Designing a new, more flexible, midi controller
Analogue multiplexer for potentiometers, and MCP I2C IO extender for matrix keyboard.
New midi controller
Yesterday Ultrasonic booze, now smokey booze
I did this a few times before, but I forgot.
Doing it again. Smoke wood and a container and booze.
Ultrasonic ageing booze, while soldering
While doing other stuff, I experimented with fake barrel ageing booze using my ultrasonic cleaner.
Using this method, you can give a barrel/wood taste to your liquids.
I used a Whisky barrel piece to give a nicer/better taste to generic Vodka.
Next to do, other woods and spirits. Like Cognac woodbarrel and plain white Rum.
Look at the colour change!
It smelled better, and the taste was great.
Smooth, round and far less harsh as the plain Vodka.
Cynthcart (c64) midi control
I bought a teensyrom a while ago.
Tyrone and I wanted to control the settings using potmeters.
So I grabbed a Teensy 4.1 controller and some 10K potmeters, some code using
Test code for two pots, don’t forget to set your USB mode to midi!
Schematic soon, also all tweaks and note sending.
Next to do: 12 pots!
A nice case and extra buttons!
Let’s use an old box to hold the pots!
reconst int numPots = 12;
// Custom mappings:
const int potPins[numPots] = {A0, A1, A2, A3, A4, A5, A6, A7, A8, A9, A10, A11}; // Analog pins
const int ccNumbers[numPots] = {4, 8, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12}; // CC numbers
const int midiChannels[numPots]= {2, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 4}; // MIDI channels (1–16)
int lastValues[numPots];
void setup() {
for (int i = 0; i < numPots; i++) {
pinMode(potPins[i], INPUT);
lastValues[i] = -1;
}
}
void loop() {
for (int i = 0; i < 2; i++) {
int analogValue = analogRead(potPins[i]);
int midiValue = analogValue / 8; // Scale 0–1023 to 0–127
if (abs(midiValue - lastValues[i]) > 1) {
usbMIDI.sendControlChange(ccNumbers[i], midiValue, midiChannels[i]);
lastValues[i] = midiValue;
}
}
delay(5);
}
Other projects in progress
PC Volume control using motorized potentiometer.
Sends state to PC using media buttons (HID-device)
Uses python script to update pot position.
Probably replace Raspberry Pico with Arduino Pro
Maze Wars (1970s) in javascript using MQTT backend for multiple users
Testing pico vision card
Wire bot MQTT controller (stepper motor)
Webcam image slash command mattermost
I’ve got my own chat server, because WhatsApp sucks.
With this I can play around.
Below is a script to capture an image from a (Reolink) webcam, and show this in a Mattermost channel.
You need to configure your /slash command in Mattermost and a webserver with PHP
When entering
/labcam
in a channel, an image will be shown.
Code:
<?php
// See token from screenshots above
$expected_token = 'YOUR_MATTERMOST_TOKEN';
$token = $_POST['token'] ?? '';
if ($token !== $expected_token) {
http_response_code(403);
echo 'Invalid token, go away';
exit;
}
// Reolink camera settings
$ip = '192.168.1.2'; // Replace with your camera IP
$user = 'admin'; // Camera username
$pass = 'admin';// Camera password
$rs = uniqid(); // Unique request string
$url = "http://$ip/cgi-bin/api.cgi?cmd=Snap&channel=0&rs=$rs&user=$user&password=$pass";
// Temporary image save path (ensure this directory is public and writable)
$image_filename = 'snapshot_' . time() . '.jpg';
$image_path = __DIR__ . '/snapshots/' . $image_filename; // e.g., public_html/snapshots/
$image_url = 'https://labcam.henriaanstoot.nl/snapshots/' . $image_filename; // Public URL
// Fetch image from Reolink using cURL
$ch = curl_init($url);
curl_setopt($ch, CURLOPT_RETURNTRANSFER, true);
curl_setopt($ch, CURLOPT_FOLLOWLOCATION, true);
curl_setopt($ch, CURLOPT_HEADER, false);
curl_setopt($ch, CURLOPT_HTTPAUTH, CURLAUTH_BASIC);
curl_setopt($ch, CURLOPT_USERPWD, "$user:$pass");
$image_data = curl_exec($ch);
$http_code = curl_getinfo($ch, CURLINFO_HTTP_CODE);
curl_close($ch);
if ($http_code !== 200 || !$image_data) {
echo json_encode([
'response_type' => 'ephemeral',
'text' => 'Failed to get snapshot from Reolink camera.',
]);
exit;
}
// Save image
file_put_contents($image_path, $image_data);
// Respond to Mattermost
$response = [
'response_type' => 'in_channel',
'text' => 'Live snapshot from camera:',
'attachments' => [[
'image_url' => $image_url,
'fallback' => 'Reolink snapshot'
]]
];
header('Content-Type: application/json');
echo json_encode($response);
Little OBS toy.
I use OBS sometimes to explain things, I thought it would be nice to have a moving avatar thingy in my screencast which moves when I talk.
The image is a transparent PNG, and I’m moving it up and down using the microphone and a python script.
CODE:
import pygame
import pyaudio
import numpy as np
import sys
# Settings
PNG_PATH = "your_image.png" # Replace with your transparent PNG path
CHUNK = 1024
FORMAT = pyaudio.paInt16
CHANNELS = 1
RATE = 44100
MOVEMENT_THRESHOLD = 1
GRAVITY = 3 # Tweak this, to get smoother "talk" bounch
JUMP_MULTIPLIER = 3 # Controls jump power Tweak this shit
MAX_JUMP_HEIGHT = 30 # Max bounce
START_OFFSET = -450 # How far below screen the PNG starts ( so my avator stays covered in bottom )
# Initialize PyAudio
p = pyaudio.PyAudio()
stream = p.open(format=FORMAT,
channels=CHANNELS,
rate=RATE,
input=True,
frames_per_buffer=CHUNK)
# Initialize Pygame
pygame.init()
info = pygame.display.Info()
screen_width, screen_height = info.current_w, info.current_h
screen = pygame.display.set_mode((screen_width, screen_height), pygame.FULLSCREEN)
pygame.display.set_caption("Mic Bounce PNG")
# Load image
image = pygame.image.load(PNG_PATH).convert_alpha()
img_rect = image.get_rect()
img_rect.centerx = screen_width // 2
img_rect.top = screen_height + START_OFFSET # Start below the screen
velocity_y = 0
clock = pygame.time.Clock()
def get_loudness():
data = np.frombuffer(stream.read(CHUNK, exception_on_overflow=False), dtype=np.int16)
volume = np.linalg.norm(data)
return volume / CHUNK
# Bottom and top bounce limits
bottom_y = screen_height + START_OFFSET
top_y = screen_height + START_OFFSET - MAX_JUMP_HEIGHT
try:
while True:
for event in pygame.event.get():
if event.type == pygame.QUIT or \
(event.type == pygame.KEYDOWN and event.key == pygame.K_ESCAPE):
raise KeyboardInterrupt
loudness = get_loudness()
if loudness > MOVEMENT_THRESHOLD and img_rect.top >= bottom_y:
# Jump upward with capped power
velocity_y = -int(min((loudness - MOVEMENT_THRESHOLD) * JUMP_MULTIPLIER, MAX_JUMP_HEIGHT))
# Apply gravity
velocity_y += GRAVITY
img_rect.y += velocity_y
if img_rect.top >= bottom_y:
img_rect.top = bottom_y
velocity_y = 0
if img_rect.top <= top_y:
img_rect.top = top_y
velocity_y = 0
# Draw chromakey green background
screen.fill((0, 255, 0))
# Draw PNG
screen.blit(image, img_rect)
pygame.display.flip()
clock.tick(60)
except KeyboardInterrupt:
stream.stop_stream()
stream.close()
p.terminate()
pygame.quit()
sys.exit()
Working on a Bluetooth beacon game for a friend.
Got some bluetooth beacons in the mail.
The plan is to hide these in the woods, and children have to find them using a scanner device.
Using a ESP32 with bluetooth, using RSSI (strength of signal) I can limit the range of detection.
The order of finding the tags is important, so a hidden tag should not be found when another should be found first.
These tags, hidden in toys, should be placed in a treasure chest.
(In order)
Then lights and sounds should hint the kids that they have successfully completed the mission.
So same detecting but even shorter range ESP is hidden in the Chest.
Some leds or a single blinking one should give hints about the distance of the object.
=== Matching iTags ===
MAC: 5b:08:10:4d:2a:01 | RSSI: -47
MAC: 5b:45:aa:0d:f7:9c | RSSI: -31 #### NEAR
MAC: 5b:88:fc:fc:e8:a9 | RSSI: -94 #### FAR AWAY
MAC: 5b:8b:00:00:1d:40 | RSSI: -66 Some test code:
#include <BLEDevice.h>
#include <BLEUtils.h>
#include <BLEScan.h>
#include <BLEAdvertisedDevice.h>
int scanTime = 5; // seconds
BLEScan* pBLEScan;
void setup() {
Serial.begin(115200);
Serial.println("Starting BLE scan...");
BLEDevice::init("");
pBLEScan = BLEDevice::getScan();
pBLEScan->setActiveScan(true);
pBLEScan->setInterval(100);
pBLEScan->setWindow(99);
}
void loop() {
BLEScanResults results = *pBLEScan->start(scanTime, false);
Serial.println("=== Matching iTags ===");
for (int i = 0; i < results.getCount(); i++) {
BLEAdvertisedDevice device = results.getDevice(i);
String mac = device.getAddress().toString();
if (mac.startsWith("5b:")) {
Serial.print("MAC: ");
Serial.print(mac);
Serial.print(" | RSSI: ");
Serial.println(device.getRSSI());
}
}
Serial.println("======================");
pBLEScan->clearResults();
delay(2000);
}
Mqtt Pong
This weekend we went to Nerdland in Belgium.
I saw a cool game when we had to wait before some talks started.
What is so special about pong?
Well, half of the audience was playing the other part of the audience.
250 against 250 Multiplayer.
It used mqtt websockets, and the audience mobile phones with tilting.
Average of 33+ % choosing up? Paddle goes up, Center and down the same.
I think I can make it myself.
So below my two days progression.
MQTT via internet.
Sound and score counter.
Using the mobile phone’s tilt sensor.
Maybe I’m going to change it into some 3D maze game.
Code soon
Locked phone data recovery
A friend came with a locked phone.
His son had changed the swipe lock thingy, and forgot what it was,
How I recovered Pictures and Movies:
ADB was turned off, and MTP doesn’t work when locked.
Phone was one of the below.
MT6781, MT6789, MT6855, MT6886, MT6895, MT6983, MT8985
git clone https://github.com/bkerler/mtkclient
cd mtkclient
pip3 install -r requirements.txt
./python3 mtk.py rl testPress Volume up and volume down and keep pressed.
Now connect the USB cable.
Partitions are downloading, we need userdata.bin
This takes a while!
Next: Extract data
Install Guestfish
sudo guestfish --ro -a userdata.bin
<fs>
run
list-filesystems
mount /dev/sda /
ls /
glob copy-out /media/0/DCIM/Camera/* .
Data extracted and phone was still locked.
That’s all that was needed, factory reset was next.