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beerfridge.py
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beerfridge.py
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#!/usr/bin/env python
import collections
import time
import bluetooth
import sys
import subprocess
from ISStreamer.Streamer import Streamer
import RPi.GPIO as io
import os
import glob
import thread
# --------- User Settings ---------
WEIGHT_SAMPLES = 1500
WEIGHT_BASE = 83.04
WEIGHT_BOTTLE = 1.266
FRIDGE_GETTING_LOW = 32
FRIDGE_EMPTY = 22
TEMPERATURE_DELAY = 60
TEMPERATURE_TOO_HIGH_F = 50
TEMPERATURE_TOO_LOW_F = 27
BUCKET_NAME = ":beer: Beer Fridge"
BUCKET_KEY = "INSERT_BUCKET_KEY_HERE"
ACCESS_KEY = "INSERT_ACCESS_KEY_HERE"
# ---------------------------------
# Door Switch Parameters
io.setmode(io.BCM) # set GPIO mode to BCM
DOOR_PIN = 17 # enter the number of whatever GPIO pin your're using
io.setup(DOOR_PIN, io.IN) # Specify that button_io_pin will be an input
# Temperature Sensor Parameters
os.system('modprobe w1-gpio')
os.system('modprobe w1-therm')
BASE_DIR = '/sys/bus/w1/devices/'
DEVICE_FOLDER = glob.glob(BASE_DIR + '28*')[0]
DEVICE_FILE = DEVICE_FOLDER + '/w1_slave'
# Wiiboard Parameters
CONTINUOUS_REPORTING = "04" # Easier as string with leading zero
COMMAND_LIGHT = 11
COMMAND_REPORTING = 12
COMMAND_REQUEST_STATUS = 15
COMMAND_REGISTER = 16
COMMAND_READ_REGISTER = 17
INPUT_STATUS = 20
INPUT_READ_DATA = 21
EXTENSION_8BYTES = 32
BUTTON_DOWN_MASK = 8
TOP_RIGHT = 0
BOTTOM_RIGHT = 1
TOP_LEFT = 2
BOTTOM_LEFT = 3
BLUETOOTH_NAME = "Nintendo RVL-WBC-01"
def readTempRaw():
f = open(DEVICE_FILE, 'r')
lines = f.readlines()
f.close()
return lines
def readTemp():
lines = readTempRaw()
while lines[0].strip()[-3:] != 'YES':
time.sleep(0.2)
lines = readTempRaw()
equalsPos = lines[1].find('t=')
if equalsPos != -1:
tempString = lines[1][equalsPos+2:]
tempC = float(tempString) / 1000.0
return tempC
def streamTemp():
streamer = Streamer(bucket_name=BUCKET_NAME,bucket_key=BUCKET_KEY,access_key=ACCESS_KEY)
while True:
tempC = readTemp()
tempF = tempC * 9.0 / 5.0 + 32.0
if tempF > TEMPERATURE_TOO_HIGH_F:
streamer.log("Status", ":fire: :exclamation:")
if tempF < TEMPERATURE_TOO_LOW_F:
streamer.log("Status", ":snowflake: :exclamation:")
streamer.log("Temperature(F)", tempF)
streamer.flush()
print "Temperature: " + str(tempF) + " F"
time.sleep(TEMPERATURE_DELAY)
class EventProcessor:
def __init__(self):
self._measured = False
self.done = False
self._measureCnt = 0
self._events = range(WEIGHT_SAMPLES)
self.bottles = 0
self._bottlesPrev = -1
self._doorStatus = False
self._takeMeasurement = False
self.streamer = Streamer(bucket_name=BUCKET_NAME,bucket_key=BUCKET_KEY,access_key=ACCESS_KEY)
def mass(self, event):
# Take measurement ony when the door closes
if (self._doorStatus == True and event.doorStatus == False):
self._takeMeasurement = True
self._measureCnt = 0
self.streamer.log(":door: Door", "Closed")
self.streamer.flush()
print "Door Closed"
print "Starting measurement ..."
time.sleep(2)
# Door is opened, ensure no measurement is being taken
if (self._doorStatus == False and event.doorStatus == True):
self._takeMeasurement = False
self.streamer.log(":door: Door", "Open")
self.streamer.flush()
print "Door Opened"
if (self._takeMeasurement == True and event.totalWeight > 2):
self._events[self._measureCnt] = event.totalWeight*2.20462
self._measureCnt += 1
if self._measureCnt == WEIGHT_SAMPLES:
self._sum = 0
for x in range(0, WEIGHT_SAMPLES-1):
self._sum += event.totalWeight*2.20462
self._weight = self._sum/WEIGHT_SAMPLES
self._weightBottles = self._weight - WEIGHT_BASE
self.bottles = int(round(self._weightBottles / WEIGHT_BOTTLE))
self._measureCnt = 0
print str(self._weight) + " lbs total, " + str(self._weightBottles) + " lbs in bottles"
if self.bottles < FRIDGE_EMPTY:
self.streamer.log("Status", ":scream: :exclamation:")
elif self.bottles < FRIDGE_GETTING_LOW:
self.streamer.log("Status", ":worried: :exclamation:")
else:
self.streamer.log("Status", ":beers: :thumbsup:")
self.streamer.flush()
if (self.bottles != self._bottlesPrev) and (self.bottles >= 0):
self.streamer.log(":beer: Bottles Present", self.bottles)
self.streamer.flush()
if (self._bottlesPrev != -1) and (self._bottlesPrev > self.bottles):
for x in range(0, self._bottlesPrev-self.bottles):
print "Bottle removed"
self.streamer.log(":beers: Bottle Removed", ":beers:")
self.streamer.flush()
self._bottlesPrev = self.bottles
print str(self.bottles) + " Bottles"
print "Measurement complete!"
self._takeMeasurement = False
if not self._measured:
self._measured = True
self._doorStatus = event.doorStatus
@property
def weight(self):
if not self._events:
return 0
histogram = collections.Counter(round(num, 1) for num in self._events)
return histogram.most_common(1)[0][0]
class BoardEvent:
def __init__(self, topLeft, topRight, bottomLeft, bottomRight, buttonPressed, buttonReleased):
self.topLeft = topLeft
self.topRight = topRight
self.bottomLeft = bottomLeft
self.bottomRight = bottomRight
self.buttonPressed = buttonPressed
self.buttonReleased = buttonReleased
#convenience value
self.totalWeight = topLeft + topRight + bottomLeft + bottomRight
self.doorStatus = io.input(DOOR_PIN)
class Wiiboard:
def __init__(self, processor):
# Sockets and status
self.receivesocket = None
self.controlsocket = None
self.processor = processor
self.calibration = []
self.calibrationRequested = False
self.LED = False
self.address = None
self.buttonDown = False
for i in xrange(3):
self.calibration.append([])
for j in xrange(4):
self.calibration[i].append(10000) # high dummy value so events with it don't register
self.status = "Disconnected"
self.lastEvent = BoardEvent(0, 0, 0, 0, False, False)
try:
self.receivesocket = bluetooth.BluetoothSocket(bluetooth.L2CAP)
self.controlsocket = bluetooth.BluetoothSocket(bluetooth.L2CAP)
except ValueError:
raise Exception("Error: Bluetooth not found")
def isConnected(self):
return self.status == "Connected"
# Connect to the Wiiboard at bluetooth address <address>
def connect(self, address):
if address is None:
print "Non existant address"
return
self.receivesocket.connect((address, 0x13))
self.controlsocket.connect((address, 0x11))
if self.receivesocket and self.controlsocket:
print "Connected to Wiiboard at address " + address
self.status = "Connected"
self.address = address
self.calibrate()
useExt = ["00", COMMAND_REGISTER, "04", "A4", "00", "40", "00"]
self.send(useExt)
self.setReportingType()
print "Wiiboard connected"
else:
print "Could not connect to Wiiboard at address " + address
def receive(self):
while self.status == "Connected" and not self.processor.done:
data = self.receivesocket.recv(25)
intype = int(data.encode("hex")[2:4])
if intype == INPUT_STATUS:
# TODO: Status input received. It just tells us battery life really
self.setReportingType()
elif intype == INPUT_READ_DATA:
if self.calibrationRequested:
packetLength = (int(str(data[4]).encode("hex"), 16) / 16 + 1)
self.parseCalibrationResponse(data[7:(7 + packetLength)])
if packetLength < 16:
self.calibrationRequested = False
elif intype == EXTENSION_8BYTES:
self.processor.mass(self.createBoardEvent(data[2:12]))
else:
print "ACK to data write received"
def disconnect(self):
if self.status == "Connected":
self.status = "Disconnecting"
while self.status == "Disconnecting":
self.wait(100)
try:
self.receivesocket.close()
except:
pass
try:
self.controlsocket.close()
except:
pass
print "WiiBoard disconnected"
# Try to discover a Wiiboard
def discover(self):
print "Press the red sync button on the board now"
address = None
bluetoothdevices = bluetooth.discover_devices(duration=6, lookup_names=True)
for bluetoothdevice in bluetoothdevices:
if bluetoothdevice[1] == BLUETOOTH_NAME:
address = bluetoothdevice[0]
print "Found Wiiboard at address " + address
if address is None:
print "No Wiiboards discovered."
return address
def createBoardEvent(self, bytes):
buttonBytes = bytes[0:2]
bytes = bytes[2:12]
buttonPressed = False
buttonReleased = False
state = (int(buttonBytes[0].encode("hex"), 16) << 8) | int(buttonBytes[1].encode("hex"), 16)
if state == BUTTON_DOWN_MASK:
buttonPressed = True
if not self.buttonDown:
print "Button pressed"
self.buttonDown = True
if not buttonPressed:
if self.lastEvent.buttonPressed:
buttonReleased = True
self.buttonDown = False
print "Button released"
rawTR = (int(bytes[0].encode("hex"), 16) << 8) + int(bytes[1].encode("hex"), 16)
rawBR = (int(bytes[2].encode("hex"), 16) << 8) + int(bytes[3].encode("hex"), 16)
rawTL = (int(bytes[4].encode("hex"), 16) << 8) + int(bytes[5].encode("hex"), 16)
rawBL = (int(bytes[6].encode("hex"), 16) << 8) + int(bytes[7].encode("hex"), 16)
topLeft = self.calcMass(rawTL, TOP_LEFT)
topRight = self.calcMass(rawTR, TOP_RIGHT)
bottomLeft = self.calcMass(rawBL, BOTTOM_LEFT)
bottomRight = self.calcMass(rawBR, BOTTOM_RIGHT)
boardEvent = BoardEvent(topLeft, topRight, bottomLeft, bottomRight, buttonPressed, buttonReleased)
return boardEvent
def calcMass(self, raw, pos):
val = 0.0
#calibration[0] is calibration values for 0kg
#calibration[1] is calibration values for 17kg
#calibration[2] is calibration values for 34kg
if raw < self.calibration[0][pos]:
return val
elif raw < self.calibration[1][pos]:
val = 17 * ((raw - self.calibration[0][pos]) / float((self.calibration[1][pos] - self.calibration[0][pos])))
elif raw > self.calibration[1][pos]:
val = 17 + 17 * ((raw - self.calibration[1][pos]) / float((self.calibration[2][pos] - self.calibration[1][pos])))
return val
def getEvent(self):
return self.lastEvent
def getLED(self):
return self.LED
def parseCalibrationResponse(self, bytes):
index = 0
if len(bytes) == 16:
for i in xrange(2):
for j in xrange(4):
self.calibration[i][j] = (int(bytes[index].encode("hex"), 16) << 8) + int(bytes[index + 1].encode("hex"), 16)
index += 2
elif len(bytes) < 16:
for i in xrange(4):
self.calibration[2][i] = (int(bytes[index].encode("hex"), 16) << 8) + int(bytes[index + 1].encode("hex"), 16)
index += 2
# Send <data> to the Wiiboard
# <data> should be an array of strings, each string representing a single hex byte
def send(self, data):
if self.status != "Connected":
return
data[0] = "52"
senddata = ""
for byte in data:
byte = str(byte)
senddata += byte.decode("hex")
self.controlsocket.send(senddata)
#Turns the power button LED on if light is True, off if False
#The board must be connected in order to set the light
def setLight(self, light):
if light:
val = "10"
else:
val = "00"
message = ["00", COMMAND_LIGHT, val]
self.send(message)
self.LED = light
def calibrate(self):
message = ["00", COMMAND_READ_REGISTER, "04", "A4", "00", "24", "00", "18"]
self.send(message)
self.calibrationRequested = True
def setReportingType(self):
bytearr = ["00", COMMAND_REPORTING, CONTINUOUS_REPORTING, EXTENSION_8BYTES]
self.send(bytearr)
def wait(self, millis):
time.sleep(millis / 1000.0)
def main():
processor = EventProcessor()
board = Wiiboard(processor)
if len(sys.argv) == 1:
print "Discovering board..."
address = board.discover()
else:
address = sys.argv[1]
try:
# Disconnect already-connected devices.
# This is basically Linux black magic just to get the thing to work.
subprocess.check_output(["bluez-test-input", "disconnect", address], stderr=subprocess.STDOUT)
subprocess.check_output(["bluez-test-input", "disconnect", address], stderr=subprocess.STDOUT)
except:
pass
print "Trying to connect..."
board.connect(address) # The wii board must be in sync mode at this time
board.wait(200)
# Flash the LED so we know we can step on.
board.setLight(False)
board.wait(500)
board.setLight(True)
try:
thread.start_new_thread(streamTemp, ())
except:
print "Error: unable to start temperature streamer thread"
board.receive()
if __name__ == "__main__":
main()