WLED/wled00/wled15_hue.ino

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/*
* Sync to Philips hue lights
*/
#ifndef WLED_DISABLE_HUESYNC
void handleHue()
{
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if (hueClient != nullptr && millis() - hueLastRequestSent > huePollIntervalMs && WiFi.status() == WL_CONNECTED)
{
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hueLastRequestSent = millis();
if (huePollingEnabled)
{
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reconnectHue();
} else {
hueClient->close();
if (hueError[0] == 'A') strcpy(hueError,"Inactive");
}
}
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if (hueReceived)
{
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colorUpdated(7); hueReceived = false;
if (hueStoreAllowed && hueNewKey)
{
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saveSettingsToEEPROM(); //save api key
hueStoreAllowed = false;
hueNewKey = false;
}
}
}
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void reconnectHue()
{
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if (WiFi.status() != WL_CONNECTED || !huePollingEnabled) return;
DEBUG_PRINTLN("Hue reconnect");
if (hueClient == nullptr) {
hueClient = new AsyncClient();
hueClient->onConnect(&onHueConnect, hueClient);
hueClient->onData(&onHueData, hueClient);
hueClient->onError(&onHueError, hueClient);
hueAuthRequired = (strlen(hueApiKey)<20);
}
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hueClient->connect(hueIP, 80);
}
void onHueError(void* arg, AsyncClient* client, int8_t error)
{
DEBUG_PRINTLN("Hue err");
strcpy(hueError,"Request timeout");
}
void onHueConnect(void* arg, AsyncClient* client)
{
DEBUG_PRINTLN("Hue connect");
sendHuePoll();
}
void onHueData(void* arg, AsyncClient* client, void *data, size_t len)
{
if (len) handleHueResponse(String((char*)data));
}
void sendHuePoll()
{
if (hueClient == nullptr || !hueClient->connected()) return;
String req = "";
if (hueAuthRequired)
{
req += "POST /api HTTP/1.1\r\nHost: ";
req += hueIP.toString();
req += "\r\nContent-Length: 25\r\n\r\n{\"devicetype\":\"wled#esp\"}";
} else
{
req += "GET /api/";
req += hueApiKey;
req += "/lights/" + String(huePollLightId);
req += " HTTP/1.1\r\nHost: ";
req += hueIP.toString();
req += "\r\n\r\n";
}
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hueClient->add(req.c_str(), req.length());
hueClient->send();
hueLastRequestSent = millis();
}
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void handleHueResponse(String hueResp)
{
DEBUG_PRINTLN(hueApiKey);
DEBUG_PRINTLN(hueResp);
if (hueResp.indexOf("error")>0)//hue bridge returned error
{
int hueErrorCode = getJsonValue(&hueResp,"type").toInt();
switch (hueErrorCode)
{
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case 1: strcpy(hueError,"Unauthorized"); hueAuthRequired = true; break;
case 3: strcpy(hueError,"Invalid light ID"); huePollingEnabled = false; break;
case 101: strcpy(hueError,"Link button not pressed"); hueAuthRequired = true; break;
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default:
char coerr[18];
sprintf(coerr,"Bridge Error %i",hueErrorCode);
strcpy(hueError,coerr);
}
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return;
}
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if (hueAuthRequired)
{
String tempApi = getJsonValue(&hueResp,"username");
if (tempApi.length()>0)
{
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strcpy(hueApiKey,tempApi.c_str());
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hueAuthRequired = false;
hueNewKey = true;
}
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return;
}
float hueX=0, hueY=0;
uint16_t hueHue=0, hueCt=0;
byte hueBri=0, hueSat=0, hueColormode=0;
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if (getJsonValue(&hueResp,"\"on").charAt(0) == 't')
{
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String tempV = getJsonValue(&hueResp,"\"bri");
if (tempV.length()>0) //Dimmable device
{
hueBri = (tempV.toInt())+1;
tempV = getJsonValue(&hueResp,"colormode");
if (hueApplyColor && tempV.length()>0) //Color device
{
if (tempV.charAt(0) == 'x') //xy mode
{
tempV = getJsonValue(&hueResp,"xy");
if (tempV.length()>0) //valid
{
hueColormode = 1;
hueX = tempV.toFloat();
tempV = tempV.substring(tempV.indexOf(',')+1);
hueY = tempV.toFloat();
}
} else if (tempV.charAt(0) == 'h') //hs mode
{
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tempV = getJsonValue(&hueResp,"\"hue");
if (tempV.length()>0) //valid
{
hueColormode = 2;
hueHue = tempV.toInt();
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tempV = getJsonValue(&hueResp,"\"sat");
if (tempV.length()>0) //valid
{
hueSat = tempV.toInt();
}
}
} else //ct mode
{
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tempV = getJsonValue(&hueResp,"\"ct");
if (tempV.length()>0) //valid
{
hueColormode = 3;
hueCt = tempV.toInt();
}
}
}
} else //On/Off device
{
hueBri = briLast;
}
} else
{
hueBri = 0;
}
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strcpy(hueError,"Active");
//applying vals
if (hueBri != hueBriLast)
{
if (hueApplyOnOff)
{
if (hueBri==0) {bri = 0;}
else if (bri==0 && hueBri>0) bri = briLast;
}
if (hueApplyBri)
{
if (hueBri>0) bri = hueBri;
}
hueBriLast = hueBri;
}
if (hueApplyColor)
{
switch(hueColormode)
{
case 1: if (hueX != hueXLast || hueY != hueYLast) colorXYtoRGB(hueX,hueY,col); hueXLast = hueX; hueYLast = hueY; break;
case 2: if (hueHue != hueHueLast || hueSat != hueSatLast) colorHStoRGB(hueHue,hueSat,col); hueHueLast = hueHue; hueSatLast = hueSat; break;
case 3: if (hueCt != hueCtLast) colorCTtoRGB(hueCt,col); hueCtLast = hueCt; break;
}
}
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hueReceived = true;
}
String getJsonValue(String* req, String key)
{
//TODO may replace with ArduinoJSON if too complex
//this is horribly inefficient and designed to work only in this case
uint16_t pos = req->indexOf(key);
String b = req->substring(pos + key.length()+2);
if (b.charAt(0)=='\"') //is string
{
return b.substring(1,b.substring(1).indexOf('\"')+1);
} else if (b.charAt(0)=='[') //is array
{
return b.substring(1,b.indexOf(']'));
} else //is primitive type
{
return b.substring(0,b.indexOf(',')); //this works only if value not last
}
return "";
}
#else
void handleHue(){}
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bool reconnectHue(){}
#endif