Esempio n. 1
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    def __init__(self, xid, name, rspec):
        self.xid = xid
        self.name = name
        self.time = 0
        self.bytes = 0
        self.i2bytes = 0
        self.MaxRate = default_MaxRate
        self.MinRate = bwlimit.bwmin / 1000
        self.Maxi2Rate = default_Maxi2Rate
        self.Mini2Rate = bwlimit.bwmin / 1000
        self.MaxKByte = default_MaxKByte
        self.ThreshKByte = int(.8 * self.MaxKByte)
        self.Maxi2KByte = default_Maxi2KByte
        self.Threshi2KByte = int(.8 * self.Maxi2KByte)
        self.Share = default_Share
        self.Sharei2 = default_Share
        self.emailed = False
        self.capped = False

        self.updateSliceTags(rspec)
        bwlimit.set(xid=self.xid,
                    dev=dev_default,
                    minrate=self.MinRate * 1000,
                    maxrate=self.MaxRate * 1000,
                    maxexemptrate=self.Maxi2Rate * 1000,
                    minexemptrate=self.Mini2Rate * 1000,
                    share=self.Share)
Esempio n. 2
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    def __init__(self, xid, name, rspec):
        self.xid = xid
        self.name = name
        self.time = 0
        self.bytes = 0
        self.i2bytes = 0
        self.MaxRate = default_MaxRate
        self.MinRate = bwlimit.bwmin // 1000
        self.Maxi2Rate = default_Maxi2Rate
        self.Mini2Rate = bwlimit.bwmin // 1000
        self.MaxKByte = default_MaxKByte
        self.ThreshKByte = int(.8 * self.MaxKByte)
        self.Maxi2KByte = default_Maxi2KByte
        self.Threshi2KByte = int(.8 * self.Maxi2KByte)
        self.Share = default_Share
        self.Sharei2 = default_Share
        self.emailed = False
        self.capped = False

        self.updateSliceTags(rspec)
        bwlimit.set(
            xid=self.xid, dev=dev_default,
            minrate=self.MinRate * 1000,
            maxrate=self.MaxRate * 1000,
            maxexemptrate=self.Maxi2Rate * 1000,
            minexemptrate=self.Mini2Rate * 1000,
            share=self.Share)
Esempio n. 3
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    def reset(self, runningrates, rspec):
        """
        Begin a new recording period. Remove caps by restoring limits
        to their default values.
        """
        # Cache share for later comparison
        self.Share = runningrates.get('share', 1)

        # Query Node Manager for max rate overrides
        self.updateSliceTags(rspec)

        # Reset baseline time
        self.time = time.time()

        # Reset baseline byte coutns
        self.bytes = runningrates.get('usedbytes', 0)
        self.i2bytes = runningrates.get('usedi2bytes', 0)

        # Reset email
        self.emailed = False
        # Reset flag
        self.capped = False
        # Reset rates.
        maxrate = self.MaxRate * 1000
        minrate = self.MinRate * 1000
        maxi2rate = self.Maxi2Rate * 1000
        mini2rate = self.Mini2Rate * 1000

        if (maxrate != runningrates.get('maxrate', 0)) or \
         (minrate != runningrates.get('maxrate', 0)) or \
         (maxi2rate != runningrates.get('maxexemptrate', 0)) or \
         (mini2rate != runningrates.get('minexemptrate', 0)) or \
         (self.Share != runningrates.get('share', 0)):
            logger.log("bwmon: %s reset to %s/%s" % \
                           (self.name,
                            bwlimit.format_tc_rate(maxrate),
                            bwlimit.format_tc_rate(maxi2rate)))
            bwlimit.set(xid=self.xid,
                        dev=dev_default,
                        minrate=self.MinRate * 1000,
                        maxrate=self.MaxRate * 1000,
                        maxexemptrate=self.Maxi2Rate * 1000,
                        minexemptrate=self.Mini2Rate * 1000,
                        share=self.Share)
Esempio n. 4
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    def reset(self, runningrates, rspec):
        """
        Begin a new recording period. Remove caps by restoring limits
        to their default values.
        """
        # Cache share for later comparison
        self.Share = runningrates.get('share', 1)

        # Query Node Manager for max rate overrides
        self.updateSliceTags(rspec)

        # Reset baseline time
        self.time = time.time()

        # Reset baseline byte coutns
        self.bytes = runningrates.get('usedbytes', 0)
        self.i2bytes = runningrates.get('usedi2bytes', 0)

        # Reset email
        self.emailed = False
        # Reset flag
        self.capped = False
        # Reset rates.
        maxrate = self.MaxRate * 1000
        minrate = self.MinRate * 1000
        maxi2rate = self.Maxi2Rate * 1000
        mini2rate = self.Mini2Rate * 1000

        if (maxrate != runningrates.get('maxrate', 0)) or \
         (minrate != runningrates.get('maxrate', 0)) or \
         (maxi2rate != runningrates.get('maxexemptrate', 0)) or \
         (mini2rate != runningrates.get('minexemptrate', 0)) or \
         (self.Share != runningrates.get('share', 0)):
            logger.log("bwmon: %s reset to %s/%s" % \
                           (self.name,
                            bwlimit.format_tc_rate(maxrate),
                            bwlimit.format_tc_rate(maxi2rate)))
            bwlimit.set(xid = self.xid, dev = dev_default,
                minrate = self.MinRate * 1000,
                maxrate = self.MaxRate * 1000,
                maxexemptrate = self.Maxi2Rate * 1000,
                minexemptrate = self.Mini2Rate * 1000,
                share = self.Share)
Esempio n. 5
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    def update(self, runningrates, rspec):
        """
        Update byte counts and check if byte thresholds have been
        exceeded. If exceeded, cap to remaining bytes in limit over remaining time in period.
        Recalculate every time module runs.
        """
        # cache share for later comparison
        runningrates['share'] = self.Share

        # Query Node Manager for max rate overrides
        self.updateSliceTags(rspec)

        usedbytes = runningrates['usedbytes']
        usedi2bytes = runningrates['usedi2bytes']

        # Check limits.
        if usedbytes >= (self.bytes + (self.ThreshKByte * 1024)):
            sum = self.bytes + (self.ThreshKByte * 1024)
            maxbyte = self.MaxKByte * 1024
            bytesused = usedbytes - self.bytes
            timeused = int(time.time() - self.time)
            # Calcuate new rate. in bit/s
            new_maxrate = int(
                ((maxbyte - bytesused) * 8) / (period - timeused))
            # Never go under MinRate
            if new_maxrate < (self.MinRate * 1000):
                new_maxrate = self.MinRate * 1000
            # State information.  I'm capped.
            self.capped += True
        else:
            # Sanity Check
            new_maxrate = self.MaxRate * 1000
            self.capped += False

        if usedi2bytes >= (self.i2bytes + (self.Threshi2KByte * 1024)):
            maxi2byte = self.Maxi2KByte * 1024
            i2bytesused = usedi2bytes - self.i2bytes
            timeused = int(time.time() - self.time)
            # Calcuate New Rate.
            new_maxi2rate = int(
                ((maxi2byte - i2bytesused) * 8) / (period - timeused))
            # Never go under MinRate
            if new_maxi2rate < (self.Mini2Rate * 1000):
                new_maxi2rate = self.Mini2Rate * 1000
            # State information.  I'm capped.
            self.capped += True
        else:
            # Sanity
            new_maxi2rate = self.Maxi2Rate * 1000
            self.capped += False

        # Check running values against newly calculated values so as not to run tc
        # unnecessarily
        if (runningrates['maxrate'] != new_maxrate) or \
        (runningrates['minrate'] != self.MinRate * 1000) or \
        (runningrates['maxexemptrate'] != new_maxi2rate) or \
        ('minexemptrate' in runningrates and runningrates['minexemptrate'] != self.Mini2Rate * 1000) or \
        (runningrates['share'] != self.Share):
            # Apply parameters
            bwlimit.set(xid=self.xid,
                        dev=dev_default,
                        minrate=self.MinRate * 1000,
                        maxrate=new_maxrate,
                        minexemptrate=self.Mini2Rate * 1000,
                        maxexemptrate=new_maxi2rate,
                        share=self.Share)

        # Notify slice
        if self.capped == True:
            self.notify(new_maxrate, new_maxi2rate, usedbytes, usedi2bytes)
Esempio n. 6
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    def update(self, runningrates, rspec):
        """
        Update byte counts and check if byte thresholds have been
        exceeded. If exceeded, cap to remaining bytes in limit over remaining time in period.
        Recalculate every time module runs.
        """
        # cache share for later comparison
        runningrates['share'] = self.Share

        # Query Node Manager for max rate overrides
        self.updateSliceTags(rspec)

        usedbytes = runningrates['usedbytes']
        usedi2bytes = runningrates['usedi2bytes']

        # Check limits.
        if usedbytes >= (self.bytes + (self.ThreshKByte * 1024)):
            sum = self.bytes + (self.ThreshKByte * 1024)
            maxbyte = self.MaxKByte * 1024
            bytesused = usedbytes - self.bytes
            timeused = int(time.time() - self.time)
            # Calcuate new rate. in bit/s
            new_maxrate = int(((maxbyte - bytesused) * 8)
                              / (period - timeused))
            # Never go under MinRate
            if new_maxrate < (self.MinRate * 1000):
                new_maxrate = self.MinRate * 1000
            # State information.  I'm capped.
            self.capped += True
        else:
            # Sanity Check
            new_maxrate = self.MaxRate * 1000
            self.capped += False

        if usedi2bytes >= (self.i2bytes + (self.Threshi2KByte * 1024)):
            maxi2byte = self.Maxi2KByte * 1024
            i2bytesused = usedi2bytes - self.i2bytes
            timeused = int(time.time() - self.time)
            # Calcuate New Rate.
            new_maxi2rate = int(((maxi2byte - i2bytesused) * 8)
                                /(period - timeused))
            # Never go under MinRate
            if new_maxi2rate < (self.Mini2Rate * 1000):
                new_maxi2rate = self.Mini2Rate * 1000
            # State information.  I'm capped.
            self.capped += True
        else:
            # Sanity
            new_maxi2rate = self.Maxi2Rate * 1000
            self.capped += False

        # Check running values against newly calculated values so as not to run tc
        # unnecessarily
        if (runningrates['maxrate'] != new_maxrate) or \
        (runningrates['minrate'] != self.MinRate * 1000) or \
        (runningrates['maxexemptrate'] != new_maxi2rate) or \
        ('minexemptrate' in runningrates and runningrates['minexemptrate'] != self.Mini2Rate * 1000) or \
        (runningrates['share'] != self.Share):
            # Apply parameters
            bwlimit.set(xid = self.xid, dev = dev_default,
                minrate = self.MinRate * 1000,
                maxrate = new_maxrate,
                minexemptrate = self.Mini2Rate * 1000,
                maxexemptrate = new_maxi2rate,
                share = self.Share)

        # Notify slice
        if self.capped == True:
            self.notify(new_maxrate, new_maxi2rate, usedbytes, usedi2bytes)