Doing a project using leather is something I do not often enough.
So I’m always looking for new ideas/projects.
This weekend, I made some straps for portable painting easels.
Keeping the poles of the tripod together with multiple straps and a longer leather strip allows for easy carrying on your back.
A simple project, I need some challenge next time!
My leather strip cutter I made in 2011.
A long time ago I had an Action Replay II.
I modded it and was planning to rebuild this using pluggable eurocard-prints.
Then it got lost, somewhere.
Today I went to Almelo with Tyrone.
In the morning reverse engineering a lift controller print, and afternoon going to a guy selling a lot of Retro stuff.
And there it was, an Action Replay II for Amiga just catching dust.
I had to buy it, and got a sh*tload of 27256 Eproms for free!
This version is compatible with the A500/A1000 version only. It also plugs into the side expansion port. It introduces the following features:
A special A2000 version is available for this particular revision. Instead of plugging into the side expansion port it plugs into the 86 pin CPU slot.
Schedule below script after changing the first few lines
### Set local variables. Change the value between "" to reflect your environment. Do not delete quotation marks. :local ftpserver "ftpserver" :local username "ftpuser" :local password "ftppass" :local ftppath "mikrotik/hapac2" :local hostname [/system identity get name] :local localfilename "$hostname-Backup-Daily"; :global thisdate [/system clock get date] :global thistime [/system clock get time] :global date ([:pick $thisdate 0 10]) :local remotebackup ([/system identity get name]."-".$date.".backup") :local remotersc ([/system identity get name]."-".$date.".rsc") ### Create backup file and export the config. export compact file="$localfilename" /system backup save name="$localfilename" :log info "Backup Created Successfully" ### Upload config file to FTP server. /tool fetch address=$ftpserver src-path="$localfilename.backup" \ user=$username mode=ftp password=$password \ dst-path=($ftppath."/".$remotebackup) upload=yes :log info "Config Uploaded Successfully" ### Upload backup file to FTP server. /tool fetch address=$ftpserver src-path="$localfilename.rsc" \ user=$username mode=ftp password=$password \ dst-path=($ftppath."/".$remotersc) upload=yes :log info "Backup Uploaded Successfully"
Files are written on the FTP server like this:
MikroTikHAP1-2024-03-14.backup
MikroTikHAP1-2024-03-14.rsc
Soldering almost done, except for the space bar all tactile buttons in place.
Using my USBasp programmer I tried to program the Atmega328pb.
Same one I used for:
I first needed to implement some udev rules to get the rights for the reader correct.
#/etc/udev/rules.d/99-usbasp.rules
SUBSYSTEM=="usb", ATTRS{idVendor}=="16c0", ATTRS{idProduct}=="05dc", GROUP="dialout"
Next I tried to burn a bootloader.
Well, not as planned, back to the drawing board.
Hopefully I compiled at least the Pico part correctly.
Mikrotik is in netboot mode only, not accessible using winbox/web or IP.
(This is one of my smaller AP’s)
Below the log from my DHCP server
Mar 12 23:30:43 shibari dhcpd[3559351]: BOOTREQUEST from c4:ad:34:aa:aa:39 via p1p1.10 Mar 12 23:30:43 shibari dhcpd[3559351]: BOOTREPLY on to c4:ad:34:aa:aa:39 via p1p1.10
Download netinstall (linux cli) from here:
Also the latest routeros, and in my case also wireless package for HAP2.
(There was a change in packaging, due to the limited size of the Hap2.)
Steps to take: Use a UTP cable to connect the hap to a pc or laptop.
config your ethernet to 192.168.88.2/24 and make sure you change the default gateway to 192.168.1.1 !
(Disable wifi)
Start below command
./netinstall -r -a 192.168.88.1 routeros-7.14.1-arm.npk
Disconnect/connect power and uploading should start.
Here is the text from my console
root@zspot:/home/henri/Downloads/mt# route add default gw 192.168.88.1
root@zspot:/home/henri/Downloads/mt# route -n
Kernel IP routing table
Destination Gateway Genmask Flags Metric Ref Use Iface
0.0.0.0 192.168.88.1 0.0.0.0 UG 0 0 0 enp0s31f6
192.168.88.0 0.0.0.0 255.255.255.0 U 0 0 0 enp0s31f6
192.168.122.0 0.0.0.0 255.255.255.0 U 0 0 0 virbr0
root@zspot:/home/henri/Downloads/mt# ip a s
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN group default qlen 1000
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
inet 127.0.0.1/8 scope host lo
valid_lft forever preferred_lft forever
inet6 ::1/128 scope host
valid_lft forever preferred_lft forever
2: enp0s31f6: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc fq_codel state UP group default qlen 1000
link/ether e0:70:ea:53:b3:6e brd ff:ff:ff:ff:ff:ff
inet 192.168.88.2/24 brd 192.168.88.255 scope global enp0s31f6
valid_lft forever preferred_lft forever
3: wlp0s20f3: <BROADCAST,MULTICAST> mtu 1500 qdisc noqueue state DOWN group default qlen 1000
link/ether f4:4e:e3:91:27:24 brd ff:ff:ff:ff:ff:ff
4: virbr0: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc noqueue state DOWN group default qlen 1000
link/ether 52:54:00:b1:16:1a brd ff:ff:ff:ff:ff:ff
inet 192.168.122.1/24 brd 192.168.122.255 scope global virbr0
valid_lft forever preferred_lft forever
root@zspot:/home/henri/Downloads/mt# ./netinstall -r -a 192.168.88.1 routeros-7.14.1-arm.npk
Will reset config
Using server IP: 192.168.88.2
Starting PXE server
Waiting for RouterBOARD...
PXE client: C4:AD:34:AA:AA:39
Sending image: arm
Discovered RouterBOARD...
Formatting...
Sending package routeros-7.14.1-arm.npk ...
Ready for reboot...
Sent reboot command
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.
The siren is about 4-5 Euro’s on Ali
https://nl.aliexpress.com/item/1005006066524139.html
Schematic of the wemos controller
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'
A week ago I got the last components delivered to my doorstep.
This project was made by Silvervest and it’s f*ckin awesome.
https://github.com/silvervest/c64pico
I was afraid to start this myself, SMD is on another level for me.
But my good friend Marco said … No problem!
So I ordered components online, which was not easy.
Selecting the correct parts, sizes and options.
These things are really really small
Using tweezers to place the components was even difficult.
The slippery tiny bastard got catapulted everywhere. (Or got stuck on fingers, soldering iron and alike)
Many small components got lost into the 7th dimension. Never to be found again.
Awesome to work on this together, but Marco said that I have to try it myself.
Welllll, I got 3/4 of the ATmega328PB-A perfectly soldered, then I notished that it was crooked.
Desoldering was a mess, and I heated the PCB TOO much with the heatgun.
Next step for me is soldering the 75 mini buttons!
Got a Trinitron display from him, I was looking for this for a long time.
see:
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.
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?
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/
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)
Now, I implemented this:
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.
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?
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.
In the past I posted about my genre selector for Spotify using a cube.
UPDATE: 20240501 below – using esphome
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:
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];
}
ESPHOME Config same as above
esphome:
name: rfidtag
friendly_name: rfidtag
esp8266:
board: d1_mini
mqtt:
broker: 192.168.1.1
# Enable logging
logger:
# Enable Home Assistant API
api:
encryption:
key: "xxxxxxxxxxxxxxx="
ota:
password: "xxxxxxxxxxxxxx"
wifi:
ssid: !secret wifi_ssid
password: !secret wifi_password
# Enable fallback hotspot (captive portal) in case wifi connection fails
ap:
ssid: "Rfidtag Fallback Hotspot"
password: "xxxxxxxxxxx"
captive_portal:
spi:
clk_pin: D5
miso_pin: D6
mosi_pin: D7
rc522_spi:
cs_pin: D8
update_interval: 1s
on_tag:
then:
- mqtt.publish:
topic: spotify/rfid/id
payload: !lambda 'return x;'
on_tag_removed:
then:
- mqtt.publish:
topic: spotify/rfid/idremoved
payload: !lambda 'return x;'