alexey.zholtikov/zh_espnow_led
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Version 2.1.0

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Increase stability of operation.
Changed the frequency of sending messages.
Changed the event for the first start of tasks.
This commit is contained in:
Alexey Zholtikov 2025-02-16 19:02:00 +03:00
parent 049463f648
commit 603b407df4
3 changed files with 68 additions and 46 deletions
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73
main/zh_espnow_led.c
View File

@ -18,10 +18,6 @@ void app_main(void)
esp_wifi_start(); esp_wifi_start();
zh_espnow_init_config_t espnow_init_config = ZH_ESPNOW_INIT_CONFIG_DEFAULT(); zh_espnow_init_config_t espnow_init_config = ZH_ESPNOW_INIT_CONFIG_DEFAULT();
zh_espnow_init(&espnow_init_config); zh_espnow_init(&espnow_init_config);
xTaskCreatePinnedToCore(&zh_send_led_attributes_message_task, "led_attributes_message_task", ZH_MESSAGE_STACK_SIZE, led_config, ZH_MESSAGE_TASK_PRIORITY, (TaskHandle_t *)&led_config->attributes_message_task, tskNO_AFFINITY);
vTaskSuspend(led_config->attributes_message_task);
xTaskCreatePinnedToCore(&zh_send_led_keep_alive_message_task, "led_keep_alive_message_task", ZH_MESSAGE_STACK_SIZE, led_config, ZH_MESSAGE_TASK_PRIORITY, (TaskHandle_t *)&led_config->keep_alive_message_task, tskNO_AFFINITY);
vTaskSuspend(led_config->keep_alive_message_task);
#ifdef CONFIG_IDF_TARGET_ESP8266 #ifdef CONFIG_IDF_TARGET_ESP8266
esp_event_handler_register(ZH_ESPNOW, ESP_EVENT_ANY_ID, &zh_espnow_event_handler, led_config); esp_event_handler_register(ZH_ESPNOW, ESP_EVENT_ANY_ID, &zh_espnow_event_handler, led_config);
#else #else
@ -429,8 +425,9 @@ void zh_send_led_attributes_message_task(void *pvParameter)
vTaskDelete(NULL); vTaskDelete(NULL);
} }
void zh_send_led_config_message(const led_config_t *led_config) void zh_send_led_config_message_task(void *pvParameter)
{ {
led_config_t *led_config = pvParameter;
zh_espnow_data_t data = {0}; zh_espnow_data_t data = {0};
data.device_type = ZHDT_LED; data.device_type = ZHDT_LED;
data.payload_type = ZHPT_CONFIG; data.payload_type = ZHPT_CONFIG;
@ -442,11 +439,17 @@ void zh_send_led_config_message(const led_config_t *led_config)
data.payload_data.config_message.led_config_message.optimistic = false; data.payload_data.config_message.led_config_message.optimistic = false;
data.payload_data.config_message.led_config_message.qos = 2; data.payload_data.config_message.led_config_message.qos = 2;
data.payload_data.config_message.led_config_message.retain = true; data.payload_data.config_message.led_config_message.retain = true;
for (;;)
{
zh_espnow_send(led_config->gateway_mac, (uint8_t *)&data, sizeof(zh_espnow_data_t)); zh_espnow_send(led_config->gateway_mac, (uint8_t *)&data, sizeof(zh_espnow_data_t));
vTaskDelay(ZH_LED_CONFIG_MESSAGE_FREQUENCY * 1000 / portTICK_PERIOD_MS);
}
vTaskDelete(NULL);
} }
void zh_send_led_hardware_config_message(const led_config_t *led_config) void zh_send_led_hardware_config_message_task(void *pvParameter)
{ {
led_config_t *led_config = pvParameter;
zh_espnow_data_t data = {0}; zh_espnow_data_t data = {0};
data.device_type = ZHDT_LED; data.device_type = ZHDT_LED;
data.payload_type = ZHPT_HARDWARE; data.payload_type = ZHPT_HARDWARE;
@ -456,7 +459,12 @@ void zh_send_led_hardware_config_message(const led_config_t *led_config)
data.payload_data.config_message.led_hardware_config_message.red_pin = led_config->hardware_config.red_pin; data.payload_data.config_message.led_hardware_config_message.red_pin = led_config->hardware_config.red_pin;
data.payload_data.config_message.led_hardware_config_message.green_pin = led_config->hardware_config.green_pin; data.payload_data.config_message.led_hardware_config_message.green_pin = led_config->hardware_config.green_pin;
data.payload_data.config_message.led_hardware_config_message.blue_pin = led_config->hardware_config.blue_pin; data.payload_data.config_message.led_hardware_config_message.blue_pin = led_config->hardware_config.blue_pin;
for (;;)
{
zh_espnow_send(led_config->gateway_mac, (uint8_t *)&data, sizeof(zh_espnow_data_t)); zh_espnow_send(led_config->gateway_mac, (uint8_t *)&data, sizeof(zh_espnow_data_t));
vTaskDelay(ZH_LED_HARDWARE_CONFIG_MESSAGE_FREQUENCY * 1000 / portTICK_PERIOD_MS);
}
vTaskDelete(NULL);
} }
void zh_send_led_keep_alive_message_task(void *pvParameter) void zh_send_led_keep_alive_message_task(void *pvParameter)
@ -475,6 +483,27 @@ void zh_send_led_keep_alive_message_task(void *pvParameter)
vTaskDelete(NULL); vTaskDelete(NULL);
} }
void zh_send_led_status_message_task(void *pvParameter)
{
led_config_t *led_config = pvParameter;
zh_espnow_data_t data = {0};
data.device_type = ZHDT_LED;
data.payload_type = ZHPT_STATE;
for (;;)
{
data.payload_data.status_message.led_status_message.status = led_config->status.status;
data.payload_data.status_message.led_status_message.brightness = led_config->status.brightness;
data.payload_data.status_message.led_status_message.temperature = led_config->status.temperature;
data.payload_data.status_message.led_status_message.red = led_config->status.red;
data.payload_data.status_message.led_status_message.green = led_config->status.green;
data.payload_data.status_message.led_status_message.blue = led_config->status.blue;
data.payload_data.status_message.led_status_message.effect = led_config->status.effect;
zh_espnow_send(led_config->gateway_mac, (uint8_t *)&data, sizeof(zh_espnow_data_t));
vTaskDelay(ZH_LED_STATUS_MESSAGE_FREQUENCY * 1000 / portTICK_PERIOD_MS);
}
vTaskDelete(NULL);
}
void zh_send_led_status_message(const led_config_t *led_config) void zh_send_led_status_message(const led_config_t *led_config)
{ {
zh_espnow_data_t data = {0}; zh_espnow_data_t data = {0};
@ -508,24 +537,15 @@ void zh_espnow_event_handler(void *arg, esp_event_base_t event_base, int32_t eve
switch (data->payload_type) switch (data->payload_type)
{ {
case ZHPT_KEEP_ALIVE: case ZHPT_KEEP_ALIVE:
if (data->payload_data.keep_alive_message.online_status == ZH_ONLINE)
{
memcpy(led_config->gateway_mac, recv_data->mac_addr, 6); memcpy(led_config->gateway_mac, recv_data->mac_addr, 6);
if (led_config->gateway_is_available == false) if (is_first_boot == false)
{ {
led_config->gateway_is_available = true; is_first_boot = true;
zh_send_led_hardware_config_message(led_config); xTaskCreatePinnedToCore(&zh_send_led_attributes_message_task, "led_attributes_message_task", ZH_MESSAGE_STACK_SIZE, led_config, ZH_MESSAGE_TASK_PRIORITY, NULL, tskNO_AFFINITY);
zh_send_led_config_message(led_config); xTaskCreatePinnedToCore(&zh_send_led_keep_alive_message_task, "led_keep_alive_message_task", ZH_MESSAGE_STACK_SIZE, led_config, ZH_MESSAGE_TASK_PRIORITY, NULL, tskNO_AFFINITY);
zh_send_led_status_message(led_config); xTaskCreatePinnedToCore(&zh_send_led_config_message_task, "led_config_message_task", ZH_MESSAGE_STACK_SIZE, led_config, ZH_MESSAGE_TASK_PRIORITY, NULL, tskNO_AFFINITY);
vTaskResume(led_config->attributes_message_task); xTaskCreatePinnedToCore(&zh_send_led_hardware_config_message_task, "led_hardware_config_message_task", ZH_MESSAGE_STACK_SIZE, led_config, ZH_MESSAGE_TASK_PRIORITY, NULL, tskNO_AFFINITY);
vTaskResume(led_config->keep_alive_message_task); xTaskCreatePinnedToCore(&zh_send_led_status_message_task, "led_status_message_task", ZH_MESSAGE_STACK_SIZE, led_config, ZH_MESSAGE_TASK_PRIORITY, NULL, tskNO_AFFINITY);
}
}
else
{
led_config->gateway_is_available = false;
vTaskSuspend(led_config->attributes_message_task);
vTaskSuspend(led_config->keep_alive_message_task);
} }
break; break;
case ZHPT_SET: case ZHPT_SET:
@ -632,14 +652,7 @@ void zh_espnow_event_handler(void *arg, esp_event_base_t event_base, int32_t eve
ZH_ESPNOW_EVENT_HANDLER_EXIT: ZH_ESPNOW_EVENT_HANDLER_EXIT:
heap_caps_free(recv_data->data); heap_caps_free(recv_data->data);
break; break;
case ZH_ESPNOW_ON_SEND_EVENT:; case ZH_ESPNOW_ON_SEND_EVENT:
zh_espnow_event_on_send_t *send_data = event_data;
if (send_data->status == ZH_ESPNOW_SEND_FAIL)
{
led_config->gateway_is_available = false;
vTaskSuspend(led_config->attributes_message_task);
vTaskSuspend(led_config->keep_alive_message_task);
}
break; break;
default: default:
break; break;

29
main/zh_espnow_led.h
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@ -38,10 +38,15 @@
#define ZH_LED_KEEP_ALIVE_MESSAGE_FREQUENCY 10 // Frequency of sending a led keep alive message to the gateway (in seconds). #define ZH_LED_KEEP_ALIVE_MESSAGE_FREQUENCY 10 // Frequency of sending a led keep alive message to the gateway (in seconds).
#define ZH_LED_ATTRIBUTES_MESSAGE_FREQUENCY 60 // Frequency of sending a led attributes message to the gateway (in seconds). #define ZH_LED_ATTRIBUTES_MESSAGE_FREQUENCY 60 // Frequency of sending a led attributes message to the gateway (in seconds).
#define ZH_LED_HARDWARE_CONFIG_MESSAGE_FREQUENCY 60 // Frequency of sending a led hardware config message to the gateway (in seconds).
#define ZH_LED_CONFIG_MESSAGE_FREQUENCY 60 // Frequency of sending a led config message to the gateway (in seconds).
#define ZH_LED_STATUS_MESSAGE_FREQUENCY 60 // Frequency of sending a led status message to the gateway (in seconds).
#define ZH_MESSAGE_TASK_PRIORITY 5 // Prioritize the task of sending messages to the gateway. #define ZH_MESSAGE_TASK_PRIORITY 5 // Prioritize the task of sending messages to the gateway.
#define ZH_MESSAGE_STACK_SIZE 2048 // The stack size of the task of sending messages to the gateway. #define ZH_MESSAGE_STACK_SIZE 2048 // The stack size of the task of sending messages to the gateway.
static bool is_first_boot = false;
typedef struct // Structure of data exchange between tasks, functions and event handlers. typedef struct // Structure of data exchange between tasks, functions and event handlers.
{ {
struct // Storage structure of led hardware configuration data. struct // Storage structure of led hardware configuration data.
@ -71,10 +76,7 @@ typedef struct // Structure of data exchange between tasks, functions and event
uint8_t green; // Green color channel. uint8_t green; // Green color channel.
uint8_t blue; // Blue color channel. uint8_t blue; // Blue color channel.
} channel; } channel;
volatile bool gateway_is_available; // Gateway availability status flag. @note Used to control the tasks when the gateway connection is established / lost.
uint8_t gateway_mac[6]; // Gateway MAC address. uint8_t gateway_mac[6]; // Gateway MAC address.
TaskHandle_t attributes_message_task; // Unique task handle for zh_send_led_attributes_message_task().
TaskHandle_t keep_alive_message_task; // Unique task handle for zh_send_led_keep_alive_message_task().
const esp_partition_t *update_partition; // Next update partition. const esp_partition_t *update_partition; // Next update partition.
esp_ota_handle_t update_handle; // Unique OTA handle. esp_ota_handle_t update_handle; // Unique OTA handle.
uint16_t ota_message_part_number; // The sequence number of the firmware upgrade part. @note Used to verify that all parts have been received. uint16_t ota_message_part_number; // The sequence number of the firmware upgrade part. @note Used to verify that all parts have been received.
@ -138,23 +140,23 @@ int32_t zh_map(int32_t value, int32_t in_min, int32_t in_max, int32_t out_min, i
/** /**
* @brief Task for prepare the led attributes message and sending it to the gateway. * @brief Task for prepare the led attributes message and sending it to the gateway.
* *
* @param[in,out] pvParameter Pointer to structure of data exchange between tasks, functions and event handlers. * @param[in] pvParameter Pointer to structure of data exchange between tasks, functions and event handlers.
*/ */
void zh_send_led_attributes_message_task(void *pvParameter); void zh_send_led_attributes_message_task(void *pvParameter);
/** /**
* @brief Function for prepare the led configuration message and sending it to the gateway. * @brief Task for prepare the led configuration message and sending it to the gateway.
* *
* @param[in] led_config Pointer to the structure of data exchange between tasks, functions and event handlers. * @param[in] pvParameter Pointer to the structure of data exchange between tasks, functions and event handlers.
*/ */
void zh_send_led_config_message(const led_config_t *led_config); void zh_send_led_config_message_task(void *pvParameter);
/** /**
* @brief Function for prepare the led hardware configuration message and sending it to the gateway. * @brief Task for prepare the led hardware configuration message and sending it to the gateway.
* *
* @param[in] led_config Pointer to the structure of data exchange between tasks, functions and event handlers. * @param[in] pvParameter Pointer to the structure of data exchange between tasks, functions and event handlers.
*/ */
void zh_send_led_hardware_config_message(const led_config_t *led_config); void zh_send_led_hardware_config_message_task(void *pvParameter);
/** /**
* @brief Task for prepare the led keep alive message and sending it to the gateway. * @brief Task for prepare the led keep alive message and sending it to the gateway.
@ -163,6 +165,13 @@ void zh_send_led_hardware_config_message(const led_config_t *led_config);
*/ */
void zh_send_led_keep_alive_message_task(void *pvParameter); void zh_send_led_keep_alive_message_task(void *pvParameter);
/**
* @brief Task for prepare the sled status message and sending it to the gateway.
*
* @param[in] pvParameter Pointer to the structure of data exchange between tasks, functions and event handlers.
*/
void zh_send_led_status_message_task(void *pvParameter);
/** /**
* @brief Function for prepare the led status message and sending it to the gateway. * @brief Function for prepare the led status message and sending it to the gateway.
* *

2
version.txt
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@ -1 +1 @@
2.0.1 2.1.0