db_machdep.c revision 1.28
1 1.28 skrll /* $NetBSD: db_machdep.c,v 1.28 2020/04/14 07:59:43 skrll Exp $ */ 2 1.1 matt 3 1.17 skrll /* 4 1.1 matt * Copyright (c) 1996 Mark Brinicombe 5 1.1 matt * 6 1.1 matt * Mach Operating System 7 1.1 matt * Copyright (c) 1991,1990 Carnegie Mellon University 8 1.1 matt * All Rights Reserved. 9 1.17 skrll * 10 1.1 matt * Permission to use, copy, modify and distribute this software and its 11 1.1 matt * documentation is hereby granted, provided that both the copyright 12 1.1 matt * notice and this permission notice appear in all copies of the 13 1.1 matt * software, derivative works or modified versions, and any portions 14 1.1 matt * thereof, and that both notices appear in supporting documentation. 15 1.17 skrll * 16 1.1 matt * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" 17 1.1 matt * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR 18 1.1 matt * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. 19 1.17 skrll * 20 1.1 matt * Carnegie Mellon requests users of this software to return to 21 1.17 skrll * 22 1.1 matt * Software Distribution Coordinator or Software.Distribution (at) CS.CMU.EDU 23 1.1 matt * School of Computer Science 24 1.1 matt * Carnegie Mellon University 25 1.1 matt * Pittsburgh PA 15213-3890 26 1.17 skrll * 27 1.1 matt * any improvements or extensions that they make and grant Carnegie the 28 1.1 matt * rights to redistribute these changes. 29 1.1 matt */ 30 1.8 lukem 31 1.20 skrll #ifdef _KERNEL_OPT 32 1.25 skrll #include "opt_cputypes.h" 33 1.19 matt #include "opt_multiprocessor.h" 34 1.20 skrll #endif 35 1.19 matt 36 1.8 lukem #include <sys/cdefs.h> 37 1.28 skrll __KERNEL_RCSID(0, "$NetBSD: db_machdep.c,v 1.28 2020/04/14 07:59:43 skrll Exp $"); 38 1.1 matt 39 1.1 matt #include <sys/param.h> 40 1.19 matt #include <sys/cpu.h> 41 1.1 matt #include <sys/proc.h> 42 1.1 matt #include <sys/vnode.h> 43 1.1 matt #include <sys/systm.h> 44 1.1 matt 45 1.7 chris #include <arm/arm32/db_machdep.h> 46 1.13 christos #include <arm/cpufunc.h> 47 1.1 matt 48 1.1 matt #include <ddb/db_access.h> 49 1.1 matt #include <ddb/db_sym.h> 50 1.1 matt #include <ddb/db_output.h> 51 1.13 christos #include <ddb/db_variables.h> 52 1.13 christos #include <ddb/db_command.h> 53 1.19 matt #include <ddb/db_run.h> 54 1.1 matt 55 1.20 skrll #ifndef _KERNEL 56 1.20 skrll #include <stddef.h> 57 1.20 skrll #endif 58 1.20 skrll 59 1.14 skrll #ifdef _KERNEL 60 1.13 christos static long nil; 61 1.1 matt 62 1.13 christos int db_access_und_sp(const struct db_variable *, db_expr_t *, int); 63 1.13 christos int db_access_abt_sp(const struct db_variable *, db_expr_t *, int); 64 1.13 christos int db_access_irq_sp(const struct db_variable *, db_expr_t *, int); 65 1.14 skrll #endif 66 1.13 christos 67 1.19 matt static int 68 1.19 matt ddb_reg_var(const struct db_variable *v, db_expr_t *ep, int op) 69 1.19 matt { 70 1.21 skrll register_t * const rp = (register_t *)DDB_REGS; 71 1.19 matt if (op == DB_VAR_SET) { 72 1.19 matt rp[(uintptr_t)v->valuep] = *ep; 73 1.19 matt } else { 74 1.19 matt *ep = rp[(uintptr_t)v->valuep]; 75 1.19 matt } 76 1.19 matt return 0; 77 1.19 matt } 78 1.19 matt 79 1.19 matt 80 1.19 matt #define XO(f) ((long *)(offsetof(db_regs_t, f) / sizeof(register_t))) 81 1.13 christos const struct db_variable db_regs[] = { 82 1.19 matt { "spsr", XO(tf_spsr), ddb_reg_var, NULL }, 83 1.19 matt { "r0", XO(tf_r0), ddb_reg_var, NULL }, 84 1.19 matt { "r1", XO(tf_r1), ddb_reg_var, NULL }, 85 1.19 matt { "r2", XO(tf_r2), ddb_reg_var, NULL }, 86 1.19 matt { "r3", XO(tf_r3), ddb_reg_var, NULL }, 87 1.19 matt { "r4", XO(tf_r4), ddb_reg_var, NULL }, 88 1.19 matt { "r5", XO(tf_r5), ddb_reg_var, NULL }, 89 1.19 matt { "r6", XO(tf_r6), ddb_reg_var, NULL }, 90 1.19 matt { "r7", XO(tf_r7), ddb_reg_var, NULL }, 91 1.19 matt { "r8", XO(tf_r8), ddb_reg_var, NULL }, 92 1.19 matt { "r9", XO(tf_r9), ddb_reg_var, NULL }, 93 1.19 matt { "r10", XO(tf_r10), ddb_reg_var, NULL }, 94 1.19 matt { "r11", XO(tf_r11), ddb_reg_var, NULL }, 95 1.19 matt { "r12", XO(tf_r12), ddb_reg_var, NULL }, 96 1.19 matt { "usr_sp", XO(tf_usr_sp), ddb_reg_var, NULL }, 97 1.19 matt { "usr_lr", XO(tf_usr_lr), ddb_reg_var, NULL }, 98 1.19 matt { "svc_sp", XO(tf_svc_sp), ddb_reg_var, NULL }, 99 1.19 matt { "svc_lr", XO(tf_svc_lr), ddb_reg_var, NULL }, 100 1.19 matt { "pc", XO(tf_pc), ddb_reg_var, NULL }, 101 1.14 skrll #ifdef _KERNEL 102 1.13 christos { "und_sp", &nil, db_access_und_sp, NULL }, 103 1.13 christos { "abt_sp", &nil, db_access_abt_sp, NULL }, 104 1.13 christos { "irq_sp", &nil, db_access_irq_sp, NULL }, 105 1.14 skrll #endif 106 1.13 christos }; 107 1.19 matt #undef XO 108 1.13 christos 109 1.13 christos const struct db_variable * const db_eregs = db_regs + sizeof(db_regs)/sizeof(db_regs[0]); 110 1.13 christos 111 1.13 christos const struct db_command db_machine_command_table[] = { 112 1.28 skrll #ifdef _KERNEL 113 1.28 skrll #if defined(MULTIPROCESSOR) 114 1.28 skrll { DDB_ADD_CMD("cpu", db_switch_cpu_cmd, 0, 115 1.28 skrll "switch to a different cpu", 116 1.28 skrll NULL,NULL) }, 117 1.28 skrll #endif /* MULTIPROCESSOR */ 118 1.28 skrll { DDB_ADD_CMD("fault", db_show_fault_cmd, 0, 119 1.28 skrll "Displays the fault registers", 120 1.28 skrll NULL,NULL) }, 121 1.28 skrll #endif 122 1.13 christos { DDB_ADD_CMD("frame", db_show_frame_cmd, 0, 123 1.13 christos "Displays the contents of a trapframe", 124 1.13 christos "[address]", 125 1.13 christos " address:\taddress of trapfame to display")}, 126 1.13 christos #ifdef _KERNEL 127 1.27 skrll #if defined(CPU_CORTEXA5) || defined(CPU_CORTEXA7) 128 1.18 matt { DDB_ADD_CMD("tlb", db_show_tlb_cmd, 0, 129 1.18 matt "Displays the TLB", 130 1.18 matt NULL,NULL) }, 131 1.18 matt #endif 132 1.27 skrll #endif /* _KERNEL */ 133 1.19 matt 134 1.13 christos #ifdef ARM32_DB_COMMANDS 135 1.13 christos ARM32_DB_COMMANDS, 136 1.13 christos #endif 137 1.13 christos { DDB_ADD_CMD(NULL, NULL, 0,NULL,NULL,NULL) } 138 1.13 christos }; 139 1.13 christos 140 1.27 skrll void 141 1.27 skrll db_show_frame_cmd(db_expr_t addr, bool have_addr, db_expr_t count, const char *modif) 142 1.27 skrll { 143 1.27 skrll struct trapframe *frame; 144 1.27 skrll 145 1.27 skrll if (!have_addr) { 146 1.27 skrll db_printf("frame address must be specified\n"); 147 1.27 skrll return; 148 1.27 skrll } 149 1.27 skrll 150 1.27 skrll frame = (struct trapframe *)addr; 151 1.27 skrll 152 1.27 skrll db_printf("frame address = %08x ", (u_int)frame); 153 1.27 skrll db_printf("spsr=%08x\n", frame->tf_spsr); 154 1.27 skrll db_printf("r0 =%08x r1 =%08x r2 =%08x r3 =%08x\n", 155 1.27 skrll frame->tf_r0, frame->tf_r1, frame->tf_r2, frame->tf_r3); 156 1.27 skrll db_printf("r4 =%08x r5 =%08x r6 =%08x r7 =%08x\n", 157 1.27 skrll frame->tf_r4, frame->tf_r5, frame->tf_r6, frame->tf_r7); 158 1.27 skrll db_printf("r8 =%08x r9 =%08x r10=%08x r11=%08x\n", 159 1.27 skrll frame->tf_r8, frame->tf_r9, frame->tf_r10, frame->tf_r11); 160 1.27 skrll db_printf("r12=%08x r13=%08x r14=%08x r15=%08x\n", 161 1.27 skrll frame->tf_r12, frame->tf_usr_sp, frame->tf_usr_lr, frame->tf_pc); 162 1.27 skrll db_printf("slr=%08x ssp=%08x\n", frame->tf_svc_lr, frame->tf_svc_sp); 163 1.27 skrll } 164 1.27 skrll 165 1.14 skrll #ifdef _KERNEL 166 1.13 christos int 167 1.13 christos db_access_und_sp(const struct db_variable *vp, db_expr_t *valp, int rw) 168 1.13 christos { 169 1.13 christos 170 1.13 christos if (rw == DB_VAR_GET) 171 1.13 christos *valp = get_stackptr(PSR_UND32_MODE); 172 1.13 christos return(0); 173 1.13 christos } 174 1.13 christos 175 1.13 christos int 176 1.13 christos db_access_abt_sp(const struct db_variable *vp, db_expr_t *valp, int rw) 177 1.13 christos { 178 1.13 christos 179 1.13 christos if (rw == DB_VAR_GET) 180 1.13 christos *valp = get_stackptr(PSR_ABT32_MODE); 181 1.13 christos return(0); 182 1.13 christos } 183 1.13 christos 184 1.13 christos int 185 1.13 christos db_access_irq_sp(const struct db_variable *vp, db_expr_t *valp, int rw) 186 1.13 christos { 187 1.13 christos 188 1.13 christos if (rw == DB_VAR_GET) 189 1.13 christos *valp = get_stackptr(PSR_IRQ32_MODE); 190 1.13 christos return(0); 191 1.13 christos } 192 1.13 christos 193 1.1 matt void 194 1.15 matt db_show_fault_cmd(db_expr_t addr, bool have_addr, db_expr_t count, const char *modif) 195 1.15 matt { 196 1.18 matt db_printf("DFAR=%#x DFSR=%#x IFAR=%#x IFSR=%#x\n", 197 1.15 matt armreg_dfar_read(), armreg_dfsr_read(), 198 1.18 matt armreg_ifar_read(), armreg_ifsr_read()); 199 1.18 matt db_printf("CONTEXTIDR=%#x TTBCR=%#x TTBR=%#x\n", 200 1.18 matt armreg_contextidr_read(), armreg_ttbcr_read(), 201 1.15 matt armreg_ttbr_read()); 202 1.15 matt } 203 1.18 matt 204 1.18 matt #if defined(CPU_CORTEXA5) || defined(CPU_CORTEXA7) 205 1.18 matt static void 206 1.18 matt tlb_print_common_header(const char *str) 207 1.18 matt { 208 1.18 matt db_printf("-W/I-- ----VA---- ----PA---- --SIZE-- D AP XN ASD %s\n", str); 209 1.18 matt } 210 1.18 matt 211 1.18 matt static void 212 1.18 matt tlb_print_addr(size_t way, size_t va_index, vaddr_t vpn, paddr_t pfn) 213 1.18 matt { 214 1.18 matt db_printf("[%1zu:%02zx] 0x%05lx000 0x%05lx000", way, va_index, vpn, pfn); 215 1.18 matt } 216 1.18 matt 217 1.18 matt static void 218 1.18 matt tlb_print_size_domain_prot(const char *sizestr, u_int domain, u_int ap, 219 1.18 matt bool xn_p) 220 1.18 matt { 221 1.18 matt db_printf(" %8s %1x %2d %s", sizestr, domain, ap, (xn_p ? "XN" : "--")); 222 1.18 matt } 223 1.18 matt 224 1.18 matt static void 225 1.18 matt tlb_print_asid(bool ng_p, tlb_asid_t asid) 226 1.18 matt { 227 1.18 matt if (ng_p) { 228 1.18 matt db_printf(" %3d", asid); 229 1.18 matt } else { 230 1.18 matt db_printf(" ---"); 231 1.18 matt } 232 1.18 matt } 233 1.18 matt 234 1.18 matt struct db_tlbinfo { 235 1.18 matt vaddr_t (*dti_decode_vpn)(size_t, uint32_t, uint32_t); 236 1.18 matt void (*dti_print_header)(void); 237 1.18 matt void (*dti_print_entry)(size_t, size_t, uint32_t, uint32_t); 238 1.26 skrll u_int dti_index; 239 1.18 matt }; 240 1.18 matt 241 1.18 matt #if defined(CPU_CORTEXA5) 242 1.18 matt static void 243 1.18 matt tlb_print_cortex_a5_header(void) 244 1.18 matt { 245 1.18 matt tlb_print_common_header(" S TEX C B"); 246 1.18 matt } 247 1.18 matt 248 1.18 matt static vaddr_t 249 1.18 matt tlb_decode_cortex_a5_vpn(size_t va_index, uint32_t d0, uint32_t d1) 250 1.18 matt { 251 1.18 matt const uint64_t d = ((uint64_t)d1 << 32) | d0; 252 1.18 matt 253 1.18 matt const u_int size = __SHIFTOUT(d, ARM_A5_TLBDATA_SIZE); 254 1.18 matt return __SHIFTOUT(d, ARM_A5_TLBDATA_VA) * (ARM_A5_TLBDATAOP_INDEX + 1) 255 1.18 matt + (va_index << (4*size)); 256 1.18 matt } 257 1.18 matt 258 1.18 matt static void 259 1.18 matt tlb_print_cortex_a5_entry(size_t way, size_t va_index, uint32_t d0, uint32_t d1) 260 1.18 matt { 261 1.18 matt static const char size_strings[4][8] = { 262 1.18 matt " 4KB ", " 64KB ", " 1MB ", " 16MB ", 263 1.18 matt }; 264 1.18 matt 265 1.18 matt const uint64_t d = ((uint64_t)d1 << 32) | d0; 266 1.18 matt 267 1.18 matt const paddr_t pfn = __SHIFTOUT(d, ARM_A5_TLBDATA_PA); 268 1.18 matt const vaddr_t vpn = tlb_decode_cortex_a5_vpn(va_index, d0, d1); 269 1.18 matt 270 1.18 matt tlb_print_addr(way, va_index, vpn, pfn); 271 1.18 matt 272 1.18 matt const u_int size = __SHIFTOUT(d, ARM_A5_TLBDATA_SIZE); 273 1.18 matt const u_int domain = __SHIFTOUT(d, ARM_A5_TLBDATA_DOM); 274 1.18 matt const u_int ap = __SHIFTOUT(d, ARM_A5_TLBDATA_AP); 275 1.18 matt const bool xn_p = (d & ARM_A5_TLBDATA_XN) != 0; 276 1.18 matt 277 1.18 matt tlb_print_size_domain_prot(size_strings[size], domain, ap, xn_p); 278 1.18 matt 279 1.18 matt const bool ng_p = (d & ARM_A5_TLBDATA_nG) != 0; 280 1.18 matt const tlb_asid_t asid = __SHIFTOUT(d, ARM_A5_TLBDATA_ASID); 281 1.18 matt 282 1.18 matt tlb_print_asid(ng_p, asid); 283 1.18 matt 284 1.18 matt const u_int tex = __SHIFTOUT(d, ARM_A5_TLBDATA_TEX); 285 1.18 matt const bool c_p = (d & ARM_A5_TLBDATA_C) != 0; 286 1.18 matt const bool b_p = (d & ARM_A5_TLBDATA_B) != 0; 287 1.18 matt const bool s_p = (d & ARM_A5_TLBDATA_S) != 0; 288 1.18 matt 289 1.18 matt db_printf(" %c %d %c %c\n", (s_p ? 'S' : '-'), tex, 290 1.18 matt (c_p ? 'C' : '-'), (b_p ? 'B' : '-')); 291 1.18 matt } 292 1.18 matt 293 1.18 matt static const struct db_tlbinfo tlb_cortex_a5_info = { 294 1.18 matt .dti_decode_vpn = tlb_decode_cortex_a5_vpn, 295 1.18 matt .dti_print_header = tlb_print_cortex_a5_header, 296 1.18 matt .dti_print_entry = tlb_print_cortex_a5_entry, 297 1.18 matt .dti_index = ARM_A5_TLBDATAOP_INDEX, 298 1.18 matt }; 299 1.18 matt #endif /* CPU_CORTEXA5 */ 300 1.18 matt 301 1.18 matt #if defined(CPU_CORTEXA7) 302 1.18 matt static const char tlb_cortex_a7_esizes[8][8] = { 303 1.18 matt " 4KB(S)", " 4KB(L)", "64KB(S)", "64KB(L)", 304 1.18 matt " 1MB(S)", " 2MB(L)", "16MB(S)", " 1GB(L)", 305 1.18 matt }; 306 1.18 matt 307 1.18 matt static void 308 1.18 matt tlb_print_cortex_a7_header(void) 309 1.18 matt { 310 1.18 matt tlb_print_common_header("IS --OS- SH"); 311 1.18 matt } 312 1.18 matt 313 1.18 matt static inline vaddr_t 314 1.18 matt tlb_decode_cortex_a7_vpn(size_t va_index, uint32_t d0, uint32_t d1) 315 1.18 matt { 316 1.18 matt const u_int size = __SHIFTOUT(d0, ARM_A7_TLBDATA0_SIZE); 317 1.18 matt const u_int shift = (size & 1) 318 1.18 matt ? ((0x12090400 >> (8*size)) & 0x1f) 319 1.18 matt : (2 * size); 320 1.18 matt 321 1.18 matt return __SHIFTOUT(d0, ARM_A7_TLBDATA0_VA) * (ARM_A7_TLBDATAOP_INDEX + 1) 322 1.18 matt + (va_index << shift); 323 1.18 matt } 324 1.18 matt 325 1.18 matt static void 326 1.18 matt tlb_print_cortex_a7_entry(size_t way, size_t va_index, uint32_t d0, uint32_t d1) 327 1.18 matt { 328 1.18 matt const uint32_t d2 = armreg_tlbdata2_read(); 329 1.18 matt const uint64_t d01 = ((uint64_t)d1 << 32) | d0; 330 1.18 matt const uint64_t d12 = ((uint64_t)d2 << 32) | d1; 331 1.18 matt 332 1.18 matt const paddr_t pfn = __SHIFTOUT(d12, ARM_A7_TLBDATA12_PA); 333 1.18 matt const vaddr_t vpn = tlb_decode_cortex_a7_vpn(va_index, d0, d1); 334 1.18 matt 335 1.18 matt tlb_print_addr(way, va_index, vpn, pfn); 336 1.18 matt 337 1.18 matt const u_int size = __SHIFTOUT(d0, ARM_A7_TLBDATA0_SIZE); 338 1.18 matt const u_int domain = __SHIFTOUT(d2, ARM_A7_TLBDATA2_DOM); 339 1.18 matt const u_int ap = __SHIFTOUT(d1, ARM_A7_TLBDATA1_AP); 340 1.18 matt const bool xn_p = (d2 & ARM_A7_TLBDATA2_XN1) != 0; 341 1.18 matt 342 1.18 matt tlb_print_size_domain_prot(tlb_cortex_a7_esizes[size], domain, ap, xn_p); 343 1.18 matt 344 1.18 matt const bool ng_p = (d1 & ARM_A7_TLBDATA1_nG) != 0; 345 1.18 matt const tlb_asid_t asid = __SHIFTOUT(d01, ARM_A7_TLBDATA01_ASID); 346 1.18 matt 347 1.18 matt tlb_print_asid(ng_p, asid); 348 1.18 matt 349 1.18 matt const u_int is = __SHIFTOUT(d2, ARM_A7_TLBDATA2_IS); 350 1.18 matt if (is == ARM_A7_TLBDATA2_IS_DSO) { 351 1.18 matt u_int mt = __SHIFTOUT(d2, ARM_A7_TLBDATA2_SDO_MT); 352 1.18 matt switch (mt) { 353 1.18 matt case ARM_A7_TLBDATA2_SDO_MT_D: 354 1.18 matt db_printf(" DV\n"); 355 1.18 matt return; 356 1.18 matt case ARM_A7_TLBDATA2_SDO_MT_SO: 357 1.18 matt db_printf(" SO\n"); 358 1.18 matt return; 359 1.18 matt default: 360 1.18 matt db_printf(" %02u\n", mt); 361 1.18 matt return; 362 1.18 matt } 363 1.18 matt } 364 1.18 matt const u_int os = __SHIFTOUT(d2, ARM_A7_TLBDATA2_OS); 365 1.18 matt const u_int sh = __SHIFTOUT(d2, ARM_A7_TLBDATA2_SH); 366 1.18 matt static const char is_types[3][3] = { "NC", "WB", "WT" }; 367 1.18 matt static const char os_types[4][6] = { "NC", "WB+WA", "WT", "WB" }; 368 1.22 skrll static const char sh_types[4][3] = { "NS", "na", "OS", "IS" }; 369 1.18 matt db_printf(" %2s %5s %2s\n", is_types[is], os_types[os], sh_types[sh]); 370 1.18 matt } 371 1.18 matt 372 1.18 matt static const struct db_tlbinfo tlb_cortex_a7_info = { 373 1.18 matt .dti_decode_vpn = tlb_decode_cortex_a7_vpn, 374 1.18 matt .dti_print_header = tlb_print_cortex_a7_header, 375 1.18 matt .dti_print_entry = tlb_print_cortex_a7_entry, 376 1.18 matt .dti_index = ARM_A7_TLBDATAOP_INDEX, 377 1.18 matt }; 378 1.18 matt #endif /* CPU_CORTEXA7 */ 379 1.18 matt 380 1.18 matt static inline const struct db_tlbinfo * 381 1.18 matt tlb_lookup_tlbinfo(void) 382 1.18 matt { 383 1.18 matt #if defined(CPU_CORTEXA5) && defined(CPU_CORTEXA7) 384 1.18 matt const bool cortex_a5_p = CPU_ID_CORTEX_A5_P(curcpu()->ci_arm_cpuid); 385 1.18 matt const bool cortex_a7_p = CPU_ID_CORTEX_A7_P(curcpu()->ci_arm_cpuid); 386 1.18 matt #elif defined(CPU_CORTEXA5) 387 1.18 matt const bool cortex_a5_p = true; 388 1.18 matt #else 389 1.18 matt const bool cortex_a7_p = true; 390 1.18 matt #endif 391 1.18 matt #ifdef CPU_CORTEXA5 392 1.18 matt if (cortex_a5_p) { 393 1.18 matt return &tlb_cortex_a5_info; 394 1.18 matt } 395 1.13 christos #endif 396 1.18 matt #ifdef CPU_CORTEXA7 397 1.18 matt if (cortex_a7_p) { 398 1.18 matt return &tlb_cortex_a7_info; 399 1.18 matt } 400 1.18 matt #endif 401 1.18 matt return NULL; 402 1.18 matt } 403 1.18 matt 404 1.18 matt void 405 1.18 matt db_show_tlb_cmd(db_expr_t addr, bool have_addr, db_expr_t count, const char *modif) 406 1.18 matt { 407 1.18 matt const struct db_tlbinfo * const dti = tlb_lookup_tlbinfo(); 408 1.18 matt 409 1.18 matt if (have_addr) { 410 1.18 matt const vaddr_t vpn = (vaddr_t)addr >> L2_S_SHIFT; 411 1.18 matt const u_int va_index = vpn & dti->dti_index; 412 1.18 matt for (size_t way = 0; way < 2; way++) { 413 1.18 matt armreg_tlbdataop_write( 414 1.18 matt __SHIFTIN(va_index, dti->dti_index) 415 1.18 matt | __SHIFTIN(way, ARM_TLBDATAOP_WAY)); 416 1.23 joerg arm_isb(); 417 1.18 matt const uint32_t d0 = armreg_tlbdata0_read(); 418 1.18 matt const uint32_t d1 = armreg_tlbdata1_read(); 419 1.18 matt if ((d0 & ARM_TLBDATA_VALID) 420 1.18 matt && vpn == (*dti->dti_decode_vpn)(va_index, d0, d1)) { 421 1.18 matt (*dti->dti_print_header)(); 422 1.18 matt (*dti->dti_print_entry)(way, va_index, d0, d1); 423 1.18 matt return; 424 1.18 matt } 425 1.18 matt } 426 1.18 matt db_printf("VA %#"DDB_EXPR_FMT"x not found in TLB\n", addr); 427 1.18 matt return; 428 1.18 matt } 429 1.18 matt 430 1.18 matt bool first = true; 431 1.18 matt size_t n = 0; 432 1.18 matt for (size_t va_index = 0; va_index <= dti->dti_index; va_index++) { 433 1.18 matt for (size_t way = 0; way < 2; way++) { 434 1.18 matt armreg_tlbdataop_write( 435 1.18 matt __SHIFTIN(way, ARM_TLBDATAOP_WAY) 436 1.18 matt | __SHIFTIN(va_index, dti->dti_index)); 437 1.23 joerg arm_isb(); 438 1.18 matt const uint32_t d0 = armreg_tlbdata0_read(); 439 1.18 matt const uint32_t d1 = armreg_tlbdata1_read(); 440 1.18 matt if (d0 & ARM_TLBDATA_VALID) { 441 1.18 matt if (first) { 442 1.18 matt (*dti->dti_print_header)(); 443 1.18 matt first = false; 444 1.18 matt } 445 1.18 matt (*dti->dti_print_entry)(way, va_index, d0, d1); 446 1.18 matt n++; 447 1.18 matt } 448 1.18 matt } 449 1.18 matt } 450 1.18 matt db_printf("%zu TLB valid entries found\n", n); 451 1.18 matt } 452 1.18 matt #endif /* CPU_CORTEXA5 || CPU_CORTEXA7 */ 453 1.1 matt 454 1.27 skrll #if defined(MULTIPROCESSOR) 455 1.19 matt void 456 1.19 matt db_switch_cpu_cmd(db_expr_t addr, bool have_addr, db_expr_t count, const char *modif) 457 1.19 matt { 458 1.19 matt if (addr >= maxcpus) { 459 1.19 matt db_printf("cpu %"DDB_EXPR_FMT"d out of range", addr); 460 1.19 matt return; 461 1.19 matt } 462 1.19 matt struct cpu_info *new_ci = cpu_lookup(addr); 463 1.19 matt if (new_ci == NULL) { 464 1.19 matt db_printf("cpu %"DDB_EXPR_FMT"d does not exist", addr); 465 1.19 matt return; 466 1.19 matt } 467 1.19 matt if (DDB_REGS->tf_spsr & PSR_T_bit) { 468 1.19 matt DDB_REGS->tf_pc -= 2; /* XXX */ 469 1.19 matt } else { 470 1.19 matt DDB_REGS->tf_pc -= 4; 471 1.19 matt } 472 1.19 matt db_newcpu = new_ci; 473 1.19 matt db_continue_cmd(0, false, 0, ""); 474 1.19 matt } 475 1.19 matt #endif 476 1.27 skrll #endif /* _KERNEL */ 477
Indexes created Mon Sep 29 03:10:08 GMT 2025