18ca61538SDavid Pu /* 28ca61538SDavid Pu * Copyright (c) 2020, NVIDIA Corporation. All rights reserved. 38ca61538SDavid Pu * 48ca61538SDavid Pu * SPDX-License-Identifier: BSD-3-Clause 58ca61538SDavid Pu */ 68ca61538SDavid Pu 78ca61538SDavid Pu #include <stdbool.h> 88ca61538SDavid Pu #include <stdint.h> 98ca61538SDavid Pu 108ca61538SDavid Pu #include <common/debug.h> 118ca61538SDavid Pu #include <lib/bakery_lock.h> 128ca61538SDavid Pu #include <lib/extensions/ras.h> 138ca61538SDavid Pu #include <lib/utils_def.h> 148ca61538SDavid Pu #include <services/sdei.h> 158ca61538SDavid Pu 168ca61538SDavid Pu #include <plat/common/platform.h> 178ca61538SDavid Pu #include <platform_def.h> 188ca61538SDavid Pu #include <tegra194_ras_private.h> 198ca61538SDavid Pu #include <tegra_def.h> 208ca61538SDavid Pu #include <tegra_platform.h> 218ca61538SDavid Pu #include <tegra_private.h> 228ca61538SDavid Pu 238ca61538SDavid Pu /* 248ca61538SDavid Pu * ERR<n>FR bits[63:32], it indicates supported RAS errors which can be enabled 258ca61538SDavid Pu * by setting corresponding bits in ERR<n>CTLR 268ca61538SDavid Pu */ 278ca61538SDavid Pu #define ERR_FR_EN_BITS_MASK 0xFFFFFFFF00000000ULL 288ca61538SDavid Pu 298ca61538SDavid Pu /* bakery lock for platform RAS handler. */ 308ca61538SDavid Pu static DEFINE_BAKERY_LOCK(ras_handler_lock); 318ca61538SDavid Pu #define ras_lock() bakery_lock_get(&ras_handler_lock) 328ca61538SDavid Pu #define ras_unlock() bakery_lock_release(&ras_handler_lock) 338ca61538SDavid Pu 348ca61538SDavid Pu /* 358ca61538SDavid Pu * Function to handle an External Abort received at EL3. 368ca61538SDavid Pu * This function is invoked by RAS framework. 378ca61538SDavid Pu */ 388ca61538SDavid Pu static void tegra194_ea_handler(unsigned int ea_reason, uint64_t syndrome, 398ca61538SDavid Pu void *cookie, void *handle, uint64_t flags) 408ca61538SDavid Pu { 418ca61538SDavid Pu int32_t ret; 428ca61538SDavid Pu 438ca61538SDavid Pu ras_lock(); 448ca61538SDavid Pu 458ca61538SDavid Pu ERROR("exception reason=%u syndrome=0x%llx on 0x%lx at EL3.\n", 468ca61538SDavid Pu ea_reason, syndrome, read_mpidr_el1()); 478ca61538SDavid Pu 488ca61538SDavid Pu /* Call RAS EA handler */ 498ca61538SDavid Pu ret = ras_ea_handler(ea_reason, syndrome, cookie, handle, flags); 508ca61538SDavid Pu if (ret != 0) { 518ca61538SDavid Pu ERROR("RAS error handled!\n"); 528ca61538SDavid Pu ret = sdei_dispatch_event(TEGRA_SDEI_EP_EVENT_0 + 538ca61538SDavid Pu plat_my_core_pos()); 548ca61538SDavid Pu if (ret != 0) 558ca61538SDavid Pu ERROR("sdei_dispatch_event returned %d\n", ret); 568ca61538SDavid Pu } else { 578ca61538SDavid Pu ERROR("Not a RAS error!\n"); 588ca61538SDavid Pu } 598ca61538SDavid Pu 608ca61538SDavid Pu ras_unlock(); 618ca61538SDavid Pu } 628ca61538SDavid Pu 63*0d851195SVarun Wadekar /* 64*0d851195SVarun Wadekar * Function to enable all supported RAS error report. 65*0d851195SVarun Wadekar * 66*0d851195SVarun Wadekar * Uncorrected errors are set to report as External abort (SError) 67*0d851195SVarun Wadekar * Corrected errors are set to report as interrupt. 68*0d851195SVarun Wadekar */ 698ca61538SDavid Pu void tegra194_ras_enable(void) 708ca61538SDavid Pu { 718ca61538SDavid Pu VERBOSE("%s\n", __func__); 728ca61538SDavid Pu 738ca61538SDavid Pu /* skip RAS enablement if not a silicon platform. */ 748ca61538SDavid Pu if (!tegra_platform_is_silicon()) { 758ca61538SDavid Pu return; 768ca61538SDavid Pu } 778ca61538SDavid Pu 788ca61538SDavid Pu /* 798ca61538SDavid Pu * Iterate for each group(num_idx ERRSELRs starting from idx_start) 808ca61538SDavid Pu * use normal for loop instead of for_each_err_record_info to get rid 818ca61538SDavid Pu * of MISRA noise.. 828ca61538SDavid Pu */ 838ca61538SDavid Pu for (uint32_t i = 0U; i < err_record_mappings.num_err_records; i++) { 848ca61538SDavid Pu 858ca61538SDavid Pu const struct err_record_info *info = &err_record_mappings.err_records[i]; 868ca61538SDavid Pu 878ca61538SDavid Pu uint32_t idx_start = info->sysreg.idx_start; 888ca61538SDavid Pu uint32_t num_idx = info->sysreg.num_idx; 898ca61538SDavid Pu const struct ras_aux_data *aux_data = (const struct ras_aux_data *)info->aux_data; 908ca61538SDavid Pu 918ca61538SDavid Pu assert(aux_data != NULL); 928ca61538SDavid Pu 938ca61538SDavid Pu for (uint32_t j = 0; j < num_idx; j++) { 948ca61538SDavid Pu 95*0d851195SVarun Wadekar /* ERR<n>CTLR register value. */ 96*0d851195SVarun Wadekar uint64_t err_ctrl = 0ULL; 97*0d851195SVarun Wadekar /* all supported errors for this node. */ 98*0d851195SVarun Wadekar uint64_t err_fr; 99*0d851195SVarun Wadekar /* uncorrectable errors */ 100*0d851195SVarun Wadekar uint64_t uncorr_errs; 101*0d851195SVarun Wadekar /* correctable errors */ 102*0d851195SVarun Wadekar uint64_t corr_errs; 1038ca61538SDavid Pu 1048ca61538SDavid Pu /* 1058ca61538SDavid Pu * Catch error if something wrong with the RAS aux data 1068ca61538SDavid Pu * record table. 1078ca61538SDavid Pu */ 1088ca61538SDavid Pu assert(aux_data[j].err_ctrl != NULL); 1098ca61538SDavid Pu 110*0d851195SVarun Wadekar /* 111*0d851195SVarun Wadekar * Write to ERRSELR_EL1 to select the RAS error node. 112*0d851195SVarun Wadekar * Always program this at first to select corresponding 113*0d851195SVarun Wadekar * RAS node before any other RAS register r/w. 114*0d851195SVarun Wadekar */ 1158ca61538SDavid Pu ser_sys_select_record(idx_start + j); 1168ca61538SDavid Pu 117*0d851195SVarun Wadekar err_fr = read_erxfr_el1() & ERR_FR_EN_BITS_MASK; 118*0d851195SVarun Wadekar uncorr_errs = aux_data[j].err_ctrl(); 119*0d851195SVarun Wadekar corr_errs = ~uncorr_errs & err_fr; 120*0d851195SVarun Wadekar 121*0d851195SVarun Wadekar /* enable error reporting */ 122*0d851195SVarun Wadekar ERR_CTLR_ENABLE_FIELD(err_ctrl, ED); 123*0d851195SVarun Wadekar 124*0d851195SVarun Wadekar /* enable SError reporting for uncorrectable errors */ 125*0d851195SVarun Wadekar if ((uncorr_errs & err_fr) != 0ULL) { 126*0d851195SVarun Wadekar ERR_CTLR_ENABLE_FIELD(err_ctrl, UE); 127*0d851195SVarun Wadekar } 128*0d851195SVarun Wadekar 129*0d851195SVarun Wadekar /* generate interrupt for corrected errors. */ 130*0d851195SVarun Wadekar if (corr_errs != 0ULL) { 131*0d851195SVarun Wadekar ERR_CTLR_ENABLE_FIELD(err_ctrl, CFI); 132*0d851195SVarun Wadekar } 133*0d851195SVarun Wadekar 134*0d851195SVarun Wadekar /* enable the supported errors */ 135*0d851195SVarun Wadekar err_ctrl |= err_fr; 136*0d851195SVarun Wadekar 137*0d851195SVarun Wadekar VERBOSE("errselr_el1:0x%x, erxfr:0x%llx, err_ctrl:0x%llx\n", 138*0d851195SVarun Wadekar idx_start + j, err_fr, err_ctrl); 139*0d851195SVarun Wadekar 140*0d851195SVarun Wadekar /* enable specified errors, or set to 0 if no supported error */ 1418ca61538SDavid Pu write_erxctlr_el1(err_ctrl); 1428ca61538SDavid Pu 1438ca61538SDavid Pu /* 1448ca61538SDavid Pu * Check if all the bit settings have been enabled to detect 1458ca61538SDavid Pu * uncorrected/corrected errors, if not assert. 1468ca61538SDavid Pu */ 1478ca61538SDavid Pu assert(read_erxctlr_el1() == err_ctrl); 1488ca61538SDavid Pu } 1498ca61538SDavid Pu } 1508ca61538SDavid Pu } 1518ca61538SDavid Pu 152*0d851195SVarun Wadekar /* 153*0d851195SVarun Wadekar * Function to clear RAS ERR<n>STATUS for corrected RAS error. 154*0d851195SVarun Wadekar * This function ignores any new RAS error signaled during clearing; it is not 155*0d851195SVarun Wadekar * multi-core safe(no ras_lock is taken to reduce overhead). 156*0d851195SVarun Wadekar */ 157*0d851195SVarun Wadekar void tegra194_ras_corrected_err_clear(void) 158*0d851195SVarun Wadekar { 159*0d851195SVarun Wadekar uint64_t clear_ce_status = 0ULL; 160*0d851195SVarun Wadekar 161*0d851195SVarun Wadekar ERR_STATUS_SET_FIELD(clear_ce_status, AV, 0x1UL); 162*0d851195SVarun Wadekar ERR_STATUS_SET_FIELD(clear_ce_status, V, 0x1UL); 163*0d851195SVarun Wadekar ERR_STATUS_SET_FIELD(clear_ce_status, OF, 0x1UL); 164*0d851195SVarun Wadekar ERR_STATUS_SET_FIELD(clear_ce_status, MV, 0x1UL); 165*0d851195SVarun Wadekar ERR_STATUS_SET_FIELD(clear_ce_status, CE, 0x3UL); 166*0d851195SVarun Wadekar 167*0d851195SVarun Wadekar for (uint32_t i = 0U; i < err_record_mappings.num_err_records; i++) { 168*0d851195SVarun Wadekar 169*0d851195SVarun Wadekar const struct err_record_info *info = &err_record_mappings.err_records[i]; 170*0d851195SVarun Wadekar uint32_t idx_start = info->sysreg.idx_start; 171*0d851195SVarun Wadekar uint32_t num_idx = info->sysreg.num_idx; 172*0d851195SVarun Wadekar 173*0d851195SVarun Wadekar for (uint32_t j = 0U; j < num_idx; j++) { 174*0d851195SVarun Wadekar 175*0d851195SVarun Wadekar uint64_t status; 176*0d851195SVarun Wadekar uint32_t err_idx = idx_start + j; 177*0d851195SVarun Wadekar 178*0d851195SVarun Wadekar write_errselr_el1(err_idx); 179*0d851195SVarun Wadekar status = read_erxstatus_el1(); 180*0d851195SVarun Wadekar 181*0d851195SVarun Wadekar if (ERR_STATUS_GET_FIELD(status, CE) != 0U) { 182*0d851195SVarun Wadekar write_erxstatus_el1(clear_ce_status); 183*0d851195SVarun Wadekar } 184*0d851195SVarun Wadekar } 185*0d851195SVarun Wadekar } 186*0d851195SVarun Wadekar } 187*0d851195SVarun Wadekar 1888ca61538SDavid Pu /* Function to probe an error from error record group. */ 1898ca61538SDavid Pu static int32_t tegra194_ras_record_probe(const struct err_record_info *info, 1908ca61538SDavid Pu int *probe_data) 1918ca61538SDavid Pu { 1928ca61538SDavid Pu /* Skip probing if not a silicon platform */ 1938ca61538SDavid Pu if (!tegra_platform_is_silicon()) { 1948ca61538SDavid Pu return 0; 1958ca61538SDavid Pu } 1968ca61538SDavid Pu 1978ca61538SDavid Pu return ser_probe_sysreg(info->sysreg.idx_start, info->sysreg.num_idx, probe_data); 1988ca61538SDavid Pu } 1998ca61538SDavid Pu 2008ca61538SDavid Pu /* Function to handle error from one given node */ 201*0d851195SVarun Wadekar static int32_t tegra194_ras_node_handler(uint32_t errselr, 202*0d851195SVarun Wadekar const struct ras_error *errors, uint64_t status) 2038ca61538SDavid Pu { 2048ca61538SDavid Pu bool found = false; 2058ca61538SDavid Pu uint32_t ierr = (uint32_t)ERR_STATUS_GET_FIELD(status, IERR); 2068ca61538SDavid Pu uint32_t serr = (uint32_t)ERR_STATUS_GET_FIELD(status, SERR); 2078ca61538SDavid Pu 208*0d851195SVarun Wadekar /* not a valid error. */ 209*0d851195SVarun Wadekar if (ERR_STATUS_GET_FIELD(status, V) == 0U) { 210*0d851195SVarun Wadekar return 0; 211*0d851195SVarun Wadekar } 212*0d851195SVarun Wadekar 213*0d851195SVarun Wadekar /* Print uncorrectable errror information. */ 214*0d851195SVarun Wadekar if (ERR_STATUS_GET_FIELD(status, UE) != 0U) { 215*0d851195SVarun Wadekar 2168ca61538SDavid Pu /* IERR to error message */ 2178ca61538SDavid Pu for (uint32_t i = 0; errors[i].error_msg != NULL; i++) { 2188ca61538SDavid Pu if (ierr == errors[i].error_code) { 219*0d851195SVarun Wadekar ERROR("ERRSELR_EL1:0x%x\n, IERR = %s(0x%x)\n", 220*0d851195SVarun Wadekar errselr, errors[i].error_msg, 221*0d851195SVarun Wadekar errors[i].error_code); 2228ca61538SDavid Pu found = true; 2238ca61538SDavid Pu break; 2248ca61538SDavid Pu } 2258ca61538SDavid Pu } 226*0d851195SVarun Wadekar 2278ca61538SDavid Pu if (!found) { 228*0d851195SVarun Wadekar ERROR("unknown uncorrectable eror, " 229*0d851195SVarun Wadekar "ERRSELR_EL1:0x%x, IERR: 0x%x\n", errselr, ierr); 2308ca61538SDavid Pu } 2318ca61538SDavid Pu 2328ca61538SDavid Pu ERROR("SERR = %s(0x%x)\n", ras_serr_to_str(serr), serr); 233*0d851195SVarun Wadekar } else { 234*0d851195SVarun Wadekar /* For corrected error, simply clear it. */ 235*0d851195SVarun Wadekar VERBOSE("corrected RAS error is cleared: ERRSELR_EL1:0x%x, " 236*0d851195SVarun Wadekar "IERR:0x%x, SERR:0x%x\n", errselr, ierr, serr); 237*0d851195SVarun Wadekar } 2388ca61538SDavid Pu 2398ca61538SDavid Pu /* Write to clear reported errors. */ 2408ca61538SDavid Pu write_erxstatus_el1(status); 2418ca61538SDavid Pu 2428ca61538SDavid Pu return 0; 2438ca61538SDavid Pu } 2448ca61538SDavid Pu 2458ca61538SDavid Pu /* Function to handle one error node from an error record group. */ 2468ca61538SDavid Pu static int32_t tegra194_ras_record_handler(const struct err_record_info *info, 247*0d851195SVarun Wadekar int probe_data, const struct err_handler_data *const data __unused) 2488ca61538SDavid Pu { 2498ca61538SDavid Pu uint32_t num_idx = info->sysreg.num_idx; 2508ca61538SDavid Pu uint32_t idx_start = info->sysreg.idx_start; 2518ca61538SDavid Pu const struct ras_aux_data *aux_data = info->aux_data; 252*0d851195SVarun Wadekar const struct ras_error *errors; 253*0d851195SVarun Wadekar uint32_t offset; 2548ca61538SDavid Pu 2558ca61538SDavid Pu uint64_t status = 0ULL; 2568ca61538SDavid Pu 2578ca61538SDavid Pu VERBOSE("%s\n", __func__); 2588ca61538SDavid Pu 2598ca61538SDavid Pu assert(probe_data >= 0); 2608ca61538SDavid Pu assert((uint32_t)probe_data < num_idx); 2618ca61538SDavid Pu 262*0d851195SVarun Wadekar offset = (uint32_t)probe_data; 263*0d851195SVarun Wadekar errors = aux_data[offset].error_records; 2648ca61538SDavid Pu 2658ca61538SDavid Pu assert(errors != NULL); 2668ca61538SDavid Pu 2678ca61538SDavid Pu /* Write to ERRSELR_EL1 to select the error record */ 2688ca61538SDavid Pu ser_sys_select_record(idx_start + offset); 2698ca61538SDavid Pu 2708ca61538SDavid Pu /* Retrieve status register from the error record */ 2718ca61538SDavid Pu status = read_erxstatus_el1(); 2728ca61538SDavid Pu 273*0d851195SVarun Wadekar return tegra194_ras_node_handler(idx_start + offset, errors, status); 2748ca61538SDavid Pu } 2758ca61538SDavid Pu 2768ca61538SDavid Pu 2778ca61538SDavid Pu /* Instantiate RAS nodes */ 2788ca61538SDavid Pu PER_CORE_RAS_NODE_LIST(DEFINE_ONE_RAS_NODE) 2798ca61538SDavid Pu PER_CLUSTER_RAS_NODE_LIST(DEFINE_ONE_RAS_NODE) 2808ca61538SDavid Pu SCF_L3_BANK_RAS_NODE_LIST(DEFINE_ONE_RAS_NODE) 2818ca61538SDavid Pu CCPLEX_RAS_NODE_LIST(DEFINE_ONE_RAS_NODE) 2828ca61538SDavid Pu 2838ca61538SDavid Pu /* Instantiate RAS node groups */ 2848ca61538SDavid Pu static struct ras_aux_data per_core_ras_group[] = { 2858ca61538SDavid Pu PER_CORE_RAS_GROUP_NODES 2868ca61538SDavid Pu }; 2878ca61538SDavid Pu 2888ca61538SDavid Pu static struct ras_aux_data per_cluster_ras_group[] = { 2898ca61538SDavid Pu PER_CLUSTER_RAS_GROUP_NODES 2908ca61538SDavid Pu }; 2918ca61538SDavid Pu 2928ca61538SDavid Pu static struct ras_aux_data scf_l3_ras_group[] = { 2938ca61538SDavid Pu SCF_L3_BANK_RAS_GROUP_NODES 2948ca61538SDavid Pu }; 2958ca61538SDavid Pu 2968ca61538SDavid Pu static struct ras_aux_data ccplex_ras_group[] = { 2978ca61538SDavid Pu CCPLEX_RAS_GROUP_NODES 2988ca61538SDavid Pu }; 2998ca61538SDavid Pu 3008ca61538SDavid Pu /* 3018ca61538SDavid Pu * We have same probe and handler for each error record group, use a macro to 3028ca61538SDavid Pu * simply the record definition. 3038ca61538SDavid Pu */ 3048ca61538SDavid Pu #define ADD_ONE_ERR_GROUP(errselr_start, group) \ 3058ca61538SDavid Pu ERR_RECORD_SYSREG_V1((errselr_start), (uint32_t)ARRAY_SIZE((group)), \ 3068ca61538SDavid Pu &tegra194_ras_record_probe, \ 3078ca61538SDavid Pu &tegra194_ras_record_handler, (group)) 3088ca61538SDavid Pu 3098ca61538SDavid Pu /* RAS error record group information */ 3108ca61538SDavid Pu static struct err_record_info carmel_ras_records[] = { 3118ca61538SDavid Pu /* 3128ca61538SDavid Pu * Per core ras error records 3138ca61538SDavid Pu * ERRSELR starts from 0*256 + Logical_CPU_ID*16 + 0 to 3148ca61538SDavid Pu * 0*256 + Logical_CPU_ID*16 + 5 for each group. 3158ca61538SDavid Pu * 8 cores/groups, 6 * 8 nodes in total. 3168ca61538SDavid Pu */ 3178ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x000, per_core_ras_group), 3188ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x010, per_core_ras_group), 3198ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x020, per_core_ras_group), 3208ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x030, per_core_ras_group), 3218ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x040, per_core_ras_group), 3228ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x050, per_core_ras_group), 3238ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x060, per_core_ras_group), 3248ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x070, per_core_ras_group), 3258ca61538SDavid Pu 3268ca61538SDavid Pu /* 3278ca61538SDavid Pu * Per cluster ras error records 3288ca61538SDavid Pu * ERRSELR starts from 2*256 + Logical_Cluster_ID*16 + 0 to 3298ca61538SDavid Pu * 2*256 + Logical_Cluster_ID*16 + 3. 3308ca61538SDavid Pu * 4 clusters/groups, 3 * 4 nodes in total. 3318ca61538SDavid Pu */ 3328ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x200, per_cluster_ras_group), 3338ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x210, per_cluster_ras_group), 3348ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x220, per_cluster_ras_group), 3358ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x230, per_cluster_ras_group), 3368ca61538SDavid Pu 3378ca61538SDavid Pu /* 3388ca61538SDavid Pu * SCF L3_Bank ras error records 3398ca61538SDavid Pu * ERRSELR: 3*256 + L3_Bank_ID, L3_Bank_ID: 0-3 3408ca61538SDavid Pu * 1 groups, 4 nodes in total. 3418ca61538SDavid Pu */ 3428ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x300, scf_l3_ras_group), 3438ca61538SDavid Pu 3448ca61538SDavid Pu /* 3458ca61538SDavid Pu * CCPLEX ras error records 3468ca61538SDavid Pu * ERRSELR: 4*256 + Unit_ID, Unit_ID: 0 - 4 3478ca61538SDavid Pu * 1 groups, 5 nodes in total. 3488ca61538SDavid Pu */ 3498ca61538SDavid Pu ADD_ONE_ERR_GROUP(0x400, ccplex_ras_group), 3508ca61538SDavid Pu }; 3518ca61538SDavid Pu 3528ca61538SDavid Pu REGISTER_ERR_RECORD_INFO(carmel_ras_records); 3538ca61538SDavid Pu 3548ca61538SDavid Pu /* dummy RAS interrupt */ 3558ca61538SDavid Pu static struct ras_interrupt carmel_ras_interrupts[] = {}; 3568ca61538SDavid Pu REGISTER_RAS_INTERRUPTS(carmel_ras_interrupts); 3578ca61538SDavid Pu 3588ca61538SDavid Pu /******************************************************************************* 3598ca61538SDavid Pu * RAS handler for the platform 3608ca61538SDavid Pu ******************************************************************************/ 3618ca61538SDavid Pu void plat_ea_handler(unsigned int ea_reason, uint64_t syndrome, void *cookie, 3628ca61538SDavid Pu void *handle, uint64_t flags) 3638ca61538SDavid Pu { 3648ca61538SDavid Pu #if RAS_EXTENSION 3658ca61538SDavid Pu tegra194_ea_handler(ea_reason, syndrome, cookie, handle, flags); 3668ca61538SDavid Pu #else 3678ca61538SDavid Pu ERROR("Unhandled External Abort received on 0x%llx at EL3!\n", 3688ca61538SDavid Pu read_mpidr_el1()); 3698ca61538SDavid Pu ERROR(" exception reason=%u syndrome=0x%lx\n", ea_reason, syndrome); 3708ca61538SDavid Pu panic(); 3718ca61538SDavid Pu #endif 3728ca61538SDavid Pu } 373