUF_END 66483dc2e4SOmkar Anand Kulkarni 67483dc2e4SOmkar Anand Kulkarni #if defined(IMAGE_BL31) && EL3_EXCEPTION_HANDLING 68483dc2e4SOmkar Anand Kulkarni #define CPU_DATA_EHF_DATA_BUF_END (CPU_DATA_EHF_DATA_BUF_OFFSET + \ 69483dc2e4SOmkar Anand Kulkarni CPU_DATA_EHF_DATA_SIZE) 70483dc2e4SOmkar Anand Kulkarni #else 71483dc2e4SOmkar Anand Kulkarni #define CPU_DATA_EHF_DATA_BUF_END CPU_DATA_EHF_DATA_BUF_OFFSET 72483dc2e4SOmkar Anand Kulkarni #endif /* EL3_EXCEPTION_HANDLING */ 73483dc2e4SOmkar Anand Kulkarni 7486606eb5SEtienne Carriere /* cpu_data size is the data size rounded up to the platform cache line size */ 75483dc2e4SOmkar Anand Kulkarni #define CPU_DATA_SIZE (((CPU_DATA_EHF_DATA_BUF_END + \ 7686606eb5SEtienne Carriere CACHE_WRITEBACK_GRANULE - 1) / \ 7786606eb5SEtienne Carriere CACHE_WRITEBACK_GRANULE) * \ 7886606eb5SEtienne Carriere CACHE_WRITEBACK_GRANULE) 7986606eb5SEtienne Carriere 80872be88aSdp-arm #if ENABLE_RUNTIME_INSTRUMENTATION 81872be88aSdp-arm /* Temporary space to store PMF timestamps from assembly code */ 82872be88aSdp-arm #define CPU_DATA_PMF_TS_COUNT 1 83ef738d19SManish Pandey #if __aarch64__ 84483dc2e4SOmkar Anand Kulkarni #define CPU_DATA_PMF_TS0_OFFSET CPU_DATA_EHF_DATA_BUF_END 85ef738d19SManish Pandey #else 86ef738d19SManish Pandey /* alignment */ 87ef738d19SManish Pandey #define CPU_DATA_PMF_TS0_OFFSET (CPU_DATA_EHF_DATA_BUF_END + 8) 88ef738d19SManish Pandey #endif 89872be88aSdp-arm #define CPU_DATA_PMF_TS0_IDX 0 90532ed618SSoby Mathew #endif 91532ed618SSoby Mathew 92d5dfdeb6SJulius Werner #ifndef __ASSEMBLER__ 93532ed618SSoby Mathew 94c5ea4f8aSZelalem Aweke #include <assert.h> 95c5ea4f8aSZelalem Aweke #include <stdint.h> 96c5ea4f8aSZelalem Aweke 97532ed618SSoby Mathew #include <arch_helpers.h> 9809d40e0eSAntonio Nino Diaz #include <lib/cassert.h> 9909d40e0eSAntonio Nino Diaz #include <lib/psci/psci.h> 100c5ea4f8aSZelalem Aweke 101532ed618SSoby Mathew #include <platform_def.h> 102532ed618SSoby Mathew 103532ed618SSoby Mathew /* Offsets for the cpu_data structure */ 104532ed618SSoby Mathew #define CPU_DATA_PSCI_LOCK_OFFSET __builtin_offsetof\ 105532ed618SSoby Mathew (cpu_data_t, psci_svc_cpu_data.pcpu_bakery_info) 106532ed618SSoby Mathew 107532ed618SSoby Mathew #if PLAT_PCPU_DATA_SIZE 108532ed618SSoby Mathew #define CPU_DATA_PLAT_PCPU_OFFSET __builtin_offsetof\ 109532ed618SSoby Mathew (cpu_data_t, platform_cpu_data) 110532ed618SSoby Mathew #endif 111532ed618SSoby Mathew 112c5ea4f8aSZelalem Aweke typedef enum context_pas { 113c5ea4f8aSZelalem Aweke CPU_CONTEXT_SECURE = 0, 114c5ea4f8aSZelalem Aweke CPU_CONTEXT_NS, 115c5ea4f8aSZelalem Aweke #if ENABLE_RME 116c5ea4f8aSZelalem Aweke CPU_CONTEXT_REALM, 117c5ea4f8aSZelalem Aweke #endif 118c5ea4f8aSZelalem Aweke CPU_CONTEXT_NUM 119c5ea4f8aSZelalem Aweke } context_pas_t; 120c5ea4f8aSZelalem Aweke 121532ed618SSoby Mathew /******************************************************************************* 122532ed618SSoby Mathew * Function & variable prototypes 123532ed618SSoby Mathew ******************************************************************************/ 124532ed618SSoby Mathew 125532ed618SSoby Mathew /******************************************************************************* 126532ed618SSoby Mathew * Cache of frequently used per-cpu data: 127c5ea4f8aSZelalem Aweke * Pointers to non-secure, realm, and secure security state contexts 128532ed618SSoby Mathew * Address of the crash stack 129532ed618SSoby Mathew * It is aligned to the cache line boundary to allow efficient concurrent 130532ed618SSoby Mathew * manipulation of these pointers on different cpus 131532ed618SSoby Mathew * 132532ed618SSoby Mathew * The data structure and the _cpu_data accessors should not be used directly 133532ed618SSoby Mathew * by components that have per-cpu members. The member access macros should be 134532ed618SSoby Mathew * used for this. 135532ed618SSoby Mathew ******************************************************************************/ 136532ed618SSoby Mathew typedef struct cpu_data { 137402b3cf8SJulius Werner #ifdef __aarch64__ 138c5ea4f8aSZelalem Aweke void *cpu_context[CPU_DATA_CONTEXT_NUM]; 139c5ea4f8aSZelalem Aweke #endif /* __aarch64__ */ 140ef738d19SManish Pandey entry_point_info_t *warmboot_ep_info; 141*d43b2ea6SBoyan Karatotev struct cpu_ops *cpu_ops_ptr; 142ed108b56SAlexei Fedorov struct psci_cpu_data psci_svc_cpu_data; 143ed108b56SAlexei Fedorov #if ENABLE_PAUTH 144ed108b56SAlexei Fedorov uint64_t apiakey[2]; 145ed108b56SAlexei Fedorov #endif 146532ed618SSoby Mathew #if CRASH_REPORTING 147532ed618SSoby Mathew u_register_t crash_buf[CPU_DATA_CRASH_BUF_SIZE >> 3]; 148532ed618SSoby Mathew #endif 149872be88aSdp-arm #if ENABLE_RUNTIME_INSTRUMENTATION 150872be88aSdp-arm uint64_t cpu_data_pmf_ts[CPU_DATA_PMF_TS_COUNT]; 151872be88aSdp-arm #endif 152532ed618SSoby Mathew #if PLAT_PCPU_DATA_SIZE 153532ed618SSoby Mathew uint8_t platform_cpu_data[PLAT_PCPU_DATA_SIZE]; 154532ed618SSoby Mathew #endif 15521b818c0SJeenu Viswambharan #if defined(IMAGE_BL31) && EL3_EXCEPTION_HANDLING 15621b818c0SJeenu Viswambharan pe_exc_data_t ehf_data; 15721b818c0SJeenu Viswambharan #endif 158532ed618SSoby Mathew } __aligned(CACHE_WRITEBACK_GRANULE) cpu_data_t; 159532ed618SSoby Mathew 1607fabe1a8SRoberto Vargas extern cpu_data_t percpu_data[PLATFORM_CORE_COUNT]; 1617fabe1a8SRoberto Vargas 162c5ea4f8aSZelalem Aweke #ifdef __aarch64__ 163c5ea4f8aSZelalem Aweke CASSERT(CPU_DATA_CONTEXT_NUM == CPU_CONTEXT_NUM, 164c5ea4f8aSZelalem Aweke assert_cpu_data_context_num_mismatch); 165c5ea4f8aSZelalem Aweke #endif 166c5ea4f8aSZelalem Aweke 167ed108b56SAlexei Fedorov #if ENABLE_PAUTH 168ed108b56SAlexei Fedorov CASSERT(CPU_DATA_APIAKEY_OFFSET == __builtin_offsetof 169ed108b56SAlexei Fedorov (cpu_data_t, apiakey), 170b4f8d445SOlivier Deprez assert_cpu_data_pauth_stack_offset_mismatch); 171ed108b56SAlexei Fedorov #endif 172ed108b56SAlexei Fedorov 173532ed618SSoby Mathew #if CRASH_REPORTING 174532ed618SSoby Mathew /* verify assembler offsets match data structures */ 175532ed618SSoby Mathew CASSERT(CPU_DATA_CRASH_BUF_OFFSET == __builtin_offsetof 176532ed618SSoby Mathew (cpu_data_t, crash_buf), 177532ed618SSoby Mathew assert_cpu_data_crash_stack_offset_mismatch); 178532ed618SSoby Mathew #endif 179532ed618SSoby Mathew 180483dc2e4SOmkar Anand Kulkarni #if defined(IMAGE_BL31) && EL3_EXCEPTION_HANDLING 181483dc2e4SOmkar Anand Kulkarni CASSERT(CPU_DATA_EHF_DATA_BUF_OFFSET == __builtin_offsetof 182483dc2e4SOmkar Anand Kulkarni (cpu_data_t, ehf_data), 183483dc2e4SOmkar Anand Kulkarni assert_cpu_data_ehf_stack_offset_mismatch); 184483dc2e4SOmkar Anand Kulkarni #endif 185483dc2e4SOmkar Anand Kulkarni 18686606eb5SEtienne Carriere CASSERT(CPU_DATA_SIZE == sizeof(cpu_data_t), 18786606eb5SEtienne Carriere assert_cpu_data_size_mismatch); 188532ed618SSoby Mathew 189532ed618SSoby Mathew CASSERT(CPU_DATA_CPU_OPS_PTR == __builtin_offsetof 190532ed618SSoby Mathew (cpu_data_t, cpu_ops_ptr), 191532ed618SSoby Mathew assert_cpu_data_cpu_ops_ptr_offset_mismatch); 192532ed618SSoby Mathew 193872be88aSdp-arm #if ENABLE_RUNTIME_INSTRUMENTATION 194872be88aSdp-arm CASSERT(CPU_DATA_PMF_TS0_OFFSET == __builtin_offsetof 195872be88aSdp-arm (cpu_data_t, cpu_data_pmf_ts[0]), 196872be88aSdp-arm assert_cpu_data_pmf_ts0_offset_mismatch); 197872be88aSdp-arm #endif 198872be88aSdp-arm 199*d43b2ea6SBoyan Karatotev static inline cpu_data_t *_cpu_data_by_index(unsigned int cpu_index) 200*d43b2ea6SBoyan Karatotev { 201*d43b2ea6SBoyan Karatotev return &percpu_data[cpu_index]; 202*d43b2ea6SBoyan Karatotev } 203532ed618SSoby Mathew 204402b3cf8SJulius Werner #ifdef __aarch64__ 205532ed618SSoby Mathew /* Return the cpu_data structure for the current CPU. */ 206*d43b2ea6SBoyan Karatotev static inline cpu_data_t *_cpu_data(void) 207532ed618SSoby Mathew { 208532ed618SSoby Mathew return (cpu_data_t *)read_tpidr_el3(); 209532ed618SSoby Mathew } 210e33b78a6SSoby Mathew #else 211*d43b2ea6SBoyan Karatotev cpu_data_t *_cpu_data(void); 212e33b78a6SSoby Mathew #endif 213532ed618SSoby Mathew 214c5ea4f8aSZelalem Aweke /* 215c5ea4f8aSZelalem Aweke * Returns the index of the cpu_context array for the given security state. 216c5ea4f8aSZelalem Aweke * All accesses to cpu_context should be through this helper to make sure 217c5ea4f8aSZelalem Aweke * an access is not out-of-bounds. The function assumes security_state is 218c5ea4f8aSZelalem Aweke * valid. 219c5ea4f8aSZelalem Aweke */ 220c5ea4f8aSZelalem Aweke static inline context_pas_t get_cpu_context_index(uint32_t security_state) 221c5ea4f8aSZelalem Aweke { 222c5ea4f8aSZelalem Aweke if (security_state == SECURE) { 223c5ea4f8aSZelalem Aweke return CPU_CONTEXT_SECURE; 224c5ea4f8aSZelalem Aweke } else { 225c5ea4f8aSZelalem Aweke #if ENABLE_RME 226c5ea4f8aSZelalem Aweke if (security_state == NON_SECURE) { 227c5ea4f8aSZelalem Aweke return CPU_CONTEXT_NS; 228c5ea4f8aSZelalem Aweke } else { 229c5ea4f8aSZelalem Aweke assert(security_state == REALM); 230c5ea4f8aSZelalem Aweke return CPU_CONTEXT_REALM; 231c5ea4f8aSZelalem Aweke } 232c5ea4f8aSZelalem Aweke #else 233c5ea4f8aSZelalem Aweke assert(security_state == NON_SECURE); 234c5ea4f8aSZelalem Aweke return CPU_CONTEXT_NS; 235c5ea4f8aSZelalem Aweke #endif 236c5ea4f8aSZelalem Aweke } 237c5ea4f8aSZelalem Aweke } 238c5ea4f8aSZelalem Aweke 239532ed618SSoby Mathew /************************************************************************** 240532ed618SSoby Mathew * APIs for initialising and accessing per-cpu data 241532ed618SSoby Mathew *************************************************************************/ 242532ed618SSoby Mathew 243532ed618SSoby Mathew void init_cpu_ops(void); 244532ed618SSoby Mathew 245532ed618SSoby Mathew #define get_cpu_data(_m) _cpu_data()->_m 246a0fee747SAntonio Nino Diaz #define set_cpu_data(_m, _v) _cpu_data()->_m = (_v) 247532ed618SSoby Mathew #define get_cpu_data_by_index(_ix, _m) _cpu_data_by_index(_ix)->_m 248a0fee747SAntonio Nino Diaz #define set_cpu_data_by_index(_ix, _m, _v) _cpu_data_by_index(_ix)->_m = (_v) 2492614ea3eSJoel Hutton /* ((cpu_data_t *)0)->_m is a dummy to get the sizeof the struct member _m */ 250532ed618SSoby Mathew #define flush_cpu_data(_m) flush_dcache_range((uintptr_t) \ 251532ed618SSoby Mathew &(_cpu_data()->_m), \ 2522614ea3eSJoel Hutton sizeof(((cpu_data_t *)0)->_m)) 253532ed618SSoby Mathew #define inv_cpu_data(_m) inv_dcache_range((uintptr_t) \ 254532ed618SSoby Mathew &(_cpu_data()->_m), \ 2552614ea3eSJoel Hutton sizeof(((cpu_data_t *)0)->_m)) 256532ed618SSoby Mathew #define flush_cpu_data_by_index(_ix, _m) \ 257532ed618SSoby Mathew flush_dcache_range((uintptr_t) \ 258532ed618SSoby Mathew &(_cpu_data_by_index(_ix)->_m), \ 2592614ea3eSJoel Hutton sizeof(((cpu_data_t *)0)->_m)) 260532ed618SSoby Mathew 261532ed618SSoby Mathew 262d5dfdeb6SJulius Werner #endif /* __ASSEMBLER__ */ 26343534997SAntonio Nino Diaz #endif /* CPU_DATA_H */ 264