locore.h revision 1.78.36.1.2.36
1 1.78.36.1.2.30 matt /* locore.h,v 1.78.36.1.2.29 2011/04/29 08:26:21 matt Exp */ 2 1.78.36.1.2.14 matt 3 1.78.36.1.2.14 matt /* 4 1.78.36.1.2.14 matt * This file should not be included by MI code!!! 5 1.78.36.1.2.14 matt */ 6 1.1 jonathan 7 1.1 jonathan /* 8 1.1 jonathan * Copyright 1996 The Board of Trustees of The Leland Stanford 9 1.1 jonathan * Junior University. All Rights Reserved. 10 1.1 jonathan * 11 1.1 jonathan * Permission to use, copy, modify, and distribute this 12 1.1 jonathan * software and its documentation for any purpose and without 13 1.1 jonathan * fee is hereby granted, provided that the above copyright 14 1.1 jonathan * notice appear in all copies. Stanford University 15 1.1 jonathan * makes no representations about the suitability of this 16 1.1 jonathan * software for any purpose. It is provided "as is" without 17 1.1 jonathan * express or implied warranty. 18 1.1 jonathan */ 19 1.1 jonathan 20 1.1 jonathan /* 21 1.68 wiz * Jump table for MIPS CPU locore functions that are implemented 22 1.1 jonathan * differently on different generations, or instruction-level 23 1.78.36.1.2.29 matt * architecture (ISA) level, the Mips family. 24 1.1 jonathan * 25 1.33 soren * We currently provide support for MIPS I and MIPS III. 26 1.1 jonathan */ 27 1.1 jonathan 28 1.1 jonathan #ifndef _MIPS_LOCORE_H 29 1.70 tsutsui #define _MIPS_LOCORE_H 30 1.2 jonathan 31 1.17 castor #ifndef _LKM 32 1.32 soren #include "opt_cputype.h" 33 1.17 castor #endif 34 1.16 castor 35 1.78.36.1.2.34 matt #include <sys/kcore.h> 36 1.78.36.1.2.34 matt 37 1.78.36.1.2.29 matt #include <mips/mutex.h> 38 1.59 simonb #include <mips/cpuregs.h> 39 1.78.36.1.2.11 matt #include <mips/reg.h> 40 1.59 simonb 41 1.78.36.1.2.8 matt struct tlbmask; 42 1.78.36.1.2.27 matt struct trapframe; 43 1.78.36.1.2.27 matt 44 1.78.36.1.2.27 matt void trap(uint32_t, uint32_t, vaddr_t, vaddr_t, struct trapframe *); 45 1.78.36.1.2.27 matt void ast(void); 46 1.78.36.1.2.27 matt 47 1.78.36.1.2.36 matt struct lwp * 48 1.78.36.1.2.36 matt mips_cpu_switchto(struct lwp *, struct lwp *, bool); 49 1.78.36.1.2.36 matt 50 1.78.36.1.2.33 matt /* 51 1.78.36.1.2.33 matt * Perform a trapsignal, and if cpu_printfataltraps is true, print the trap info 52 1.78.36.1.2.33 matt * to the console. 53 1.78.36.1.2.33 matt */ 54 1.78.36.1.2.33 matt extern bool cpu_printfataltraps; 55 1.78.36.1.2.36 matt void cpu_trapsignal(struct lwp *, ksiginfo_t *, struct trapframe *); 56 1.78.36.1.2.33 matt 57 1.78.36.1.2.27 matt void mips_fpu_trap(vaddr_t, struct trapframe *); 58 1.78.36.1.2.27 matt void mips_fpu_intr(vaddr_t, struct trapframe *); 59 1.78.36.1.2.27 matt 60 1.78.36.1.2.27 matt vaddr_t mips_emul_branch(struct trapframe *, vaddr_t, uint32_t, bool); 61 1.78.36.1.2.27 matt void mips_emul_inst(uint32_t, uint32_t, vaddr_t, struct trapframe *); 62 1.78.36.1.2.27 matt 63 1.78.36.1.2.27 matt void mips_emul_fp(uint32_t, struct trapframe *, uint32_t); 64 1.78.36.1.2.27 matt void mips_emul_branchdelayslot(uint32_t, struct trapframe *, uint32_t); 65 1.78.36.1.2.27 matt 66 1.78.36.1.2.27 matt void mips_emul_lwc0(uint32_t, struct trapframe *, uint32_t); 67 1.78.36.1.2.27 matt void mips_emul_swc0(uint32_t, struct trapframe *, uint32_t); 68 1.78.36.1.2.27 matt void mips_emul_special(uint32_t, struct trapframe *, uint32_t); 69 1.78.36.1.2.27 matt void mips_emul_special3(uint32_t, struct trapframe *, uint32_t); 70 1.78.36.1.2.27 matt 71 1.78.36.1.2.27 matt void mips_emul_lwc1(uint32_t, struct trapframe *, uint32_t); 72 1.78.36.1.2.27 matt void mips_emul_swc1(uint32_t, struct trapframe *, uint32_t); 73 1.78.36.1.2.27 matt void mips_emul_ldc1(uint32_t, struct trapframe *, uint32_t); 74 1.78.36.1.2.27 matt void mips_emul_sdc1(uint32_t, struct trapframe *, uint32_t); 75 1.78.36.1.2.27 matt 76 1.78.36.1.2.27 matt void mips_emul_lb(uint32_t, struct trapframe *, uint32_t); 77 1.78.36.1.2.27 matt void mips_emul_lbu(uint32_t, struct trapframe *, uint32_t); 78 1.78.36.1.2.27 matt void mips_emul_lh(uint32_t, struct trapframe *, uint32_t); 79 1.78.36.1.2.27 matt void mips_emul_lhu(uint32_t, struct trapframe *, uint32_t); 80 1.78.36.1.2.27 matt void mips_emul_lw(uint32_t, struct trapframe *, uint32_t); 81 1.78.36.1.2.27 matt void mips_emul_lwl(uint32_t, struct trapframe *, uint32_t); 82 1.78.36.1.2.27 matt void mips_emul_lwr(uint32_t, struct trapframe *, uint32_t); 83 1.78.36.1.2.27 matt #if defined(__mips_n32) || defined(__mips_n64) || defined(__mips_o64) 84 1.78.36.1.2.27 matt void mips_emul_lwu(uint32_t, struct trapframe *, uint32_t); 85 1.78.36.1.2.27 matt void mips_emul_ld(uint32_t, struct trapframe *, uint32_t); 86 1.78.36.1.2.27 matt void mips_emul_ldl(uint32_t, struct trapframe *, uint32_t); 87 1.78.36.1.2.27 matt void mips_emul_ldr(uint32_t, struct trapframe *, uint32_t); 88 1.78.36.1.2.27 matt #endif 89 1.78.36.1.2.27 matt void mips_emul_sb(uint32_t, struct trapframe *, uint32_t); 90 1.78.36.1.2.27 matt void mips_emul_sh(uint32_t, struct trapframe *, uint32_t); 91 1.78.36.1.2.27 matt void mips_emul_sw(uint32_t, struct trapframe *, uint32_t); 92 1.78.36.1.2.27 matt void mips_emul_swl(uint32_t, struct trapframe *, uint32_t); 93 1.78.36.1.2.27 matt void mips_emul_swr(uint32_t, struct trapframe *, uint32_t); 94 1.78.36.1.2.27 matt #if defined(__mips_n32) || defined(__mips_n64) || defined(__mips_o64) 95 1.78.36.1.2.27 matt void mips_emul_sd(uint32_t, struct trapframe *, uint32_t); 96 1.78.36.1.2.27 matt void mips_emul_sdl(uint32_t, struct trapframe *, uint32_t); 97 1.78.36.1.2.27 matt void mips_emul_sdr(uint32_t, struct trapframe *, uint32_t); 98 1.78.36.1.2.27 matt #endif 99 1.38 cgd 100 1.59 simonb uint32_t mips_cp0_cause_read(void); 101 1.59 simonb void mips_cp0_cause_write(uint32_t); 102 1.59 simonb uint32_t mips_cp0_status_read(void); 103 1.59 simonb void mips_cp0_status_write(uint32_t); 104 1.29 simonb 105 1.78.36.1.2.16 matt void softint_process(uint32_t); 106 1.78.36.1.2.16 matt void softint_fast_dispatch(struct lwp *, int); 107 1.78.36.1.2.16 matt 108 1.78.36.1.2.19 matt /* 109 1.78.36.1.2.19 matt * Convert an address to an offset used in a MIPS jump instruction. The offset 110 1.78.36.1.2.19 matt * contains the low 28 bits (allowing a jump to anywhere within the same 256MB 111 1.78.36.1.2.19 matt * segment of address space) of the address but since mips instructions are 112 1.78.36.1.2.19 matt * always on a 4 byte boundary the low 2 bits are always zero so the 28 bits 113 1.78.36.1.2.19 matt * get shifted right by 2 bits leaving us with a 26 bit result. To make the 114 1.78.36.1.2.19 matt * offset, we shift left to clear the upper four bits and then right by 6. 115 1.78.36.1.2.19 matt */ 116 1.78.36.1.2.19 matt #define fixup_addr2offset(x) ((((uint32_t)(uintptr_t)(x)) << 4) >> 6) 117 1.78.36.1.2.16 matt typedef bool (*mips_fixup_callback_t)(int32_t, uint32_t [2]); 118 1.78.36.1.2.19 matt struct mips_jump_fixup_info { 119 1.78.36.1.2.19 matt uint32_t jfi_stub; 120 1.78.36.1.2.19 matt uint32_t jfi_real; 121 1.78.36.1.2.19 matt }; 122 1.78.36.1.2.16 matt 123 1.78.36.1.2.17 matt void fixup_splcalls(void); /* splstubs.c */ 124 1.78.36.1.2.16 matt bool mips_fixup_exceptions(mips_fixup_callback_t); 125 1.78.36.1.2.16 matt bool mips_fixup_zero_relative(int32_t, uint32_t [2]); 126 1.78.36.1.2.32 matt intptr_t 127 1.78.36.1.2.32 matt mips_fixup_addr(const uint32_t *); 128 1.78.36.1.2.26 matt void mips_fixup_stubs(uint32_t *, uint32_t *); 129 1.78.36.1.2.17 matt 130 1.78.36.1.2.26 matt /* 131 1.78.36.1.2.26 matt * Define these stubs... 132 1.78.36.1.2.26 matt */ 133 1.78.36.1.2.17 matt void mips_cpu_switch_resume(struct lwp *); 134 1.78.36.1.2.26 matt void tlb_set_asid(uint32_t); 135 1.78.36.1.2.26 matt void tlb_invalidate_all(void); 136 1.78.36.1.2.26 matt void tlb_invalidate_globals(void); 137 1.78.36.1.2.26 matt void tlb_invalidate_asids(uint32_t, uint32_t); 138 1.78.36.1.2.26 matt void tlb_invalidate_addr(vaddr_t); 139 1.78.36.1.2.26 matt u_int tlb_record_asids(u_long *, uint32_t); 140 1.78.36.1.2.26 matt int tlb_update(vaddr_t, uint32_t); 141 1.78.36.1.2.26 matt void tlb_enter(size_t, vaddr_t, uint32_t); 142 1.78.36.1.2.26 matt void tlb_read_indexed(size_t, struct tlbmask *); 143 1.78.36.1.2.27 matt void tlb_write_indexed(size_t, const struct tlbmask *); 144 1.78.36.1.2.26 matt void wbflush(void); 145 1.77 tsutsui 146 1.59 simonb #ifdef MIPS1 147 1.78.36.1.2.14 matt void mips1_tlb_invalidate_all(void); 148 1.38 cgd 149 1.58 thorpej uint32_t tx3900_cp0_config_read(void); 150 1.59 simonb #endif 151 1.38 cgd 152 1.78.36.1.2.30 matt #if (MIPS3 + MIPS4 + MIPS32 + MIPS32R2 + MIPS64 + MIPS64R2 + MIPS64_RMIXL + MIPS64R2_RMIXL) > 0 153 1.59 simonb uint32_t mips3_cp0_compare_read(void); 154 1.59 simonb void mips3_cp0_compare_write(uint32_t); 155 1.49 cgd 156 1.59 simonb uint32_t mips3_cp0_config_read(void); 157 1.59 simonb void mips3_cp0_config_write(uint32_t); 158 1.78.36.1.2.29 matt 159 1.78.36.1.2.30 matt #if (MIPS32 + MIPS32R2 + MIPS64 + MIPS64R2 + MIPS64_RMIXL + MIPS64R2_RMIXL) > 0 160 1.59 simonb uint32_t mipsNN_cp0_config1_read(void); 161 1.59 simonb void mipsNN_cp0_config1_write(uint32_t); 162 1.63 simonb uint32_t mipsNN_cp0_config2_read(void); 163 1.78.36.1.2.31 matt void mipsNN_cp0_config2_write(uint32_t); 164 1.63 simonb uint32_t mipsNN_cp0_config3_read(void); 165 1.78.36.1.2.31 matt void mipsNN_cp0_config3_write(uint32_t); 166 1.78.36.1.2.31 matt uint32_t mipsNN_cp0_config4_read(void); 167 1.78.36.1.2.31 matt void mipsNN_cp0_config4_write(uint32_t); 168 1.78.36.1.2.31 matt uint32_t mipsNN_cp0_config5_read(void); 169 1.78.36.1.2.31 matt void mipsNN_cp0_config5_write(uint32_t); 170 1.78.36.1.2.31 matt uint32_t mipsNN_cp0_config6_read(void); 171 1.78.36.1.2.31 matt void mipsNN_cp0_config6_write(uint32_t); 172 1.78.36.1.2.31 matt uint32_t mipsNN_cp0_config7_read(void); 173 1.78.36.1.2.31 matt void mipsNN_cp0_config7_write(uint32_t); 174 1.78.36.1.2.31 matt uint64_t mips64_cp0_config7_read(void); 175 1.78.36.1.2.31 matt void mips64_cp0_config7_write(uint32_t); 176 1.78.36.1.2.29 matt 177 1.78.36.1.2.29 matt uintptr_t mipsNN_cp0_watchlo_read(u_int); 178 1.78.36.1.2.29 matt void mipsNN_cp0_watchlo_write(u_int, uintptr_t); 179 1.78.36.1.2.29 matt uint32_t mipsNN_cp0_watchhi_read(u_int); 180 1.78.36.1.2.29 matt void mipsNN_cp0_watchhi_write(u_int, uint32_t); 181 1.78.36.1.2.29 matt 182 1.78.36.1.2.30 matt #if (MIPS32R2 + MIPS64R2 + MIPS64R2_RMIXL) > 0 183 1.78.36.1.2.29 matt void mipsNN_cp0_hwrena_write(uint32_t); 184 1.78.36.1.2.29 matt void mipsNN_cp0_userlocal_write(void *); 185 1.78.36.1.2.29 matt #endif 186 1.63 simonb #endif 187 1.59 simonb 188 1.59 simonb uint32_t mips3_cp0_count_read(void); 189 1.59 simonb void mips3_cp0_count_write(uint32_t); 190 1.59 simonb 191 1.78.36.1.2.31 matt uint32_t mips3_cp0_random_read(void); 192 1.78.36.1.2.31 matt 193 1.59 simonb uint32_t mips3_cp0_wired_read(void); 194 1.59 simonb void mips3_cp0_wired_write(uint32_t); 195 1.69 tsutsui void mips3_cp0_pg_mask_write(uint32_t); 196 1.59 simonb 197 1.78.36.1.2.1 matt #if defined(__GNUC__) && !defined(__mips_o32) 198 1.78.36.1.2.1 matt static inline uint64_t 199 1.78.36.1.2.5 matt mips3_ld(const volatile uint64_t *va) 200 1.78.36.1.2.1 matt { 201 1.78.36.1.2.1 matt uint64_t rv; 202 1.78.36.1.2.1 matt #if defined(__mips_o32) 203 1.78.36.1.2.1 matt uint32_t sr; 204 1.78.36.1.2.1 matt 205 1.78.36.1.2.1 matt sr = mips_cp0_status_read(); 206 1.78.36.1.2.1 matt mips_cp0_status_write(sr & ~MIPS_SR_INT_IE); 207 1.78.36.1.2.1 matt 208 1.78.36.1.2.1 matt __asm volatile( 209 1.78.36.1.2.1 matt ".set push \n\t" 210 1.78.36.1.2.1 matt ".set mips3 \n\t" 211 1.78.36.1.2.1 matt ".set noreorder \n\t" 212 1.78.36.1.2.1 matt ".set noat \n\t" 213 1.78.36.1.2.1 matt "ld %M0,0(%1) \n\t" 214 1.78.36.1.2.1 matt "dsll32 %L0,%M0,0 \n\t" 215 1.78.36.1.2.1 matt "dsra32 %M0,%M0,0 \n\t" /* high word */ 216 1.78.36.1.2.1 matt "dsra32 %L0,%L0,0 \n\t" /* low word */ 217 1.78.36.1.2.1 matt "ld %0,0(%1) \n\t" 218 1.78.36.1.2.1 matt ".set pop" 219 1.78.36.1.2.1 matt : "=d"(rv) 220 1.78.36.1.2.1 matt : "r"(va)); 221 1.78.36.1.2.1 matt 222 1.78.36.1.2.1 matt mips_cp0_status_write(sr); 223 1.78.36.1.2.1 matt #elif defined(_LP64) 224 1.78.36.1.2.1 matt rv = *va; 225 1.78.36.1.2.1 matt #else 226 1.78.36.1.2.1 matt __asm volatile("ld %0,0(%1)" : "=d"(rv) : "r"(va)); 227 1.78.36.1.2.1 matt #endif 228 1.78.36.1.2.1 matt 229 1.78.36.1.2.1 matt return rv; 230 1.78.36.1.2.1 matt } 231 1.78.36.1.2.1 matt static inline void 232 1.78.36.1.2.5 matt mips3_sd(volatile uint64_t *va, uint64_t v) 233 1.78.36.1.2.1 matt { 234 1.78.36.1.2.1 matt #if defined(__mips_o32) 235 1.78.36.1.2.1 matt uint32_t sr; 236 1.78.36.1.2.1 matt 237 1.78.36.1.2.1 matt sr = mips_cp0_status_read(); 238 1.78.36.1.2.1 matt mips_cp0_status_write(sr & ~MIPS_SR_INT_IE); 239 1.78.36.1.2.1 matt 240 1.78.36.1.2.1 matt __asm volatile( 241 1.78.36.1.2.1 matt ".set push \n\t" 242 1.78.36.1.2.1 matt ".set mips3 \n\t" 243 1.78.36.1.2.1 matt ".set noreorder \n\t" 244 1.78.36.1.2.1 matt ".set noat \n\t" 245 1.78.36.1.2.1 matt "dsll32 %M0,%M0,0 \n\t" 246 1.78.36.1.2.1 matt "dsll32 %L0,%L0,0 \n\t" 247 1.78.36.1.2.1 matt "dsrl32 %L0,%L0,0 \n\t" 248 1.78.36.1.2.1 matt "or %0,%L0,%M0 \n\t" 249 1.78.36.1.2.1 matt "sd %0,0(%1) \n\t" 250 1.78.36.1.2.1 matt ".set pop" 251 1.78.36.1.2.1 matt : "=d"(v) : "0"(v), "r"(va)); 252 1.78.36.1.2.1 matt 253 1.78.36.1.2.1 matt mips_cp0_status_write(sr); 254 1.78.36.1.2.1 matt #elif defined(_LP64) 255 1.78.36.1.2.1 matt *va = v; 256 1.78.36.1.2.1 matt #else 257 1.78.36.1.2.1 matt __asm volatile("sd %0,0(%1)" :: "r"(v), "r"(va)); 258 1.78.36.1.2.1 matt #endif 259 1.78.36.1.2.1 matt } 260 1.78.36.1.2.1 matt #else 261 1.78.36.1.2.5 matt uint64_t mips3_ld(volatile uint64_t *va); 262 1.78.36.1.2.5 matt void mips3_sd(volatile uint64_t *, uint64_t); 263 1.78.36.1.2.1 matt #endif /* __GNUC__ */ 264 1.78.36.1.2.30 matt #endif /* (MIPS3 + MIPS4 + MIPS32 + MIPS32R2 + MIPS64 + MIPS64R2 + MIPS64_RMIXL + MIPS64R2_RMIXL) > 0 */ 265 1.59 simonb 266 1.78.36.1.2.30 matt #if (MIPS3 + MIPS4 + MIPS64 + MIPS64R2 + MIPS64_RMIXL + MIPS64R2_RMIXL) > 0 267 1.78.36.1.2.29 matt static __inline uint32_t mips3_lw_a64(uint64_t addr) __unused; 268 1.78.36.1.2.29 matt static __inline void mips3_sw_a64(uint64_t addr, uint32_t val) __unused; 269 1.59 simonb 270 1.74 perry static __inline uint32_t 271 1.59 simonb mips3_lw_a64(uint64_t addr) 272 1.59 simonb { 273 1.59 simonb uint32_t rv; 274 1.78.36.1.2.1 matt #if defined(__mips_o32) 275 1.59 simonb uint32_t sr; 276 1.59 simonb 277 1.59 simonb sr = mips_cp0_status_read(); 278 1.78.36.1.2.1 matt mips_cp0_status_write((sr & ~MIPS_SR_INT_IE) | MIPS3_SR_KX); 279 1.59 simonb 280 1.78.36.1.2.1 matt __asm volatile ( 281 1.78.36.1.2.1 matt ".set push \n\t" 282 1.78.36.1.2.1 matt ".set mips3 \n\t" 283 1.78.36.1.2.1 matt ".set noreorder \n\t" 284 1.78.36.1.2.1 matt ".set noat \n\t" 285 1.78.36.1.2.1 matt "dsll32 %M1,%M1,0 \n\t" 286 1.78.36.1.2.1 matt "dsll32 %L1,%L1,0 \n\t" 287 1.78.36.1.2.10 cyber "dsrl32 %L1,%L1,0 \n\t" 288 1.78.36.1.2.1 matt "or %1,%M1,%L1 \n\t" 289 1.78.36.1.2.1 matt "lw %0, 0(%1) \n\t" 290 1.78.36.1.2.1 matt ".set pop" 291 1.78.36.1.2.1 matt : "=r"(rv), "=d"(addr) 292 1.78.36.1.2.1 matt : "1"(addr) 293 1.78.36.1.2.1 matt ); 294 1.59 simonb 295 1.59 simonb mips_cp0_status_write(sr); 296 1.78.36.1.2.23 matt #elif defined(__mips_n32) 297 1.78.36.1.2.23 matt uint32_t sr = mips_cp0_status_read(); 298 1.78.36.1.2.23 matt mips_cp0_status_write((sr & ~MIPS_SR_INT_IE) | MIPS3_SR_KX); 299 1.78.36.1.2.24 matt __asm volatile("lw %0, 0(%1)" : "=r"(rv) : "d"(addr)); 300 1.78.36.1.2.23 matt mips_cp0_status_write(sr); 301 1.78.36.1.2.1 matt #elif defined(_LP64) 302 1.78.36.1.2.1 matt rv = *(const uint32_t *)addr; 303 1.78.36.1.2.1 matt #else 304 1.78.36.1.2.24 matt #error unknown ABI 305 1.78.36.1.2.1 matt #endif 306 1.59 simonb return (rv); 307 1.59 simonb } 308 1.59 simonb 309 1.74 perry static __inline void 310 1.59 simonb mips3_sw_a64(uint64_t addr, uint32_t val) 311 1.59 simonb { 312 1.78.36.1.2.1 matt #if defined(__mips_o32) 313 1.59 simonb uint32_t sr; 314 1.59 simonb 315 1.59 simonb sr = mips_cp0_status_read(); 316 1.78.36.1.2.1 matt mips_cp0_status_write((sr & ~MIPS_SR_INT_IE) | MIPS3_SR_KX); 317 1.59 simonb 318 1.78.36.1.2.1 matt __asm volatile ( 319 1.78.36.1.2.1 matt ".set push \n\t" 320 1.78.36.1.2.1 matt ".set mips3 \n\t" 321 1.78.36.1.2.1 matt ".set noreorder \n\t" 322 1.78.36.1.2.1 matt ".set noat \n\t" 323 1.78.36.1.2.1 matt "dsll32 %M0,%M0,0 \n\t" 324 1.78.36.1.2.1 matt "dsll32 %L0,%L0,0 \n\t" 325 1.78.36.1.2.10 cyber "dsrl32 %L0,%L0,0 \n\t" 326 1.78.36.1.2.1 matt "or %0,%M0,%L0 \n\t" 327 1.78.36.1.2.1 matt "sw %1, 0(%0) \n\t" 328 1.78.36.1.2.1 matt ".set pop" 329 1.78.36.1.2.1 matt : "=d"(addr): "r"(val), "0"(addr) 330 1.78.36.1.2.1 matt ); 331 1.44 cgd 332 1.59 simonb mips_cp0_status_write(sr); 333 1.78.36.1.2.23 matt #elif defined(__mips_n32) 334 1.78.36.1.2.23 matt uint32_t sr = mips_cp0_status_read(); 335 1.78.36.1.2.23 matt mips_cp0_status_write((sr & ~MIPS_SR_INT_IE) | MIPS3_SR_KX); 336 1.78.36.1.2.24 matt __asm volatile("sw %1, 0(%0)" :: "d"(addr), "r"(val)); 337 1.78.36.1.2.23 matt mips_cp0_status_write(sr); 338 1.78.36.1.2.1 matt #elif defined(_LP64) 339 1.78.36.1.2.1 matt *(uint32_t *)addr = val; 340 1.78.36.1.2.1 matt #else 341 1.78.36.1.2.24 matt #error unknown ABI 342 1.78.36.1.2.1 matt #endif 343 1.59 simonb } 344 1.78.36.1.2.30 matt #endif /* (MIPS3 + MIPS4 + MIPS64 + MIPS64R2 + MIPS64_RMIXL + MIPS64R2_RMIXL) > 0 */ 345 1.7 jonathan 346 1.1 jonathan /* 347 1.58 thorpej * A vector with an entry for each mips-ISA-level dependent 348 1.1 jonathan * locore function, and macros which jump through it. 349 1.1 jonathan */ 350 1.1 jonathan typedef struct { 351 1.78.36.1.2.27 matt void (*ljv_cpu_switch_resume)(struct lwp *); 352 1.78.36.1.2.27 matt intptr_t ljv_lwp_trampoline; 353 1.78.36.1.2.27 matt intptr_t ljv_setfunc_trampoline; 354 1.78.36.1.2.28 matt void (*ljv_wbflush)(void); 355 1.78.36.1.2.16 matt void (*ljv_tlb_set_asid)(uint32_t pid); 356 1.78.36.1.2.16 matt void (*ljv_tlb_invalidate_asids)(uint32_t, uint32_t); 357 1.78.36.1.2.16 matt void (*ljv_tlb_invalidate_addr)(vaddr_t); 358 1.78.36.1.2.16 matt void (*ljv_tlb_invalidate_globals)(void); 359 1.78.36.1.2.16 matt void (*ljv_tlb_invalidate_all)(void); 360 1.78.36.1.2.16 matt u_int (*ljv_tlb_record_asids)(u_long *, uint32_t); 361 1.78.36.1.2.16 matt int (*ljv_tlb_update)(vaddr_t, uint32_t); 362 1.78.36.1.2.16 matt void (*ljv_tlb_enter)(size_t, vaddr_t, uint32_t); 363 1.78.36.1.2.16 matt void (*ljv_tlb_read_indexed)(size_t, struct tlbmask *); 364 1.78.36.1.2.27 matt void (*ljv_tlb_write_indexed)(size_t, const struct tlbmask *); 365 1.78.36.1.2.32 matt lwp_t * (*ljv_cpu_switchto)(lwp_t *, lwp_t *, bool); 366 1.1 jonathan } mips_locore_jumpvec_t; 367 1.13 jonathan 368 1.78.36.1.2.29 matt typedef struct { 369 1.78.36.1.2.29 matt u_int (*lav_atomic_cas_uint)(volatile u_int *, u_int, u_int); 370 1.78.36.1.2.29 matt u_long (*lav_atomic_cas_ulong)(volatile u_long *, u_long, u_long); 371 1.78.36.1.2.29 matt int (*lav_ucas_uint)(volatile u_int *, u_int, u_int, u_int *); 372 1.78.36.1.2.29 matt int (*lav_ucas_ulong)(volatile u_long *, u_long, u_long, u_long *); 373 1.78.36.1.2.29 matt void (*lav_mutex_enter)(kmutex_t *); 374 1.78.36.1.2.29 matt void (*lav_mutex_exit)(kmutex_t *); 375 1.78.36.1.2.29 matt void (*lav_mutex_spin_enter)(kmutex_t *); 376 1.78.36.1.2.29 matt void (*lav_mutex_spin_exit)(kmutex_t *); 377 1.78.36.1.2.29 matt } mips_locore_atomicvec_t; 378 1.78.36.1.2.29 matt 379 1.38 cgd void mips_set_wbflush(void (*)(void)); 380 1.62 simonb void mips_wait_idle(void); 381 1.1 jonathan 382 1.38 cgd void stacktrace(void); 383 1.38 cgd void logstacktrace(void); 384 1.1 jonathan 385 1.78.36.1.2.28 matt struct cpu_info; 386 1.78.36.1.2.28 matt struct splsw; 387 1.78.36.1.2.28 matt 388 1.78.36.1.2.2 matt struct locoresw { 389 1.78.36.1.2.27 matt void (*lsw_wbflush)(void); 390 1.78.36.1.2.16 matt void (*lsw_cpu_idle)(void); 391 1.78.36.1.2.16 matt int (*lsw_send_ipi)(struct cpu_info *, int); 392 1.78.36.1.2.16 matt void (*lsw_cpu_offline_md)(void); 393 1.78.36.1.2.21 matt void (*lsw_cpu_init)(struct cpu_info *); 394 1.78.36.1.2.29 matt void (*lsw_cpu_run)(struct cpu_info *); 395 1.78.36.1.2.25 cliff int (*lsw_bus_error)(unsigned int); 396 1.78.36.1.2.2 matt }; 397 1.78.36.1.2.2 matt 398 1.78.36.1.2.7 matt struct mips_vmfreelist { 399 1.78.36.1.2.7 matt paddr_t fl_start; 400 1.78.36.1.2.7 matt paddr_t fl_end; 401 1.78.36.1.2.7 matt int fl_freelist; 402 1.78.36.1.2.7 matt }; 403 1.78.36.1.2.7 matt 404 1.1 jonathan /* 405 1.78.36.1.2.29 matt * The "active" locore-function vector, and 406 1.1 jonathan */ 407 1.78.36.1.2.29 matt extern const mips_locore_atomicvec_t mips_llsc_locore_atomicvec; 408 1.78.36.1.2.29 matt extern const mips_locore_atomicvec_t mips_ras_locore_atomicvec; 409 1.78.36.1.2.29 matt 410 1.78.36.1.2.29 matt extern mips_locore_atomicvec_t mips_locore_atomicvec; 411 1.1 jonathan extern mips_locore_jumpvec_t mips_locore_jumpvec; 412 1.78.36.1.2.2 matt extern struct locoresw mips_locoresw; 413 1.78.36.1.2.29 matt 414 1.78.36.1.2.29 matt struct splsw; 415 1.78.36.1.2.29 matt struct mips_vmfreelist; 416 1.78.36.1.2.29 matt struct phys_ram_seg; 417 1.78.36.1.2.29 matt 418 1.78.36.1.2.29 matt void mips_vector_init(const struct splsw *, bool); 419 1.78.36.1.2.29 matt void mips_init_msgbuf(void); 420 1.78.36.1.2.29 matt void mips_init_lwp0_uarea(void); 421 1.78.36.1.2.29 matt void mips_page_physload(vaddr_t, vaddr_t, 422 1.78.36.1.2.29 matt const struct phys_ram_seg *, size_t, 423 1.78.36.1.2.29 matt const struct mips_vmfreelist *, size_t); 424 1.78.36.1.2.29 matt 425 1.78.36.1.2.34 matt paddr_t kvtophys(vaddr_t); 426 1.78.36.1.2.34 matt 427 1.78.36.1.2.34 matt extern struct phys_ram_seg mem_clusters[]; 428 1.78.36.1.2.34 matt extern u_int mem_cluster_cnt; 429 1.78.36.1.2.34 matt 430 1.78.36.1.2.34 matt /* 431 1.78.36.1.2.34 matt * Helper routines for kernel coredumps. 432 1.78.36.1.2.34 matt */ 433 1.78.36.1.2.34 matt vaddr_t mips_kcore_window_map(paddr_t, vsize_t *); 434 1.78.36.1.2.35 matt #ifndef _LP64 435 1.78.36.1.2.35 matt bool mips_kcore_window_vtophys(vaddr_t, paddr_t *); 436 1.78.36.1.2.34 matt #endif 437 1.78.36.1.2.34 matt 438 1.1 jonathan 439 1.7 jonathan /* 440 1.7 jonathan * CPU identification, from PRID register. 441 1.7 jonathan */ 442 1.70 tsutsui #define MIPS_PRID_REV(x) (((x) >> 0) & 0x00ff) 443 1.70 tsutsui #define MIPS_PRID_IMPL(x) (((x) >> 8) & 0x00ff) 444 1.45 cgd 445 1.59 simonb /* pre-MIPS32/64 */ 446 1.70 tsutsui #define MIPS_PRID_RSVD(x) (((x) >> 16) & 0xffff) 447 1.70 tsutsui #define MIPS_PRID_REV_MIN(x) ((MIPS_PRID_REV(x) >> 0) & 0x0f) 448 1.70 tsutsui #define MIPS_PRID_REV_MAJ(x) ((MIPS_PRID_REV(x) >> 4) & 0x0f) 449 1.45 cgd 450 1.59 simonb /* MIPS32/64 */ 451 1.70 tsutsui #define MIPS_PRID_CID(x) (((x) >> 16) & 0x00ff) /* Company ID */ 452 1.70 tsutsui #define MIPS_PRID_CID_PREHISTORIC 0x00 /* Not MIPS32/64 */ 453 1.70 tsutsui #define MIPS_PRID_CID_MTI 0x01 /* MIPS Technologies, Inc. */ 454 1.70 tsutsui #define MIPS_PRID_CID_BROADCOM 0x02 /* Broadcom */ 455 1.70 tsutsui #define MIPS_PRID_CID_ALCHEMY 0x03 /* Alchemy Semiconductor */ 456 1.70 tsutsui #define MIPS_PRID_CID_SIBYTE 0x04 /* SiByte */ 457 1.70 tsutsui #define MIPS_PRID_CID_SANDCRAFT 0x05 /* SandCraft */ 458 1.70 tsutsui #define MIPS_PRID_CID_PHILIPS 0x06 /* Philips */ 459 1.70 tsutsui #define MIPS_PRID_CID_TOSHIBA 0x07 /* Toshiba */ 460 1.70 tsutsui #define MIPS_PRID_CID_LSI 0x08 /* LSI */ 461 1.67 simonb /* 0x09 unannounced */ 462 1.67 simonb /* 0x0a unannounced */ 463 1.70 tsutsui #define MIPS_PRID_CID_LEXRA 0x0b /* Lexra */ 464 1.78.36.1.2.3 matt #define MIPS_PRID_CID_RMI 0x0c /* RMI / NetLogic */ 465 1.70 tsutsui #define MIPS_PRID_COPTS(x) (((x) >> 24) & 0x00ff) /* Company Options */ 466 1.6 jonathan 467 1.6 jonathan #ifdef _KERNEL 468 1.6 jonathan /* 469 1.6 jonathan * Global variables used to communicate CPU type, and parameters 470 1.6 jonathan * such as cache size, from locore to higher-level code (e.g., pmap). 471 1.6 jonathan */ 472 1.75 christos void mips_pagecopy(void *dst, void *src); 473 1.75 christos void mips_pagezero(void *dst); 474 1.19 jonathan 475 1.59 simonb #ifdef __HAVE_MIPS_MACHDEP_CACHE_CONFIG 476 1.59 simonb void mips_machdep_cache_config(void); 477 1.59 simonb #endif 478 1.59 simonb 479 1.19 jonathan /* 480 1.20 simonb * trapframe argument passed to trap() 481 1.19 jonathan */ 482 1.64 thorpej 483 1.78.36.1.2.11 matt #if 0 484 1.78.36.1.2.11 matt #define TF_AST 0 /* really zero */ 485 1.78.36.1.2.11 matt #define TF_V0 _R_V0 486 1.78.36.1.2.11 matt #define TF_V1 _R_V1 487 1.78.36.1.2.11 matt #define TF_A0 _R_A0 488 1.78.36.1.2.11 matt #define TF_A1 _R_A1 489 1.78.36.1.2.11 matt #define TF_A2 _R_A2 490 1.78.36.1.2.11 matt #define TF_A3 _R_A3 491 1.78.36.1.2.11 matt #define TF_T0 _R_T0 492 1.78.36.1.2.11 matt #define TF_T1 _R_T1 493 1.78.36.1.2.11 matt #define TF_T2 _R_T2 494 1.78.36.1.2.11 matt #define TF_T3 _R_T3 495 1.64 thorpej 496 1.64 thorpej #if defined(__mips_n32) || defined(__mips_n64) 497 1.78.36.1.2.11 matt #define TF_A4 _R_A4 498 1.78.36.1.2.11 matt #define TF_A5 _R_A5 499 1.78.36.1.2.11 matt #define TF_A6 _R_A6 500 1.78.36.1.2.11 matt #define TF_A7 _R_A7 501 1.64 thorpej #else 502 1.78.36.1.2.11 matt #define TF_T4 _R_T4 503 1.78.36.1.2.11 matt #define TF_T5 _R_T5 504 1.78.36.1.2.11 matt #define TF_T6 _R_T6 505 1.78.36.1.2.11 matt #define TF_T7 _R_T7 506 1.64 thorpej #endif /* __mips_n32 || __mips_n64 */ 507 1.64 thorpej 508 1.78.36.1.2.11 matt #define TF_TA0 _R_TA0 509 1.78.36.1.2.11 matt #define TF_TA1 _R_TA1 510 1.78.36.1.2.11 matt #define TF_TA2 _R_TA2 511 1.78.36.1.2.11 matt #define TF_TA3 _R_TA3 512 1.78.36.1.2.11 matt 513 1.78.36.1.2.11 matt #define TF_T8 _R_T8 514 1.78.36.1.2.11 matt #define TF_T9 _R_T9 515 1.78.36.1.2.11 matt 516 1.78.36.1.2.11 matt #define TF_RA _R_RA 517 1.78.36.1.2.11 matt #define TF_SR _R_SR 518 1.78.36.1.2.11 matt #define TF_MULLO _R_MULLO 519 1.78.36.1.2.11 matt #define TF_MULHI _R_MULLO 520 1.78.36.1.2.11 matt #define TF_EPC _R_PC /* may be changed by trap() call */ 521 1.65 thorpej 522 1.78.36.1.2.11 matt #define TF_NREGS (sizeof(struct reg) / sizeof(mips_reg_t)) 523 1.78.36.1.2.11 matt #endif 524 1.64 thorpej 525 1.19 jonathan struct trapframe { 526 1.78.36.1.2.11 matt struct reg tf_registers; 527 1.78.36.1.2.11 matt #define tf_regs tf_registers.r_regs 528 1.78.36.1.2.2 matt uint32_t tf_ppl; /* previous priority level */ 529 1.78.36.1.2.2 matt mips_reg_t tf_pad; /* for 8 byte aligned */ 530 1.19 jonathan }; 531 1.19 jonathan 532 1.78.36.1.2.11 matt CTASSERT(sizeof(struct trapframe) % (4*sizeof(mips_reg_t)) == 0); 533 1.78.36.1.2.11 matt 534 1.19 jonathan /* 535 1.19 jonathan * Stack frame for kernel traps. four args passed in registers. 536 1.19 jonathan * A trapframe is pointed to by the 5th arg, and a dummy sixth argument 537 1.19 jonathan * is used to avoid alignment problems 538 1.19 jonathan */ 539 1.19 jonathan 540 1.19 jonathan struct kernframe { 541 1.78.36.1.2.1 matt #if defined(__mips_o32) || defined(__mips_o64) 542 1.19 jonathan register_t cf_args[4 + 1]; 543 1.78.36.1.2.1 matt #if defined(__mips_o32) 544 1.78.36.1.2.11 matt register_t cf_pad; /* (for 8 byte alignment) */ 545 1.78.36.1.2.1 matt #endif 546 1.78.36.1.2.1 matt #endif 547 1.78.36.1.2.1 matt #if defined(__mips_n32) || defined(__mips_n64) 548 1.78.36.1.2.4 matt register_t cf_pad[2]; /* for 16 byte alignment */ 549 1.78.36.1.2.1 matt #endif 550 1.19 jonathan register_t cf_sp; 551 1.19 jonathan register_t cf_ra; 552 1.19 jonathan struct trapframe cf_frame; 553 1.19 jonathan }; 554 1.78.36.1.2.11 matt 555 1.78.36.1.2.11 matt CTASSERT(sizeof(struct kernframe) % (2*sizeof(mips_reg_t)) == 0); 556 1.78.36.1.2.11 matt 557 1.78.36.1.2.18 matt /* 558 1.78.36.1.2.18 matt * PRocessor IDentity TABle 559 1.78.36.1.2.18 matt */ 560 1.78.36.1.2.18 matt 561 1.78.36.1.2.18 matt struct pridtab { 562 1.78.36.1.2.18 matt int cpu_cid; 563 1.78.36.1.2.18 matt int cpu_pid; 564 1.78.36.1.2.18 matt int cpu_rev; /* -1 == wildcard */ 565 1.78.36.1.2.18 matt int cpu_copts; /* -1 == wildcard */ 566 1.78.36.1.2.18 matt int cpu_isa; /* -1 == probed (mips32/mips64) */ 567 1.78.36.1.2.18 matt int cpu_ntlb; /* -1 == unknown, 0 == probed */ 568 1.78.36.1.2.18 matt int cpu_flags; 569 1.78.36.1.2.18 matt u_int cpu_cp0flags; /* presence of some cp0 regs */ 570 1.78.36.1.2.18 matt u_int cpu_cidflags; /* company-specific flags */ 571 1.78.36.1.2.18 matt const char *cpu_name; 572 1.78.36.1.2.18 matt }; 573 1.78.36.1.2.18 matt 574 1.78.36.1.2.18 matt /* 575 1.78.36.1.2.18 matt * bitfield defines for cpu_cp0flags 576 1.78.36.1.2.18 matt */ 577 1.78.36.1.2.18 matt #define MIPS_CP0FL_USE __BIT(0) /* use these flags */ 578 1.78.36.1.2.18 matt #define MIPS_CP0FL_ECC __BIT(1) 579 1.78.36.1.2.18 matt #define MIPS_CP0FL_CACHE_ERR __BIT(2) 580 1.78.36.1.2.18 matt #define MIPS_CP0FL_EIRR __BIT(3) 581 1.78.36.1.2.18 matt #define MIPS_CP0FL_EIMR __BIT(4) 582 1.78.36.1.2.18 matt #define MIPS_CP0FL_EBASE __BIT(5) 583 1.78.36.1.2.18 matt #define MIPS_CP0FL_CONFIG __BIT(6) 584 1.78.36.1.2.29 matt #define MIPS_CP0FL_CONFIG1 __BIT(7) 585 1.78.36.1.2.29 matt #define MIPS_CP0FL_CONFIG2 __BIT(8) 586 1.78.36.1.2.29 matt #define MIPS_CP0FL_CONFIG3 __BIT(9) 587 1.78.36.1.2.29 matt #define MIPS_CP0FL_CONFIG4 __BIT(10) 588 1.78.36.1.2.29 matt #define MIPS_CP0FL_CONFIG5 __BIT(11) 589 1.78.36.1.2.29 matt #define MIPS_CP0FL_CONFIG6 __BIT(12) 590 1.78.36.1.2.29 matt #define MIPS_CP0FL_CONFIG7 __BIT(13) 591 1.78.36.1.2.29 matt #define MIPS_CP0FL_USERLOCAL __BIT(14) 592 1.78.36.1.2.29 matt #define MIPS_CP0FL_HWRENA __BIT(15) 593 1.78.36.1.2.18 matt 594 1.78.36.1.2.18 matt /* 595 1.78.36.1.2.18 matt * cpu_cidflags defines, by company 596 1.78.36.1.2.18 matt */ 597 1.78.36.1.2.18 matt /* 598 1.78.36.1.2.18 matt * RMI company-specific cpu_cidflags 599 1.78.36.1.2.18 matt */ 600 1.78.36.1.2.29 matt #define MIPS_CIDFL_RMI_TYPE __BITS(2,0) 601 1.78.36.1.2.29 matt # define CIDFL_RMI_TYPE_XLR 0 602 1.78.36.1.2.29 matt # define CIDFL_RMI_TYPE_XLS 1 603 1.78.36.1.2.29 matt # define CIDFL_RMI_TYPE_XLP 2 604 1.78.36.1.2.18 matt #define MIPS_CIDFL_RMI_THREADS_MASK __BITS(6,3) 605 1.78.36.1.2.18 matt #define MIPS_CIDFL_RMI_CORES_MASK __BITS(10,7) 606 1.78.36.1.2.18 matt # define LOG2_1 0 607 1.78.36.1.2.18 matt # define LOG2_2 1 608 1.78.36.1.2.18 matt # define LOG2_4 2 609 1.78.36.1.2.18 matt # define LOG2_8 3 610 1.78.36.1.2.18 matt # define MIPS_CIDFL_RMI_CPUS(ncores, nthreads) \ 611 1.78.36.1.2.31 matt (__SHIFTIN(LOG2_ ## ncores, MIPS_CIDFL_RMI_CORES_MASK) \ 612 1.78.36.1.2.31 matt |__SHIFTIN(LOG2_ ## nthreads, MIPS_CIDFL_RMI_THREADS_MASK)) 613 1.78.36.1.2.18 matt # define MIPS_CIDFL_RMI_NTHREADS(cidfl) \ 614 1.78.36.1.2.31 matt (1 << __SHIFTOUT((cidfl), MIPS_CIDFL_RMI_THREADS_MASK)) 615 1.78.36.1.2.18 matt # define MIPS_CIDFL_RMI_NCORES(cidfl) \ 616 1.78.36.1.2.31 matt (1 << __SHIFTOUT((cidfl), MIPS_CIDFL_RMI_CORES_MASK)) 617 1.78.36.1.2.18 matt #define MIPS_CIDFL_RMI_L2SZ_MASK __BITS(14,11) 618 1.78.36.1.2.18 matt # define RMI_L2SZ_256KB 0 619 1.78.36.1.2.18 matt # define RMI_L2SZ_512KB 1 620 1.78.36.1.2.18 matt # define RMI_L2SZ_1MB 2 621 1.78.36.1.2.18 matt # define RMI_L2SZ_2MB 3 622 1.78.36.1.2.18 matt # define RMI_L2SZ_4MB 4 623 1.78.36.1.2.18 matt # define MIPS_CIDFL_RMI_L2(l2sz) \ 624 1.78.36.1.2.31 matt __SHIFTIN(RMI_L2SZ_ ## l2sz, MIPS_CIDFL_RMI_L2SZ_MASK) 625 1.78.36.1.2.18 matt # define MIPS_CIDFL_RMI_L2SZ(cidfl) \ 626 1.78.36.1.2.31 matt ((256*1024) << __SHIFTOUT((cidfl), MIPS_CIDFL_RMI_L2SZ_MASK)) 627 1.78.36.1.2.31 matt #define MIPS_CIDFL_RMI_L3SZ_MASK __BITS(18,15) 628 1.78.36.1.2.31 matt # define RMI_L3SZ_256KB 0 629 1.78.36.1.2.31 matt # define RMI_L3SZ_512KB 1 630 1.78.36.1.2.31 matt # define RMI_L3SZ_1MB 2 631 1.78.36.1.2.31 matt # define RMI_L3SZ_2MB 3 632 1.78.36.1.2.31 matt # define RMI_L3SZ_4MB 4 633 1.78.36.1.2.31 matt # define MIPS_CIDFL_RMI_L3(l3sz) \ 634 1.78.36.1.2.31 matt __SHIFTIN(RMI_L3SZ_ ## l3sz, MIPS_CIDFL_RMI_L3SZ_MASK) 635 1.78.36.1.2.31 matt # define MIPS_CIDFL_RMI_L3SZ(cidfl) \ 636 1.78.36.1.2.31 matt ((256*1024) << __SHIFTOUT((cidfl), MIPS_CIDFL_RMI_L3SZ_MASK)) 637 1.78.36.1.2.18 matt 638 1.61 simonb #endif /* _KERNEL */ 639 1.1 jonathan #endif /* _MIPS_LOCORE_H */ 640
Indexes created Mon Oct 20 05:10:11 GMT 2025