cpufunc.h revision 1.23
1 1.23 ryo /* $NetBSD: cpufunc.h,v 1.23 2022/01/31 09:16:09 ryo Exp $ */ 2 1.1 ryo 3 1.1 ryo /* 4 1.1 ryo * Copyright (c) 2017 Ryo Shimizu <ryo (at) nerv.org> 5 1.1 ryo * All rights reserved. 6 1.1 ryo * 7 1.1 ryo * Redistribution and use in source and binary forms, with or without 8 1.1 ryo * modification, are permitted provided that the following conditions 9 1.1 ryo * are met: 10 1.1 ryo * 1. Redistributions of source code must retain the above copyright 11 1.1 ryo * notice, this list of conditions and the following disclaimer. 12 1.1 ryo * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 ryo * notice, this list of conditions and the following disclaimer in the 14 1.1 ryo * documentation and/or other materials provided with the distribution. 15 1.1 ryo * 16 1.1 ryo * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 17 1.1 ryo * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 18 1.1 ryo * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 19 1.1 ryo * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, 20 1.1 ryo * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES 21 1.1 ryo * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 22 1.1 ryo * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 23 1.1 ryo * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, 24 1.1 ryo * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING 25 1.1 ryo * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 26 1.1 ryo * POSSIBILITY OF SUCH DAMAGE. 27 1.1 ryo */ 28 1.1 ryo 29 1.1 ryo #ifndef _AARCH64_CPUFUNC_H_ 30 1.1 ryo #define _AARCH64_CPUFUNC_H_ 31 1.1 ryo 32 1.1 ryo #ifdef _KERNEL 33 1.1 ryo 34 1.1 ryo #include <arm/armreg.h> 35 1.4 alnsn #include <sys/device_if.h> 36 1.1 ryo 37 1.1 ryo 38 1.1 ryo extern u_int aarch64_cache_vindexsize; /* cachesize/way (VIVT/VIPT) */ 39 1.1 ryo extern u_int aarch64_cache_prefer_mask; 40 1.1 ryo extern u_int cputype; /* compat arm */ 41 1.1 ryo 42 1.20 ryo extern int aarch64_bti_enabled; 43 1.23 ryo extern int aarch64_hafdbs_enabled; 44 1.17 maxv extern int aarch64_pan_enabled; 45 1.12 maxv extern int aarch64_pac_enabled; 46 1.12 maxv 47 1.23 ryo void aarch64_hafdbs_init(int); 48 1.17 maxv void aarch64_pan_init(int); 49 1.14 ryo int aarch64_pac_init(int); 50 1.12 maxv 51 1.5 ryo int set_cpufuncs(void); 52 1.22 skrll int aarch64_setcpufuncs(struct cpu_info *); 53 1.22 skrll void aarch64_getcacheinfo(struct cpu_info *); 54 1.22 skrll void aarch64_parsecacheinfo(struct cpu_info *); 55 1.22 skrll void aarch64_printcacheinfo(device_t, struct cpu_info *); 56 1.1 ryo 57 1.1 ryo void aarch64_dcache_wbinv_all(void); 58 1.1 ryo void aarch64_dcache_inv_all(void); 59 1.1 ryo void aarch64_dcache_wb_all(void); 60 1.1 ryo void aarch64_icache_inv_all(void); 61 1.1 ryo 62 1.1 ryo /* cache op in cpufunc_asm_armv8.S */ 63 1.1 ryo void aarch64_nullop(void); 64 1.1 ryo uint32_t aarch64_cpuid(void); 65 1.1 ryo void aarch64_icache_sync_range(vaddr_t, vsize_t); 66 1.16 ryo void aarch64_icache_inv_range(vaddr_t, vsize_t); 67 1.16 ryo void aarch64_icache_barrier_range(vaddr_t, vsize_t); 68 1.1 ryo void aarch64_idcache_wbinv_range(vaddr_t, vsize_t); 69 1.1 ryo void aarch64_dcache_wbinv_range(vaddr_t, vsize_t); 70 1.1 ryo void aarch64_dcache_inv_range(vaddr_t, vsize_t); 71 1.1 ryo void aarch64_dcache_wb_range(vaddr_t, vsize_t); 72 1.2 ryo void aarch64_icache_inv_all(void); 73 1.1 ryo void aarch64_drain_writebuf(void); 74 1.1 ryo 75 1.1 ryo /* tlb op in cpufunc_asm_armv8.S */ 76 1.5 ryo #define cpu_set_ttbr0(t) curcpu()->ci_cpufuncs.cf_set_ttbr0((t)) 77 1.1 ryo void aarch64_set_ttbr0(uint64_t); 78 1.5 ryo void aarch64_set_ttbr0_thunderx(uint64_t); 79 1.1 ryo void aarch64_tlbi_all(void); /* all ASID, all VA */ 80 1.1 ryo void aarch64_tlbi_by_asid(int); /* an ASID, all VA */ 81 1.1 ryo void aarch64_tlbi_by_va(vaddr_t); /* all ASID, a VA */ 82 1.1 ryo void aarch64_tlbi_by_va_ll(vaddr_t); /* all ASID, a VA, lastlevel */ 83 1.1 ryo void aarch64_tlbi_by_asid_va(int, vaddr_t); /* an ASID, a VA */ 84 1.1 ryo void aarch64_tlbi_by_asid_va_ll(int, vaddr_t); /* an ASID, a VA, lastlevel */ 85 1.1 ryo 86 1.1 ryo /* misc */ 87 1.1 ryo #define cpu_idnum() aarch64_cpuid() 88 1.1 ryo 89 1.1 ryo /* cache op */ 90 1.1 ryo #define cpu_dcache_wbinv_all() aarch64_dcache_wbinv_all() 91 1.1 ryo #define cpu_dcache_inv_all() aarch64_dcache_inv_all() 92 1.1 ryo #define cpu_dcache_wb_all() aarch64_dcache_wb_all() 93 1.1 ryo #define cpu_idcache_wbinv_all() \ 94 1.1 ryo (aarch64_dcache_wbinv_all(), aarch64_icache_inv_all()) 95 1.1 ryo #define cpu_icache_sync_all() \ 96 1.1 ryo (aarch64_dcache_wb_all(), aarch64_icache_inv_all()) 97 1.2 ryo #define cpu_icache_inv_all() aarch64_icache_inv_all() 98 1.1 ryo 99 1.1 ryo #define cpu_dcache_wbinv_range(v,s) aarch64_dcache_wbinv_range((v),(s)) 100 1.1 ryo #define cpu_dcache_inv_range(v,s) aarch64_dcache_inv_range((v),(s)) 101 1.1 ryo #define cpu_dcache_wb_range(v,s) aarch64_dcache_wb_range((v),(s)) 102 1.1 ryo #define cpu_idcache_wbinv_range(v,s) aarch64_idcache_wbinv_range((v),(s)) 103 1.16 ryo #define cpu_icache_sync_range(v,s) \ 104 1.16 ryo curcpu()->ci_cpufuncs.cf_icache_sync_range((v),(s)) 105 1.1 ryo 106 1.1 ryo #define cpu_sdcache_wbinv_range(v,p,s) ((void)0) 107 1.1 ryo #define cpu_sdcache_inv_range(v,p,s) ((void)0) 108 1.1 ryo #define cpu_sdcache_wb_range(v,p,s) ((void)0) 109 1.1 ryo 110 1.1 ryo /* others */ 111 1.1 ryo #define cpu_drain_writebuf() aarch64_drain_writebuf() 112 1.1 ryo 113 1.1 ryo extern u_int arm_dcache_align; 114 1.1 ryo extern u_int arm_dcache_align_mask; 115 1.1 ryo 116 1.1 ryo static inline bool 117 1.1 ryo cpu_gtmr_exists_p(void) 118 1.1 ryo { 119 1.1 ryo 120 1.1 ryo return true; 121 1.1 ryo } 122 1.1 ryo 123 1.1 ryo static inline u_int 124 1.1 ryo cpu_clusterid(void) 125 1.1 ryo { 126 1.1 ryo 127 1.1 ryo return __SHIFTOUT(reg_mpidr_el1_read(), MPIDR_AFF1); 128 1.1 ryo } 129 1.1 ryo 130 1.1 ryo static inline bool 131 1.1 ryo cpu_earlydevice_va_p(void) 132 1.1 ryo { 133 1.7 ryo extern bool pmap_devmap_bootstrap_done; /* in pmap.c */ 134 1.1 ryo 135 1.6 ryo /* This function may be called before enabling MMU, or mapping KVA */ 136 1.6 ryo if ((reg_sctlr_el1_read() & SCTLR_M) == 0) 137 1.6 ryo return false; 138 1.6 ryo 139 1.6 ryo /* device mapping will be availabled after pmap_devmap_bootstrap() */ 140 1.7 ryo if (!pmap_devmap_bootstrap_done) 141 1.6 ryo return false; 142 1.6 ryo 143 1.6 ryo return true; 144 1.1 ryo } 145 1.1 ryo 146 1.1 ryo #endif /* _KERNEL */ 147 1.1 ryo 148 1.13 ryo /* definitions of TAG and PAC in pointers */ 149 1.18 ryo #define AARCH64_ADDRTOP_TAG_BIT 55 150 1.13 ryo #define AARCH64_ADDRTOP_TAG __BIT(55) /* ECR_EL1.TBI[01]=1 */ 151 1.13 ryo #define AARCH64_ADDRTOP_MSB __BIT(63) /* ECR_EL1.TBI[01]=0 */ 152 1.13 ryo #define AARCH64_ADDRESS_TAG_MASK __BITS(63,56) /* if TCR.TBI[01]=1 */ 153 1.13 ryo #define AARCH64_ADDRESS_PAC_MASK __BITS(54,48) /* depend on VIRT_BIT */ 154 1.13 ryo #define AARCH64_ADDRESS_TAGPAC_MASK \ 155 1.13 ryo (AARCH64_ADDRESS_TAG_MASK|AARCH64_ADDRESS_PAC_MASK) 156 1.13 ryo 157 1.13 ryo #ifdef _KERNEL 158 1.13 ryo /* 159 1.13 ryo * Which is the address space of this VA? 160 1.13 ryo * return the space considering TBI. (PAC is not yet) 161 1.13 ryo * 162 1.13 ryo * return value: AARCH64_ADDRSPACE_{LOWER,UPPER}{_OUTOFRANGE}? 163 1.13 ryo */ 164 1.13 ryo #define AARCH64_ADDRSPACE_LOWER 0 /* -> TTBR0 */ 165 1.13 ryo #define AARCH64_ADDRSPACE_UPPER 1 /* -> TTBR1 */ 166 1.13 ryo #define AARCH64_ADDRSPACE_LOWER_OUTOFRANGE -1 /* certainly fault */ 167 1.13 ryo #define AARCH64_ADDRSPACE_UPPER_OUTOFRANGE -2 /* certainly fault */ 168 1.13 ryo static inline int 169 1.13 ryo aarch64_addressspace(vaddr_t va) 170 1.13 ryo { 171 1.13 ryo uint64_t addrtop, tbi; 172 1.13 ryo 173 1.19 skrll addrtop = va & AARCH64_ADDRTOP_TAG; 174 1.13 ryo tbi = addrtop ? TCR_TBI1 : TCR_TBI0; 175 1.13 ryo if (reg_tcr_el1_read() & tbi) { 176 1.13 ryo if (addrtop == 0) { 177 1.13 ryo /* lower address, and TBI0 enabled */ 178 1.13 ryo if ((va & AARCH64_ADDRESS_PAC_MASK) != 0) 179 1.13 ryo return AARCH64_ADDRSPACE_LOWER_OUTOFRANGE; 180 1.13 ryo return AARCH64_ADDRSPACE_LOWER; 181 1.13 ryo } 182 1.13 ryo /* upper address, and TBI1 enabled */ 183 1.13 ryo if ((va & AARCH64_ADDRESS_PAC_MASK) != AARCH64_ADDRESS_PAC_MASK) 184 1.13 ryo return AARCH64_ADDRSPACE_UPPER_OUTOFRANGE; 185 1.13 ryo return AARCH64_ADDRSPACE_UPPER; 186 1.13 ryo } 187 1.13 ryo 188 1.19 skrll addrtop = va & AARCH64_ADDRTOP_MSB; 189 1.13 ryo if (addrtop == 0) { 190 1.13 ryo /* lower address, and TBI0 disabled */ 191 1.13 ryo if ((va & AARCH64_ADDRESS_TAGPAC_MASK) != 0) 192 1.13 ryo return AARCH64_ADDRSPACE_LOWER_OUTOFRANGE; 193 1.13 ryo return AARCH64_ADDRSPACE_LOWER; 194 1.13 ryo } 195 1.13 ryo /* upper address, and TBI1 disabled */ 196 1.13 ryo if ((va & AARCH64_ADDRESS_TAGPAC_MASK) != AARCH64_ADDRESS_TAGPAC_MASK) 197 1.13 ryo return AARCH64_ADDRSPACE_UPPER_OUTOFRANGE; 198 1.13 ryo return AARCH64_ADDRSPACE_UPPER; 199 1.13 ryo } 200 1.13 ryo 201 1.13 ryo static inline vaddr_t 202 1.13 ryo aarch64_untag_address(vaddr_t va) 203 1.13 ryo { 204 1.13 ryo uint64_t addrtop, tbi; 205 1.13 ryo 206 1.19 skrll addrtop = va & AARCH64_ADDRTOP_TAG; 207 1.13 ryo tbi = addrtop ? TCR_TBI1 : TCR_TBI0; 208 1.13 ryo if (reg_tcr_el1_read() & tbi) { 209 1.13 ryo if (addrtop == 0) { 210 1.13 ryo /* lower address, and TBI0 enabled */ 211 1.19 skrll return va & ~AARCH64_ADDRESS_TAG_MASK; 212 1.13 ryo } 213 1.13 ryo /* upper address, and TBI1 enabled */ 214 1.19 skrll return va | AARCH64_ADDRESS_TAG_MASK; 215 1.13 ryo } 216 1.13 ryo 217 1.13 ryo /* TBI[01] is disabled, nothing to do */ 218 1.13 ryo return va; 219 1.13 ryo } 220 1.13 ryo 221 1.13 ryo #endif /* _KERNEL */ 222 1.13 ryo 223 1.13 ryo static __inline uint64_t 224 1.13 ryo aarch64_strip_pac(uint64_t __val) 225 1.13 ryo { 226 1.13 ryo if (__val & AARCH64_ADDRTOP_TAG) 227 1.13 ryo return __val | AARCH64_ADDRESS_TAGPAC_MASK; 228 1.13 ryo return __val & ~AARCH64_ADDRESS_TAGPAC_MASK; 229 1.13 ryo } 230 1.13 ryo 231 1.1 ryo #endif /* _AARCH64_CPUFUNC_H_ */ 232
Indexes created Wed Oct 01 19:09:53 GMT 2025