aarch64.c revision 1.11
1 1.11 riastrad /* $NetBSD: aarch64.c,v 1.11 2020/07/05 19:40:27 riastradh Exp $ */ 2 1.1 ryo 3 1.1 ryo /* 4 1.1 ryo * Copyright (c) 2018 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 #include <sys/cdefs.h> 30 1.1 ryo 31 1.1 ryo #ifndef lint 32 1.11 riastrad __RCSID("$NetBSD: aarch64.c,v 1.11 2020/07/05 19:40:27 riastradh Exp $"); 33 1.1 ryo #endif /* no lint */ 34 1.1 ryo 35 1.1 ryo #include <sys/types.h> 36 1.1 ryo #include <sys/cpuio.h> 37 1.1 ryo #include <sys/sysctl.h> 38 1.1 ryo #include <stdio.h> 39 1.1 ryo #include <stdbool.h> 40 1.1 ryo #include <stdlib.h> 41 1.1 ryo #include <string.h> 42 1.1 ryo #include <inttypes.h> 43 1.1 ryo #include <err.h> 44 1.1 ryo 45 1.1 ryo #include <arm/cputypes.h> 46 1.1 ryo #include <aarch64/armreg.h> 47 1.1 ryo 48 1.1 ryo #include "../cpuctl.h" 49 1.1 ryo 50 1.1 ryo struct cpuidtab { 51 1.1 ryo uint32_t cpu_partnum; 52 1.1 ryo const char *cpu_name; 53 1.1 ryo const char *cpu_class; 54 1.1 ryo const char *cpu_architecture; 55 1.1 ryo }; 56 1.1 ryo 57 1.1 ryo struct impltab { 58 1.1 ryo uint32_t impl_id; 59 1.1 ryo const char *impl_name; 60 1.1 ryo }; 61 1.1 ryo 62 1.1 ryo struct fieldinfo { 63 1.10 ryo unsigned int flags; 64 1.10 ryo #define FIELDINFO_FLAGS_DEC 0x0001 65 1.10 ryo #define FIELDINFO_FLAGS_4LOG2 0x0002 66 1.10 ryo unsigned char bitpos; 67 1.10 ryo unsigned char bitwidth; 68 1.1 ryo const char *name; 69 1.1 ryo const char * const *info; 70 1.1 ryo }; 71 1.1 ryo 72 1.1 ryo 73 1.1 ryo #define CPU_PARTMASK (CPU_ID_IMPLEMENTOR_MASK | CPU_ID_PARTNO_MASK) 74 1.1 ryo const struct cpuidtab cpuids[] = { 75 1.1 ryo { CPU_ID_CORTEXA53R0 & CPU_PARTMASK, "Cortex-A53", "Cortex", "V8-A" }, 76 1.1 ryo { CPU_ID_CORTEXA57R0 & CPU_PARTMASK, "Cortex-A57", "Cortex", "V8-A" }, 77 1.1 ryo { CPU_ID_CORTEXA72R0 & CPU_PARTMASK, "Cortex-A72", "Cortex", "V8-A" }, 78 1.1 ryo { CPU_ID_CORTEXA73R0 & CPU_PARTMASK, "Cortex-A73", "Cortex", "V8-A" }, 79 1.1 ryo { CPU_ID_CORTEXA55R1 & CPU_PARTMASK, "Cortex-A55", "Cortex", "V8.2-A" }, 80 1.4 ryo { CPU_ID_CORTEXA75R2 & CPU_PARTMASK, "Cortex-A75", "Cortex", "V8.2-A" }, 81 1.7 mrg { CPU_ID_CORTEXA76R3 & CPU_PARTMASK, "Cortex-A76", "Cortex", "V8.2-A" }, 82 1.4 ryo { CPU_ID_THUNDERXRX, "Cavium ThunderX", "Cavium", "V8-A" }, 83 1.4 ryo { CPU_ID_THUNDERX81XXRX, "Cavium ThunderX CN81XX", "Cavium", "V8-A" }, 84 1.4 ryo { CPU_ID_THUNDERX83XXRX, "Cavium ThunderX CN83XX", "Cavium", "V8-A" }, 85 1.4 ryo { CPU_ID_THUNDERX2RX, "Cavium ThunderX2", "Cavium", "V8.1-A" }, 86 1.1 ryo }; 87 1.1 ryo 88 1.1 ryo const struct impltab implids[] = { 89 1.1 ryo { CPU_ID_ARM_LTD, "ARM Limited" }, 90 1.1 ryo { CPU_ID_BROADCOM, "Broadcom Corporation" }, 91 1.1 ryo { CPU_ID_CAVIUM, "Cavium Inc." }, 92 1.1 ryo { CPU_ID_DEC, "Digital Equipment Corporation" }, 93 1.1 ryo { CPU_ID_INFINEON, "Infineon Technologies AG" }, 94 1.1 ryo { CPU_ID_MOTOROLA, "Motorola or Freescale Semiconductor Inc." }, 95 1.1 ryo { CPU_ID_NVIDIA, "NVIDIA Corporation" }, 96 1.1 ryo { CPU_ID_APM, "Applied Micro Circuits Corporation" }, 97 1.1 ryo { CPU_ID_QUALCOMM, "Qualcomm Inc." }, 98 1.1 ryo { CPU_ID_SAMSUNG, "SAMSUNG" }, 99 1.1 ryo { CPU_ID_TI, "Texas Instruments" }, 100 1.1 ryo { CPU_ID_MARVELL, "Marvell International Ltd." }, 101 1.1 ryo { CPU_ID_APPLE, "Apple Inc." }, 102 1.1 ryo { CPU_ID_FARADAY, "Faraday Technology Corporation" }, 103 1.1 ryo { CPU_ID_INTEL, "Intel Corporation" } 104 1.1 ryo }; 105 1.1 ryo 106 1.1 ryo /* ID_AA64PFR0_EL1 - AArch64 Processor Feature Register 0 */ 107 1.1 ryo struct fieldinfo id_aa64pfr0_fieldinfo[] = { 108 1.1 ryo { 109 1.1 ryo .bitpos = 0, .bitwidth = 4, .name = "EL0", 110 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 111 1.1 ryo [0] = "No EL0", 112 1.1 ryo [1] = "AArch64", 113 1.1 ryo [2] = "AArch64/AArch32" 114 1.1 ryo } 115 1.1 ryo }, 116 1.1 ryo { 117 1.1 ryo .bitpos = 4, .bitwidth = 4, .name = "EL1", 118 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 119 1.1 ryo [0] = "No EL1", 120 1.1 ryo [1] = "AArch64", 121 1.1 ryo [2] = "AArch64/AArch32" 122 1.1 ryo } 123 1.1 ryo }, 124 1.1 ryo { 125 1.1 ryo .bitpos = 8, .bitwidth = 4, .name = "EL2", 126 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 127 1.1 ryo [0] = "No EL2", 128 1.1 ryo [1] = "AArch64", 129 1.1 ryo [2] = "AArch64/AArch32" 130 1.1 ryo } 131 1.1 ryo }, 132 1.1 ryo { 133 1.1 ryo .bitpos = 12, .bitwidth = 4, .name = "EL3", 134 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 135 1.1 ryo [0] = "No EL3", 136 1.1 ryo [1] = "AArch64", 137 1.1 ryo [2] = "AArch64/AArch32" 138 1.1 ryo } 139 1.1 ryo }, 140 1.1 ryo { 141 1.1 ryo .bitpos = 16, .bitwidth = 4, .name = "FP", 142 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 143 1.1 ryo [0] = "Floating Point", 144 1.1 ryo [15] = "No Floating Point" 145 1.1 ryo } 146 1.1 ryo }, 147 1.1 ryo { 148 1.1 ryo .bitpos = 20, .bitwidth = 4, .name = "AdvSIMD", 149 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 150 1.1 ryo [0] = "Advanced SIMD", 151 1.1 ryo [15] = "No Advanced SIMD" 152 1.1 ryo } 153 1.1 ryo }, 154 1.1 ryo { 155 1.1 ryo .bitpos = 24, .bitwidth = 4, .name = "GIC", 156 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 157 1.1 ryo [0] = "No GIC", 158 1.1 ryo [1] = "GICv3" 159 1.1 ryo } 160 1.1 ryo }, 161 1.1 ryo { .bitwidth = 0 } /* end of table */ 162 1.1 ryo }; 163 1.1 ryo 164 1.8 maxv /* ID_AA64PFR1_EL1 - AArch64 Processor Feature Register 1 */ 165 1.8 maxv struct fieldinfo id_aa64pfr1_fieldinfo[] = { 166 1.8 maxv { 167 1.8 maxv .bitpos = 0, .bitwidth = 4, .name = "BT", 168 1.8 maxv .info = (const char *[16]) { /* 16=4bit */ 169 1.8 maxv [0] = "Branch Target Identification not implemented", 170 1.8 maxv [1] = "Branch Target Identification implemented", 171 1.8 maxv } 172 1.8 maxv }, 173 1.8 maxv { 174 1.8 maxv .bitpos = 4, .bitwidth = 4, .name = "SSBS", 175 1.8 maxv .info = (const char *[16]) { /* 16=4bit */ 176 1.8 maxv [0] = "Speculative Store Bypassing control not implemented", 177 1.8 maxv [1] = "Speculative Store Bypassing control implemented", 178 1.8 maxv [2] = "Speculative Store Bypassing control implemented, plus MSR/MRS" 179 1.8 maxv } 180 1.8 maxv }, 181 1.8 maxv { 182 1.8 maxv .bitpos = 8, .bitwidth = 4, .name = "MTE", 183 1.8 maxv .info = (const char *[16]) { /* 16=4bit */ 184 1.8 maxv [0] = "Tagged Memory Extension not implemented", 185 1.8 maxv [1] = "Tagged Memory Extension implemented, EL0 only", 186 1.8 maxv [2] = "Tagged Memory Extension implemented" 187 1.8 maxv } 188 1.8 maxv }, 189 1.8 maxv { 190 1.8 maxv .bitpos = 12, .bitwidth = 4, .name = "RAS_frac", 191 1.8 maxv .info = (const char *[16]) { /* 16=4bit */ 192 1.8 maxv [0] = "Regular RAS", 193 1.8 maxv [1] = "RAS plus registers", 194 1.8 maxv } 195 1.8 maxv }, 196 1.8 maxv { .bitwidth = 0 } /* end of table */ 197 1.8 maxv }; 198 1.8 maxv 199 1.1 ryo /* ID_AA64ISAR0_EL1 - AArch64 Instruction Set Attribute Register 0 */ 200 1.1 ryo struct fieldinfo id_aa64isar0_fieldinfo[] = { 201 1.1 ryo { 202 1.1 ryo .bitpos = 4, .bitwidth = 4, .name = "AES", 203 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 204 1.1 ryo [0] = "No AES", 205 1.1 ryo [1] = "AESE/AESD/AESMC/AESIMC", 206 1.1 ryo [2] = "AESE/AESD/AESMC/AESIMC+PMULL/PMULL2" 207 1.1 ryo } 208 1.1 ryo }, 209 1.1 ryo { 210 1.1 ryo .bitpos = 8, .bitwidth = 4, .name = "SHA1", 211 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 212 1.1 ryo [0] = "No SHA1", 213 1.1 ryo [1] = "SHA1C/SHA1P/SHA1M/SHA1H/SHA1SU0/SHA1SU1" 214 1.1 ryo } 215 1.1 ryo }, 216 1.1 ryo { 217 1.1 ryo .bitpos = 12, .bitwidth = 4, .name = "SHA2", 218 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 219 1.1 ryo [0] = "No SHA2", 220 1.1 ryo [1] = "SHA256H/SHA256H2/SHA256SU0/SHA256U1" 221 1.1 ryo } 222 1.1 ryo }, 223 1.1 ryo { 224 1.1 ryo .bitpos = 16, .bitwidth = 4, .name = "CRC32", 225 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 226 1.1 ryo [0] = "No CRC32", 227 1.1 ryo [1] = "CRC32B/CRC32H/CRC32W/CRC32X" 228 1.1 ryo "/CRC32CB/CRC32CH/CRC32CW/CRC32CX" 229 1.1 ryo } 230 1.1 ryo }, 231 1.9 riastrad { 232 1.11 riastrad .bitpos = 20, .bitwidth = 4, .name = "Atomic", 233 1.11 riastrad .info = (const char *[16]) { /* 16=4bit */ 234 1.11 riastrad [0] = "No Atomic", 235 1.11 riastrad [1] = "LDADD/LDCLR/LDEOR/LDSET/LDSMAX/LDSMIN" 236 1.11 riastrad "/LDUMAX/LDUMIN/CAS/CASP/SWP", 237 1.11 riastrad } 238 1.11 riastrad }, 239 1.11 riastrad { 240 1.11 riastrad .bitpos = 28, .bitwidth = 4, .name = "RDM", 241 1.11 riastrad .info = (const char *[16]) { /* 16=4bit */ 242 1.11 riastrad [0] = "No RDMA", 243 1.11 riastrad [1] = "SQRDMLAH/SQRDMLSH", 244 1.11 riastrad } 245 1.11 riastrad }, 246 1.11 riastrad { 247 1.11 riastrad .bitpos = 32, .bitwidth = 4, .name = "SHA3", 248 1.11 riastrad .info = (const char *[16]) { /* 16=4bit */ 249 1.11 riastrad [0] = "No SHA3", 250 1.11 riastrad [1] = "EOR3/RAX1/XAR/BCAX", 251 1.11 riastrad } 252 1.11 riastrad }, 253 1.11 riastrad { 254 1.11 riastrad .bitpos = 36, .bitwidth = 4, .name = "SM3", 255 1.11 riastrad .info = (const char *[16]) { /* 16=4bit */ 256 1.11 riastrad [0] = "No SM3", 257 1.11 riastrad [1] = "SM3SS1/SM3TT1A/SM3TT1B/SM3TT2A/SM3TT2B" 258 1.11 riastrad "/SM3PARTW1/SM3PARTW2", 259 1.11 riastrad } 260 1.11 riastrad }, 261 1.11 riastrad { 262 1.11 riastrad .bitpos = 40, .bitwidth = 4, .name = "SM4", 263 1.11 riastrad .info = (const char *[16]) { /* 16=4bit */ 264 1.11 riastrad [0] = "No SM4", 265 1.11 riastrad [1] = "SM4E/SM4EKEY", 266 1.11 riastrad } 267 1.11 riastrad }, 268 1.11 riastrad { 269 1.11 riastrad .bitpos = 44, .bitwidth = 4, .name = "DP", 270 1.11 riastrad .info = (const char *[16]) { /* 16=4bit */ 271 1.11 riastrad [0] = "No Dot Product", 272 1.11 riastrad [1] = "UDOT/SDOT", 273 1.11 riastrad } 274 1.11 riastrad }, 275 1.11 riastrad { 276 1.11 riastrad .bitpos = 48, .bitwidth = 4, .name = "FHM", 277 1.11 riastrad .info = (const char *[16]) { /* 16=4bit */ 278 1.11 riastrad [0] = "No FHM", 279 1.11 riastrad [1] = "FMLAL/FMLSL", 280 1.11 riastrad } 281 1.11 riastrad }, 282 1.11 riastrad { 283 1.11 riastrad .bitpos = 52, .bitwidth = 4, .name = "TS", 284 1.11 riastrad .info = (const char *[16]) { /* 16=4bit */ 285 1.11 riastrad [0] = "No TS", 286 1.11 riastrad [1] = "CFINV/RMIF/SETF16/SETF8", 287 1.11 riastrad [2] = "CFINV/RMIF/SETF16/SETF8/AXFLAG/XAFLAG", 288 1.11 riastrad } 289 1.11 riastrad }, 290 1.11 riastrad { 291 1.11 riastrad .bitpos = 56, .bitwidth = 4, .name = "TLBI", 292 1.11 riastrad .info = (const char *[16]) { /* 16=4bit */ 293 1.11 riastrad [0] = "No outer shareable and TLB range maintenance" 294 1.11 riastrad " instructions", 295 1.11 riastrad [1] = "Outer shareable TLB maintenance instructions", 296 1.11 riastrad [2] = "Outer shareable and TLB range maintenance" 297 1.11 riastrad " instructions", 298 1.11 riastrad } 299 1.11 riastrad }, 300 1.11 riastrad { 301 1.9 riastrad .bitpos = 60, .bitwidth = 4, .name = "RNDR", 302 1.9 riastrad .info = (const char *[16]) { /* 16=4bit */ 303 1.9 riastrad [0] = "No RNDR/RNDRRS", 304 1.9 riastrad [1] = "RNDR/RNDRRS", 305 1.9 riastrad }, 306 1.9 riastrad }, 307 1.1 ryo { .bitwidth = 0 } /* end of table */ 308 1.1 ryo }; 309 1.1 ryo 310 1.1 ryo /* ID_AA64MMFR0_EL1 - AArch64 Memory Model Feature Register 0 */ 311 1.1 ryo struct fieldinfo id_aa64mmfr0_fieldinfo[] = { 312 1.1 ryo { 313 1.1 ryo .bitpos = 0, .bitwidth = 4, .name = "PARange", 314 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 315 1.1 ryo [0] = "32bits/4GB", 316 1.1 ryo [1] = "36bits/64GB", 317 1.1 ryo [2] = "40bits/1TB", 318 1.1 ryo [3] = "42bits/4TB", 319 1.1 ryo [4] = "44bits/16TB", 320 1.1 ryo [5] = "48bits/256TB" 321 1.1 ryo } 322 1.1 ryo }, 323 1.1 ryo { 324 1.1 ryo .bitpos = 4, .bitwidth = 4, .name = "ASIDBit", 325 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 326 1.1 ryo [0] = "8bits", 327 1.1 ryo [2] = "16bits" 328 1.1 ryo } 329 1.1 ryo }, 330 1.1 ryo { 331 1.1 ryo .bitpos = 8, .bitwidth = 4, .name = "BigEnd", 332 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 333 1.1 ryo [0] = "No mixed-endian", 334 1.1 ryo [1] = "Mixed-endian" 335 1.1 ryo } 336 1.1 ryo }, 337 1.1 ryo { 338 1.1 ryo .bitpos = 12, .bitwidth = 4, .name = "SNSMem", 339 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 340 1.1 ryo [0] = "No distinction B/W Secure and Non-secure Memory", 341 1.1 ryo [1] = "Distinction B/W Secure and Non-secure Memory" 342 1.1 ryo } 343 1.1 ryo }, 344 1.1 ryo { 345 1.1 ryo .bitpos = 16, .bitwidth = 4, .name = "BigEndEL0", 346 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 347 1.1 ryo [0] = "No mixed-endian at EL0", 348 1.1 ryo [1] = "Mixed-endian at EL0" 349 1.1 ryo } 350 1.1 ryo }, 351 1.1 ryo { 352 1.1 ryo .bitpos = 20, .bitwidth = 4, .name = "TGran16", 353 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 354 1.1 ryo [0] = "No 16KB granule", 355 1.1 ryo [1] = "16KB granule" 356 1.1 ryo } 357 1.1 ryo }, 358 1.1 ryo { 359 1.1 ryo .bitpos = 24, .bitwidth = 4, .name = "TGran64", 360 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 361 1.2 ryo [0] = "64KB granule", 362 1.2 ryo [15] = "No 64KB granule" 363 1.1 ryo } 364 1.1 ryo }, 365 1.1 ryo { 366 1.1 ryo .bitpos = 28, .bitwidth = 4, .name = "TGran4", 367 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 368 1.1 ryo [0] = "4KB granule", 369 1.1 ryo [15] = "No 4KB granule" 370 1.1 ryo } 371 1.1 ryo }, 372 1.1 ryo { .bitwidth = 0 } /* end of table */ 373 1.1 ryo }; 374 1.1 ryo 375 1.8 maxv /* ID_AA64MMFR1_EL1 - AArch64 Memory Model Feature Register 1 */ 376 1.8 maxv struct fieldinfo id_aa64mmfr1_fieldinfo[] = { 377 1.8 maxv { 378 1.8 maxv .bitpos = 0, .bitwidth = 4, .name = "HAFDBS", 379 1.8 maxv .info = (const char *[16]) { /* 16=4bit */ 380 1.8 maxv [0] = "Access and Dirty flags not supported", 381 1.8 maxv [1] = "Access flag supported", 382 1.8 maxv [2] = "Access and Dirty flags supported", 383 1.8 maxv } 384 1.8 maxv }, 385 1.8 maxv { 386 1.8 maxv .bitpos = 4, .bitwidth = 4, .name = "VMIDBits", 387 1.8 maxv .info = (const char *[16]) { /* 16=4bit */ 388 1.8 maxv [0] = "8bits", 389 1.8 maxv [2] = "16bits" 390 1.8 maxv } 391 1.8 maxv }, 392 1.8 maxv { 393 1.8 maxv .bitpos = 8, .bitwidth = 4, .name = "VH", 394 1.8 maxv .info = (const char *[16]) { /* 16=4bit */ 395 1.8 maxv [0] = "Virtualization Host Extensions not supported", 396 1.8 maxv [1] = "Virtualization Host Extensions supported", 397 1.8 maxv } 398 1.8 maxv }, 399 1.8 maxv { 400 1.8 maxv .bitpos = 12, .bitwidth = 4, .name = "HPDS", 401 1.8 maxv .info = (const char *[16]) { /* 16=4bit */ 402 1.8 maxv [0] = "Disabling of hierarchical controls not supported", 403 1.8 maxv [1] = "Disabling of hierarchical controls supported", 404 1.8 maxv [2] = "Disabling of hierarchical controls supported, plus PTD" 405 1.8 maxv } 406 1.8 maxv }, 407 1.8 maxv { 408 1.8 maxv .bitpos = 16, .bitwidth = 4, .name = "LO", 409 1.8 maxv .info = (const char *[16]) { /* 16=4bit */ 410 1.8 maxv [0] = "LORegions not supported", 411 1.8 maxv [1] = "LORegions supported" 412 1.8 maxv } 413 1.8 maxv }, 414 1.8 maxv { 415 1.8 maxv .bitpos = 20, .bitwidth = 4, .name = "PAN", 416 1.8 maxv .info = (const char *[16]) { /* 16=4bit */ 417 1.8 maxv [0] = "PAN not supported", 418 1.8 maxv [1] = "PAN supported", 419 1.8 maxv [2] = "PAN supported, and instructions supported" 420 1.8 maxv } 421 1.8 maxv }, 422 1.8 maxv { 423 1.8 maxv .bitpos = 24, .bitwidth = 4, .name = "SpecSEI", 424 1.8 maxv .info = (const char *[16]) { /* 16=4bit */ 425 1.8 maxv [0] = "SError interrupt not supported", 426 1.8 maxv [1] = "SError interrupt supported" 427 1.8 maxv } 428 1.8 maxv }, 429 1.8 maxv { 430 1.8 maxv .bitpos = 28, .bitwidth = 4, .name = "XNX", 431 1.8 maxv .info = (const char *[16]) { /* 16=4bit */ 432 1.8 maxv [0] = "Distinction between EL0 and EL1 XN control at stage 2 not supported", 433 1.8 maxv [1] = "Distinction between EL0 and EL1 XN control at stage 2 supported" 434 1.8 maxv } 435 1.8 maxv }, 436 1.8 maxv { .bitwidth = 0 } /* end of table */ 437 1.8 maxv }; 438 1.8 maxv 439 1.5 ryo /* ID_AA64DFR0_EL1 - AArch64 Debug Feature Register 0 */ 440 1.5 ryo struct fieldinfo id_aa64dfr0_fieldinfo[] = { 441 1.5 ryo { 442 1.5 ryo .bitpos = 0, .bitwidth = 4, .name = "DebugVer", 443 1.5 ryo .info = (const char *[16]) { /* 16=4bit */ 444 1.5 ryo [6] = "v8-A debug architecture" 445 1.5 ryo } 446 1.5 ryo }, 447 1.5 ryo { 448 1.5 ryo .bitpos = 4, .bitwidth = 4, .name = "TraceVer", 449 1.5 ryo .info = (const char *[16]) { /* 16=4bit */ 450 1.5 ryo [0] = "Trace supported", 451 1.5 ryo [1] = "Trace not supported" 452 1.5 ryo } 453 1.5 ryo }, 454 1.5 ryo { 455 1.5 ryo .bitpos = 8, .bitwidth = 4, .name = "PMUVer", 456 1.5 ryo .info = (const char *[16]) { /* 16=4bit */ 457 1.5 ryo [0] = "No Performance monitor", 458 1.5 ryo [1] = "Performance monitor unit v3" 459 1.5 ryo } 460 1.5 ryo }, 461 1.5 ryo { .bitwidth = 0 } /* end of table */ 462 1.5 ryo }; 463 1.5 ryo 464 1.5 ryo 465 1.1 ryo /* MVFR0_EL1 - Media and VFP Feature Register 0 */ 466 1.1 ryo struct fieldinfo mvfr0_fieldinfo[] = { 467 1.1 ryo { 468 1.1 ryo .bitpos = 0, .bitwidth = 4, .name = "SIMDreg", 469 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 470 1.1 ryo [0] = "No SIMD", 471 1.1 ryo [1] = "16x64-bit SIMD", 472 1.1 ryo [2] = "32x64-bit SIMD" 473 1.1 ryo } 474 1.1 ryo }, 475 1.1 ryo { 476 1.1 ryo .bitpos = 4, .bitwidth = 4, .name = "FPSP", 477 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 478 1.1 ryo [0] = "No VFP support single precision", 479 1.1 ryo [1] = "VFPv2 support single precision", 480 1.1 ryo [2] = "VFPv2/VFPv3/VFPv4 support single precision" 481 1.1 ryo } 482 1.1 ryo }, 483 1.1 ryo { 484 1.1 ryo .bitpos = 8, .bitwidth = 4, .name = "FPDP", 485 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 486 1.1 ryo [0] = "No VFP support double precision", 487 1.1 ryo [1] = "VFPv2 support double precision", 488 1.1 ryo [2] = "VFPv2/VFPv3/VFPv4 support double precision" 489 1.1 ryo } 490 1.1 ryo }, 491 1.1 ryo { 492 1.1 ryo .bitpos = 12, .bitwidth = 4, .name = "FPTrap", 493 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 494 1.6 skrll [0] = "No floating point exception trapping support", 495 1.1 ryo [1] = "VFPv2/VFPv3/VFPv4 support exception trapping" 496 1.1 ryo } 497 1.1 ryo }, 498 1.1 ryo { 499 1.1 ryo .bitpos = 16, .bitwidth = 4, .name = "FPDivide", 500 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 501 1.1 ryo [0] = "VDIV not supported", 502 1.1 ryo [1] = "VDIV supported" 503 1.1 ryo } 504 1.1 ryo }, 505 1.1 ryo { 506 1.1 ryo .bitpos = 20, .bitwidth = 4, .name = "FPSqrt", 507 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 508 1.1 ryo [0] = "VSQRT not supported", 509 1.1 ryo [1] = "VSQRT supported" 510 1.1 ryo } 511 1.1 ryo }, 512 1.1 ryo { 513 1.1 ryo .bitpos = 24, .bitwidth = 4, .name = "FPShVec", 514 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 515 1.1 ryo [0] = "Short Vectors not supported", 516 1.1 ryo [1] = "Short Vectors supported" 517 1.1 ryo } 518 1.1 ryo }, 519 1.1 ryo { 520 1.1 ryo .bitpos = 28, .bitwidth = 4, .name = "FPRound", 521 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 522 1.1 ryo [0] = "Only Round to Nearest mode", 523 1.1 ryo [1] = "All rounding modes" 524 1.1 ryo } 525 1.1 ryo }, 526 1.1 ryo { .bitwidth = 0 } /* end of table */ 527 1.1 ryo }; 528 1.1 ryo 529 1.1 ryo /* MVFR1_EL1 - Media and VFP Feature Register 1 */ 530 1.1 ryo struct fieldinfo mvfr1_fieldinfo[] = { 531 1.1 ryo { 532 1.1 ryo .bitpos = 0, .bitwidth = 4, .name = "FPFtZ", 533 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 534 1.1 ryo [0] = "only the Flush-to-Zero", 535 1.1 ryo [1] = "full Denormalized number arithmetic" 536 1.1 ryo } 537 1.1 ryo }, 538 1.1 ryo { 539 1.1 ryo .bitpos = 4, .bitwidth = 4, .name = "FPDNan", 540 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 541 1.1 ryo [0] = "Default NaN", 542 1.1 ryo [1] = "Propagation of NaN" 543 1.1 ryo } 544 1.1 ryo }, 545 1.1 ryo { 546 1.1 ryo .bitpos = 8, .bitwidth = 4, .name = "SIMDLS", 547 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 548 1.1 ryo [0] = "No Advanced SIMD Load/Store", 549 1.1 ryo [1] = "Advanced SIMD Load/Store" 550 1.1 ryo } 551 1.1 ryo }, 552 1.1 ryo { 553 1.1 ryo .bitpos = 12, .bitwidth = 4, .name = "SIMDInt", 554 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 555 1.1 ryo [0] = "No Advanced SIMD Integer", 556 1.1 ryo [1] = "Advanced SIMD Integer" 557 1.1 ryo } 558 1.1 ryo }, 559 1.1 ryo { 560 1.1 ryo .bitpos = 16, .bitwidth = 4, .name = "SIMDSP", 561 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 562 1.1 ryo [0] = "No Advanced SIMD single precision", 563 1.1 ryo [1] = "Advanced SIMD single precision" 564 1.1 ryo } 565 1.1 ryo }, 566 1.1 ryo { 567 1.1 ryo .bitpos = 20, .bitwidth = 4, .name = "SIMDHP", 568 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 569 1.1 ryo [0] = "No Advanced SIMD half precision", 570 1.1 ryo [1] = "Advanced SIMD half precision" 571 1.1 ryo } 572 1.1 ryo }, 573 1.1 ryo { 574 1.1 ryo .bitpos = 24, .bitwidth = 4, .name = "FPHP", 575 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 576 1.1 ryo [0] = "No half precision conversion", 577 1.1 ryo [1] = "half/single precision conversion", 578 1.1 ryo [2] = "half/single/double precision conversion" 579 1.1 ryo } 580 1.1 ryo }, 581 1.1 ryo { 582 1.1 ryo .bitpos = 28, .bitwidth = 4, .name = "SIMDFMAC", 583 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 584 1.1 ryo [0] = "No Fused Multiply-Accumulate", 585 1.1 ryo [1] = "Fused Multiply-Accumulate" 586 1.1 ryo } 587 1.1 ryo }, 588 1.1 ryo { .bitwidth = 0 } /* end of table */ 589 1.1 ryo }; 590 1.1 ryo 591 1.1 ryo /* MVFR2_EL1 - Media and VFP Feature Register 2 */ 592 1.1 ryo struct fieldinfo mvfr2_fieldinfo[] = { 593 1.1 ryo { 594 1.1 ryo .bitpos = 0, .bitwidth = 4, .name = "SIMDMisc", 595 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 596 1.1 ryo [0] = "No miscellaneous features", 597 1.1 ryo [1] = "Conversion to Integer w/Directed Rounding modes", 598 1.1 ryo [2] = "Conversion to Integer w/Directed Rounding modes" 599 1.1 ryo ", Round to Integral floating point", 600 1.1 ryo [3] = "Conversion to Integer w/Directed Rounding modes" 601 1.1 ryo ", Round to Integral floating point" 602 1.1 ryo ", MaxNum and MinNum" 603 1.1 ryo } 604 1.1 ryo }, 605 1.1 ryo { 606 1.1 ryo .bitpos = 4, .bitwidth = 4, .name = "FPMisc", 607 1.1 ryo .info = (const char *[16]) { /* 16=4bit */ 608 1.1 ryo [0] = "No miscellaneous features", 609 1.1 ryo [1] = "Floating point selection", 610 1.1 ryo [2] = "Floating point selection" 611 1.1 ryo ", Conversion to Integer w/Directed Rounding modes", 612 1.1 ryo [3] = "Floating point selection" 613 1.1 ryo ", Conversion to Integer w/Directed Rounding modes" 614 1.1 ryo ", Round to Integral floating point", 615 1.1 ryo [4] = "Floating point selection" 616 1.1 ryo ", Conversion to Integer w/Directed Rounding modes" 617 1.1 ryo ", Round to Integral floating point" 618 1.1 ryo ", MaxNum and MinNum" 619 1.1 ryo } 620 1.1 ryo }, 621 1.1 ryo { .bitwidth = 0 } /* end of table */ 622 1.1 ryo }; 623 1.1 ryo 624 1.10 ryo /* CLIDR_EL1 - Cache Level ID Register */ 625 1.10 ryo const char * const clidr_cachetype[8] = { /* 8=3bit */ 626 1.10 ryo [0] = "None", 627 1.10 ryo [1] = "Instruction cache", 628 1.10 ryo [2] = "Data cache", 629 1.10 ryo [3] = "Instruction and Data cache", 630 1.10 ryo [4] = "Unified cache" 631 1.10 ryo }; 632 1.10 ryo 633 1.10 ryo struct fieldinfo clidr_fieldinfo[] = { 634 1.10 ryo { 635 1.10 ryo .bitpos = 0, .bitwidth = 3, .name = "L1", 636 1.10 ryo .info = clidr_cachetype 637 1.10 ryo }, 638 1.10 ryo { 639 1.10 ryo .bitpos = 3, .bitwidth = 3, .name = "L2", 640 1.10 ryo .info = clidr_cachetype 641 1.10 ryo }, 642 1.10 ryo { 643 1.10 ryo .bitpos = 6, .bitwidth = 3, .name = "L3", 644 1.10 ryo .info = clidr_cachetype 645 1.10 ryo }, 646 1.10 ryo { 647 1.10 ryo .bitpos = 9, .bitwidth = 3, .name = "L4", 648 1.10 ryo .info = clidr_cachetype 649 1.10 ryo }, 650 1.10 ryo { 651 1.10 ryo .bitpos = 12, .bitwidth = 3, .name = "L5", 652 1.10 ryo .info = clidr_cachetype 653 1.10 ryo }, 654 1.10 ryo { 655 1.10 ryo .bitpos = 15, .bitwidth = 3, .name = "L6", 656 1.10 ryo .info = clidr_cachetype 657 1.10 ryo }, 658 1.10 ryo { 659 1.10 ryo .bitpos = 18, .bitwidth = 3, .name = "L7", 660 1.10 ryo .info = clidr_cachetype 661 1.10 ryo }, 662 1.10 ryo { 663 1.10 ryo .bitpos = 21, .bitwidth = 3, .name = "LoUU", 664 1.10 ryo .flags = FIELDINFO_FLAGS_DEC 665 1.10 ryo }, 666 1.10 ryo { 667 1.10 ryo .bitpos = 24, .bitwidth = 3, .name = "LoC", 668 1.10 ryo .flags = FIELDINFO_FLAGS_DEC 669 1.10 ryo }, 670 1.10 ryo { 671 1.10 ryo .bitpos = 27, .bitwidth = 3, .name = "LoUIS", 672 1.10 ryo .flags = FIELDINFO_FLAGS_DEC 673 1.10 ryo }, 674 1.10 ryo { 675 1.10 ryo .bitpos = 30, .bitwidth = 3, .name = "ICB", 676 1.10 ryo .flags = FIELDINFO_FLAGS_DEC 677 1.10 ryo }, 678 1.10 ryo { .bitwidth = 0 } /* end of table */ 679 1.10 ryo }; 680 1.10 ryo 681 1.10 ryo struct fieldinfo ctr_fieldinfo[] = { 682 1.10 ryo { 683 1.10 ryo .bitpos = 0, .bitwidth = 4, .name = "IminLine", 684 1.10 ryo .flags = FIELDINFO_FLAGS_DEC | FIELDINFO_FLAGS_4LOG2 685 1.10 ryo }, 686 1.10 ryo { 687 1.10 ryo .bitpos = 16, .bitwidth = 4, .name = "DminLine", 688 1.10 ryo .flags = FIELDINFO_FLAGS_DEC | FIELDINFO_FLAGS_4LOG2 689 1.10 ryo }, 690 1.10 ryo { 691 1.10 ryo .bitpos = 14, .bitwidth = 2, .name = "L1 Icache policy", 692 1.10 ryo .info = (const char *[4]) { /* 4=2bit */ 693 1.10 ryo [0] = "VMID aware PIPT (VPIPT)", 694 1.10 ryo [1] = "ASID-tagged VIVT (AIVIVT)", 695 1.10 ryo [2] = "VIPT", 696 1.10 ryo [3] = "PIPT" 697 1.10 ryo }, 698 1.10 ryo }, 699 1.10 ryo { 700 1.10 ryo .bitpos = 20, .bitwidth = 4, .name = "ERG", 701 1.10 ryo .flags = FIELDINFO_FLAGS_DEC | FIELDINFO_FLAGS_4LOG2 702 1.10 ryo }, 703 1.10 ryo { 704 1.10 ryo .bitpos = 24, .bitwidth = 4, .name = "CWG", 705 1.10 ryo .flags = FIELDINFO_FLAGS_DEC | FIELDINFO_FLAGS_4LOG2 706 1.10 ryo }, 707 1.10 ryo { 708 1.10 ryo .bitpos = 28, .bitwidth = 1, .name = "DIC", 709 1.10 ryo .flags = FIELDINFO_FLAGS_DEC 710 1.10 ryo }, 711 1.10 ryo { 712 1.10 ryo .bitpos = 29, .bitwidth = 1, .name = "IDC", 713 1.10 ryo .flags = FIELDINFO_FLAGS_DEC 714 1.10 ryo }, 715 1.10 ryo { .bitwidth = 0 } /* end of table */ 716 1.10 ryo }; 717 1.10 ryo 718 1.10 ryo 719 1.1 ryo static void 720 1.1 ryo print_fieldinfo(const char *cpuname, const char *setname, 721 1.1 ryo struct fieldinfo *fieldinfo, uint64_t data) 722 1.1 ryo { 723 1.1 ryo uint64_t v; 724 1.1 ryo const char *info; 725 1.10 ryo int i, flags; 726 1.1 ryo 727 1.1 ryo #define WIDTHMASK(w) (0xffffffffffffffffULL >> (64 - (w))) 728 1.1 ryo 729 1.1 ryo for (i = 0; fieldinfo[i].bitwidth != 0; i++) { 730 1.1 ryo v = (data >> fieldinfo[i].bitpos) & 731 1.1 ryo WIDTHMASK(fieldinfo[i].bitwidth); 732 1.1 ryo 733 1.10 ryo flags = fieldinfo[i].flags; 734 1.10 ryo info = NULL; 735 1.10 ryo if (fieldinfo[i].info != NULL) 736 1.10 ryo info = fieldinfo[i].info[v]; 737 1.10 ryo 738 1.10 ryo printf("%s: %s: %s: ", 739 1.10 ryo cpuname, setname, fieldinfo[i].name); 740 1.10 ryo 741 1.10 ryo if (info == NULL) { 742 1.10 ryo if (flags & FIELDINFO_FLAGS_4LOG2) 743 1.10 ryo v = 4 * (1 << v); 744 1.10 ryo if (flags & FIELDINFO_FLAGS_DEC) 745 1.10 ryo printf("%"PRIu64"\n", v); 746 1.10 ryo else 747 1.10 ryo printf("0x%"PRIx64"\n", v); 748 1.10 ryo } else { 749 1.10 ryo printf("%s\n", info); 750 1.10 ryo } 751 1.1 ryo } 752 1.1 ryo } 753 1.1 ryo 754 1.1 ryo /* MIDR_EL1 - Main ID Register */ 755 1.1 ryo static void 756 1.1 ryo identify_midr(const char *cpuname, uint32_t cpuid) 757 1.1 ryo { 758 1.1 ryo unsigned int i; 759 1.1 ryo uint32_t implid, cpupart, variant, revision; 760 1.1 ryo const char *implementer = NULL; 761 1.1 ryo static char implbuf[128]; 762 1.1 ryo 763 1.1 ryo implid = cpuid & CPU_ID_IMPLEMENTOR_MASK; 764 1.1 ryo cpupart = cpuid & CPU_PARTMASK; 765 1.1 ryo variant = __SHIFTOUT(cpuid, CPU_ID_VARIANT_MASK); 766 1.1 ryo revision = __SHIFTOUT(cpuid, CPU_ID_REVISION_MASK); 767 1.1 ryo 768 1.1 ryo for (i = 0; i < __arraycount(implids); i++) { 769 1.1 ryo if (implid == implids[i].impl_id) { 770 1.1 ryo implementer = implids[i].impl_name; 771 1.1 ryo } 772 1.1 ryo } 773 1.1 ryo if (implementer == NULL) { 774 1.1 ryo snprintf(implbuf, sizeof(implbuf), "unknown implementer: 0x%02x", 775 1.1 ryo implid >> 24); 776 1.1 ryo implementer = implbuf; 777 1.1 ryo } 778 1.1 ryo 779 1.1 ryo for (i = 0; i < __arraycount(cpuids); i++) { 780 1.1 ryo if (cpupart == cpuids[i].cpu_partnum) { 781 1.1 ryo printf("%s: %s, %s r%dp%d (%s %s core)\n", 782 1.1 ryo cpuname, implementer, 783 1.1 ryo cpuids[i].cpu_name, variant, revision, 784 1.1 ryo cpuids[i].cpu_class, 785 1.1 ryo cpuids[i].cpu_architecture); 786 1.1 ryo return; 787 1.1 ryo } 788 1.1 ryo } 789 1.1 ryo printf("%s: unknown CPU ID: 0x%08x\n", cpuname, cpuid); 790 1.1 ryo } 791 1.1 ryo 792 1.1 ryo /* REVIDR_EL1 - Revision ID Register */ 793 1.1 ryo static void 794 1.1 ryo identify_revidr(const char *cpuname, uint32_t revidr) 795 1.1 ryo { 796 1.1 ryo printf("%s: revision: 0x%08x\n", cpuname, revidr); 797 1.1 ryo } 798 1.1 ryo 799 1.1 ryo /* MPIDR_EL1 - Multiprocessor Affinity Register */ 800 1.1 ryo static void 801 1.1 ryo identify_mpidr(const char *cpuname, uint32_t mpidr) 802 1.1 ryo { 803 1.1 ryo const char *setname = "multiprocessor affinity"; 804 1.1 ryo 805 1.1 ryo printf("%s: %s: Affinity-Level: %"PRIu64"-%"PRIu64"-%"PRIu64"-%"PRIu64"\n", 806 1.1 ryo cpuname, setname, 807 1.1 ryo __SHIFTOUT(mpidr, MPIDR_AFF3), 808 1.1 ryo __SHIFTOUT(mpidr, MPIDR_AFF2), 809 1.1 ryo __SHIFTOUT(mpidr, MPIDR_AFF1), 810 1.1 ryo __SHIFTOUT(mpidr, MPIDR_AFF0)); 811 1.1 ryo 812 1.1 ryo if ((mpidr & MPIDR_U) == 0) 813 1.1 ryo printf("%s: %s: Multiprocessor system\n", cpuname, setname); 814 1.1 ryo else 815 1.1 ryo printf("%s: %s: Uniprocessor system\n", cpuname, setname); 816 1.1 ryo 817 1.1 ryo if ((mpidr & MPIDR_MT) == 0) 818 1.1 ryo printf("%s: %s: Core Independent\n", cpuname, setname); 819 1.1 ryo else 820 1.1 ryo printf("%s: %s: Multi-Threading\n", cpuname, setname); 821 1.1 ryo 822 1.1 ryo } 823 1.1 ryo 824 1.5 ryo /* AA64DFR0 - Debug feature register 0 */ 825 1.5 ryo static void 826 1.5 ryo identify_dfr0(const char *cpuname, uint64_t dfr0) 827 1.5 ryo { 828 1.5 ryo const char *setname = "debug feature 0"; 829 1.5 ryo 830 1.5 ryo printf("%s: %s: CTX_CMPs: %lu context-aware breakpoints\n", 831 1.5 ryo cpuname, setname, __SHIFTOUT(dfr0, ID_AA64DFR0_EL1_CTX_CMPS) + 1); 832 1.5 ryo printf("%s: %s: WRPs: %lu watchpoints\n", 833 1.5 ryo cpuname, setname, __SHIFTOUT(dfr0, ID_AA64DFR0_EL1_WRPS) + 1); 834 1.5 ryo printf("%s: %s: BRPs: %lu breakpoints\n", 835 1.5 ryo cpuname, setname, __SHIFTOUT(dfr0, ID_AA64DFR0_EL1_BRPS) + 1); 836 1.5 ryo print_fieldinfo(cpuname, setname, 837 1.5 ryo id_aa64dfr0_fieldinfo, dfr0); 838 1.5 ryo } 839 1.5 ryo 840 1.1 ryo void 841 1.1 ryo identifycpu(int fd, const char *cpuname) 842 1.1 ryo { 843 1.3 mrg char path[128]; 844 1.1 ryo size_t len; 845 1.5 ryo #define SYSCTL_CPU_ID_MAXSIZE 64 846 1.5 ryo uint64_t sysctlbuf[SYSCTL_CPU_ID_MAXSIZE]; 847 1.5 ryo struct aarch64_sysctl_cpu_id *id = 848 1.5 ryo (struct aarch64_sysctl_cpu_id *)sysctlbuf; 849 1.1 ryo 850 1.3 mrg snprintf(path, sizeof path, "machdep.%s.cpu_id", cpuname); 851 1.5 ryo len = sizeof(sysctlbuf); 852 1.10 ryo memset(sysctlbuf, 0, len); 853 1.5 ryo if (sysctlbyname(path, id, &len, 0, 0) == -1) 854 1.3 mrg err(1, "couldn't get %s", path); 855 1.5 ryo if (len != sizeof(struct aarch64_sysctl_cpu_id)) 856 1.5 ryo fprintf(stderr, "Warning: kernel version bumped?\n"); 857 1.5 ryo 858 1.5 ryo if (verbose) { 859 1.5 ryo printf("%s: MIDR_EL1: 0x%08"PRIx64"\n", 860 1.5 ryo cpuname, id->ac_midr); 861 1.5 ryo printf("%s: MPIDR_EL1: 0x%016"PRIx64"\n", 862 1.5 ryo cpuname, id->ac_mpidr); 863 1.5 ryo printf("%s: ID_AA64DFR0_EL1: 0x%016"PRIx64"\n", 864 1.5 ryo cpuname, id->ac_aa64dfr0); 865 1.5 ryo printf("%s: ID_AA64DFR1_EL1: 0x%016"PRIx64"\n", 866 1.5 ryo cpuname, id->ac_aa64dfr1); 867 1.5 ryo printf("%s: ID_AA64ISAR0_EL1: 0x%016"PRIx64"\n", 868 1.5 ryo cpuname, id->ac_aa64isar0); 869 1.5 ryo printf("%s: ID_AA64ISAR1_EL1: 0x%016"PRIx64"\n", 870 1.5 ryo cpuname, id->ac_aa64isar1); 871 1.5 ryo printf("%s: ID_AA64MMFR0_EL1: 0x%016"PRIx64"\n", 872 1.5 ryo cpuname, id->ac_aa64mmfr0); 873 1.5 ryo printf("%s: ID_AA64MMFR1_EL1: 0x%016"PRIx64"\n", 874 1.5 ryo cpuname, id->ac_aa64mmfr1); 875 1.5 ryo printf("%s: ID_AA64MMFR2_EL1: 0x%016"PRIx64"\n", 876 1.5 ryo cpuname, id->ac_aa64mmfr2); 877 1.5 ryo printf("%s: ID_AA64PFR0_EL1: 0x%08"PRIx64"\n", 878 1.5 ryo cpuname, id->ac_aa64pfr0); 879 1.5 ryo printf("%s: ID_AA64PFR1_EL1: 0x%08"PRIx64"\n", 880 1.5 ryo cpuname, id->ac_aa64pfr1); 881 1.5 ryo printf("%s: ID_AA64ZFR0_EL1: 0x%016"PRIx64"\n", 882 1.5 ryo cpuname, id->ac_aa64zfr0); 883 1.5 ryo printf("%s: MVFR0_EL1: 0x%08"PRIx32"\n", 884 1.5 ryo cpuname, id->ac_mvfr0); 885 1.5 ryo printf("%s: MVFR1_EL1: 0x%08"PRIx32"\n", 886 1.5 ryo cpuname, id->ac_mvfr1); 887 1.5 ryo printf("%s: MVFR2_EL1: 0x%08"PRIx32"\n", 888 1.5 ryo cpuname, id->ac_mvfr2); 889 1.10 ryo printf("%s: CLIDR_EL1: 0x%016"PRIx64"\n", 890 1.10 ryo cpuname, id->ac_clidr); 891 1.10 ryo printf("%s: CTR_EL0: 0x%016"PRIx64"\n", 892 1.10 ryo cpuname, id->ac_ctr); 893 1.5 ryo } 894 1.3 mrg 895 1.5 ryo identify_midr(cpuname, id->ac_midr); 896 1.5 ryo identify_revidr(cpuname, id->ac_revidr); 897 1.5 ryo identify_mpidr(cpuname, id->ac_mpidr); 898 1.3 mrg print_fieldinfo(cpuname, "isa features 0", 899 1.5 ryo id_aa64isar0_fieldinfo, id->ac_aa64isar0); 900 1.3 mrg print_fieldinfo(cpuname, "memory model 0", 901 1.5 ryo id_aa64mmfr0_fieldinfo, id->ac_aa64mmfr0); 902 1.8 maxv print_fieldinfo(cpuname, "memory model 1", 903 1.8 maxv id_aa64mmfr1_fieldinfo, id->ac_aa64mmfr1); 904 1.3 mrg print_fieldinfo(cpuname, "processor feature 0", 905 1.5 ryo id_aa64pfr0_fieldinfo, id->ac_aa64pfr0); 906 1.8 maxv print_fieldinfo(cpuname, "processor feature 1", 907 1.8 maxv id_aa64pfr1_fieldinfo, id->ac_aa64pfr1); 908 1.5 ryo identify_dfr0(cpuname, id->ac_aa64dfr0); 909 1.3 mrg 910 1.3 mrg print_fieldinfo(cpuname, "media and VFP features 0", 911 1.5 ryo mvfr0_fieldinfo, id->ac_mvfr0); 912 1.3 mrg print_fieldinfo(cpuname, "media and VFP features 1", 913 1.5 ryo mvfr1_fieldinfo, id->ac_mvfr1); 914 1.3 mrg print_fieldinfo(cpuname, "media and VFP features 2", 915 1.5 ryo mvfr2_fieldinfo, id->ac_mvfr2); 916 1.10 ryo 917 1.10 ryo if (len <= offsetof(struct aarch64_sysctl_cpu_id, ac_clidr)) 918 1.10 ryo return; 919 1.10 ryo print_fieldinfo(cpuname, "cache level", 920 1.10 ryo clidr_fieldinfo, id->ac_clidr); 921 1.10 ryo print_fieldinfo(cpuname, "cache type", 922 1.10 ryo ctr_fieldinfo, id->ac_ctr); 923 1.1 ryo } 924 1.1 ryo 925 1.1 ryo bool 926 1.1 ryo identifycpu_bind(void) 927 1.1 ryo { 928 1.3 mrg return false; 929 1.1 ryo } 930 1.1 ryo 931 1.1 ryo int 932 1.1 ryo ucodeupdate_check(int fd, struct cpu_ucode *uc) 933 1.1 ryo { 934 1.1 ryo return 0; 935 1.1 ryo } 936
Indexes created Thu Oct 02 01:09:59 GMT 2025