/* * SPDX-FileCopyrightText: 2015-2023 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include "sdkconfig.h" #include "freertos/FreeRTOS.h" #include "freertos/task.h" #include "esp_private/freertos_debug.h" #include "esp_err.h" #include "esp_attr.h" #include "esp_check.h" #include "esp_log.h" #include "esp_debug_helpers.h" #include "esp_freertos_hooks.h" #include "esp_task_wdt.h" #include "esp_private/system_internal.h" #include "esp_private/crosscore_int.h" #include "esp_private/esp_task_wdt.h" #include "esp_private/esp_task_wdt_impl.h" #if CONFIG_IDF_TARGET_ARCH_RISCV #include "riscv/rvruntime-frames.h" #endif //CONFIG_IDF_TARGET_ARCH_RISCV #if CONFIG_ESP_SYSTEM_USE_EH_FRAME #include "esp_private/eh_frame_parser.h" #endif // CONFIG_ESP_SYSTEM_USE_EH_FRAME #if CONFIG_IDF_TARGET_ARCH_RISCV && !CONFIG_ESP_SYSTEM_USE_EH_FRAME /* Function used to print all the registers pointed by the given frame .*/ extern void panic_print_registers(const void *frame, int core); #endif // CONFIG_IDF_TARGET_ARCH_RISCV && !CONFIG_ESP_SYSTEM_USE_EH_FRAME /* We will use this function in order to simulate an `abort()` occurring in * a different context than the one it's called from. */ extern void xt_unhandled_exception(void *frame); /* Forward declaration of the idle hook callback */ static bool idle_hook_cb(void); /* Global flag set to make the `panic` mechanism think a real `abort()` was * called. This is used in the ISR handler, in case we have to panic when * a task doesn't feed its timer. */ extern bool g_panic_abort; /* Global flag marking whether the current ISR is a Task Watchdog ISR. */ bool g_twdt_isr = false; // --------------------------------------------------- Definitions ----------------------------------------------------- // ---------------------- Typedefs ------------------------- /** * @brief Structure used for each subscribed task */ typedef struct twdt_entry twdt_entry_t; struct twdt_entry { SLIST_ENTRY(twdt_entry) slist_entry; TaskHandle_t task_handle; // NULL if user entry const char *user_name; // NULL if task entry bool has_reset; }; // Structure used to hold run time configuration of the TWDT typedef struct twdt_obj twdt_obj_t; struct twdt_obj { twdt_ctx_t impl_ctx; SLIST_HEAD(entry_list_head, twdt_entry) entries_slist; uint32_t idle_core_mask; // Current core's who's idle tasks are subscribed bool panic; // Flag to trigger panic when TWDT times out bool waiting_for_task; // Flag to start the timer as soon as a task is added }; // ----------------------- Objects ------------------------- static const char *TAG = "task_wdt"; static portMUX_TYPE spinlock = portMUX_INITIALIZER_UNLOCKED; static twdt_obj_t *p_twdt_obj = NULL; #if CONFIG_FREERTOS_SMP #define CORE_USER_NAME_LEN 8 // Long enough for "CPU XXX" static esp_task_wdt_user_handle_t core_user_handles[portNUM_PROCESSORS] = {NULL}; static char core_user_names[portNUM_PROCESSORS][CORE_USER_NAME_LEN]; #endif // ----------------------------------------------------- Private ------------------------------------------------------- // ----------------------- Helpers ------------------------- /** * @brief Reset the timer and reset flags of each entry * When entering this function, the spinlock has already been taken, no need to take it back. */ static void task_wdt_timer_feed(void) { esp_task_wdt_impl_timer_feed(p_twdt_obj->impl_ctx); /* Clear the has_reset flag in each entry */ twdt_entry_t *entry; SLIST_FOREACH(entry, &p_twdt_obj->entries_slist, slist_entry) { entry->has_reset = false; } } /** * @brief Checks whether a user entry exists and if all other entries have been reset * * @param[in] user_entry User entry * @param[out] all_reset Whether all entries have been reset * @return Whether the user entry exists */ static bool find_entry_and_check_all_reset(twdt_entry_t *user_entry, bool *all_reset) { bool found_user_entry = false; bool found_non_reset = false; twdt_entry_t *entry; SLIST_FOREACH(entry, &p_twdt_obj->entries_slist, slist_entry) { if (entry == user_entry) { found_user_entry = true; } else if (entry->has_reset == false) { found_non_reset = true; } } *all_reset = !found_non_reset; return found_user_entry; } /** * @brief Find whether a task entry exists, and checks if all other entries have been reset * * @param[in] handle Task handle * @param[out] all_reset Whether all entries have been reset * @return Task entry, or NULL if not found */ static twdt_entry_t *find_entry_from_task_handle_and_check_all_reset(TaskHandle_t handle, bool *all_reset) { twdt_entry_t *target = NULL; bool found_non_reset = false; twdt_entry_t *entry; SLIST_FOREACH(entry, &p_twdt_obj->entries_slist, slist_entry) { if (entry->task_handle == handle) { target = entry; } else if (entry->has_reset == false) { found_non_reset = true; } } *all_reset = !found_non_reset; return target; } /** * @brief Create a task/user entry and add it to the task WDT * * @param[in] is_task Whether the entry is a task entry or user entry * @param[in] entry_data Data associated with the entry (either a task handle or user entry name) * @param[out] entry_ret Pointer to created entry * @return ESP_OK if entry was added, failure otherwise */ static esp_err_t add_entry(bool is_task, void *entry_data, twdt_entry_t **entry_ret) { esp_err_t ret; // Allocate entry object twdt_entry_t *entry = calloc(1, sizeof(twdt_entry_t)); if (entry == NULL) { return ESP_ERR_NO_MEM; } if (is_task) { entry->task_handle = (TaskHandle_t)entry_data; } else { entry->user_name = (const char *)entry_data; } portENTER_CRITICAL(&spinlock); // Check TWDT state ESP_GOTO_ON_FALSE_ISR((p_twdt_obj != NULL), ESP_ERR_INVALID_STATE, state_err, TAG, "task watchdog was never initialized"); // Check if the task is an entry, and if all entries have been reset bool all_reset; if (is_task) { twdt_entry_t *entry_found = find_entry_from_task_handle_and_check_all_reset(entry->task_handle, &all_reset); ESP_GOTO_ON_FALSE_ISR((entry_found == NULL), ESP_ERR_INVALID_ARG, state_err, TAG, "task is already subscribed"); } else { bool entry_found = find_entry_and_check_all_reset(entry, &all_reset); ESP_GOTO_ON_FALSE_ISR(!entry_found, ESP_ERR_INVALID_ARG, state_err, TAG, "user is already subscribed"); } // Add entry to list SLIST_INSERT_HEAD(&p_twdt_obj->entries_slist, entry, slist_entry); // Start the timer if it has not been started yet and was waiting on a task to registered if (p_twdt_obj->waiting_for_task) { esp_task_wdt_impl_timer_restart(p_twdt_obj->impl_ctx); p_twdt_obj->waiting_for_task = false; } if (all_reset) { //Reset hardware timer if all other tasks in list have reset in task_wdt_timer_feed(); } portEXIT_CRITICAL(&spinlock); *entry_ret = entry; return ESP_OK; state_err: portEXIT_CRITICAL(&spinlock); free(entry); return ret; } /** * @brief Delete a task/user entry * * @param[in] is_task Whether the entry is a task entry or user entry * @param[in] entry_data Data associated with the entry (either a task handle or user entry name) * @return ESP_OK if entry was deleted, failure otherwise */ static esp_err_t delete_entry(bool is_task, void *entry_data) { esp_err_t ret; portENTER_CRITICAL(&spinlock); // Check TWDT state ESP_GOTO_ON_FALSE_ISR((p_twdt_obj != NULL), ESP_ERR_INVALID_STATE, err, TAG, "task watchdog was never initialized"); // Find entry for task bool all_reset; twdt_entry_t *entry; if (is_task) { entry = find_entry_from_task_handle_and_check_all_reset((TaskHandle_t)entry_data, &all_reset); ESP_GOTO_ON_FALSE_ISR((entry != NULL), ESP_ERR_NOT_FOUND, err, TAG, "task not found"); } else { entry = (twdt_entry_t *)entry_data; bool entry_found = find_entry_and_check_all_reset(entry, &all_reset); ESP_GOTO_ON_FALSE_ISR(entry_found, ESP_ERR_NOT_FOUND, err, TAG, "user not found"); } // Remove entry SLIST_REMOVE(&p_twdt_obj->entries_slist, entry, twdt_entry, slist_entry); /* Stop the timer if we don't have any more tasks/objects to watch */ if (SLIST_EMPTY(&p_twdt_obj->entries_slist)) { p_twdt_obj->waiting_for_task = true; esp_task_wdt_impl_timer_stop(p_twdt_obj->impl_ctx); } else { p_twdt_obj->waiting_for_task = false; } /* Reset hardware timer if all remaining tasks have reset and if the list of tasks is not empty */ if (!p_twdt_obj->waiting_for_task && all_reset) { task_wdt_timer_feed(); } portEXIT_CRITICAL(&spinlock); free(entry); return ESP_OK; err: portEXIT_CRITICAL(&spinlock); return ret; } /** * @brief Unsubscribe the idle tasks of one or more cores * * @param core_mask */ static void unsubscribe_idle(uint32_t core_mask) { int core_num = 0; while (core_mask != 0) { if (core_mask & 0x1) { #if CONFIG_FREERTOS_SMP assert(core_user_handles[core_num]); esp_deregister_freertos_idle_hook_for_cpu(idle_hook_cb, core_num); ESP_ERROR_CHECK(esp_task_wdt_delete_user(core_user_handles[core_num])); core_user_handles[core_num] = NULL; #else // CONFIG_FREERTOS_SMP TaskHandle_t idle_task_handle = xTaskGetIdleTaskHandleForCore(core_num); assert(idle_task_handle); esp_deregister_freertos_idle_hook_for_cpu(idle_hook_cb, core_num); ESP_ERROR_CHECK(esp_task_wdt_delete(idle_task_handle)); #endif // CONFIG_FREERTOS_SMP } core_mask >>= 1; core_num++; } } /** * @brief Subscribes the idle tasks of one or more cores * * @param core_mask Bit mask of cores to subscribe */ static void subscribe_idle(uint32_t core_mask) { int core_num = 0; while (core_mask != 0) { if (core_mask & 0x1) { #if CONFIG_FREERTOS_SMP snprintf(core_user_names[core_num], CORE_USER_NAME_LEN, "CPU %d", (uint8_t)core_num); ESP_ERROR_CHECK(esp_task_wdt_add_user((const char *)core_user_names[core_num], &core_user_handles[core_num])); ESP_ERROR_CHECK(esp_register_freertos_idle_hook_for_cpu(idle_hook_cb, core_num)); #else // CONFIG_FREERTOS_SMP TaskHandle_t idle_task_handle = xTaskGetIdleTaskHandleForCore(core_num); assert(idle_task_handle); ESP_ERROR_CHECK(esp_task_wdt_add(idle_task_handle)); ESP_ERROR_CHECK(esp_register_freertos_idle_hook_for_cpu(idle_hook_cb, core_num)); #endif // CONFIG_FREERTOS_SMP } core_mask >>= 1; core_num++; } } /** * The behavior of the Task Watchdog depends on the configuration from the `menuconfig`. * It can be summarized as follow, regardless of the target: * +------------------------+--------------------------------+--------------------------+ * | \ Panic configuration | | | * | +------------------+ | Panic Enabled | Panic Disabled | * | TWDT triggered on \ | | | * +------------------------+--------------------------------+--------------------------+ * | | - Current core backtrace | - Current core backtrace | * | Both Cores | - Crosscore TWDT abort | - Crosscore backtrace | * | | - Wait for other core to abort | | * +------------------------+--------------------------------+--------------------------+ * | Other Core | - Crosscore TWDT abort | - Crosscore backtrace | * +------------------------+--------------------------------+--------------------------+ * | Current Core | - Abort from current CPU | - Current core backtrace | * +------------------------+--------------------------------+--------------------------+ * */ static UBaseType_t get_task_affinity(const TaskHandle_t xTask) { if (xTask == NULL) { /* User entry, we cannot predict on which core it is scheduled to run, * so let's mark all cores as failing */ #if configNUM_CORES > 1 return BIT(1) | BIT(0); #else return BIT(0); #endif } #if CONFIG_FREERTOS_SMP #if configNUM_CORES > 1 return vTaskCoreAffinityGet(xTask); #else return BIT(0); #endif #else BaseType_t task_affinity = xTaskGetCoreID(xTask); if (task_affinity == 0 || task_affinity == 1) { return BIT(task_affinity); } return BIT(1) | BIT(0); #endif } /** * Function simulating an abort coming from the interrupted task of the current * core. * It is called either by the function right below or by a crosscore interrupt, * in the case where the other core (than the main one) has to abort because one * of his tasks didn't reset the TWDT on time. */ void task_wdt_timeout_abort(bool current_core) { TaskSnapshot_t snapshot = { 0 }; BaseType_t ret = pdTRUE; ESP_EARLY_LOGE(TAG, "Aborting."); esp_reset_reason_set_hint(ESP_RST_TASK_WDT); ret = vTaskGetSnapshot(xTaskGetCurrentTaskHandle(), &snapshot); assert(ret == pdTRUE); g_panic_abort = true; /* We should set this flag as late as possible, as this function may * be called after a crosscore interrupt. Indeed, a higher interrupt may occur * after calling the crosscore interrupt, if its handler fails, this flag * shall not be set. * This flag will tell the coredump component (if activated) that yes, we are in * an ISR context, but it is intended, it is not because an ISR encountered an * exception. If we don't set such flag, later tested by coredump, the latter would * switch the execution frame/context we are giving it to the interrupt stack. * For details about this behavior in the TODO task: IDF-5694 */ g_twdt_isr = true; void *frame = (void *) snapshot.pxTopOfStack; #if CONFIG_ESP_SYSTEM_USE_EH_FRAME | CONFIG_IDF_TARGET_ARCH_XTENSA if (current_core) { ESP_EARLY_LOGE(TAG, "Print CPU %d (current core) backtrace", xPortGetCoreID()); } else { ESP_EARLY_LOGE(TAG, "Print CPU %d backtrace", xPortGetCoreID()); } #endif xt_unhandled_exception(frame); } static void task_wdt_timeout_handling(int cores_fail, bool panic) { const int current_core = xPortGetCoreID(); if (panic) { #if !CONFIG_ESP_SYSTEM_SINGLE_CORE_MODE const int other_core = !current_core; if ((cores_fail & BIT(0)) && (cores_fail & BIT(1))) { /* In the case where both CPUs have failing tasks, print the current CPU backtrace and then let the * other core fail. */ ESP_EARLY_LOGE(TAG, "Print CPU %d (current core) backtrace", current_core); esp_backtrace_print(100); /* TODO: the interrupt we send should have the highest priority */ esp_crosscore_int_send_twdt_abort(other_core); /* We are going to abort, on the other core, we have nothing to * do anymore here, just wait until we crash */ while (1) {} } else if (cores_fail & BIT(other_core)) { /* If only the other core is failing, we can tell it to abort. */ esp_crosscore_int_send_twdt_abort(other_core); while (1) {} } #endif // !CONFIG_ESP_SYSTEM_SINGLE_CORE_MODE /* Current core is failing, abort right now */ task_wdt_timeout_abort(true); } else { /* Print backtrace of the core that failed to reset the watchdog */ if (cores_fail & BIT(current_core)) { ESP_EARLY_LOGE(TAG, "Print CPU %d (current core) backtrace", current_core); esp_backtrace_print(100); } #if !CONFIG_ESP_SYSTEM_SINGLE_CORE_MODE const int other_core = !current_core; if (cores_fail & BIT(other_core)) { ESP_EARLY_LOGE(TAG, "Print CPU %d backtrace", other_core); esp_crosscore_int_send_print_backtrace(other_core); } #endif // !CONFIG_ESP_SYSTEM_SINGLE_CORE_MODE } } // ---------------------- Callbacks ------------------------ /** * @brief Idle hook callback * * Idle hook callback called by the idle tasks to feed the TWDT * * @return Whether the idle tasks should continue idling */ static bool idle_hook_cb(void) { #if CONFIG_FREERTOS_SMP esp_task_wdt_reset_user(core_user_handles[xPortGetCoreID()]); #else // CONFIG_FREERTOS_SMP esp_task_wdt_reset(); #endif // CONFIG_FREERTOS_SMP return true; } /** * @brief TWDT timeout ISR function * * The ISR checks which entries have not been reset, prints some debugging information, and triggers a panic if * configured to do so. * * @param arg ISR argument */ static void task_wdt_isr(void *arg) { portENTER_CRITICAL_ISR(&spinlock); esp_task_wdt_impl_timeout_triggered(p_twdt_obj->impl_ctx); /* Keep a bitmap of CPU cores having tasks that have not reset TWDT. * Bit 0 represents core 0, bit 1 represents core 1, and so on. */ int cpus_fail = 0; bool panic = p_twdt_obj->panic; if (esp_task_wdt_print_triggered_tasks(NULL, NULL, &cpus_fail) != ESP_OK) { // If there are no entries, there's nothing to do. portEXIT_CRITICAL_ISR(&spinlock); return; } ESP_EARLY_LOGE(TAG, "%s", DRAM_STR("Tasks currently running:")); for (int x = 0; x < portNUM_PROCESSORS; x++) { ESP_EARLY_LOGE(TAG, "CPU %d: %s", x, pcTaskGetName(xTaskGetCurrentTaskHandleForCore(x))); } portEXIT_CRITICAL_ISR(&spinlock); /* Run user ISR handler. * This function has been declared as weak, thus, it may be possible that it was not defines. * to check this, we can directly test its address. In any case, the linker will get rid of * this `if` when linking, this means that if the function was not defined, the whole `if` * block will be discarded (zero runtime overhead), else only the function call will be kept. */ if (esp_task_wdt_isr_user_handler != NULL) { esp_task_wdt_isr_user_handler(); } // Trigger configured timeout behavior (e.g., panic or print backtrace) assert(cpus_fail != 0); task_wdt_timeout_handling(cpus_fail, panic); } // ----------------------------------------------------- Public -------------------------------------------------------- esp_err_t esp_task_wdt_init(const esp_task_wdt_config_t *config) { ESP_RETURN_ON_FALSE((config != NULL && config->idle_core_mask < (1 << portNUM_PROCESSORS)), ESP_ERR_INVALID_ARG, TAG, "Invalid arguments"); ESP_RETURN_ON_FALSE(p_twdt_obj == NULL, ESP_ERR_INVALID_STATE, TAG, "TWDT already initialized"); esp_err_t ret = ESP_OK; twdt_obj_t *obj = NULL; /* Allocate and initialize the global object */ obj = calloc(1, sizeof(twdt_obj_t)); ESP_GOTO_ON_FALSE((obj != NULL), ESP_ERR_NO_MEM, err, TAG, "insufficient memory"); SLIST_INIT(&obj->entries_slist); obj->panic = config->trigger_panic; /* Allocate the timer itself, NOT STARTED */ ret = esp_task_wdt_impl_timer_allocate(config, task_wdt_isr, &obj->impl_ctx); if (ret != ESP_OK) { goto err; } /* No error so far, we can assign it to the driver object */ p_twdt_obj = obj; /* Update which core's idle tasks are subscribed */ p_twdt_obj->idle_core_mask = config->idle_core_mask; if (config->idle_core_mask) { /* Subscribe the new cores idle tasks */ subscribe_idle(config->idle_core_mask); } /* Start the timer only if we are watching some tasks */ if (!SLIST_EMPTY(&p_twdt_obj->entries_slist)) { p_twdt_obj->waiting_for_task = false; esp_task_wdt_impl_timer_restart(p_twdt_obj->impl_ctx); } else { p_twdt_obj->waiting_for_task = true; } return ESP_OK; err: free(obj); return ret; } esp_err_t esp_task_wdt_reconfigure(const esp_task_wdt_config_t *config) { ESP_RETURN_ON_FALSE((config != NULL && config->idle_core_mask < (1 << portNUM_PROCESSORS)), ESP_ERR_INVALID_ARG, TAG, "Invalid arguments"); ESP_RETURN_ON_FALSE(p_twdt_obj != NULL, ESP_ERR_INVALID_STATE, TAG, "TWDT not initialized yet"); uint32_t old_core_mask = 0; esp_err_t ret = ESP_OK; /* Stop the timer to make sure we don't get into the ISR while reconfiguring the TWDT */ portENTER_CRITICAL(&spinlock); ret = esp_task_wdt_impl_timer_stop(p_twdt_obj->impl_ctx); if (ret != ESP_OK) { goto err; } /* We can start reconfiguring the tasks */ p_twdt_obj->panic = config->trigger_panic; /* Reconfigure the timer underneath (without restarting it) */ ret = esp_task_wdt_impl_timer_reconfigure(p_twdt_obj->impl_ctx, config); if (ret != ESP_OK) { goto err; } old_core_mask = p_twdt_obj->idle_core_mask; /* If the new mask is different than the old one, we have to subscribe the new idle tasks */ if (old_core_mask != config->idle_core_mask) { p_twdt_obj->idle_core_mask = config->idle_core_mask; /* Unsubscribe all previously watched core idle tasks */ unsubscribe_idle(old_core_mask); if (config->idle_core_mask) { /* Subscribe the new cores idle tasks */ subscribe_idle(config->idle_core_mask); } } /* Start the timer only if we are watching some tasks */ if (!SLIST_EMPTY(&p_twdt_obj->entries_slist)) { esp_task_wdt_impl_timer_restart(p_twdt_obj->impl_ctx); } portEXIT_CRITICAL(&spinlock); err: return ESP_OK; } esp_err_t esp_task_wdt_stop(void) { esp_err_t ret = ESP_OK; /* If the timer has not been initialized, do not attempt to stop it */ if (p_twdt_obj == NULL) { ret = ESP_ERR_INVALID_STATE; } if (ret == ESP_OK) { portENTER_CRITICAL(&spinlock); ret = esp_task_wdt_impl_timer_stop(p_twdt_obj->impl_ctx); portEXIT_CRITICAL(&spinlock); } return ret; } esp_err_t esp_task_wdt_restart(void) { esp_err_t ret = ESP_OK; /* If the timer has not been initialized, do not attempt to stop it */ if (p_twdt_obj == NULL) { ret = ESP_ERR_INVALID_STATE; } if (ret == ESP_OK) { portENTER_CRITICAL(&spinlock); ret = esp_task_wdt_impl_timer_restart(p_twdt_obj->impl_ctx); portEXIT_CRITICAL(&spinlock); } return ret; } esp_err_t esp_task_wdt_deinit(void) { esp_err_t ret; ESP_RETURN_ON_FALSE(p_twdt_obj != NULL, ESP_ERR_INVALID_STATE, TAG, "TWDT was never initialized"); // Unsubscribe all previously watched core idle tasks unsubscribe_idle(p_twdt_obj->idle_core_mask); // Check TWDT state ESP_GOTO_ON_FALSE_ISR(SLIST_EMPTY(&p_twdt_obj->entries_slist), ESP_ERR_INVALID_STATE, err, TAG, "Tasks/users still subscribed"); // Disable the timer esp_task_wdt_impl_timer_stop(p_twdt_obj->impl_ctx); // Free driver resources esp_task_wdt_impl_timer_free(p_twdt_obj->impl_ctx); // Free the global object free(p_twdt_obj); p_twdt_obj = NULL; return ESP_OK; err: subscribe_idle(p_twdt_obj->idle_core_mask); // Resubscribe idle tasks return ret; } esp_err_t esp_task_wdt_add(TaskHandle_t task_handle) { ESP_RETURN_ON_FALSE(p_twdt_obj != NULL, ESP_ERR_INVALID_STATE, TAG, "TWDT was never initialized"); esp_err_t ret; if (task_handle == NULL) { // Get handle of current task if none is provided task_handle = xTaskGetCurrentTaskHandle(); } twdt_entry_t *entry; ret = add_entry(true, (void *)task_handle, &entry); (void) entry; // Returned entry pointer not used return ret; } esp_err_t esp_task_wdt_add_user(const char *user_name, esp_task_wdt_user_handle_t *user_handle_ret) { ESP_RETURN_ON_FALSE((user_name != NULL && user_handle_ret != NULL), ESP_ERR_INVALID_ARG, TAG, "Invalid arguments"); ESP_RETURN_ON_FALSE(p_twdt_obj != NULL, ESP_ERR_INVALID_STATE, TAG, "TWDT was never initialized"); esp_err_t ret; twdt_entry_t *entry; ret = add_entry(false, (void *)user_name, &entry); if (ret == ESP_OK) { *user_handle_ret = (esp_task_wdt_user_handle_t)entry; } return ret; } esp_err_t esp_task_wdt_reset(void) { ESP_RETURN_ON_FALSE(p_twdt_obj != NULL, ESP_ERR_INVALID_STATE, TAG, "TWDT was never initialized"); esp_err_t ret; TaskHandle_t handle = xTaskGetCurrentTaskHandle(); portENTER_CRITICAL(&spinlock); // Find entry from task handle bool all_reset; twdt_entry_t *entry; entry = find_entry_from_task_handle_and_check_all_reset(handle, &all_reset); ESP_GOTO_ON_FALSE_ISR((entry != NULL), ESP_ERR_NOT_FOUND, err, TAG, "task not found"); // Mark entry as reset and issue timer reset if all entries have been reset entry->has_reset = true; // Reset the task if it's on the task list if (all_reset) { // Reset if all other tasks in list have reset in task_wdt_timer_feed(); } ret = ESP_OK; err: portEXIT_CRITICAL(&spinlock); return ret; } esp_err_t esp_task_wdt_reset_user(esp_task_wdt_user_handle_t user_handle) { ESP_RETURN_ON_FALSE(user_handle != NULL, ESP_ERR_INVALID_ARG, TAG, "Invalid arguments"); ESP_RETURN_ON_FALSE(p_twdt_obj != NULL, ESP_ERR_INVALID_STATE, TAG, "TWDT was never initialized"); esp_err_t ret; portENTER_CRITICAL(&spinlock); // Check if entry exists bool all_reset; twdt_entry_t *entry = (twdt_entry_t *)user_handle; bool entry_found = find_entry_and_check_all_reset(entry, &all_reset); ESP_GOTO_ON_FALSE_ISR(entry_found, ESP_ERR_NOT_FOUND, err, TAG, "user handle not found"); // Mark entry as reset and issue timer reset if all entries have been reset entry->has_reset = true; // Reset the task if it's on the task list if (all_reset) { // Reset if all other tasks in list have reset in task_wdt_timer_feed(); } ret = ESP_OK; err: portEXIT_CRITICAL(&spinlock); return ret; } esp_err_t esp_task_wdt_delete(TaskHandle_t task_handle) { ESP_RETURN_ON_FALSE(p_twdt_obj != NULL, ESP_ERR_INVALID_STATE, TAG, "TWDT was never initialized"); esp_err_t ret; if (task_handle == NULL) { task_handle = xTaskGetCurrentTaskHandle(); } ret = delete_entry(true, (void *)task_handle); return ret; } esp_err_t esp_task_wdt_delete_user(esp_task_wdt_user_handle_t user_handle) { ESP_RETURN_ON_FALSE(user_handle != NULL, ESP_ERR_INVALID_ARG, TAG, "Invalid arguments"); ESP_RETURN_ON_FALSE(p_twdt_obj != NULL, ESP_ERR_INVALID_STATE, TAG, "TWDT was never initialized"); return delete_entry(false, (void *)user_handle); } esp_err_t esp_task_wdt_status(TaskHandle_t task_handle) { ESP_RETURN_ON_FALSE(p_twdt_obj != NULL, ESP_ERR_INVALID_STATE, TAG, "TWDT was never initialized"); esp_err_t ret; if (task_handle == NULL) { task_handle = xTaskGetCurrentTaskHandle(); } portENTER_CRITICAL(&spinlock); // Find entry for task bool all_reset; twdt_entry_t *entry; entry = find_entry_from_task_handle_and_check_all_reset(task_handle, &all_reset); (void) all_reset; // Unused ret = (entry != NULL) ? ESP_OK : ESP_ERR_NOT_FOUND; portEXIT_CRITICAL(&spinlock); return ret; } esp_err_t esp_task_wdt_print_triggered_tasks(task_wdt_msg_handler msg_handler, void *opaque, int *cpus_fail) { if (SLIST_EMPTY(&p_twdt_obj->entries_slist)) { return ESP_FAIL; } twdt_entry_t *entry; const char *caption = "Task watchdog got triggered. " "The following tasks/users did not reset the watchdog in time:"; if (msg_handler == NULL) { ESP_EARLY_LOGE(TAG, "%s", caption); } else { msg_handler(opaque, caption); } // Find what entries triggered the TWDT timeout (i.e., which entries have not been reset) SLIST_FOREACH(entry, &p_twdt_obj->entries_slist, slist_entry) { if (!entry->has_reset) { const char *cpu; const char *name = entry->task_handle ? pcTaskGetName(entry->task_handle) : entry->user_name; const UBaseType_t affinity = get_task_affinity(entry->task_handle); if (cpus_fail) { *cpus_fail |= affinity; } if (affinity == BIT(0)) { cpu = " (CPU 0)"; } else if (affinity == BIT(1)) { cpu = " (CPU 1)"; } else { cpu = " (CPU 0/1)"; } if (msg_handler == NULL) { ESP_EARLY_LOGE(TAG, " - %s%s", name, cpu); } else { msg_handler(opaque, "\n - "); msg_handler(opaque, name); msg_handler(opaque, cpu); } } } return ESP_OK; }