Yet annother Retroflag NESPi case with Mausberry, Softshutdown, DUO-LED, Momentary switches
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@caver01 If the SW brown is the ground of the switch then just connect any GPIO wire to it. This shutdowns the mausberry.
GPIO MAUSBERRY from Pie DIODE switch ground O---------------->|----------------O
I measured a voltage of 3-4V between the switch poles.
The mausberry don't cares of the voltage source.
Is it from the switch or feed from the diode ;)
The diode is just for protection of the Pie against voltage feed-backs.
But the transistor also works.... -
@cyperghost
I see. So you are merely simulating the voltage that would go there if the switch were triggered by supplying that voltage from the GPIO. That makes sense, and definitely easier than connecting a solid state relay or transistor across both switch poles. -
@caver01 Exactly. As the Mausberry mains provides the same ground to all connected devices I see no problem with different ground potentials also. So this should work in general. But it would be nice if you report back.
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@caver01
I tested with a bare mausberry switch - No Rasperry connected, no LED just the power plug via micro USB.You measure between LED(+) and GROUND Reset Pad >> 0V
Now you connect SWITCH(+) and SWITCH(-) with one cable just for a second to simulate a momentary push button
You measure between LED(+) and GROUND Reset Pad >> 2,5V
The LED(+) simualtes a GPIO output voltage + diode = 3,3V-0,7V=2,5V
Now connect LED(+) to SWITCH(-) (just 1 seconds) and measure between LED(+) and GROUND Reset Pad >> 0VSo this seems to work in general
I used a 1N4002 Diode ... This shuts against 100V and I can provide 1A through ;)
A bit overgrowen but I don't know any cheaper parts...EDIT:
I measured voltage between the switch-pads!
These are 5,0V and if you press the power switch the GPIO will receive back-draws and may get damaged .... So use the diode to protect the Pi - I don't know any cheaper life insurance (and this is a working one) -
@cyperghost @day Word of warning. I think i just burned out my GPIO by my setup and redoing my image without the GPIO script installed in a pull up mode. Even though i had a 10K resistor to lower current, the pin was not set up at that time.. GPIO on any pin is not functioning. Im rethinking hooking up in pulldown mode just to avoid this.found out that the 3.3 volt line is not needed. if a gpio pin is set as pullup, it gives you 3.3 volts on the pin and all you have to do i ground it. i have another issues where the gpio just stopped triggering. on my other card, its triggering just fine
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@lostless But I think you have to stick to Python. Can you post code please?
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@cyperghost i will when i figure out whats wrong with my code and why it stopped working. could be something simple as permission issues.
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@cyperghost @day
ok, come to find out, you don't need to feed the gpio 3V. setting it as a pullup automatically sets it to 3.3V, I guess? its working! so new image of final.
now for the scripting. i want to thank @Heyoeyo for this and helping me understand a tad bit of python. Im using pin 32 so thats been made. change the pin to whatever one you're using. The file is in the home folder called reset.pyimport RPi.GPIO as GPIO import time import os # Define which pin u're using for the reset button (change this to whatever pin you use) resetBtn = 32 # Use 'board' pin numbering (i.e. the zig-zaging numbering scheme) GPIO.setmode(GPIO.BOARD) # See: https://pinout.xyz/ for the pin layout # Set the resetBtn pin to an input and enable the pull-up resistor GPIO.setup(resetBtn, GPIO.IN, pull_up_down = GPIO.PUD_UP) # Define a function which will be called when your reset button is pressed def interrupt_resetBtn(channel): # Print indication to console print "You pressed the reset button!" # Code for detecting/ending an # emulator would go here os.system('/home/pi/exit.sh') # Enable reset button interrupt to trigger on a falling edge (i.e. high-to-low transition) GPIO.add_event_detect(resetBtn, GPIO.FALLING, callback = interrupt_resetBtn, bouncetime = 1000) # -------------------------------------------------------------------- # Now just wait forever for the user to press a button # The sleep time doesn't really matter, make it long enough so it isn't wasting cpu cycles while 1: time.sleep(5)
so this just calls for a shell script called exit.sh i made in the home folder. thanks to @meleu for this. (What would do without him?)
# Terminate any emulatorcall! # This works just for RetroPie! emucall="$(sed -n 4p /dev/shm/runcommand.info | tr -d '\\"' | tr '^$[]*.()|+?{}' '.' | sed 's/[^ ]*=[^ ]* //g')" # If there's an emulator running, we need to kill it and go back to ES if [[ -n "$emucall" ]]; then emupid="$(pgrep -f "$emucall" | tr '\n' ' ')" pkill -P "$(echo $emupid | tr ' ' ',')" kill "$emupid" wait "$emupid" sleep 5 # maybe it can be lesser fi
this needs to be made executable, if you called the file exit.sh
sudo chmod +x /home/pi/exit.sh
now add to /etc/rc.local
python /home/pi/reset.py &
right before
exit 0
reboot andnow the reset can be used to exit back to es. if you want to make reset do something else, remove theimport os os.system('/home/pi/exit.sh')
and put in the code you want it to do.
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This is my mauseberry custom script that seems to be working. Im starting to actually understand this scripting stuff. Thanks to @meleu and @cyperghost and tad bit of me piecing this together form their scripts.
so edit the /etc/switch.sh file after installing the mauseberry driver.#!/bin/bash #this is the GPIO pin connected to the lead on switch labeled OUT GPIOpin1=23 #this is the GPIO pin connected to the lead on switch labeled IN GPIOpin2=24 echo "$GPIOpin1" > /sys/class/gpio/export echo "in" > /sys/class/gpio/gpio$GPIOpin1/direction echo "$GPIOpin2" > /sys/class/gpio/export echo "out" > /sys/class/gpio/gpio$GPIOpin2/direction echo "1" > /sys/class/gpio/gpio$GPIOpin2/value while [ 1 = 1 ]; do power=$(cat /sys/class/gpio/gpio$GPIOpin1/value) if [ $power = 0 ]; then sleep 1 else # End Emulationstation if condition of running binary is true # Thanks @meleu and @cyperghost for 99.9999999999999% of this # Edited by @lostless espid="$(pgrep -f "/opt/retropie/supplementary/.*/emulationstation([^.]|$)")" # Terminate any emulatorcall! # This works just for RetroPie! emucall="$(sed -n 4p /dev/shm/runcommand.info | tr -d '\\"' | tr '^$[]*.()|+?{}' '.' | sed 's/[^ ]*=[^ ]* //g')" # If there's an emulator running, we need to kill it and go back to ES if [[ -n "$emucall" ]]; then emupid="$(pgrep -f "$emucall" | tr '\n' ' ')" pkill -P "$(echo $emupid | tr ' ' ',')" kill "$emupid" wait "$emupid" sleep 5 # maybe it can be lesser fi if [ "$espid" ]; then touch /tmp/es-shutdown && chown pi:pi /tmp/es-shutdown kill $espid exit fi # End Emulationstation if condition of running binary is true (v1.56) sudo poweroff fi done
If anyone has ideas on how to improve this. Im all ears.
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@lostless said in Yet annother Retroflag NESPi case with Mausberry, Softshutdown, DUO-LED, Momentary switches:
If anyone has ideas on how to improve this.
yes. Use a proper indentation! ;-)
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@meleu oh forgive for my archaic organizational skill. Be kind I’m new to this. At least I got this far. Lol 😂
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@lostless said in Yet annother Retroflag NESPi case with Mausberry, Softshutdown, DUO-LED, Momentary switches:
If anyone has ideas on how to improve this. Im all ears.
I highly recommend shifting this more complicated script over to a simplified python script (which uses efficient GPIO edge detection instead of a BASH sleep/wait loop) in conjunction with @meleu's shutdown service (with updated kill process code as needed).
This solution@meleu's service idea takes everything that has been learned about killing emus and closing ES to save metadata and makes it into a generic script that runs no matter what is doing the shutdown. In other words, it is no longer tied to a "mausberry" script. Anything can call a shutdown and the service will trigger the proper kill commands. Then, with the complex stuff out of the way, your mausberry script can either revert to the original BASH script, or can be switched to python for more efficiency/less burden on the CPU. Performance gains are probably minimal.This has a certain elegance, as it is switch-agnostic.
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@lostless said in Yet annother Retroflag NESPi case with Mausberry, Softshutdown, DUO-LED, Momentary switches:
@meleu oh forgive for my archaic organizational skill. Be kind I’m new to this. At least I got this far. Lol 😂
Hey bro, no need to apologize. I'm glad if I can inspire people to code. That was just an idea for improvement, as you requested. ;-)
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@meleu I was hoping the sarcasm came though. I guess with English as your second language, it gets lost in translation. I’m not apologizing and I very much appreciate you and your desire to teach peoel. You have probably taught me more than any one else here. So keep it up.
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@lostless I had said before that you didnt need to add the 3v and you disagreed lol. but after you did I did research and although it is not required it is recomended. The pullup in the pie software isnt reliable according to the interwebs and to be safe you should keep your circuit how it was
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@jmcfsu13
I’m learning here. Most my knowledge is trial and error with research when I get stuck. But what do you mean by unreliable? What issues have others had? All that I can think of is possibly giving the gpio a more solid 3.3 v to work with? -
@lostless said in Yet annother Retroflag NESPi case with Mausberry, Softshutdown, DUO-LED, Momentary switches:
@jmcfsu13
I’m learning here. Most my knowledge is trial and error with research when I get stuck. But what do you mean by unreliable? What issues have others had? All that I can think of is possibly giving the gpio a more solid 3.3 v to work with?unreliable means that the GPIO - if it is unpowered is in a floating state.
If you wait for signal on this GPIO to get high than this can be caused by radiation by your mobile, electrostatic stroke if you touch one of the Pie components....The most relieable method (afaik) is to power the GPIO with 2.5-3.3V to get a high signal and wait for it's state changing to 0 by pressing the button ;)
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@cyperghost from what I’ve experiened, GPIO is actually powered with 3.3v From inside the pi’s GPIO pin if pull up is turned on and it turns on an internal software resistor. It still needs to be pulled down to trigger the low. All that adding the other 3.3v is to lower the current though the GPIO pin as far as I can tell.
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Very cool! Makes me want to get a proper case for mine.
Just to chime in on some of the questions/comments:
Pull-up resistors:
- If you configure a GPIO pin as an input and only connect a button, (no internal/external pull-up resistor) then the pin will be 'floating' until the button is pressed (i.e. it doesn't have a definite value). This means you'll get erratic signals on the pin, which will probably be misinterpreted by the pi as high-to-low and low-to-high transitions. So you might end up rebooting/shutting down your pi just by waving your hand near it.
- The internal pull-up should connect a resistor (internally) from the specified GPIO to 3.3v as @lostless says. It's the same as wiring your own external resistor, it's just there to save you the hassle because it's such a common thing to do. I believe the pi also has internal pull-down resistors if you feel like flipping the circuit upside down :p
- I don't know anything about the reliability of the internal pull-ups, but the situation @cyperghost is describing is exactly what you'd expect from a pin without pull-ups, so if they were enabled and it stills does that, I'd agree that they're unreliable! The main benefit of an external resistor is that it's something you can see and test, so it's definitely an option worth considering.
- Enabling the internal resistor and having an external resistor increases the current draw of the circuit (you're drawing current through 2 resistors in parallel instead of 1). This isn't much of an issue if you use a big enough external resistor and the benefit is that you get an added bit of redundancy in case one resistor fails.
- @lostless in the reset button wiring diagram you posted (with a 10k and 1k resistor), having that 1k resistor means the pin will only drop to 0.09V instead of fully grounding (0V) when the button is pushed. That's still well within the low-voltage threshold for the pi, so it's fine to keep it, but you can safely replace it with a direct connection if you want to simplify the circuit wiring (the 10k is providing protection from shorting the 3.3v supply. Meanwhile, connecting a GPIO-input pin directly to anything between 0-3.3V is harmless)
Reset python file:
- Just a minor thing, but I'd recommend moving the line:
import os
To the top of the file (with the other import commands). As is, the script is trying to import a library every time the reset button is pressed. Python might be smart enough to ignore it after the first call (I'm not familiar enough with python to know...) but it's overall just safer/cleaner to have it do this only once at the top of the script.
Mausberry custom script:
I'm not familiar with the Mausberry, so forgive me if I'm missing/misinterpreting something here!
The script you posted looks like it could be combined into the reset python script fairly easily. I'm not super familiar with bash, but the lines:echo "$GPIOpin1" > /sys/class/gpio/export echo "in" > /sys/class/gpio/gpio$GPIOpin1/direction echo "$GPIOpin2" > /sys/class/gpio/export echo "out" > /sys/class/gpio/gpio$GPIOpin2/direction echo "1" > /sys/class/gpio/gpio$GPIOpin2/value
Seem to be configuring the pins, which I would interpret (in python) as:
GPIO.setup(GPIOpin1, GPIO.IN, pull_up_down = GPIO.PUD_DOWN) GPIO.setup(GPIOpin2, GPIO.OUT, initial=GPIO.HIGH)
It doesn't look like the bash script uses the internal resistors (though maybe it does by default?). I've included the pull-down resistor, because of what happens in the while loop afterwards. You can remove the
pull_up_down = GPIO.PUD_DOWN
bit if you don't need it.Then the while loop that follows (in the bash script) appears to be checking GPIOpin1 for a low-to-high transition to trigger a safe shutdown (I guess that has to do with the Mausberry?). You can do this in python with code similar to the reset button script:
# Define a function which will be called when the shutdown button is triggered def interrupt_shutdownBtn(channel): os.system('/home/pi/maus_shutdown.sh') # Enable shutdown button (GPIOpin1) interrupt to trigger on a rising edge (i.e. low-to-high transition) GPIO.add_event_detect(GPIOpin1, GPIO.RISING, callback = interrupt_shutdownBtn, bouncetime = 1000)
And then you'd have to make a
maus_shutdown.sh
script like you did with theexit.sh
script, by copying the rest of that bash script into a file:espid="$(pgrep -f "/opt/retropie/supplementary/.*/emulationstation([^.]|$)")" # Terminate any emulatorcall! # This works just for RetroPie! emucall="$(sed -n 4p /dev/shm/runcommand.info | tr -d '\\"' | tr '^$[]*.()|+?{}' '.' | sed 's/[^ ]*=[^ ]* //g')" # If there's an emulator running, we need to kill it and go back to ES if [[ -n "$emucall" ]]; then emupid="$(pgrep -f "$emucall" | tr '\n' ' ')" pkill -P "$(echo $emupid | tr ' ' ',')" kill "$emupid" wait "$emupid" sleep 5 # maybe it can be lesser fi if [ "$espid" ]; then touch /tmp/es-shutdown && chown pi:pi /tmp/es-shutdown kill $espid exit fi # End Emulationstation if condition of running binary is true (v1.56) sudo poweroff
In fact, the first part of this is the
exit.sh
followed by some extra code to close emulationstation at the end (so you could split it up and re-use the exit script if you wanted, just be careful to move theespid=...
part if you do).
Anyways, you should be able to combine the python bits into the existing reset script (though I haven't tested this!). Just make sure to copy each part into the appropriate section. So for example, the pin definitions go near the top (with resetBtn = 32), GPIO.setup lines go one after another, the interrupt functions should be written one after the other and the GPIO.add_event_detect lines should be together as well.EDIT:
Changed one of the lines to use the pull-down resistor.
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