Szenario:
beim Drücken des Blu buttons, soll der Uni Plus Ausgang 1 (potentialfrei) schalten.
Wie lässt sich das über das eingebaute scripting lösen.
In der Library habe ich das gefunden:
pasted-from-clipboard.png
Leider fehlt mir hier das Wissen, wo genau steht dass Ausgang 1 geschaltet werden soll.
Vielleicht kann mich jemand auf die Spur setzen. Bin kein script König, aber fast-Learner 
Code
/**
* This script uses the BLE scan functionality in scripting
* Selects Shelly BLU Buttons from the aired advertisements, decodes
* the service data payload and toggles a relay on the device on
* button push
*/
// Shelly BLU devices:
// SBBT - Shelly BLU Button
// SBDW - Shelly BLU DoorWindow
// BTHome data format: https://bthome.io/format/
// sample Shelly DW service_data payload
// 0x40 0x00 0x4E 0x01 0x64 0x05 0x00 0x00 0x00 0x2D 0x01 0x3F 0x00 0x00
// First byte: BTHome device info, 0x40 - no encryption, BTHome v.2
// bit 0: “Encryption flag”
// bit 1-4: “Reserved for future use”
// bit 5-7: “BTHome Version”
// AD 0: PID, 0x00
// Value: 0x4E
// AD 1: Battery, 0x01
// Value, 100%
// AD 2: Illuminance, 0x05
// Value: 0
// AD 3: Window, 0x2D
// Value: true, open
// AD 4: Rotation, 0x3F
// Value: 0
// Device name can be obtained if an active scan is performed
// You can rely only on the address filtering and forego device name matching
// CHANGE HERE
function onButtonPress(BTHparsed) {
print("Button pressed, emitting event");
Shelly.emitEvent("BLU_BUTTON", {
addr: BTHparsed.addr,
rssi: BTHparsed.rssi,
Button: BTHparsed.Button,
Battery: BTHparsed.Battery,
});
}
// remove name prefix to not filter by device name
// remove address to not filter by address
// filtering early by address or device name allows for faster execution
// actions is an array objects containing condition and action property
// conditions would be checked for equality against the parsed advertisement packet
// e.g. if there is an addr property in condition and it matches the value of addr property
// in BTH parsed object then the condition is true
let CONFIG = {
shelly_blu_name_prefix: "SBBT",
//shelly_blu_address: "bc:02:6e:c3:c8:b9",
actions: [
{
cond: {
addr: "bc:02:6e:c3:c8:b7",
Button: 1,
},
action: onButtonPress,
},
],
};
// END OF CHANGE
let ALLTERCO_MFD_ID_STR = "0ba9";
let BTHOME_SVC_ID_STR = "fcd2";
let SCAN_DURATION = BLE.Scanner.INFINITE_SCAN;
let ACTIVE_SCAN =
typeof CONFIG.shelly_blu_name_prefix !== "undefined" &&
CONFIG.shelly_blu_name_prefix !== null;
let uint8 = 0;
let int8 = 1;
let uint16 = 2;
let int16 = 3;
let uint24 = 4;
let int24 = 5;
function getByteSize(type) {
if (type === uint8 || type === int8) return 1;
if (type === uint16 || type === int16) return 2;
if (type === uint24 || type === int24) return 3;
//impossible as advertisements are much smaller;
return 255;
}
let BTH = [];
BTH[0x00] = { n: "pid", t: uint8 };
BTH[0x01] = { n: "Battery", t: uint8, u: "%" };
BTH[0x05] = { n: "Illuminance", t: uint24, f: 0.01 };
BTH[0x1a] = { n: "Door", t: uint8 };
BTH[0x20] = { n: "Moisture", t: uint8 };
BTH[0x2d] = { n: "Window", t: uint8 };
BTH[0x3a] = { n: "Button", t: uint8 };
BTH[0x3f] = { n: "Rotation", t: int16, f: 0.1 };
let BTHomeDecoder = {
utoi: function (num, bitsz) {
let mask = 1 << (bitsz - 1);
return num & mask ? num - (1 << bitsz) : num;
},
getUInt8: function (buffer) {
return buffer.at(0);
},
getInt8: function (buffer) {
return this.utoi(this.getUInt8(buffer), 8);
},
getUInt16LE: function (buffer) {
return 0xffff & ((buffer.at(1) << 8) | buffer.at(0));
},
getInt16LE: function (buffer) {
return this.utoi(this.getUInt16LE(buffer), 16);
},
getUInt24LE: function (buffer) {
return (
0x00ffffff & ((buffer.at(2) << 16) | (buffer.at(1) << 8) | buffer.at(0))
);
},
getInt24LE: function (buffer) {
return this.utoi(this.getUInt24LE(buffer), 24);
},
getBufValue: function (type, buffer) {
if (buffer.length < getByteSize(type)) return null;
let res = null;
if (type === uint8) res = this.getUInt8(buffer);
if (type === int8) res = this.getInt8(buffer);
if (type === uint16) res = this.getUInt16LE(buffer);
if (type === int16) res = this.getInt16LE(buffer);
if (type === uint24) res = this.getUInt24LE(buffer);
if (type === int24) res = this.getInt24LE(buffer);
return res;
},
unpack: function (buffer) {
// beacons might not provide BTH service data
if (typeof buffer !== "string" || buffer.length === 0) return null;
let result = {};
let _dib = buffer.at(0);
result["encryption"] = _dib & 0x1 ? true : false;
result["BTHome_version"] = _dib >> 5;
if (result["BTHome_version"] !== 2) return null;
//Can not handle encrypted data
if (result["encryption"]) return result;
buffer = buffer.slice(1);
let _bth;
let _value;
while (buffer.length > 0) {
_bth = BTH[buffer.at(0)];
if (typeof _bth === "undefined") {
console.log("BTH: unknown type");
break;
}
buffer = buffer.slice(1);
_value = this.getBufValue(_bth.t, buffer);
if (_value === null) break;
if (typeof _bth.f !== "undefined") _value = _value * _bth.f;
result[_bth.n] = _value;
buffer = buffer.slice(getByteSize(_bth.t));
}
return result;
},
};
let ShellyBLUParser = {
getData: function (res) {
let result = BTHomeDecoder.unpack(res.service_data[BTHOME_SVC_ID_STR]);
result.addr = res.addr;
result.rssi = res.rssi;
return result;
},
};
let last_packet_id = 0x100;
function scanCB(ev, res) {
if (ev !== BLE.Scanner.SCAN_RESULT) return;
// skip if there is no service_data member
if (
typeof res.service_data === "undefined" ||
typeof res.service_data[BTHOME_SVC_ID_STR] === "undefined"
)
return;
// skip if we are looking for name match but don't have active scan as we don't have name
if (
typeof CONFIG.shelly_blu_name_prefix !== "undefined" &&
(typeof res.local_name === "undefined" ||
res.local_name.indexOf(CONFIG.shelly_blu_name_prefix) !== 0)
)
return;
// skip if we don't have address match
if (
typeof CONFIG.shelly_blu_address !== "undefined" &&
CONFIG.shelly_blu_address !== res.addr
)
return;
let BTHparsed = ShellyBLUParser.getData(res);
// skip if parsing failed
if (BTHparsed === null) {
console.log("Failed to parse BTH data");
return;
}
// skip, we are deduping results
if (last_packet_id === BTHparsed.pid) return;
last_packet_id = BTHparsed.pid;
console.log("Shelly BTH packet: ", JSON.stringify(BTHparsed));
// execute actions from CONFIG
let aIdx = null;
for (aIdx in CONFIG.actions) {
// skip if no condition defined
if (typeof CONFIG.actions[aIdx]["cond"] === "undefined") continue;
let cond = CONFIG.actions[aIdx]["cond"];
let cIdx = null;
let run = true;
for (cIdx in cond) {
if (typeof BTHparsed[cIdx] === "undefined") run = false;
if (BTHparsed[cIdx] !== cond[cIdx]) run = false;
}
// if all conditions evaluated to true then execute
if (run) CONFIG.actions[aIdx]["action"](BTHparsed);
}
}
// retry several times to start the scanner if script was started before
// BLE infrastructure was up in the Shelly
function startBLEScan() {
let bleScanSuccess = BLE.Scanner.Start({ duration_ms: SCAN_DURATION, active: ACTIVE_SCAN }, scanCB);
if( bleScanSuccess === false ) {
Timer.set(1000, false, startBLEScan);
} else {
console.log('Success: BLU button scanner running');
}
}
//Check for BLE config and print a message if BLE is not enabled on the device
let BLEConfig = Shelly.getComponentConfig('ble');
if(BLEConfig.enable === false) {
console.log('Error: BLE not enabled');
} else {
Timer.set(1000, false, startBLEScan);
}