I call this nonsense host ‘Ghost’, for me it’s similar to a tape backup solution. Fairly simple concept, it’s an old Pi1 + external mechanical drive that sits dormant with its ethernet off. Once a month, at a random time and random date it enables the ethernet, spins up the drive and pulls data from the main server to update its drive then goes black until next month. The only way to check or maintain the pi is a push button that toggles the ethernet interface. I slapped it together with some scrap wood, spare hardware and screwed it to a 2x4 in a dark corner of my basement. It’s my 5th string backup, the ultimate insurance policy because I’m mental.

  • czardestructo@lemmy.worldOP
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    1 year ago

    Sorry, I forgot to post the scripts. I’m a meathead electrical engineer so I don’t use GIT or anything so here is the code dump. To summarize the setup’s software:

    • cron to run the script that turns the ethernet on and runs rsync to pull data from the server. I have 12 cron entries for the various months/dates/times to run.
    • python script to monitor the button presses for manually running a backup or turning the ethernet port back on
    • bash script that runs the rsync job to pull data from the primary server

    The backup script is fairly boring, just runs rsync and pushes the rsync log files back to the primary server. If it fails it sends me an email before turning the ethernet back off and going black.

    #So here is my python code that runs the button press:

    #!/usr/bin/env python
    
    import RPi.GPIO as GPIO
    import subprocess
    import time
    from multiprocessing import Process
    
    
    #when this script first runs, at boot, disable ethernet
    time.sleep(5) #wait 5 seconds for system to boot, then try and disable ethernet.
    subprocess.call(['/home/pi/ethernet_updown.sh'], shell=False)
    
    GPIO.setmode(GPIO.BCM)
    GPIO.setup(3, GPIO.IN, pull_up_down=GPIO.PUD_UP)
    GPIO.setup(22, GPIO.OUT) #controls TFT display backlight
    GPIO.setup(23, GPIO.IN) #pull up or down is optional, the TFT display buttons have a hardware 10k pull up. Measure low tranisitions 
    GPIO.setup(24, GPIO.IN)
    
    
    #watches the button mounted above the USB port, in the Pi's case. 
    def case_button_watch():
        while True:
            GPIO.wait_for_edge(3, GPIO.FALLING)
            #wait 100ms then check if its still low, debounce timer
            time.sleep(.100)
            if GPIO.input(3) == GPIO.LOW:
                #do something as it's a button press
                print('Button is pressed!')
                time.sleep(.900)
                if GPIO.input(3) == GPIO.LOW:
                    #if the button is pressed for over 1 second its a long press. Run the backup script
                    print('Button long press (greater than 1 second), running an unscheduled backup')
                    subprocess.call(['/home/pi/backup.sh'], shell=False)
                else:
                    #the press was greater than 100mS but less than 1000mS, just toggle the ethernet
                    print('Button short press (less than 1 second), toggling the ethernet')
                    subprocess.call(['/home/pi/ethernet_updown.sh'], shell=False)
            else:
                #do nothing as its interference
                print('GPIO3 debounce failed, it was noise')
    
    #watches the buttons in the TFT display 
    def TFT_display_button1():
        while True:
            GPIO.wait_for_edge(23, GPIO.FALLING)
            #wait 100ms then check if its still low, debounce timer
            time.sleep(.100)
            if GPIO.input(23) == GPIO.LOW:
                #do something as it's a button press
                print('Button GPIO23 is pressed!')
                GPIO.output(22, GPIO.HIGH) #turn the backlight ON
            else:
                #do nothing as its interference
                print('GPIO23 debounce failed, it was noise')
    
    #watches the buttons in the TFT display
    def TFT_display_button2():
        while True:
            GPIO.wait_for_edge(24, GPIO.FALLING)
            #wait 100ms then check if its still low, debounce timer
            time.sleep(.100)
            if GPIO.input(24) == GPIO.LOW:
                #do something as it's a button press
                print('Button GPIO24 is pressed!')
                GPIO.output(22, GPIO.LOW) #turn the backlight OFF
            else:
                #do nothing as its interference
                print('GPIO24 debounce failed, it was noise')
    
    if __name__ == '__main__':
    
        #run three parallel processes to watch all three buttons with software debounce
        proc1 = Process(target=case_button_watch)
        proc1.start()
    
        proc2 = Process(target=TFT_display_button1)
        proc2.start()
    
        proc3 = Process(target=TFT_display_button2)
        proc3.start()
    

    #bash script that toggles the ethernet - if its on, it turns it off. if its off, it turns it on:

    #!/bin/bash
    
    if sudo ifconfig | grep 'eth0' | grep 'RUNNING' > /dev/null; 
    then 
        wall -n "$(date +"%Y%m%d_%H%M%S"):Ethernet going down"
        sudo ifconfig eth0 down	
    else 
        wall -n "$(date +"%Y%m%d_%H%M%S"):Ethernet going up"
        sudo ifconfig eth0 up
    fi
    
    • ANotSoSlyLawnTurtle@lemmy.world
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      1 year ago

      I very much feel the desire to stay away from Git repos for singular scripts like this. Maybe consider making it a gist though. Easier to keep track of by starring it in GitHub and perhaps even iterate on it in the future. :)

      • czardestructo@lemmy.worldOP
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        1 year ago

        I use Joplin notes to track my code revisions. It’s incredibly crude but it works and keeps my documention private and is also my wiki for each server so I know what the heck I setup and did.

    • joroo@lemmy.world
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      1 year ago

      We can see the video. Like the idea! I personally use a pi that I plug in manually as a backup solution. Do you have a git with the scripts you used for this pi?