OVMS3-idf/components/esp_event/esp_event.c

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2018-10-26 05:14:19 +00:00
// Copyright 2018 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <stdbool.h>
#include "esp_log.h"
#include "esp_event.h"
#include "esp_event_internal.h"
#include "esp_event_private.h"
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
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#include "esp_timer.h"
#endif
/* ---------------------------- Definitions --------------------------------- */
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
// LOOP @<address, name> rx:<recieved events no.> dr:<dropped events no.>
#define LOOP_DUMP_FORMAT "LOOP @%p,%s rx:%u dr:%u\n"
// handler @<address> ev:<base, id> inv:<times invoked> time:<runtime>
#define HANDLER_DUMP_FORMAT " HANDLER @%p ev:%s,%s inv:%u time:%lld us\n"
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#define PRINT_DUMP_INFO(dst, sz, ...) do { \
int cb = snprintf(dst, sz, __VA_ARGS__); \
dst += cb; \
sz -= cb; \
} while(0);
#endif
/* ------------------------- Static Variables ------------------------------- */
static const char* TAG = "event";
static const char* esp_event_any_base = "any";
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
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static SLIST_HEAD(esp_event_loop_instance_list_t, esp_event_loop_instance) s_event_loops =
SLIST_HEAD_INITIALIZER(s_event_loops);
static portMUX_TYPE s_event_loops_spinlock = portMUX_INITIALIZER_UNLOCKED;
#endif
/* ------------------------- Static Functions ------------------------------- */
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
static int esp_event_dump_prepare(void)
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{
esp_event_loop_instance_t* loop_it;
esp_event_loop_node_t *loop_node_it;
esp_event_base_node_t* base_node_it;
esp_event_id_node_t* id_node_it;
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esp_event_handler_instance_t* handler_it;
// Count the number of items to be printed. This is needed to compute how much memory to reserve.
int loops = 0, handlers = 0;
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portENTER_CRITICAL(&s_event_loops_spinlock);
SLIST_FOREACH(loop_it, &s_event_loops, next) {
SLIST_FOREACH(loop_node_it, &(loop_it->loop_nodes), next) {
SLIST_FOREACH(handler_it, &(loop_node_it->handlers), next) {
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handlers++;
}
SLIST_FOREACH(base_node_it, &(loop_node_it->base_nodes), next) {
SLIST_FOREACH(handler_it, &(base_node_it->handlers), next) {
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handlers++;
}
SLIST_FOREACH(id_node_it, &(base_node_it->id_nodes), next) {
SLIST_FOREACH(handler_it, &(id_node_it->handlers), next) {
handlers++;
}
}
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}
}
loops++;
}
portEXIT_CRITICAL(&s_event_loops_spinlock);
// Reserve slightly more memory than computed
int allowance = 3;
int size = (((loops + allowance) * (sizeof(LOOP_DUMP_FORMAT) + 10 + 20 + 2 * 11)) +
((handlers + allowance) * (sizeof(HANDLER_DUMP_FORMAT) + 10 + 2 * 20 + 11 + 20)));
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return size;
}
#endif
static void esp_event_loop_run_task(void* args)
{
esp_err_t err;
esp_event_loop_handle_t event_loop = (esp_event_loop_handle_t) args;
ESP_LOGD(TAG, "running task for loop %p", event_loop);
while(1) {
err = esp_event_loop_run(event_loop, portMAX_DELAY);
if (err != ESP_OK) {
break;
}
}
ESP_LOGE(TAG, "suspended task for loop %p", event_loop);
vTaskSuspend(NULL);
}
static void handler_execute(esp_event_loop_instance_t* loop, esp_event_handler_instance_t *handler, esp_event_post_instance_t post)
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{
ESP_LOGD(TAG, "running post %s:%d with handler %p on loop %p", post.base, post.id, handler->handler, loop);
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#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
int64_t start, diff;
start = esp_timer_get_time();
#endif
// Execute the handler
#if CONFIG_ESP_EVENT_POST_FROM_ISR
void* data_ptr = NULL;
if (post.data_set) {
if (post.data_allocated) {
data_ptr = post.data.ptr;
} else {
data_ptr = &post.data.val;
}
}
(*(handler->handler))(handler->arg, post.base, post.id, data_ptr);
#else
(*(handler->handler))(handler->arg, post.base, post.id, post.data);
#endif
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#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
diff = esp_timer_get_time() - start;
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xSemaphoreTake(loop->profiling_mutex, portMAX_DELAY);
handler->invoked++;
handler->time += diff;
xSemaphoreGive(loop->profiling_mutex);
#endif
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}
static esp_err_t handler_instances_add(esp_event_handler_instances_t* handlers, esp_event_handler_t handler, void* handler_arg)
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{
esp_event_handler_instance_t* handler_instance = calloc(1, sizeof(*handler_instance));
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if (!handler_instance) {
return ESP_ERR_NO_MEM;
}
handler_instance->handler = handler;
handler_instance->arg = handler_arg;
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if (SLIST_EMPTY(handlers)) {
SLIST_INSERT_HEAD(handlers, handler_instance, next);
}
else {
esp_event_handler_instance_t *it = NULL, *last = NULL;
SLIST_FOREACH(it, handlers, next) {
if (handler == it->handler) {
it->arg = handler_arg;
ESP_LOGW(TAG, "handler already registered, overwriting");
free(handler_instance);
return ESP_OK;
}
last = it;
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}
SLIST_INSERT_AFTER(last, handler_instance, next);
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}
return ESP_OK;
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}
static esp_err_t base_node_add_handler(esp_event_base_node_t* base_node, int32_t id, esp_event_handler_t handler, void* handler_arg)
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{
if (id == ESP_EVENT_ANY_ID) {
return handler_instances_add(&(base_node->handlers), handler, handler_arg);
}
else {
esp_err_t err = ESP_OK;
esp_event_id_node_t *it = NULL, *id_node = NULL, *last_id_node = NULL;
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SLIST_FOREACH(it, &(base_node->id_nodes), next) {
if (it->id == id) {
id_node = it;
}
last_id_node = it;
}
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if (!last_id_node || !id_node) {
id_node = (esp_event_id_node_t*) calloc(1, sizeof(*id_node));
if (!id_node) {
ESP_LOGE(TAG, "alloc for new id node failed");
return ESP_ERR_NO_MEM;
}
id_node->id = id;
SLIST_INIT(&(id_node->handlers));
err = handler_instances_add(&(id_node->handlers), handler, handler_arg);
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if (err == ESP_OK) {
if (!last_id_node) {
SLIST_INSERT_HEAD(&(base_node->id_nodes), id_node, next);
}
else {
SLIST_INSERT_AFTER(last_id_node, id_node, next);
}
} else {
free(id_node);
}
return err;
}
else {
return handler_instances_add(&(id_node->handlers), handler, handler_arg);
}
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}
}
static esp_err_t loop_node_add_handler(esp_event_loop_node_t* loop_node, esp_event_base_t base, int32_t id, esp_event_handler_t handler, void* handler_arg)
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{
if (base == esp_event_any_base && id == ESP_EVENT_ANY_ID) {
return handler_instances_add(&(loop_node->handlers), handler, handler_arg);
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}
else {
esp_err_t err = ESP_OK;
esp_event_base_node_t *it = NULL, *base_node = NULL, *last_base_node = NULL;
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SLIST_FOREACH(it, &(loop_node->base_nodes), next) {
if (it->base == base) {
base_node = it;
}
last_base_node = it;
}
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if (!last_base_node ||
!base_node ||
(base_node && !SLIST_EMPTY(&(base_node->id_nodes)) && id == ESP_EVENT_ANY_ID) ||
(last_base_node && last_base_node->base != base && !SLIST_EMPTY(&(last_base_node->id_nodes)) && id == ESP_EVENT_ANY_ID)) {
base_node = (esp_event_base_node_t*) calloc(1, sizeof(*base_node));
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if (!base_node) {
ESP_LOGE(TAG, "alloc mem for new base node failed");
return ESP_ERR_NO_MEM;
}
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base_node->base = base;
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SLIST_INIT(&(base_node->handlers));
SLIST_INIT(&(base_node->id_nodes));
err = base_node_add_handler(base_node, id, handler, handler_arg);
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if (err == ESP_OK) {
if (!last_base_node) {
SLIST_INSERT_HEAD(&(loop_node->base_nodes), base_node, next);
}
else {
SLIST_INSERT_AFTER(last_base_node, base_node, next);
}
} else {
free(base_node);
}
return err;
} else {
return base_node_add_handler(base_node, id, handler, handler_arg);
}
}
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}
static esp_err_t handler_instances_remove(esp_event_handler_instances_t* handlers, esp_event_handler_t handler)
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{
esp_event_handler_instance_t *it, *temp;
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SLIST_FOREACH_SAFE(it, handlers, next, temp) {
if (it->handler == handler) {
SLIST_REMOVE(handlers, it, esp_event_handler_instance, next);
free(it);
return ESP_OK;
}
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}
return ESP_ERR_NOT_FOUND;
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}
static esp_err_t base_node_remove_handler(esp_event_base_node_t* base_node, int32_t id, esp_event_handler_t handler)
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{
if (id == ESP_EVENT_ANY_ID) {
return handler_instances_remove(&(base_node->handlers), handler);
}
else {
esp_event_id_node_t *it, *temp;
SLIST_FOREACH_SAFE(it, &(base_node->id_nodes), next, temp) {
if (it->id == id) {
esp_err_t res = handler_instances_remove(&(it->handlers), handler);
if (res == ESP_OK) {
if (SLIST_EMPTY(&(it->handlers))) {
SLIST_REMOVE(&(base_node->id_nodes), it, esp_event_id_node, next);
free(it);
return ESP_OK;
}
}
}
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}
}
return ESP_ERR_NOT_FOUND;
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}
static esp_err_t loop_node_remove_handler(esp_event_loop_node_t* loop_node, esp_event_base_t base, int32_t id, esp_event_handler_t handler)
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{
if (base == esp_event_any_base && id == ESP_EVENT_ANY_ID) {
return handler_instances_remove(&(loop_node->handlers), handler);
}
else {
esp_event_base_node_t *it, *temp;
SLIST_FOREACH_SAFE(it, &(loop_node->base_nodes), next, temp) {
if (it->base == base) {
esp_err_t res = base_node_remove_handler(it, id, handler);
if (res == ESP_OK) {
if (SLIST_EMPTY(&(it->handlers)) && SLIST_EMPTY(&(it->id_nodes))) {
SLIST_REMOVE(&(loop_node->base_nodes), it, esp_event_base_node, next);
free(it);
return ESP_OK;
}
}
}
}
}
return ESP_ERR_NOT_FOUND;
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}
static void handler_instances_remove_all(esp_event_handler_instances_t* handlers)
{
esp_event_handler_instance_t *it, *temp;
SLIST_FOREACH_SAFE(it, handlers, next, temp) {
SLIST_REMOVE(handlers, it, esp_event_handler_instance, next);
free(it);
}
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}
static void base_node_remove_all_handler(esp_event_base_node_t* base_node)
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{
handler_instances_remove_all(&(base_node->handlers));
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esp_event_id_node_t *it, *temp;
SLIST_FOREACH_SAFE(it, &(base_node->id_nodes), next, temp) {
handler_instances_remove_all(&(it->handlers));
SLIST_REMOVE(&(base_node->id_nodes), it, esp_event_id_node, next);
free(it);
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}
}
static void loop_node_remove_all_handler(esp_event_loop_node_t* loop_node)
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{
handler_instances_remove_all(&(loop_node->handlers));
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esp_event_base_node_t *it, *temp;
SLIST_FOREACH_SAFE(it, &(loop_node->base_nodes), next, temp) {
base_node_remove_all_handler(it);
SLIST_REMOVE(&(loop_node->base_nodes), it, esp_event_base_node, next);
free(it);
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}
}
static void inline __attribute__((always_inline)) post_instance_delete(esp_event_post_instance_t* post)
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{
#if CONFIG_ESP_EVENT_POST_FROM_ISR
if (post->data_allocated && post->data.ptr) {
free(post->data.ptr);
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}
#else
if (post->data) {
free(post->data);
}
#endif
memset(post, 0, sizeof(*post));
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}
/* ---------------------------- Public API --------------------------------- */
esp_err_t esp_event_loop_create(const esp_event_loop_args_t* event_loop_args, esp_event_loop_handle_t* event_loop)
{
assert(event_loop_args);
esp_event_loop_instance_t* loop;
esp_err_t err = ESP_ERR_NO_MEM; // most likely error
loop = calloc(1, sizeof(*loop));
if (loop == NULL) {
ESP_LOGE(TAG, "alloc for event loop failed");
return err;
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}
loop->queue = xQueueCreate(event_loop_args->queue_size , sizeof(esp_event_post_instance_t));
if (loop->queue == NULL) {
ESP_LOGE(TAG, "create event loop queue failed");
goto on_err;
}
loop->mutex = xSemaphoreCreateRecursiveMutex();
if (loop->mutex == NULL) {
ESP_LOGE(TAG, "create event loop mutex failed");
goto on_err;
}
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
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loop->profiling_mutex = xSemaphoreCreateMutex();
if (loop->profiling_mutex == NULL) {
ESP_LOGE(TAG, "create event loop profiling mutex failed");
goto on_err;
}
#endif
SLIST_INIT(&(loop->loop_nodes));
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// Create the loop task if requested
if (event_loop_args->task_name != NULL) {
BaseType_t task_created = xTaskCreatePinnedToCore(esp_event_loop_run_task, event_loop_args->task_name,
event_loop_args->task_stack_size, (void*) loop,
event_loop_args->task_priority, &(loop->task), event_loop_args->task_core_id);
if (task_created != pdPASS) {
ESP_LOGE(TAG, "create task for loop failed");
err = ESP_FAIL;
goto on_err;
}
loop->name = event_loop_args->task_name;
ESP_LOGD(TAG, "created task for loop %p", loop);
} else {
loop->name = "";
loop->task = NULL;
}
loop->running_task = NULL;
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
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portENTER_CRITICAL(&s_event_loops_spinlock);
SLIST_INSERT_HEAD(&s_event_loops, loop, next);
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portEXIT_CRITICAL(&s_event_loops_spinlock);
#endif
*event_loop = (esp_event_loop_handle_t) loop;
ESP_LOGD(TAG, "created event loop %p", loop);
return ESP_OK;
on_err:
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if (loop->queue != NULL) {
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vQueueDelete(loop->queue);
}
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if (loop->mutex != NULL) {
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vSemaphoreDelete(loop->mutex);
}
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
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if (loop->profiling_mutex != NULL) {
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vSemaphoreDelete(loop->profiling_mutex);
}
#endif
free(loop);
return err;
}
// On event lookup performance: The library implements the event list as a linked list, which results to O(n)
// lookup time. The test comparing this implementation to the O(lg n) performance of rbtrees
// (https://github.com/freebsd/freebsd/blob/master/sys/sys/tree.h)
// indicate that the difference is not that substantial, especially considering the additional
// pointers per node of rbtrees. Code for the rbtree implementation of the event loop library is archived
// in feature/esp_event_loop_library_rbtrees if needed.
esp_err_t esp_event_loop_run(esp_event_loop_handle_t event_loop, TickType_t ticks_to_run)
{
assert(event_loop);
esp_event_loop_instance_t* loop = (esp_event_loop_instance_t*) event_loop;
esp_event_post_instance_t post;
TickType_t marker = xTaskGetTickCount();
TickType_t end = 0;
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#if (configUSE_16_BIT_TICKS == 1)
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int32_t remaining_ticks = ticks_to_run;
#else
int64_t remaining_ticks = ticks_to_run;
#endif
while(xQueueReceive(loop->queue, &post, ticks_to_run) == pdTRUE) {
// The event has already been unqueued, so ensure it gets executed.
xSemaphoreTakeRecursive(loop->mutex, portMAX_DELAY);
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loop->running_task = xTaskGetCurrentTaskHandle();
bool exec = false;
esp_event_handler_instance_t *handler;
esp_event_loop_node_t *loop_node;
esp_event_base_node_t *base_node;
esp_event_id_node_t *id_node;
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SLIST_FOREACH(loop_node, &(loop->loop_nodes), next) {
// Execute loop level handlers
SLIST_FOREACH(handler, &(loop_node->handlers), next) {
handler_execute(loop, handler, post);
exec |= true;
}
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SLIST_FOREACH(base_node, &(loop_node->base_nodes), next) {
if (base_node->base == post.base) {
// Execute base level handlers
SLIST_FOREACH(handler, &(base_node->handlers), next) {
handler_execute(loop, handler, post);
exec |= true;
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}
SLIST_FOREACH(id_node, &(base_node->id_nodes), next) {
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if (id_node->id == post.id) {
// Execute id level handlers
SLIST_FOREACH(handler, &(id_node->handlers), next) {
handler_execute(loop, handler, post);
exec |= true;
}
// Skip to next base node
break;
}
}
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}
}
}
esp_event_base_t base = post.base;
int32_t id = post.id;
post_instance_delete(&post);
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if (ticks_to_run != portMAX_DELAY) {
end = xTaskGetTickCount();
remaining_ticks -= end - marker;
// If the ticks to run expired, return to the caller
if (remaining_ticks <= 0) {
xSemaphoreGiveRecursive(loop->mutex);
break;
} else {
marker = end;
}
}
loop->running_task = NULL;
xSemaphoreGiveRecursive(loop->mutex);
if (!exec) {
// No handlers were registered, not even loop/base level handlers
ESP_LOGD(TAG, "no handlers have been registered for event %s:%d posted to loop %p", base, id, event_loop);
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}
}
return ESP_OK;
}
esp_err_t esp_event_loop_delete(esp_event_loop_handle_t event_loop)
{
assert(event_loop);
esp_event_loop_instance_t* loop = (esp_event_loop_instance_t*) event_loop;
SemaphoreHandle_t loop_mutex = loop->mutex;
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
SemaphoreHandle_t loop_profiling_mutex = loop->profiling_mutex;
#endif
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xSemaphoreTakeRecursive(loop->mutex, portMAX_DELAY);
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
xSemaphoreTakeRecursive(loop->profiling_mutex, portMAX_DELAY);
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portENTER_CRITICAL(&s_event_loops_spinlock);
SLIST_REMOVE(&s_event_loops, loop, esp_event_loop_instance, next);
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portEXIT_CRITICAL(&s_event_loops_spinlock);
#endif
// Delete the task if it was created
if (loop->task != NULL) {
vTaskDelete(loop->task);
}
// Remove all registered events and handlers in the loop
esp_event_loop_node_t *it, *temp;
SLIST_FOREACH_SAFE(it, &(loop->loop_nodes), next, temp) {
loop_node_remove_all_handler(it);
SLIST_REMOVE(&(loop->loop_nodes), it, esp_event_loop_node, next);
free(it);
}
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// Drop existing posts on the queue
esp_event_post_instance_t post;
while(xQueueReceive(loop->queue, &post, 0) == pdTRUE) {
post_instance_delete(&post);
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}
// Cleanup loop
vQueueDelete(loop->queue);
free(loop);
// Free loop mutex before deleting
xSemaphoreGiveRecursive(loop_mutex);
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
xSemaphoreGiveRecursive(loop_profiling_mutex);
vSemaphoreDelete(loop_profiling_mutex);
#endif
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vSemaphoreDelete(loop_mutex);
ESP_LOGD(TAG, "deleted loop %p", (void*) event_loop);
return ESP_OK;
}
esp_err_t esp_event_handler_register_with(esp_event_loop_handle_t event_loop, esp_event_base_t event_base,
int32_t event_id, esp_event_handler_t event_handler, void* event_handler_arg)
{
assert(event_loop);
assert(event_handler);
if (event_base == ESP_EVENT_ANY_BASE && event_id != ESP_EVENT_ANY_ID) {
ESP_LOGE(TAG, "registering to any event base with specific id unsupported");
return ESP_ERR_INVALID_ARG;
}
esp_event_loop_instance_t* loop = (esp_event_loop_instance_t*) event_loop;
if (event_base == ESP_EVENT_ANY_BASE) {
event_base = esp_event_any_base;
}
esp_err_t err = ESP_OK;
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xSemaphoreTakeRecursive(loop->mutex, portMAX_DELAY);
esp_event_loop_node_t *loop_node = NULL, *last_loop_node = NULL;
SLIST_FOREACH(loop_node, &(loop->loop_nodes), next) {
last_loop_node = loop_node;
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}
bool is_loop_level_handler = (event_base == esp_event_any_base) && (event_id == ESP_EVENT_ANY_ID);
if (!last_loop_node ||
(last_loop_node && !SLIST_EMPTY(&(last_loop_node->base_nodes)) && is_loop_level_handler)) {
loop_node = (esp_event_loop_node_t*) calloc(1, sizeof(*loop_node));
SLIST_INIT(&(loop_node->handlers));
SLIST_INIT(&(loop_node->base_nodes));
if (!loop_node) {
ESP_LOGE(TAG, "alloc for new loop node failed");
err = ESP_ERR_NO_MEM;
goto on_err;
}
err = loop_node_add_handler(loop_node, event_base, event_id, event_handler, event_handler_arg);
if (err == ESP_OK) {
if (!last_loop_node) {
SLIST_INSERT_HEAD(&(loop->loop_nodes), loop_node, next);
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}
else {
SLIST_INSERT_AFTER(last_loop_node, loop_node, next);
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}
} else {
free(loop_node);
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}
}
else {
err = loop_node_add_handler(last_loop_node, event_base, event_id, event_handler, event_handler_arg);
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}
on_err:
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xSemaphoreGiveRecursive(loop->mutex);
return err;
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}
esp_err_t esp_event_handler_unregister_with(esp_event_loop_handle_t event_loop, esp_event_base_t event_base,
int32_t event_id, esp_event_handler_t event_handler)
{
assert(event_loop);
assert(event_handler);
if (event_base == ESP_EVENT_ANY_BASE && event_id != ESP_EVENT_ANY_ID) {
ESP_LOGE(TAG, "unregistering to any event base with specific id unsupported");
return ESP_FAIL;
}
if (event_base == ESP_EVENT_ANY_BASE) {
event_base = esp_event_any_base;
}
esp_event_loop_instance_t* loop = (esp_event_loop_instance_t*) event_loop;
xSemaphoreTakeRecursive(loop->mutex, portMAX_DELAY);
esp_event_loop_node_t *it, *temp;
SLIST_FOREACH_SAFE(it, &(loop->loop_nodes), next, temp) {
esp_err_t res = loop_node_remove_handler(it, event_base, event_id, event_handler);
if (res == ESP_OK && SLIST_EMPTY(&(it->base_nodes)) && SLIST_EMPTY(&(it->handlers))) {
SLIST_REMOVE(&(loop->loop_nodes), it, esp_event_loop_node, next);
free(it);
break;
}
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}
xSemaphoreGiveRecursive(loop->mutex);
return ESP_OK;
}
esp_err_t esp_event_post_to(esp_event_loop_handle_t event_loop, esp_event_base_t event_base, int32_t event_id,
void* event_data, size_t event_data_size, TickType_t ticks_to_wait)
{
assert(event_loop);
if (event_base == ESP_EVENT_ANY_BASE || event_id == ESP_EVENT_ANY_ID) {
return ESP_ERR_INVALID_ARG;
}
esp_event_loop_instance_t* loop = (esp_event_loop_instance_t*) event_loop;
esp_event_post_instance_t post;
memset((void*)(&post), 0, sizeof(post));
if (event_data != NULL && event_data_size != 0) {
// Make persistent copy of event data on heap.
void* event_data_copy = calloc(1, event_data_size);
if (event_data_copy == NULL) {
return ESP_ERR_NO_MEM;
}
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memcpy(event_data_copy, event_data, event_data_size);
#if CONFIG_ESP_EVENT_POST_FROM_ISR
post.data.ptr = event_data_copy;
post.data_allocated = true;
post.data_set = true;
#else
post.data = event_data_copy;
#endif
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}
post.base = event_base;
post.id = event_id;
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BaseType_t result = pdFALSE;
// Find the task that currently executes the loop. It is safe to query loop->task since it is
// not mutated since loop creation. ENSURE THIS REMAINS TRUE.
if (loop->task == NULL) {
// The loop has no dedicated task. Find out what task is currently running it.
result = xSemaphoreTakeRecursive(loop->mutex, ticks_to_wait);
if (result == pdTRUE) {
if (loop->running_task != xTaskGetCurrentTaskHandle()) {
xSemaphoreGiveRecursive(loop->mutex);
result = xQueueSendToBack(loop->queue, &post, ticks_to_wait);
} else {
xSemaphoreGiveRecursive(loop->mutex);
result = xQueueSendToBack(loop->queue, &post, 0);
}
}
} else {
// The loop has a dedicated task.
if (loop->task != xTaskGetCurrentTaskHandle()) {
result = xQueueSendToBack(loop->queue, &post, ticks_to_wait);
} else {
result = xQueueSendToBack(loop->queue, &post, 0);
}
}
if (result != pdTRUE) {
post_instance_delete(&post);
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
atomic_fetch_add(&loop->events_dropped, 1);
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#endif
return ESP_ERR_TIMEOUT;
}
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
atomic_fetch_add(&loop->events_recieved, 1);
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#endif
return ESP_OK;
}
#if CONFIG_ESP_EVENT_POST_FROM_ISR
esp_err_t esp_event_isr_post_to(esp_event_loop_handle_t event_loop, esp_event_base_t event_base, int32_t event_id,
void* event_data, size_t event_data_size, BaseType_t* task_unblocked)
{
assert(event_loop);
if (event_base == ESP_EVENT_ANY_BASE || event_id == ESP_EVENT_ANY_ID) {
return ESP_ERR_INVALID_ARG;
}
esp_event_loop_instance_t* loop = (esp_event_loop_instance_t*) event_loop;
esp_event_post_instance_t post;
memset((void*)(&post), 0, sizeof(post));
if (event_data_size > sizeof(post.data.val)) {
return ESP_ERR_INVALID_ARG;
}
if (event_data != NULL && event_data_size != 0) {
memcpy((void*)(&(post.data.val)), event_data, event_data_size);
post.data_allocated = false;
post.data_set = true;
}
post.base = event_base;
post.id = event_id;
BaseType_t result = pdFALSE;
// Post the event from an ISR,
result = xQueueSendToBackFromISR(loop->queue, &post, task_unblocked);
if (result != pdTRUE) {
post_instance_delete(&post);
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
atomic_fetch_add(&loop->events_dropped, 1);
#endif
return ESP_FAIL;
}
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
atomic_fetch_add(&loop->events_recieved, 1);
#endif
return ESP_OK;
}
#endif
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esp_err_t esp_event_dump(FILE* file)
{
#ifdef CONFIG_ESP_EVENT_LOOP_PROFILING
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assert(file);
esp_event_loop_instance_t* loop_it;
esp_event_loop_node_t *loop_node_it;
esp_event_base_node_t* base_node_it;
esp_event_id_node_t* id_node_it;
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esp_event_handler_instance_t* handler_it;
// Allocate memory for printing
int sz = esp_event_dump_prepare();
char* buf = calloc(sz, sizeof(char));
char* dst = buf;
char id_str_buf[20];
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// Print info to buffer
portENTER_CRITICAL(&s_event_loops_spinlock);
SLIST_FOREACH(loop_it, &s_event_loops, next) {
uint32_t events_recieved, events_dropped;
events_recieved = atomic_load(&loop_it->events_recieved);
events_dropped = atomic_load(&loop_it->events_dropped);
PRINT_DUMP_INFO(dst, sz, LOOP_DUMP_FORMAT, loop_it, loop_it->task != NULL ? loop_it->name : "none" ,
events_recieved, events_dropped);
int sz_bak = sz;
SLIST_FOREACH(loop_node_it, &(loop_it->loop_nodes), next) {
SLIST_FOREACH(handler_it, &(loop_node_it->handlers), next) {
PRINT_DUMP_INFO(dst, sz, HANDLER_DUMP_FORMAT, handler_it->handler, "ESP_EVENT_ANY_BASE",
"ESP_EVENT_ANY_ID", handler_it->invoked, handler_it->time);
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}
SLIST_FOREACH(base_node_it, &(loop_node_it->base_nodes), next) {
SLIST_FOREACH(handler_it, &(base_node_it->handlers), next) {
PRINT_DUMP_INFO(dst, sz, HANDLER_DUMP_FORMAT, handler_it->handler, base_node_it->base ,
"ESP_EVENT_ANY_ID", handler_it->invoked, handler_it->time);
}
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SLIST_FOREACH(id_node_it, &(base_node_it->id_nodes), next) {
SLIST_FOREACH(handler_it, &(id_node_it->handlers), next) {
memset(id_str_buf, 0, sizeof(id_str_buf));
snprintf(id_str_buf, sizeof(id_str_buf), "%d", id_node_it->id);
PRINT_DUMP_INFO(dst, sz, HANDLER_DUMP_FORMAT, handler_it->handler, base_node_it->base ,
id_str_buf, handler_it->invoked, handler_it->time);
}
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}
}
}
// No handlers registered for this loop
if (sz == sz_bak) {
PRINT_DUMP_INFO(dst, sz, " NO HANDLERS REGISTERED\n");
}
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}
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portEXIT_CRITICAL(&s_event_loops_spinlock);
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// Print the contents of the buffer to the file
fprintf(file, buf);
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// Free the allocated buffer
free(buf);
#endif
return ESP_OK;
}