pyPLC/hardwareInterface.py

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# For serial (including USB-to-serial) interfaces:
# https://pyserial.readthedocs.io/en/latest/pyserial.html
# Install pyserial library:
# python -m pip install pyserial
# List ports:
# python -m serial.tools.list_ports
import serial # the pyserial
from serial.tools.list_ports import comports
from time import sleep
from configmodule import getConfigValue, getConfigValueBool
if (getConfigValue("digital_output_device")=="beaglebone"):
# In case we run on beaglebone, we want to use GPIO ports.
import Adafruit_BBIO.GPIO as GPIO
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class hardwareInterface():
def needsSerial(self):
# Find out, whether we need a serial port. This depends on several configuration items.
if (getConfigValueBool("display_via_serial")):
return True # a display is expected to be connected to serial port.
if (getConfigValue("digital_output_device")=="dieter"):
return True # a "dieter" output device is expected to be connected on serial port.
if (getConfigValue("analog_input_device")=="dieter"):
return True # a "dieter" input device is expected to be connected on serial port.
return False # non of the functionalities need a serial port.
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def findSerialPort(self):
ports = []
self.addToTrace('Available serial ports:')
for n, (port, desc, hwid) in enumerate(sorted(comports()), 1):
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if (port=="/dev/ttyAMA0"):
self.addToTrace("ignoring /dev/ttyAMA0, because this is not an USB serial port")
else:
self.addToTrace('{:2}: {:20} {!r}'.format(n, port, desc))
ports.append(port)
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if (len(ports)<1):
if (self.needsSerial()):
self.addToTrace("ERROR: No serial ports found. No hardware interaction possible.")
self.ser = None
self.isSerialInterfaceOk = False
else:
self.addToTrace("We found no serial port, but also do not need it. No problem.")
self.ser = None
self.isSerialInterfaceOk = False
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else:
self.addToTrace("ok, we take the first port, " + ports[0])
try:
self.ser = serial.Serial(ports[0], 19200, timeout=0)
self.isSerialInterfaceOk = True
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except:
self.addToTrace("ERROR: Could not open serial port.")
self.ser = None
self.isSerialInterfaceOk = False
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def addToTrace(self, s):
self.callbackAddToTrace("[HARDWAREINTERFACE] " + s)
def setStateB(self):
self.addToTrace("Setting CP line into state B.")
if (getConfigValue("digital_output_device")=="beaglebone"):
GPIO.output("P8_18", GPIO.LOW)
self.outvalue &= ~1
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def setStateC(self):
self.addToTrace("Setting CP line into state C.")
if (getConfigValue("digital_output_device")=="beaglebone"):
GPIO.output("P8_18", GPIO.HIGH)
self.outvalue |= 1
def setPowerRelayOn(self):
self.addToTrace("Switching PowerRelay ON.")
if (getConfigValue("digital_output_device")=="beaglebone"):
GPIO.output("P8_16", GPIO.HIGH)
self.outvalue |= 2
def setPowerRelayOff(self):
self.addToTrace("Switching PowerRelay OFF.")
if (getConfigValue("digital_output_device")=="beaglebone"):
GPIO.output("P8_16", GPIO.LOW)
self.outvalue &= ~2
def setRelay2On(self):
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self.addToTrace("Switching Relay2 ON.")
self.outvalue |= 4
def setRelay2Off(self):
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self.addToTrace("Switching Relay2 OFF.")
self.outvalue &= ~4
def getPowerRelayConfirmation(self):
return 1 # todo: self.contactor_confirmed
def getInletVoltage(self):
# uncomment this line, to take the simulated inlet voltage instead of the really measured
# self.inletVoltage = self.simulatedInletVoltage
return self.inletVoltage
def getAccuVoltage(self):
#todo: get real measured voltage from the accu
self.accuVoltage = 230
return self.accuVoltage
def getAccuMaxCurrent(self):
#todo: get max charging current from the BMS
self.accuMaxCurrent = 10
return self.accuMaxCurrent
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def getAccuMaxVoltage(self):
#todo: get max charging voltage from the BMS
self.accuMaxVoltage = 230
return self.accuMaxVoltage
def getIsAccuFull(self):
#todo: get "full" indication from the BMS
self.IsAccuFull = (self.simulatedSoc >= 98)
return self.IsAccuFull
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def getSoc(self):
#todo: get SOC from the BMS
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self.callbackShowStatus(format(self.simulatedSoc,".1f"), "soc")
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return self.simulatedSoc
def initPorts(self):
if (getConfigValue("digital_output_device") == "beaglebone"):
# Port configuration according to https://github.com/jsphuebner/pyPLC/commit/475f7fe9f3a67da3d4bd9e6e16dfb668d0ddb1d6
GPIO.setup("P8_16", GPIO.OUT) #output for port relays
GPIO.setup("P8_18", GPIO.OUT) #output for CP
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def __init__(self, callbackAddToTrace=None, callbackShowStatus=None):
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self.callbackAddToTrace = callbackAddToTrace
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self.callbackShowStatus = callbackShowStatus
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self.loopcounter = 0
self.outvalue = 0
self.simulatedSoc = 20.0 # percent
self.inletVoltage = 0.0 # volts
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self.rxbuffer = ""
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self.findSerialPort()
self.initPorts()
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def resetSimulation(self):
self.simulatedInletVoltage = 0.0 # volts
self.simulatedSoc = 20.0 # percent
def simulatePreCharge(self):
if (self.simulatedInletVoltage<230):
self.simulatedInletVoltage = self.simulatedInletVoltage + 1.0 # simulate increasing voltage during PreCharge
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def close(self):
if (self.isSerialInterfaceOk):
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self.ser.close()
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def evaluateReceivedData(self, s):
self.rxbuffer += s
x=self.rxbuffer.find("A0=")
if (x>=0):
s = self.rxbuffer[x+3:x+7]
if (len(s)==4):
try:
self.inletVoltage = int(s) / 1024.0 * 1.08 * (6250) / (4.7+4.7)
if (getConfigValue("analog_input_device")=="dieter"):
self.callbackShowStatus(format(self.inletVoltage,".1f"), "uInlet")
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except:
# keep last known value, if nothing new valid was received.
pass
#self.addToTrace("RX data ok " + s)
self.rxbuffer = self.rxbuffer[x+3:] # consume the receive buffer entry
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def showOnDisplay(self, s1, s2, s3):
# show the given string s on the display which is connected to the serial port
if (getConfigValueBool("display_via_serial") and self.isSerialInterfaceOk):
s = "lc" + s1 + "\n" + "lc" + s2 + "\n" + "lc" + s3 + "\n"
self.ser.write(bytes(s, "utf-8"))
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def mainfunction(self):
if (getConfigValueBool("soc_simulation")):
if (self.simulatedSoc<100):
if ((self.outvalue & 2)!=0):
# while the relay is closed, simulate increasing SOC
self.simulatedSoc = self.simulatedSoc + 0.01
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self.loopcounter+=1
if (self.isSerialInterfaceOk):
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if (self.loopcounter>15):
self.loopcounter=0
# self.ser.write(b'hello world\n')
s = "000" + str(self.outvalue)
self.ser.write(bytes("do"+s+"\n", "utf-8")) # set outputs of dieter, see https://github.com/uhi22/dieter
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s = self.ser.read(100)
if (len(s)>0):
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try:
s = str(s, 'utf-8').strip()
except:
s = "" # for the case we received corrupted data (not convertable as utf-8)
self.addToTrace(str(len(s)) + " bytes received: " + s)
self.evaluateReceivedData(s)
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def myPrintfunction(s):
print("myprint " + s)
if __name__ == "__main__":
print("Testing hardwareInterface...")
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hw = hardwareInterface(myPrintfunction)
for i in range(0, 350):
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hw.mainfunction()
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if (i==20):
hw.showOnDisplay("Hello", "A DEMO", "321.0V")
if (i==50):
hw.setStateC()
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if (i==100):
hw.setStateB()
if (i==150):
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hw.setStateC()
hw.setPowerRelayOn()
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hw.showOnDisplay("", "..middle..", "")
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if (i==200):
hw.setStateB()
hw.setPowerRelayOff()
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if (i==250):
hw.setRelay2On()
if (i==300):
hw.setRelay2Off()
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if (i==320):
hw.showOnDisplay("This", "...is...", "DONE :-)")
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sleep(0.03)
hw.close()
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print("finished.")