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light.cpp
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light.cpp
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#include <Arduino.h>
#include "mqtt.h"
#include "wifi.h"
#include "logging.h"
#include "config.h"
#include "light.h"
#include "switches.h"
namespace light {
// The light parameters
volatile uint8_t minBrightness = 0; // brightness values in %
volatile uint8_t maxBrightness = 100;
volatile uint8_t brightness = 0;
uint8_t publishedBrightness = 0; // The last brigthness value published to MQTT
uint8_t wattage = 0;
// For the auto-off timer
uint16_t autoOffDuration = 0; // In seconds
volatile unsigned long lastLightOnTime = 0;
volatile bool lightAutoTurnOffDisable = false;
// For blinking
unsigned long startBlinkingTime = 0;
uint16_t blinkingTimerDuration = 5; // In seconds
bool blinking = false;
// For the blinking pattern
unsigned long lastBlinkingLightStateTime = 0;
bool blinkingLightState = false;
uint16_t blinkingPattern[10] = {500, 500, 0, 0, 0, 0, 0, 0, 0, 0}; // in ms; if 0, no blinking
uint8_t &getWattage() {
return wattage;
}
void STM32reset()
{
}
void setBlinkingDuration(const char* durationStr)
{
uint16_t newDuration=5;
if (helpers::convertToInteger(durationStr, newDuration))
{
if (blinkingTimerDuration != newDuration)
{
logging::getLogStream().printf("light: change blinking duration to %d\n", newDuration);
blinkingTimerDuration = newDuration;
}
}
else
{
logging::getLogStream().printf("light: failed to change blinking duration to %s\n", durationStr);
blinkingTimerDuration = 5;
}
}
void startBlinking()
{
logging::getLogStream().printf("light: start blinking\n");
// start blinking
blinkingLightState = false; // light should be switched on
lastBlinkingLightStateTime = millis(); // reset blinking timer
startBlinkingTime = millis(); // Save the stating time of blinking
blinking = true;
}
void stopBlinking()
{
logging::getLogStream().printf("light: stop blinking\n");
// stopping blinking
// Comme back to the initial brightness level
if ((brightness - minBrightness) < (maxBrightness - brightness))
digitalWrite(LIGHT_RELAY, LOW);
else
digitalWrite(LIGHT_RELAY, HIGH);
blinking = false;
}
void setBlinkingPattern(const char *payload)
{
// payload should contain a sequence of int for the pattern of the blink (duration in ms for the light on, light off, etc)
uint8_t nbPattern = 0;
if (payload!=nullptr)
{
logging::getLogStream().printf("light: setting pattern to %s\n",payload);
uint16_t strl = strlen(payload);
memset(blinkingPattern, 0x00, sizeof(blinkingPattern));
int i=0, j=0;
char temp[10];
memset(temp,0x00,sizeof(temp));
for (i = 0; i <= strl; i++)
{
if (i == strl || payload[i]<'0' || payload[i]>'9')
{
if (helpers::isInteger(temp, sizeof(temp) - 1))
{
if (nbPattern < 10)
{
blinkingPattern[nbPattern] = atoi(temp)*100;
logging::getLogStream().printf("light: adding pattern %d\n",blinkingPattern[nbPattern]);
if (blinkingPattern[nbPattern]<200)
{
logging::getLogStream().printf("light: pattern duration to short. Set to 200\n");
blinkingPattern[nbPattern]=200;
}
nbPattern++;
}
}
j = 0;
memset(temp,0x00,sizeof(temp));
}
else
{
if (j < sizeof(temp) - 1)
{
temp[j] = payload[i];
j++;
}
}
}
logging::getLogStream().printf("light: new blinking pattern %d %d %d %d %d %d %d %d %d %d\n",
blinkingPattern[0],blinkingPattern[1],blinkingPattern[2],blinkingPattern[3],blinkingPattern[4],
blinkingPattern[5],blinkingPattern[6],blinkingPattern[7],blinkingPattern[8],blinkingPattern[9]);
}
if (nbPattern<2)
{
// If the blinking pattern is malformed (i.e. sequence smaller than 2)
logging::getLogStream().printf("light: blinking pattern to short or not defined. Set back to default value\n");
memset(blinkingPattern,0x00,sizeof(blinkingPattern));
blinkingPattern[0]=500;
blinkingPattern[1]=500;
}
}
void mqttCallback(const char* paramID, const char* payload)
{
if (strcmp(paramID, "subMqttLightOn") == 0 || strcmp(paramID, "subMqttLightAllOn") == 0)
{
lightOn();
}
else if (strcmp(paramID, "subMqttLightToggle") == 0)
{
lightToggle();
}
else if (strcmp(paramID, "subMqttLightOff") == 0 || strcmp(paramID, "subMqttLightAllOff") == 0)
lightOff();
else if (strcmp(paramID, "subMqttBlinkingPattern") == 0)
{
setBlinkingPattern(payload);
// Start blinking with the new pattern
startBlinking();
}
else if (strcmp(paramID, "subMqttBlinkingDuration") == 0)
{
setBlinkingDuration(payload);
}
}
void sendCmdGetVersion()
{
}
void sendCmdGetState()
{
}
void setMinBrightness(const char* str)
{
if (!helpers::isInteger(str, 3))
return;
// Make the conversion
minBrightness = atoi (str);
// Check if minBrightness between 0 and 200
if (minBrightness < 0)
minBrightness = 0;
if (minBrightness > 20)
minBrightness = 20;
}
void setMaxBrightness(const char* str)
{
if (!helpers::isInteger(str, 3))
return;
// Make the conversion
maxBrightness = atoi (str);
// Check if maxBrightness between minBrightness and 1000
if (maxBrightness < minBrightness)
maxBrightness = minBrightness;
if (maxBrightness > 100)
maxBrightness = 100;
}
void setAutoOffTimer(const char* str)
{
if (!helpers::isInteger(str, 3))
{
autoOffDuration = 0;
return;
}
autoOffDuration = atoi (str);
}
void setBrightness(uint8_t b)
{
}
ICACHE_RAM_ATTR void lightOn(bool noLightAutoTurnOff)
{
//logging::getLogStream().printf("light: switch on\n");
if (noLightAutoTurnOff==true)
{
lightAutoTurnOffDisable =true;
lastLightOnTime=0;
}
else
// Reset auto turn off timer
lastLightOnTime=millis();
digitalWrite(LIGHT_RELAY, HIGH);
brightness = maxBrightness;
}
ICACHE_RAM_ATTR void lightOff()
{
//logging::getLogStream().printf("light: switch off\n");
lastLightOnTime = 0;
lightAutoTurnOffDisable =false;
digitalWrite(LIGHT_RELAY, LOW);
brightness = minBrightness;
}
ICACHE_RAM_ATTR void lightToggle(bool noLightAutoTurnOff)
{
// If brighness different from minBrightness
if (brightness == minBrightness)
{
if (noLightAutoTurnOff==true)
{
lightAutoTurnOffDisable =true;
lastLightOnTime=0;
}
else
// Reset auto turn off timer
lastLightOnTime=millis();
// Switch on the light
digitalWrite(LIGHT_RELAY, HIGH);
brightness = maxBrightness;
}
else
{
// Set the timer to 0
lastLightOnTime = 0;
lightAutoTurnOffDisable =false;
// Switch off te light
digitalWrite(LIGHT_RELAY, LOW);
brightness = minBrightness;
}
}
ICACHE_RAM_ATTR bool lightIsOn()
{
return brightness != minBrightness;
}
void setup()
{
pinMode(LIGHT_RELAY, OUTPUT);
}
void updateParams()
{
logging::getLogStream().printf("light: updateParams\n");
setMinBrightness(wifi::getParamValueFromID("minBrightness"));
setMaxBrightness(wifi::getParamValueFromID("maxBrightness"));
setAutoOffTimer(wifi::getParamValueFromID("autoOffTimer"));
}
void addWifiManagerCustomButtons()
{
}
void addWifiManagerCustomParams()
{
}
void bindServerCallback()
{
// HTTP callback for controling the light
wifi::getWifiManager().server.get()->on("/on", []()
{
// Light on
lightOn();
// Send OK text
wifi::getWifiManager().server.get()->send ( 200, "text/plain", "Ok");
}
);
wifi::getWifiManager().server.get()->on("/off", []()
{
// Light off
lightOff();
// Send OK text
wifi::getWifiManager().server.get()->send ( 200, "text/plain", "Ok");
}
);
}
void handle()
{
unsigned long currTime;
// Check if there is new brightness value to publish
if (publishedBrightness != brightness)
{
// Publish the new value of the brightness
const char* topic = wifi::getParamValueFromID("pubMqttBrightnessLevel");
// If no topic, we do not publish
if (topic != NULL)
{
char payload[5];
sprintf(payload, "%d", brightness);
if (mqtt::publishMQTT(topic, payload))
// If the new brightness value has been succeefully published
publishedBrightness = brightness;
}
}
// For blinking
if (blinking)
{
currTime = millis();
// Check if the blinking has to be stopped
if (currTime - startBlinkingTime > blinkingTimerDuration*1000)
{
logging::getLogStream().printf("light: stop blinking\n");
stopBlinking();
}
// Alternate on/off for the blinking
if (blinking)
{
// Using the pattern, find the new light state
long diff = currTime - lastBlinkingLightStateTime;
uint8_t pc = 0;
unsigned long sum = 0;
while (diff > sum)
{
// If at the end of the pattern, we come back
if (pc == 10)
{
lastBlinkingLightStateTime = lastBlinkingLightStateTime + sum;
diff = currTime - lastBlinkingLightStateTime;
logging::getLogStream().printf("light: loop over the pattern\n");
pc = 0;
sum = 0;
}
sum += blinkingPattern[pc];
pc++;
}
bool newBlinkingLightState = ((pc-1)%2==0);
if (blinkingLightState != newBlinkingLightState)
{
blinkingLightState = newBlinkingLightState;
// alternate on/off
if (blinkingLightState)
{
logging::getLogStream().printf("light: light on for blinking\n");
digitalWrite(LIGHT_RELAY, HIGH);
}
else
{
logging::getLogStream().printf("light: light off for blinking\n");
digitalWrite(LIGHT_RELAY, LOW);
}
}
}
}
// For the auto-off light
if (autoOffDuration > 0 && lastLightOnTime > 0)
{
currTime = millis();
// Make the conversion from ms to s
if (currTime - lastLightOnTime > (autoOffDuration * 1000))
{
logging::getLogStream().printf("light: auto-off light\n");
lightOff();
}
}
}
} // namespace dimmer