fix mqtt ptr init bug

2023-12-31 17:55:13 +07:00 · 2023-12-31 17:55:13 +07:00 · 14767df9ec
parent 443a02c319
commit 14767df9ec
4 changed files with 93 additions and 41 deletions
--- a/ESPMegaPRO-firmware/lib/ESPMegaPRO/ESPMegaIoT.cpp
+++ b/ESPMegaPRO-firmware/lib/ESPMegaPRO/ESPMegaIoT.cpp
@ -11,6 +11,9 @@ ESPMegaIoT::ESPMegaIoT() : mqtt(tcpClient)
    }
    active = false;
    mqtt_connected = false;
+    this->user_mqtt_callback = nullptr;
+    this->user_relative_mqtt_callback = nullptr;
+    this->user_subscribe_callback = nullptr;
 }

 ESPMegaIoT::~ESPMegaIoT()
@ -177,6 +180,12 @@ bool ESPMegaIoT::connectToMqtt(char *client_id, char *mqtt_server, uint16_t mqtt
    mqtt.setServer(mqtt_server, mqtt_port);
    auto boundCallback = std::bind(&ESPMegaIoT::mqttCallback, this, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3);
    mqtt.setCallback(boundCallback);
+    if (mqtt_user == nullptr || mqtt_password == nullptr || strlen(mqtt_user) == 0 || strlen(mqtt_password) == 0)
+    {
+        mqtt_connected = false;
+        ESP_LOGE("ESPMegaIoT", "MQTT Connection failed: Username or password not set but MQTT use_auth is true");
+        return false;
+    }
    if (mqtt.connect(client_id, mqtt_user, mqtt_password))
    {
        sessionKeepAlive();
@ -197,13 +206,18 @@ bool ESPMegaIoT::connectToMqtt(char *client_id, char *mqtt_server, uint16_t mqtt
 }
 bool ESPMegaIoT::connectToMqtt(char *client_id, char *mqtt_server, uint16_t mqtt_port)
 {
+    ESP_LOGD("ESPMegaIoT", "Setting MQTT server to %s:%d", mqtt_server, mqtt_port);
    mqtt.setServer(mqtt_server, mqtt_port);
    auto boundCallback = std::bind(&ESPMegaIoT::mqttCallback, this, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3);
+    ESP_LOGD("ESPMegaIoT", "Binding MQTT callback");
    mqtt.setCallback(boundCallback);
    if (mqtt.connect(client_id))
    {
+        ESP_LOGD("ESPMegaIoT", "MQTT Connected, Calling session keep alive");
        sessionKeepAlive();
+        ESP_LOGD("ESPMegaIoT", "Subscribing to topics");
        mqttSubscribe();
+        ESP_LOGD("ESPMegaIoT", "Publishing reports");
        // Publish all cards
        for (int i = 0; i < 255; i++)
        {
@ -212,7 +226,7 @@ bool ESPMegaIoT::connectToMqtt(char *client_id, char *mqtt_server, uint16_t mqtt
                components[i]->publishReport();
            }
        }
-        ESP_LOGI("ESPMegaIoT", "MQTT Connected");
+        ESP_LOGI("ESPMegaIoT", "MQTT Connected OK.");
        mqtt_connected = true;
        return true;
    }
@ -234,16 +248,22 @@ void ESPMegaIoT::registerMqttCallback(void (*callback)(char *, char *))
 }
 void ESPMegaIoT::mqttSubscribe()
 {
-    if (user_subscribe_callback != NULL)
+    ESP_LOGD("ESPMegaIoT", "Begin MQTT Subscription");
+    if (user_subscribe_callback != nullptr)
    {
+        ESP_LOGD("ESPMegaIoT", "Subscribing user callback");
        user_subscribe_callback();
+        mqtt.loop();
    }
    // Subscribe to all topics
    for (int i = 0; i < 255; i++)
    {
+        ESP_LOGV("ESPMegaIoT","Scanning component %d", i);
        if (components[i] != NULL)
        {
+            ESP_LOGD("ESPMegaIoT","Subscribing component %d", i);
            components[i]->subscribe();
+            mqtt.loop();
        }
    }
 }
@ -292,6 +312,7 @@ void ESPMegaIoT::publishRelative(char *topic, char *payload)
    char absolute_topic[100];
    sprintf(absolute_topic, "%s/%s", base_topic, topic);
    mqtt.publish(absolute_topic, payload);
+    mqtt.loop();
 }

 void ESPMegaIoT::subscribeRelative(char *topic)
@ -299,6 +320,7 @@ void ESPMegaIoT::subscribeRelative(char *topic)
    char absolute_topic[100];
    sprintf(absolute_topic, "%s/%s", base_topic, topic);
    mqtt.subscribe(absolute_topic);
+    mqtt.loop();
 }

 void ESPMegaIoT::registerSubscribeCallback(void (*callback)(void))
@ -319,12 +341,12 @@ void ESPMegaIoT::loadNetworkConfig()
    network_config.subnet = fram->read32(IOT_FRAM_ADDRESS + 8);
    network_config.dns1 = fram->read32(IOT_FRAM_ADDRESS + 12);
    network_config.dns2 = fram->read32(IOT_FRAM_ADDRESS + 16);
-    fram->read(IOT_FRAM_ADDRESS + 20, (uint8_t*)network_config.hostname, 32);
+    fram->read(IOT_FRAM_ADDRESS + 20, (uint8_t *)network_config.hostname, 32);
    network_config.useStaticIp = fram->read8(IOT_FRAM_ADDRESS + 52);
    network_config.useWifi = fram->read8(IOT_FRAM_ADDRESS + 53);
    network_config.wifiUseAuth = fram->read8(IOT_FRAM_ADDRESS + 54);
-    fram->read(IOT_FRAM_ADDRESS + 55, (uint8_t*)network_config.ssid, 32);
-    fram->read(IOT_FRAM_ADDRESS + 87, (uint8_t*)network_config.password, 32);
+    fram->read(IOT_FRAM_ADDRESS + 55, (uint8_t *)network_config.ssid, 32);
+    fram->read(IOT_FRAM_ADDRESS + 87, (uint8_t *)network_config.password, 32);
 }

 void ESPMegaIoT::saveNetworkConfig()
@ -335,13 +357,12 @@ void ESPMegaIoT::saveNetworkConfig()
    fram->write32(IOT_FRAM_ADDRESS + 8, network_config.subnet);
    fram->write32(IOT_FRAM_ADDRESS + 12, network_config.dns1);
    fram->write32(IOT_FRAM_ADDRESS + 16, network_config.dns2);
-    fram->write(IOT_FRAM_ADDRESS + 20, (uint8_t*)network_config.hostname, 32);
+    fram->write(IOT_FRAM_ADDRESS + 20, (uint8_t *)network_config.hostname, 32);
    fram->write8(IOT_FRAM_ADDRESS + 52, network_config.useStaticIp);
    fram->write8(IOT_FRAM_ADDRESS + 53, network_config.useWifi);
    fram->write8(IOT_FRAM_ADDRESS + 54, network_config.wifiUseAuth);
-    fram->write(IOT_FRAM_ADDRESS + 55, (uint8_t*)network_config.ssid, 32);
-    fram->write(IOT_FRAM_ADDRESS + 87, (uint8_t*)network_config.password, 32);
-    
+    fram->write(IOT_FRAM_ADDRESS + 55, (uint8_t *)network_config.ssid, 32);
+    fram->write(IOT_FRAM_ADDRESS + 87, (uint8_t *)network_config.password, 32);
 }

 void ESPMegaIoT::ethernetBegin()
@ -354,29 +375,35 @@ void ESPMegaIoT::loadMqttConfig()
    // Load the mqtt config from FRAM
    // We skip bytes 119-127 because they are reserved for the network config
    mqtt_config.mqtt_port = fram->read16(IOT_FRAM_ADDRESS + 128);
-    fram->read(IOT_FRAM_ADDRESS + 130, (uint8_t*)mqtt_config.mqtt_server, 32);
-    fram->read(IOT_FRAM_ADDRESS + 162, (uint8_t*)mqtt_config.mqtt_user, 32);
-    fram->read(IOT_FRAM_ADDRESS + 194, (uint8_t*)mqtt_config.mqtt_password, 32);
+    fram->read(IOT_FRAM_ADDRESS + 130, (uint8_t *)mqtt_config.mqtt_server, 32);
+    fram->read(IOT_FRAM_ADDRESS + 162, (uint8_t *)mqtt_config.mqtt_user, 32);
+    fram->read(IOT_FRAM_ADDRESS + 194, (uint8_t *)mqtt_config.mqtt_password, 32);
    mqtt_config.mqtt_useauth = fram->read8(IOT_FRAM_ADDRESS + 226);
-    fram->read(IOT_FRAM_ADDRESS + 227, (uint8_t*)mqtt_config.base_topic, 32);
+    fram->read(IOT_FRAM_ADDRESS + 227, (uint8_t *)mqtt_config.base_topic, 32);
 }

 void ESPMegaIoT::saveMqttConfig()
 {
    fram->write16(IOT_FRAM_ADDRESS + 128, mqtt_config.mqtt_port);
-    fram->write(IOT_FRAM_ADDRESS + 130, (uint8_t*)mqtt_config.mqtt_server, 32);
-    fram->write(IOT_FRAM_ADDRESS + 162, (uint8_t*)mqtt_config.mqtt_user, 32);
-    fram->write(IOT_FRAM_ADDRESS + 194, (uint8_t*)mqtt_config.mqtt_password, 32);
+    fram->write(IOT_FRAM_ADDRESS + 130, (uint8_t *)mqtt_config.mqtt_server, 32);
+    fram->write(IOT_FRAM_ADDRESS + 162, (uint8_t *)mqtt_config.mqtt_user, 32);
+    fram->write(IOT_FRAM_ADDRESS + 194, (uint8_t *)mqtt_config.mqtt_password, 32);
    fram->write8(IOT_FRAM_ADDRESS + 226, mqtt_config.mqtt_useauth);
-    fram->write(IOT_FRAM_ADDRESS + 227, (uint8_t*)mqtt_config.base_topic, 32);
+    fram->write(IOT_FRAM_ADDRESS + 227, (uint8_t *)mqtt_config.base_topic, 32);
 }

 void ESPMegaIoT::connectToMqtt()
 {
    if (mqtt_config.mqtt_useauth)
+    {
+        ESP_LOGD("ESPMegaIoT", "Connecting to MQTT with auth");
        this->connectToMqtt(network_config.hostname, mqtt_config.mqtt_server, mqtt_config.mqtt_port, mqtt_config.mqtt_user, mqtt_config.mqtt_password);
+    }
    else
+    {
+        ESP_LOGD("ESPMegaIoT", "Connecting to MQTT without auth");
        this->connectToMqtt(network_config.hostname, mqtt_config.mqtt_server, mqtt_config.mqtt_port);
+    }
 }

 void ESPMegaIoT::connectNetwork()
@ -415,12 +442,12 @@ IoTComponent *ESPMegaIoT::getComponent(uint8_t card_id)
    return components[card_id];
 }

-NetworkConfig* ESPMegaIoT::getNetworkConfig()
+NetworkConfig *ESPMegaIoT::getNetworkConfig()
 {
    return &network_config;
 }

-MqttConfig* ESPMegaIoT::getMqttConfig()
+MqttConfig *ESPMegaIoT::getMqttConfig()
 {
    return &mqtt_config;
 }
--- a/ESPMegaPRO-firmware/lib/ESPMegaPRO/InternalDisplay.cpp
+++ b/ESPMegaPRO-firmware/lib/ESPMegaPRO/InternalDisplay.cpp
@ -163,6 +163,9 @@ void InternalDisplay::saveMQTTConfig()
    // password_set -> a text input to set the mqtt password
    // topic_set -> a text input to set the mqtt base topic
    
+    // Send the stop bytes to flush the serial buffer
+    this->sendStopBytes();
+
    // Save the mqtt server
    if(!this->getStringToBuffer("mqttsv_set.txt", this->mqttConfig->mqtt_server, 16))
        return;
@ -183,7 +186,10 @@ void InternalDisplay::saveMQTTConfig()
        return;
    
    // Save the mqtt use auth
-    this->mqttConfig->mqtt_useauth = this->getNumber("use_auth.val") == 1 ? true : false;
+    uint8_t use_auth = this->getNumber("use_auth.val");
+    Serial.print("use_auth: ");
+    Serial.println(use_auth);
+    this->mqttConfig->mqtt_useauth = use_auth  == 1 ? true : false;
    this->iot->saveMqttConfig();
    ESP.restart();
 }
--- a/ESPMegaPRO-firmware/platformio.ini
+++ b/ESPMegaPRO-firmware/platformio.ini
@ -31,4 +31,4 @@ lib_deps = adafruit/Adafruit PWM Servo Driver Library@^2.4.1
           https://github.com/me-no-dev/ESPAsyncWebServer.git
           #esphome/ESPAsyncWebServer-esphome@^3.1.0
 monitor_speed = 115200
-build_flags = -DCORE_DEBUG_LEVEL=3
+build_flags = -DCORE_DEBUG_LEVEL=1
--- a/ESPMegaPRO-firmware/src/main.cpp
+++ b/ESPMegaPRO-firmware/src/main.cpp
@ -3,16 +3,17 @@
 #include <ETH.h>
 #include <ClimateCard.hpp>

-
+// #define FRAM_DEBUG

 // Demo PLC firmware using the ESPMegaPRO OOP library

 ESPMegaPRO espmega = ESPMegaPRO();
 const uint16_t irCode[15][4][4][1] = {0};
-const char* mode_names[] = {"Off", "Fan-only", "Cool"};
-const char* fan_speed_names[] = {"Auto", "Low", "Medium", "High"};
+const char *mode_names[] = {"Off", "Fan-only", "Cool"};
+const char *fan_speed_names[] = {"Auto", "Low", "Medium", "High"};

-size_t getInfraredCode(uint8_t mode, uint8_t fan_speed, uint8_t temperature, const uint16_t** codePtr) {
+size_t getInfraredCode(uint8_t mode, uint8_t fan_speed, uint8_t temperature, const uint16_t **codePtr)
+{
    // Change the code pointer to point to the IR timing array
    *codePtr = &(irCode[mode][fan_speed][temperature][0]);
    return sizeof(irCode[mode][fan_speed][temperature]) / sizeof(uint16_t);
@ -25,19 +26,20 @@ AirConditioner ac = {
    .mode_names = mode_names,
    .fan_speeds = 4,
    .fan_speed_names = fan_speed_names,
-    .getInfraredCode = &getInfraredCode
-};
+    .getInfraredCode = &getInfraredCode};

 ClimateCard climateCard = ClimateCard(14, ac);

-void input_change_callback(uint8_t pin, uint8_t value) {
+void input_change_callback(uint8_t pin, uint8_t value)
+{
    Serial.print("Input change callback: ");
    Serial.print(pin);
    Serial.print(" ");
    Serial.println(value);
 }

-void setNetworkConfig() {
+void setNetworkConfig()
+{
    NetworkConfig config = {
        .ip = {192, 168, 0, 11},
        .gateway = {192, 168, 0, 1},
@ -54,53 +56,70 @@ void setNetworkConfig() {
    Serial.println("Setting network config");
    espmega.iot->setNetworkConfig(config);
    espmega.iot->saveNetworkConfig();
-
 }

-void setMqttConfig() {
+void setMqttConfig()
+{
    MqttConfig config = {
        .mqtt_port = 1883,
-        .mqtt_useauth = false
-    };
+        .mqtt_useauth = false};
    strcpy(config.mqtt_server, "192.168.0.26");
    strcpy(config.base_topic, "/espmegaoop");
    espmega.iot->setMqttConfig(config);
    espmega.iot->saveMqttConfig();
 }

-void setup() {
+void setup()
+{
+    ESP_LOGI("Initializer", "Starting ESPMegaPRO OOP demo");
    espmega.begin();
+    ESP_LOGI("Initializer", "Enabling IOT module");
    espmega.enableIotModule();
+    ESP_LOGI("Initializer", "Enabling Ethernet");
    ETH.begin();
+    ESP_LOGI("Initializer", "Binding Ethernet to IOT module");
    espmega.iot->bindEthernetInterface(&ETH);
+    ESP_LOGI("Initializer", "Loading network config");
    espmega.iot->loadNetworkConfig();
+    ESP_LOGI("Initializer", "Connecting to network");
    espmega.iot->connectNetwork();
+    ESP_LOGI("Initializer", "Loading MQTT config");
    espmega.iot->loadMqttConfig();
+    ESP_LOGI("Initializer", "Connecting to MQTT");
    espmega.iot->connectToMqtt();
+    ESP_LOGI("Initializer", "Registering cards 0");
    espmega.iot->registerCard(0);
+    ESP_LOGI("Initializer", "Registering cards 1");
    espmega.iot->registerCard(1);
+    ESP_LOGI("Initializer", "Registering Input change callback");
    espmega.inputs.registerCallback(input_change_callback);
+    ESP_LOGI("Initializer", "Installing climate card");
    espmega.installCard(2, &climateCard);
+    ESP_LOGI("Initializer", "Binding climate card to FRAM");
    climateCard.bindFRAM(&espmega.fram, 301);
+    ESP_LOGI("Initializer", "Loading climate card state from FRAM");
    climateCard.loadStateFromFRAM();
+    ESP_LOGI("Initializer", "Enabling climate card FRAM autosave");
    climateCard.setFRAMAutoSave(true);
+    ESP_LOGI("Initializer", "Enabling internal display");
    espmega.enableInternalDisplay(&Serial);
+    ESP_LOGI("Initializer", "Binding climate card to internal display");
    espmega.display->bindClimateCard(&climateCard);
 }

-
-
-// Every 20 seconds, dump FRAM 0-500 to serial
-void loop() {
+void loop()
+{
    espmega.loop();
-    #ifdef FRAM_DEBUG
+#ifdef FRAM_DEBUG
+    // Every 20 seconds, dump FRAM 0-500 to serial
    static uint32_t last_fram_dump = 0;
-    if (millis() - last_fram_dump >= 20000) {
+    if (millis() - last_fram_dump >= 20000)
+    {
        last_fram_dump = millis();
        Serial.println("Dumping FRAM");
        espmega.dumpFRAMtoSerial(0, 500);
        Serial.println("Dumping FRAM ASCII");
        espmega.dumpFRAMtoSerialASCII(0, 500);
    }
-    #endif
+#endif
 }