ESPMegaPRO-v3-SDK/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/ESPMegaIoT.hpp

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#pragma once
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#include <ExpansionCard.hpp>
#include <AnalogCard.hpp>
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#include <AnalogIoT.hpp>
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#include <DigitalInputCard.hpp>
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#include <DigitalInputIoT.hpp>
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#include <DigitalOutputCard.hpp>
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#include <DigitalOutputIoT.hpp>
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#include <ClimateCard.hpp>
#include <ClimateIoT.hpp>
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#include <CurrentTransformerCard.hpp>
#include <CurrentTransformerIoT.hpp>
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#include <IoTComponent.hpp>
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#include <PubSubClient.h>
#include <ETH.h>
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#include <WiFi.h>
#include <FRAM.h>
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#include <map>
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// MQTT Connection Parameters
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#define TCP_TIMEOUT_SEC 5
#define MQTT_RECONNECT_INTERVAL 30000
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// FRAM Address for ESPMegaPROIoT
// Starts from 34
// Ends at 300 (inclusive)
// Total of 267 bytes
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#define IOT_FRAM_ADDRESS 34
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/**
* @brief The network configuration struct
* @note This struct will be saved to FRAM when calling saveNetworkConfig
*/
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struct NetworkConfig
{
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IPAddress ip; ///< The IP address
IPAddress gateway; ///< The gateway address
IPAddress subnet; ///< The subnet mask
IPAddress dns1; ///< The primary DNS server
IPAddress dns2; ///< The secondary DNS server
char hostname[32]; ///< The hostname
bool useStaticIp; ///< Whether to use a static IP, if false, DHCP will be used
bool useWifi; ///< Whether to use WiFi or Ethernet, if false, Ethernet will be used
bool wifiUseAuth; ///< Whether to use WiFi authentication, if false, ssid and password will be ignored
char ssid[32]; ///< The WiFi SSID, even if wifiUseAuth is false, this should be set
char password[32]; ///< The WiFi password, even if wifiUseAuth is false, this should be set
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};
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/**
* @brief The MQTT configuration struct
* @note This struct will be saved to FRAM when calling saveMqttConfig
*/
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struct MqttConfig
{
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char mqtt_server[32]; ///< The MQTT server address
uint16_t mqtt_port; ///< The MQTT server port
char mqtt_user[32]; ///< The MQTT username, even if mqtt_useauth is false, this should be set
char mqtt_password[32]; ///< The MQTT password, even if mqtt_useauth is false, this should be set
bool mqtt_useauth; ///< Whether to use MQTT authentication, if false, mqtt_user and mqtt_password will be ignored
char base_topic[32]; ///< The base topic for the MQTT messages
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};
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/**
* @brief The ESPMegaIoT class is a class that is used to interface with the ESPMegaPRO IoT module
*
* This class allows you to register IoT components and interface with them through MQTT.
* This class also manages the network and MQTT connections for you.
* Supports both WiFi and Ethernet.
* Also allows you to save and load network and MQTT configurations to and from FRAM.
* Also provides MQTT helpers for publishing and subscribing to topics.
*/
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class ESPMegaIoT
{
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public:
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ESPMegaIoT();
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~ESPMegaIoT();
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void intr_begin(ExpansionCard *cards[]);
void loop();
void registerCard(uint8_t card_id);
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void unregisterCard(uint8_t card_id);
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void publishCard(uint8_t card_id);
// Publish topic appended with base topic
void publishRelative(const char *topic, const char *payload);
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// Subscribe topic appended with base topic
void subscribeRelative(const char *topic);
void subscribe(const char *topic);
void unsubscribeFromTopic(const char *topic);
void connectToWifi(const char *ssid, const char *password);
void connectToWifi(const char *ssid);
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void disconnectFromWifi();
bool wifiConnected();
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void ethernetBegin();
void loadNetworkConfig();
void saveNetworkConfig();
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NetworkConfig* getNetworkConfig();
MqttConfig* getMqttConfig();
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void setMqttConfig(MqttConfig mqtt_config);
void saveMqttConfig();
void loadMqttConfig();
void connectNetwork();
void setNetworkConfig(NetworkConfig network_config);
void connectToMqtt();
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bool connectToMqtt(char *client_id, char *mqtt_server, uint16_t mqtt_port, char *mqtt_user, char *mqtt_password);
bool connectToMqtt(char *client_id, char *mqtt_server, uint16_t mqtt_port);
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bool mqttConnected();
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void disconnectFromMqtt();
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void publish(const char *topic, const char *payload);
uint8_t registerMqttCallback(std::function<void(char *, char *)> callback);
void unregisterMqttCallback(uint8_t handler);
uint8_t registerRelativeMqttCallback(std::function<void(char *, char *)> callback);
void unregisterRelativeMqttCallback(uint8_t handler);
uint8_t registerSubscribeCallback(std::function<void(void)> callback);
void unregisterSubscribeCallback(uint8_t handler);
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void setBaseTopic(char *base_topic);
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void bindEthernetInterface(ETHClass *ethernetIface);
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bool networkConnected();
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void bindFRAM(FRAM *fram);
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IoTComponent* getComponent(uint8_t card_id);
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IPAddress getETHIp();
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IPAddress getWifiIp();
IPAddress getIp();
String getETHMac();
String getWifiMac();
String getMac();
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private:
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FRAM *fram;
bool useWifi;
bool WifiUseAuth;
char ssid[32];
char password[32];
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WiFiClient tcpClient;
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void sessionKeepAlive();
bool mqttReconnect();
void wifiReconnect();
void mqttSubscribe();
void mqttCallback(char *topic, byte *payload, unsigned int length);
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uint8_t mqtt_callbacks_handler_index;
uint8_t mqtt_relative_callbacks_handler_index;
uint8_t subscribe_callbacks_handler_index;
std::map<uint8_t, std::function<void(char*, char*)>> mqtt_callbacks;
std::map<uint8_t, std::function<void(char*, char*)>> mqtt_relative_callbacks;
std::map<uint8_t, std::function<void(void)>> subscribe_callbacks;
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void publishRelative(uint8_t card_id, char *topic, char *payload);
bool active;
PubSubClient mqtt;
IoTComponent *components[255];
char payload_buffer[200];
uint8_t base_topic_length;
ExpansionCard **cards; // Points to card array in ESPMegaPRO Core
// MQTT Connection Parameters
bool mqtt_connected;
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NetworkConfig network_config;
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MqttConfig mqtt_config;
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ETHClass *ethernetIface;
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};