Add mossotest

parent ab48c83c
...@@ -8,7 +8,10 @@ will power the Beagleboard from expansion pins ( no needs to give external power ...@@ -8,7 +8,10 @@ will power the Beagleboard from expansion pins ( no needs to give external power
from usb or power connector on the beaglebone! ) from usb or power connector on the beaglebone! )
Test Debian GNU/Linux install available: take a look at Test Debian GNU/Linux install available: take a look at
https://github.com/nexlab/Osso/wiki/Osso-Test-Installation https://git.nexlab.net/nexlab/Osso/wikis/Osso-Test-Installation
Devicetree file available in the devicetree directory, mossotest.py script for python libraries
from https://github.com/adafruit/adafruit-beaglebone-io-python
For more infos: For more infos:
http://www.nexlab.net/ http://www.nexlab.net/
...@@ -20,3 +23,5 @@ http://www.nexlab.net/mosso ...@@ -20,3 +23,5 @@ http://www.nexlab.net/mosso
![mOsso board](mOsso2.png) ![mOsso board](mOsso2.png)
![mOsso PIN Diagram](mOssoPinDiagram.jpg) ![mOsso PIN Diagram](mOssoPinDiagram.jpg)
Do you like our cape? donations in Bitcoins are accepted to 1FfyqV2SnrhM5sTwL9jUCt2qPDgCPnwggi
#!/usr/bin/env python
"""
OSSO test script.
To run this you need to install devicetree support for
Osso board from https://github.com/unixmedia/Osso
and Adafruit I/O library for beaglebone
from https://github.com/adafruit/adafruit-beaglebone-io-python
(and, of course, python!)
"""
import sys, time
import Adafruit_BBIO.GPIO as GPIO
INPUTS={
1:'P8_15',
2:'P8_11',
3:'P8_14',
4:'P8_12',
}
RELAYS={
1:'P9_12',
2:'P9_15',
3:'P9_23',
4:'P8_9',
}
def printhelp():
print "Usage:", sys.argv[0], "<input|relay>"
print
print "Example:"
print
print sys.argv[0], "input 3"
print
print sys.argv[0], "relay 2"
print
def initialize():
for i in INPUTS.values():
GPIO.setup(i, GPIO.IN)
for i in RELAYS.values():
GPIO.setup(i, GPIO.OUT)
def relay(rel):
GPIO.output(RELAYS[rel], GPIO.HIGH)
print 'RELAY', rel, 'IS NOW ON (ctrl+C to exit, on exit any relay will be switched off)'
while 1: time.sleep(1)
def digitalinp(inp):
print 'INPUT', inp, 'IS', 'open' if GPIO.input(INPUTS[inp]) else 'close'
print
print 'Waiting for a state change... (or ctrl+C to exit)'
GPIO.wait_for_edge(INPUTS[inp], GPIO.BOTH)
time.sleep(.01) # Adafruit library needs a little time to detect right status
print 'INPUT', inp, 'IS NOW', 'open' if GPIO.input(INPUTS[inp]) else 'close'
def custom_excepthook(type, value, traceback):
if type is KeyboardInterrupt:
print 'Exit.'
return # do nothing
else:
sys.__excepthook__(type, value, traceback)
sys.excepthook=custom_excepthook
if __name__=='__main__':
try:
if (len(sys.argv)>=3
and sys.argv[1]=='relay'
and int(sys.argv[2]) in range(1, 9)):
initialize()
relay(int(sys.argv[2]))
sys.exit(0)
elif (len(sys.argv)>=3
and sys.argv[1]=='input'
and int(sys.argv[2]) in range(1, 9)):
initialize()
digitalinp(int(sys.argv[2]))
sys.exit(0)
except KeyboardInterrupt:
sys.exit(0)
printhelp()
sys.exit(1)
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