view beermon.py @ 1:af88c0f96295 BEERMON_0_1

Initial revision
author darius
date Sun, 23 Sep 2007 03:17:47 +0000
parents
children f197f6716cd6
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#!/usr/bin/env python

import pexpect, re, threading, time, logging
from logging.handlers import RotatingFileHandler

class ROMReadError(Exception):
    pass

class Control():
    targetTemp = 18
    hysteresis = 4
    pollInterval = 30
    
    def __init__(self, m):
        self.m = m
        self.initLog()
        
    def initLog(self):
        # Init our logging
        global log
        log = logging.getLogger("monitor")

        # Default to warts and all logging
        log.setLevel(logging.DEBUG)

        # Log to this file
        logfile = logging.handlers.RotatingFileHandler(filename = "/tmp/monitor.log",
                                                       maxBytes = 10000, backupCount = 3)

        # And stderr
        logstderr = logging.StreamHandler()

        # Format it nicely
        formatter = logging.Formatter(fmt = "%(asctime)s: %(message)s", datefmt = "%Y%m%d %H:%M:%S")

        # Glue it all together
        logfile.setFormatter(formatter)
        logstderr.setFormatter(formatter)
        log.addHandler(logfile)
        log.addHandler(logstderr)
        return(log)

    def doit(self):
        log.debug("=== Inited ===")
        log.debug("target temperature - %3.2f" % (self.targetTemp))
        log.debug("fermenterId - %s" % (self.m.fermenterId))
        log.debug("fridgeId - %s" % (self.m.fridgeId))
        log.debug("ambientId - %s" % (self.m.ambientId))
        log.debug("minCoolOnTime - %d, minCoolOffTime - %d" % (self.m.minCoolOnTime, self.m.minCoolOffTime))
        log.debug("minHeatOnTime - %d, minHeatOffTime - %d" % (self.m.minHeatOnTime, self.m.minHeatOffTime))
        log.debug("pollInterval - %d" % (self.pollInterval))
        
        log.debug("=== Starting ===")
        log.debug("Fermenter	Fridge	Ambient	State	New State")
        while True:
            if (self.m.lastUpdate == 0):
                print "%s Invalid data" % (time.asctime())
                time.sleep(30)
                self.m.setState('idle')
                continue

            nextState = "-"

            diff = self.m.temps[self.m.fermenterId] - self.targetTemp
            if (self.m.currState == 'idle'):
                # If we're idle then only heat or cool if the temperate difference is out of the
                # hysteresis range
                if (abs(diff) > self.hysteresis):
                    if (diff < 0 and self.m.minHeatOffTime + self.m.lastHeatOff < time.time()):
                        nextState = 'heat'
                    elif (diff > 0 and self.m.minHeatOffTime + self.m.lastHeatOff < time.time()):
                        nextState = 'cool'
            elif (self.m.currState == 'cool'):
                # Go idle as soon as we can, there will be overshoot anyway
                if (diff < 0 and self.m.minCoolOnTime + self.m.lastCoolOn < time.time()):
                    nextState = 'idle'
            elif (self.m.currState == 'heat'):
                if (diff > 0 and self.m.minHeatOnTime + self.m.lastHeatOn < time.time()):
                    nextState = 'idle'
            else:
                raise KeyError

            log.debug("%3.2f   	%3.2f	%3.2f	%s	%s" %
                      (self.m.temps[self.m.fermenterId],
                       self.m.temps[self.m.fridgeId], self.m.temps[self.m.ambientId],
                       self.m.currState, nextState))
            if (nextState != "-"):
                self.m.setState(nextState)
                
            time.sleep(self.pollInterval)
            

class MonitorDev(threading.Thread):
    # Match a ROM ID (eg 00:11:22:33:44:55:66:77)
    romre = re.compile('([0-9a-f]{2}:){7}[0-9a-f]{2}')
    # Match the prompt
    promptre = re.compile('> ')

    coolRelay = 7
    heatRelay = 6
    
    fermenterId = '10:eb:48:21:01:08:00:df'
    fridgeId = '10:a6:2a:c4:00:08:00:11'
    ambientId = '10:97:1b:fe:00:08:00:d1'
    
    # minimum time the cooler must spend on/off
    minCoolOnTime = 10 * 60
    minCoolOffTime = 10 * 60

    # minimum time the heater must spend on/off
    minHeatOnTime = 60
    minHeatOffTime = 60

    temps = {}
    lastUpdate = 0

    # Lock to gate access to the comms
    commsLock = None

    currState = 'idle'

    lastHeatOn = 0
    lastHeatOff = 0
    lastCoolOn = 0
    lastCoolOff = 0

    def __init__(self):
        threading.Thread.__init__(self)
        self.commsLock = threading.Lock()
        self.p = pexpect.spawn('/usr/bin/ssh', ['-xt', '-enone', '-i', '/home/darius/.ssh/id_wrt', 'root@wrt', '(echo logged in; microcom -D/dev/cua/1)'])
        assert(self.p.expect('logged in') == 0)
        self.p.timeout = 3
        self.setspeed()
        self.devs = self.find1wire()
        self.temps = filter(self.istemp, self.devs)

        self.start()
        
    def setspeed(self):
        self.commsLock.acquire()
        self.p.send('~')
        assert(self.p.expect('t - set terminal') == 0)
        self.p.send('t')
        assert(self.p.expect('p - set speed') == 0)
        self.p.send('p')
        assert(self.p.expect('f - 38400') == 0)
        self.p.send('f')
        assert(self.p.expect('done!') == 0)
        self.commsLock.release()
        
    def find1wire(self):
        self.commsLock.acquire()
        self.p.sendline('')
        assert(self.p.expect('> ') == 0)
        self.p.sendline('sr')
        # Echo
        assert(self.p.expect('sr') == 0)

        # Send a new line which will give us a command prompt to stop on
        # later. We could use read() but that would make the code a lot
        # uglier
        self.p.sendline('')

        devlist = []

        # Loop until we get the command prompt (> ) collecting ROM IDs
        while True:
            idx = self.p.expect([self.romre, self.promptre])
            if (idx == 0):
                # Matched a ROM
                #print "Found ROM " + self.p.match.group()
                devlist.append(self.p.match.group(0))
            elif (idx == 1):
                # Matched prompt, exit
                break
            else:
                # Unpossible!
                self.commsLock.release()
                raise SystemError()

        self.commsLock.release()

        return(devlist)

    def istemp(self, id):
        [family, a, b, c, d, e, f, g] = id.split(':')
        if (family == '10'):
            return True
        else:
            return False

    def updateTemps(self):
        tmp = {}
        for i in self.temps:
            tmp[i] = float(self.readTemp(i))

        self.temps = tmp
        self.lastUpdate = time.time()
        return(self.temps)

    def readTemp(self, id):
        self.commsLock.acquire()
        cmd = 'te ' + id
        self.p.sendline(cmd)
        # Echo
        assert(self.p.expect(cmd) == 0)
        # Eat EOL left from expect
        self.p.readline()

        line = self.p.readline().strip()
        self.commsLock.release()
        # 'CRC mismatch' can mean that we picked the wrong ROM..
        if (re.match('CRC mismatch', line) != None):
            raise ROMReadError

        return(line)

    def setState(self, state):
        if (state == 'cool'):
            relay = 1 << self.coolRelay
        elif (state == 'heat'):
            relay = 1 << self.heatRelay
        elif (state == 'idle'):
            relay = 0
        else:
            raise(ValueError)

        if (state == self.currState):
            return

        # Keep track of when we last turned off or on
        if (state == 'cool'):
            if (self.currState == 'heat'):
                self.lastHeatOff = time.time()
            self.lastCoolOn = time.time()
        elif (state == 'heat'):
            if (self.currState == 'cool'):
                self.lastCoolOff = time.time()
            self.lastHeatOn = time.time()
        else:
            if (self.currState == 'cool'):
                self.lastCoolOff = time.time()
            if (self.currState == 'heat'):
                self.lastHeatOff = time.time()

        self.currState = state
        
        self.commsLock.acquire()
        # Need the extra spaces cause the parser in the micro is busted
        cmd = 'out c    %02x' % relay
        self.p.sendline(cmd)
            # Echo
        assert(self.p.expect(cmd) == 0)
        self.commsLock.release()
        
    def polltemps(self, temps):
        while True:
            for d in temps:
                #print d
                t = gettemp(p, d)
                print "%s -> %s" % (d, t)
            print

    def run(self):
        while True:
            self.updateTemps()

def main():
    import time, monitor

    m = monitor.MonitorDev()

    try:
        c = monitor.Control(m)
        # Wait for the first temperature readings to come through, saves
        # getting an 'invalid data' message
        time.sleep(3)
        c.doit()
        log.debug("doit exited")

    except KeyboardInterrupt:
        log.debug("Exiting due to keyboard interrupt")
        
    finally:
        # Make sure we try and turn it off if something goes wrong
        m.setState('idle')

    sys.exit(0)
    
if __name__ == "__main__":  
    main()