195799e36SBin Meng /* 295799e36SBin Meng * QEMU RISC-V Native Debug Support 395799e36SBin Meng * 495799e36SBin Meng * Copyright (c) 2022 Wind River Systems, Inc. 595799e36SBin Meng * 695799e36SBin Meng * Author: 795799e36SBin Meng * Bin Meng <bin.meng@windriver.com> 895799e36SBin Meng * 995799e36SBin Meng * This provides the native debug support via the Trigger Module, as defined 1095799e36SBin Meng * in the RISC-V Debug Specification: 1195799e36SBin Meng * https://github.com/riscv/riscv-debug-spec/raw/master/riscv-debug-stable.pdf 1295799e36SBin Meng * 1395799e36SBin Meng * This program is free software; you can redistribute it and/or modify it 1495799e36SBin Meng * under the terms and conditions of the GNU General Public License, 1595799e36SBin Meng * version 2 or later, as published by the Free Software Foundation. 1695799e36SBin Meng * 1795799e36SBin Meng * This program is distributed in the hope it will be useful, but WITHOUT 1895799e36SBin Meng * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 1995799e36SBin Meng * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for 2095799e36SBin Meng * more details. 2195799e36SBin Meng * 2295799e36SBin Meng * You should have received a copy of the GNU General Public License along with 2395799e36SBin Meng * this program. If not, see <http://www.gnu.org/licenses/>. 2495799e36SBin Meng */ 2595799e36SBin Meng 2695799e36SBin Meng #include "qemu/osdep.h" 2795799e36SBin Meng #include "qemu/log.h" 2895799e36SBin Meng #include "qapi/error.h" 2995799e36SBin Meng #include "cpu.h" 3095799e36SBin Meng #include "trace.h" 3195799e36SBin Meng #include "exec/exec-all.h" 3295799e36SBin Meng 3395799e36SBin Meng /* 3495799e36SBin Meng * The following M-mode trigger CSRs are implemented: 3595799e36SBin Meng * 3695799e36SBin Meng * - tselect 3795799e36SBin Meng * - tdata1 3895799e36SBin Meng * - tdata2 3995799e36SBin Meng * - tdata3 40*31b9798dSFrank Chang * - tinfo 4195799e36SBin Meng * 4295799e36SBin Meng * The following triggers are implemented: 4395799e36SBin Meng * 4495799e36SBin Meng * Index | Type | tdata mapping | Description 4595799e36SBin Meng * ------+------+------------------------+------------ 4695799e36SBin Meng * 0 | 2 | tdata1, tdata2 | Address / Data Match 4795799e36SBin Meng * 1 | 2 | tdata1, tdata2 | Address / Data Match 4895799e36SBin Meng */ 4995799e36SBin Meng 5095799e36SBin Meng /* tdata availability of a trigger */ 5195799e36SBin Meng typedef bool tdata_avail[TDATA_NUM]; 5295799e36SBin Meng 53a42bd001SFrank Chang static tdata_avail tdata_mapping[TRIGGER_TYPE_NUM] = { 54a42bd001SFrank Chang [TRIGGER_TYPE_NO_EXIST] = { false, false, false }, 55a42bd001SFrank Chang [TRIGGER_TYPE_AD_MATCH] = { true, true, true }, 56a42bd001SFrank Chang [TRIGGER_TYPE_INST_CNT] = { true, false, true }, 57a42bd001SFrank Chang [TRIGGER_TYPE_INT] = { true, true, true }, 58a42bd001SFrank Chang [TRIGGER_TYPE_EXCP] = { true, true, true }, 59a42bd001SFrank Chang [TRIGGER_TYPE_AD_MATCH6] = { true, true, true }, 60a42bd001SFrank Chang [TRIGGER_TYPE_EXT_SRC] = { true, false, false }, 61a42bd001SFrank Chang [TRIGGER_TYPE_UNAVAIL] = { true, true, true } 6295799e36SBin Meng }; 6395799e36SBin Meng 6495799e36SBin Meng /* only breakpoint size 1/2/4/8 supported */ 6595799e36SBin Meng static int access_size[SIZE_NUM] = { 6695799e36SBin Meng [SIZE_ANY] = 0, 6795799e36SBin Meng [SIZE_1B] = 1, 6895799e36SBin Meng [SIZE_2B] = 2, 6995799e36SBin Meng [SIZE_4B] = 4, 7095799e36SBin Meng [SIZE_6B] = -1, 7195799e36SBin Meng [SIZE_8B] = 8, 7295799e36SBin Meng [6 ... 15] = -1, 7395799e36SBin Meng }; 7495799e36SBin Meng 75a42bd001SFrank Chang static inline target_ulong extract_trigger_type(CPURISCVState *env, 76a42bd001SFrank Chang target_ulong tdata1) 77a42bd001SFrank Chang { 78a42bd001SFrank Chang switch (riscv_cpu_mxl(env)) { 79a42bd001SFrank Chang case MXL_RV32: 80a42bd001SFrank Chang return extract32(tdata1, 28, 4); 81a42bd001SFrank Chang case MXL_RV64: 82a42bd001SFrank Chang case MXL_RV128: 83a42bd001SFrank Chang return extract64(tdata1, 60, 4); 84a42bd001SFrank Chang default: 85a42bd001SFrank Chang g_assert_not_reached(); 86a42bd001SFrank Chang } 87a42bd001SFrank Chang } 88a42bd001SFrank Chang 89a42bd001SFrank Chang static inline target_ulong get_trigger_type(CPURISCVState *env, 90a42bd001SFrank Chang target_ulong trigger_index) 91a42bd001SFrank Chang { 929495c488SFrank Chang return extract_trigger_type(env, env->tdata1[trigger_index]); 93a42bd001SFrank Chang } 94a42bd001SFrank Chang 959d5a84dbSFrank Chang static inline target_ulong build_tdata1(CPURISCVState *env, 969d5a84dbSFrank Chang trigger_type_t type, 979d5a84dbSFrank Chang bool dmode, target_ulong data) 9895799e36SBin Meng { 9995799e36SBin Meng target_ulong tdata1; 10095799e36SBin Meng 10195799e36SBin Meng switch (riscv_cpu_mxl(env)) { 10295799e36SBin Meng case MXL_RV32: 1039d5a84dbSFrank Chang tdata1 = RV32_TYPE(type) | 1049d5a84dbSFrank Chang (dmode ? RV32_DMODE : 0) | 1059d5a84dbSFrank Chang (data & RV32_DATA_MASK); 10695799e36SBin Meng break; 10795799e36SBin Meng case MXL_RV64: 108d1d85412SFrédéric Pétrot case MXL_RV128: 1099d5a84dbSFrank Chang tdata1 = RV64_TYPE(type) | 1109d5a84dbSFrank Chang (dmode ? RV64_DMODE : 0) | 1119d5a84dbSFrank Chang (data & RV64_DATA_MASK); 11295799e36SBin Meng break; 11395799e36SBin Meng default: 11495799e36SBin Meng g_assert_not_reached(); 11595799e36SBin Meng } 11695799e36SBin Meng 11795799e36SBin Meng return tdata1; 11895799e36SBin Meng } 11995799e36SBin Meng 12095799e36SBin Meng bool tdata_available(CPURISCVState *env, int tdata_index) 12195799e36SBin Meng { 122a42bd001SFrank Chang int trigger_type = get_trigger_type(env, env->trigger_cur); 123a42bd001SFrank Chang 12495799e36SBin Meng if (unlikely(tdata_index >= TDATA_NUM)) { 12595799e36SBin Meng return false; 12695799e36SBin Meng } 12795799e36SBin Meng 128a42bd001SFrank Chang return tdata_mapping[trigger_type][tdata_index]; 12995799e36SBin Meng } 13095799e36SBin Meng 13195799e36SBin Meng target_ulong tselect_csr_read(CPURISCVState *env) 13295799e36SBin Meng { 13395799e36SBin Meng return env->trigger_cur; 13495799e36SBin Meng } 13595799e36SBin Meng 13695799e36SBin Meng void tselect_csr_write(CPURISCVState *env, target_ulong val) 13795799e36SBin Meng { 1386ea8d3fcSFrank Chang if (val < RV_MAX_TRIGGERS) { 13995799e36SBin Meng env->trigger_cur = val; 14095799e36SBin Meng } 1416ea8d3fcSFrank Chang } 14295799e36SBin Meng 14395799e36SBin Meng static target_ulong tdata1_validate(CPURISCVState *env, target_ulong val, 14495799e36SBin Meng trigger_type_t t) 14595799e36SBin Meng { 14695799e36SBin Meng uint32_t type, dmode; 14795799e36SBin Meng target_ulong tdata1; 14895799e36SBin Meng 14995799e36SBin Meng switch (riscv_cpu_mxl(env)) { 15095799e36SBin Meng case MXL_RV32: 15195799e36SBin Meng type = extract32(val, 28, 4); 15295799e36SBin Meng dmode = extract32(val, 27, 1); 15395799e36SBin Meng tdata1 = RV32_TYPE(t); 15495799e36SBin Meng break; 15595799e36SBin Meng case MXL_RV64: 156d1d85412SFrédéric Pétrot case MXL_RV128: 15795799e36SBin Meng type = extract64(val, 60, 4); 15895799e36SBin Meng dmode = extract64(val, 59, 1); 15995799e36SBin Meng tdata1 = RV64_TYPE(t); 16095799e36SBin Meng break; 16195799e36SBin Meng default: 16295799e36SBin Meng g_assert_not_reached(); 16395799e36SBin Meng } 16495799e36SBin Meng 16595799e36SBin Meng if (type != t) { 16695799e36SBin Meng qemu_log_mask(LOG_GUEST_ERROR, 16795799e36SBin Meng "ignoring type write to tdata1 register\n"); 16895799e36SBin Meng } 169a42bd001SFrank Chang 17095799e36SBin Meng if (dmode != 0) { 17195799e36SBin Meng qemu_log_mask(LOG_UNIMP, "debug mode is not supported\n"); 17295799e36SBin Meng } 17395799e36SBin Meng 17495799e36SBin Meng return tdata1; 17595799e36SBin Meng } 17695799e36SBin Meng 17795799e36SBin Meng static inline void warn_always_zero_bit(target_ulong val, target_ulong mask, 17895799e36SBin Meng const char *msg) 17995799e36SBin Meng { 18095799e36SBin Meng if (val & mask) { 18195799e36SBin Meng qemu_log_mask(LOG_UNIMP, "%s bit is always zero\n", msg); 18295799e36SBin Meng } 18395799e36SBin Meng } 18495799e36SBin Meng 1859495c488SFrank Chang /* type 2 trigger */ 1869495c488SFrank Chang 18795799e36SBin Meng static uint32_t type2_breakpoint_size(CPURISCVState *env, target_ulong ctrl) 18895799e36SBin Meng { 18995799e36SBin Meng uint32_t size, sizelo, sizehi = 0; 19095799e36SBin Meng 19195799e36SBin Meng if (riscv_cpu_mxl(env) == MXL_RV64) { 19295799e36SBin Meng sizehi = extract32(ctrl, 21, 2); 19395799e36SBin Meng } 19495799e36SBin Meng sizelo = extract32(ctrl, 16, 2); 19595799e36SBin Meng size = (sizehi << 2) | sizelo; 19695799e36SBin Meng 19795799e36SBin Meng return size; 19895799e36SBin Meng } 19995799e36SBin Meng 20095799e36SBin Meng static inline bool type2_breakpoint_enabled(target_ulong ctrl) 20195799e36SBin Meng { 20295799e36SBin Meng bool mode = !!(ctrl & (TYPE2_U | TYPE2_S | TYPE2_M)); 20395799e36SBin Meng bool rwx = !!(ctrl & (TYPE2_LOAD | TYPE2_STORE | TYPE2_EXEC)); 20495799e36SBin Meng 20595799e36SBin Meng return mode && rwx; 20695799e36SBin Meng } 20795799e36SBin Meng 20895799e36SBin Meng static target_ulong type2_mcontrol_validate(CPURISCVState *env, 20995799e36SBin Meng target_ulong ctrl) 21095799e36SBin Meng { 21195799e36SBin Meng target_ulong val; 21295799e36SBin Meng uint32_t size; 21395799e36SBin Meng 21495799e36SBin Meng /* validate the generic part first */ 21595799e36SBin Meng val = tdata1_validate(env, ctrl, TRIGGER_TYPE_AD_MATCH); 21695799e36SBin Meng 21795799e36SBin Meng /* validate unimplemented (always zero) bits */ 21895799e36SBin Meng warn_always_zero_bit(ctrl, TYPE2_MATCH, "match"); 21995799e36SBin Meng warn_always_zero_bit(ctrl, TYPE2_CHAIN, "chain"); 22095799e36SBin Meng warn_always_zero_bit(ctrl, TYPE2_ACTION, "action"); 22195799e36SBin Meng warn_always_zero_bit(ctrl, TYPE2_TIMING, "timing"); 22295799e36SBin Meng warn_always_zero_bit(ctrl, TYPE2_SELECT, "select"); 22395799e36SBin Meng warn_always_zero_bit(ctrl, TYPE2_HIT, "hit"); 22495799e36SBin Meng 22595799e36SBin Meng /* validate size encoding */ 22695799e36SBin Meng size = type2_breakpoint_size(env, ctrl); 22795799e36SBin Meng if (access_size[size] == -1) { 22895799e36SBin Meng qemu_log_mask(LOG_UNIMP, "access size %d is not supported, using SIZE_ANY\n", 22995799e36SBin Meng size); 23095799e36SBin Meng } else { 23195799e36SBin Meng val |= (ctrl & TYPE2_SIZELO); 23295799e36SBin Meng if (riscv_cpu_mxl(env) == MXL_RV64) { 23395799e36SBin Meng val |= (ctrl & TYPE2_SIZEHI); 23495799e36SBin Meng } 23595799e36SBin Meng } 23695799e36SBin Meng 23795799e36SBin Meng /* keep the mode and attribute bits */ 23895799e36SBin Meng val |= (ctrl & (TYPE2_U | TYPE2_S | TYPE2_M | 23995799e36SBin Meng TYPE2_LOAD | TYPE2_STORE | TYPE2_EXEC)); 24095799e36SBin Meng 24195799e36SBin Meng return val; 24295799e36SBin Meng } 24395799e36SBin Meng 24495799e36SBin Meng static void type2_breakpoint_insert(CPURISCVState *env, target_ulong index) 24595799e36SBin Meng { 2469495c488SFrank Chang target_ulong ctrl = env->tdata1[index]; 2479495c488SFrank Chang target_ulong addr = env->tdata2[index]; 24895799e36SBin Meng bool enabled = type2_breakpoint_enabled(ctrl); 24995799e36SBin Meng CPUState *cs = env_cpu(env); 25095799e36SBin Meng int flags = BP_CPU | BP_STOP_BEFORE_ACCESS; 25195799e36SBin Meng uint32_t size; 25295799e36SBin Meng 25395799e36SBin Meng if (!enabled) { 25495799e36SBin Meng return; 25595799e36SBin Meng } 25695799e36SBin Meng 25795799e36SBin Meng if (ctrl & TYPE2_EXEC) { 2589495c488SFrank Chang cpu_breakpoint_insert(cs, addr, flags, &env->cpu_breakpoint[index]); 25995799e36SBin Meng } 26095799e36SBin Meng 26195799e36SBin Meng if (ctrl & TYPE2_LOAD) { 26295799e36SBin Meng flags |= BP_MEM_READ; 26395799e36SBin Meng } 26495799e36SBin Meng if (ctrl & TYPE2_STORE) { 26595799e36SBin Meng flags |= BP_MEM_WRITE; 26695799e36SBin Meng } 26795799e36SBin Meng 26895799e36SBin Meng if (flags & BP_MEM_ACCESS) { 26995799e36SBin Meng size = type2_breakpoint_size(env, ctrl); 27095799e36SBin Meng if (size != 0) { 27195799e36SBin Meng cpu_watchpoint_insert(cs, addr, size, flags, 2729495c488SFrank Chang &env->cpu_watchpoint[index]); 27395799e36SBin Meng } else { 27495799e36SBin Meng cpu_watchpoint_insert(cs, addr, 8, flags, 2759495c488SFrank Chang &env->cpu_watchpoint[index]); 27695799e36SBin Meng } 27795799e36SBin Meng } 27895799e36SBin Meng } 27995799e36SBin Meng 28095799e36SBin Meng static void type2_breakpoint_remove(CPURISCVState *env, target_ulong index) 28195799e36SBin Meng { 28295799e36SBin Meng CPUState *cs = env_cpu(env); 28395799e36SBin Meng 2849495c488SFrank Chang if (env->cpu_breakpoint[index]) { 2859495c488SFrank Chang cpu_breakpoint_remove_by_ref(cs, env->cpu_breakpoint[index]); 2869495c488SFrank Chang env->cpu_breakpoint[index] = NULL; 28795799e36SBin Meng } 28895799e36SBin Meng 2899495c488SFrank Chang if (env->cpu_watchpoint[index]) { 2909495c488SFrank Chang cpu_watchpoint_remove_by_ref(cs, env->cpu_watchpoint[index]); 2919495c488SFrank Chang env->cpu_watchpoint[index] = NULL; 29295799e36SBin Meng } 29395799e36SBin Meng } 29495799e36SBin Meng 295a42bd001SFrank Chang static void type2_reg_write(CPURISCVState *env, target_ulong index, 29695799e36SBin Meng int tdata_index, target_ulong val) 29795799e36SBin Meng { 29895799e36SBin Meng target_ulong new_val; 29995799e36SBin Meng 30095799e36SBin Meng switch (tdata_index) { 30195799e36SBin Meng case TDATA1: 30295799e36SBin Meng new_val = type2_mcontrol_validate(env, val); 3039495c488SFrank Chang if (new_val != env->tdata1[index]) { 3049495c488SFrank Chang env->tdata1[index] = new_val; 30595799e36SBin Meng type2_breakpoint_remove(env, index); 30695799e36SBin Meng type2_breakpoint_insert(env, index); 30795799e36SBin Meng } 30895799e36SBin Meng break; 30995799e36SBin Meng case TDATA2: 3109495c488SFrank Chang if (val != env->tdata2[index]) { 3119495c488SFrank Chang env->tdata2[index] = val; 31295799e36SBin Meng type2_breakpoint_remove(env, index); 31395799e36SBin Meng type2_breakpoint_insert(env, index); 31495799e36SBin Meng } 31595799e36SBin Meng break; 3169495c488SFrank Chang case TDATA3: 3179495c488SFrank Chang qemu_log_mask(LOG_UNIMP, 3189495c488SFrank Chang "tdata3 is not supported for type 2 trigger\n"); 3199495c488SFrank Chang break; 32095799e36SBin Meng default: 32195799e36SBin Meng g_assert_not_reached(); 32295799e36SBin Meng } 32395799e36SBin Meng 32495799e36SBin Meng return; 32595799e36SBin Meng } 32695799e36SBin Meng 32795799e36SBin Meng target_ulong tdata_csr_read(CPURISCVState *env, int tdata_index) 32895799e36SBin Meng { 3299495c488SFrank Chang switch (tdata_index) { 3309495c488SFrank Chang case TDATA1: 3319495c488SFrank Chang return env->tdata1[env->trigger_cur]; 3329495c488SFrank Chang case TDATA2: 3339495c488SFrank Chang return env->tdata2[env->trigger_cur]; 3349495c488SFrank Chang case TDATA3: 3359495c488SFrank Chang return env->tdata3[env->trigger_cur]; 336a42bd001SFrank Chang default: 337a42bd001SFrank Chang g_assert_not_reached(); 338a42bd001SFrank Chang } 33995799e36SBin Meng } 34095799e36SBin Meng 34195799e36SBin Meng void tdata_csr_write(CPURISCVState *env, int tdata_index, target_ulong val) 34295799e36SBin Meng { 343a42bd001SFrank Chang int trigger_type; 34495799e36SBin Meng 345a42bd001SFrank Chang if (tdata_index == TDATA1) { 346a42bd001SFrank Chang trigger_type = extract_trigger_type(env, val); 347a42bd001SFrank Chang } else { 348a42bd001SFrank Chang trigger_type = get_trigger_type(env, env->trigger_cur); 349a42bd001SFrank Chang } 350a42bd001SFrank Chang 351a42bd001SFrank Chang switch (trigger_type) { 352a42bd001SFrank Chang case TRIGGER_TYPE_AD_MATCH: 353a42bd001SFrank Chang type2_reg_write(env, env->trigger_cur, tdata_index, val); 354a42bd001SFrank Chang break; 355a42bd001SFrank Chang case TRIGGER_TYPE_INST_CNT: 356a42bd001SFrank Chang case TRIGGER_TYPE_INT: 357a42bd001SFrank Chang case TRIGGER_TYPE_EXCP: 358a42bd001SFrank Chang case TRIGGER_TYPE_AD_MATCH6: 359a42bd001SFrank Chang case TRIGGER_TYPE_EXT_SRC: 360a42bd001SFrank Chang qemu_log_mask(LOG_UNIMP, "trigger type: %d is not supported\n", 361a42bd001SFrank Chang trigger_type); 362a42bd001SFrank Chang break; 363a42bd001SFrank Chang case TRIGGER_TYPE_NO_EXIST: 364a42bd001SFrank Chang case TRIGGER_TYPE_UNAVAIL: 365a42bd001SFrank Chang qemu_log_mask(LOG_GUEST_ERROR, "trigger type: %d does not exit\n", 366a42bd001SFrank Chang trigger_type); 367a42bd001SFrank Chang break; 368a42bd001SFrank Chang default: 369a42bd001SFrank Chang g_assert_not_reached(); 370a42bd001SFrank Chang } 37195799e36SBin Meng } 372b5f6379dSBin Meng 373*31b9798dSFrank Chang target_ulong tinfo_csr_read(CPURISCVState *env) 374*31b9798dSFrank Chang { 375*31b9798dSFrank Chang /* assume all triggers support the same types of triggers */ 376*31b9798dSFrank Chang return BIT(TRIGGER_TYPE_AD_MATCH); 377*31b9798dSFrank Chang } 378*31b9798dSFrank Chang 379b5f6379dSBin Meng void riscv_cpu_debug_excp_handler(CPUState *cs) 380b5f6379dSBin Meng { 381b5f6379dSBin Meng RISCVCPU *cpu = RISCV_CPU(cs); 382b5f6379dSBin Meng CPURISCVState *env = &cpu->env; 383b5f6379dSBin Meng 384b5f6379dSBin Meng if (cs->watchpoint_hit) { 385b5f6379dSBin Meng if (cs->watchpoint_hit->flags & BP_CPU) { 386b5f6379dSBin Meng cs->watchpoint_hit = NULL; 387b5f6379dSBin Meng riscv_raise_exception(env, RISCV_EXCP_BREAKPOINT, 0); 388b5f6379dSBin Meng } 389b5f6379dSBin Meng } else { 390b5f6379dSBin Meng if (cpu_breakpoint_test(cs, env->pc, BP_CPU)) { 391b5f6379dSBin Meng riscv_raise_exception(env, RISCV_EXCP_BREAKPOINT, 0); 392b5f6379dSBin Meng } 393b5f6379dSBin Meng } 394b5f6379dSBin Meng } 395b5f6379dSBin Meng 396b5f6379dSBin Meng bool riscv_cpu_debug_check_breakpoint(CPUState *cs) 397b5f6379dSBin Meng { 398b5f6379dSBin Meng RISCVCPU *cpu = RISCV_CPU(cs); 399b5f6379dSBin Meng CPURISCVState *env = &cpu->env; 400b5f6379dSBin Meng CPUBreakpoint *bp; 401b5f6379dSBin Meng target_ulong ctrl; 402b5f6379dSBin Meng target_ulong pc; 403a42bd001SFrank Chang int trigger_type; 404b5f6379dSBin Meng int i; 405b5f6379dSBin Meng 406b5f6379dSBin Meng QTAILQ_FOREACH(bp, &cs->breakpoints, entry) { 407a42bd001SFrank Chang for (i = 0; i < RV_MAX_TRIGGERS; i++) { 408a42bd001SFrank Chang trigger_type = get_trigger_type(env, i); 409a42bd001SFrank Chang 410a42bd001SFrank Chang switch (trigger_type) { 411a42bd001SFrank Chang case TRIGGER_TYPE_AD_MATCH: 4129495c488SFrank Chang ctrl = env->tdata1[i]; 4139495c488SFrank Chang pc = env->tdata2[i]; 414b5f6379dSBin Meng 415b5f6379dSBin Meng if ((ctrl & TYPE2_EXEC) && (bp->pc == pc)) { 416b5f6379dSBin Meng /* check U/S/M bit against current privilege level */ 417b5f6379dSBin Meng if ((ctrl >> 3) & BIT(env->priv)) { 418b5f6379dSBin Meng return true; 419b5f6379dSBin Meng } 420b5f6379dSBin Meng } 421a42bd001SFrank Chang break; 422a42bd001SFrank Chang default: 423a42bd001SFrank Chang /* other trigger types are not supported or irrelevant */ 424a42bd001SFrank Chang break; 425a42bd001SFrank Chang } 426b5f6379dSBin Meng } 427b5f6379dSBin Meng } 428b5f6379dSBin Meng 429b5f6379dSBin Meng return false; 430b5f6379dSBin Meng } 431b5f6379dSBin Meng 432b5f6379dSBin Meng bool riscv_cpu_debug_check_watchpoint(CPUState *cs, CPUWatchpoint *wp) 433b5f6379dSBin Meng { 434b5f6379dSBin Meng RISCVCPU *cpu = RISCV_CPU(cs); 435b5f6379dSBin Meng CPURISCVState *env = &cpu->env; 436b5f6379dSBin Meng target_ulong ctrl; 437b5f6379dSBin Meng target_ulong addr; 438a42bd001SFrank Chang int trigger_type; 439b5f6379dSBin Meng int flags; 440b5f6379dSBin Meng int i; 441b5f6379dSBin Meng 442a42bd001SFrank Chang for (i = 0; i < RV_MAX_TRIGGERS; i++) { 443a42bd001SFrank Chang trigger_type = get_trigger_type(env, i); 444a42bd001SFrank Chang 445a42bd001SFrank Chang switch (trigger_type) { 446a42bd001SFrank Chang case TRIGGER_TYPE_AD_MATCH: 4479495c488SFrank Chang ctrl = env->tdata1[i]; 4489495c488SFrank Chang addr = env->tdata2[i]; 449b5f6379dSBin Meng flags = 0; 450b5f6379dSBin Meng 451b5f6379dSBin Meng if (ctrl & TYPE2_LOAD) { 452b5f6379dSBin Meng flags |= BP_MEM_READ; 453b5f6379dSBin Meng } 454b5f6379dSBin Meng if (ctrl & TYPE2_STORE) { 455b5f6379dSBin Meng flags |= BP_MEM_WRITE; 456b5f6379dSBin Meng } 457b5f6379dSBin Meng 458b5f6379dSBin Meng if ((wp->flags & flags) && (wp->vaddr == addr)) { 459b5f6379dSBin Meng /* check U/S/M bit against current privilege level */ 460b5f6379dSBin Meng if ((ctrl >> 3) & BIT(env->priv)) { 461b5f6379dSBin Meng return true; 462b5f6379dSBin Meng } 463b5f6379dSBin Meng } 464a42bd001SFrank Chang break; 465a42bd001SFrank Chang default: 466a42bd001SFrank Chang /* other trigger types are not supported */ 467a42bd001SFrank Chang break; 468a42bd001SFrank Chang } 469b5f6379dSBin Meng } 470b5f6379dSBin Meng 471b5f6379dSBin Meng return false; 472b5f6379dSBin Meng } 473b6092544SBin Meng 474b6092544SBin Meng void riscv_trigger_init(CPURISCVState *env) 475b6092544SBin Meng { 4769d5a84dbSFrank Chang target_ulong tdata1 = build_tdata1(env, TRIGGER_TYPE_AD_MATCH, 0, 0); 477b6092544SBin Meng int i; 478b6092544SBin Meng 479a42bd001SFrank Chang /* init to type 2 triggers */ 480a42bd001SFrank Chang for (i = 0; i < RV_MAX_TRIGGERS; i++) { 481b6092544SBin Meng /* 482b6092544SBin Meng * type = TRIGGER_TYPE_AD_MATCH 483b6092544SBin Meng * dmode = 0 (both debug and M-mode can write tdata) 484b6092544SBin Meng * maskmax = 0 (unimplemented, always 0) 485b6092544SBin Meng * sizehi = 0 (match against any size, RV64 only) 486b6092544SBin Meng * hit = 0 (unimplemented, always 0) 487b6092544SBin Meng * select = 0 (always 0, perform match on address) 488b6092544SBin Meng * timing = 0 (always 0, trigger before instruction) 489b6092544SBin Meng * sizelo = 0 (match against any size) 490b6092544SBin Meng * action = 0 (always 0, raise a breakpoint exception) 491b6092544SBin Meng * chain = 0 (unimplemented, always 0) 492b6092544SBin Meng * match = 0 (always 0, when any compare value equals tdata2) 493b6092544SBin Meng */ 4949495c488SFrank Chang env->tdata1[i] = tdata1; 4959495c488SFrank Chang env->tdata2[i] = 0; 4969495c488SFrank Chang env->tdata3[i] = 0; 4979495c488SFrank Chang env->cpu_breakpoint[i] = NULL; 4989495c488SFrank Chang env->cpu_watchpoint[i] = NULL; 499b6092544SBin Meng } 500b6092544SBin Meng } 501