1 /* $NetBSD: sysreg.h,v 1.33 2024/05/14 15:17:57 riastradh Exp $ */ 2 3 /* 4 * Copyright (c) 2014 The NetBSD Foundation, Inc. 5 * All rights reserved. 6 * 7 * This code is derived from software contributed to The NetBSD Foundation 8 * by Matt Thomas of 3am Software Foundry. 9 * 10 * Redistribution and use in source and binary forms, with or without 11 * modification, are permitted provided that the following conditions 12 * are met: 13 * 1. Redistributions of source code must retain the above copyright 14 * notice, this list of conditions and the following disclaimer. 15 * 2. Redistributions in binary form must reproduce the above copyright 16 * notice, this list of conditions and the following disclaimer in the 17 * documentation and/or other materials provided with the distribution. 18 * 19 * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 * POSSIBILITY OF SUCH DAMAGE. 30 */ 31 32 #ifndef _RISCV_SYSREG_H_ 33 #define _RISCV_SYSREG_H_ 34 35 #ifndef _KERNEL 36 #include <sys/param.h> 37 #endif 38 39 #include <riscv/reg.h> 40 41 #define FCSR_FMASK 0 // no exception bits 42 #define FCSR_FRM __BITS(7, 5) 43 #define FCSR_FRM_RNE 0b000 // Round Nearest, ties to Even 44 #define FCSR_FRM_RTZ 0b001 // Round Towards Zero 45 #define FCSR_FRM_RDN 0b010 // Round DowN (-infinity) 46 #define FCSR_FRM_RUP 0b011 // Round UP (+infinity) 47 #define FCSR_FRM_RMM 0b100 // Round to nearest, ties to Max Magnitude 48 #define FCSR_FRM_DYN 0b111 // Dynamic rounding 49 #define FCSR_FFLAGS __BITS(4, 0) // Sticky bits 50 #define FCSR_NV __BIT(4) // iNValid operation 51 #define FCSR_DZ __BIT(3) // Divide by Zero 52 #define FCSR_OF __BIT(2) // OverFlow 53 #define FCSR_UF __BIT(1) // UnderFlow 54 #define FCSR_NX __BIT(0) // iNeXact 55 56 static inline uint32_t 57 fcsr_read(void) 58 { 59 uint32_t __fcsr; 60 asm("frcsr %0" : "=r"(__fcsr) :: "memory"); 61 return __fcsr; 62 } 63 64 static inline uint32_t 65 fcsr_write(uint32_t __new) 66 { 67 uint32_t __old; 68 asm volatile("fscsr %0, %1" : "=r"(__old) : "r"(__new) : "memory"); 69 return __old; 70 } 71 72 static inline uint32_t 73 fcsr_fflags_read(void) 74 { 75 uint32_t __old; 76 asm("frflags %0" : "=r"(__old) :: "memory"); 77 return __old; 78 } 79 80 static inline uint32_t 81 fcsr_fflags_write(uint32_t __new) 82 { 83 uint32_t __old; 84 asm volatile("fsflags %0, %1" : "=r"(__old) : "r"(__new) : "memory"); 85 return __old; 86 } 87 88 static inline uint32_t 89 fcsr_frm_read(void) 90 { 91 uint32_t __old; 92 asm("frrm\t%0" : "=r"(__old) :: "memory"); 93 return __old; 94 } 95 96 static inline uint32_t 97 fcsr_frm_write(uint32_t __new) 98 { 99 uint32_t __old; 100 asm volatile("fsrm\t%0, %1" : "=r"(__old) : "r"(__new) : "memory"); 101 return __old; 102 } 103 104 #define RISCVREG_READ_INLINE(regname) \ 105 static inline uintptr_t \ 106 csr_##regname##_read(void) \ 107 { \ 108 uintptr_t __rv; \ 109 asm volatile("csrr %0, " #regname : "=r"(__rv) :: "memory"); \ 110 return __rv; \ 111 } 112 113 #define RISCVREG_WRITE_INLINE(regname) \ 114 static inline void \ 115 csr_##regname##_write(uintptr_t __val) \ 116 { \ 117 asm volatile("csrw " #regname ", %0" :: "r"(__val) : "memory"); \ 118 } 119 120 #define RISCVREG_SET_INLINE(regname) \ 121 static inline void \ 122 csr_##regname##_set(uintptr_t __mask) \ 123 { \ 124 if (__builtin_constant_p(__mask) && __mask < 0x20) { \ 125 asm volatile("csrsi " #regname ", %0" :: "i"(__mask) : \ 126 "memory"); \ 127 } else { \ 128 asm volatile("csrs " #regname ", %0" :: "r"(__mask) : \ 129 "memory"); \ 130 } \ 131 } 132 133 #define RISCVREG_CLEAR_INLINE(regname) \ 134 static inline void \ 135 csr_##regname##_clear(uintptr_t __mask) \ 136 { \ 137 if (__builtin_constant_p(__mask) && __mask < 0x20) { \ 138 asm volatile("csrci " #regname ", %0" :: "i"(__mask) : \ 139 "memory"); \ 140 } else { \ 141 asm volatile("csrc " #regname ", %0" :: "r"(__mask) : \ 142 "memory"); \ 143 } \ 144 } 145 146 #define RISCVREG_READ_WRITE_INLINE(regname) \ 147 RISCVREG_READ_INLINE(regname) \ 148 RISCVREG_WRITE_INLINE(regname) 149 #define RISCVREG_SET_CLEAR_INLINE(regname) \ 150 RISCVREG_SET_INLINE(regname) \ 151 RISCVREG_CLEAR_INLINE(regname) 152 #define RISCVREG_READ_SET_CLEAR_INLINE(regname) \ 153 RISCVREG_READ_INLINE(regname) \ 154 RISCVREG_SET_CLEAR_INLINE(regname) 155 #define RISCVREG_READ_WRITE_SET_CLEAR_INLINE(regname) \ 156 RISCVREG_READ_WRITE_INLINE(regname) \ 157 RISCVREG_SET_CLEAR_INLINE(regname) 158 159 /* Supervisor Status Register */ 160 RISCVREG_READ_SET_CLEAR_INLINE(sstatus) // supervisor status register 161 #ifdef _LP64 162 #define SR_WPRI __BITS(62, 34) | __BITS(31, 20) | \ 163 __BIT(17) | __BITS(12, 11) | __BIT(7) | __BITS(4, 2) | \ 164 __BIT(0) 165 #define SR_SD __BIT(63) // any of FS or VS or XS dirty 166 /* Bits 62-34 are WPRI */ 167 #define SR_UXL __BITS(33, 32) // U-mode XLEN 168 #define SR_UXL_32 1 // XLEN == 32 169 #define SR_UXL_64 2 // XLEN == 64 170 #define SR_UXL_128 3 // XLEN == 128 171 /* Bits 31-20 are WPRI*/ 172 #else 173 #define SR_WPRI __BITS(30, 20) | \ 174 __BIT(17) | __BITS(12, 11) | __BIT(7) | __BITS(4, 2) | \ 175 __BIT(0) 176 #define SR_SD __BIT(31) // any of FS or VS or XS dirty 177 /* Bits 30-20 are WPRI*/ 178 #endif /* _LP64 */ 179 180 /* Both RV32 and RV64 have the bottom 20 bits shared */ 181 #define SR_MXR __BIT(19) // Make eXecutable Readable 182 #define SR_SUM __BIT(18) // permit Supervisor User Memory access 183 /* Bit 17 is WPRI */ 184 #define SR_XS __BITS(16, 15) // Vector extension state 185 #define SR_XS_OFF 0 // All off 186 #define SR_XS_SOME_ON 1 // None dirty or clean, some on 187 #define SR_XS_SOME_CLEAN 2 // None dirty, some clean 188 #define SR_XS_SOME_DIRTY 3 // Some dirty 189 #define SR_FS __BITS(14, 13) // Floating-point unit state 190 #define SR_FS_OFF 0 // Off 191 #define SR_FS_INITIAL 1 // Initial 192 #define SR_FS_CLEAN 2 // Clean 193 #define SR_FS_DIRTY 3 // Dirty 194 /* Bits 12-11 are WPRI */ 195 #define SR_VS __BITS(10, 9) // User-mode extension state 196 #define SR_VS_OFF SR_FS_OFF // Off 197 #define SR_VS_INITIAL SR_FS_INITIAL // Initial 198 #define SR_VS_CLEAN SR_FS_CLEAN // Clean 199 #define SR_VS_DIRTY SR_FS_DIRTY // Dirty 200 #define SR_SPP __BIT(8) // Priv level before supervisor mode 201 /* Bit 7 is WPRI */ 202 #define SR_UBE __BIT(6) // User-mode endianness 203 #define SR_SPIE __BIT(5) // S-Mode interrupts enabled before trap 204 /* Bits 4-2 are WPRI */ 205 #define SR_SIE __BIT(1) // Supervisor mode interrupt enable 206 /* Bit 0 is WPRI */ 207 208 /* Supervisor interrupt registers */ 209 /* ... interrupt pending register (sip) */ 210 RISCVREG_READ_SET_CLEAR_INLINE(sip) // supervisor interrupt pending 211 /* Bit (XLEN-1) - 10 is WIRI */ 212 #define SIP_SEIP __BIT(9) // S-mode interrupt pending 213 /* Bit 8-6 is WIRI */ 214 #define SIP_STIP __BIT(5) // S-mode timer interrupt pending 215 /* Bit 4-2 is WIRI */ 216 #define SIP_SSIP __BIT(1) // S-mode software interrupt pending 217 /* Bit 0 is WIRI */ 218 219 /* ... interrupt-enable register (sie) */ 220 RISCVREG_READ_SET_CLEAR_INLINE(sie) // supervisor interrupt enable 221 /* Bit (XLEN-1) - 10 is WIRI */ 222 #define SIE_SEIE __BIT(9) // S-mode interrupt enable 223 /* Bit 8-6 is WIRI */ 224 #define SIE_STIE __BIT(5) // S-mode timer interrupt enable 225 /* Bit 4-2 is WIRI */ 226 #define SIE_SSIE __BIT(1) // S-mode software interrupt enable 227 /* Bit 0 is WIRI */ 228 229 // U-mode sstatus values 230 #ifdef _LP64 231 #define SR_USER64 (SR_SPIE | __SHIFTIN(SR_UXL_64, SR_UXL)) 232 #define SR_USER32 (SR_SPIE | __SHIFTIN(SR_UXL_32, SR_UXL)) 233 #else 234 #define SR_USER (SR_SPIE) 235 #endif 236 237 // Cause register 238 #define CAUSE_INTERRUPT_P(cause) ((cause) & __BIT(XLEN - 1)) 239 #define CAUSE_CODE(cause) ((cause) & __BITS(XLEN - 2, 0)) 240 241 // Cause register - exceptions 242 #define CAUSE_FETCH_MISALIGNED 0 243 #define CAUSE_FETCH_ACCESS 1 244 #define CAUSE_ILLEGAL_INSTRUCTION 2 245 #define CAUSE_BREAKPOINT 3 246 #define CAUSE_LOAD_MISALIGNED 4 247 #define CAUSE_LOAD_ACCESS 5 248 #define CAUSE_STORE_MISALIGNED 6 249 #define CAUSE_STORE_ACCESS 7 250 #define CAUSE_USER_ECALL 8 251 #define CAUSE_SYSCALL CAUSE_USER_ECALL /* convenience alias */ 252 #define CAUSE_SUPERVISOR_ECALL 9 253 /* 10 is reserved */ 254 #define CAUSE_MACHINE_ECALL 11 255 #define CAUSE_FETCH_PAGE_FAULT 12 256 #define CAUSE_LOAD_PAGE_FAULT 13 257 /* 14 is Reserved */ 258 #define CAUSE_STORE_PAGE_FAULT 15 259 /* >= 16 is reserved/custom */ 260 261 // Cause register - interrupts 262 #define IRQ_SUPERVISOR_SOFTWARE 1 263 #define IRQ_VIRTUAL_SUPERVISOR_SOFTWARE 2 264 #define IRQ_MACHINE_SOFTWARE 3 265 #define IRQ_SUPERVISOR_TIMER 5 266 #define IRQ_VIRTUAL_SUPERVISOR_TIMER 6 267 #define IRQ_MACHINE_TIMER 7 268 #define IRQ_SUPERVISOR_EXTERNAL 9 269 #define IRQ_VIRTUAL_SUPERVISOR_EXTERNAL 10 270 #define IRQ_MACHINE_EXTERNAL 11 271 #define IRQ_SUPERVISOR_GUEST_EXTERNAL 12 272 #define IRQ_NSOURCES 16 273 274 RISCVREG_READ_INLINE(time) 275 #ifdef _LP64 276 RISCVREG_READ_INLINE(cycle) 277 #else /* !_LP64 */ 278 static inline uint64_t 279 csr_cycle_read(void) 280 { 281 uint32_t __hi0, __hi1, __lo0; 282 do { 283 asm volatile( 284 "csrr\t%[__hi0], cycleh" 285 "\n\t" "csrr\t%[__lo0], cycle" 286 "\n\t" "csrr\t%[__hi1], cycleh" 287 : [__hi0] "=r"(__hi0), 288 [__lo0] "=r"(__lo0), 289 [__hi1] "=r"(__hi1)); 290 } while (__hi0 != __hi1); 291 return 292 __SHIFTIN(__hi0, __BITS(63, 32)) | 293 __SHIFTIN(__lo0, __BITS(31, 0)); 294 } 295 #endif /* !_LP64 */ 296 297 #ifdef _LP64 298 #define SATP_MODE __BITS(63, 60) // Translation mode 299 #define SATP_MODE_BARE 0 // No translation or protection 300 /* modes 1-7 reserved for standard use */ 301 #define SATP_MODE_SV39 8 // Page-based 39-bit virt addr 302 #define SATP_MODE_SV48 9 // Page-based 48-bit virt addr 303 #define SATP_MODE_SV57 10 // Page-based 57-bit virt addr 304 #define SATP_MODE_SV64 11 // Page-based 64-bit virt addr 305 /* modes 12-13 reserved for standard use */ 306 /* modes 14-15 designated for custom use */ 307 #define SATP_ASID __BITS(59, 44) // Address Space Identifier 308 #define SATP_PPN __BITS(43, 0) // Physical Page Number 309 #else 310 #define SATP_MODE __BIT(31) // Translation mode 311 #define SATP_MODE_BARE 0 // No translation or protection 312 #define SATP_MODE_SV32 1 // Page-based 32-bit virt addr 313 #define SATP_ASID __BITS(30, 22) // Address Space Identifier 314 #define SATP_PPN __BITS(21, 0) // Physical Page Number 315 #endif 316 317 RISCVREG_READ_WRITE_INLINE(satp) 318 319 /* Fake "ASID" CSR (a field of SATP register) functions */ 320 static inline uint32_t 321 csr_asid_read(void) 322 { 323 uintptr_t satp = csr_satp_read(); 324 return __SHIFTOUT(satp, SATP_ASID); 325 } 326 327 static inline void 328 csr_asid_write(uint32_t asid) 329 { 330 uintptr_t satp = csr_satp_read(); 331 satp &= ~SATP_ASID; 332 satp |= __SHIFTIN(asid, SATP_ASID); 333 csr_satp_write(satp); 334 } 335 336 #endif /* _RISCV_SYSREG_H_ */ 337