Sternenlabor/nuki_hub
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nuki_hub/Network.cpp

220 lines
6.2 KiB
C++
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#include "Network.h"
#include "WiFi.h"
#include <WiFiManager.h> // https://github.com/tzapu/WiFiManager
#include "Arduino.h"
#include "MqttTopics.h"
#include "PreferencesKeys.h"
Network* nwInst;
Network::Network(Preferences* preferences)
: _mqttClient(_wifiClient),
_preferences(preferences)
{
nwInst = this;
}
void Network::initialize()
{
WiFi.mode(WIFI_STA); // explicitly set mode, esp defaults to STA+AP
// it is a good practice to make sure your code sets wifi mode how you want it.
// put your setup code here, to run once:
Serial.begin(115200);
//WiFiManager, Local intialization. Once its business is done, there is no need to keep it around
WiFiManager wm;
// reset settings - wipe stored credentials for testing
// these are stored by the esp library
//wm.resetSettings();
bool res = wm.autoConnect(); // password protected ap
if(!res) {
Serial.println("Failed to connect");
return;
// ESP.restart();
}
else {
//if you get here you have connected to the WiFi
Serial.println("connected...yeey :)");
}
const char* brokerAddr = _preferences->getString(preference_mqtt_broker).c_str();
strcpy(_mqttBrokerAddr, brokerAddr);
int port = _preferences->getInt(preference_mqtt_broker_port);
if(port == 0)
{
port = 1883;
_preferences->putInt(preference_mqtt_broker_port, port);
}
Serial.print(F("MQTT Broker: "));
Serial.print(_mqttBrokerAddr);
Serial.print(F(":"));
Serial.println(port);
_mqttClient.setServer(_mqttBrokerAddr, port);
_mqttClient.setCallback(Network::onMqttDataReceivedCallback);
}
bool Network::reconnect()
{
while (!_mqttClient.connected() && millis() > _nextReconnect)
{
Serial.println("Attempting MQTT connection");
// Attempt to connect
if (_mqttClient.connect("nukiHub")) {
Serial.println(F("MQTT connected"));
_mqttConnected = true;
// ... and resubscribe
_mqttClient.subscribe(mqtt_topic_lockstate_action);
}
else
{
Serial.print(F("MQTT connect failed, rc="));
Serial.println(_mqttClient.state());
_mqttConnected = false;
_nextReconnect = millis() + 5000;
}
}
return _mqttConnected;
}
void Network::update()
{
if(!WiFi.isConnected())
{
Serial.println(F("WiFi not connected"));
vTaskDelay( 1000 / portTICK_PERIOD_MS);
}
if(!_mqttClient.connected())
{
bool success = reconnect();
if(!success)
{
return;
}
}
_mqttClient.loop();
vTaskDelay( 100 / portTICK_PERIOD_MS);
}
void Network::onMqttDataReceivedCallback(char *topic, byte *payload, unsigned int length)
{
nwInst->onMqttDataReceived(topic, payload, length);
}
void Network::onMqttDataReceived(char *&topic, byte *&payload, unsigned int &length)
{
char value[50];
size_t l = min(length, sizeof(value)-1);
for(int i=0; i<l; i++)
{
value[i] = payload[i];
}
value[l] = 0;
if(strcmp(topic, mqtt_topic_lockstate_action) == 0)
{
if(strcmp(value, "") == 0) return;
Serial.print(F("Lockstate action received: "));
Serial.println(value);
if(_lockActionReceivedCallback != NULL)
{
_lockActionReceivedCallback(value);
}
_mqttClient.publish(mqtt_topic_lockstate_action, "");
}
}
void Network::publishKeyTurnerState(const KeyTurnerState& keyTurnerState, const KeyTurnerState& lastKeyTurnerState)
{
char str[50];
if(keyTurnerState.lockState != lastKeyTurnerState.lockState)
{
memset(&str, 0, sizeof(str));
nukiLockstateToString(keyTurnerState.lockState, str);
_mqttClient.publish(mqtt_topic_lockstate_state, str);
}
if(keyTurnerState.trigger != lastKeyTurnerState.trigger)
{
memset(&str, 0, sizeof(str));
nukiTriggerToString(keyTurnerState.trigger, str);
_mqttClient.publish(mqtt_topic_lockstate_trigger, str);
}
if(keyTurnerState.lastLockActionCompletionStatus != lastKeyTurnerState.lastLockActionCompletionStatus)
{
memset(&str, 0, sizeof(str));
nukiCompletionStatusToString(keyTurnerState.lastLockActionCompletionStatus, str);
_mqttClient.publish(mqtt_topic_lockstate_completionStatus, str);
}
if(keyTurnerState.doorSensorState != lastKeyTurnerState.doorSensorState)
{
memset(&str, 0, sizeof(str));
nukiDoorSensorStateToString(keyTurnerState.doorSensorState, str);
_mqttClient.publish(mqtt_topic_door_sensor_state, str);
}
if(keyTurnerState.criticalBatteryState != lastKeyTurnerState.criticalBatteryState)
{
uint8_t level = (keyTurnerState.criticalBatteryState & 0b11111100) >> 1;
bool critical = (keyTurnerState.criticalBatteryState & 0b00000001) > 0;
bool charging = (keyTurnerState.criticalBatteryState & 0b00000010) > 0;
publishInt(mqtt_topic_battery_level, level); // percent
publishBool(mqtt_topic_battery_critical, critical);
publishBool(mqtt_topic_battery_charging, charging);
}
}
void Network::publishBatteryReport(const BatteryReport& batteryReport)
{
publishFloat(mqtt_topic_battery_voltage, (float)batteryReport.batteryVoltage / 1000.0);
publishInt(mqtt_topic_battery_drain, batteryReport.batteryDrain); // milliwatt seconds
publishFloat(mqtt_topic_battery_max_turn_current, (float)batteryReport.maxTurnCurrent / 1000.0);
}
void Network::setLockActionReceived(void (*lockActionReceivedCallback)(const char *))
{
_lockActionReceivedCallback = lockActionReceivedCallback;
}
void Network::publishFloat(const char* topic, const float value, const uint8_t precision)
{
char str[30];
dtostrf(value, 0, precision, str);
_mqttClient.publish(topic, str);
}
void Network::publishInt(const char *topic, const int value)
{
char str[30];
itoa(value, str, 10);
_mqttClient.publish(topic, str);
}
void Network::publishBool(const char *topic, const bool value)
{
char str[2] = {0};
str[0] = value ? '1' : '0';
_mqttClient.publish(topic, str);
}
bool Network::isMqttConnected()
{
return _mqttConnected;
}
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