ESPMegaPRO-v3-SDK/Template Project/lib/ESPMegaPRO/DigitalOutputIoT.cpp

#include <DigitalOutputIoT.hpp>

DigitalOutputIoT::DigitalOutputIoT() {
    this->state_report_topic = new char[10];
    this->value_report_topic = new char[10];
}

DigitalOutputIoT::~DigitalOutputIoT() {
    delete[] this->state_report_topic;
    delete[] this->value_report_topic;
}

bool DigitalOutputIoT::begin(uint8_t card_id, ExpansionCard *card, PubSubClient *mqtt, char *base_topic) {
    this->mqtt = mqtt;
    this->base_topic = base_topic;
    this->card = (DigitalOutputCard *) card;
    if(!card->begin()) return false;
    this-> card_id = card_id;
    this->set_state_length = strlen(SET_STATE_TOPIC);
    this->set_value_length = strlen(SET_VALUE_TOPIC);
    this->state_length = strlen(STATE_TOPIC);
    this->value_length = strlen(VALUE_TOPIC);
    strcpy(this->state_report_topic, "00/state");
    strcpy(this->value_report_topic, "00/value");
    return true;
}

// Protocol for digital output card
// Note that pin is always 2 characters long and padded with 0 if necessary
// Set pin state topic: <pin>/set/state payload: 0/1
// Set pin pwm topic: <pin>/set/value payload: 0-4095
// Publish pin state topic: <pin>/state payload: 0/1
// Publish pin pwm topic: <pin>/value payload: 0-4095
// Publish all topic: requeststate payload: N/A
// Enable/disable publish topic: publish_enable payload: 0/1
void DigitalOutputIoT::handleMqttMessage(char *topic, char *payload) {
    uint8_t topic_length = strlen(topic);
    if(this-> processSetStateMessage(topic, payload, topic_length)) return;
    if(this-> processSetValueMessage(topic, payload, topic_length)) return;
    if(this-> processRequestStateMessage(topic, payload, topic_length)) return;
}

bool DigitalOutputIoT::processSetStateMessage(char *topic, char *payload, uint8_t topic_length) {
    // Check if the topic is a set state topic
    // The correct format is <pin>/set/state
    // This mean that the topic must end with /set/state
    // Check if the 3rd character is /
    if(topic[2] != '/') {
        return false;
    }
    // The topic must be set_state_length + 2 characters long
    if(topic_length != set_state_length + 2) {
        return false;
    }
    // Check if the topic ends with /set/state
    if (!strncmp(topic+2, SET_STATE_TOPIC, set_state_length)) {
        // Get the pin number
        uint8_t pin = (topic[0] - '0')*10 + (topic[1] - '0');
        // Get the state
        bool state = false;
        char state_char = payload[0];
        if (state_char == '0') {
            bool state = false;
        } else if (state_char == '1') {
            bool state = true;
        } else {
            return false;
        }
        // Set the state
        card->digitalWrite(pin, state);
        return true;
    }
    return false;
}

bool DigitalOutputIoT::processSetValueMessage(char *topic, char *payload, uint8_t topic_length) {
    // Check if the topic is a set value topic
    // The correct format is <pin>/set/value
    // This mean that the topic must end with /set/value
    // Check if the 3rd character is /
    if(topic[2] != '/') {
        return false;
    }
    // The topic must be set_value_length + 2 characters long
    if(topic_length != set_value_length + 2) {
        return false;
    }
    // Check if the topic ends with /set/value
    if (!strncmp(topic+2, SET_VALUE_TOPIC, set_value_length)) {
        // Get the pin number
        uint8_t pin = (topic[0] - '0')*10 + (topic[1] - '0');
        // Get the value
        uint16_t value = atoi(payload);
        // Set the value
        card->analogWrite(pin, value);
        return true;
    }
    return false;
}

bool DigitalOutputIoT::processRequestStateMessage(char *topic, char *payload, uint8_t topic_length) {
    // Check if the topic is a request state topic
    // The correct format is requeststate
    // This mean that the topic must be request_state_length characters long
    // The topic must be request_state_length characters long
    if(topic_length != request_state_length) {
        return false;
    }
    // Check if the topic is requeststate
    if (!strncmp(topic, REQUEST_STATE_TOPIC, request_state_length)) {
        // Publish the state of all pins
        publishDigitalOutputs();
        return true;
    }
    return false;
}

void DigitalOutputIoT::publishDigitalOutputs() {
    if(!digital_outputs_publish_enabled) return;
    for(int i = 1; i <= 16; i++) {
        publishDigitalOutput(i);
    }
}

void DigitalOutputIoT::publishDigitalOutput(uint8_t pin) {
    publishDigitalOutputState(pin);
    publishDigitalOutputValue(pin);
}

void DigitalOutputIoT::publishDigitalOutputState(uint8_t pin) {
    if(!digital_outputs_publish_enabled) return;
    state_report_topic[0] = pin / 10 + '0';
    state_report_topic[1] = pin % 10 + '0';
    mqtt->publish(state_report_topic, card->getState(pin) ? "1" : "0");
}   

void DigitalOutputIoT::publishDigitalOutputValue(uint8_t pin) {
    if(!digital_outputs_publish_enabled) return;
    value_report_topic[0] = pin / 10 + '0';
    value_report_topic[1] = pin % 10 + '0';
    char payload[5];
    sprintf(payload, "%d", card->getValue(pin));
    mqtt->publish(value_report_topic, payload);
}

void DigitalOutputIoT::setDigitalOutputsPublishEnabled(bool enabled) {
    digital_outputs_publish_enabled = enabled;
}

void DigitalOutputIoT::handleValueChange(uint8_t pin, bool state, uint16_t value) {
    publishDigitalOutput(pin);
    if(value_change_callback != NULL) {
        value_change_callback(pin, state, value);
    }
}

void DigitalOutputIoT::registerValueChangeCallback(void (*callback)(uint8_t, bool, uint16_t)) {
    value_change_callback = callback;
}

void DigitalOutputIoT::deregisterValueChangeCallback() {
    value_change_callback = NULL;
}

void DigitalOutputIoT::publishReport() {
    publishDigitalOutputs();
}

uint8_t DigitalOutputIoT::getType() {
    return CARD_TYPE_DIGITAL_OUTPUT;
}

void DigitalOutputIoT::subscribe() {
    // Subscribe to all set state topics
    for(int i = 1; i <= 16; i++) {
        char topic[10];
        sprintf(topic, "%02d/set/state", i);
        subscribeRelative(topic);
    }
    // Subscribe to all set value topics
    for(int i = 1; i <= 16; i++) {
        char topic[10];
        sprintf(topic, "%02d/set/value", i);
        subscribeRelative(topic);
    }
    // Subscribe to request state topic
    subscribeRelative(REQUEST_STATE_TOPIC);
    // Subscribe to publish enable topic
    subscribeRelative(PUBLISH_ENABLE_TOPIC);
}

void DigitalOutputIoT::loop() {
}
IoT Component 2023-12-28 05:46:39 +00:00			`#include <DigitalOutputIoT.hpp>`

iot components callback 2023-12-28 06:14:18 +00:00			`DigitalOutputIoT::DigitalOutputIoT() {`
			`this->state_report_topic = new char[10];`
			`this->value_report_topic = new char[10];`
			`}`

			`DigitalOutputIoT::~DigitalOutputIoT() {`
			`delete[] this->state_report_topic;`
			`delete[] this->value_report_topic;`
			`}`

initial mqtt implementation 2023-12-28 07:08:10 +00:00			`bool DigitalOutputIoT::begin(uint8_t card_id, ExpansionCard card, PubSubClient mqtt, char *base_topic) {`
initializer changes 2023-12-28 06:34:51 +00:00			`this->mqtt = mqtt;`
			`this->base_topic = base_topic;`
IoT Component 2023-12-28 05:46:39 +00:00			`this->card = (DigitalOutputCard *) card;`
initial mqtt implementation 2023-12-28 07:08:10 +00:00			`if(!card->begin()) return false;`
			`this-> card_id = card_id;`
IoT Component 2023-12-28 05:46:39 +00:00			`this->set_state_length = strlen(SET_STATE_TOPIC);`
			`this->set_value_length = strlen(SET_VALUE_TOPIC);`
			`this->state_length = strlen(STATE_TOPIC);`
			`this->value_length = strlen(VALUE_TOPIC);`
iot components callback 2023-12-28 06:14:18 +00:00			`strcpy(this->state_report_topic, "00/state");`
			`strcpy(this->value_report_topic, "00/value");`
IoT Component 2023-12-28 05:46:39 +00:00			`return true;`
			`}`

			`// Protocol for digital output card`
			`// Note that pin is always 2 characters long and padded with 0 if necessary`
			`// Set pin state topic: <pin>/set/state payload: 0/1`
			`// Set pin pwm topic: <pin>/set/value payload: 0-4095`
			`// Publish pin state topic: <pin>/state payload: 0/1`
			`// Publish pin pwm topic: <pin>/value payload: 0-4095`
			`// Publish all topic: requeststate payload: N/A`
			`// Enable/disable publish topic: publish_enable payload: 0/1`
			`void DigitalOutputIoT::handleMqttMessage(char topic, char payload) {`
			`uint8_t topic_length = strlen(topic);`
			`if(this-> processSetStateMessage(topic, payload, topic_length)) return;`
			`if(this-> processSetValueMessage(topic, payload, topic_length)) return;`
			`if(this-> processRequestStateMessage(topic, payload, topic_length)) return;`
			`}`

			`bool DigitalOutputIoT::processSetStateMessage(char topic, char payload, uint8_t topic_length) {`
			`// Check if the topic is a set state topic`
			`// The correct format is <pin>/set/state`
			`// This mean that the topic must end with /set/state`
			`// Check if the 3rd character is /`
			`if(topic[2] != '/') {`
			`return false;`
			`}`
			`// The topic must be set_state_length + 2 characters long`
			`if(topic_length != set_state_length + 2) {`
			`return false;`
			`}`
			`// Check if the topic ends with /set/state`
			`if (!strncmp(topic+2, SET_STATE_TOPIC, set_state_length)) {`
			`// Get the pin number`
			`uint8_t pin = (topic[0] - '0')*10 + (topic[1] - '0');`
			`// Get the state`
			`bool state = false;`
			`char state_char = payload[0];`
			`if (state_char == '0') {`
			`bool state = false;`
			`} else if (state_char == '1') {`
			`bool state = true;`
			`} else {`
			`return false;`
			`}`
			`// Set the state`
			`card->digitalWrite(pin, state);`
			`return true;`
			`}`
			`return false;`
			`}`

			`bool DigitalOutputIoT::processSetValueMessage(char topic, char payload, uint8_t topic_length) {`
			`// Check if the topic is a set value topic`
			`// The correct format is <pin>/set/value`
			`// This mean that the topic must end with /set/value`
			`// Check if the 3rd character is /`
			`if(topic[2] != '/') {`
			`return false;`
			`}`
			`// The topic must be set_value_length + 2 characters long`
			`if(topic_length != set_value_length + 2) {`
			`return false;`
			`}`
			`// Check if the topic ends with /set/value`
			`if (!strncmp(topic+2, SET_VALUE_TOPIC, set_value_length)) {`
			`// Get the pin number`
			`uint8_t pin = (topic[0] - '0')*10 + (topic[1] - '0');`
			`// Get the value`
			`uint16_t value = atoi(payload);`
			`// Set the value`
			`card->analogWrite(pin, value);`
			`return true;`
			`}`
			`return false;`
			`}`

			`bool DigitalOutputIoT::processRequestStateMessage(char topic, char payload, uint8_t topic_length) {`
			`// Check if the topic is a request state topic`
			`// The correct format is requeststate`
			`// This mean that the topic must be request_state_length characters long`
			`// The topic must be request_state_length characters long`
			`if(topic_length != request_state_length) {`
			`return false;`
			`}`
			`// Check if the topic is requeststate`
			`if (!strncmp(topic, REQUEST_STATE_TOPIC, request_state_length)) {`
			`// Publish the state of all pins`
			`publishDigitalOutputs();`
			`return true;`
			`}`
			`return false;`
			`}`

			`void DigitalOutputIoT::publishDigitalOutputs() {`
iot components callback 2023-12-28 06:14:18 +00:00			`if(!digital_outputs_publish_enabled) return;`
			`for(int i = 1; i <= 16; i++) {`
			`publishDigitalOutput(i);`
			`}`
IoT Component 2023-12-28 05:46:39 +00:00			`}`

			`void DigitalOutputIoT::publishDigitalOutput(uint8_t pin) {`
iot components callback 2023-12-28 06:14:18 +00:00			`publishDigitalOutputState(pin);`
			`publishDigitalOutputValue(pin);`
			`}`

			`void DigitalOutputIoT::publishDigitalOutputState(uint8_t pin) {`
			`if(!digital_outputs_publish_enabled) return;`
			`state_report_topic[0] = pin / 10 + '0';`
			`state_report_topic[1] = pin % 10 + '0';`
			`mqtt->publish(state_report_topic, card->getState(pin) ? "1" : "0");`
			`}`

			`void DigitalOutputIoT::publishDigitalOutputValue(uint8_t pin) {`
			`if(!digital_outputs_publish_enabled) return;`
			`value_report_topic[0] = pin / 10 + '0';`
			`value_report_topic[1] = pin % 10 + '0';`
			`char payload[5];`
			`sprintf(payload, "%d", card->getValue(pin));`
			`mqtt->publish(value_report_topic, payload);`
IoT Component 2023-12-28 05:46:39 +00:00			`}`

			`void DigitalOutputIoT::setDigitalOutputsPublishEnabled(bool enabled) {`
			`digital_outputs_publish_enabled = enabled;`
			`}`

iot components callback 2023-12-28 06:14:18 +00:00			`void DigitalOutputIoT::handleValueChange(uint8_t pin, bool state, uint16_t value) {`
			`publishDigitalOutput(pin);`
			`if(value_change_callback != NULL) {`
			`value_change_callback(pin, state, value);`
IoT Component 2023-12-28 05:46:39 +00:00			`}`
			`}`

			`void DigitalOutputIoT::registerValueChangeCallback(void (*callback)(uint8_t, bool, uint16_t)) {`
iot components callback 2023-12-28 06:14:18 +00:00			`value_change_callback = callback;`
			`}`

			`void DigitalOutputIoT::deregisterValueChangeCallback() {`
			`value_change_callback = NULL;`
IoT Component 2023-12-28 05:46:39 +00:00			`}`
iot components callback 2023-12-28 06:14:18 +00:00
			`void DigitalOutputIoT::publishReport() {`
			`publishDigitalOutputs();`
			`}`

			`uint8_t DigitalOutputIoT::getType() {`
			`return CARD_TYPE_DIGITAL_OUTPUT;`
complete iot structure 2023-12-28 07:52:52 +00:00			`}`

			`void DigitalOutputIoT::subscribe() {`
			`// Subscribe to all set state topics`
			`for(int i = 1; i <= 16; i++) {`
			`char topic[10];`
			`sprintf(topic, "%02d/set/state", i);`
			`subscribeRelative(topic);`
			`}`
			`// Subscribe to all set value topics`
			`for(int i = 1; i <= 16; i++) {`
			`char topic[10];`
			`sprintf(topic, "%02d/set/value", i);`
			`subscribeRelative(topic);`
			`}`
			`// Subscribe to request state topic`
			`subscribeRelative(REQUEST_STATE_TOPIC);`
			`// Subscribe to publish enable topic`
			`subscribeRelative(PUBLISH_ENABLE_TOPIC);`
			`}`

			`void DigitalOutputIoT::loop() {`
iot components callback 2023-12-28 06:14:18 +00:00			`}`