# Faiyaz Ahmed <faiyaza@cs.princeton.edu>
# Copyright (C) 2004-2008 The Trustees of Princeton University
#
-# $Id$
-#
import os
import sys
import time
import pickle
import socket
-import logger
import copy
import threading
-import tools
-import bwlimit
+import bwlimitlxc as bwlimit
+import logger
+import tools
import database
+from config import Config
-from sets import Set
+priority = 20
# Defaults
-debug = False
-verbose = False
-datafile = "/var/lib/misc/bwmon.dat"
+# Set DEBUG to True if you don't want to send emails
+DEBUG = False
+# Set ENABLE to False to setup buckets, but not limit.
+ENABLE = True
-try:
- sys.path.append("/etc/planetlab")
- from plc_config import *
-except:
- logger.log("bwmon: Warning: Configuration file /etc/planetlab/plc_config.py not found", 2)
- logger.log("bwmon: Running in DEBUG mode. Logging to file and not emailing.", 1)
+DB_FILE = "/var/lib/nodemanager/bwmon.pickle"
# Constants
seconds_per_day = 24 * 60 * 60
bits_per_byte = 8
+dev_default = tools.get_default_if()
# Burst to line rate (or node cap). Set by NM. in KBit/s
-default_MaxRate = int(bwlimit.get_bwcap() / 1000)
+default_MaxRate = int(bwlimit.get_bwcap(dev_default) / 1000)
default_Maxi2Rate = int(bwlimit.bwmax / 1000)
-# 5.4 Gbyte per day. 5.4 * 1024 k * 1024M * 1024G
+# 5.4 Gbyte per day. 5.4 * 1024 k * 1024M * 1024G
# 5.4 Gbyte per day max allowed transfered per recording period
-default_MaxKByte = 5662310
+# 5.4 Gbytes per day is aprox 512k/s for 24hrs (approx because original math was wrong
+# but its better to keep a higher byte total and keep people happy than correct
+# the problem and piss people off.
+# default_MaxKByte = 5662310
+
+# -- 6/1/09
+# llp wants to double these, so we use the following
+# 1mbit * 24hrs * 60mins * 60secs = bits/day
+# 1000000 * 24 * 60 * 60 / (1024 * 8)
+default_MaxKByte = 10546875
+
# 16.4 Gbyte per day max allowed transfered per recording period to I2
-default_Maxi2KByte = 17196646
+# default_Maxi2KByte = 17196646
+
+# -- 6/1/09
+# 3Mb/s for 24hrs a day (30.17 gigs)
+default_Maxi2KByte = 31640625
+
# Default share quanta
default_Share = 1
'''
Front end to sendmail. Sends email to slice alias with given subject and body.
'''
-
- sendmail = os.popen("/usr/sbin/sendmail -N never -t -f%s" % PLC_MAIL_SUPPORT_ADDRESS, "w")
+ config = Config()
+ sendmail = os.popen("/usr/sbin/sendmail -N never -t -f%s" % config.PLC_MAIL_SUPPORT_ADDRESS, "w")
# Parsed from MyPLC config
- to = [PLC_MAIL_MOM_LIST_ADDRESS]
+ to = [config.PLC_MAIL_MOM_LIST_ADDRESS]
if slice is not None and slice != "root":
- to.append(PLC_MAIL_SLICE_ADDRESS.replace("SLICE", slice))
+ to.append(config.PLC_MAIL_SLICE_ADDRESS.replace("SLICE", slice))
- header = {'from': "%s Support <%s>" % (PLC_NAME, PLC_MAIL_SUPPORT_ADDRESS),
+ header = {'from': "%s Support <%s>" % (config.PLC_NAME,
+ config.PLC_MAIL_SUPPORT_ADDRESS),
'to': ", ".join(to),
'version': sys.version.split(" ")[0],
'subject': subject}
i2bytes - high bandwidth bytes transmitted at the beginning of the recording period (for I2 -F)
MaxKByte - total volume of data allowed
ThreshKbyte - After thresh, cap node to (maxkbyte - bytes)/(time left in period)
- Maxi2KByte - same as MaxKByte, but for i2
- Threshi2Kbyte - same as Threshi2KByte, but for i2
- MaxRate - max_rate slice attribute.
+ Maxi2KByte - same as MaxKByte, but for i2
+ Threshi2Kbyte - same as Threshi2KByte, but for i2
+ MaxRate - max_rate slice attribute.
Maxi2Rate - max_exempt_rate slice attribute.
Share - Used by Sirius to loan min rates
Sharei2 - Used by Sirius to loan min rates for i2
self.emailed = False
self.capped = False
- self.updateSliceAttributes(rspec)
- bwlimit.set(xid = self.xid,
- minrate = self.MinRate * 1000,
- maxrate = self.MaxRate * 1000,
+ 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)
def __repr__(self):
return self.name
- def updateSliceAttributes(self, rspec):
+ def updateSliceTags(self, rspec):
'''
Use respects from GetSlivers to PLC to populate slice object. Also
do some sanity checking.
MinRate = int(.25 * default_MaxRate)
if MinRate != self.MinRate:
self.MinRate = MinRate
- logger.log("bwmon: Updating %s: Min Rate = %s" %(self.name, self.MinRate))
+ logger.log("bwmon: Updating %s: Min Rate = %s" %(self.name, self.MinRate))
- MaxRate = int(rspec.get('net_max_rate', bwlimit.get_bwcap() / 1000))
+ MaxRate = int(rspec.get('net_max_rate', default_MaxRate))
if MaxRate != self.MaxRate:
self.MaxRate = MaxRate
- logger.log("bwmon: Updating %s: Max Rate = %s" %(self.name, self.MaxRate))
+ logger.log("bwmon: Updating %s: Max Rate = %s" %(self.name, self.MaxRate))
Mini2Rate = int(rspec.get('net_i2_min_rate', bwlimit.bwmin / 1000))
if Mini2Rate != self.Mini2Rate:
- self.Mini2Rate = Mini2Rate
- logger.log("bwmon: Updating %s: Min i2 Rate = %s" %(self.name, self.Mini2Rate))
+ self.Mini2Rate = Mini2Rate
+ logger.log("bwmon: Updating %s: Min i2 Rate = %s" %(self.name, self.Mini2Rate))
- Maxi2Rate = int(rspec.get('net_i2_max_rate', bwlimit.bwmax / 1000))
+ Maxi2Rate = int(rspec.get('net_i2_max_rate', default_Maxi2Rate))
if Maxi2Rate != self.Maxi2Rate:
self.Maxi2Rate = Maxi2Rate
- logger.log("bwmon: Updating %s: Max i2 Rate = %s" %(self.name, self.Maxi2Rate))
-
+ logger.log("bwmon: Updating %s: Max i2 Rate = %s" %(self.name, self.Maxi2Rate))
+
MaxKByte = int(rspec.get('net_max_kbyte', default_MaxKByte))
if MaxKByte != self.MaxKByte:
self.MaxKByte = MaxKByte
- logger.log("bwmon: Updating %s: Max KByte lim = %s" %(self.name, self.MaxKByte))
-
+ logger.log("bwmon: Updating %s: Max KByte lim = %s" %(self.name, self.MaxKByte))
+
Maxi2KByte = int(rspec.get('net_i2_max_kbyte', default_Maxi2KByte))
if Maxi2KByte != self.Maxi2KByte:
self.Maxi2KByte = Maxi2KByte
- logger.log("bwmon: Updating %s: Max i2 KByte = %s" %(self.name, self.Maxi2KByte))
-
+ logger.log("bwmon: Updating %s: Max i2 KByte = %s" %(self.name, self.Maxi2KByte))
+
ThreshKByte = int(rspec.get('net_thresh_kbyte', (MaxKByte * .8)))
if ThreshKByte != self.ThreshKByte:
self.ThreshKByte = ThreshKByte
- logger.log("bwmon: Updating %s: Thresh KByte = %s" %(self.name, self.ThreshKByte))
-
+ logger.log("bwmon: Updating %s: Thresh KByte = %s" %(self.name, self.ThreshKByte))
+
Threshi2KByte = int(rspec.get('net_i2_thresh_kbyte', (Maxi2KByte * .8)))
- if Threshi2KByte != self.Threshi2KByte:
+ if Threshi2KByte != self.Threshi2KByte:
self.Threshi2KByte = Threshi2KByte
- logger.log("bwmon: Updating %s: i2 Thresh KByte = %s" %(self.name, self.Threshi2KByte))
-
+ logger.log("bwmon: Updating %s: i2 Thresh KByte = %s" %(self.name, self.Threshi2KByte))
+
Share = int(rspec.get('net_share', default_Share))
if Share != self.Share:
self.Share = Share
- logger.log("bwmon: Updating %s: Net Share = %s" %(self.name, self.Share))
+ logger.log("bwmon: Updating %s: Net Share = %s" %(self.name, self.Share))
Sharei2 = int(rspec.get('net_i2_share', default_Share))
if Sharei2 != self.Sharei2:
- self.Sharei2 = Sharei2
- logger.log("bwmon: Updating %s: Net i2 Share = %s" %(self.name, self.i2Share))
+ self.Sharei2 = Sharei2
+ logger.log("bwmon: Updating %s: Net i2 Share = %s" %(self.name, self.i2Share))
- def reset(self, runningmaxrate, runningmaxi2rate, usedbytes, usedi2bytes, rspec):
+ 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.updateSliceAttributes(rspec)
+ self.updateSliceTags(rspec)
# Reset baseline time
self.time = time.time()
# Reset baseline byte coutns
- self.bytes = usedbytes
- self.i2bytes = usedi2bytes
+ self.bytes = runningrates.get('usedbytes', 0)
+ self.i2bytes = runningrates.get('usedi2bytes', 0)
- # Reset email
+ # Reset email
self.emailed = False
# Reset flag
self.capped = False
# Reset rates.
- maxrate = self.MaxRate * 1000
+ maxrate = self.MaxRate * 1000
+ minrate = self.MinRate * 1000
maxi2rate = self.Maxi2Rate * 1000
- if (self.MaxRate != runningmaxrate) or (self.Maxi2Rate != runningmaxi2rate):
- logger.log("bwmon: %s reset to %s/%s" % \
- (self.name,
- bwlimit.format_tc_rate(maxrate),
- bwlimit.format_tc_rate(maxi2rate)), 1)
- bwlimit.set(xid = self.xid,
- minrate = self.MinRate * 1000,
- maxrate = self.MaxRate * 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)
'date': time.asctime(time.gmtime()) + " GMT",
'period': format_period(period)}
- if new_maxrate != self.MaxRate:
+ if new_maxrate != (self.MaxRate * 1000):
# Format template parameters for low bandwidth message
params['class'] = "low bandwidth"
params['bytes'] = format_bytes(usedbytes - self.bytes)
# Cap low bandwidth burst rate
message += template % params
- logger.log("bwmon: ** %(slice)s %(class)s capped at %(new_maxrate)s/s " % params)
+ logger.log("bwmon: ** %(slice)s %(class)s capped at %(new_maxrate)s/s " % params)
- if new_maxexemptrate != self.Maxi2Rate:
+ if new_maxexemptrate != (self.Maxi2Rate * 1000):
# Format template parameters for high bandwidth message
params['class'] = "high bandwidth"
params['bytes'] = format_bytes(usedi2bytes - self.i2bytes)
params['limit'] = format_bytes(self.Maxi2KByte * 1024)
params['new_maxrate'] = bwlimit.format_tc_rate(new_maxexemptrate)
-
+
message += template % params
- logger.log("bwmon: ** %(slice)s %(class)s capped at %(new_maxrate)s/s " % params)
-
+ logger.log("bwmon: ** %(slice)s %(class)s capped at %(new_maxrate)s/s " % params)
+
# Notify slice
- if message and self.emailed == False:
+ if self.emailed == False:
subject = "pl_mom capped bandwidth of slice %(slice)s on %(hostname)s" % params
- if debug:
- logger.log("bwmon: "+ subject)
- logger.log("bwmon: "+ message + (footer % params))
+ if DEBUG:
+ logger.log("bwmon: "+ subject)
+ logger.log("bwmon: "+ message + (footer % params))
else:
self.emailed = True
+ logger.log("bwmon: Emailing %s" % self.name)
slicemail(self.name, subject, message + (footer % params))
- def update(self, runningmaxrate, runningmaxi2rate, usedbytes, usedi2bytes, runningshare, rspec):
+ 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.
+ 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.updateSliceAttributes(rspec)
+ self.updateSliceTags(rspec)
+
+ usedbytes = runningrates['usedbytes']
+ usedi2bytes = runningrates['usedi2bytes']
# Check limits.
if usedbytes >= (self.bytes + (self.ThreshKByte * 1024)):
maxbyte = self.MaxKByte * 1024
bytesused = usedbytes - self.bytes
timeused = int(time.time() - self.time)
- # Calcuate new rate.
+ # 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
+ self.capped += True
else:
# Sanity Check
new_maxrate = self.MaxRate * 1000
- self.capped = False
-
+ self.capped += False
+
if usedi2bytes >= (self.i2bytes + (self.Threshi2KByte * 1024)):
maxi2byte = self.Maxi2KByte * 1024
i2bytesused = usedi2bytes - self.i2bytes
if new_maxi2rate < (self.Mini2Rate * 1000):
new_maxi2rate = self.Mini2Rate * 1000
# State information. I'm capped.
- self.capped = True
+ self.capped += True
else:
# Sanity
new_maxi2rate = self.Maxi2Rate * 1000
- self.capped = False
-
- # Apply parameters
- bwlimit.set(xid = self.xid,
- minrate = self.MinRate * 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 \
+ (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 and self.emailed == False:
+ if self.capped == True:
self.notify(new_maxrate, new_maxi2rate, usedbytes, usedi2bytes)
Turn off HTBs without names.
"""
livehtbs = {}
- for params in bwlimit.get():
+ for params in bwlimit.get(dev = dev_default):
(xid, share,
minrate, maxrate,
minexemptrate, maxexemptrate,
usedbytes, usedi2bytes) = params
-
+
name = bwlimit.get_slice(xid)
if (name is None) \
and (xid != default_xid):
# Orphaned (not associated with a slice) class
name = "%d?" % xid
- logger.log("bwmon: Found orphaned HTB %s. Removing." %name, 1)
- bwlimit.off(xid)
+ logger.log("bwmon: Found orphaned HTB %s. Removing." %name)
+ bwlimit.off(xid, dev = dev_default)
livehtbs[xid] = {'share': share,
'minrate': minrate,
'maxexemptrate': maxexemptrate,
'minexemptrate': minexemptrate,
'usedbytes': usedbytes,
- 'name': name,
+ 'name': name,
'usedi2bytes': usedi2bytes}
return livehtbs
def sync(nmdbcopy):
"""
- Syncs tc, db, and bwmon.dat. Then, starts new slices, kills old ones, and updates byte accounts for each running slice. Sends emails and caps those that went over their limit.
+ Syncs tc, db, and bwmon.pickle.
+ Then, starts new slices, kills old ones, and updates byte accounts for each running slice.
+ Sends emails and caps those that went over their limit.
"""
# Defaults
- global datafile, \
+ global DB_FILE, \
period, \
default_MaxRate, \
default_Maxi2Rate, \
default_MaxKByte,\
default_Maxi2KByte,\
- default_Share,\
- verbose
+ default_Share, \
+ dev_default
# All slices
names = []
- # Incase the limits have changed.
- default_MaxRate = int(bwlimit.get_bwcap() / 1000)
+ # In case the limits have changed.
+ default_MaxRate = int(bwlimit.get_bwcap(dev_default) / 1000)
default_Maxi2Rate = int(bwlimit.bwmax / 1000)
# Incase default isn't set yet.
if default_MaxRate == -1:
default_MaxRate = 1000000
+ # xxx $Id$
+ # with svn we used to have a trick to detect upgrades of this file
+ # this has gone with the move to git, without any noticeable effect on operations though
try:
- f = open(datafile, "r+")
- logger.log("bwmon: Loading %s" % datafile, 2)
+ f = open(DB_FILE, "r+")
+ logger.verbose("bwmon: Loading %s" % DB_FILE)
(version, slices, deaddb) = pickle.load(f)
f.close()
# Check version of data file
if version != "$Id$":
- logger.log("bwmon: Not using old version '%s' data file %s" % (version, datafile))
+ logger.log("bwmon: Not using old version '%s' data file %s" % (version, DB_FILE))
raise Exception
except Exception:
version = "$Id$"
root_xid = bwlimit.get_xid("root")
default_xid = bwlimit.get_xid("default")
- # Since root is required for sanity, its not in the API/plc database, so pass {}
+ # Since root is required for sanity, its not in the API/plc database, so pass {}
# to use defaults.
if root_xid not in slices.keys():
slices[root_xid] = Slice(root_xid, "root", {})
- slices[root_xid].reset(0, 0, 0, 0, {})
-
+ slices[root_xid].reset({}, {})
+
# Used by bwlimit. pass {} since there is no rspec (like above).
if default_xid not in slices.keys():
slices[default_xid] = Slice(default_xid, "default", {})
- slices[default_xid].reset(0, 0, 0, 0, {})
+ slices[default_xid].reset({}, {})
live = {}
# Get running slivers that should be on this node (from plc). {xid: name}
for plcSliver in nmdbcopy.keys():
live[bwlimit.get_xid(plcSliver)] = nmdbcopy[plcSliver]
- logger.log("bwmon: Found %s instantiated slices" % live.keys().__len__(), 2)
- logger.log("bwmon: Found %s slices in dat file" % slices.values().__len__(), 2)
+ logger.verbose("bwmon: Found %s instantiated slices" % live.keys().__len__())
+ logger.verbose("bwmon: Found %s slices in dat file" % slices.values().__len__())
# Get actual running values from tc.
# Update slice totals and bandwidth. {xid: {values}}
kernelhtbs = gethtbs(root_xid, default_xid)
- logger.log("bwmon: Found %s running HTBs" % kernelhtbs.keys().__len__(), 2)
+ logger.verbose("bwmon: Found %s running HTBs" % kernelhtbs.keys().__len__())
# The dat file has HTBs for slices, but the HTBs aren't running
- nohtbslices = Set(slices.keys()) - Set(kernelhtbs.keys())
- logger.log( "bwmon: Found %s slices in dat but not running." % nohtbslices.__len__(), 2)
+ nohtbslices = set(slices.keys()) - set(kernelhtbs.keys())
+ logger.verbose( "bwmon: Found %s slices in dat but not running." % nohtbslices.__len__())
# Reset tc counts.
for nohtbslice in nohtbslices:
- if live.has_key(nohtbslice):
- slices[nohtbslice].reset( 0, 0, 0, 0, live[nohtbslice]['_rspec'] )
+ if live.has_key(nohtbslice):
+ slices[nohtbslice].reset( {}, live[nohtbslice]['_rspec'] )
else:
- logger.log("bwmon: Removing abondoned slice %s from dat." % nohtbslice)
+ logger.log("bwmon: Removing abondoned slice %s from dat." % nohtbslice)
del slices[nohtbslice]
# The dat file doesnt have HTB for the slice but kern has HTB
- slicesnodat = Set(kernelhtbs.keys()) - Set(slices.keys())
- logger.log( "bwmon: Found %s slices with HTBs but not in dat" % slicesnodat.__len__(), 2)
+ slicesnodat = set(kernelhtbs.keys()) - set(slices.keys())
+ logger.verbose( "bwmon: Found %s slices with HTBs but not in dat" % slicesnodat.__len__())
for slicenodat in slicesnodat:
- # But slice is running
- if live.has_key(slicenodat):
+ # But slice is running
+ if live.has_key(slicenodat):
# init the slice. which means start accounting over since kernel
# htb was already there.
- slices[slicenodat] = Slice(slicenodat,
- live[slicenodat]['name'],
+ slices[slicenodat] = Slice(slicenodat,
+ live[slicenodat]['name'],
live[slicenodat]['_rspec'])
# Get new slices.
# Slices in GetSlivers but not running HTBs
- newslicesxids = Set(live.keys()) - Set(kernelhtbs.keys())
- logger.log("bwmon: Found %s new slices" % newslicesxids.__len__(), 2)
-
+ newslicesxids = set(live.keys()) - set(kernelhtbs.keys())
+ logger.verbose("bwmon: Found %s new slices" % newslicesxids.__len__())
+
# Setup new slices
for newslice in newslicesxids:
# Delegated slices dont have xids (which are uids) since they haven't been
if newslice != None and live[newslice].has_key('_rspec') == True:
# Check to see if we recently deleted this slice.
if live[newslice]['name'] not in deaddb.keys():
- logger.log( "bwmon: New Slice %s" % live[newslice]['name'] )
+ logger.log( "bwmon: new slice %s" % live[newslice]['name'] )
# _rspec is the computed rspec: NM retrieved data from PLC, computed loans
# and made a dict of computed values.
slices[newslice] = Slice(newslice, live[newslice]['name'], live[newslice]['_rspec'])
- slices[newslice].reset( 0, 0, 0, 0, live[newslice]['_rspec'] )
+ slices[newslice].reset( {}, live[newslice]['_rspec'] )
# Double check time for dead slice in deaddb is within 24hr recording period.
elif (time.time() <= (deaddb[live[newslice]['name']]['slice'].time + period)):
deadslice = deaddb[live[newslice]['name']]
slices[newslice] = deadslice['slice']
slices[newslice].xid = newslice
# Start the HTB
- slices[newslice].reset(deadslice['slice'].MaxRate,
- deadslice['slice'].Maxi2Rate,
- deadslice['htb']['usedbytes'],
- deadslice['htb']['usedi2bytes'],
- live[newslice]['_rspec'])
+ newvals = {"maxrate": deadslice['slice'].MaxRate * 1000,
+ "minrate": deadslice['slice'].MinRate * 1000,
+ "maxexemptrate": deadslice['slice'].Maxi2Rate * 1000,
+ "usedbytes": deadslice['htb']['usedbytes'] * 1000,
+ "usedi2bytes": deadslice['htb']['usedi2bytes'],
+ "share":deadslice['htb']['share']}
+ slices[newslice].reset(newvals, live[newslice]['_rspec'])
# Bring up to date
- slices[newslice].update(deadslice['slice'].MaxRate,
- deadslice['slice'].Maxi2Rate,
- deadslice['htb']['usedbytes'],
- deadslice['htb']['usedi2bytes'],
- deadslice['htb']['share'],
- live[newslice]['_rspec'])
+ slices[newslice].update(newvals, live[newslice]['_rspec'])
# Since the slice has been reinitialed, remove from dead database.
del deaddb[deadslice['slice'].name]
+ del newvals
else:
- logger.log("bwmon: Slice %s doesn't have xid. Skipping." % live[newslice]['name'])
+ logger.log("bwmon: Slice %s doesn't have xid. Skipping." % live[newslice]['name'])
# Move dead slices that exist in the pickle file, but
# aren't instantiated by PLC into the dead dict until
# recording period is over. This is to avoid the case where a slice is dynamically created
# and destroyed then recreated to get around byte limits.
- deadxids = Set(slices.keys()) - Set(live.keys())
- logger.log("bwmon: Found %s dead slices" % (deadxids.__len__() - 2), 2)
+ deadxids = set(slices.keys()) - set(live.keys())
+ logger.verbose("bwmon: Found %s dead slices" % (deadxids.__len__() - 2))
for deadxid in deadxids:
if deadxid == root_xid or deadxid == default_xid:
continue
- logger.log("bwmon: removing dead slice %s " % deadxid)
+ logger.log("bwmon: removing dead slice %s " % deadxid)
if slices.has_key(deadxid) and kernelhtbs.has_key(deadxid):
# add slice (by name) to deaddb
- logger.log("bwmon: Saving bandwidth totals for %s." % slices[deadxid].name)
+ logger.log("bwmon: Saving bandwidth totals for %s." % slices[deadxid].name)
deaddb[slices[deadxid].name] = {'slice': slices[deadxid], 'htb': kernelhtbs[deadxid]}
del slices[deadxid]
- if kernelhtbs.has_key(deadxid):
- logger.log("bwmon: Removing HTB for %s." % deadxid, 2)
- bwlimit.off(deadxid)
-
+ if kernelhtbs.has_key(deadxid):
+ logger.verbose("bwmon: Removing HTB for %s." % deadxid)
+ bwlimit.off(deadxid, dev = dev_default)
+
# Clean up deaddb
for deadslice in deaddb.keys():
if (time.time() >= (deaddb[deadslice]['slice'].time + period)):
- logger.log("bwmon: Removing dead slice %s from dat." \
+ logger.log("bwmon: Removing dead slice %s from dat." \
% deaddb[deadslice]['slice'].name)
del deaddb[deadslice]
# Get actual running values from tc since we've added and removed buckets.
# Update slice totals and bandwidth. {xid: {values}}
kernelhtbs = gethtbs(root_xid, default_xid)
- logger.log("bwmon: now %s running HTBs" % kernelhtbs.keys().__len__(), 2)
+ logger.verbose("bwmon: now %s running HTBs" % kernelhtbs.keys().__len__())
+ # Update all byte limites on all slices
for (xid, slice) in slices.iteritems():
# Monitor only the specified slices
if xid == root_xid or xid == default_xid: continue
if names and name not in names:
continue
-
+
if (time.time() >= (slice.time + period)) or \
(kernelhtbs[xid]['usedbytes'] < slice.bytes) or \
(kernelhtbs[xid]['usedi2bytes'] < slice.i2bytes):
# that the byte counters have overflowed (or, more
# likely, the node was restarted or the HTB buckets
# were re-initialized).
- slice.reset(kernelhtbs[xid]['maxrate'], \
- kernelhtbs[xid]['maxexemptrate'], \
- kernelhtbs[xid]['usedbytes'], \
- kernelhtbs[xid]['usedi2bytes'], \
- live[xid]['_rspec'])
- else:
- logger.log("bwmon: Updating slice %s" % slice.name, 2)
+ slice.reset(kernelhtbs[xid], live[xid]['_rspec'])
+ elif ENABLE:
+ logger.verbose("bwmon: Updating slice %s" % slice.name)
# Update byte counts
- slice.update(kernelhtbs[xid]['maxrate'], \
- kernelhtbs[xid]['maxexemptrate'], \
- kernelhtbs[xid]['usedbytes'], \
- kernelhtbs[xid]['usedi2bytes'], \
- kernelhtbs[xid]['share'],
- live[xid]['_rspec'])
-
- logger.log("bwmon: Saving %s slices in %s" % (slices.keys().__len__(),datafile), 2)
- f = open(datafile, "w")
+ slice.update(kernelhtbs[xid], live[xid]['_rspec'])
+
+ logger.verbose("bwmon: Saving %s slices in %s" % (slices.keys().__len__(),DB_FILE))
+ f = open(DB_FILE, "w")
pickle.dump((version, slices, deaddb), f)
f.close()
+# doesnt use generic default interface because this runs as its own thread.
+# changing the config variable will not have an effect since GetSlivers: pass
+def getDefaults(nmdbcopy):
+ '''
+ Get defaults from default slice's slice attributes.
+ '''
+ status = True
+ # default slice
+ dfltslice = nmdbcopy.get(Config().PLC_SLICE_PREFIX+"_default")
+ if dfltslice:
+ if dfltslice['rspec']['net_max_rate'] == -1:
+ allOff()
+ status = False
+ return status
+
+
+def allOff():
+ """
+ Turn off all slice HTBs
+ """
+ # Get/set special slice IDs
+ root_xid = bwlimit.get_xid("root")
+ default_xid = bwlimit.get_xid("default")
+ kernelhtbs = gethtbs(root_xid, default_xid)
+ if len(kernelhtbs):
+ logger.log("bwmon: Disabling all running HTBs.")
+ for htb in kernelhtbs.keys(): bwlimit.off(htb, dev = dev_default)
+
+
lock = threading.Event()
def run():
- """When run as a thread, wait for event, lock db, deep copy it, release it, run bwmon.GetSlivers(), then go back to waiting."""
- logger.log("bwmon: Thread started", 2)
+ """
+ When run as a thread, wait for event, lock db, deep copy it, release it,
+ run bwmon.GetSlivers(), then go back to waiting.
+ """
+ logger.verbose("bwmon: Thread started")
while True:
lock.wait()
- logger.log("bwmon: Event received. Running.", 2)
+ logger.verbose("bwmon: Event received. Running.")
database.db_lock.acquire()
nmdbcopy = copy.deepcopy(database.db)
database.db_lock.release()
- try: sync(nmdbcopy)
- except: logger.log_exc()
+ try:
+ if getDefaults(nmdbcopy) and len(bwlimit.tc("class show dev %s" % dev_default)) > 0:
+ # class show to check if net:InitNodeLimit:bwlimit.init has run.
+ sync(nmdbcopy)
+ else: logger.log("bwmon: BW limits DISABLED.")
+ except: logger.log_exc("bwmon failed")
lock.clear()
def start(*args):
tools.as_daemon_thread(run)
def GetSlivers(*args):
+ logger.verbose ("bwmon: triggering dummy GetSlivers")
pass