Category Archives: IOT / Domoticz

IOT / Domoticz

Media control automation in HA revisited

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I was not happy with my old setup to control all media devices in my living room.

Controlling all devices using a single button and automations was not easy.

Problems encountered :

  1. Switching from one device to another toggled a device used by both.
  2. Switching from TV to Spotify (using my Onkyo), turned off the TV and cec turned off the Onkyo
  3. Using the Home Assistant Onkyo integration, I could select NET but not NET>Spotify
  4. The Harmony hub I’m using for Infrared Control didn’t expose all buttons.
  5. My Set-top box only power toggles. No way of reading the state.

Addressing problems:

Number 1 & 2 : Disable CEC, and manual add all that cec tried to do for me. (https://en.wikipedia.org/wiki/Consumer_Electronics_Control)

Number 5 :
(See post : https://www.henriaanstoot.nl/2024/04/01/multipurpose-rgb-sensor-esphome/)

Number 3 & 4 : Two options, integrate my web controller for onkyo.
(https://www.henriaanstoot.nl/2009/10/23/onkyo-web-control-hack/)
Or give HA more functionality.

Lets add an Onkyo python script to HA.
Open a webterminal and enter following command

pip install onkyo-eiscp

This will give you:
(Hint: want to copy text from the web terminal? Hold shift while selecting text)

➜  ~ pip install onkyo-eiscp   
Looking in indexes: https://pypi.org/simple, https://wheels.home-assistant.io/musllinux-index/
Collecting onkyo-eiscp
  Downloading https://wheels.home-assistant.io/musllinux-index/onkyo_eiscp-1.2.7-py3-none-any.whl.metadata (9.9 kB)
Collecting docopt>=0.4.1 (from onkyo-eiscp)
  Downloading https://wheels.home-assistant.io/musllinux-index/docopt-0.6.2-py2.py3-none-any.whl.metadata (17 kB)
Collecting netifaces (from onkyo-eiscp)
  Downloading https://wheels.home-assistant.io/musllinux-index/netifaces-0.11.0-cp311-cp311-musllinux_1_2_x86_64.whl.metadata (8.9 kB)
Downloading https://wheels.home-assistant.io/musllinux-index/onkyo_eiscp-1.2.7-py3-none-any.whl (45 kB)
   ━━━━━━━━━ 45.7/45.7 27.8     eta 0:00:00
             kB        MB/s                
Downloading https://wheels.home-assistant.io/musllinux-index/docopt-0.6.2-py2.py3-none-any.whl (13 kB)
Downloading https://wheels.home-assistant.io/musllinux-index/netifaces-0.11.0-cp311-cp311-musllinux_1_2_x86_64.whl (13 kB)
Installing collected packages: netifaces, docopt, onkyo-eiscp
Successfully installed docopt-0.6.2 netifaces-0.11.0 onkyo-eiscp-1.2.7
WARNING: Running pip as the 'root' user can result in broken permissions and conflicting behaviour with the system package manager. It is recommended to use a virtual environment instead: https://pip.pypa.io/warnings/venv
➜  ~ onkyo
Usage:
  onkyo [--host <host>] [--port <port>]
        [--all] [--name <name>] [--id <identifier>]
        [--verbose | -v]... [--quiet | -q]... <command>...
  onkyo --discover
  onkyo --help-commands [<zone> <command>]
  onkyo -h | --help
➜  ~ which onkyo
/usr/bin/onkyo

Now we can integrate shell commands in HA!

NET > Spotify
onkyo --host 192.168.1.2 NSV0A0

Spotify > track info
onkyo --host 192.168.1.2 NTIQSTN

Spotify > Artist
onkyo --host 192.168.1.2 NATQSTN

Turn Onkyo ON/OFF
onkyo --host 192.168.1.2 PWR01
onkyo --host 192.168.1.2 PWR00

Get Power state
onkyo --host 192.168.1.2 PWRQSTN

Mute on/off
onkyo --host 192.168.1.2 AMT01 or AMT00

Volume Level
onkyo --host 192.168.1.2 MVLQSTN

Home Assistant Shell Command example

  - platform: command_line
    switches:
      onkyo_mute:
        command_on: "/usr/bin/onkyo --host 192.168.1.2 AMT00"
        command_off: "/usr/bin/onkyo --host 192.168.1.2 AMT01"

Getting album art:

Get image from below url.
Note! .. its a static non refreshing image!

http://192.168.1.2/album_art.cgi

Note: This gives me a file which shows fine in a browser, but being a http feed you cannot embed this in a https site.
Another ‘problem’ with this image is that it includes headers, rendering this a invalid jpg when processing!
(remove first 3 lines programmatically)
I also want to have it updated, so I could make a mjpeg streamer for this.
Probably i’m going to use my reverse proxy which uses SSL offloading to access cover art over https.
(Then I can push this cover image on this webblog so you guys can see what we are listing to)

Another idea is to push this to an arduino display.

Not using https?

You can embed the album art in a dashboard. This won’t refresh, but the added time code will stop caching problems.

type: picture<br>image: http://192.168.1.2/album_art.cgi?v={{now().timestamp()|int }}")

Todo:

Make the automations foolproof.

Watching TV and want to listen to Spotify?

  1. Turn TV off
  2. Switch Onkyo to Net and Spotify
  3. (Adjust volume)
  4. Toggle TV set-top box off

etc

Next todo:
Cover art embed in HA.
Maybe in embed in this blog.
Make a small cover art display.

PHP code to strip lines and put behind a reverse proxy

<?php
header('Content-type: image/jpg');
$lines = file_get_contents('http://192.168.1.2/album_art.cgi', false);
$lines = explode("\n", $lines);
$content = implode("\n", array_slice($lines, 3));
print $content;
?>

You can use Generic Camera to refesh!

https://www.home-assistant.io/integrations/generic

Current Cover Art

Get cover art from Logitech Media Server

http://192.168.1.3:9000/music/current/cover.jpg?player=<playerid>
Computer, IOT / Domoticz, Tech

Arduino Tiny Machine Learning Kit

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A while ago I bought a little machine learning kit.

I’ve been reading at listening to ML podcasts and websites.

One on Spotify I liked was:

Also, the following Coursera was interesting
https://www.coursera.org/learn/machine-learning

I’ve been testing using Python on my Laptop.
(see other posts)

And a camera with esp32 using face detection.

See here multiple posts about these experiments.

https://www.henriaanstoot.nl/tag/machinelearning/

Today the first experiments using this kit.

  • Arduino Nano 33 BLE Sense board
  • OV7675 Camera
  • Arduino Tiny Machine Learning Shield
  • USB A to Micro USB Cable
  • 9 axis inertial sensor: what makes this board ideal for wearable devices
  • humidity, and temperature sensor: to get highly accurate measurements of the environmental conditions
  • barometric sensor: you could make a simple weather station
  • microphone: to capture and analyse sound in real time
  • gesture, proximity, light color and light intensity sensor : estimate the room’s luminosity, but also whether someone is moving close to the board
  • Microcontroller nRF52840
  • Operating Voltage 3.3V
  • Input Voltage (limit) 21V
  • DC Current per I/O Pin 15 mA
  • Clock Speed 64MHz
  • CPU Flash Memory 1MB (nRF52840)
  • SRAM 256KB (nRF52840)
  • EEPROM none
  • Digital Input / Output Pins 14
  • PWM Pins all digital pins
  • UART 1
  • SPI 1
  • I2C 1
  • Analog Input Pins 8 (ADC 12 bit 200 ksamples)
  • Analog Output Pins Only through PWM (no DAC)
  • External Interrupts all digital pins
  • LED_BUILTIN 13
  • USB Native in the nRF52840 Processor
  • IMU LSM9DS1 (datasheet)
Gesture test ( yes on a windows surface tablet, but Vincent and I installed linux on it!)

I just started and will update this page, with other experiments.

Note: displaying Arduino output without installing the IDE

stty -F /dev/ttyACM0 raw 9600
cat /dev/ttyACM0
................................
................................
................................
................................
................................
................................
................................
................................
................................
................####............
...............##..#............
..............##...##...........
..............#.....#...........
..............###...#...........
..............##.....#..........
..............##.....#..........
...............#....##..........
...............######...........
................................
................................
................................
................................
Computer, IOT / Domoticz

Home Assistant Alarm with ESP Siren

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I used to have a “professional” alarm system, but it was too limited.

But when making a new alarm system using Home Assistant I thought I could reuse some sensors and the very loud alarm.

Setting up the Alarm within HA was as described on the HA website.
I made a group for door and motion sensors.
Then I made groups for lighting and switches.

Now I can “ARM” the house.

  • Motion sensors like PIR and camera sensors are being used for detection.
  • Lights and sound will be turned on when motion is detected.
  • When arming the system, the siren mode of the camera’s is also turned on.
  • When intrusion is detected I get a pushover notification on my phone and watch.
Wemos ESPHOME controller
Old (dirty) alarm siren

The siren is about 4-5 Euro’s on Ali
https://nl.aliexpress.com/item/1005006066524139.html

Schematic of the wemos controller

(I don’t have a Siren Fritzing part .. hence the speaker)

Used mosfet is a N-Channel 30N06L, resistor is 10K

ESPHome code

esphome:
  name: bigalarm
  friendly_name: BigAlarm

esp8266:
  board: d1_mini

# Enable logging
logger:

# Enable Home Assistant API
api:
  encryption:
    key: "1xxfIYKv6tpzt7HQKYOxxxxxxxxTBETHkmy7cwDE="

ota:
  password: "5d23a3af438fe0xxxxxxxx2ff29ab6"

wifi:
  ssid: !secret wifi_ssid
  password: !secret wifi_password

  # Enable fallback hotspot (captive portal) in case wifi connection fails
  ap:
    ssid: "Bigalarm Fallback Hotspot"
    password: "6muixxxxxoA"

captive_portal:

output:
  - platform: gpio
    pin: 0
    id: 'generic_out'
switch:
  - platform: output
    name: "BigAlarm"
    output: 'generic_out'
Computer, IOT / Domoticz, Music, Pipes / Folk / Instruments

Today some lasercutting for Home Assistant Spotify RFID

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see:

Revisiting the Spotify Cube

Lasercutting a case and the playlist selectors.

Close-up RFID stickers I’m using.

Below is a test with different methods.
I like reading the booklets, so a CD i cool, and I don’t need a CD player.
(The RFID tag is in the case)
The little cards are for bought audio files I don’t have a physical CD for.

Wooden case with RFID reader being powered by external powerbank

What am I gonna do?
Cube as I had? Wooden playlist selectors as in above movies?
The cards I’ve printed?
Maybe a small record player with an RFID reader inside?

3D printed like this? https://makerworld.com/en/models/66671
UPDATE: 20240327 – Little Record I 3D printed with little groves.

Home Assistant code for Playlist and Album automations
(B.t.w. The method is still using an Arduino and MQTT topics, as mentioned before)

# ALBUM PLAYER
alias: SpotifyAlbum
description: ""
trigger:
  - platform: mqtt
    topic: spotify/rfid/id
condition:
  - condition: template
    value_template: "{{ trigger.payload in playlistkeys.keys() }}"
action:
  - service: media_player.play_media
    target:
      entity_id: media_player.spotify_fashice
    data:
      media_content_type: album
      media_content_id: spotify:album:{{ playlistkeys.get(trigger.payload) }}
mode: single
variables:
  playlistkeys:
    "71719674": 20TANs4iXVeLp387zjgmec
    "71260666": 5325ECcBhnIysoqyENGCYi
    "71457530": 7wyOeD9HcUuMFMO8pTflap

# PLAYLIST PLAYER
alias: SpotifyCube
description: ""
trigger:
  - platform: mqtt
    topic: spotify/rfid/id
condition:
  - condition: template
    value_template: "{{ trigger.payload in playlistkeys.keys() }}"
action:
  - service: media_player.play_media
    target:
      entity_id: media_player.spotify_fashice
    data:
      media_content_type: playlist
      media_content_id: spotify:user:spotify:playlist:{{ playlistkeys.get(trigger.payload) }}
variables:
  playlistkeys:
    "69229050": 0SOay3RkjojjevrF5lHMON
    "69491194": 5f8w3UHlD9Ozz6Y4VHs6kF
    "69753338": 0bJvpsn0TDZwIDUjz4d75S
    "70015482": 37i9dQZF1DX9HwI3Crikcm
    "70277626": 37i9dQZF1EQmK1rjZuPGDt
    "70539770": 2KeRLMmGMxI5UgzE7m0iCp

In the past, Aloha and I made a simple solution like this using barcodes in < 2000s.
Due to the many obscure recordings I have, I am thinking about creating something like this for Picore player and my local Squeezebox server.

Logitech Squeezebox / Media Server Solution

alias: squeezealbumplay
description: ""
trigger:
  - platform: mqtt
    topic: spotify/rfid/id
condition:
  - condition: template
    value_template: "{{ trigger.payload in playlistkeys.keys() }}"
action:
  - service: squeezebox.call_method
    target:
      entity_id: media_player.squeezebox
    data:
      command: playlist
      parameters:
        - play
        - "{{ playlistkeys.get(trigger.payload) }}"
mode: single
variables:
  playlistkeys:
    "71719674": /tank/celtic/Celtic/M/Martyn Bennett/Bothy Culture/
    "71719675": /tank/celtic/Celtic/D/Davy Spillane/Atlantic Bridge/
    "2159056458": /tank/celtic/Celtic/M/Michael McGoldrick/Arc/
3dprinting, Computer, IOT / Domoticz

Several things in progress, help me if you can.

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I used MCE to control some Windows VMs and programs running in it in the past. (Below link and a web interface engine which on the backend converted BWW/BMW (bagpipe music files) to PDF automated comes to mind)

Web controller for Acdsee

Now, I implemented this:

https://iotlink.gitlab.io/

Controlling a Windows VM using MQTT, very nice!
(Use HA mqtt or mosquitto_pub in bash)

Question: anyone got a better solution to control programs within a VM? Let me know.

Next:

I’m creating a new case for my Wemos, LCD16x2, button, Led, Buzzer project (see other post)

I’m redesigning my previous case in blender.

But I really miss something like a generator function for different cases, like the one I made using Openscad.
Question: Anyone know a tool/add-on to generate cases?
I used a model of a wemos to get the usb connector/screw holes in place.

My spotify rfid case I will create using wooden lasercut cutouts.
https://www.henriaanstoot.nl/2024/03/06/revisiting-the-spotify-cube/

Next one:

In the past, I’ve controlled some blender lights using python and MQTT. But now I’m trying to control it using DMX.

Example of lighting in our living using mock-up couch and tables.

I found a cool add-on called Blender-DMX.
(B.t.w. wled can also use DMX)

Looks cool but, can I make a floorplan with this?

Blender add-on configuration

In Home Assistant I used a HACS add-on called : Art-net LED Lighting for DMX

Configuration can be done in configuration.yaml

light:
- platform: artnet_led
  host: BLENDERHOSTIP                   # IP of Art-Net Node
  max_fps: 25                           
  refresh_every: 0                      # Resend values if no fades are running every x seconds, 0 disables automatic refresh
  node_type: artnet-direct              # Which protocol to use
  universes:                            # Support for multiple universes
    1:                                  # .Nr of Universe (see configuration of your Art-Net Node)
      send_partial_universe: True       # Only send the universe which contains data
      devices:
        - channel: 1                    # first channel of dmx dimmer
          name: dmx_dimmer_rgbw         # name
          type: rgbw                    # type
          transition: 1                 # default duration of fades in sec. 
          channel_size: 8bit            # width of the channel sent to DMX device, default "8bit", "16bit", "24bit" and "32bit" 
          channel_setup: Wrgb           # This is the magic to get colors correct

It works, but I’m not happy, anyone got a better solution?

And I have to check out GDTF profiles for fixtures.

At a later stage I’m going to 3d print a white floorplan about 1cm high, with LEDs and buttons. A floorplan you can hang on your wall.

IOT / Domoticz, Music

Revisiting the Spotify Cube

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In the past I posted about my genre selector for Spotify using a cube.

RFID music playlist genre selector.
Spotify control using python

Most was done using NodeRed and a python script.

Now, I’ve moved it to Home Assistant using a single automation.
(Maybe the Arduino sketch can be made with Esphome also.
But I don’t have time for that)
It still uses the Arduino sketch as before, which uses Mqtt to post the RFID code to Mosquitto.

My new Home Assistant automation

alias: SpotifyCube
description: ""
trigger:
  - platform: mqtt
    topic: spotify/rfid/id
condition:
  - condition: template
    value_template: "{{ trigger.payload in playlistkeys.keys() }}"
action:
  - service: media_player.play_media
    target:
      entity_id: media_player.spotify_fash
    data:
      media_content_type: playlist
      media_content_id: spotify:user:spotify:playlist:{{ playlistkeys.get(trigger.payload) }}
variables:
  playlistkeys:
    "70539770": 2KeRLMmGMxI5UgzE7m0iCx
    "70277626": 37i9dQZF1EQmK1rjZuPGDx
    "69229050": 0SOay3RkjojjevrF5lHMOx
    "70015482": 37i9dQZF1DX9HwI3Crikcx
    "69753338": 0bJvpsn0TDZwIDUjz4d75x
    "69491194": 5f8w3UHlD9Ozz6Y4VHs6kx

Some notes about above script:

  • The MQTT topic is configured in the sketch below
  • The playlist keys are at the bottom
    “RFIDID”: playliststring as can be found in web spotify

Pasted link

Arduino Code

#include <Arduino.h>
#include <SPI.h>
#include <MFRC522.h>
#include <ESP8266WiFi.h>
#include <WiFiClient.h>
#include <PubSubClient.h>

#define SS_PIN 15
#define RST_PIN 0

MFRC522 mfrc522(SS_PIN, RST_PIN);
unsigned long cardId = 0;

WiFiClient net;
PubSubClient client(net);
const char* mqtt_server = "IPMQTTBROKER";
const char* ssid = "MYSSID";
const char* password = "MYWIFIPASSWORD";

void setup() {

  Serial.begin(115200);
  SPI.begin();
  mfrc522.PCD_Init();
  WiFi.mode(WIFI_AP_STA);
  WiFi.begin(ssid, password);

  client.setServer(mqtt_server, 1883);
     delay(100);
    client.setCallback(callback);
      delay(100);
    client.subscribe("spotify/rfid/in/#");
}

void reconnect() {
  while (WiFi.waitForConnectResult() != WL_CONNECTED) {
  }

  while (!client.connected()) {
    String clientId = "NodeMCUClient-";
    clientId += String(random(0xffff), HEX);

    if (!client.connect(clientId.c_str(), "rfidclient", "...")) {
      Serial.print("failed, rc=");
      Serial.print(client.state());
      delay(5000);
    }

  }
  client.subscribe("spotify/rfid/in/#");
}

void callback(char* topic, byte* payload, unsigned int length) {
    String topicStr = topic;
      byte value = atoi((char*)payload);
}

void loop() {
    if (!client.connected()) {
    reconnect();
  }
  client.loop();

  if (!mfrc522.PICC_IsNewCardPresent()) {
    return;
  }

  if (!mfrc522.PICC_ReadCardSerial()) {
    return;
  }

  cardId = getCardId();
  char buffer[10];
  sprintf(buffer, "%lu", cardId);
  client.publish("spotify/rfid/id", buffer);

  uint8_t control = 0x00;
  do {
    control = 0;
    for (int i = 0; i < 3; i++) {
      if (!mfrc522.PICC_IsNewCardPresent()) {
        if (mfrc522.PICC_ReadCardSerial()) {
          control |= 0x16;
        }
        if (mfrc522.PICC_ReadCardSerial()) {
          control |= 0x16;
        }
        control += 0x1;
      }
      control += 0x4;
    }

    delay(0);
  } while (control == 13 || control == 14);

  reconnect();
  client.publish("spotify/rfid/id", "0");
  delay(500);

  mfrc522.PICC_HaltA();
  mfrc522.PCD_StopCrypto1();
}

unsigned long getCardId() {
  byte readCard[4];
  for (int i = 0; i < 4; i++) {
    readCard[i] = mfrc522.uid.uidByte[i];
  }

  return (unsigned long)readCard[0] << 24
    | (unsigned long)readCard[1] << 16
    | (unsigned long)readCard[2] << 8
    | (unsigned long)readCard[3];
}
Computer, IOT / Domoticz

Home Assistant and Harmony Hub Scripts

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I’ve got a Logitech Harmony Hub to IR control devices.

When adding this to your home assistant, you initially only get the Activities.

But I want to add single button presses.
I was going to re-visit my IR remote project.
(The IR blaster and the IR wemos, see previous posts)

Thanks to Duncan I had a second look at this solution

Check the files using the file editor.
Search for /homeassistant/harmony_xxxxxxxx.conf

It will show the Hub devices and their capabilities.

Short example below

{
    "Activities": {
        "-1": "PowerOff",
        "42652474": "Watch TV",
        "43054933": "Squeeze",
        "43054959": "Watch Netflix",
        "43072690": "Switch",
        "43073688": "Spotify",
        "43557114": "Kodi",
        "49494467": "Tv on",
        "52476284": "Boxon",
        "52476285": "Boxoff"
    },
    "Devices": {
        "Google Chromecast": {
            "commands": [],
            "id": "67134460"
        },
        "LG TV": {
            "commands": [
                "PowerOff",
                "PowerOn",
                "PowerToggle",
                ".",
                "-",
                "0",
 -----------8<----------------------------- SNIP SNAP
               "SportsMode"
            ],
            "id": "67134658"
        },
        "Onkyo AV Receiver": {
            "commands": [
                "PowerOff",
                "PowerOn",
 -----------8<----------------------------- SNIP SNAP
                "VolumeLevelUp5Step"
            ],
            "id": "67134459"
        },
        "arcadyan DVR": {
            "commands": [
                "PowerToggle",
 -----------8<----------------------------- SNIP SNAP
                "TV"
            ],
            "id": "67134775"
        }
    }
}

Lets create a Script for this

See the IDs above to refer to commands below.

alias: Netflix
sequence:
  - service: remote.send_command
    target:
      device_id: 7e82a825decabedbc98a0b5ce2ac5d78
    data:
      num_repeats: 1
      delay_secs: 0.4
      hold_secs: 1.2
      command: PowerOn
      device: "67134658"
  - service: remote.send_command
    metadata: {}
    data:
      num_repeats: 1
      delay_secs: 0.4
      hold_secs: 0
      command: InputStb/Dvr
      device: "67134459"
    target:
      device_id: 7e82a825decabedbc98a0b5ce2ac5d78
  - service: remote.send_command
    metadata: {}
    data:
      num_repeats: 1
      delay_secs: 0.4
      hold_secs: 0
      command: Netflix
      device: "67134658"
    target:
      device_id: 7e82a825decabedbc98a0b5ce2ac5d78
mode: single

Add these scripts to buttons

type: entities
entities:
  - script.allmediaoff
  - script.netflix
  - script.tvon
Computer, IOT / Domoticz

Kodi camera stream push playlist

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Below is a solution when you want to stream IP camera’s in Kodi/Libreelec .

You can push these commands using Nodered, Bash script or whatever.

First make some camera scripts in your profile directory.

Examples:

# Kodi on Linux/Raspberry
# Place a file cam1.m3u in .kodi/userdata/profiles/(kodiprofile)/playlists/video/
rtsp://admin:secretpass@192.168.1.123:88/videoMain

#and another one in cam2.m3u (another example mjpeg example)
http://192.168.1.124:8000/stream.mjpg

#For windows it is in
C:\Users\(Username)\AppData\Roaming\Kodi\userdata\profiles\(kodiprofile)\playlists\video

Enable http access in Kodi and run the playlist using curl

curl -i -X POST -H "Content-Type: application/json" -d '{"jsonrpc":"2.0","method":"Player.Open","params":{"options":{"shuffled":false,"repeat":"off"},"item":{"file":"special://profile/playlists/video/cam2.m3u"}},"id":"1"}' http://KODISERVERIP:8080/jsonrpc

A bash loop script

while true; do
curl -i -X POST -H "Content-Type: application/json" -d '{"jsonrpc":"2.0","method":"Player.Open","params":{"options":{"shuffled":false,"repeat":"off"},"item":{"file":"special://profile/playlists/video/cam1.m3u"}},"id":"1"}' http://KODISERVERIP:8080/jsonrpc
sleep 10
curl -i -X POST -H "Content-Type: application/json" -d '{"jsonrpc":"2.0","method":"Player.Open","params":{"options":{"shuffled":false,"repeat":"off"},"item":{"file":"special://profile/playlists/video/cam2.m3u"}},"id":"1"}' http://KODISERVERIP:8080/jsonrpc
sleep 5
done
Computer, IOT / Domoticz

What to do when waiting for your ribs on the smoker. (Programming some python)

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Use a little spoon NOT a knife
Get your fingers underneath the membrane
Preparing the ribs, getting the membrane off.

This time I used a rub with the following ingredients:
Seasalt, garlic, brown sugar, mustard seeds, paprica, cilantroseeds, black pepper, red pepper, oregano, thyme and cumin.

Doing a simple 3-2-1 smoke session, so .. what to do in dose 6 hours?

Lets make something using a Sense hat and Python.
Same HAT I used for my xmas ornament thingy in our tree.

  • Generate a large maze (80×80 for now)
  • Paint the maze using colors on the SenseHat
  • Read joystick movement and scroll the maze accordingly, keeping the player in the middle

Now I have to paint my ribs with BBQ sauce, and leave it in the smoker for yet another hour. (Nice glazing)

Next steps for the maze:

Use a better way to generate (reverse backtracking as I made for my other maze thing)

(Blind) Maze puzzle now with generation and play modes.

Wall collision detection is nearly completed.

Better placement “birth” of player in the maze.

# # # # # # # # # # # # # # # # # # # # 

# R D . . . . . R D . . . . R R D R D # 

# D L . . . . . U D . . . . U . R U D # 

# D . . . . R R U R D . . R U U L . D # 

# R D . . . U . . . R R D U . . U L D # 

# . R D R R U . . . . . D U . . . U L # 

# . . D U L . . . . . D L U . . . . . # 

# . . R R U . . . . . R R U . . . . . # 

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# # # # # # # # # # # # # # # # # # # #
BBQ / Smoker / Food, Computer, IOT / Domoticz

Waveshare Epaper ESPHOME and Mqtt Notification over secure mqtt

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UPDATE: AccessPoint on Arduino implemented with captive portal for Wifi Configuration

Got my Waveshare Epaper Cloud running on ESPHome

This is a Epaper display with a 2000mAh Lipo and a passive buzzer.
Running parts of my Smoker monitor.

Below a little movie clip with RTTTL sound notification.
(Send from Home Assistant)
B.t.w. RTTTL are those ringtones we used to have. (Ring Tone Text Transfer Language)

Sending from HA

Parts of the ESPHOME Yaml
NOTE: For the time, you need the time integration to get hours:minutes as a sensor!

esphome:
  name: epaperesp32

esp32:
  board: esp32dev
  framework:
    type: arduino

# Enable logging
logger:

# Enable Home Assistant API
api:
  services:
    - service: play_rtttl
      variables:
        song_str: string
      then:
        - rtttl.play:
            rtttl: !lambda 'return song_str;'

output:
  - platform: ledc
    pin: GPIO22
    id: rtttl_out

rtttl:
  output: rtttl_out
  on_finished_playback:
    - logger.log: 'Song ended!'

ota:
  password: "xxxxxxxxxxxxxxxxxxxxxxxxxxx"

wifi:
  ssid: !secret wifi_ssid
  password: !secret wifi_password

  # Enable fallback hotspot (captive portal) in case wifi connection fails
  ap:
    ssid: "Epaperesp32 Fallback Hotspot"
    password: "xxxxxxxxxxxxxxxxx"

captive_portal:

font:
  - file: 'fonts/tahoma.ttf'
    id: font1
    size: 16
  - file: 'fonts/tahoma.ttf'
    id: font2
    size: 32

sensor:
  - platform: adc
    pin: GPIO36
    name: "epaperesp32 Battery voltage"
    id: battery_voltage
    icon: mdi:battery
    device_class: voltage
    attenuation: auto 
    filters:
     - multiply: 3
    update_interval: 60s

text_sensor:
  - platform: homeassistant
    entity_id: sensor.bbqenv
    name: "mystate"
    id: mystate
    internal: true
  - platform: homeassistant
    entity_id: sensor.bbqcore
    name: "mystate1"
    id: mystate1
    internal: true
  - platform: homeassistant
    entity_id: sensor.time
    name: "mytime"
    id: mytime
    internal: true

spi:
  clk_pin: GPIO13
  mosi_pin: GPIO14

binary_sensor:
  - platform: gpio
    pin:
      number: GPIO12
      inverted: true 
      mode:          
        input: true
        pullup: true
    name: "epaperesp32 button"
    filters:
      - delayed_on: 50ms
    on_press:
      - logger.log: "Button pressed"

display:
  - platform: waveshare_epaper
    cs_pin: GPIO15
    dc_pin: GPIO27
    busy_pin: GPIO25
    reset_pin: GPIO26
    model: 2.13in-ttgo
    rotation: 270
    full_update_every: 12
    update_interval: 10s
    lambda: |-
      it.print(0, 0, id(font2), "BBQ Meter V3");
      it.printf( 35, 32, id(font2), "%s", id(mystate).state.c_str());
      it.printf( 155, 32, id(font2), "%s", id(mystate1).state.c_str());

MQTT Notifier over Internet

This is part of a test where my friends and me can have notifications LEDs over the internet.

Using certificate parts from:
Controlling the led will be done using Mattermost webhooks, or slashcommand with custom scripting.
(Mattermost is my own hosted chat server)

Mobile Raspberry Access Point with Mqtt and a display

I flashed a Wemos with below code:
(Rotary/display/button part removed.)

#include <ESP8266WiFi.h>
#include <WiFiClientSecure.h>
#include <time.h>
#include <PubSubClient.h>
#include <Adafruit_NeoPixel.h>

#define encoderCLK 5   //D1
#define encoderDT 4    //D2
#define rgbled D4       //D4

Adafruit_NeoPixel pixels = Adafruit_NeoPixel(1, rgbled, NEO_RGB + NEO_KHZ400);

int servoAngle = 0;
int crntCLK;
int prvsCLK;

String myString;
char ang[50];


#ifndef SECRET
const char ssid[] = "MYSSID";
const char pass[] = "MYPASS";

#define HOSTNAME "henrimqtt"

const char MQTT_HOST[] = "www.henriaanstoot.nl";
const int MQTT_PORT = 9883;
const char MQTT_USER[] = "xxxxxx"; // leave blank if no credentials used
const char MQTT_PASS[] = "xxxxxx"; // leave blank if no credentials used

const char MQTT_SUB_TOPIC[] = "notification/" HOSTNAME "/in";
const char MQTT_PUB_TOPIC[] = "notification/" HOSTNAME "/out";
const char MQTT_PUB_TOPIC_angle[] = "notification/" HOSTNAME "/send";

#ifdef CHECK_CA_ROOT
static const char digicert[] PROGMEM = R"EOF(
-----BEGIN CERTIFICATE-----
MIIFtTCCA52gAwIBAgIUXEEQRLHhYox8a95YiAYX/wQ/XeMwDQYJKoZIhvcNAQEN
//--------------- SNIP SNIP ... generated cert here
vht8GyCCgCH55Syvy9ls6gCyLjTT2rtllw==
-----END CERTIFICATE-----
)EOF";
    #endif

    #ifdef CHECK_PUB_KEY
    // Extracted by: openssl x509 -pubkey -noout -in ca.crt
    static const char pubkey[] PROGMEM = R"KEY(
    -----BEGIN PUBLIC KEY-----
    xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
    xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
    xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
    xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
    xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
    xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
    xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
    xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
    xxxxxxxx
    -----END PUBLIC KEY-----
    )KEY";
    #endif

    #ifdef CHECK_FINGERPRINT
        // Extracted by: openssl x509 -fingerprint -in ca.crt
    static const char fp[] PROGMEM = "AA:BB:CC:DD:EE:FF:00:11:22:33:44:55:66:77:88:99:AA:BB:CC:DD";
    #endif
#endif

//////////////////////////////////////////////////////

#if (defined(CHECK_PUB_KEY) and defined(CHECK_CA_ROOT)) or (defined(CHECK_PUB_KEY) and defined(CHECK_FINGERPRINT)) or (defined(CHECK_FINGERPRINT) and defined(CHECK_CA_ROOT)) or (defined(CHECK_PUB_KEY) and defined(CHECK_CA_ROOT) and defined(CHECK_FINGERPRINT))
  #error "cant have both CHECK_CA_ROOT and CHECK_PUB_KEY enabled"
#endif

BearSSL::WiFiClientSecure net;
PubSubClient client(net);

time_t now;
unsigned long lastMillis = 0;

void mqtt_connect()
{
  while (!client.connected()) {
    Serial.print("Time: ");
    Serial.print(ctime(&now));
    Serial.print("MQTT connecting ... ");
    if (client.connect(HOSTNAME, MQTT_USER, MQTT_PASS)) {
      Serial.println("connected.");
      client.subscribe(MQTT_SUB_TOPIC);
    } else {
      Serial.print("failed, status code =");
      Serial.print(client.state());
      Serial.println(". Try again in 5 seconds.");
      /* Wait 5 seconds before retrying */
      delay(5000);
    }
  }


}

void receivedCallback(char* topic, byte* payload, unsigned int length) {
    //  pixels.clear(); // Set all pixel colors to 'off'
 
  Serial.print("Received [");
  Serial.print(topic);
  Serial.print("]: ");
  for (int i = 0; i < length; i++) {
    Serial.print((char)payload[i]);
  }
if (!strncmp((char *)payload, "0", length)) {
       pixels.setPixelColor(0, pixels.Color(0, 0, 0));
      pixels.show();   // Send the updated pixel colors to the hardware.
}
if (!strncmp((char *)payload, "1", length)) {
       pixels.setPixelColor(0, pixels.Color(150, 0, 0));
      pixels.show();   // Send the updated pixel colors to the hardware.
}
if (!strncmp((char *)payload, "2", length)) {
       pixels.setPixelColor(0, pixels.Color(0, 0, 150));
      pixels.show();   // Send the updated pixel colors to the hardware.
}
if (!strncmp((char *)payload, "3", length)) {
       pixels.setPixelColor(0, pixels.Color(0, 150, 0));
      pixels.show();   // Send the updated pixel colors to the hardware.
}
}

void setup()
{
  pixels.begin(); // INITIALIZE NeoPixel strip object (REQUIRED)

  pinMode (encoderCLK,INPUT_PULLUP);
  pinMode (encoderDT,INPUT_PULLUP);
  prvsCLK = digitalRead(encoderCLK);
  Serial.begin(115200);
  Serial.println();
  Serial.println();
  Serial.print("Attempting to connect to SSID: ");
  Serial.print(ssid);
  WiFi.hostname(HOSTNAME);
  WiFi.mode(WIFI_STA);
  WiFi.begin(ssid, pass);
  while (WiFi.status() != WL_CONNECTED)
  {
    Serial.print(".");
    delay(1000);
  }
  Serial.println("connected!");

  Serial.print("Setting time using SNTP");
  configTime(1 * 3600, 0, "pool.ntp.org", "time.nist.gov");
  now = time(nullptr);
  while (now < 1510592825) {
    delay(500);
    Serial.print(".");
    now = time(nullptr);
  }
  Serial.println("done!");
  struct tm timeinfo;
  gmtime_r(&now, &timeinfo);
  Serial.print("Current time: ");
  Serial.print(asctime(&timeinfo));

  #ifdef CHECK_CA_ROOT
    BearSSL::X509List cert(digicert);
    net.setTrustAnchors(&cert);
  #endif
  #ifdef CHECK_PUB_KEY
    BearSSL::PublicKey key(pubkey);
    net.setKnownKey(&key);
  #endif
  #ifdef CHECK_FINGERPRINT
    net.setFingerprint(fp);
  #endif
  #if (!defined(CHECK_PUB_KEY) and !defined(CHECK_CA_ROOT) and !defined(CHECK_FINGERPRINT))
    net.setInsecure();
  #endif

      
  client.setServer(MQTT_HOST, MQTT_PORT);
  client.setCallback(receivedCallback);
  mqtt_connect();
       pixels.setPixelColor(0, pixels.Color(0, 0, 0));
      pixels.show();   // Send the updated pixel colors to the hardware.

}

void loop()
{
   crntCLK = digitalRead(encoderCLK);

 if (crntCLK != prvsCLK){
      // If the encoderDT state is different than the encoderCLK state then the rotary encoder is rotating counterclockwise
        if (digitalRead(encoderDT) != crntCLK) {
          servoAngle ++;

        }
        else {
          servoAngle --;
         }
         Serial.println(servoAngle);
          String myString = String(servoAngle);
          myString.toCharArray(ang, myString.length() + 1);
          client.publish(MQTT_PUB_TOPIC_angle, ang, false);
 }
  prvsCLK = crntCLK;

  now = time(nullptr);
  if (WiFi.status() != WL_CONNECTED)
  {
    Serial.print("Checking wifi");
    while (WiFi.waitForConnectResult() != WL_CONNECTED)
    {
      WiFi.begin(ssid, pass);
      Serial.print(".");
      delay(10);
    }
    Serial.println("connected");
  }
  else
  {
    if (!client.connected())
    {
      mqtt_connect();
    }
    else
    {
      client.loop();
    }
  }

  if (millis() - lastMillis > 5000) {
    lastMillis = millis();
    client.publish(MQTT_PUB_TOPIC, ctime(&now), false);
  }
}