trap.c revision 1.32
1 1.32 ryo /* $NetBSD: trap.c,v 1.32 2020/07/26 07:25:38 ryo Exp $ */ 2 1.1 matt 3 1.1 matt /*- 4 1.1 matt * Copyright (c) 2014 The NetBSD Foundation, Inc. 5 1.1 matt * All rights reserved. 6 1.1 matt * 7 1.1 matt * This code is derived from software contributed to The NetBSD Foundation 8 1.1 matt * by Matt Thomas of 3am Software Foundry. 9 1.1 matt * 10 1.1 matt * Redistribution and use in source and binary forms, with or without 11 1.1 matt * modification, are permitted provided that the following conditions 12 1.1 matt * are met: 13 1.1 matt * 1. Redistributions of source code must retain the above copyright 14 1.1 matt * notice, this list of conditions and the following disclaimer. 15 1.1 matt * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 matt * notice, this list of conditions and the following disclaimer in the 17 1.1 matt * documentation and/or other materials provided with the distribution. 18 1.1 matt * 19 1.1 matt * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 matt * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 matt * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 matt * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 matt * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 matt * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 matt * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 matt * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 matt * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 matt * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 matt * POSSIBILITY OF SUCH DAMAGE. 30 1.1 matt */ 31 1.1 matt 32 1.1 matt #include <sys/cdefs.h> 33 1.1 matt 34 1.32 ryo __KERNEL_RCSID(1, "$NetBSD: trap.c,v 1.32 2020/07/26 07:25:38 ryo Exp $"); 35 1.1 matt 36 1.4 ryo #include "opt_arm_intr_impl.h" 37 1.4 ryo #include "opt_compat_netbsd32.h" 38 1.22 jmcneill #include "opt_dtrace.h" 39 1.4 ryo 40 1.1 matt #include <sys/param.h> 41 1.8 ryo #include <sys/kauth.h> 42 1.1 matt #include <sys/types.h> 43 1.4 ryo #include <sys/atomic.h> 44 1.1 matt #include <sys/cpu.h> 45 1.28 ryo #include <sys/evcnt.h> 46 1.4 ryo #ifdef KDB 47 1.4 ryo #include <sys/kdb.h> 48 1.4 ryo #endif 49 1.3 nisimura #include <sys/proc.h> 50 1.3 nisimura #include <sys/systm.h> 51 1.3 nisimura #include <sys/signal.h> 52 1.3 nisimura #include <sys/signalvar.h> 53 1.3 nisimura #include <sys/siginfo.h> 54 1.28 ryo #include <sys/xcall.h> 55 1.1 matt 56 1.4 ryo #ifdef ARM_INTR_IMPL 57 1.4 ryo #include ARM_INTR_IMPL 58 1.4 ryo #else 59 1.4 ryo #error ARM_INTR_IMPL not defined 60 1.4 ryo #endif 61 1.4 ryo 62 1.4 ryo #ifndef ARM_IRQ_HANDLER 63 1.4 ryo #error ARM_IRQ_HANDLER not defined 64 1.4 ryo #endif 65 1.4 ryo 66 1.4 ryo #include <aarch64/userret.h> 67 1.4 ryo #include <aarch64/frame.h> 68 1.4 ryo #include <aarch64/machdep.h> 69 1.4 ryo #include <aarch64/armreg.h> 70 1.1 matt #include <aarch64/locore.h> 71 1.1 matt 72 1.4 ryo #ifdef KDB 73 1.4 ryo #include <machine/db_machdep.h> 74 1.4 ryo #endif 75 1.4 ryo #ifdef DDB 76 1.4 ryo #include <ddb/db_output.h> 77 1.4 ryo #include <machine/db_machdep.h> 78 1.4 ryo #endif 79 1.22 jmcneill #ifdef KDTRACE_HOOKS 80 1.22 jmcneill #include <sys/dtrace_bsd.h> 81 1.22 jmcneill #endif 82 1.4 ryo 83 1.8 ryo #ifdef DDB 84 1.8 ryo int sigill_debug = 0; 85 1.8 ryo #endif 86 1.4 ryo 87 1.22 jmcneill #ifdef KDTRACE_HOOKS 88 1.22 jmcneill dtrace_doubletrap_func_t dtrace_doubletrap_func = NULL; 89 1.22 jmcneill dtrace_trap_func_t dtrace_trap_func = NULL; 90 1.22 jmcneill int (*dtrace_invop_jump_addr)(struct trapframe *); 91 1.22 jmcneill #endif 92 1.22 jmcneill 93 1.28 ryo enum emul_arm_result { 94 1.28 ryo EMUL_ARM_SUCCESS = 0, 95 1.28 ryo EMUL_ARM_UNKNOWN, 96 1.28 ryo EMUL_ARM_FAULT, 97 1.28 ryo }; 98 1.28 ryo 99 1.4 ryo const char * const trap_names[] = { 100 1.4 ryo [ESR_EC_UNKNOWN] = "Unknown Reason (Illegal Instruction)", 101 1.4 ryo [ESR_EC_SERROR] = "SError Interrupt", 102 1.4 ryo [ESR_EC_WFX] = "WFI or WFE instruction execution", 103 1.4 ryo [ESR_EC_ILL_STATE] = "Illegal Execution State", 104 1.4 ryo 105 1.25 maxv [ESR_EC_BTE_A64] = "Branch Target Exception", 106 1.25 maxv 107 1.4 ryo [ESR_EC_SYS_REG] = "MSR/MRS/SYS instruction", 108 1.4 ryo [ESR_EC_SVC_A64] = "SVC Instruction Execution", 109 1.4 ryo [ESR_EC_HVC_A64] = "HVC Instruction Execution", 110 1.4 ryo [ESR_EC_SMC_A64] = "SMC Instruction Execution", 111 1.4 ryo 112 1.4 ryo [ESR_EC_INSN_ABT_EL0] = "Instruction Abort (EL0)", 113 1.4 ryo [ESR_EC_INSN_ABT_EL1] = "Instruction Abort (EL1)", 114 1.4 ryo [ESR_EC_DATA_ABT_EL0] = "Data Abort (EL0)", 115 1.4 ryo [ESR_EC_DATA_ABT_EL1] = "Data Abort (EL1)", 116 1.4 ryo 117 1.4 ryo [ESR_EC_PC_ALIGNMENT] = "Misaligned PC", 118 1.4 ryo [ESR_EC_SP_ALIGNMENT] = "Misaligned SP", 119 1.4 ryo 120 1.4 ryo [ESR_EC_FP_ACCESS] = "Access to SIMD/FP Registers", 121 1.4 ryo [ESR_EC_FP_TRAP_A64] = "FP Exception", 122 1.4 ryo 123 1.4 ryo [ESR_EC_BRKPNT_EL0] = "Breakpoint Exception (EL0)", 124 1.4 ryo [ESR_EC_BRKPNT_EL1] = "Breakpoint Exception (EL1)", 125 1.4 ryo [ESR_EC_SW_STEP_EL0] = "Software Step (EL0)", 126 1.4 ryo [ESR_EC_SW_STEP_EL1] = "Software Step (EL1)", 127 1.4 ryo [ESR_EC_WTCHPNT_EL0] = "Watchpoint (EL0)", 128 1.4 ryo [ESR_EC_WTCHPNT_EL1] = "Watchpoint (EL1)", 129 1.4 ryo [ESR_EC_BKPT_INSN_A64] = "BKPT Instruction Execution", 130 1.4 ryo 131 1.4 ryo [ESR_EC_CP15_RT] = "A32: MCR/MRC access to CP15", 132 1.4 ryo [ESR_EC_CP15_RRT] = "A32: MCRR/MRRC access to CP15", 133 1.4 ryo [ESR_EC_CP14_RT] = "A32: MCR/MRC access to CP14", 134 1.4 ryo [ESR_EC_CP14_DT] = "A32: LDC/STC access to CP14", 135 1.4 ryo [ESR_EC_CP14_RRT] = "A32: MRRC access to CP14", 136 1.4 ryo [ESR_EC_SVC_A32] = "A32: SVC Instruction Execution", 137 1.4 ryo [ESR_EC_HVC_A32] = "A32: HVC Instruction Execution", 138 1.4 ryo [ESR_EC_SMC_A32] = "A32: SMC Instruction Execution", 139 1.4 ryo [ESR_EC_FPID] = "A32: MCR/MRC access to CP10", 140 1.4 ryo [ESR_EC_FP_TRAP_A32] = "A32: FP Exception", 141 1.4 ryo [ESR_EC_BKPT_INSN_A32] = "A32: BKPT Instruction Execution", 142 1.4 ryo [ESR_EC_VECTOR_CATCH] = "A32: Vector Catch Exception" 143 1.4 ryo }; 144 1.4 ryo 145 1.6 christos const char * 146 1.4 ryo eclass_trapname(uint32_t eclass) 147 1.3 nisimura { 148 1.4 ryo static char trapnamebuf[sizeof("Unknown trap 0x????????")]; 149 1.4 ryo 150 1.4 ryo if (eclass >= __arraycount(trap_names) || trap_names[eclass] == NULL) { 151 1.4 ryo snprintf(trapnamebuf, sizeof(trapnamebuf), 152 1.6 christos "Unknown trap %#02x", eclass); 153 1.4 ryo return trapnamebuf; 154 1.4 ryo } 155 1.4 ryo return trap_names[eclass]; 156 1.3 nisimura } 157 1.3 nisimura 158 1.1 matt void 159 1.4 ryo userret(struct lwp *l) 160 1.1 matt { 161 1.1 matt mi_userret(l); 162 1.1 matt } 163 1.2 nisimura 164 1.3 nisimura void 165 1.4 ryo trap_doast(struct trapframe *tf) 166 1.3 nisimura { 167 1.3 nisimura struct lwp * const l = curlwp; 168 1.4 ryo 169 1.4 ryo /* 170 1.4 ryo * allow to have a chance of context switch just prior to user 171 1.4 ryo * exception return. 172 1.4 ryo */ 173 1.4 ryo #ifdef __HAVE_PREEMPTION 174 1.4 ryo kpreempt_disable(); 175 1.4 ryo #endif 176 1.4 ryo struct cpu_info * const ci = curcpu(); 177 1.4 ryo 178 1.4 ryo ci->ci_data.cpu_ntrap++; 179 1.4 ryo 180 1.4 ryo KDASSERT(ci->ci_cpl == IPL_NONE); 181 1.4 ryo #ifdef __HAVE_PREEMPTION 182 1.4 ryo kpreempt_enable(); 183 1.4 ryo #endif 184 1.4 ryo 185 1.4 ryo if (l->l_pflag & LP_OWEUPC) { 186 1.4 ryo l->l_pflag &= ~LP_OWEUPC; 187 1.4 ryo ADDUPROF(l); 188 1.3 nisimura } 189 1.4 ryo 190 1.4 ryo userret(l); 191 1.4 ryo } 192 1.4 ryo 193 1.4 ryo void 194 1.4 ryo trap_el1h_sync(struct trapframe *tf) 195 1.4 ryo { 196 1.4 ryo const uint32_t esr = tf->tf_esr; 197 1.4 ryo const uint32_t eclass = __SHIFTOUT(esr, ESR_EC); /* exception class */ 198 1.4 ryo 199 1.4 ryo /* re-enable traps and interrupts */ 200 1.4 ryo if (!(tf->tf_spsr & SPSR_I)) 201 1.4 ryo daif_enable(DAIF_D|DAIF_A|DAIF_I|DAIF_F); 202 1.4 ryo else 203 1.4 ryo daif_enable(DAIF_D|DAIF_A); 204 1.4 ryo 205 1.22 jmcneill #ifdef KDTRACE_HOOKS 206 1.22 jmcneill if (dtrace_trap_func != NULL && (*dtrace_trap_func)(tf, eclass)) 207 1.22 jmcneill return; 208 1.22 jmcneill #endif 209 1.22 jmcneill 210 1.4 ryo switch (eclass) { 211 1.4 ryo case ESR_EC_INSN_ABT_EL1: 212 1.4 ryo case ESR_EC_DATA_ABT_EL1: 213 1.6 christos data_abort_handler(tf, eclass); 214 1.4 ryo break; 215 1.4 ryo 216 1.22 jmcneill case ESR_EC_BKPT_INSN_A64: 217 1.22 jmcneill #ifdef KDTRACE_HOOKS 218 1.22 jmcneill if (__SHIFTOUT(esr, ESR_ISS) == 0x40d && 219 1.22 jmcneill dtrace_invop_jump_addr != 0) { 220 1.22 jmcneill (*dtrace_invop_jump_addr)(tf); 221 1.22 jmcneill break; 222 1.22 jmcneill } 223 1.22 jmcneill /* FALLTHROUGH */ 224 1.22 jmcneill #endif 225 1.4 ryo case ESR_EC_BRKPNT_EL1: 226 1.4 ryo case ESR_EC_SW_STEP_EL1: 227 1.4 ryo case ESR_EC_WTCHPNT_EL1: 228 1.4 ryo #ifdef DDB 229 1.4 ryo if (eclass == ESR_EC_BRKPNT_EL1) 230 1.4 ryo kdb_trap(DB_TRAP_BREAKPOINT, tf); 231 1.4 ryo else if (eclass == ESR_EC_BKPT_INSN_A64) 232 1.4 ryo kdb_trap(DB_TRAP_BKPT_INSN, tf); 233 1.4 ryo else if (eclass == ESR_EC_WTCHPNT_EL1) 234 1.4 ryo kdb_trap(DB_TRAP_WATCHPOINT, tf); 235 1.4 ryo else if (eclass == ESR_EC_SW_STEP_EL1) 236 1.4 ryo kdb_trap(DB_TRAP_SW_STEP, tf); 237 1.4 ryo else 238 1.4 ryo kdb_trap(DB_TRAP_UNKNOWN, tf); 239 1.4 ryo #else 240 1.4 ryo panic("No debugger in kernel"); 241 1.4 ryo #endif 242 1.4 ryo break; 243 1.4 ryo 244 1.4 ryo case ESR_EC_FP_ACCESS: 245 1.4 ryo case ESR_EC_FP_TRAP_A64: 246 1.4 ryo case ESR_EC_PC_ALIGNMENT: 247 1.4 ryo case ESR_EC_SP_ALIGNMENT: 248 1.4 ryo case ESR_EC_ILL_STATE: 249 1.27 maxv case ESR_EC_BTE_A64: 250 1.4 ryo default: 251 1.13 ryo panic("Trap: fatal %s: pc=%016" PRIx64 " sp=%016" PRIx64 252 1.13 ryo " esr=%08x", eclass_trapname(eclass), tf->tf_pc, tf->tf_sp, 253 1.6 christos esr); 254 1.4 ryo break; 255 1.3 nisimura } 256 1.3 nisimura } 257 1.3 nisimura 258 1.28 ryo /* 259 1.28 ryo * There are some systems with different cache line sizes for each cpu. 260 1.28 ryo * Userland programs can be preempted between CPUs at any time, so in such 261 1.28 ryo * a system, the minimum cache line size must be visible to userland. 262 1.28 ryo */ 263 1.28 ryo #define CTR_EL0_USR_MASK \ 264 1.28 ryo (CTR_EL0_DIC | CTR_EL0_IDC | CTR_EL0_DMIN_LINE | CTR_EL0_IMIN_LINE) 265 1.28 ryo uint64_t ctr_el0_usr __read_mostly; 266 1.28 ryo 267 1.28 ryo static xcfunc_t 268 1.28 ryo configure_cpu_traps0(void *arg1, void *arg2) 269 1.28 ryo { 270 1.28 ryo struct cpu_info * const ci = curcpu(); 271 1.28 ryo uint64_t sctlr; 272 1.28 ryo uint64_t ctr_el0_raw = reg_ctr_el0_read(); 273 1.28 ryo 274 1.28 ryo #ifdef DEBUG_FORCE_TRAP_CTR_EL0 275 1.28 ryo goto need_ctr_trap; 276 1.28 ryo #endif 277 1.28 ryo 278 1.28 ryo if ((__SHIFTOUT(ctr_el0_raw, CTR_EL0_DMIN_LINE) > 279 1.28 ryo __SHIFTOUT(ctr_el0_usr, CTR_EL0_DMIN_LINE)) || 280 1.28 ryo (__SHIFTOUT(ctr_el0_raw, CTR_EL0_IMIN_LINE) > 281 1.28 ryo __SHIFTOUT(ctr_el0_usr, CTR_EL0_IMIN_LINE))) 282 1.28 ryo goto need_ctr_trap; 283 1.28 ryo 284 1.28 ryo if ((__SHIFTOUT(ctr_el0_raw, CTR_EL0_DIC) == 1 && 285 1.28 ryo __SHIFTOUT(ctr_el0_usr, CTR_EL0_DIC) == 0) || 286 1.28 ryo (__SHIFTOUT(ctr_el0_raw, CTR_EL0_IDC) == 1 && 287 1.28 ryo __SHIFTOUT(ctr_el0_usr, CTR_EL0_IDC) == 0)) 288 1.28 ryo goto need_ctr_trap; 289 1.28 ryo 290 1.28 ryo #if 0 /* XXX: To do or not to do */ 291 1.28 ryo /* 292 1.28 ryo * IDC==0, but (LoC==0 || LoUIS==LoUU==0)? 293 1.28 ryo * Would it be better to show IDC=1 to userland? 294 1.28 ryo */ 295 1.28 ryo if (__SHIFTOUT(ctr_el0_raw, CTR_EL0_IDC) == 0 && 296 1.28 ryo __SHIFTOUT(ctr_el0_usr, CTR_EL0_IDC) == 1) 297 1.28 ryo goto need_ctr_trap; 298 1.28 ryo #endif 299 1.28 ryo 300 1.28 ryo return 0; 301 1.28 ryo 302 1.28 ryo need_ctr_trap: 303 1.28 ryo evcnt_attach_dynamic(&ci->ci_uct_trap, EVCNT_TYPE_MISC, NULL, 304 1.28 ryo ci->ci_cpuname, "ctr_el0 trap"); 305 1.28 ryo 306 1.28 ryo /* trap CTR_EL0 access from EL0 on this cpu */ 307 1.28 ryo sctlr = reg_sctlr_el1_read(); 308 1.28 ryo sctlr &= ~SCTLR_UCT; 309 1.28 ryo reg_sctlr_el1_write(sctlr); 310 1.28 ryo 311 1.28 ryo return 0; 312 1.28 ryo } 313 1.28 ryo 314 1.28 ryo void 315 1.28 ryo configure_cpu_traps(void) 316 1.28 ryo { 317 1.28 ryo CPU_INFO_ITERATOR cii; 318 1.28 ryo struct cpu_info *ci; 319 1.28 ryo uint64_t where; 320 1.28 ryo 321 1.28 ryo /* remember minimum cache line size out of all CPUs */ 322 1.28 ryo for (CPU_INFO_FOREACH(cii, ci)) { 323 1.28 ryo uint64_t ctr_el0_cpu = ci->ci_id.ac_ctr; 324 1.28 ryo uint64_t clidr = ci->ci_id.ac_clidr; 325 1.28 ryo 326 1.28 ryo if (__SHIFTOUT(clidr, CLIDR_LOC) == 0 || 327 1.28 ryo (__SHIFTOUT(clidr, CLIDR_LOUIS) == 0 && 328 1.28 ryo __SHIFTOUT(clidr, CLIDR_LOUU) == 0)) { 329 1.28 ryo /* this means the same as IDC=1 */ 330 1.28 ryo ctr_el0_cpu |= CTR_EL0_IDC; 331 1.28 ryo } 332 1.28 ryo 333 1.28 ryo /* 334 1.28 ryo * if DIC==1, there is no need to icache sync. however, 335 1.28 ryo * to calculate the minimum cacheline, in this case 336 1.28 ryo * ICacheLine is treated as the maximum. 337 1.28 ryo */ 338 1.28 ryo if (__SHIFTOUT(ctr_el0_cpu, CTR_EL0_DIC) == 1) 339 1.28 ryo ctr_el0_cpu |= CTR_EL0_IMIN_LINE; 340 1.28 ryo 341 1.29 ryo /* Neoverse N1 erratum 1542419 */ 342 1.29 ryo if (CPU_ID_NEOVERSEN1_P(ci->ci_id.ac_midr) && 343 1.29 ryo __SHIFTOUT(ctr_el0_cpu, CTR_EL0_DIC) == 1) 344 1.29 ryo ctr_el0_cpu &= ~CTR_EL0_DIC; 345 1.29 ryo 346 1.28 ryo if (cii == 0) { 347 1.28 ryo ctr_el0_usr = ctr_el0_cpu; 348 1.28 ryo continue; 349 1.28 ryo } 350 1.28 ryo 351 1.28 ryo /* keep minimum cache line size, and worst DIC/IDC */ 352 1.28 ryo ctr_el0_usr &= (ctr_el0_cpu & CTR_EL0_DIC) | ~CTR_EL0_DIC; 353 1.28 ryo ctr_el0_usr &= (ctr_el0_cpu & CTR_EL0_IDC) | ~CTR_EL0_IDC; 354 1.28 ryo if (__SHIFTOUT(ctr_el0_cpu, CTR_EL0_DMIN_LINE) < 355 1.28 ryo __SHIFTOUT(ctr_el0_usr, CTR_EL0_DMIN_LINE)) { 356 1.28 ryo ctr_el0_usr &= ~CTR_EL0_DMIN_LINE; 357 1.28 ryo ctr_el0_usr |= ctr_el0_cpu & CTR_EL0_DMIN_LINE; 358 1.28 ryo } 359 1.28 ryo if ((ctr_el0_cpu & CTR_EL0_DIC) == 0 && 360 1.28 ryo (__SHIFTOUT(ctr_el0_cpu, CTR_EL0_IMIN_LINE) < 361 1.28 ryo __SHIFTOUT(ctr_el0_usr, CTR_EL0_IMIN_LINE))) { 362 1.28 ryo ctr_el0_usr &= ~CTR_EL0_IMIN_LINE; 363 1.28 ryo ctr_el0_usr |= ctr_el0_cpu & CTR_EL0_IMIN_LINE; 364 1.28 ryo } 365 1.28 ryo } 366 1.28 ryo 367 1.28 ryo where = xc_broadcast(0, 368 1.28 ryo (xcfunc_t)configure_cpu_traps0, NULL, NULL); 369 1.28 ryo xc_wait(where); 370 1.28 ryo } 371 1.28 ryo 372 1.28 ryo static enum emul_arm_result 373 1.28 ryo emul_aarch64_insn(struct trapframe *tf) 374 1.28 ryo { 375 1.28 ryo uint32_t insn; 376 1.28 ryo 377 1.32 ryo if (ufetch_32((uint32_t *)tf->tf_pc, &insn)) { 378 1.32 ryo tf->tf_far = reg_far_el1_read(); 379 1.28 ryo return EMUL_ARM_FAULT; 380 1.32 ryo } 381 1.28 ryo 382 1.28 ryo if ((insn & 0xffffffe0) == 0xd53b0020) { 383 1.28 ryo /* mrs x?,ctr_el0 */ 384 1.28 ryo unsigned int Xt = insn & 31; 385 1.28 ryo if (Xt != 31) { /* !xzr */ 386 1.28 ryo uint64_t ctr_el0 = reg_ctr_el0_read(); 387 1.28 ryo ctr_el0 &= ~CTR_EL0_USR_MASK; 388 1.28 ryo ctr_el0 |= (ctr_el0_usr & CTR_EL0_USR_MASK); 389 1.28 ryo tf->tf_reg[Xt] = ctr_el0; 390 1.28 ryo } 391 1.28 ryo curcpu()->ci_uct_trap.ev_count++; 392 1.28 ryo 393 1.28 ryo } else { 394 1.28 ryo return EMUL_ARM_UNKNOWN; 395 1.28 ryo } 396 1.28 ryo 397 1.28 ryo tf->tf_pc += 4; 398 1.28 ryo return EMUL_ARM_SUCCESS; 399 1.28 ryo } 400 1.28 ryo 401 1.3 nisimura void 402 1.4 ryo trap_el0_sync(struct trapframe *tf) 403 1.3 nisimura { 404 1.4 ryo struct lwp * const l = curlwp; 405 1.4 ryo const uint32_t esr = tf->tf_esr; 406 1.4 ryo const uint32_t eclass = __SHIFTOUT(esr, ESR_EC); /* exception class */ 407 1.4 ryo 408 1.14 ryo /* disable trace */ 409 1.14 ryo reg_mdscr_el1_write(reg_mdscr_el1_read() & ~MDSCR_SS); 410 1.4 ryo /* enable traps and interrupts */ 411 1.4 ryo daif_enable(DAIF_D|DAIF_A|DAIF_I|DAIF_F); 412 1.4 ryo 413 1.4 ryo switch (eclass) { 414 1.4 ryo case ESR_EC_INSN_ABT_EL0: 415 1.4 ryo case ESR_EC_DATA_ABT_EL0: 416 1.6 christos data_abort_handler(tf, eclass); 417 1.4 ryo userret(l); 418 1.4 ryo break; 419 1.4 ryo 420 1.4 ryo case ESR_EC_SVC_A64: 421 1.4 ryo (*l->l_proc->p_md.md_syscall)(tf); 422 1.4 ryo break; 423 1.4 ryo case ESR_EC_FP_ACCESS: 424 1.4 ryo fpu_load(l); 425 1.4 ryo userret(l); 426 1.4 ryo break; 427 1.4 ryo case ESR_EC_FP_TRAP_A64: 428 1.4 ryo do_trapsignal(l, SIGFPE, FPE_FLTUND, NULL, esr); /* XXX */ 429 1.4 ryo userret(l); 430 1.4 ryo break; 431 1.4 ryo 432 1.4 ryo case ESR_EC_PC_ALIGNMENT: 433 1.5 christos do_trapsignal(l, SIGBUS, BUS_ADRALN, (void *)tf->tf_pc, esr); 434 1.4 ryo userret(l); 435 1.4 ryo break; 436 1.4 ryo case ESR_EC_SP_ALIGNMENT: 437 1.5 christos do_trapsignal(l, SIGBUS, BUS_ADRALN, (void *)tf->tf_sp, esr); 438 1.4 ryo userret(l); 439 1.4 ryo break; 440 1.4 ryo 441 1.4 ryo case ESR_EC_BKPT_INSN_A64: 442 1.4 ryo case ESR_EC_BRKPNT_EL0: 443 1.4 ryo case ESR_EC_WTCHPNT_EL0: 444 1.5 christos do_trapsignal(l, SIGTRAP, TRAP_BRKPT, (void *)tf->tf_pc, esr); 445 1.4 ryo userret(l); 446 1.4 ryo break; 447 1.14 ryo case ESR_EC_SW_STEP_EL0: 448 1.14 ryo /* disable trace, and send trace trap */ 449 1.14 ryo tf->tf_spsr &= ~SPSR_SS; 450 1.14 ryo do_trapsignal(l, SIGTRAP, TRAP_TRACE, (void *)tf->tf_pc, esr); 451 1.14 ryo userret(l); 452 1.14 ryo break; 453 1.4 ryo 454 1.28 ryo case ESR_EC_SYS_REG: 455 1.28 ryo switch (emul_aarch64_insn(tf)) { 456 1.28 ryo case EMUL_ARM_SUCCESS: 457 1.28 ryo break; 458 1.28 ryo case EMUL_ARM_UNKNOWN: 459 1.28 ryo goto unknown; 460 1.28 ryo case EMUL_ARM_FAULT: 461 1.28 ryo do_trapsignal(l, SIGSEGV, SEGV_MAPERR, 462 1.32 ryo (void *)tf->tf_far, esr); 463 1.28 ryo break; 464 1.28 ryo } 465 1.28 ryo userret(l); 466 1.28 ryo break; 467 1.28 ryo 468 1.4 ryo default: 469 1.4 ryo case ESR_EC_UNKNOWN: 470 1.28 ryo unknown: 471 1.8 ryo #ifdef DDB 472 1.8 ryo if (sigill_debug) { 473 1.8 ryo /* show illegal instruction */ 474 1.11 ryo printf("TRAP: pid %d (%s), uid %d: %s:" 475 1.11 ryo " esr=0x%lx: pc=0x%lx: %s\n", 476 1.8 ryo curlwp->l_proc->p_pid, curlwp->l_proc->p_comm, 477 1.8 ryo l->l_cred ? kauth_cred_geteuid(l->l_cred) : -1, 478 1.11 ryo eclass_trapname(eclass), tf->tf_esr, tf->tf_pc, 479 1.31 ryo strdisasm(tf->tf_pc, tf->tf_spsr)); 480 1.8 ryo } 481 1.8 ryo #endif 482 1.4 ryo /* illegal or not implemented instruction */ 483 1.5 christos do_trapsignal(l, SIGILL, ILL_ILLTRP, (void *)tf->tf_pc, esr); 484 1.4 ryo userret(l); 485 1.4 ryo break; 486 1.4 ryo } 487 1.3 nisimura } 488 1.3 nisimura 489 1.4 ryo void 490 1.4 ryo interrupt(struct trapframe *tf) 491 1.4 ryo { 492 1.4 ryo struct cpu_info * const ci = curcpu(); 493 1.2 nisimura 494 1.12 ryo #ifdef STACKCHECKS 495 1.12 ryo struct lwp *l = curlwp; 496 1.12 ryo void *sp = (void *)reg_sp_read(); 497 1.12 ryo if (l->l_addr >= sp) { 498 1.12 ryo panic("lwp/interrupt stack overflow detected." 499 1.12 ryo " lwp=%p, sp=%p, l_addr=%p", l, sp, l->l_addr); 500 1.12 ryo } 501 1.12 ryo #endif 502 1.12 ryo 503 1.14 ryo /* disable trace */ 504 1.14 ryo reg_mdscr_el1_write(reg_mdscr_el1_read() & ~MDSCR_SS); 505 1.14 ryo 506 1.4 ryo /* enable traps */ 507 1.4 ryo daif_enable(DAIF_D|DAIF_A); 508 1.2 nisimura 509 1.4 ryo ci->ci_intr_depth++; 510 1.4 ryo ARM_IRQ_HANDLER(tf); 511 1.4 ryo ci->ci_intr_depth--; 512 1.2 nisimura 513 1.4 ryo cpu_dosoftints(); 514 1.4 ryo } 515 1.2 nisimura 516 1.21 rin #ifdef COMPAT_NETBSD32 517 1.21 rin 518 1.21 rin /* 519 1.21 rin * 32-bit length Thumb instruction. See ARMv7 DDI0406A A6.3. 520 1.21 rin */ 521 1.21 rin #define THUMB_32BIT(hi) (((hi) & 0xe000) == 0xe000 && ((hi) & 0x1800)) 522 1.21 rin 523 1.31 ryo int 524 1.31 ryo fetch_arm_insn(uint64_t pc, uint64_t spsr, uint32_t *insn) 525 1.21 rin { 526 1.21 rin 527 1.21 rin /* THUMB? */ 528 1.31 ryo if (spsr & SPSR_A32_T) { 529 1.31 ryo uint16_t *p = (uint16_t *)(pc & ~1UL); /* XXX */ 530 1.21 rin uint16_t hi, lo; 531 1.21 rin 532 1.31 ryo if (ufetch_16(p, &hi)) 533 1.26 rin return -1; 534 1.26 rin 535 1.21 rin if (!THUMB_32BIT(hi)) { 536 1.21 rin /* 16-bit Thumb instruction */ 537 1.21 rin *insn = hi; 538 1.21 rin return 2; 539 1.21 rin } 540 1.21 rin 541 1.26 rin /* 32-bit Thumb instruction */ 542 1.31 ryo if (ufetch_16(p + 1, &lo)) 543 1.26 rin return -1; 544 1.21 rin 545 1.21 rin *insn = ((uint32_t)hi << 16) | lo; 546 1.21 rin return 4; 547 1.21 rin } 548 1.21 rin 549 1.31 ryo if (ufetch_32((uint32_t *)pc, insn)) 550 1.26 rin return -1; 551 1.26 rin 552 1.21 rin return 4; 553 1.21 rin } 554 1.21 rin 555 1.32 ryo static bool 556 1.32 ryo arm_cond_match(uint32_t insn, uint64_t spsr) 557 1.32 ryo { 558 1.32 ryo bool invert = (insn >> 28) & 1; 559 1.32 ryo bool match; 560 1.32 ryo 561 1.32 ryo switch (insn >> 29) { 562 1.32 ryo case 0: /* EQ or NE */ 563 1.32 ryo match = spsr & SPSR_Z; 564 1.32 ryo break; 565 1.32 ryo case 1: /* CS/HI or CC/LO */ 566 1.32 ryo match = spsr & SPSR_C; 567 1.32 ryo break; 568 1.32 ryo case 2: /* MI or PL */ 569 1.32 ryo match = spsr & SPSR_N; 570 1.32 ryo break; 571 1.32 ryo case 3: /* VS or VC */ 572 1.32 ryo match = spsr & SPSR_V; 573 1.32 ryo break; 574 1.32 ryo case 4: /* HI or LS */ 575 1.32 ryo match = ((spsr & (SPSR_C | SPSR_Z)) == SPSR_C); 576 1.32 ryo break; 577 1.32 ryo case 5: /* GE or LT */ 578 1.32 ryo match = (!(spsr & SPSR_N) == !(spsr & SPSR_V)); 579 1.32 ryo break; 580 1.32 ryo case 6: /* GT or LE */ 581 1.32 ryo match = !(spsr & SPSR_Z) && 582 1.32 ryo (!(spsr & SPSR_N) == !(spsr & SPSR_V)); 583 1.32 ryo break; 584 1.32 ryo case 7: /* AL */ 585 1.32 ryo match = true; 586 1.32 ryo break; 587 1.32 ryo } 588 1.32 ryo return (!match != !invert); 589 1.32 ryo } 590 1.32 ryo 591 1.32 ryo static enum emul_arm_result 592 1.32 ryo emul_thumb_insn(struct trapframe *tf, uint32_t insn, int insn_size) 593 1.32 ryo { 594 1.32 ryo /* T32-16bit or 32bit instructions */ 595 1.32 ryo switch (insn_size) { 596 1.32 ryo case 2: 597 1.32 ryo /* Breakpoint used by GDB */ 598 1.32 ryo if (insn == 0xdefe) { 599 1.32 ryo do_trapsignal(curlwp, SIGTRAP, TRAP_BRKPT, 600 1.32 ryo (void *)tf->tf_pc, 0); 601 1.32 ryo return EMUL_ARM_SUCCESS; 602 1.32 ryo } 603 1.32 ryo /* XXX: some T32 IT instruction deprecated should be emulated */ 604 1.32 ryo break; 605 1.32 ryo case 4: 606 1.32 ryo break; 607 1.32 ryo default: 608 1.32 ryo return EMUL_ARM_FAULT; 609 1.32 ryo } 610 1.32 ryo return EMUL_ARM_UNKNOWN; 611 1.32 ryo } 612 1.32 ryo 613 1.26 rin static enum emul_arm_result 614 1.21 rin emul_arm_insn(struct trapframe *tf) 615 1.21 rin { 616 1.21 rin uint32_t insn; 617 1.21 rin int insn_size; 618 1.21 rin 619 1.31 ryo insn_size = fetch_arm_insn(tf->tf_pc, tf->tf_spsr, &insn); 620 1.32 ryo tf->tf_far = reg_far_el1_read(); 621 1.21 rin 622 1.32 ryo if (tf->tf_spsr & SPSR_A32_T) 623 1.32 ryo return emul_thumb_insn(tf, insn, insn_size); 624 1.32 ryo if (insn_size != 4) 625 1.32 ryo return EMUL_ARM_FAULT; 626 1.21 rin 627 1.32 ryo /* Breakpoint used by GDB */ 628 1.32 ryo if (insn == 0xe6000011 || insn == 0xe7ffdefe) { 629 1.32 ryo do_trapsignal(curlwp, SIGTRAP, TRAP_BRKPT, 630 1.32 ryo (void *)tf->tf_pc, 0); 631 1.32 ryo return EMUL_ARM_SUCCESS; 632 1.32 ryo } 633 1.30 rin 634 1.32 ryo /* Unconditional instruction extension space? */ 635 1.32 ryo if ((insn & 0xf0000000) == 0xf0000000) 636 1.32 ryo goto unknown_insn; 637 1.21 rin 638 1.32 ryo /* 639 1.32 ryo * Emulate ARMv6 instructions with cache operations 640 1.32 ryo * register (c7), that can be used in user mode. 641 1.32 ryo */ 642 1.32 ryo switch (insn & 0x0fff0fff) { 643 1.32 ryo case 0x0e070f95: 644 1.32 ryo if (arm_cond_match(insn, tf->tf_spsr)) { 645 1.21 rin /* 646 1.21 rin * mcr p15, 0, <Rd>, c7, c5, 4 647 1.21 rin * (flush prefetch buffer) 648 1.21 rin */ 649 1.21 rin __asm __volatile("isb sy" ::: "memory"); 650 1.32 ryo } 651 1.32 ryo goto emulated; 652 1.32 ryo case 0x0e070f9a: 653 1.32 ryo if (arm_cond_match(insn, tf->tf_spsr)) { 654 1.21 rin /* 655 1.21 rin * mcr p15, 0, <Rd>, c7, c10, 4 656 1.21 rin * (data synchronization barrier) 657 1.21 rin */ 658 1.21 rin __asm __volatile("dsb sy" ::: "memory"); 659 1.32 ryo } 660 1.32 ryo goto emulated; 661 1.32 ryo case 0x0e070fba: 662 1.32 ryo if (arm_cond_match(insn, tf->tf_spsr)) { 663 1.21 rin /* 664 1.21 rin * mcr p15, 0, <Rd>, c7, c10, 5 665 1.21 rin * (data memory barrier) 666 1.21 rin */ 667 1.21 rin __asm __volatile("dmb sy" ::: "memory"); 668 1.21 rin } 669 1.32 ryo goto emulated; 670 1.32 ryo default: 671 1.21 rin break; 672 1.21 rin } 673 1.21 rin 674 1.32 ryo unknown_insn: 675 1.21 rin /* unknown, or unsupported instruction */ 676 1.26 rin return EMUL_ARM_UNKNOWN; 677 1.21 rin 678 1.21 rin emulated: 679 1.21 rin tf->tf_pc += insn_size; 680 1.26 rin return EMUL_ARM_SUCCESS; 681 1.21 rin } 682 1.21 rin #endif /* COMPAT_NETBSD32 */ 683 1.21 rin 684 1.2 nisimura void 685 1.4 ryo trap_el0_32sync(struct trapframe *tf) 686 1.2 nisimura { 687 1.4 ryo struct lwp * const l = curlwp; 688 1.4 ryo const uint32_t esr = tf->tf_esr; 689 1.4 ryo const uint32_t eclass = __SHIFTOUT(esr, ESR_EC); /* exception class */ 690 1.4 ryo 691 1.14 ryo /* disable trace */ 692 1.14 ryo reg_mdscr_el1_write(reg_mdscr_el1_read() & ~MDSCR_SS); 693 1.4 ryo /* enable traps and interrupts */ 694 1.4 ryo daif_enable(DAIF_D|DAIF_A|DAIF_I|DAIF_F); 695 1.4 ryo 696 1.4 ryo switch (eclass) { 697 1.11 ryo #ifdef COMPAT_NETBSD32 698 1.11 ryo case ESR_EC_INSN_ABT_EL0: 699 1.11 ryo case ESR_EC_DATA_ABT_EL0: 700 1.11 ryo data_abort_handler(tf, eclass); 701 1.11 ryo userret(l); 702 1.11 ryo break; 703 1.11 ryo 704 1.11 ryo case ESR_EC_SVC_A32: 705 1.11 ryo (*l->l_proc->p_md.md_syscall)(tf); 706 1.11 ryo break; 707 1.19 skrll 708 1.4 ryo case ESR_EC_FP_ACCESS: 709 1.4 ryo fpu_load(l); 710 1.4 ryo userret(l); 711 1.4 ryo break; 712 1.19 skrll 713 1.11 ryo case ESR_EC_FP_TRAP_A32: 714 1.11 ryo do_trapsignal(l, SIGFPE, FPE_FLTUND, NULL, esr); /* XXX */ 715 1.4 ryo userret(l); 716 1.18 jmcneill break; 717 1.4 ryo 718 1.4 ryo case ESR_EC_PC_ALIGNMENT: 719 1.5 christos do_trapsignal(l, SIGBUS, BUS_ADRALN, (void *)tf->tf_pc, esr); 720 1.4 ryo userret(l); 721 1.4 ryo break; 722 1.19 skrll 723 1.4 ryo case ESR_EC_SP_ALIGNMENT: 724 1.11 ryo do_trapsignal(l, SIGBUS, BUS_ADRALN, 725 1.11 ryo (void *)tf->tf_reg[13], esr); /* sp is r13 on AArch32 */ 726 1.4 ryo userret(l); 727 1.4 ryo break; 728 1.4 ryo 729 1.11 ryo case ESR_EC_BKPT_INSN_A32: 730 1.11 ryo do_trapsignal(l, SIGTRAP, TRAP_BRKPT, (void *)tf->tf_pc, esr); 731 1.11 ryo userret(l); 732 1.4 ryo break; 733 1.11 ryo 734 1.21 rin case ESR_EC_UNKNOWN: 735 1.26 rin switch (emul_arm_insn(tf)) { 736 1.26 rin case EMUL_ARM_SUCCESS: 737 1.26 rin break; 738 1.26 rin case EMUL_ARM_UNKNOWN: 739 1.21 rin goto unknown; 740 1.26 rin case EMUL_ARM_FAULT: 741 1.26 rin do_trapsignal(l, SIGSEGV, SEGV_MAPERR, 742 1.32 ryo (void *)tf->tf_far, esr); 743 1.26 rin break; 744 1.26 rin } 745 1.21 rin userret(l); 746 1.21 rin break; 747 1.21 rin 748 1.4 ryo case ESR_EC_CP15_RT: 749 1.4 ryo case ESR_EC_CP15_RRT: 750 1.4 ryo case ESR_EC_CP14_RT: 751 1.4 ryo case ESR_EC_CP14_DT: 752 1.4 ryo case ESR_EC_CP14_RRT: 753 1.21 rin unknown: 754 1.4 ryo #endif /* COMPAT_NETBSD32 */ 755 1.4 ryo default: 756 1.11 ryo #ifdef DDB 757 1.11 ryo if (sigill_debug) { 758 1.11 ryo /* show illegal instruction */ 759 1.11 ryo printf("TRAP: pid %d (%s), uid %d: %s:" 760 1.11 ryo " esr=0x%lx: pc=0x%lx: %s\n", 761 1.11 ryo curlwp->l_proc->p_pid, curlwp->l_proc->p_comm, 762 1.11 ryo l->l_cred ? kauth_cred_geteuid(l->l_cred) : -1, 763 1.11 ryo eclass_trapname(eclass), tf->tf_esr, tf->tf_pc, 764 1.31 ryo strdisasm(tf->tf_pc, tf->tf_spsr)); 765 1.11 ryo } 766 1.11 ryo #endif 767 1.11 ryo /* illegal or not implemented instruction */ 768 1.5 christos do_trapsignal(l, SIGILL, ILL_ILLTRP, (void *)tf->tf_pc, esr); 769 1.4 ryo userret(l); 770 1.4 ryo break; 771 1.4 ryo } 772 1.4 ryo } 773 1.4 ryo 774 1.4 ryo #define bad_trap_panic(trapfunc) \ 775 1.4 ryo void \ 776 1.4 ryo trapfunc(struct trapframe *tf) \ 777 1.4 ryo { \ 778 1.4 ryo panic("%s", __func__); \ 779 1.4 ryo } 780 1.4 ryo bad_trap_panic(trap_el1t_sync) 781 1.4 ryo bad_trap_panic(trap_el1t_irq) 782 1.4 ryo bad_trap_panic(trap_el1t_fiq) 783 1.4 ryo bad_trap_panic(trap_el1t_error) 784 1.4 ryo bad_trap_panic(trap_el1h_fiq) 785 1.4 ryo bad_trap_panic(trap_el1h_error) 786 1.4 ryo bad_trap_panic(trap_el0_fiq) 787 1.4 ryo bad_trap_panic(trap_el0_error) 788 1.4 ryo bad_trap_panic(trap_el0_32fiq) 789 1.4 ryo bad_trap_panic(trap_el0_32error) 790 1.2 nisimura 791 1.4 ryo void 792 1.4 ryo cpu_jump_onfault(struct trapframe *tf, const struct faultbuf *fb, int val) 793 1.4 ryo { 794 1.2 nisimura tf->tf_reg[19] = fb->fb_reg[FB_X19]; 795 1.2 nisimura tf->tf_reg[20] = fb->fb_reg[FB_X20]; 796 1.2 nisimura tf->tf_reg[21] = fb->fb_reg[FB_X21]; 797 1.2 nisimura tf->tf_reg[22] = fb->fb_reg[FB_X22]; 798 1.2 nisimura tf->tf_reg[23] = fb->fb_reg[FB_X23]; 799 1.2 nisimura tf->tf_reg[24] = fb->fb_reg[FB_X24]; 800 1.2 nisimura tf->tf_reg[25] = fb->fb_reg[FB_X25]; 801 1.2 nisimura tf->tf_reg[26] = fb->fb_reg[FB_X26]; 802 1.2 nisimura tf->tf_reg[27] = fb->fb_reg[FB_X27]; 803 1.2 nisimura tf->tf_reg[28] = fb->fb_reg[FB_X28]; 804 1.2 nisimura tf->tf_reg[29] = fb->fb_reg[FB_X29]; 805 1.2 nisimura tf->tf_sp = fb->fb_reg[FB_SP]; 806 1.4 ryo tf->tf_pc = fb->fb_reg[FB_LR]; 807 1.4 ryo tf->tf_reg[0] = val; 808 1.2 nisimura } 809 1.2 nisimura 810 1.6 christos #ifdef TRAP_SIGDEBUG 811 1.6 christos static void 812 1.6 christos frame_dump(const struct trapframe *tf) 813 1.6 christos { 814 1.6 christos const struct reg *r = &tf->tf_regs; 815 1.6 christos 816 1.6 christos printf("trapframe %p\n", tf); 817 1.6 christos for (size_t i = 0; i < __arraycount(r->r_reg); i++) { 818 1.7 christos printf(" r%.2zu %#018" PRIx64 "%c", i, r->r_reg[i], 819 1.6 christos " \n"[i && (i & 1) == 0]); 820 1.6 christos } 821 1.6 christos 822 1.6 christos printf("\n"); 823 1.6 christos printf(" sp %#018" PRIx64 " pc %#018" PRIx64 "\n", 824 1.6 christos r->r_sp, r->r_pc); 825 1.6 christos printf(" spsr %#018" PRIx64 " tpidr %#018" PRIx64 "\n", 826 1.6 christos r->r_spsr, r->r_tpidr); 827 1.6 christos printf(" esr %#018" PRIx64 " far %#018" PRIx64 "\n", 828 1.6 christos tf->tf_esr, tf->tf_far); 829 1.6 christos 830 1.6 christos printf("\n"); 831 1.6 christos hexdump(printf, "Stack dump", tf, 256); 832 1.6 christos } 833 1.6 christos 834 1.6 christos static void 835 1.6 christos sigdebug(const struct trapframe *tf, const ksiginfo_t *ksi) 836 1.6 christos { 837 1.6 christos struct lwp *l = curlwp; 838 1.6 christos struct proc *p = l->l_proc; 839 1.6 christos const uint32_t eclass = __SHIFTOUT(ksi->ksi_trap, ESR_EC); 840 1.6 christos 841 1.6 christos printf("pid %d.%d (%s): signal %d (trap %#x) " 842 1.6 christos "@pc %#" PRIx64 ", addr %p, error=%s\n", 843 1.6 christos p->p_pid, l->l_lid, p->p_comm, ksi->ksi_signo, ksi->ksi_trap, 844 1.6 christos tf->tf_regs.r_pc, ksi->ksi_addr, eclass_trapname(eclass)); 845 1.6 christos frame_dump(tf); 846 1.6 christos } 847 1.6 christos #endif 848 1.6 christos 849 1.6 christos void do_trapsignal1( 850 1.6 christos #ifdef TRAP_SIGDEBUG 851 1.6 christos const char *func, 852 1.6 christos size_t line, 853 1.6 christos struct trapframe *tf, 854 1.6 christos #endif 855 1.6 christos struct lwp *l, int signo, int code, void *addr, int trap) 856 1.6 christos { 857 1.6 christos ksiginfo_t ksi; 858 1.6 christos 859 1.6 christos KSI_INIT_TRAP(&ksi); 860 1.6 christos ksi.ksi_signo = signo; 861 1.6 christos ksi.ksi_code = code; 862 1.6 christos ksi.ksi_addr = addr; 863 1.6 christos ksi.ksi_trap = trap; 864 1.6 christos #ifdef TRAP_SIGDEBUG 865 1.6 christos printf("%s, %zu: ", func, line); 866 1.6 christos sigdebug(tf, &ksi); 867 1.6 christos #endif 868 1.6 christos (*l->l_proc->p_emul->e_trapsignal)(l, &ksi); 869 1.6 christos } 870 1.23 ad 871 1.23 ad bool 872 1.23 ad cpu_intr_p(void) 873 1.23 ad { 874 1.23 ad uint64_t ncsw; 875 1.23 ad int idepth; 876 1.23 ad lwp_t *l; 877 1.23 ad 878 1.23 ad #ifdef __HAVE_PIC_FAST_SOFTINTS 879 1.23 ad /* XXX Copied from cpu.h. Looks incomplete - needs fixing. */ 880 1.23 ad if (ci->ci_cpl < IPL_VM) 881 1.23 ad return false; 882 1.23 ad #endif 883 1.23 ad 884 1.23 ad l = curlwp; 885 1.23 ad if (__predict_false(l->l_cpu == NULL)) { 886 1.23 ad KASSERT(l == &lwp0); 887 1.23 ad return false; 888 1.23 ad } 889 1.23 ad do { 890 1.23 ad ncsw = l->l_ncsw; 891 1.23 ad __insn_barrier(); 892 1.24 skrll idepth = l->l_cpu->ci_intr_depth; 893 1.23 ad __insn_barrier(); 894 1.23 ad } while (__predict_false(ncsw != l->l_ncsw)); 895 1.23 ad 896 1.23 ad return idepth > 0; 897 1.23 ad } 898
Indexes created Wed Oct 15 03:09:54 GMT 2025